com.google.api.gwt.oauth2.client.Auth -> com.google.api.gwt.oauth2.client.Auth:
    com.google.api.gwt.oauth2.client.TokenStore tokenStore -> a
    com.google.api.gwt.oauth2.client.Auth$Clock clock -> a
    com.google.api.gwt.oauth2.client.Auth$UrlCodex urlCodex -> a
    com.google.gwt.core.client.Scheduler scheduler -> a
    java.lang.String oauthWindowUrl -> a
    void export() -> export
com.google.api.gwt.oauth2.client.Auth$AuthRequestJso -> com.google.api.gwt.oauth2.client.Auth$AuthRequestJso:
    java.lang.String getAuthUrl() -> getAuthUrl
    java.lang.String getClientId() -> getClientId
    com.google.gwt.core.client.JsArrayString getScopesNative() -> getScopesNative
    java.lang.String getScopeDelimiter() -> getScopeDelimiter
com.google.api.gwt.oauth2.client.Auth$Clock -> com.google.api.gwt.oauth2.client.Auth$a:
com.google.api.gwt.oauth2.client.Auth$JsFunction -> com.google.api.gwt.oauth2.client.Auth$JsFunction:
    void execute(java.lang.String) -> execute
com.google.api.gwt.oauth2.client.Auth$UrlCodex -> com.google.api.gwt.oauth2.client.Auth$b:
com.google.api.gwt.oauth2.client.AuthImpl -> com.google.api.gwt.oauth2.client.AuthImpl:
    com.google.api.gwt.oauth2.client.AuthImpl INSTANCE -> a
    com.google.api.gwt.oauth2.client.TokenStoreImpl getTokenStore() -> a
    void register() -> register
    com.google.api.gwt.oauth2.client.AuthImpl$Window openWindow(java.lang.String) -> openWindow
com.google.api.gwt.oauth2.client.AuthImpl$1 -> com.google.api.gwt.oauth2.client.AuthImpl$1:
com.google.api.gwt.oauth2.client.AuthImpl$RealClock -> com.google.api.gwt.oauth2.client.AuthImpl$a:
com.google.api.gwt.oauth2.client.AuthImpl$RealUrlCodex -> com.google.api.gwt.oauth2.client.AuthImpl$RealUrlCodex:
    java.lang.String encode(java.lang.String) -> encode
    java.lang.String decode(java.lang.String) -> decode
com.google.api.gwt.oauth2.client.AuthImpl$Window -> com.google.api.gwt.oauth2.client.AuthImpl$Window:
    boolean isOpen() -> isOpen
    void close() -> close
com.google.api.gwt.oauth2.client.CookieStoreImpl -> com.google.api.gwt.oauth2.client.CookieStoreImpl:
    com.google.gwt.core.client.JavaScriptObject cachedCookies -> a
    void set(java.lang.String,java.lang.String) -> set
    java.lang.String get(java.lang.String) -> get
    void clear() -> clear
    void loadCookies() -> loadCookies
    boolean needsRefresh() -> needsRefresh
com.google.api.gwt.oauth2.client.TokenStore -> com.google.api.gwt.oauth2.client.a:
com.google.api.gwt.oauth2.client.TokenStoreImpl -> com.google.api.gwt.oauth2.client.b:
    com.google.gwt.storage.client.Storage STORAGE -> a
    void set(java.lang.String,java.lang.String) -> set
    java.lang.String get(java.lang.String) -> get
    void clear() -> clear
com.google.gwt.regexp.shared.MatchResult -> com.google.a.a.a.a:
    java.util.List groups -> a
    int index -> a
    java.lang.String input -> a
    java.lang.String getGroup(int) -> a
    int getIndex() -> a
com.google.gwt.regexp.shared.RegExp -> com.google.a.a.a.b:
    java.util.regex.Pattern REPLACEMENT_BACKSLASH -> a
    java.util.regex.Pattern REPLACEMENT_DOLLAR_AMPERSAND -> b
    java.util.regex.Pattern REPLACEMENT_DOLLAR_APOSTROPHE -> c
    java.util.regex.Pattern REPLACEMENT_DOLLAR_DOLLAR -> d
    boolean globalFlag -> a
    int lastIndex -> a
    java.util.regex.Pattern pattern -> e
    java.lang.String source -> a
    com.google.gwt.regexp.shared.RegExp compile(java.lang.String) -> a
    com.google.gwt.regexp.shared.RegExp compile(java.lang.String,java.lang.String) -> a
    java.util.Set parseFlags(java.lang.String) -> a
    com.google.gwt.regexp.shared.MatchResult exec(java.lang.String) -> a
    com.google.gwt.regexp.shared.SplitResult split(java.lang.String) -> a
    com.google.gwt.regexp.shared.SplitResult split(java.lang.String,int) -> a
    boolean test(java.lang.String) -> a
com.google.gwt.regexp.shared.SplitResult -> com.google.a.a.a.c:
    java.lang.String[] result -> a
    java.lang.String get(int) -> a
    int length() -> a
com.kitfox.svg.A -> com.a.a.a:
    java.net.URI href -> a
    java.lang.String title -> a
    java.lang.String getTagName() -> a
    void build() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Circle -> com.a.a.b:
    float cx -> a
    float cy -> b
    float r -> c
    java.awt.geom.Ellipse2D$Float circle -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.ClipPath -> com.a.a.c:
    int clipPathUnits -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void build() -> a
    int getClipPathUnits() -> a
    java.awt.Shape getClipPathShape() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Defs -> com.a.a.d:
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Desc -> com.a.a.e:
    java.lang.StringBuffer text -> a
    java.lang.String getTagName() -> a
    void loaderAddText(com.kitfox.svg.SVGLoaderHelper,java.lang.String) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Ellipse -> com.a.a.f:
    float cx -> a
    float cy -> b
    float rx -> c
    float ry -> d
    java.awt.geom.Ellipse2D$Float ellipse -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.FillElement -> com.a.a.g:
    java.awt.Paint getPaint(java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform) -> a
com.kitfox.svg.Filter -> com.a.a.h:
    int filterUnits -> a
    int primitiveUnits -> b
    float x -> a
    float y -> b
    float width -> c
    float height -> d
    java.awt.geom.Point2D filterRes -> a
    java.net.URL href -> a
    java.util.ArrayList filterEffects -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void build() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.FilterEffects -> com.a.a.i:
    float x -> a
    float y -> b
    float width -> c
    float height -> d
    java.lang.String result -> a
    java.net.URL href -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void build() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Font -> com.a.a.j:
    int horizOriginX -> a
    int horizOriginY -> b
    int horizAdvX -> c
    int vertOriginX -> d
    int vertOriginY -> e
    int vertAdvY -> f
    com.kitfox.svg.FontFace fontFace -> a
    com.kitfox.svg.MissingGlyph missingGlyph -> a
    java.util.HashMap glyphs -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void loaderEndElement(com.kitfox.svg.SVGLoaderHelper) -> a
    void build() -> a
    com.kitfox.svg.FontFace getFontFace() -> a
    com.kitfox.svg.MissingGlyph getGlyph(java.lang.String) -> a
    int getHorizAdvX() -> a
    int getVertOriginY() -> b
    boolean updateTime(double) -> a
com.kitfox.svg.FontFace -> com.a.a.k:
    java.lang.String fontFamily -> a
    int unitsPerEm -> a
    int ascent -> b
    int descent -> c
    int accentHeight -> d
    int underlinePosition -> e
    int underlineThickness -> f
    int strikethroughPosition -> g
    int strikethroughThickness -> h
    int overlinePosition -> i
    int overlineThickness -> j
    java.lang.String getTagName() -> a
    void build() -> a
    java.lang.String getFontFamily() -> b
    int getAscent() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Glyph -> com.a.a.l:
    java.lang.String unicode -> a
    java.lang.String getTagName() -> a
    void build() -> a
    java.lang.String getUnicode() -> b
    boolean updateTime(double) -> a
com.kitfox.svg.Gradient -> com.a.a.m:
    int spreadMethod -> a
    int gradientUnits -> b
    java.util.ArrayList stops -> a
    java.net.URI stopRef -> a
    java.awt.geom.AffineTransform gradientTransform -> a
    float[] stopFractions -> a
    java.awt.Color[] stopColors -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void build() -> a
    float[] getStopFractions() -> a
    java.awt.Color[] getStopColors() -> a
    int clamp(int,int,int) -> a
    void appendStop(com.kitfox.svg.Stop) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Group -> com.a.a.n:
    java.awt.geom.Rectangle2D boundingBox -> a
    java.awt.Shape cachedShape -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    void calcShape() -> b
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    void calcBoundingBox() -> c
    boolean updateTime(double) -> a
com.kitfox.svg.Hkern -> com.a.a.o:
    java.lang.String u1 -> a
    java.lang.String u2 -> b
    int k -> a
    java.lang.String getTagName() -> a
    void build() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.ImageSVG -> com.a.a.p:
    float x -> a
    float y -> b
    float width -> c
    float height -> d
    java.net.URL imageSrc -> a
    java.awt.geom.AffineTransform xform -> a
    java.awt.geom.Rectangle2D bounds -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Line -> com.a.a.q:
    float x1 -> a
    float y1 -> b
    float x2 -> c
    float y2 -> d
    java.awt.geom.Line2D$Float line -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.LinearGradient -> com.a.a.r:
    float x1 -> a
    float y1 -> b
    float x2 -> c
    float y2 -> d
    java.lang.String getTagName() -> a
    void build() -> a
    java.awt.Paint getPaint(java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Marker -> com.a.a.s:
    java.awt.geom.AffineTransform viewXform -> a
    java.awt.geom.AffineTransform markerXform -> b
    java.awt.geom.Rectangle2D viewBox -> b
    float refX -> a
    float refY -> b
    float markerWidth -> c
    float markerHeight -> d
    float orient -> e
    boolean markerUnitsStrokeWidth -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    void render(java.awt.Graphics2D,com.kitfox.svg.Marker$MarkerPos,float) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Marker$MarkerLayout -> com.a.a.s$a:
    java.util.ArrayList markerList -> a
    boolean started -> a
    void layout(java.awt.Shape) -> a
    void markerIn(double,double,double,double) -> a
    void markerOut(double,double,double,double) -> b
    java.util.ArrayList getMarkerList() -> a
com.kitfox.svg.Marker$MarkerPos -> com.a.a.s$b:
    int type -> a
    double x -> a
    double y -> b
    double dx -> c
    double dy -> d
com.kitfox.svg.Metadata -> com.a.a.t:
    java.lang.String getTagName() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.MissingGlyph -> com.a.a.u:
    java.awt.Shape path -> a
    int horizAdvX -> a
    int vertOriginX -> b
    int vertOriginY -> c
    int vertAdvY -> d
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void build() -> a
    java.awt.Shape getPath() -> b
    void render(java.awt.Graphics2D) -> a
    int getHorizAdvX() -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Path -> com.a.a.v:
    int fillRule -> a
    java.lang.String d -> a
    java.awt.geom.GeneralPath path -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.PatternSVG -> com.a.a.w:
    int gradientUnits -> a
    float x -> a
    float y -> b
    float width -> c
    float height -> d
    java.awt.geom.AffineTransform patternXform -> a
    java.awt.geom.Rectangle2D$Float viewBox -> a
    java.awt.Paint texPaint -> a
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void build() -> a
    void preparePattern() -> b
    java.awt.Paint getPaint(java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Polygon -> com.a.a.x:
    int fillRule -> a
    java.lang.String pointsStrn -> a
    java.awt.geom.GeneralPath path -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void buildPath() -> b
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Polyline -> com.a.a.y:
    int fillRule -> a
    java.lang.String pointsStrn -> a
    java.awt.geom.GeneralPath path -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void buildPath() -> b
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.RadialGradient -> com.a.a.z:
    float cx -> a
    float cy -> b
    float fx -> c
    float fy -> d
    float r -> e
    java.lang.String getTagName() -> a
    void build() -> a
    java.awt.Paint getPaint(java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Rect -> com.a.a.A:
    float x -> a
    float y -> b
    float width -> c
    float height -> d
    float rx -> e
    float ry -> f
    java.awt.geom.RectangularShape rect -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.RenderableElement -> com.a.a.B:
    java.awt.geom.AffineTransform cachedXform -> c
    java.awt.Shape cachedClip -> b
    int vectorEffect -> e
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    void beginLayer(java.awt.Graphics2D) -> b
    void finishLayer(java.awt.Graphics2D) -> c
com.kitfox.svg.SVGCache -> com.a.a.C:
    com.kitfox.svg.SVGUniverse svgUniverse -> a
    com.kitfox.svg.SVGUniverse getSVGUniverse() -> a
com.kitfox.svg.SVGDiagram -> com.a.a.D:
    java.util.HashMap idMap -> a
    com.kitfox.svg.SVGRoot root -> a
    com.kitfox.svg.SVGUniverse universe -> a
    java.awt.Rectangle deviceViewport -> a
    boolean ignoreClipHeuristic -> a
    java.net.URI xmlBase -> a
    void render(java.awt.Graphics2D) -> a
    com.kitfox.svg.SVGUniverse getUniverse() -> a
    java.net.URI getXMLBase() -> a
    float getWidth() -> a
    float getHeight() -> b
    com.kitfox.svg.SVGElement getElement(java.lang.String) -> a
    void setElement(java.lang.String,com.kitfox.svg.SVGElement) -> a
    void removeElement(java.lang.String) -> a
    com.kitfox.svg.SVGRoot getRoot() -> a
    void setRoot(com.kitfox.svg.SVGRoot) -> a
    boolean ignoringClipHeuristic() -> a
    void setIgnoringClipHeuristic(boolean) -> a
    void updateTime(double) -> a
    java.awt.Rectangle getDeviceViewport() -> a
    void setDeviceViewport(java.awt.Rectangle) -> a
com.kitfox.svg.SVGElement -> com.a.a.E:
    com.kitfox.svg.SVGElement parent -> a
    java.util.ArrayList children -> b
    java.lang.String id -> c
    java.lang.String cssClass -> d
    java.util.HashMap inlineStyles -> b
    java.util.HashMap presAttribs -> c
    java.util.Set ignorePresAttrib -> a
    java.net.URI xmlBase -> b
    com.kitfox.svg.SVGDiagram diagram -> a
    boolean dirty -> b
    java.util.LinkedList contexts -> a
    java.lang.String getTagName() -> a
    void loaderStartElement(com.kitfox.svg.SVGLoaderHelper,org.xml.sax.Attributes,com.kitfox.svg.SVGElement) -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void setDiagram(com.kitfox.svg.SVGDiagram) -> a
    void loaderAddText(com.kitfox.svg.SVGLoaderHelper,java.lang.String) -> a
    void loaderEndElement(com.kitfox.svg.SVGLoaderHelper) -> a
    void build() -> a
    java.net.URI getXMLBase() -> a
    void pushParentContext(com.kitfox.svg.SVGElement) -> a
    com.kitfox.svg.SVGElement popParentContext() -> a
    com.kitfox.svg.SVGElement getParentContext() -> b
    com.kitfox.svg.SVGRoot getRoot() -> a
    boolean getStyle(com.kitfox.svg.xml.StyleAttribute) -> a
    boolean getStyle(com.kitfox.svg.xml.StyleAttribute,boolean) -> a
    boolean getStyle(com.kitfox.svg.xml.StyleAttribute,boolean,boolean) -> a
    boolean getPres(com.kitfox.svg.xml.StyleAttribute) -> b
    java.awt.geom.AffineTransform parseTransform(java.lang.String) -> a
    java.awt.geom.AffineTransform parseSingleTransform(java.lang.String) -> b
    float nextFloat(java.util.LinkedList) -> a
    com.kitfox.svg.pathcmd.PathCommand[] parsePathList(java.lang.String) -> a
    java.awt.geom.GeneralPath buildPath(java.lang.String,int) -> a
    boolean updateTime(double) -> a
    int getNumChildren() -> c
    com.kitfox.svg.SVGElement getChild(int) -> a
com.kitfox.svg.SVGElementException -> com.a.a.F:
com.kitfox.svg.SVGException -> com.a.a.G:
com.kitfox.svg.SVGLoader -> com.a.a.H:
    java.util.HashMap nodeClasses -> a
    java.util.LinkedList buildStack -> a
    java.util.HashSet ignoreClasses -> a
    com.kitfox.svg.SVGLoaderHelper helper -> a
    com.kitfox.svg.SVGDiagram diagram -> a
    int skipNonSVGTagDepth -> a
    int indent -> b
    boolean verbose -> a
    java.lang.String printIndent(int,java.lang.String) -> a
    void startDocument() -> startDocument
    void endDocument() -> endDocument
    void startElement(java.lang.String,java.lang.String,java.lang.String,org.xml.sax.Attributes) -> startElement
    void endElement(java.lang.String,java.lang.String,java.lang.String) -> endElement
    void characters(char[],int,int) -> characters
    void processingInstruction(java.lang.String,java.lang.String) -> processingInstruction
    com.kitfox.svg.SVGDiagram getLoadedDiagram() -> a
com.kitfox.svg.SVGLoaderHelper -> com.a.a.I:
    com.kitfox.svg.SVGUniverse universe -> a
    com.kitfox.svg.SVGDiagram diagram -> a
    java.net.URI xmlBase -> a
com.kitfox.svg.SVGParseException -> com.a.a.J:
com.kitfox.svg.SVGRoot -> com.a.a.K:
    com.kitfox.svg.xml.NumberWithUnits x -> a
    com.kitfox.svg.xml.NumberWithUnits y -> b
    com.kitfox.svg.xml.NumberWithUnits width -> c
    com.kitfox.svg.xml.NumberWithUnits height -> d
    java.awt.geom.Rectangle2D$Float viewBox -> a
    int parSpecifier -> a
    int parAlignX -> b
    int parAlignY -> c
    java.awt.geom.AffineTransform viewXform -> a
    java.awt.geom.Rectangle2D$Float clipRect -> b
    com.kitfox.svg.xml.StyleSheet styleSheet -> a
    java.lang.String getTagName() -> a
    void build() -> a
    boolean contains(java.lang.String,java.lang.String) -> a
    com.kitfox.svg.SVGRoot getRoot() -> a
    void prepareViewport() -> d
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    float getDeviceWidth() -> a
    float getDeviceHeight() -> b
    boolean updateTime(double) -> a
    com.kitfox.svg.xml.StyleSheet getStyleSheet() -> a
com.kitfox.svg.SVGUniverse -> com.a.a.L:
    java.beans.PropertyChangeSupport changes -> a
    java.util.HashMap loadedDocs -> a
    java.util.HashMap loadedFonts -> b
    java.util.HashMap loadedImages -> c
    double curTime -> a
    boolean verbose -> a
    org.xml.sax.XMLReader cachedReader -> a
    void registerFont(com.kitfox.svg.Font) -> a
    com.kitfox.svg.Font getFont(java.lang.String) -> a
    void registerImage(java.net.URL) -> a
    java.awt.image.BufferedImage getImage(java.net.URL) -> a
    com.kitfox.svg.SVGElement getElement(java.net.URI) -> a
    com.kitfox.svg.SVGElement getElement(java.net.URI,boolean) -> a
    com.kitfox.svg.SVGDiagram getDiagram(java.net.URI) -> a
    com.kitfox.svg.SVGDiagram getDiagram(java.net.URI,boolean) -> a
    java.io.InputStream createDocumentInputStream(java.io.InputStream) -> a
    java.net.URI loadSVG(java.net.URL) -> a
    java.net.URI loadSVG(java.net.URL,boolean) -> a
    java.net.URI loadSVG(java.io.InputStream,java.lang.String) -> a
    java.net.URI loadSVG(java.io.InputStream,java.lang.String,boolean) -> a
    java.net.URI getStreamBuiltURI(java.lang.String) -> a
    org.xml.sax.XMLReader getXMLReaderCached() -> a
    java.net.URI loadSVG(java.net.URI,org.xml.sax.InputSource) -> a
com.kitfox.svg.SVGUniverse$1 -> com.a.a.M:
    com.kitfox.svg.SVGUniverse this$0 -> a
    org.xml.sax.InputSource resolveEntity(java.lang.String,java.lang.String) -> resolveEntity
com.kitfox.svg.ShapeElement -> com.a.a.N:
    float strokeWidthScalar -> g
    java.awt.Paint handleCurrentColor(com.kitfox.svg.xml.StyleAttribute) -> a
    void renderShape(java.awt.Graphics2D,java.awt.Shape) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D includeStrokeInBounds(java.awt.geom.Rectangle2D) -> a
com.kitfox.svg.Stop -> com.a.a.O:
    float offset -> a
    float opacity -> b
    java.awt.Color color -> a
    java.lang.String getTagName() -> a
    void build() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Style -> com.a.a.P:
    java.lang.String type -> a
    java.lang.StringBuffer text -> a
    com.kitfox.svg.xml.StyleSheet styleSheet -> a
    java.lang.String getTagName() -> a
    void loaderAddText(com.kitfox.svg.SVGLoaderHelper,java.lang.String) -> a
    void build() -> a
    boolean updateTime(double) -> a
    com.kitfox.svg.xml.StyleSheet getStyleSheet() -> a
com.kitfox.svg.Symbol -> com.a.a.Q:
    java.awt.geom.AffineTransform viewXform -> a
    java.awt.geom.Rectangle2D viewBox -> b
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Text -> com.a.a.R:
    float x -> a
    float y -> b
    java.awt.geom.AffineTransform transform -> a
    java.lang.String fontFamily -> a
    float fontSize -> c
    java.util.LinkedList content -> b
    java.awt.Shape textShape -> a
    int textAnchor -> a
    int fontStyle -> b
    int fontWeight -> c
    java.lang.String getTagName() -> a
    void loaderAddChild(com.kitfox.svg.SVGLoaderHelper,com.kitfox.svg.SVGElement) -> a
    void loaderAddText(com.kitfox.svg.SVGLoaderHelper,java.lang.String) -> a
    void build() -> a
    void buildFont() -> b
    void buildSysFont(java.awt.Font) -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Title -> com.a.a.S:
    java.lang.StringBuffer text -> a
    java.lang.String getTagName() -> a
    void loaderAddText(com.kitfox.svg.SVGLoaderHelper,java.lang.String) -> a
    boolean updateTime(double) -> a
com.kitfox.svg.TransformableElement -> com.a.a.T:
    java.awt.geom.AffineTransform xform -> d
    void build() -> a
    java.awt.Shape shapeToParent(java.awt.Shape) -> a
    java.awt.geom.Rectangle2D boundsToParent(java.awt.geom.Rectangle2D) -> b
    boolean updateTime(double) -> a
com.kitfox.svg.Tspan -> com.a.a.U:
    float[] x -> a
    float[] y -> b
    float[] dx -> c
    float[] dy -> d
    float[] rotate -> e
    java.lang.String text -> a
    java.lang.String getTagName() -> a
    void loaderAddText(com.kitfox.svg.SVGLoaderHelper,java.lang.String) -> a
    void build() -> a
    void appendToShape(java.awt.geom.GeneralPath,java.awt.geom.Point2D) -> a
    void addShapeSysFont(java.awt.geom.GeneralPath,com.kitfox.svg.Font,java.lang.String,float,float,java.awt.geom.Point2D) -> a
    void render(java.awt.Graphics2D) -> a
    void renderSysFont(java.awt.Graphics2D,java.awt.Font) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.Use -> com.a.a.V:
    float x -> a
    float y -> b
    float width -> c
    float height -> d
    java.net.URI href -> a
    java.awt.geom.AffineTransform refXform -> a
    java.lang.String getTagName() -> a
    void build() -> a
    void render(java.awt.Graphics2D) -> a
    java.awt.Shape getShape() -> a
    java.awt.geom.Rectangle2D getBoundingBox() -> a
    boolean updateTime(double) -> a
com.kitfox.svg.animation.AnimationElement -> com.a.a.a.a:
    int attribType -> a
    int additiveType -> b
    int accumulateType -> c
com.kitfox.svg.app.beans.SVGIcon -> com.a.a.b.a.a:
    java.beans.PropertyChangeSupport changes -> a
    com.kitfox.svg.SVGUniverse svgUniverse -> a
    boolean antiAlias -> a
    int interpolation -> a
    boolean clipToViewbox -> b
    java.net.URI svgURI -> a
    java.awt.geom.AffineTransform scaleXform -> a
    int autosize -> b
    java.awt.Dimension preferredSize -> a
    int getIconHeight() -> getIconHeight
    int getIconWidth() -> getIconWidth
    void paintIcon(java.awt.Component,java.awt.Graphics,int,int) -> paintIcon
    void paintIcon(java.awt.Component,java.awt.Graphics2D,int,int) -> a
    void setSvgURI(java.net.URI) -> a
    java.awt.Dimension getPreferredSize() -> a
    void setPreferredSize(java.awt.Dimension) -> a
com.kitfox.svg.app.data.Handler -> com.a.a.b.b.a:
    java.net.URLConnection openConnection(java.net.URL) -> openConnection
com.kitfox.svg.app.data.Handler$Connection -> com.a.a.b.b.a$a:
    java.lang.String mime -> a
    byte[] buf -> a
    com.kitfox.svg.app.data.Handler this$0 -> a
    void connect() -> connect
    java.lang.String getHeaderField(java.lang.String) -> getHeaderField
    java.io.InputStream getInputStream() -> getInputStream
com.kitfox.svg.batik.GraphicsUtil -> com.a.a.c.a:
    java.awt.image.ColorModel coerceColorModel(java.awt.image.ColorModel,boolean) -> a
    java.awt.image.ColorModel coerceData(java.awt.image.WritableRaster,java.awt.image.ColorModel,boolean) -> a
    boolean is_INT_PACK_Data(java.awt.image.SampleModel,boolean) -> a
    void mult_INT_PACK_Data(java.awt.image.WritableRaster) -> a
    void divide_INT_PACK_Data(java.awt.image.WritableRaster) -> b
    boolean is_BYTE_COMP_Data(java.awt.image.SampleModel) -> a
    void mult_BYTE_COMP_Data(java.awt.image.WritableRaster) -> c
    void divide_BYTE_COMP_Data(java.awt.image.WritableRaster) -> d
com.kitfox.svg.batik.LinearGradientPaint -> com.a.a.c.b:
    java.awt.geom.Point2D start -> a
    java.awt.geom.Point2D end -> b
    java.awt.PaintContext createContext(java.awt.image.ColorModel,java.awt.Rectangle,java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform,java.awt.RenderingHints) -> createContext
com.kitfox.svg.batik.LinearGradientPaintContext -> com.a.a.c.c:
    float dgdX -> g
    float dgdY -> h
    float gc -> i
    float pixSz -> j
    int fillMethod -> f
    void fillHardNoCycle(int[],int,int,int,int,int,int) -> a
    void fillSimpleNoCycle(int[],int,int,int,int,int,int) -> b
    void fillSimpleRepeat(int[],int,int,int,int,int,int) -> c
    void fillSimpleReflect(int[],int,int,int,int,int,int) -> d
    void fillRaster(int[],int,int,int,int,int,int) -> e
com.kitfox.svg.batik.MultipleGradientPaint -> com.a.a.c.d:
    int transparency -> a
    float[] fractions -> a
    java.awt.Color[] colors -> a
    java.awt.geom.AffineTransform gradientTransform -> a
    com.kitfox.svg.batik.MultipleGradientPaint$CycleMethodEnum cycleMethod -> a
    com.kitfox.svg.batik.MultipleGradientPaint$ColorSpaceEnum colorSpace -> a
    com.kitfox.svg.batik.MultipleGradientPaint$CycleMethodEnum NO_CYCLE -> b
    com.kitfox.svg.batik.MultipleGradientPaint$CycleMethodEnum REFLECT -> c
    com.kitfox.svg.batik.MultipleGradientPaint$CycleMethodEnum REPEAT -> d
    com.kitfox.svg.batik.MultipleGradientPaint$ColorSpaceEnum SRGB -> b
    com.kitfox.svg.batik.MultipleGradientPaint$ColorSpaceEnum LINEAR_RGB -> c
    java.awt.Color[] getColors() -> a
    int getTransparency() -> getTransparency
com.kitfox.svg.batik.MultipleGradientPaint$ColorSpaceEnum -> com.a.a.c.d$a:
com.kitfox.svg.batik.MultipleGradientPaint$CycleMethodEnum -> com.a.a.c.d$b:
com.kitfox.svg.batik.MultipleGradientPaintContext -> com.a.a.c.e:
    java.awt.image.ColorModel dataModel -> a
    java.awt.image.ColorModel model -> b
    java.awt.image.ColorModel lrgbmodel_NA -> d
    java.awt.image.ColorModel srgbmodel_NA -> e
    java.awt.image.ColorModel lrgbmodel_A -> f
    java.awt.image.ColorModel srgbmodel_A -> g
    java.awt.image.ColorModel cachedModel -> c
    java.lang.ref.WeakReference cached -> a
    java.awt.image.WritableRaster saved -> a
    com.kitfox.svg.batik.MultipleGradientPaint$CycleMethodEnum cycleMethod -> a
    com.kitfox.svg.batik.MultipleGradientPaint$ColorSpaceEnum colorSpace -> a
    float a00 -> a
    float a01 -> b
    float a10 -> c
    float a11 -> d
    float a02 -> e
    float a12 -> f
    boolean isSimpleLookup -> a
    boolean hasDiscontinuity -> b
    int fastGradientArraySize -> a
    int[] gradient -> a
    int[][] gradients -> a
    int gradientAverage -> b
    int gradientUnderflow -> c
    int gradientOverflow -> d
    int gradientsLength -> e
    float[] normalizedIntervals -> a
    float[] fractions -> b
    int transparencyTest -> f
    int[] SRGBtoLinearRGB -> b
    int[] LinearRGBtoSRGB -> c
    void calculateGradientFractions(java.awt.Color[],java.awt.Color[]) -> a
    void calculateSingleArrayGradient(java.awt.Color[],java.awt.Color[],float) -> a
    void calculateMultipleArrayGradient(java.awt.Color[],java.awt.Color[]) -> b
    void interpolate(int,int,int[]) -> a
    int convertEntireColorLinearRGBtoSRGB(int) -> a
    int convertEntireColorSRGBtoLinearRGB(int) -> b
    int indexIntoGradientsArrays(float) -> a
    int indexGradientAntiAlias(float,float) -> a
    int getAntiAlias(float,boolean,float,boolean,float,float) -> a
    int convertSRGBtoLinearRGB(int) -> c
    int convertLinearRGBtoSRGB(int) -> d
    java.awt.image.Raster getRaster(int,int,int,int) -> getRaster
    void fillRaster(int[],int,int,int,int,int,int) -> e
    java.awt.image.WritableRaster getCachedRaster(java.awt.image.ColorModel,int,int) -> a
    void putCachedRaster(java.awt.image.ColorModel,java.awt.image.WritableRaster) -> a
    void dispose() -> dispose
    java.awt.image.ColorModel getColorModel() -> getColorModel
com.kitfox.svg.batik.RadialGradientPaint -> com.a.a.c.f:
    java.awt.geom.Point2D focus -> a
    java.awt.geom.Point2D center -> b
    float radius -> a
    java.awt.PaintContext createContext(java.awt.image.ColorModel,java.awt.Rectangle,java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform,java.awt.RenderingHints) -> createContext
com.kitfox.svg.batik.RadialGradientPaintContext -> com.a.a.c.g:
    boolean isSimpleFocus -> c
    boolean isNonCyclic -> d
    float radius -> g
    float centerX -> h
    float centerY -> i
    float focusX -> j
    float focusY -> k
    float radiusSq -> l
    float constA -> m
    float constB -> n
    float trivial -> o
    int fillMethod -> f
    float invSqStepFloat -> p
    int MAX_PRECISION -> g
    int[] sqrtLutFixed -> b
    void fillRaster(int[],int,int,int,int,int,int) -> e
    void fixedPointSimplestCaseNonCyclicFillRaster(int[],int,int,int,int,int,int) -> a
    void calculateFixedPointSqrtLookupTable() -> a
    void cyclicCircularGradientFillRaster(int[],int,int,int,int,int,int) -> b
    void antiAliasFillRaster(int[],int,int,int,int,int,int) -> c
com.kitfox.svg.pathcmd.Arc -> com.a.a.d.a:
    float rx -> a
    float ry -> b
    float xAxisRot -> c
    boolean largeArc -> a
    boolean sweep -> b
    float x -> d
    float y -> e
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
    void arcTo(java.awt.geom.GeneralPath,float,float,float,boolean,boolean,float,float,float,float) -> a
    java.awt.geom.Arc2D computeArc(double,double,double,double,double,boolean,boolean,double,double) -> a
    java.lang.String toString() -> toString
com.kitfox.svg.pathcmd.BuildHistory -> com.a.a.d.b:
    java.awt.geom.Point2D$Float startPoint -> a
    java.awt.geom.Point2D$Float lastPoint -> b
    java.awt.geom.Point2D$Float lastKnot -> c
    void setStartPoint(float,float) -> a
    void setLastPoint(float,float) -> b
    void setLastKnot(float,float) -> c
com.kitfox.svg.pathcmd.Cubic -> com.a.a.d.c:
    float k1x -> a
    float k1y -> b
    float k2x -> c
    float k2y -> d
    float x -> e
    float y -> f
    java.lang.String toString() -> toString
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pathcmd.CubicSmooth -> com.a.a.d.d:
    float x -> a
    float y -> b
    float k2x -> c
    float k2y -> d
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
    java.lang.String toString() -> toString
com.kitfox.svg.pathcmd.Horizontal -> com.a.a.d.e:
    float x -> a
    java.lang.String toString() -> toString
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pathcmd.LineTo -> com.a.a.d.f:
    float x -> a
    float y -> b
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
    java.lang.String toString() -> toString
com.kitfox.svg.pathcmd.MoveTo -> com.a.a.d.g:
    float x -> a
    float y -> b
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
    java.lang.String toString() -> toString
com.kitfox.svg.pathcmd.PathCommand -> com.a.a.d.h:
    boolean isRelative -> c
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pathcmd.Quadratic -> com.a.a.d.i:
    float kx -> a
    float ky -> b
    float x -> c
    float y -> d
    java.lang.String toString() -> toString
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pathcmd.QuadraticSmooth -> com.a.a.d.j:
    float x -> a
    float y -> b
    java.lang.String toString() -> toString
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pathcmd.Terminal -> com.a.a.d.k:
    java.lang.String toString() -> toString
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pathcmd.Vertical -> com.a.a.d.l:
    float y -> a
    java.lang.String toString() -> toString
    void appendPath(java.awt.geom.GeneralPath,com.kitfox.svg.pathcmd.BuildHistory) -> a
    int getNumKnotsAdded() -> a
com.kitfox.svg.pattern.PatternPaint -> com.a.a.e.a:
    java.awt.image.BufferedImage source -> a
    java.awt.geom.AffineTransform xform -> a
    java.awt.PaintContext createContext(java.awt.image.ColorModel,java.awt.Rectangle,java.awt.geom.Rectangle2D,java.awt.geom.AffineTransform,java.awt.RenderingHints) -> createContext
    int getTransparency() -> getTransparency
com.kitfox.svg.pattern.PatternPaintContext -> com.a.a.e.b:
    java.awt.image.BufferedImage source -> a
    java.awt.Rectangle deviceBounds -> a
    java.awt.geom.AffineTransform xform -> a
    int sourceWidth -> a
    int sourceHeight -> b
    java.awt.image.BufferedImage buf -> b
    void dispose() -> dispose
    java.awt.image.ColorModel getColorModel() -> getColorModel
    java.awt.image.Raster getRaster(int,int,int,int) -> getRaster
com.kitfox.svg.xml.ColorTable -> com.a.a.f.a:
    java.util.Map colorTable -> a
    com.kitfox.svg.xml.ColorTable singleton -> a
    com.kitfox.svg.xml.ColorTable instance() -> a
    java.awt.Color lookupColor(java.lang.String) -> a
    java.awt.Color parseColor(java.lang.String) -> b
    int parseHex(java.lang.String) -> a
com.kitfox.svg.xml.NumberWithUnits -> com.a.a.f.b:
    float value -> a
    int unitType -> a
    float getValue() -> a
    int getUnits() -> a
    void set(java.lang.String) -> a
    java.lang.String unitsAsString(int) -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
com.kitfox.svg.xml.StyleAttribute -> com.a.a.f.c:
    java.util.regex.Pattern patternUrl -> a
    java.util.regex.Matcher matchFpNumUnits -> a
    java.lang.String name -> a
    java.lang.String stringValue -> b
    boolean colorCompatable -> a
    boolean urlCompatable -> b
    java.lang.String getName() -> a
    com.kitfox.svg.xml.StyleAttribute setName(java.lang.String) -> a
    java.lang.String getStringValue() -> b
    void setStringValue(java.lang.String) -> a
    int getIntValue() -> a
    double getDoubleValue() -> a
    float getFloatValue() -> a
    float[] getFloatList() -> a
    float getRatioValue() -> b
    java.lang.String getUnits() -> c
    com.kitfox.svg.xml.NumberWithUnits getNumberWithUnits() -> a
    float getFloatValueWithUnits() -> c
    float convertUnitsToPixels(int,float) -> a
    java.awt.Color getColorValue() -> a
    java.lang.String parseURLFn() -> d
    java.net.URI getURIValue() -> a
    java.net.URI getURIValue(java.net.URI) -> a
com.kitfox.svg.xml.StyleSheet -> com.a.a.f.d:
    java.util.HashMap ruleMap -> a
    com.kitfox.svg.xml.StyleSheet parseSheet(java.lang.String) -> a
    boolean getStyle(com.kitfox.svg.xml.StyleAttribute,java.lang.String,java.lang.String) -> a
com.kitfox.svg.xml.StyleSheetRule -> com.a.a.f.e:
    java.lang.String styleName -> a
    java.lang.String tag -> b
    java.lang.String className -> c
    int hashCode() -> hashCode
    boolean equals(java.lang.Object) -> equals
com.kitfox.svg.xml.XMLParseUtil -> com.a.a.f.f:
    java.util.regex.Matcher fpMatch -> a
    java.util.regex.Matcher intMatch -> b
    double parseDouble(java.lang.String) -> a
    double findDouble(java.lang.String) -> b
    float findFloat(java.lang.String) -> a
    float[] parseFloatList(java.lang.String) -> a
    int findInt(java.lang.String) -> a
    double parseRatio(java.lang.String) -> c
    com.kitfox.svg.xml.NumberWithUnits parseNumberWithUnits(java.lang.String) -> a
    java.util.HashMap parseStyle(java.lang.String,java.util.HashMap) -> a
com.ogprover.api.GeoGebraOGPInterface -> com.b.a.a:
    com.ogprover.pp.OGPOutputProverProtocol exitProver(com.ogprover.pp.GeoGebraOGPOutputProverProtocol,java.lang.String) -> a
    boolean populateParameters(com.ogprover.pp.GeoGebraOGPInputProverProtocol) -> a
    boolean readGeometryTheorem(com.ogprover.pp.GeoGebraOGPInputProverProtocol,com.ogprover.pp.tp.OGPTP) -> a
    com.ogprover.pp.OGPOutputProverProtocol prove(com.ogprover.pp.OGPInputProverProtocol) -> a
com.ogprover.api.converter.GGConsConverterForAlgebraicProvers -> com.b.a.a.a:
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertFreePointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> b
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPointInCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> c
    com.ogprover.pp.tp.geoconstruction.Line findPerpLine(com.ogprover.pp.tp.geoconstruction.Line,com.ogprover.pp.tp.geoconstruction.Point) -> a
    com.ogprover.pp.tp.geoconstruction.Point findIntersectionPointOfTwoLines(com.ogprover.pp.tp.geoconstruction.Line,com.ogprover.pp.tp.geoconstruction.Line) -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertIntersectCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> d
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertMidpointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> e
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCenterCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> f
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> g
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertOrthogonalLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> h
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertLineBisectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> i
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertAngularBisectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> j
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertTangentCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> k
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolarCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> l
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertDiameterCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> m
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> n
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertConicCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> o
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertEllipseCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> p
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertHyperbolaCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> q
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertParabolaCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> r
    com.ogprover.pp.tp.geoconstruction.Point getPointFromConstruction(com.ogprover.pp.tp.geoconstruction.GeoConstruction) -> a
    java.util.Vector getCommonPointsOfTwoSets(com.ogprover.pp.tp.geoconstruction.SetOfPoints,com.ogprover.pp.tp.geoconstruction.SetOfPoints) -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction getMirrorPointCons(java.lang.String,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoobject.GeoObject) -> a
    java.util.Vector mirrorPoints(java.util.Vector,com.ogprover.pp.tp.geoobject.GeoObject) -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertMirrorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> s
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertRotateCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> t
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertTranslateCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> u
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertDilateCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> v
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertSegmentCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> w
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertVectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> x
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertRayCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> y
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertAngleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> z
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolygonCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> A
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolyLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> B
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleArcCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> C
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircumcircleArcCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> D
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleSectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> E
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircumcircleSectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> F
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertSemicircleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> G
com.ogprover.api.converter.GGConsConverterForAreaMethod -> com.b.a.a.b:
    int lastUsedNumber -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> b
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertIntersectCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> d
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertMidpointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> e
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCenterCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> f
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> g
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertOrthogonalLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> h
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertLineBisectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> i
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertAngularBisectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> j
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertTangentCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> k
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolarCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> l
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> n
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertConicCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> o
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertEllipseCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> p
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertHyperbolaCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> q
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertParabolaCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> r
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertSegmentCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> w
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertVectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> x
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertRayCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> y
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertAngleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> z
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolygonCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> A
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolyLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> B
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircumcircleArcCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> D
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircumcircleSectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> F
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertSemicircleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> G
    java.lang.String nextAvailableName() -> a
com.ogprover.api.converter.GGStatConverterForAlgebraicProvers -> com.b.a.a.c:
    com.ogprover.pp.tp.thmstatement.ThmStatement convertBoolean() -> a
    com.ogprover.pp.tp.thmstatement.ThmStatement convertCollinear() -> b
    com.ogprover.pp.tp.thmstatement.ThmStatement convertConcyclic() -> c
    com.ogprover.pp.tp.thmstatement.ThmStatement convertConcurrent() -> d
    com.ogprover.pp.tp.thmstatement.ThmStatement convertEqual() -> e
    com.ogprover.pp.tp.thmstatement.ThmStatement convertParallel() -> f
    com.ogprover.pp.tp.thmstatement.ThmStatement convertPerpendicular() -> g
com.ogprover.api.converter.GGStatConverterForAreaMethod -> com.b.a.a.d:
    com.ogprover.pp.tp.thmstatement.ThmStatement convertBoolean() -> a
    com.ogprover.pp.tp.thmstatement.ThmStatement convertCollinear() -> b
    com.ogprover.pp.tp.thmstatement.ThmStatement convertConcyclic() -> c
    com.ogprover.pp.tp.thmstatement.ThmStatement convertConcurrent() -> d
    com.ogprover.pp.tp.thmstatement.ThmStatement convertEqual() -> e
    com.ogprover.pp.tp.thmstatement.ThmStatement convertParallel() -> f
    com.ogprover.pp.tp.thmstatement.ThmStatement convertPerpendicular() -> g
com.ogprover.api.converter.GGThmConverterForAlgebraicProvers -> com.b.a.a.e:
com.ogprover.api.converter.GGThmConverterForAreaMethod -> com.b.a.a.f:
com.ogprover.api.converter.GeoGebraConstructionConverter -> com.b.a.a.g:
    java.util.Vector ggCmdList -> a
    com.ogprover.pp.tp.OGPTP thmProtocol -> a
    java.util.Vector constructionsToRemove -> b
    java.util.Map auxiliaryObjectsMap -> a
    boolean bSuccess -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertFreePointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> b
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPointInCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> c
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertIntersectCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> d
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertMidpointCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> e
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCenterCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> f
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> g
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertOrthogonalLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> h
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertLineBisectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> i
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertAngularBisectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> j
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertTangentCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> k
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolarCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> l
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertDiameterCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> m
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> n
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertConicCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> o
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertEllipseCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> p
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertHyperbolaCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> q
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertParabolaCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> r
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertMirrorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> s
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertRotateCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> t
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertTranslateCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> u
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertDilateCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> v
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertSegmentCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> w
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolygonCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> A
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertPolyLineCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> B
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertRayCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> y
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertAngleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> z
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertVectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> x
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertSemicircleCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> G
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleArcCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> C
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircumcircleArcCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> D
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircleSectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> E
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertCircumcircleSectorCmd(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> F
    java.util.Map getAuxiliaryObjectsMap() -> a
    boolean convert() -> a
    com.ogprover.pp.tp.geoconstruction.GeoConstruction convertConstruction(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand) -> H
    boolean validateCmdArguments(com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand,int,int,int,int) -> a
    com.ogprover.pp.tp.geoobject.GeoObject getGeoObject(java.lang.String) -> a
    java.util.Vector getOrCreatePointsFromPointSet(com.ogprover.pp.tp.geoconstruction.SetOfPoints,int,java.util.Vector) -> a
    java.lang.String generateRandomLabel(java.lang.String) -> a
    java.lang.String getClassCastExceptionMessage(com.ogprover.geogebra.command.GeoGebraCommand,java.lang.Exception) -> a
com.ogprover.api.converter.GeoGebraStatementConverter -> com.b.a.a.h:
    com.ogprover.geogebra.command.statement.GeoGebraStatementCommand ggStatCmd -> a
    com.ogprover.pp.tp.OGPTP thmProtocol -> a
    java.util.Map auxiliaryObjectsMap -> a
    boolean bSuccess -> a
    com.ogprover.pp.tp.thmstatement.ThmStatement convertBoolean() -> a
    com.ogprover.pp.tp.thmstatement.ThmStatement convertCollinear() -> b
    com.ogprover.pp.tp.thmstatement.ThmStatement convertConcyclic() -> c
    com.ogprover.pp.tp.thmstatement.ThmStatement convertConcurrent() -> d
    com.ogprover.pp.tp.thmstatement.ThmStatement convertParallel() -> f
    com.ogprover.pp.tp.thmstatement.ThmStatement convertPerpendicular() -> g
    com.ogprover.pp.tp.thmstatement.ThmStatement convertEqual() -> e
    boolean convert() -> a
com.ogprover.api.converter.GeoGebraTheoremConverter -> com.b.a.a.i:
    com.ogprover.geogebra.GeoGebraTheorem theorem -> a
    com.ogprover.api.converter.GeoGebraConstructionConverter consConverter -> a
    com.ogprover.api.converter.GeoGebraStatementConverter statConverter -> a
    com.ogprover.pp.tp.OGPTP thmProtocol -> a
    boolean bSuccess -> a
    com.ogprover.geogebra.GeoGebraTheorem getTheorem() -> a
    com.ogprover.api.converter.GeoGebraConstructionConverter getConsConverter() -> a
    com.ogprover.pp.tp.OGPTP getThmProtocol() -> a
    boolean convert() -> a
com.ogprover.geogebra.GeoGebraObject -> com.b.b.a:
com.ogprover.geogebra.GeoGebraTheorem -> com.b.b.b:
    java.lang.String theoremName -> a
    java.util.Vector constructionList -> a
    com.ogprover.geogebra.command.statement.GeoGebraStatementCommand statement -> a
    com.ogprover.geogebra.command.ProveCmd proveCmd -> a
    java.lang.String getTheoremName() -> a
    void setTheoremName(java.lang.String) -> a
    java.util.Vector getConstructionList() -> a
    com.ogprover.geogebra.command.statement.GeoGebraStatementCommand getStatement() -> a
    void setStatement(com.ogprover.geogebra.command.statement.GeoGebraStatementCommand) -> a
    com.ogprover.geogebra.command.ProveCmd getProveCmd() -> a
    void setProveCmd(com.ogprover.geogebra.command.ProveCmd) -> a
com.ogprover.geogebra.command.GeoGebraCommand -> com.b.b.a.a:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.GeoGebraCommandFactory -> com.b.b.a.b:
    com.ogprover.geogebra.command.GeoGebraCommand createGeoGebraCommand(java.lang.String,java.util.ArrayList,java.util.ArrayList,java.lang.String) -> a
com.ogprover.geogebra.command.ProveCmd -> com.b.b.a.c:
    java.lang.String inputArg -> a
    java.lang.String outputArg -> b
    java.lang.String getInputArg() -> b
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.AngleCmd -> com.b.b.a.a.a:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.AngularBisectorCmd -> com.b.b.a.a.b:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.CenterCmd -> com.b.b.a.a.c:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.CircleArcCmd -> com.b.b.a.a.d:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.CircleCmd -> com.b.b.a.a.e:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.CircleSectorCmd -> com.b.b.a.a.f:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.CircumcircleArcCmd -> com.b.b.a.a.g:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.CircumcircleSectorCmd -> com.b.b.a.a.h:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.ConicCmd -> com.b.b.a.a.i:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.DiameterCmd -> com.b.b.a.a.j:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.DilateCmd -> com.b.b.a.a.k:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.EllipseCmd -> com.b.b.a.a.l:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.FreePointCmd -> com.b.b.a.a.m:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.GeoGebraConstructionCommand -> com.b.b.a.a.n:
    java.util.ArrayList inputArgs -> a
    java.util.ArrayList outputArgs -> b
    java.lang.String objectType -> a
    java.util.ArrayList getInputArgs() -> a
    java.util.ArrayList getOutputArgs() -> b
    java.lang.String getObjectType() -> b
    void setObjectType(java.lang.String) -> a
    java.lang.String getGeoObjectLabel() -> c
    java.lang.String getDescription() -> d
com.ogprover.geogebra.command.construction.HyperbolaCmd -> com.b.b.a.a.o:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.IntersectCmd -> com.b.b.a.a.p:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.LineBisectorCmd -> com.b.b.a.a.q:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.LineCmd -> com.b.b.a.a.r:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.MidpointCmd -> com.b.b.a.a.s:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.MirrorCmd -> com.b.b.a.a.t:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.OrthogonalLineCmd -> com.b.b.a.a.u:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.ParabolaCmd -> com.b.b.a.a.v:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.PointCmd -> com.b.b.a.a.w:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.PointInCmd -> com.b.b.a.a.x:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.PolarCmd -> com.b.b.a.a.y:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.PolyLineCmd -> com.b.b.a.a.z:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.PolygonCmd -> com.b.b.a.a.A:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.RayCmd -> com.b.b.a.a.B:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.RotateCmd -> com.b.b.a.a.C:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.SegmentCmd -> com.b.b.a.a.D:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.SemicircleCmd -> com.b.b.a.a.E:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.TangentCmd -> com.b.b.a.a.F:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.TranslateCmd -> com.b.b.a.a.G:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.construction.VectorCmd -> com.b.b.a.a.H:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.BooleanCmd -> com.b.b.a.b.a:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.CollinearCmd -> com.b.b.a.b.b:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.ConcurrentCmd -> com.b.b.a.b.c:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.ConcyclicCmd -> com.b.b.a.b.d:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.EqualCmd -> com.b.b.a.b.e:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.GeoGebraStatementCommand -> com.b.b.a.b.f:
    java.util.ArrayList inputArgs -> a
    java.lang.String outputArg -> a
    java.util.ArrayList getInputArgs() -> a
com.ogprover.geogebra.command.statement.ParallelCmd -> com.b.b.a.b.g:
    java.lang.String getCommandName() -> a
com.ogprover.geogebra.command.statement.PerpendicularCmd -> com.b.b.a.b.h:
    java.lang.String getCommandName() -> a
com.ogprover.main.OGPConfigurationSettings -> com.b.c.a:
    com.ogprover.main.OGPParameters parameters -> a
    com.ogprover.utilities.io.OGPOutput output -> a
    com.ogprover.utilities.OGPTimer timer -> a
    com.ogprover.utilities.Stopwatch stopwatch -> a
    int maxNumOfTerms -> a
    java.lang.String logFileName -> b
    java.lang.String defaultLogFileName -> a
    com.ogprover.utilities.logger.ILogger logger -> a
    com.ogprover.pp.tp.OGPTP parsedTP -> a
    int retCodeOfPseudoDivision -> b
    void setParameters(com.ogprover.main.OGPParameters) -> a
    com.ogprover.main.OGPParameters getParameters() -> a
    void setOutput(com.ogprover.utilities.io.OGPOutput) -> a
    com.ogprover.utilities.io.OGPOutput getOutput() -> a
    void setTimer(com.ogprover.utilities.OGPTimer) -> a
    com.ogprover.utilities.OGPTimer getTimer() -> a
    void setStopwacth(com.ogprover.utilities.Stopwatch) -> a
    com.ogprover.utilities.Stopwatch getStopwacth() -> a
    void setMaxNumOfTerms(int) -> a
    int getMaxNumOfTerms() -> a
    void setLogger(com.ogprover.utilities.logger.ILogger) -> a
    com.ogprover.utilities.logger.ILogger getLogger() -> a
    void setParsedTP(com.ogprover.pp.tp.OGPTP) -> a
    void setRetCodeOfPseudoDivision(int) -> b
    int getRetCodeOfPseudoDivision() -> b
    void logSpaceErrorInPseudoDivision(int) -> c
    void logTimeErrorInPseudoDivision() -> a
    void logGeneralErrorInPseudoDivision(java.lang.String) -> a
com.ogprover.main.OGPConstants -> com.b.c.b:
    java.lang.String DEF_VAL_PARAM_INPUT_FILE -> a
com.ogprover.main.OGPParameters -> com.b.c.c:
    java.util.HashMap params -> a
    java.lang.String put(java.lang.String,java.lang.String) -> a
    java.lang.String putOutputFormat(java.lang.String) -> a
    java.lang.String putProver(int) -> a
    java.lang.String putLogLevel(com.ogprover.utilities.logger.GeoGebraLogger$Level) -> a
    java.lang.String putTimeLimit(double) -> a
    java.lang.String putSpaceLimit(int) -> b
    java.lang.String get(java.lang.String) -> b
    java.lang.String getOutputFile() -> a
    java.lang.String getOutputFormat() -> b
    int getProver() -> a
    com.ogprover.utilities.logger.GeoGebraLogger$Level getLogLevel() -> a
    long getTimeLimit() -> a
    int getSpaceLimit() -> b
    void init() -> a
    boolean createReport() -> a
com.ogprover.main.OGPReport -> com.b.c.d:
    com.ogprover.pp.tp.OGPTP thmProtocol -> a
    int openReport() -> a
    int printProverResults(int,com.ogprover.pp.GeoGebraOGPOutputProverProtocol) -> a
com.ogprover.main.OpenGeoProver -> com.b.c.e:
    com.ogprover.main.OGPConfigurationSettings settings -> a
com.ogprover.polynomials.GeoTheorem -> com.b.d.a:
    java.lang.String name -> a
    com.ogprover.polynomials.XPolySystem hypotheses -> a
    com.ogprover.polynomials.XPolynomial statement -> a
    com.ogprover.polynomials.XPolySystem ndgConditions -> b
    void setName(java.lang.String) -> a
    java.lang.String getName() -> a
    com.ogprover.polynomials.XPolySystem getHypotheses() -> a
    void setStatement(com.ogprover.polynomials.XPolynomial) -> a
    com.ogprover.polynomials.XPolynomial getStatement() -> a
    com.ogprover.polynomials.XPolySystem getNDGConditions() -> b
    int fillNDGConditionsForWuProver() -> a
com.ogprover.polynomials.Polynomial -> com.b.d.b:
    java.util.TreeMap terms -> a
    int getType() -> a
    com.ogprover.polynomials.Polynomial clone() -> a
    java.util.TreeMap getTerms() -> a
    boolean isZero() -> a
    java.util.ArrayList getTermsAsDescList() -> a
    int getPolynomialDegree() -> b
    boolean equals(java.lang.Object) -> equals
    com.ogprover.polynomials.Polynomial addTerm(com.ogprover.polynomials.Term) -> a
    com.ogprover.polynomials.Polynomial addPolynomial(com.ogprover.polynomials.Polynomial) -> a
    com.ogprover.polynomials.Polynomial subtractPolynomial(com.ogprover.polynomials.Polynomial) -> b
    com.ogprover.polynomials.Polynomial multiplyByRealConstant(double) -> a
    com.ogprover.polynomials.Polynomial multiplyByPolynomial(com.ogprover.polynomials.Polynomial) -> c
    com.ogprover.polynomials.Polynomial invert() -> b
    java.lang.Object clone() -> clone
com.ogprover.polynomials.Power -> com.b.d.c:
    com.ogprover.polynomials.Variable variable -> a
    int exponent -> a
    com.ogprover.polynomials.Variable getVariable() -> a
    void setExponent(int) -> a
    int getExponent() -> a
    long getIndex() -> a
    short getVarType() -> a
    com.ogprover.polynomials.Power clone() -> a
    boolean equals(java.lang.Object) -> equals
    java.lang.String toString() -> toString
    int compareTo(com.ogprover.polynomials.Power) -> a
    void addToExponent(int) -> b
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> b
    java.lang.String print() -> c
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
com.ogprover.polynomials.RationalAlgebraicExpression -> com.b.d.d:
    java.lang.String printToLaTeX() -> a
    java.lang.String print() -> c
com.ogprover.polynomials.SymbolicPolynomial -> com.b.d.e:
    int getType() -> a
    com.ogprover.polynomials.Polynomial clone() -> a
    java.lang.String toString() -> toString
    int hashCode() -> hashCode
    java.lang.String printToLaTeX() -> a
    java.lang.String print() -> c
    com.ogprover.polynomials.SymbolicPolynomial simplify(java.util.ArrayList) -> a
    com.ogprover.polynomials.SymbolicPolynomial substitute(java.util.Map) -> a
    com.ogprover.polynomials.SymbolicPolynomial substitute(java.lang.String,java.lang.String) -> a
    java.util.ArrayList calcFirstDerivativeByPoint(java.lang.String) -> a
    java.util.ArrayList getAllPointLabels() -> b
    java.lang.Object clone() -> clone
com.ogprover.polynomials.SymbolicTerm -> com.b.d.f:
    double coeff -> a
    double getCoeff() -> a
    int getType() -> a
    com.ogprover.polynomials.Term clone() -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    com.ogprover.polynomials.Term merge(com.ogprover.polynomials.Term) -> a
    com.ogprover.polynomials.Term mul(com.ogprover.polynomials.Term) -> b
    com.ogprover.polynomials.Term mul(double) -> a
    com.ogprover.polynomials.Term divide(com.ogprover.polynomials.Term) -> c
    com.ogprover.polynomials.Term invert() -> b
    boolean isZero() -> a
    java.lang.String printToLaTeX() -> a
    java.lang.String print() -> c
    com.ogprover.polynomials.Term changePowerExponent(int,int) -> a
    java.lang.Object clone() -> clone
com.ogprover.polynomials.SymbolicVariable -> com.b.d.g:
    short varType -> a
    java.lang.String pointLabel -> a
    short getVariableType() -> a
    void setPointLabel(java.lang.String) -> a
    java.lang.String getPointLabel() -> b
    com.ogprover.polynomials.Variable clone() -> a
    java.lang.Object clone() -> clone
com.ogprover.polynomials.Term -> com.b.d.h:
    java.util.Vector powers -> a
    com.ogprover.polynomials.Term clone() -> a
    int getType() -> a
    com.ogprover.polynomials.Term merge(com.ogprover.polynomials.Term) -> a
    com.ogprover.polynomials.Term mul(com.ogprover.polynomials.Term) -> b
    com.ogprover.polynomials.Term mul(double) -> a
    com.ogprover.polynomials.Term divide(com.ogprover.polynomials.Term) -> c
    com.ogprover.polynomials.Term invert() -> b
    boolean isZero() -> a
    java.util.Vector getPowers() -> a
    int compareTo(com.ogprover.polynomials.Term) -> a
    void addPower(com.ogprover.polynomials.Power) -> a
    void mergePowers(com.ogprover.polynomials.Term,boolean) -> a
    boolean isDivisibleByTerm(com.ogprover.polynomials.Term) -> a
    int getVectorIndexOfVarIndex(long) -> a
    com.ogprover.polynomials.Power getPowerOfVarIndex(long) -> a
    com.ogprover.polynomials.Term changePowerExponent(int,int) -> a
    int getVariableExponent(int) -> a
    com.ogprover.polynomials.Term gcd(com.ogprover.polynomials.Term) -> d
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
com.ogprover.polynomials.UFraction -> com.b.d.i:
    com.ogprover.polynomials.UPolynomial numerator -> a
    com.ogprover.polynomials.UPolynomial denominator -> b
    com.ogprover.polynomials.UPolynomial getNumerator() -> a
    com.ogprover.polynomials.UPolynomial getDenominator() -> b
    com.ogprover.polynomials.UFraction clone() -> a
    java.lang.String toString() -> toString
    boolean isZero() -> a
    com.ogprover.polynomials.UFraction reduce() -> b
    com.ogprover.polynomials.UFraction add(com.ogprover.polynomials.UFraction) -> a
    com.ogprover.polynomials.UFraction invertSign() -> c
    com.ogprover.polynomials.UFraction invertFraction() -> d
    com.ogprover.polynomials.UFraction mul(com.ogprover.polynomials.UFraction) -> b
    com.ogprover.polynomials.UFraction mul(double) -> a
    boolean isSingleNegativeTerm() -> b
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> b
    java.lang.String print() -> c
    java.lang.Object clone() -> clone
com.ogprover.polynomials.UPolynomial -> com.b.d.j:
    int getType() -> a
    com.ogprover.polynomials.Polynomial clone() -> a
    java.lang.String toString() -> toString
    com.ogprover.polynomials.UPolynomial divideByTerm(com.ogprover.polynomials.UTerm) -> a
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> b
    java.lang.String print() -> c
    java.lang.Object clone() -> clone
com.ogprover.polynomials.UTerm -> com.b.d.k:
    double coeff -> a
    void setCoeff(double) -> a
    double getCoeff() -> a
    int getType() -> a
    com.ogprover.polynomials.Term clone() -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    com.ogprover.polynomials.Term merge(com.ogprover.polynomials.Term) -> a
    com.ogprover.polynomials.Term mul(com.ogprover.polynomials.Term) -> b
    com.ogprover.polynomials.Term mul(double) -> a
    com.ogprover.polynomials.Term divide(com.ogprover.polynomials.Term) -> c
    com.ogprover.polynomials.Term invert() -> b
    boolean isZero() -> a
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> b
    java.lang.String print() -> c
    java.lang.Object clone() -> clone
com.ogprover.polynomials.UXVariable -> com.b.d.l:
    short varType -> a
    void setVariableType(short) -> a
    short getVariableType() -> a
    com.ogprover.polynomials.Variable clone() -> a
    java.lang.Object clone() -> clone
com.ogprover.polynomials.Variable -> com.b.d.m:
    long index -> a
    short getVariableType() -> a
    com.ogprover.polynomials.Variable clone() -> a
    long getIndex() -> a
    void setIndex(long) -> a
    boolean equals(java.lang.Object) -> equals
    int compareTo(com.ogprover.polynomials.Variable) -> a
    java.lang.String toString() -> toString
    int hashCode() -> hashCode
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> d
    java.lang.String print() -> c
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
com.ogprover.polynomials.XPolySystem -> com.b.d.n:
    java.util.Vector polynomials -> a
    java.util.Vector variableList -> b
    java.util.Vector getPolynomials() -> a
    void setPolynomials(java.util.Vector) -> a
    java.util.Vector getVariableList() -> b
    com.ogprover.polynomials.XPolynomial getXPoly(int) -> a
    void addXPoly(com.ogprover.polynomials.XPolynomial) -> a
    void removePoly(int) -> a
    int numOfPols() -> a
    boolean checkAndReOrderTriangularSystem() -> a
    int triangulate() -> b
    boolean isSystemLinear() -> b
com.ogprover.polynomials.XPolynomial -> com.b.d.o:
    int getType() -> a
    com.ogprover.polynomials.Polynomial clone() -> a
    java.lang.String toString() -> toString
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> b
    java.lang.String print() -> c
    com.ogprover.polynomials.XPolynomial reduceUTerms(boolean) -> a
    com.ogprover.polynomials.XPolynomial reduceByUTermDivision() -> a
    int getLeadingExpAndCoeff(int,int,com.ogprover.polynomials.XPolynomial) -> a
    com.ogprover.polynomials.XPolynomial pseudoReminder(com.ogprover.polynomials.XPolynomial,int) -> a
    int getLeadingExp(int) -> a
    com.ogprover.polynomials.XPolynomial getLeadingCoefficientOfVariable(int) -> a
    java.util.Vector extractAllVariables() -> a
    boolean matchesNDGCPolynomial(com.ogprover.polynomials.XPolynomial) -> a
    java.lang.Object clone() -> clone
com.ogprover.polynomials.XTerm -> com.b.d.p:
    com.ogprover.polynomials.UFraction uCoeff -> a
    com.ogprover.polynomials.UFraction getUCoeff() -> a
    int getType() -> a
    com.ogprover.polynomials.Term clone() -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    com.ogprover.polynomials.Term reduce() -> c
    com.ogprover.polynomials.Term merge(com.ogprover.polynomials.Term) -> a
    com.ogprover.polynomials.Term mul(com.ogprover.polynomials.Term) -> b
    com.ogprover.polynomials.Term mul(double) -> a
    com.ogprover.polynomials.Term divide(com.ogprover.polynomials.Term) -> c
    com.ogprover.polynomials.Term invert() -> b
    boolean isZero() -> a
    java.lang.String printToLaTeX() -> a
    java.lang.String printToXML() -> b
    java.lang.String print() -> c
    java.lang.Object clone() -> clone
com.ogprover.pp.GeoGebraOGPInputProverProtocol -> com.b.e.a:
    java.lang.String geometryTheoremText -> a
    java.util.Map inputParameterMap -> a
    void setGeometryTheoremText(java.lang.String) -> a
    java.lang.String getGeometryTheoremText() -> a
    void setInputParmeter(java.lang.String,java.lang.String) -> a
    java.lang.String getIntputParameter(java.lang.String) -> a
    void setMethod(java.lang.String) -> b
    void setTimeOut(double) -> a
    void setMaxTerms(int) -> a
    void setReportFormat(java.lang.String) -> c
com.ogprover.pp.GeoGebraOGPOutputProverProtocol -> com.b.e.b:
    java.util.Map outputResultMap -> a
    java.util.Vector ndgList -> a
    void setNdgList(java.util.Vector) -> a
    java.util.Vector getNdgList() -> a
    void setOutputResult(java.lang.String,java.lang.String) -> a
    java.lang.String getOutputResult(java.lang.String) -> a
    double getExecutionTime() -> a
com.ogprover.pp.OGPInputProverProtocol -> com.b.e.c:
com.ogprover.pp.OGPOutputProverProtocol -> com.b.e.d:
com.ogprover.pp.tp.OGPTP -> com.b.e.a.a:
    java.lang.String theoremName -> a
    java.util.Vector constructionSteps -> a
    java.util.Map constructionMap -> a
    com.ogprover.pp.tp.thmstatement.ThmStatement theoremStatement -> a
    java.util.Vector algebraicNDGConditions -> b
    java.util.Vector simpleNDGConditions -> c
    com.ogprover.polynomials.GeoTheorem algebraicGeoTheorem -> a
    java.util.Vector zeroPoints -> d
    int uIndex -> a
    int xIndex -> b
    int numZeroIndices -> c
    boolean hasFreeParametricSet -> a
    void setTheoremName(java.lang.String) -> a
    java.lang.String getTheoremName() -> a
    java.util.Vector getConstructionSteps() -> a
    java.util.Map getConstructionMap() -> a
    com.ogprover.pp.tp.thmstatement.ThmStatement getTheoremStatement() -> a
    java.util.Vector getAlgebraicNDGConditions() -> b
    java.util.Vector getSimpleNDGConditions() -> c
    com.ogprover.polynomials.GeoTheorem getAlgebraicGeoTheorem() -> a
    java.util.Vector getZeroPoints() -> d
    void setUIndex(int) -> a
    int getUIndex() -> a
    void setXIndex(int) -> b
    int getXIndex() -> b
    void clear() -> a
    void addGeoConstruction(com.ogprover.pp.tp.geoconstruction.GeoConstruction) -> a
    void addGeoConstruction(int,com.ogprover.pp.tp.geoconstruction.GeoConstruction) -> a
    void removeGeoConstruction(com.ogprover.pp.tp.geoconstruction.GeoConstruction) -> b
    void addThmStatement(com.ogprover.pp.tp.thmstatement.ThmStatement) -> a
    void addAlgebraicNDGCondition(com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition) -> a
    void addSimpleNDGCondition(com.ogprover.pp.tp.ndgcondition.SimpleNDGCondition) -> a
    boolean isValid() -> a
    void decrementXIndex() -> b
    void incrementXIndex() -> c
    void decrementUIndex() -> d
    void incrementUIndex() -> e
    void setNumberOfZeroCoordinates() -> g
    int convertToAlgebraicForm() -> c
    void simplify() -> f
    void instantiatePoint(com.ogprover.pp.tp.geoconstruction.Point,int) -> a
    com.ogprover.polynomials.XPolynomial instantiateCondition(com.ogprover.polynomials.SymbolicPolynomial,java.util.Map) -> a
    boolean isPolynomialConsequenceOfConstructions(com.ogprover.polynomials.XPolynomial) -> a
    int translateNDGConditionsToUserReadableForm() -> d
    java.util.Vector exportTranslatedNDGConditions() -> e
    void populateZeroPoints() -> h
    java.util.Map getPointsAssociatedWithVariables(java.util.Vector) -> a
com.ogprover.pp.tp.auxiliary.FourPointsPositionChecker -> com.b.e.a.a.a:
    boolean checkFourCollinearPoints(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> a
    boolean checkFourConcyclicPoints(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> b
    boolean checkEqualSegments(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> c
    boolean checkParallelLines(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> d
    boolean checkPerpendicularLines(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> e
    boolean checkHarmonicConjugatePoints(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> f
    boolean checkCongruentCollinearSegments(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> g
    boolean checkAngleBisectorPoint(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> h
    boolean checkTwoPointsOnCircle(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> i
    boolean checkPointOnCircle(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> j
    boolean checkInversePoints(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> k
    boolean checkPositions(java.util.Vector) -> a
com.ogprover.pp.tp.auxiliary.GeneralizedAngleTangent -> com.b.e.a.a.b:
    java.util.ArrayList tangentCondition -> a
    java.util.Map getPointsMapForTwoAngles(com.ogprover.pp.tp.geoobject.Angle,com.ogprover.pp.tp.geoobject.Angle) -> a
    java.util.Map getLabelsMapForTwoAngles(java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    com.ogprover.polynomials.SymbolicPolynomial substitutePointLabelsForTwoAngles(com.ogprover.polynomials.SymbolicPolynomial,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    java.util.ArrayList getConditionForTangent() -> a
    java.util.ArrayList getConditionForTangentOfFirstAngle() -> b
    java.util.ArrayList getConditionForTangentOfSecondAngle() -> c
    com.ogprover.polynomials.SymbolicPolynomial getConditionForTangentsDifference() -> a
    com.ogprover.polynomials.SymbolicPolynomial getConditionForEqualsConvexAngles() -> b
com.ogprover.pp.tp.auxiliary.GeneralizedSegment -> com.b.e.a.a.c:
    com.ogprover.polynomials.XPolynomial getInstantiatedConditionForSquareOfSegment() -> a
    java.lang.String getDescription() -> a
com.ogprover.pp.tp.auxiliary.PointListManager -> com.b.e.a.a.d:
    java.util.Vector createListOfCombinations(java.util.Vector) -> a
    java.lang.String getPointListKey(java.util.Vector) -> a
    java.util.Vector mergePointLists(java.util.Vector,java.util.Vector) -> a
    java.util.Vector mergePairsOfPointCombinations(java.util.Vector,java.util.Vector) -> b
com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager -> com.b.e.a.a.e:
    com.ogprover.pp.tp.geoconstruction.SetOfPoints set -> a
    com.ogprover.pp.tp.geoconstruction.Point point -> a
    boolean errorFlag -> a
    com.ogprover.polynomials.SymbolicPolynomial condition -> a
    java.util.Map bestPointsForInstantiation -> a
    com.ogprover.polynomials.XPolynomial bestInstantiatedPolynomial -> a
    int degreeOfBestInstantiatedPolynomial -> a
    com.ogprover.polynomials.Variable xCoord -> a
    com.ogprover.polynomials.Variable yCoord -> b
    int managerType -> b
    void setPoint(com.ogprover.pp.tp.geoconstruction.Point) -> a
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    void setErrorFlag(boolean) -> a
    boolean isErrorFlag() -> a
    void setCondition(com.ogprover.polynomials.SymbolicPolynomial) -> a
    void setBestPointsForInstantiation(java.util.Map) -> a
    java.util.Map getBestPointsForInstantiation() -> a
    void setBestInstantiatedPolynomial(com.ogprover.polynomials.XPolynomial) -> a
    com.ogprover.polynomials.XPolynomial getBestInstantiatedPolynomial() -> a
    void setDegreeOfBestInstantiatedPolynomial(int) -> a
    int getDegreeOfBestInstantiatedPolynomial() -> a
    void clear() -> a
    com.ogprover.polynomials.XPolynomial retrieveInstantiatedCondition() -> b
    void prepareForFirstInstantiation() -> b
    void processPointsAndCondition(java.util.Map) -> b
    void processPointsAndConditionForConstruction(java.util.Map) -> c
    void processPointsAndConditionForStatement(java.util.Map) -> d
com.ogprover.pp.tp.auxiliary.PointsPositionChecker -> com.b.e.a.a.f:
    com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition ndgCond -> a
    com.ogprover.pp.tp.OGPTP auxiliaryCP -> a
    int acpUIndex -> a
    int acpXIndex -> b
    boolean checkPositions(java.util.Vector) -> a
    void clearAuxCP() -> a
    void initializeAuxiliaryCP() -> b
    void initializePointsPositionChecker(com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition) -> a
com.ogprover.pp.tp.auxiliary.ThreePointsPositionChecker -> com.b.e.a.a.g:
    boolean checkThreeCollinearPoints(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> a
    boolean checkMidPoint(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> b
    boolean checkPerpBisectorPoint(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> c
    boolean checkRightAngle(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> d
    boolean checkPointOnCircle(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> e
    boolean checkAlgebraicSumOfThreeSegments(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> f
    boolean checkPositions(java.util.Vector) -> a
com.ogprover.pp.tp.auxiliary.TwoPointsPositionChecker -> com.b.e.a.a.h:
    boolean checkPositions(java.util.Vector) -> a
com.ogprover.pp.tp.auxiliary.UnknownStatementException -> com.b.e.a.a.i:
com.ogprover.pp.tp.expressions.AMExpression -> com.b.e.a.b.a:
    com.ogprover.pp.tp.geoconstruction.Point iO -> a
    com.ogprover.pp.tp.geoconstruction.Point iU -> b
    com.ogprover.pp.tp.geoconstruction.Point iV -> c
    com.ogprover.pp.tp.expressions.AMExpression souv -> a
    java.lang.String print() -> a
    java.util.HashSet getPoints() -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
    boolean equals(java.lang.Object) -> equals
    boolean isZero() -> a
    com.ogprover.pp.tp.expressions.AMExpression simplify() -> c
    com.ogprover.pp.tp.expressions.AMExpression getX(com.ogprover.pp.tp.geoconstruction.Point) -> a
    com.ogprover.pp.tp.expressions.AMExpression getY(com.ogprover.pp.tp.geoconstruction.Point) -> b
com.ogprover.pp.tp.expressions.AdditiveInverse -> com.b.e.a.b.b:
    com.ogprover.pp.tp.expressions.AMExpression expr -> b
    com.ogprover.pp.tp.expressions.AMExpression getExpr() -> d
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.AreaOfTriangle -> com.b.e.a.b.c:
    com.ogprover.pp.tp.geoconstruction.Point a -> d
    com.ogprover.pp.tp.geoconstruction.Point b -> e
    com.ogprover.pp.tp.geoconstruction.Point c -> f
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.BasicNumber -> com.b.e.a.b.d:
    int n -> a
    int value() -> b
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.BigProduct -> com.b.e.a.b.e:
    com.ogprover.pp.tp.expressions.BasicNumber coeff -> a
    java.util.HashMap factors -> a
    com.ogprover.pp.tp.expressions.BasicNumber getCoeff() -> a
    java.util.HashMap getFactors() -> a
    void setCoeff(com.ogprover.pp.tp.expressions.BasicNumber) -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    java.util.HashSet getPoints() -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    boolean hasSameFactors(com.ogprover.pp.tp.expressions.BigProduct) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.Difference -> com.b.e.a.b.f:
    com.ogprover.pp.tp.expressions.AMExpression term1 -> b
    com.ogprover.pp.tp.expressions.AMExpression term2 -> c
    com.ogprover.pp.tp.expressions.AMExpression getTerm1() -> d
    com.ogprover.pp.tp.expressions.AMExpression getTerm2() -> e
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.Fraction -> com.b.e.a.b.g:
    com.ogprover.pp.tp.expressions.AMExpression numerator -> b
    com.ogprover.pp.tp.expressions.AMExpression denominator -> c
    com.ogprover.pp.tp.expressions.AMExpression getNumerator() -> d
    com.ogprover.pp.tp.expressions.AMExpression getDenominator() -> e
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.GeometricQuantity -> com.b.e.a.b.h:
    java.lang.String print() -> a
    java.util.HashSet getPoints() -> a
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    boolean equals(java.lang.Object) -> equals
com.ogprover.pp.tp.expressions.Product -> com.b.e.a.b.i:
    com.ogprover.pp.tp.expressions.AMExpression factor1 -> b
    com.ogprover.pp.tp.expressions.AMExpression factor2 -> c
    com.ogprover.pp.tp.expressions.AMExpression getFactor1() -> d
    com.ogprover.pp.tp.expressions.AMExpression getFactor2() -> e
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.PythagorasDifference -> com.b.e.a.b.j:
    com.ogprover.pp.tp.geoconstruction.Point a -> d
    com.ogprover.pp.tp.geoconstruction.Point b -> e
    com.ogprover.pp.tp.geoconstruction.Point c -> f
    com.ogprover.pp.tp.geoconstruction.Point getA() -> a
    com.ogprover.pp.tp.geoconstruction.Point getB() -> b
    com.ogprover.pp.tp.geoconstruction.Point getC() -> c
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.RatioOfCollinearSegments -> com.b.e.a.b.k:
    com.ogprover.pp.tp.geoconstruction.Point a -> d
    com.ogprover.pp.tp.geoconstruction.Point b -> e
    com.ogprover.pp.tp.geoconstruction.Point c -> f
    com.ogprover.pp.tp.geoconstruction.Point d -> g
    com.ogprover.pp.tp.geoconstruction.Point getA() -> a
    com.ogprover.pp.tp.geoconstruction.Point getB() -> b
    com.ogprover.pp.tp.geoconstruction.Point getC() -> c
    com.ogprover.pp.tp.geoconstruction.Point getD() -> d
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.Sum -> com.b.e.a.b.l:
    com.ogprover.pp.tp.expressions.AMExpression term1 -> b
    com.ogprover.pp.tp.expressions.AMExpression term2 -> c
    com.ogprover.pp.tp.expressions.AMExpression getTerm1() -> d
    com.ogprover.pp.tp.expressions.AMExpression getTerm2() -> e
    java.util.HashSet getPoints() -> a
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.SumOfProducts -> com.b.e.a.b.m:
    java.util.HashSet terms -> a
    java.util.HashSet getTerms() -> b
    java.lang.String print() -> a
    boolean equals(java.lang.Object) -> equals
    java.util.HashSet getPoints() -> a
    int size() -> a
    com.ogprover.pp.tp.expressions.AMExpression uniformize(java.util.HashSet) -> a
    com.ogprover.pp.tp.expressions.AMExpression simplifyInOneStep() -> a
    com.ogprover.pp.tp.expressions.AMExpression eliminate(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression reduceToSingleFraction() -> b
    com.ogprover.pp.tp.expressions.AMExpression toIndependantVariables(com.ogprover.thmprover.AreaMethodProver) -> a
    com.ogprover.pp.tp.expressions.AMExpression replace(java.util.HashMap) -> a
    void addTerm(com.ogprover.pp.tp.expressions.BigProduct) -> a
    com.ogprover.pp.tp.expressions.SumOfProducts toSumOfProducts() -> a
com.ogprover.pp.tp.expressions.parse.ExpressionParser -> com.b.e.a.b.a.a:
    com.ogprover.pp.tp.expressions.parse.ExpressionParserTokenManager token_source -> a
    com.ogprover.pp.tp.expressions.parse.SimpleCharStream jj_input_stream -> a
    com.ogprover.pp.tp.expressions.parse.Token token -> a
    com.ogprover.pp.tp.expressions.parse.Token jj_nt -> b
    int jj_ntk -> a
    com.ogprover.pp.tp.expressions.parse.Token jj_scanpos -> c
    com.ogprover.pp.tp.expressions.parse.Token jj_lastpos -> d
    int jj_la -> b
    int jj_gen -> c
    int[] jj_la1 -> a
    int[] jj_la1_0 -> b
    com.ogprover.pp.tp.expressions.parse.ExpressionParser$JJCalls[] jj_2_rtns -> a
    boolean jj_rescan -> a
    int jj_gc -> d
    com.ogprover.pp.tp.expressions.parse.ExpressionParser$LookaheadSuccess jj_ls -> a
    java.util.List jj_expentries -> a
    int[] jj_expentry -> c
    int jj_kind -> e
    int[] jj_lasttokens -> d
    int jj_endpos -> f
    com.ogprover.pp.tp.expressions.AMExpression convert(java.lang.String) -> a
    com.ogprover.pp.tp.expressions.AMExpression start() -> a
    com.ogprover.pp.tp.expressions.AMExpression expression() -> b
    com.ogprover.pp.tp.expressions.AMExpression term() -> c
    com.ogprover.pp.tp.expressions.AMExpression primary() -> d
    com.ogprover.pp.tp.expressions.AMExpression notNumberPrimary() -> e
    com.ogprover.pp.tp.expressions.AMExpression ratioOfSegments() -> f
    com.ogprover.pp.tp.expressions.AMExpression areaOfTriangle() -> g
    com.ogprover.pp.tp.expressions.AMExpression squareOfSegment() -> h
    com.ogprover.pp.tp.expressions.AMExpression simpleSegment() -> i
    boolean jj_2_1(int) -> a
    boolean jj_2_2(int) -> b
    boolean jj_2_3(int) -> c
    boolean jj_2_4(int) -> d
    boolean jj_2_5(int) -> e
    boolean jj_2_6(int) -> f
    boolean jj_3R_19() -> a
    boolean jj_3R_18() -> b
    boolean jj_3R_10() -> c
    boolean jj_3R_17() -> d
    boolean jj_3R_20() -> e
    boolean jj_3R_7() -> f
    boolean jj_3R_12() -> g
    boolean jj_3R_11() -> h
    boolean jj_3R_8() -> i
    boolean jj_3R_3() -> j
    boolean jj_3R_5() -> k
    boolean jj_3_2() -> l
    boolean jj_3_1() -> m
    boolean jj_3_6() -> n
    boolean jj_3R_23() -> o
    boolean jj_3_5() -> p
    boolean jj_3R_22() -> q
    boolean jj_3R_21() -> r
    boolean jj_3R_4() -> s
    boolean jj_3_4() -> t
    boolean jj_3R_16() -> u
    boolean jj_3_3() -> v
    boolean jj_3R_15() -> w
    boolean jj_3R_14() -> x
    boolean jj_3R_6() -> y
    boolean jj_3R_13() -> z
    boolean jj_3R_9() -> A
    void jj_la1_init_0() -> a
    com.ogprover.pp.tp.expressions.parse.Token jj_consume_token(int) -> a
    boolean jj_scan_token(int) -> g
    int jj_ntk() -> a
    void jj_add_error_token(int,int) -> a
    com.ogprover.pp.tp.expressions.parse.ParseException generateParseException() -> a
    void jj_rescan_token() -> b
    void jj_save(int,int) -> b
com.ogprover.pp.tp.expressions.parse.ExpressionParser$1 -> com.b.e.a.b.a.a$1:
com.ogprover.pp.tp.expressions.parse.ExpressionParser$JJCalls -> com.b.e.a.b.a.a$a:
    int gen -> a
    com.ogprover.pp.tp.expressions.parse.Token first -> a
    int arg -> b
    com.ogprover.pp.tp.expressions.parse.ExpressionParser$JJCalls next -> a
com.ogprover.pp.tp.expressions.parse.ExpressionParser$LookaheadSuccess -> com.b.e.a.b.a.a$b:
com.ogprover.pp.tp.expressions.parse.ExpressionParserConstants -> com.b.e.a.b.a.b:
    java.lang.String[] tokenImage -> a
com.ogprover.pp.tp.expressions.parse.ExpressionParserTokenManager -> com.b.e.a.b.a.c:
    java.io.PrintStream debugStream -> a
    long[] jjbitVec0 -> a
    long[] jjbitVec1 -> b
    long[] jjbitVec2 -> c
    long[] jjbitVec3 -> d
    long[] jjbitVec4 -> e
    long[] jjbitVec5 -> f
    long[] jjbitVec6 -> g
    long[] jjbitVec7 -> h
    long[] jjbitVec8 -> i
    long[] jjbitVec9 -> j
    long[] jjbitVec10 -> k
    long[] jjbitVec11 -> l
    long[] jjbitVec12 -> m
    long[] jjbitVec13 -> n
    long[] jjbitVec15 -> o
    long[] jjbitVec16 -> p
    long[] jjbitVec17 -> q
    long[] jjbitVec18 -> r
    long[] jjbitVec19 -> s
    long[] jjbitVec20 -> t
    long[] jjbitVec21 -> u
    long[] jjbitVec22 -> v
    long[] jjbitVec23 -> w
    long[] jjbitVec24 -> x
    long[] jjbitVec25 -> y
    long[] jjbitVec26 -> z
    long[] jjbitVec27 -> A
    long[] jjbitVec28 -> B
    long[] jjbitVec29 -> C
    long[] jjbitVec30 -> D
    long[] jjbitVec31 -> E
    long[] jjbitVec32 -> F
    int[] jjnextStates -> a
    java.lang.String[] jjstrLiteralImages -> b
    java.lang.String[] lexStateNames -> c
    long[] jjtoToken -> G
    long[] jjtoSkip -> H
    com.ogprover.pp.tp.expressions.parse.SimpleCharStream input_stream -> a
    int[] jjrounds -> b
    int[] jjstateSet -> c
    char curChar -> a
    int curLexState -> a
    int defaultLexState -> b
    int jjnewStateCnt -> c
    int jjround -> d
    int jjmatchedPos -> e
    int jjmatchedKind -> f
    int jjStopStringLiteralDfa_0(int,long) -> a
    int jjStartNfa_0(int,long) -> b
    int jjStopAtPos(int,int) -> a
    int jjMoveStringLiteralDfa0_0() -> a
    int jjMoveStringLiteralDfa1_0(long) -> a
    int jjMoveStringLiteralDfa2_0(long,long) -> a
    int jjMoveStringLiteralDfa3_0(long,long) -> b
    int jjMoveStringLiteralDfa4_0(long,long) -> c
    int jjMoveStringLiteralDfa5_0(long,long) -> d
    int jjMoveStringLiteralDfa6_0(long,long) -> e
    int jjStartNfaWithStates_0(int,int,int) -> a
    int jjMoveNfa_0(int,int) -> b
    boolean jjCanMove_0(int,int,int,long,long) -> a
    boolean jjCanMove_1(int,int,int,long,long) -> b
    boolean jjCanMove_2(int,int,int,long,long) -> c
    boolean jjCanMove_3(int,int,int,long,long) -> d
    void ReInitRounds() -> a
    com.ogprover.pp.tp.expressions.parse.Token jjFillToken() -> a
    com.ogprover.pp.tp.expressions.parse.Token getNextToken() -> b
    void jjCheckNAdd(int) -> a
    void jjAddStates(int,int) -> a
    void jjCheckNAddTwoStates(int,int) -> b
    void jjCheckNAddStates(int,int) -> c
com.ogprover.pp.tp.expressions.parse.ParseException -> com.b.e.a.b.a.d:
    com.ogprover.pp.tp.expressions.parse.Token currentToken -> a
    int[][] expectedTokenSequences -> a
    java.lang.String[] tokenImage -> a
    java.lang.String eol -> a
    java.lang.String initialise(com.ogprover.pp.tp.expressions.parse.Token,int[][],java.lang.String[]) -> a
    java.lang.String add_escapes(java.lang.String) -> a
com.ogprover.pp.tp.expressions.parse.SimpleCharStream -> com.b.e.a.b.a.e:
    int bufsize -> a
    int available -> b
    int tokenBegin -> c
    int bufpos -> d
    int[] bufline -> a
    int[] bufcolumn -> b
    int column -> e
    int line -> f
    boolean prevCharIsCR -> a
    boolean prevCharIsLF -> b
    java.io.Reader inputStream -> a
    char[] buffer -> a
    int maxNextCharInd -> g
    int inBuf -> h
    int tabSize -> i
    void ExpandBuff(boolean) -> a
    void FillBuff() -> a
    char BeginToken() -> a
    void UpdateLineColumn(char) -> a
    char readChar() -> b
    int getEndColumn() -> a
    int getEndLine() -> b
    int getBeginColumn() -> c
    int getBeginLine() -> d
    void backup(int) -> a
    java.lang.String GetImage() -> a
com.ogprover.pp.tp.expressions.parse.Token -> com.b.e.a.b.a.f:
    int kind -> a
    int beginLine -> b
    int beginColumn -> c
    int endLine -> d
    int endColumn -> e
    java.lang.String image -> a
    com.ogprover.pp.tp.expressions.parse.Token next -> a
    java.lang.String toString() -> toString
    com.ogprover.pp.tp.expressions.parse.Token newToken(int,java.lang.String) -> a
com.ogprover.pp.tp.expressions.parse.TokenMgrError -> com.b.e.a.b.a.g:
    int errorCode -> a
    java.lang.String addEscapes(java.lang.String) -> a
    java.lang.String LexicalError(boolean,int,int,int,java.lang.String,char) -> a
    java.lang.String getMessage() -> getMessage
com.ogprover.pp.tp.geoconstruction.AMFootPoint -> com.b.e.a.c.a:
    com.ogprover.pp.tp.geoconstruction.Point p -> a
    com.ogprover.pp.tp.geoconstruction.Point u -> b
    com.ogprover.pp.tp.geoconstruction.Point v -> c
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point getP() -> a
    com.ogprover.pp.tp.geoconstruction.Point getU() -> b
    com.ogprover.pp.tp.geoconstruction.Point getV() -> c
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    int transformToAlgebraicForm() -> b
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.AMIntersectionPoint -> com.b.e.a.c.b:
    com.ogprover.pp.tp.geoconstruction.Point u -> a
    com.ogprover.pp.tp.geoconstruction.Point v -> b
    com.ogprover.pp.tp.geoconstruction.Point p -> c
    com.ogprover.pp.tp.geoconstruction.Point q -> d
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point getU() -> a
    com.ogprover.pp.tp.geoconstruction.Point getV() -> b
    com.ogprover.pp.tp.geoconstruction.Point getP() -> c
    com.ogprover.pp.tp.geoconstruction.Point getQ() -> e
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    int transformToAlgebraicForm() -> b
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.AngleBisector -> com.b.e.a.c.c:
    com.ogprover.pp.tp.geoobject.Angle angle -> a
    com.ogprover.polynomials.SymbolicPolynomial checkPerpCondition -> a
    com.ogprover.polynomials.SymbolicPolynomial conditionForPerpAngBisector -> b
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.CenterOfCircle -> com.b.e.a.c.d:
    com.ogprover.pp.tp.geoconstruction.Circle circle -> a
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    java.lang.String getConstructionDesc() -> a
com.ogprover.pp.tp.geoconstruction.CentralSymmetricPoint -> com.b.e.a.c.e:
    com.ogprover.polynomials.SymbolicPolynomial xConditionForCentralSymmetricPoint -> a
    com.ogprover.polynomials.SymbolicPolynomial yConditionForCentralSymmetricPoint -> b
    com.ogprover.pp.tp.geoconstruction.Point originalPoint -> a
    com.ogprover.pp.tp.geoconstruction.Point center -> b
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    java.util.Map getPointsForInstantiation() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.Circle -> com.b.e.a.c.f:
    java.util.Vector points -> a
    com.ogprover.pp.tp.geoconstruction.Point center -> a
    com.ogprover.polynomials.SymbolicPolynomial conditionForCircleWithCenterAndPoint -> a
    com.ogprover.polynomials.SymbolicPolynomial conditionForCircleWithCenterAndRadius -> b
    com.ogprover.polynomials.SymbolicPolynomial conditionForCircleWithDiameter -> c
    com.ogprover.polynomials.SymbolicPolynomial conditionForCircumscribedCircle -> d
    java.util.Vector getPoints() -> a
    void setCenter(com.ogprover.pp.tp.geoconstruction.Point) -> a
    com.ogprover.pp.tp.geoconstruction.Point getCenter() -> a
    com.ogprover.polynomials.XPolynomial instantiateCondition(java.util.Map) -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    void addPointToSet(com.ogprover.pp.tp.geoconstruction.Point) -> b
    java.util.Map getAllPossibleConditionsWithMappings() -> a
com.ogprover.pp.tp.geoconstruction.CircleWithCenterAndPoint -> com.b.e.a.c.g:
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.CircleWithCenterAndRadius -> com.b.e.a.c.h:
    com.ogprover.pp.tp.geoobject.Segment radius -> a
    com.ogprover.pp.tp.geoobject.Segment getRadius() -> a
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.CircleWithDiameter -> com.b.e.a.c.i:
    com.ogprover.pp.tp.geoobject.Segment diameter -> a
    com.ogprover.pp.tp.geoobject.Segment getDiameter() -> a
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.CircumscribedCircle -> com.b.e.a.c.j:
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.ConicSection -> com.b.e.a.c.k:
com.ogprover.pp.tp.geoconstruction.ConicSectionWithFivePoints -> com.b.e.a.c.l:
    java.util.Vector points -> b
    com.ogprover.polynomials.SymbolicPolynomial conditionForConicSectionWithFivePoints -> a
    java.util.Vector getPoints() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    void addPointToSet(com.ogprover.pp.tp.geoconstruction.Point) -> b
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    int getConstructionType() -> a
    java.lang.String getConstructionDesc() -> a
    void instantiateParametricPoint(int) -> b
    void generatePolynomialForPointFromConicSection(int) -> c
    int transformToAlgebraicForm() -> b
    void processNDGCondition(com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition) -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.FreeParametricSet -> com.b.e.a.c.m:
    boolean containsOrigin -> a
    void setContainsOrigin(boolean) -> a
    boolean isContainsOrigin() -> b
    int getNumberOfZeroCoordinates() -> c
com.ogprover.pp.tp.geoconstruction.FreePoint -> com.b.e.a.c.n:
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    int transformToAlgebraicForm() -> b
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.GeneralConicSection -> com.b.e.a.c.o:
    java.util.Vector points -> b
    com.ogprover.polynomials.SymbolicPolynomial conditionForConicSection -> a
    com.ogprover.polynomials.SymbolicPolynomial conditionForConicSectionWithOrigin -> b
    java.util.Vector getPoints() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    void addPointToSet(com.ogprover.pp.tp.geoconstruction.Point) -> b
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    int getConstructionType() -> a
    java.lang.String getConstructionDesc() -> a
    void instantiateParametricPoint(int) -> b
    int transformToAlgebraicForm() -> b
    void processNDGCondition(com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition) -> a
    int getNumberOfZeroCoordinates() -> c
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.GeoConstruction -> com.b.e.a.c.p:
    java.lang.String geoObjectLabel -> a
    com.ogprover.pp.tp.OGPTP consProtocol -> a
    int index -> a
    int getConstructionType() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    java.lang.String getGeoObjectLabel() -> c
    void setConsProtocol(com.ogprover.pp.tp.OGPTP) -> a
    com.ogprover.pp.tp.OGPTP getConsProtocol() -> a
    void setIndex(int) -> a
    int getIndex() -> d
    boolean isValidConstructionStep() -> a
com.ogprover.pp.tp.geoconstruction.IgnoredConstruction -> com.b.e.a.c.q:
    int getConstructionType() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.IntersectionPoint -> com.b.e.a.c.r:
    com.ogprover.pp.tp.geoconstruction.SetOfPoints firstPointSet -> a
    com.ogprover.pp.tp.geoconstruction.SetOfPoints secondPointSet -> b
    int getConstructionType() -> a
    void setFirstPointSet(com.ogprover.pp.tp.geoconstruction.SetOfPoints) -> a
    com.ogprover.pp.tp.geoconstruction.SetOfPoints getFirstPointSet() -> a
    void setSecondPointSet(com.ogprover.pp.tp.geoconstruction.SetOfPoints) -> b
    com.ogprover.pp.tp.geoconstruction.SetOfPoints getSecondPointSet() -> b
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    int transformToAlgebraicForm() -> b
    int transformToAlgebraicFormWithOutputPrintFlag(boolean) -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.InverseOfPoint -> com.b.e.a.c.s:
    com.ogprover.polynomials.SymbolicPolynomial xConditionForInverseOfPointGeneral -> a
    com.ogprover.polynomials.SymbolicPolynomial yConditionForInverseOfPointGeneral -> b
    com.ogprover.pp.tp.geoconstruction.Point originalPoint -> a
    com.ogprover.pp.tp.geoconstruction.Circle circleOfInversion -> a
    com.ogprover.pp.tp.geoconstruction.Point secantPoint -> b
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    java.util.Map getPointsForInstantiation() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.Line -> com.b.e.a.c.t:
    java.util.Vector points -> a
    java.util.Vector getPoints() -> a
    com.ogprover.polynomials.XPolynomial instantiateCondition(java.util.Map) -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    void addPointToSet(com.ogprover.pp.tp.geoconstruction.Point) -> b
    java.util.Map getAllPossibleConditionsWithMappings() -> a
com.ogprover.pp.tp.geoconstruction.LineThroughTwoPoints -> com.b.e.a.c.u:
    com.ogprover.polynomials.SymbolicPolynomial conditionForPlainLine -> a
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.ListOfConstructions -> com.b.e.a.c.v:
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    java.lang.String getConstructionDesc() -> a
com.ogprover.pp.tp.geoconstruction.MidPoint -> com.b.e.a.c.w:
    com.ogprover.polynomials.SymbolicPolynomial xConditionForMidPoint -> a
    com.ogprover.polynomials.SymbolicPolynomial yConditionForMidPoint -> b
    com.ogprover.pp.tp.geoobject.Segment segment -> a
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    java.util.Map getPointsForInstantiation() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.PRatioPoint -> com.b.e.a.c.x:
    com.ogprover.pp.tp.geoconstruction.Point w -> a
    com.ogprover.pp.tp.geoconstruction.Point u -> b
    com.ogprover.pp.tp.geoconstruction.Point v -> c
    com.ogprover.pp.tp.expressions.AMExpression r -> a
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point getW() -> a
    com.ogprover.pp.tp.geoconstruction.Point getU() -> b
    com.ogprover.pp.tp.geoconstruction.Point getV() -> c
    com.ogprover.pp.tp.expressions.AMExpression getR() -> a
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    int transformToAlgebraicForm() -> b
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.ParallelLine -> com.b.e.a.c.y:
    com.ogprover.polynomials.SymbolicPolynomial conditionForParallelLine -> a
    com.ogprover.pp.tp.geoconstruction.Line baseLine -> a
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Line getBaseLine() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.ParametricSet -> com.b.e.a.c.z:
    java.util.Vector parametricPoints -> a
    int transformToAlgebraicForm() -> b
    void processNDGCondition(com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition) -> a
com.ogprover.pp.tp.geoconstruction.PerpendicularBisector -> com.b.e.a.c.A:
    com.ogprover.polynomials.SymbolicPolynomial conditionForPerpendicularBisector -> a
    com.ogprover.pp.tp.geoobject.Segment segment -> a
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoobject.Segment getSegment() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.PerpendicularLine -> com.b.e.a.c.B:
    com.ogprover.polynomials.SymbolicPolynomial conditionForPerpendicularLine -> a
    com.ogprover.pp.tp.geoconstruction.Line baseLine -> a
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Line getBaseLine() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.Point -> com.b.e.a.c.C:
    com.ogprover.polynomials.UXVariable X -> a
    com.ogprover.polynomials.UXVariable Y -> b
    int instanceType -> b
    int pointState -> c
    int transformToAlgebraicForm() -> b
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    void setX(com.ogprover.polynomials.UXVariable) -> a
    com.ogprover.polynomials.UXVariable getX() -> a
    void setY(com.ogprover.polynomials.UXVariable) -> b
    com.ogprover.polynomials.UXVariable getY() -> b
    void setInstanceType(int) -> b
    int getInstanceType() -> c
    void setPointState(int) -> c
    int getPointState() -> e
    boolean equals(java.lang.Object) -> equals
    boolean compare(com.ogprover.pp.tp.geoconstruction.Point) -> a
    int renameCoordinate(short,short,long,boolean) -> a
    int addPolynomialToSystem(com.ogprover.polynomials.XPolynomial,boolean) -> b
    int processConstructionPolynomial(com.ogprover.polynomials.XPolynomial,boolean) -> a
    int processConstructionPolynomialLogic(com.ogprover.polynomials.XPolynomial,boolean) -> c
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.Polar -> com.b.e.a.c.D:
    com.ogprover.pp.tp.geoconstruction.Point pole -> a
    com.ogprover.pp.tp.geoconstruction.SetOfPoints baseSet -> a
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    java.lang.String getConstructionDesc() -> a
com.ogprover.pp.tp.geoconstruction.Pole -> com.b.e.a.c.E:
    com.ogprover.pp.tp.geoconstruction.Line polar -> a
    com.ogprover.pp.tp.geoconstruction.SetOfPoints baseSet -> a
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    java.lang.String getConstructionDesc() -> a
com.ogprover.pp.tp.geoconstruction.RandomPointFromCircle -> com.b.e.a.c.F:
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.RandomPointFromGeneralConic -> com.b.e.a.c.G:
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.RandomPointFromLine -> com.b.e.a.c.H:
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.RandomPointFromParametricSet -> com.b.e.a.c.I:
    int transformToAlgebraicForm() -> b
com.ogprover.pp.tp.geoconstruction.RandomPointFromSetOfPoints -> com.b.e.a.c.J:
    com.ogprover.pp.tp.geoconstruction.SetOfPoints baseSetOfPoints -> a
    void setBaseSetOfPoints(com.ogprover.pp.tp.geoconstruction.SetOfPoints) -> a
    com.ogprover.pp.tp.geoconstruction.SetOfPoints getBaseSetOfPoints() -> a
    int transformToAlgebraicForm() -> b
    com.ogprover.pp.tp.geoconstruction.Point createRandomPoint(java.lang.String,com.ogprover.pp.tp.geoconstruction.SetOfPoints) -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.ReflectedPoint -> com.b.e.a.c.K:
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    java.lang.String getConstructionDesc() -> a
com.ogprover.pp.tp.geoconstruction.RotatedPoint -> com.b.e.a.c.L:
    com.ogprover.pp.tp.geoconstruction.Point originalPoint -> a
    com.ogprover.pp.tp.geoconstruction.Point centerOfRotation -> b
    double radAngleMeasure -> a
    double degAngleMeasure -> b
    int getConstructionType() -> a
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    boolean isValidConstructionStep() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    java.util.Map getPointsForInstantiation() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.SelfConditionalPoint -> com.b.e.a.c.M:
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    java.util.Map getPointsForInstantiation() -> a
    com.ogprover.polynomials.XPolynomial instantiateXCondition(java.util.Map) -> a
    com.ogprover.polynomials.XPolynomial instantiateYCondition(java.util.Map) -> b
    int transformToAlgebraicForm() -> b
    int transformToAlgebraicForm(java.util.Map) -> a
com.ogprover.pp.tp.geoconstruction.SetOfPoints -> com.b.e.a.c.N:
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    void addPointToSet(com.ogprover.pp.tp.geoconstruction.Point) -> b
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
com.ogprover.pp.tp.geoconstruction.ShortcutConstruction -> com.b.e.a.c.O:
    java.util.Vector shortcutListOfConstructions -> a
    com.ogprover.pp.tp.geoconstruction.Point getPoint() -> a
    int getConstructionType() -> a
    java.util.Vector getShortcutListOfConstructions() -> a
    boolean isValidConstructionStep() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoconstruction.SpecialConstantAngle -> com.b.e.a.c.P:
    int transformToAlgebraicForm() -> a
com.ogprover.pp.tp.geoconstruction.TRatioPoint -> com.b.e.a.c.Q:
    com.ogprover.pp.tp.geoconstruction.Point u -> a
    com.ogprover.pp.tp.geoconstruction.Point v -> b
    com.ogprover.pp.tp.expressions.AMExpression r -> a
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point getU() -> a
    com.ogprover.pp.tp.geoconstruction.Point getV() -> b
    com.ogprover.pp.tp.expressions.AMExpression getR() -> a
    com.ogprover.pp.tp.geoconstruction.Point clone() -> d
    int transformToAlgebraicForm() -> b
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
    com.ogprover.pp.tp.geoconstruction.Point replace(java.util.HashMap) -> a
    java.lang.Object clone() -> clone
com.ogprover.pp.tp.geoconstruction.TangentLine -> com.b.e.a.c.R:
    com.ogprover.pp.tp.geoconstruction.SetOfPoints underlyingPointsSet -> a
    int indexOfTouchPoint -> b
    com.ogprover.polynomials.SymbolicPolynomial conditionForUnderlyingSetOfPoints -> a
    int getConstructionType() -> a
    com.ogprover.pp.tp.geoconstruction.Point getTouchPoint() -> a
    com.ogprover.polynomials.SymbolicPolynomial getCondition() -> a
    boolean isValidConstructionStep() -> a
    int findBestPointsForInstantation(com.ogprover.pp.tp.auxiliary.PointSetRelationshipManager) -> a
    com.ogprover.polynomials.XPolynomial instantiateConditionFromBasicElements(com.ogprover.pp.tp.geoconstruction.Point) -> a
    java.util.Map getAllPossibleConditionsWithMappings() -> a
    java.lang.String getConstructionDesc() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.geoobject.Angle -> com.b.e.a.d.a:
    com.ogprover.pp.tp.geoconstruction.Point vertex -> a
    com.ogprover.pp.tp.geoconstruction.Point firstRayPoint -> b
    com.ogprover.pp.tp.geoconstruction.Point secondRayPoint -> c
    java.lang.String angLabel -> a
    com.ogprover.pp.tp.geoconstruction.Point getVertex() -> a
    com.ogprover.pp.tp.geoconstruction.Point getFirstRayPoint() -> b
    com.ogprover.pp.tp.geoconstruction.Point getSecondRayPoint() -> c
    java.lang.String getGeoObjectLabel() -> c
    java.lang.String getDescription() -> a
    java.util.Vector getPoints() -> a
com.ogprover.pp.tp.geoobject.GeoObject -> com.b.e.a.d.b:
    java.lang.String getGeoObjectLabel() -> c
com.ogprover.pp.tp.geoobject.PointList -> com.b.e.a.d.c:
    java.util.Vector getPoints() -> a
com.ogprover.pp.tp.geoobject.PolygonLine -> com.b.e.a.d.d:
    java.util.Vector vertices -> a
    java.lang.String label -> a
    java.util.Vector edgesLabels -> b
    java.lang.String getGeoObjectLabel() -> c
    java.util.Vector getEdgesLabels() -> b
    java.util.Vector getPoints() -> a
com.ogprover.pp.tp.geoobject.Segment -> com.b.e.a.d.e:
    com.ogprover.polynomials.SymbolicPolynomial squareOfDistance -> a
    com.ogprover.polynomials.SymbolicPolynomial xCoordOfOrientedSeg -> b
    com.ogprover.polynomials.SymbolicPolynomial yCoordOfOrientedSeg -> c
    com.ogprover.pp.tp.geoconstruction.Point firstEndPoint -> a
    com.ogprover.pp.tp.geoconstruction.Point secondEndPoint -> b
    java.lang.String segLabel -> a
    com.ogprover.pp.tp.geoconstruction.Point getFirstEndPoint() -> a
    com.ogprover.pp.tp.geoconstruction.Point getSecondEndPoint() -> b
    java.lang.String getGeoObjectLabel() -> c
    java.util.Map getLabelsMapForSquareOfDistance(java.lang.String,java.lang.String) -> a
    com.ogprover.polynomials.SymbolicPolynomial substitutePointLabelsForSquareOfDistance(com.ogprover.polynomials.SymbolicPolynomial,java.lang.String,java.lang.String) -> a
    com.ogprover.polynomials.SymbolicPolynomial getConditionForSquareOfDistance() -> a
    com.ogprover.polynomials.XPolynomial getInstantiatedConditionForSquareOfSegment() -> a
    com.ogprover.polynomials.XPolynomial getInstantiatedXCoordinateOfOrientedSegment() -> b
    com.ogprover.polynomials.XPolynomial getInstantiatedYCoordinateOfOrientedSegment() -> c
    java.lang.String getDescription() -> a
    java.util.Vector getPoints() -> a
com.ogprover.pp.tp.ndgcondition.AlgebraicNDGCondition -> com.b.e.a.e.a:
    com.ogprover.pp.tp.OGPTP consProtocol -> a
    com.ogprover.polynomials.XPolynomial polynomial -> a
    java.util.Vector pointLists -> a
    java.util.Vector textList -> b
    java.lang.String bestDescription -> a
    java.util.Vector bestPointList -> c
    int numOfFreePts -> a
    int numOfRndPts -> b
    int numOfDependentPts -> c
    int numOfAllPts -> d
    java.lang.String ndgType -> b
    void setConsProtocol(com.ogprover.pp.tp.OGPTP) -> a
    com.ogprover.pp.tp.OGPTP getConsProtocol() -> a
    com.ogprover.polynomials.XPolynomial getPolynomial() -> a
    void setBestDescription(java.lang.String) -> a
    java.lang.String getBestDescription() -> a
    java.util.Vector getBestPointList() -> a
    java.lang.String getNdgType() -> b
    void addNewTranslation(java.lang.String,java.util.Vector) -> a
    int populatePointLists() -> b
    boolean checkInParametricObjects() -> a
    int transformToUserReadableForm() -> a
    java.lang.String getNDGConditionText(java.lang.String,java.util.Vector) -> a
com.ogprover.pp.tp.ndgcondition.DistinctPoints -> com.b.e.a.e.b:
    com.ogprover.pp.tp.geoconstruction.Point a -> a
    com.ogprover.pp.tp.geoconstruction.Point b -> b
    java.lang.String print() -> a
com.ogprover.pp.tp.ndgcondition.NonParallelLines -> com.b.e.a.e.c:
    com.ogprover.pp.tp.geoconstruction.Point a -> a
    com.ogprover.pp.tp.geoconstruction.Point b -> b
    com.ogprover.pp.tp.geoconstruction.Point c -> c
    com.ogprover.pp.tp.geoconstruction.Point d -> d
    java.lang.String print() -> a
com.ogprover.pp.tp.ndgcondition.SimpleNDGCondition -> com.b.e.a.e.d:
    com.ogprover.pp.tp.OGPTP consProtocol -> a
    java.util.Vector points -> a
    java.lang.String print() -> a
com.ogprover.pp.tp.thmstatement.AlgebraicSumOfThreeSegments -> com.b.e.a.f.a:
    com.ogprover.pp.tp.auxiliary.GeneralizedSegment firstSegment -> a
    com.ogprover.pp.tp.auxiliary.GeneralizedSegment secondSegment -> b
    com.ogprover.pp.tp.auxiliary.GeneralizedSegment thirdSegment -> c
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement -> com.b.e.a.f.b:
    java.util.Vector statements -> a
    java.lang.String name -> a
    java.util.Vector getStatements() -> a
    java.lang.String getName() -> a
com.ogprover.pp.tp.thmstatement.CollinearPoints -> com.b.e.a.f.c:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    boolean isValid() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.CompoundThmStatement -> com.b.e.a.f.d:
    java.util.Vector particleThmStatements -> a
    java.util.Vector getParticleThmStatements() -> a
com.ogprover.pp.tp.thmstatement.ConcurrentCircles -> com.b.e.a.f.e:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    boolean isValid() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.ConcurrentLines -> com.b.e.a.f.f:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    boolean isValid() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.ConcyclicPoints -> com.b.e.a.f.g:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    boolean isValid() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.DimensionThmStatement -> com.b.e.a.f.h:
com.ogprover.pp.tp.thmstatement.ElementaryThmStatement -> com.b.e.a.f.i:
    java.util.Vector geoObjects -> a
    java.util.Vector getGeoObjects() -> a
    boolean isValid() -> a
    java.lang.String[] getInputLabels() -> a
com.ogprover.pp.tp.thmstatement.EqualAngles -> com.b.e.a.f.j:
    com.ogprover.pp.tp.geoobject.Angle firstAngle -> a
    com.ogprover.pp.tp.geoobject.Angle secondAngle -> b
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.EqualityOfExpressions -> com.b.e.a.f.k:
    com.ogprover.pp.tp.expressions.AMExpression expr1 -> a
    com.ogprover.pp.tp.expressions.AMExpression expr2 -> b
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
    java.lang.String getStatementDesc() -> a
com.ogprover.pp.tp.thmstatement.False -> com.b.e.a.f.l:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    boolean isValid() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.FourHarmonicConjugatePoints -> com.b.e.a.f.m:
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    boolean isValid() -> a
    com.ogprover.polynomials.XPolynomial getXAlgebraicForm() -> b
    com.ogprover.polynomials.XPolynomial getYAlgebraicForm() -> c
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.IdenticalPoints -> com.b.e.a.f.n:
    com.ogprover.polynomials.SymbolicPolynomial conditionForIdenticalPoints -> a
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.LinearCombinationOfOrientedSegments -> com.b.e.a.f.o:
    java.util.Vector segments -> b
    java.util.Vector coefficients -> c
    boolean isValid() -> a
    com.ogprover.polynomials.XPolynomial getXAlgebraicForm() -> b
    com.ogprover.polynomials.XPolynomial getYAlgebraicForm() -> c
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.PointOnSetOfPoints -> com.b.e.a.f.p:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.PositionThmStatement -> com.b.e.a.f.q:
com.ogprover.pp.tp.thmstatement.RatioOfOrientedSegments -> com.b.e.a.f.r:
    com.ogprover.pp.tp.geoobject.Segment firstSegment -> a
    com.ogprover.pp.tp.geoobject.Segment secondSegment -> b
    double ratioCoefficient -> a
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    boolean isValid() -> a
    com.ogprover.polynomials.XPolynomial getXAlgebraicForm() -> b
    com.ogprover.polynomials.XPolynomial getYAlgebraicForm() -> c
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.SegmentsOfEqualLengths -> com.b.e.a.f.s:
    com.ogprover.polynomials.SymbolicPolynomial conditionForSegmentsOfEqualLengths -> a
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.ThmStatement -> com.b.e.a.f.t:
    com.ogprover.pp.tp.OGPTP consProtocol -> a
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
    java.lang.String getStatementDesc() -> a
    java.lang.String[] getInputLabels() -> a
    void setConsProtocol(com.ogprover.pp.tp.OGPTP) -> a
    boolean isValid() -> a
    int transformToAlgebraicForm() -> a
com.ogprover.pp.tp.thmstatement.True -> com.b.e.a.f.u:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    boolean isValid() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.TwoInversePoints -> com.b.e.a.f.v:
    com.ogprover.pp.tp.geoconstruction.Point intersectionPointS -> a
    com.ogprover.polynomials.SymbolicPolynomial getXCondition() -> a
    com.ogprover.polynomials.SymbolicPolynomial getYCondition() -> b
    boolean isValid() -> a
    int setIntersectionPoint() -> b
    com.ogprover.polynomials.XPolynomial getXAlgebraicForm() -> b
    com.ogprover.polynomials.XPolynomial getYAlgebraicForm() -> c
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.TwoParallelLines -> com.b.e.a.f.w:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.pp.tp.thmstatement.TwoPerpendicularLines -> com.b.e.a.f.x:
    com.ogprover.polynomials.XPolynomial getAlgebraicForm() -> a
    java.lang.String getStatementDesc() -> a
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement getAreaMethodStatement() -> a
com.ogprover.thmprover.AlgebraicMethodProver -> com.b.f.a:
    com.ogprover.polynomials.GeoTheorem theorem -> a
com.ogprover.thmprover.AreaMethodProver -> com.b.f.b:
    boolean firstLaunch -> e
    java.util.HashMap alreadyProvedStatements -> a
    java.util.HashMap replacementMap -> b
    java.util.HashSet knownCollinearPoints -> a
    boolean debugMode -> a
    boolean optimizeAreaOfCollinearPoints -> b
    boolean optimizeCouplesOfPoints -> c
    boolean transformToIndependantVariables -> d
    com.ogprover.pp.tp.thmstatement.AreaMethodTheoremStatement statement -> a
    java.util.Vector constructions -> a
    int nextPointToEliminate -> a
    java.util.Vector steps -> b
    java.util.Vector ndgConditions -> c
    java.util.Vector getConstructions() -> a
    java.util.Vector getNDGConditions() -> b
    void setTransformToIndependantVariables(boolean) -> a
    int prove() -> a
    void computeNextPointToEliminate() -> a
    void debug(java.lang.String,com.ogprover.pp.tp.expressions.AMExpression) -> a
    void debug(java.lang.String) -> a
    void computeCollinearPoints() -> b
    void addCollinearPoints(com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point,com.ogprover.pp.tp.geoconstruction.Point) -> a
    void computeCoupleOfPoints() -> c
    void grosDebug() -> d
com.ogprover.thmprover.TheoremProver -> com.b.f.c:
    int prove() -> a
com.ogprover.thmprover.WuMethodProver -> com.b.f.d:
    int prove() -> a
com.ogprover.utilities.OGPTimer -> com.b.g.a:
    boolean timeIsUp -> a
    com.ogprover.utilities.OGPTimerTask timerTask -> a
    void setTimeIsUp(boolean) -> a
    boolean isTimeIsUp() -> a
    void setTimer(long) -> a
com.ogprover.utilities.OGPTimerTask -> com.b.g.b:
    com.ogprover.utilities.OGPTimer timer -> a
    void run() -> run
com.ogprover.utilities.OGPUtilities -> com.b.g.c:
    double roundUpToPrecision(double) -> a
    long getSymbolicVariableIndex(com.ogprover.polynomials.SymbolicVariable) -> a
com.ogprover.utilities.Stopwatch -> com.b.g.d:
    long startTime -> a
    long endTime -> b
    double timeIntMillisec -> a
    double timeIntSec -> b
    void startMeasureTime() -> a
    void endMeasureTime() -> b
    double getTimeIntSec() -> a
com.ogprover.utilities.io.CustomFile -> com.b.g.a.a:
    java.lang.String destinationDirectoryPath -> a
    java.lang.String baseFileName -> b
    java.lang.String fileExtension -> c
    void initFilePathElements(java.lang.String,java.lang.String,java.lang.String) -> a
    boolean isFilePathAbsolute(java.lang.String) -> a
    java.lang.String buildAbsolutePath(java.lang.String) -> a
    java.lang.String buildBaseFileName(java.lang.String,java.lang.String) -> a
    java.lang.String buildAbsoluteFilePath(java.lang.String,java.lang.String) -> b
com.ogprover.utilities.io.CustomFileWriter -> com.b.g.a.b:
    java.io.File outputFile -> a
    java.io.OutputStream outputStream -> a
    java.io.BufferedOutputStream buffOS -> a
    void initOutputFile() -> b
    void write(java.lang.String) -> a
    void close() -> a
com.ogprover.utilities.io.DocHandler -> com.b.g.a.c:
    void startElement(java.lang.String,java.util.LinkedHashMap) -> a
    void endElement(java.lang.String) -> a
    void startDocument() -> a
    void endDocument() -> b
    void text(java.lang.String) -> b
com.ogprover.utilities.io.LaTeXFileWriter -> com.b.g.a.d:
    boolean documentOpened -> a
    boolean sectionOpened -> b
    boolean subSectionOpened -> c
    boolean paragraphOpened -> d
    java.util.Vector lastEnumCommandList -> a
    void openDocument(java.lang.String,java.lang.String,java.lang.String) -> b
    void closeDocument() -> b
    void openSection(java.lang.String) -> b
    void closeSection() -> c
    void openSubSection(java.lang.String,boolean) -> a
    void closeSubSection() -> d
    void openParagraph() -> e
    void closeParagraph() -> f
    void openEnum(java.lang.String) -> c
    void closeEnum(java.lang.String) -> d
    void openItem() -> g
    void closeItem() -> h
    void openItemWithDesc(java.lang.String) -> e
    void closeItemWithDesc(java.lang.String) -> f
    java.lang.String processTextWithIndices(java.lang.String) -> b
    void writePlainText(java.lang.String) -> g
    void writeEnumItem(java.lang.String) -> h
    void writePointCoordinatesAssignment(com.ogprover.pp.tp.geoconstruction.Point) -> a
    void writePointWithCoordinates(com.ogprover.pp.tp.geoconstruction.Point) -> b
    void writePolynomial(int,com.ogprover.polynomials.XPolynomial) -> a
    void writePolynomial(com.ogprover.polynomials.XPolynomial) -> a
    void writePolySystem(com.ogprover.polynomials.XPolySystem) -> a
com.ogprover.utilities.io.OGPDocHandler -> com.b.g.a.e:
    com.ogprover.geogebra.GeoGebraTheorem ggThm -> a
    java.util.Map ggObjMap -> a
    int currentTagType -> a
    java.lang.String currentTagName -> a
    java.lang.String currCmdName -> b
    java.util.ArrayList currCmdInputArgs -> a
    java.util.ArrayList currCmdOutputArgs -> b
    java.util.Map expMap -> b
    boolean bSuccess -> a
    com.ogprover.geogebra.GeoGebraTheorem getTheorem() -> a
    boolean isSuccess() -> a
    void startElement(java.lang.String,java.util.LinkedHashMap) -> a
    void endElement(java.lang.String) -> a
    void startDocument() -> a
    void endDocument() -> b
    void text(java.lang.String) -> b
    com.ogprover.geogebra.command.statement.GeoGebraStatementCommand createStatementFromProveCmd() -> a
com.ogprover.utilities.io.OGPOutput -> com.b.g.a.f:
    com.ogprover.utilities.io.LaTeXFileWriter latexFile -> a
    com.ogprover.utilities.io.XMLFileWriter xmlFile -> a
    boolean closed -> a
    void setLatexFile(com.ogprover.utilities.io.LaTeXFileWriter) -> a
    void setXmlFile(com.ogprover.utilities.io.XMLFileWriter) -> a
    void setClosed(boolean) -> a
    void openDocument(java.lang.String,java.lang.String,java.lang.String) -> a
    void closeDocument() -> a
    void openSection(java.lang.String) -> a
    void closeSection() -> b
    void openSubSection(java.lang.String,boolean) -> a
    void closeSubSection() -> c
    void openParagraph() -> d
    void closeParagraph() -> e
    void openEnum(java.lang.String) -> b
    void closeEnum(java.lang.String) -> c
    void openItem() -> f
    void closeItem() -> g
    void openItemWithDesc(java.lang.String) -> d
    void closeItemWithDesc(java.lang.String) -> e
    void writePlainText(java.lang.String) -> f
    void writeEnumItem(java.lang.String) -> g
    void writePointCoordinatesAssignment(com.ogprover.pp.tp.geoconstruction.Point) -> a
    void writePointWithCoordinates(com.ogprover.pp.tp.geoconstruction.Point) -> b
    void writePolynomial(int,com.ogprover.polynomials.XPolynomial) -> a
    void writePolynomial(com.ogprover.polynomials.XPolynomial) -> a
    void writePolySystem(com.ogprover.polynomials.XPolySystem) -> a
    void close() -> h
com.ogprover.utilities.io.QDParser -> com.b.g.a.g:
    java.util.LinkedHashMap attrs -> a
    java.util.Stack stack -> a
    java.lang.StringBuilder sb -> a
    java.lang.StringBuilder etag -> b
    int CHAR_SPACE -> a
    int CHAR_TAB -> b
    int CHAR_CR -> c
    int CHAR_NL -> d
    boolean isWhitespace(char) -> a
    int popMode(java.util.Stack) -> a
    void parse(com.ogprover.utilities.io.DocHandler,java.io.Reader) -> a
    void exc(java.lang.String,int,int) -> a
com.ogprover.utilities.io.XMLFileWriter -> com.b.g.a.h:
    boolean documentOpened -> a
    boolean sectionOpened -> b
    boolean subSectionOpened -> c
    boolean paragraphOpened -> d
    java.util.Vector lastEnumCommandList -> a
    int nextSectionNum -> a
    int nextSubSectionNum -> b
    void openDocument(java.lang.String,java.lang.String,java.lang.String) -> b
    void closeDocument() -> b
    void openSection(java.lang.String) -> b
    void closeSection() -> c
    void openSubSection(java.lang.String,boolean) -> a
    void closeSubSection() -> d
    void openParagraph() -> e
    void closeParagraph() -> f
    void openEnum(java.lang.String) -> c
    void closeEnum(java.lang.String) -> d
    void openItem() -> g
    void closeItem() -> h
    void openItemWithDesc(java.lang.String) -> e
    void closeItemWithDesc(java.lang.String) -> f
    java.lang.String processTextWithIndices(java.lang.String) -> c
    void writePlainText(java.lang.String) -> g
    void writeEnumItem(java.lang.String) -> h
    void writePointCoordinatesAssignment(com.ogprover.pp.tp.geoconstruction.Point) -> a
    void writePointWithCoordinates(com.ogprover.pp.tp.geoconstruction.Point) -> b
    java.lang.String getPolynomialText(int,com.ogprover.polynomials.XPolynomial) -> a
    void writePolynomial(int,com.ogprover.polynomials.XPolynomial) -> a
    void writePolynomial(com.ogprover.polynomials.XPolynomial) -> a
    void writePolySystem(com.ogprover.polynomials.XPolySystem) -> a
    boolean isSectionOpened() -> a
    boolean isSubSectionOpened() -> b
    java.lang.String formatTextInXML(java.lang.String) -> b
com.ogprover.utilities.logger.GeoGebraLogger -> com.b.g.b.a:
    java.util.Set reportedImplementationNeeded -> a
    com.ogprover.utilities.logger.GeoGebraLogger$Level EMERGENCY -> a
    com.ogprover.utilities.logger.GeoGebraLogger$Level ALERT -> b
    com.ogprover.utilities.logger.GeoGebraLogger$Level CRITICAL -> c
    com.ogprover.utilities.logger.GeoGebraLogger$Level ERROR -> d
    com.ogprover.utilities.logger.GeoGebraLogger$Level WARN -> e
    com.ogprover.utilities.logger.GeoGebraLogger$Level NOTICE -> f
    com.ogprover.utilities.logger.GeoGebraLogger$Level INFO -> g
    com.ogprover.utilities.logger.GeoGebraLogger$Level DEBUG -> h
    com.ogprover.utilities.logger.GeoGebraLogger$Level TRACE -> i
    com.ogprover.utilities.logger.GeoGebraLogger$Level logLevel -> j
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination logDestination -> a
    boolean timeShown -> a
    boolean callerShown -> b
    java.io.File logFile -> a
    java.io.FileWriter logFileWriter -> a
    void error(java.lang.String) -> a
    void warn(java.lang.String) -> b
    void info(java.lang.String) -> c
    void debug(java.lang.String) -> d
    void setLogLevel(com.ogprover.utilities.logger.GeoGebraLogger$Level) -> a
    void setLogDestination(com.ogprover.utilities.logger.GeoGebraLogger$LogDestination) -> a
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination getLogDestination() -> a
    void log(com.ogprover.utilities.logger.GeoGebraLogger$Level,java.lang.String) -> a
    void print(java.lang.String,com.ogprover.utilities.logger.GeoGebraLogger$Level) -> a
    void setLogFile(java.lang.String) -> e
    java.lang.String getTimeInfo() -> a
    java.lang.String getCaller() -> b
    com.ogprover.utilities.logger.GeoGebraLogger factory(java.lang.String,java.lang.String) -> a
com.ogprover.utilities.logger.GeoGebraLogger$Level -> com.b.g.b.a$a:
    int priority -> a
    java.lang.String text -> a
    int getPriority() -> a
com.ogprover.utilities.logger.GeoGebraLogger$LogDestination -> com.b.g.b.a$b:
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination FILE -> a
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination CONSOLE -> b
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination WEB_CONSOLE -> c
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination CONSOLES -> d
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination[] $VALUES -> a
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination[] values() -> values
    com.ogprover.utilities.logger.GeoGebraLogger$LogDestination valueOf(java.lang.String) -> valueOf
com.ogprover.utilities.logger.ILogger -> com.b.g.b.b:
    void error(java.lang.String) -> a
    void warn(java.lang.String) -> b
    void info(java.lang.String) -> c
    void debug(java.lang.String) -> d
com.vividsolutions.jts.algorithm.BoundaryNodeRule -> com.c.a.a.a:
    com.vividsolutions.jts.algorithm.BoundaryNodeRule MOD2_BOUNDARY_RULE -> a
    com.vividsolutions.jts.algorithm.BoundaryNodeRule ENDPOINT_BOUNDARY_RULE -> b
    com.vividsolutions.jts.algorithm.BoundaryNodeRule MULTIVALENT_ENDPOINT_BOUNDARY_RULE -> c
    com.vividsolutions.jts.algorithm.BoundaryNodeRule MONOVALENT_ENDPOINT_BOUNDARY_RULE -> d
    com.vividsolutions.jts.algorithm.BoundaryNodeRule OGC_SFS_BOUNDARY_RULE -> e
    boolean isInBoundary(int) -> a
com.vividsolutions.jts.algorithm.BoundaryNodeRule$EndPointBoundaryNodeRule -> com.c.a.a.a$a:
    boolean isInBoundary(int) -> a
com.vividsolutions.jts.algorithm.BoundaryNodeRule$Mod2BoundaryNodeRule -> com.c.a.a.a$b:
    boolean isInBoundary(int) -> a
com.vividsolutions.jts.algorithm.BoundaryNodeRule$MonoValentEndPointBoundaryNodeRule -> com.c.a.a.a$c:
    boolean isInBoundary(int) -> a
com.vividsolutions.jts.algorithm.BoundaryNodeRule$MultiValentEndPointBoundaryNodeRule -> com.c.a.a.a$d:
    boolean isInBoundary(int) -> a
com.vividsolutions.jts.algorithm.CGAlgorithms -> com.c.a.a.b:
    int orientationIndex(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    boolean isPointInRing(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate[]) -> a
    int locatePointInRing(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate[]) -> a
    boolean isOnLine(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate[]) -> b
    boolean isCCW(com.vividsolutions.jts.geom.Coordinate[]) -> a
    int computeOrientation(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> b
    double distancePointLine(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.algorithm.CentralEndpointIntersector -> com.c.a.a.c:
    com.vividsolutions.jts.geom.Coordinate[] pts -> a
    com.vividsolutions.jts.geom.Coordinate intPt -> a
    com.vividsolutions.jts.geom.Coordinate getIntersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    void compute() -> a
    com.vividsolutions.jts.geom.Coordinate getIntersection() -> a
    com.vividsolutions.jts.geom.Coordinate average(com.vividsolutions.jts.geom.Coordinate[]) -> a
    com.vividsolutions.jts.geom.Coordinate findNearestPoint(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate[]) -> a
com.vividsolutions.jts.algorithm.HCoordinate -> com.c.a.a.d:
    com.vividsolutions.jts.geom.Coordinate intersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.algorithm.LineIntersector -> com.c.a.a.e:
    int result -> a
    com.vividsolutions.jts.geom.Coordinate[][] inputLines -> a
    com.vividsolutions.jts.geom.Coordinate[] intPt -> a
    boolean isProper -> a
    com.vividsolutions.jts.geom.Coordinate pa -> a
    com.vividsolutions.jts.geom.Coordinate pb -> b
    com.vividsolutions.jts.geom.PrecisionModel precisionModel -> a
    double computeEdgeDistance(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    void setPrecisionModel(com.vividsolutions.jts.geom.PrecisionModel) -> a
    void computeIntersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    boolean isCollinear() -> a
    void computeIntersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    int computeIntersect(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    java.lang.String toString() -> toString
    java.lang.String getTopologySummary() -> a
    boolean isEndPoint() -> b
    boolean hasIntersection() -> c
    int getIntersectionNum() -> a
    com.vividsolutions.jts.geom.Coordinate getIntersection(int) -> a
    boolean isIntersection(com.vividsolutions.jts.geom.Coordinate) -> a
    boolean isInteriorIntersection() -> d
    boolean isInteriorIntersection(int) -> a
    boolean isProper() -> e
    double getEdgeDistance(int,int) -> a
com.vividsolutions.jts.algorithm.NotRepresentableException -> com.c.a.a.f:
com.vividsolutions.jts.algorithm.PointLocator -> com.c.a.a.g:
    com.vividsolutions.jts.algorithm.BoundaryNodeRule boundaryRule -> a
    boolean isIn -> a
    int numBoundaries -> a
    int locate(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Geometry) -> a
    void computeLocation(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Geometry) -> a
    void updateLocationInfo(int) -> a
    int locate(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Point) -> a
    int locate(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.LineString) -> a
    int locateInPolygonRing(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.LinearRing) -> a
    int locate(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Polygon) -> a
com.vividsolutions.jts.algorithm.RayCrossingCounter -> com.c.a.a.h:
    com.vividsolutions.jts.geom.Coordinate p -> a
    int crossingCount -> a
    boolean isPointOnSegment -> a
    int locatePointInRing(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate[]) -> a
    void countSegment(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    boolean isOnSegment() -> a
    int getLocation() -> a
com.vividsolutions.jts.algorithm.RobustDeterminant -> com.c.a.a.i:
    int signOfDet2x2(double,double,double,double) -> a
com.vividsolutions.jts.algorithm.RobustLineIntersector -> com.c.a.a.j:
    void computeIntersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    int computeIntersect(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    int computeCollinearIntersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> b
    com.vividsolutions.jts.geom.Coordinate intersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    com.vividsolutions.jts.geom.Coordinate intersectionWithNormalization(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> b
    com.vividsolutions.jts.geom.Coordinate safeHCoordinateIntersection(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> c
    void normalizeToEnvCentre(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    boolean isInSegmentEnvelopes(com.vividsolutions.jts.geom.Coordinate) -> b
com.vividsolutions.jts.algorithm.locate.PointOnGeometryLocator -> com.c.a.a.a.a:
com.vividsolutions.jts.algorithm.locate.SimplePointInAreaLocator -> com.c.a.a.a.b:
    int locate(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Geometry) -> a
    boolean containsPoint(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Geometry) -> a
    boolean containsPointInPolygon(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Polygon) -> a
    boolean isPointInRing(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.LinearRing) -> a
com.vividsolutions.jts.geom.Coordinate -> com.c.a.b.a:
    double x -> a
    double y -> b
    double z -> c
    boolean equals2D(com.vividsolutions.jts.geom.Coordinate) -> a
    boolean equals(java.lang.Object) -> equals
    int compareTo(java.lang.Object) -> compareTo
    java.lang.String toString() -> toString
    java.lang.Object clone() -> clone
    double distance(com.vividsolutions.jts.geom.Coordinate) -> a
    int hashCode() -> hashCode
    int hashCode(double) -> a
com.vividsolutions.jts.geom.CoordinateArrays -> com.c.a.b.b:
    com.vividsolutions.jts.geom.Coordinate[] coordArrayType -> a
    int increasingDirection(com.vividsolutions.jts.geom.Coordinate[]) -> a
    boolean hasRepeatedPoints(com.vividsolutions.jts.geom.Coordinate[]) -> a
    com.vividsolutions.jts.geom.Coordinate[] removeRepeatedPoints(com.vividsolutions.jts.geom.Coordinate[]) -> a
com.vividsolutions.jts.geom.CoordinateFilter -> com.c.a.b.c:
    void filter(com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.geom.CoordinateList -> com.c.a.b.d:
    com.vividsolutions.jts.geom.Coordinate[] coordArrayType -> a
    boolean add(com.vividsolutions.jts.geom.Coordinate[],boolean,boolean) -> a
    boolean add(com.vividsolutions.jts.geom.Coordinate[],boolean) -> a
    void add(com.vividsolutions.jts.geom.Coordinate,boolean) -> a
    void add(int,com.vividsolutions.jts.geom.Coordinate,boolean) -> a
    com.vividsolutions.jts.geom.Coordinate[] toCoordinateArray() -> a
    java.lang.Object clone() -> clone
com.vividsolutions.jts.geom.CoordinateSequence -> com.c.a.b.e:
    com.vividsolutions.jts.geom.Coordinate getCoordinate(int) -> a
    double getX(int) -> a
    double getY(int) -> b
    int size() -> a
    com.vividsolutions.jts.geom.Coordinate[] toCoordinateArray() -> a
    com.vividsolutions.jts.geom.Envelope expandEnvelope(com.vividsolutions.jts.geom.Envelope) -> a
    java.lang.Object clone() -> clone
com.vividsolutions.jts.geom.CoordinateSequenceFactory -> com.c.a.b.f:
    com.vividsolutions.jts.geom.CoordinateSequence create(com.vividsolutions.jts.geom.Coordinate[]) -> a
com.vividsolutions.jts.geom.Envelope -> com.c.a.b.g:
    double minx -> a
    double maxx -> b
    double miny -> c
    double maxy -> d
    int hashCode() -> hashCode
    boolean intersects(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    boolean intersects(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    void init() -> a
    void init(double,double,double,double) -> a
    void init(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    void init(com.vividsolutions.jts.geom.Envelope) -> a
    void setToNull() -> b
    boolean isNull() -> a
    double getWidth() -> a
    double getHeight() -> b
    double getMinX() -> c
    double getMaxX() -> d
    double getMinY() -> e
    double getMaxY() -> f
    void expandToInclude(com.vividsolutions.jts.geom.Coordinate) -> a
    void expandToInclude(double,double) -> a
    void expandToInclude(com.vividsolutions.jts.geom.Envelope) -> b
    boolean intersects(com.vividsolutions.jts.geom.Envelope) -> a
    boolean intersects(com.vividsolutions.jts.geom.Coordinate) -> a
    boolean intersects(double,double) -> a
    boolean contains(com.vividsolutions.jts.geom.Envelope) -> b
    boolean contains(com.vividsolutions.jts.geom.Coordinate) -> b
    boolean covers(double,double) -> b
    boolean covers(com.vividsolutions.jts.geom.Coordinate) -> c
    boolean covers(com.vividsolutions.jts.geom.Envelope) -> c
    boolean equals(java.lang.Object) -> equals
    java.lang.String toString() -> toString
com.vividsolutions.jts.geom.Geometry -> com.c.a.b.h:
    java.lang.Class[] sortedClasses -> a
    com.vividsolutions.jts.geom.GeometryComponentFilter geometryChangedFilter -> a
    com.vividsolutions.jts.geom.Envelope envelope -> a
    com.vividsolutions.jts.geom.GeometryFactory factory -> a
    int SRID -> a
    java.lang.Object userData -> a
    java.lang.String getGeometryType() -> a
    boolean hasNonEmptyElements(com.vividsolutions.jts.geom.Geometry[]) -> a
    boolean hasNullElements(java.lang.Object[]) -> a
    com.vividsolutions.jts.geom.GeometryFactory getFactory() -> a
    int getNumGeometries() -> a
    com.vividsolutions.jts.geom.Geometry getGeometryN(int) -> a
    com.vividsolutions.jts.geom.PrecisionModel getPrecisionModel() -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
    int getNumPoints() -> b
    boolean isEmpty() -> a
    int getDimension() -> c
    com.vividsolutions.jts.geom.Envelope getEnvelopeInternal() -> a
    void geometryChanged() -> a
    void geometryChangedAction() -> b
    java.lang.String toString() -> toString
    java.lang.String toText() -> b
    com.vividsolutions.jts.geom.Geometry intersection(com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry union(com.vividsolutions.jts.geom.Geometry) -> b
    com.vividsolutions.jts.geom.Geometry difference(com.vividsolutions.jts.geom.Geometry) -> c
    void apply(com.vividsolutions.jts.geom.CoordinateFilter) -> a
    void apply(com.vividsolutions.jts.geom.GeometryComponentFilter) -> a
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
    void checkNotGeometryCollection(com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Envelope computeEnvelopeInternal() -> b
    int compareToSameClass(java.lang.Object) -> a
    int compare(java.util.Collection,java.util.Collection) -> a
    int getClassSortIndex() -> d
    void initSortedClasses() -> c
com.vividsolutions.jts.geom.Geometry$1 -> com.c.a.b.i:
    void filter(com.vividsolutions.jts.geom.Geometry) -> a
com.vividsolutions.jts.geom.GeometryCollection -> com.c.a.b.j:
    com.vividsolutions.jts.geom.Geometry[] geometries -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
    boolean isEmpty() -> a
    int getDimension() -> c
    int getNumGeometries() -> a
    com.vividsolutions.jts.geom.Geometry getGeometryN(int) -> a
    int getNumPoints() -> b
    java.lang.String getGeometryType() -> a
    void apply(com.vividsolutions.jts.geom.CoordinateFilter) -> a
    void apply(com.vividsolutions.jts.geom.GeometryComponentFilter) -> a
    java.lang.Object clone() -> clone
    com.vividsolutions.jts.geom.Envelope computeEnvelopeInternal() -> b
    int compareToSameClass(java.lang.Object) -> a
com.vividsolutions.jts.geom.GeometryCollectionIterator -> com.c.a.b.k:
    com.vividsolutions.jts.geom.Geometry parent -> a
    boolean atStart -> a
    int max -> a
    int index -> b
    com.vividsolutions.jts.geom.GeometryCollectionIterator subcollectionIterator -> a
    boolean hasNext() -> hasNext
    java.lang.Object next() -> next
    void remove() -> remove
com.vividsolutions.jts.geom.GeometryComponentFilter -> com.c.a.b.l:
    void filter(com.vividsolutions.jts.geom.Geometry) -> a
com.vividsolutions.jts.geom.GeometryFactory -> com.c.a.b.m:
    com.vividsolutions.jts.geom.PrecisionModel precisionModel -> a
    com.vividsolutions.jts.geom.CoordinateSequenceFactory coordinateSequenceFactory -> a
    int SRID -> a
    com.vividsolutions.jts.geom.CoordinateSequenceFactory getDefaultCoordinateSequenceFactory() -> b
    com.vividsolutions.jts.geom.Point[] toPointArray(java.util.Collection) -> a
    com.vividsolutions.jts.geom.Geometry[] toGeometryArray(java.util.Collection) -> a
    com.vividsolutions.jts.geom.LineString[] toLineStringArray(java.util.Collection) -> a
    com.vividsolutions.jts.geom.Polygon[] toPolygonArray(java.util.Collection) -> a
    com.vividsolutions.jts.geom.PrecisionModel getPrecisionModel() -> a
    com.vividsolutions.jts.geom.Point createPoint(com.vividsolutions.jts.geom.Coordinate) -> a
    com.vividsolutions.jts.geom.Point createPoint(com.vividsolutions.jts.geom.CoordinateSequence) -> a
    com.vividsolutions.jts.geom.MultiLineString createMultiLineString(com.vividsolutions.jts.geom.LineString[]) -> a
    com.vividsolutions.jts.geom.GeometryCollection createGeometryCollection(com.vividsolutions.jts.geom.Geometry[]) -> a
    com.vividsolutions.jts.geom.MultiPolygon createMultiPolygon(com.vividsolutions.jts.geom.Polygon[]) -> a
    com.vividsolutions.jts.geom.LinearRing createLinearRing(com.vividsolutions.jts.geom.Coordinate[]) -> a
    com.vividsolutions.jts.geom.LinearRing createLinearRing(com.vividsolutions.jts.geom.CoordinateSequence) -> a
    com.vividsolutions.jts.geom.MultiPoint createMultiPoint(com.vividsolutions.jts.geom.Point[]) -> a
    com.vividsolutions.jts.geom.Polygon createPolygon(com.vividsolutions.jts.geom.LinearRing,com.vividsolutions.jts.geom.LinearRing[]) -> a
    com.vividsolutions.jts.geom.Geometry buildGeometry(java.util.Collection) -> a
    com.vividsolutions.jts.geom.LineString createLineString(com.vividsolutions.jts.geom.Coordinate[]) -> a
    com.vividsolutions.jts.geom.LineString createLineString(com.vividsolutions.jts.geom.CoordinateSequence) -> a
    int getSRID() -> a
    com.vividsolutions.jts.geom.CoordinateSequenceFactory getCoordinateSequenceFactory() -> a
com.vividsolutions.jts.geom.LineSegment -> com.c.a.b.n:
    com.vividsolutions.jts.geom.Coordinate p0 -> a
    com.vividsolutions.jts.geom.Coordinate p1 -> b
    double distance(com.vividsolutions.jts.geom.Coordinate) -> a
    boolean equals(java.lang.Object) -> equals
    int compareTo(java.lang.Object) -> compareTo
    java.lang.String toString() -> toString
com.vividsolutions.jts.geom.LineString -> com.c.a.b.o:
    com.vividsolutions.jts.geom.CoordinateSequence points -> a
    void init(com.vividsolutions.jts.geom.CoordinateSequence) -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
    com.vividsolutions.jts.geom.CoordinateSequence getCoordinateSequence() -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinateN(int) -> a
    int getDimension() -> c
    boolean isEmpty() -> a
    int getNumPoints() -> b
    boolean isClosed() -> b
    java.lang.String getGeometryType() -> a
    com.vividsolutions.jts.geom.Envelope computeEnvelopeInternal() -> b
    void apply(com.vividsolutions.jts.geom.CoordinateFilter) -> a
    void apply(com.vividsolutions.jts.geom.GeometryComponentFilter) -> a
    java.lang.Object clone() -> clone
    int compareToSameClass(java.lang.Object) -> a
com.vividsolutions.jts.geom.LinearRing -> com.c.a.b.p:
    void validateConstruction() -> c
    java.lang.String getGeometryType() -> a
com.vividsolutions.jts.geom.Location -> com.c.a.b.q:
    char toLocationSymbol(int) -> a
com.vividsolutions.jts.geom.MultiLineString -> com.c.a.b.r:
    int getDimension() -> c
    java.lang.String getGeometryType() -> a
com.vividsolutions.jts.geom.MultiPoint -> com.c.a.b.s:
    int getDimension() -> c
    java.lang.String getGeometryType() -> a
com.vividsolutions.jts.geom.MultiPolygon -> com.c.a.b.t:
    int getDimension() -> c
    java.lang.String getGeometryType() -> a
com.vividsolutions.jts.geom.Point -> com.c.a.b.u:
    com.vividsolutions.jts.geom.CoordinateSequence coordinates -> a
    void init(com.vividsolutions.jts.geom.CoordinateSequence) -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
    int getNumPoints() -> b
    boolean isEmpty() -> a
    int getDimension() -> c
    com.vividsolutions.jts.geom.Coordinate getCoordinate() -> a
    java.lang.String getGeometryType() -> a
    com.vividsolutions.jts.geom.Envelope computeEnvelopeInternal() -> b
    void apply(com.vividsolutions.jts.geom.CoordinateFilter) -> a
    void apply(com.vividsolutions.jts.geom.GeometryComponentFilter) -> a
    java.lang.Object clone() -> clone
    int compareToSameClass(java.lang.Object) -> a
    com.vividsolutions.jts.geom.CoordinateSequence getCoordinateSequence() -> a
com.vividsolutions.jts.geom.Polygon -> com.c.a.b.v:
    com.vividsolutions.jts.geom.LinearRing shell -> a
    com.vividsolutions.jts.geom.LinearRing[] holes -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
    int getNumPoints() -> b
    int getDimension() -> c
    boolean isEmpty() -> a
    com.vividsolutions.jts.geom.LineString getExteriorRing() -> a
    int getNumInteriorRing() -> d
    com.vividsolutions.jts.geom.LineString getInteriorRingN(int) -> a
    java.lang.String getGeometryType() -> a
    com.vividsolutions.jts.geom.Envelope computeEnvelopeInternal() -> b
    void apply(com.vividsolutions.jts.geom.CoordinateFilter) -> a
    void apply(com.vividsolutions.jts.geom.GeometryComponentFilter) -> a
    java.lang.Object clone() -> clone
    int compareToSameClass(java.lang.Object) -> a
com.vividsolutions.jts.geom.PrecisionModel -> com.c.a.b.w:
    com.vividsolutions.jts.geom.PrecisionModel$Type FIXED -> a
    com.vividsolutions.jts.geom.PrecisionModel$Type FLOATING -> b
    com.vividsolutions.jts.geom.PrecisionModel$Type FLOATING_SINGLE -> c
    com.vividsolutions.jts.geom.PrecisionModel$Type modelType -> d
    double scale -> a
    int getMaximumSignificantDigits() -> a
    double getScale() -> a
    com.vividsolutions.jts.geom.PrecisionModel$Type getType() -> a
    double makePrecise(double) -> a
    void makePrecise(com.vividsolutions.jts.geom.Coordinate) -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    int compareTo(java.lang.Object) -> compareTo
com.vividsolutions.jts.geom.PrecisionModel$Type -> com.c.a.b.w$a:
    java.util.Map nameToTypeMap -> a
    java.lang.String name -> a
    java.lang.String toString() -> toString
com.vividsolutions.jts.geom.TopologyException -> com.c.a.b.x:
    com.vividsolutions.jts.geom.Coordinate pt -> a
    java.lang.String msgWithCoord(java.lang.String,com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.geom.impl.CoordinateArraySequence -> com.c.a.b.a.a:
    com.vividsolutions.jts.geom.Coordinate[] coordinates -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinate(int) -> a
    double getX(int) -> a
    double getY(int) -> b
    java.lang.Object clone() -> clone
    int size() -> a
    com.vividsolutions.jts.geom.Coordinate[] toCoordinateArray() -> a
    com.vividsolutions.jts.geom.Envelope expandEnvelope(com.vividsolutions.jts.geom.Envelope) -> a
    java.lang.String toString() -> toString
com.vividsolutions.jts.geom.impl.CoordinateArraySequenceFactory -> com.c.a.b.a.b:
    com.vividsolutions.jts.geom.impl.CoordinateArraySequenceFactory instanceObject -> a
    com.vividsolutions.jts.geom.impl.CoordinateArraySequenceFactory instance() -> a
    com.vividsolutions.jts.geom.CoordinateSequence create(com.vividsolutions.jts.geom.Coordinate[]) -> a
com.vividsolutions.jts.geom.util.GeometryTransformer -> com.c.a.b.b.a:
    com.vividsolutions.jts.geom.Geometry inputGeom -> a
    com.vividsolutions.jts.geom.GeometryFactory factory -> a
    boolean pruneEmptyGeometry -> a
    boolean preserveGeometryCollectionType -> b
    boolean preserveCollections -> c
    boolean preserveType -> d
    com.vividsolutions.jts.geom.Geometry transform(com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.CoordinateSequence copy(com.vividsolutions.jts.geom.CoordinateSequence) -> a
    com.vividsolutions.jts.geom.CoordinateSequence transformCoordinates(com.vividsolutions.jts.geom.CoordinateSequence,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformPoint(com.vividsolutions.jts.geom.Point,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformMultiPoint(com.vividsolutions.jts.geom.MultiPoint,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformLinearRing(com.vividsolutions.jts.geom.LinearRing,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformLineString(com.vividsolutions.jts.geom.LineString,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformMultiLineString(com.vividsolutions.jts.geom.MultiLineString,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformPolygon(com.vividsolutions.jts.geom.Polygon,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformMultiPolygon(com.vividsolutions.jts.geom.MultiPolygon,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry transformGeometryCollection(com.vividsolutions.jts.geom.GeometryCollection,com.vividsolutions.jts.geom.Geometry) -> a
com.vividsolutions.jts.geomgraph.Depth -> com.c.a.c.a:
    int[][] depth -> a
    int depthAtLocation(int) -> a
    int getLocation(int,int) -> a
    boolean isNull() -> a
    boolean isNull(int) -> a
    boolean isNull(int,int) -> a
    void add(com.vividsolutions.jts.geomgraph.Label) -> a
    int getDelta(int) -> b
    void normalize() -> a
    java.lang.String toString() -> toString
com.vividsolutions.jts.geomgraph.DirectedEdge -> com.c.a.c.b:
    boolean isForward -> a
    boolean isInResult -> b
    boolean isVisited -> c
    com.vividsolutions.jts.geomgraph.DirectedEdge sym -> a
    com.vividsolutions.jts.geomgraph.DirectedEdge next -> b
    com.vividsolutions.jts.geomgraph.DirectedEdge nextMin -> c
    com.vividsolutions.jts.geomgraph.EdgeRing edgeRing -> a
    com.vividsolutions.jts.geomgraph.EdgeRing minEdgeRing -> b
    int[] depth -> a
    com.vividsolutions.jts.geomgraph.Edge getEdge() -> a
    void setInResult(boolean) -> a
    boolean isInResult() -> a
    boolean isVisited() -> b
    void setVisited(boolean) -> b
    void setEdgeRing(com.vividsolutions.jts.geomgraph.EdgeRing) -> a
    com.vividsolutions.jts.geomgraph.EdgeRing getEdgeRing() -> a
    void setMinEdgeRing(com.vividsolutions.jts.geomgraph.EdgeRing) -> b
    com.vividsolutions.jts.geomgraph.EdgeRing getMinEdgeRing() -> b
    void setVisitedEdge(boolean) -> c
    com.vividsolutions.jts.geomgraph.DirectedEdge getSym() -> a
    boolean isForward() -> c
    void setSym(com.vividsolutions.jts.geomgraph.DirectedEdge) -> a
    com.vividsolutions.jts.geomgraph.DirectedEdge getNext() -> b
    void setNext(com.vividsolutions.jts.geomgraph.DirectedEdge) -> b
    com.vividsolutions.jts.geomgraph.DirectedEdge getNextMin() -> c
    void setNextMin(com.vividsolutions.jts.geomgraph.DirectedEdge) -> c
    boolean isLineEdge() -> d
    boolean isInteriorAreaEdge() -> e
    void computeDirectedLabel() -> a
com.vividsolutions.jts.geomgraph.DirectedEdgeStar -> com.c.a.c.c:
    java.util.List resultAreaEdgeList -> b
    com.vividsolutions.jts.geomgraph.Label label -> a
    int SCANNING_FOR_INCOMING -> a
    int LINKING_TO_OUTGOING -> b
    void insert(com.vividsolutions.jts.geomgraph.EdgeEnd) -> a
    com.vividsolutions.jts.geomgraph.Label getLabel() -> a
    int getOutgoingDegree(com.vividsolutions.jts.geomgraph.EdgeRing) -> a
    void computeLabelling(com.vividsolutions.jts.geomgraph.GeometryGraph[]) -> a
    void mergeSymLabels() -> a
    void updateLabelling(com.vividsolutions.jts.geomgraph.Label) -> a
    java.util.List getResultAreaEdges() -> b
    void linkResultDirectedEdges() -> b
    void linkMinimalDirectedEdges(com.vividsolutions.jts.geomgraph.EdgeRing) -> a
    void findCoveredLineEdges() -> c
com.vividsolutions.jts.geomgraph.Edge -> com.c.a.c.d:
    com.vividsolutions.jts.geom.Coordinate[] pts -> a
    com.vividsolutions.jts.geomgraph.EdgeIntersectionList eiList -> a
    com.vividsolutions.jts.geomgraph.index.MonotoneChainEdge mce -> a
    boolean isIsolated -> a
    com.vividsolutions.jts.geomgraph.Depth depth -> a
    int depthDelta -> a
    int getNumPoints() -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinate(int) -> a
    com.vividsolutions.jts.geomgraph.Depth getDepth() -> a
    com.vividsolutions.jts.geomgraph.index.MonotoneChainEdge getMonotoneChainEdge() -> a
    boolean isClosed() -> a
    boolean isCollapsed() -> b
    com.vividsolutions.jts.geomgraph.Edge getCollapsedEdge() -> a
    void setIsolated(boolean) -> a
    void addIntersections(com.vividsolutions.jts.algorithm.LineIntersector,int,int) -> a
    void addIntersection(com.vividsolutions.jts.algorithm.LineIntersector,int,int,int) -> a
    boolean equals(java.lang.Object) -> equals
    boolean isPointwiseEqual(com.vividsolutions.jts.geomgraph.Edge) -> a
com.vividsolutions.jts.geomgraph.EdgeEnd -> com.c.a.c.e:
    com.vividsolutions.jts.geomgraph.Edge edge -> a
    com.vividsolutions.jts.geomgraph.Label label -> a
    com.vividsolutions.jts.geomgraph.Node node -> a
    com.vividsolutions.jts.geom.Coordinate p0 -> a
    com.vividsolutions.jts.geom.Coordinate p1 -> b
    double dx -> a
    double dy -> b
    int quadrant -> a
    void init(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
    com.vividsolutions.jts.geomgraph.Edge getEdge() -> a
    com.vividsolutions.jts.geomgraph.Label getLabel() -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinate() -> a
    void setNode(com.vividsolutions.jts.geomgraph.Node) -> a
    com.vividsolutions.jts.geomgraph.Node getNode() -> a
    int compareTo(java.lang.Object) -> compareTo
    int compareDirection(com.vividsolutions.jts.geomgraph.EdgeEnd) -> a
    void computeLabel(com.vividsolutions.jts.algorithm.BoundaryNodeRule) -> a
com.vividsolutions.jts.geomgraph.EdgeEndStar -> com.c.a.c.f:
    java.util.Map edgeMap -> a
    java.util.List edgeList -> a
    int[] ptInAreaLocation -> a
    void insert(com.vividsolutions.jts.geomgraph.EdgeEnd) -> a
    void insertEdgeEnd(com.vividsolutions.jts.geomgraph.EdgeEnd,java.lang.Object) -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinate() -> a
    int getDegree() -> a
    java.util.Iterator iterator() -> a
    java.util.List getEdges() -> a
    void computeLabelling(com.vividsolutions.jts.geomgraph.GeometryGraph[]) -> a
    void computeEdgeEndLabels(com.vividsolutions.jts.algorithm.BoundaryNodeRule) -> a
    int getLocation(int,com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geomgraph.GeometryGraph[]) -> a
    void propagateSideLabels(int) -> a
com.vividsolutions.jts.geomgraph.EdgeIntersection -> com.c.a.c.g:
    com.vividsolutions.jts.geom.Coordinate coord -> a
    int segmentIndex -> a
    double dist -> a
    int compareTo(java.lang.Object) -> compareTo
    int compare(int,double) -> a
com.vividsolutions.jts.geomgraph.EdgeIntersectionList -> com.c.a.c.h:
    java.util.Map nodeMap -> a
    com.vividsolutions.jts.geomgraph.Edge edge -> a
    com.vividsolutions.jts.geomgraph.EdgeIntersection add(com.vividsolutions.jts.geom.Coordinate,int,double) -> a
    java.util.Iterator iterator() -> a
    void addEndpoints() -> a
    void addSplitEdges(java.util.List) -> a
    com.vividsolutions.jts.geomgraph.Edge createSplitEdge(com.vividsolutions.jts.geomgraph.EdgeIntersection,com.vividsolutions.jts.geomgraph.EdgeIntersection) -> a
com.vividsolutions.jts.geomgraph.EdgeList -> com.c.a.c.i:
    java.util.List edges -> a
    java.util.Map ocaMap -> a
    void add(com.vividsolutions.jts.geomgraph.Edge) -> a
    void addAll(java.util.Collection) -> a
    java.util.List getEdges() -> a
    com.vividsolutions.jts.geomgraph.Edge findEqualEdge(com.vividsolutions.jts.geomgraph.Edge) -> a
    java.util.Iterator iterator() -> a
com.vividsolutions.jts.geomgraph.EdgeNodingValidator -> com.c.a.c.j:
    com.vividsolutions.jts.noding.FastNodingValidator nv -> a
    void checkValid(java.util.Collection) -> a
    java.util.Collection toSegmentStrings(java.util.Collection) -> a
    void checkValid() -> a
com.vividsolutions.jts.geomgraph.EdgeRing -> com.c.a.c.k:
    com.vividsolutions.jts.geomgraph.DirectedEdge startDe -> a
    int maxNodeDegree -> a
    java.util.List edges -> a
    java.util.List pts -> b
    com.vividsolutions.jts.geomgraph.Label label -> a
    com.vividsolutions.jts.geom.LinearRing ring -> a
    boolean isHole -> a
    com.vividsolutions.jts.geomgraph.EdgeRing shell -> a
    java.util.ArrayList holes -> a
    com.vividsolutions.jts.geom.GeometryFactory geometryFactory -> a
    boolean isHole() -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinate(int) -> a
    com.vividsolutions.jts.geom.LinearRing getLinearRing() -> a
    com.vividsolutions.jts.geomgraph.EdgeRing getShell() -> a
    void setShell(com.vividsolutions.jts.geomgraph.EdgeRing) -> a
    void addHole(com.vividsolutions.jts.geomgraph.EdgeRing) -> b
    com.vividsolutions.jts.geom.Polygon toPolygon(com.vividsolutions.jts.geom.GeometryFactory) -> a
    void computeRing() -> a
    com.vividsolutions.jts.geomgraph.DirectedEdge getNext(com.vividsolutions.jts.geomgraph.DirectedEdge) -> a
    void setEdgeRing(com.vividsolutions.jts.geomgraph.DirectedEdge,com.vividsolutions.jts.geomgraph.EdgeRing) -> a
    void computePoints(com.vividsolutions.jts.geomgraph.DirectedEdge) -> a
    int getMaxNodeDegree() -> a
    void computeMaxNodeDegree() -> c
    void setInResult() -> b
    void mergeLabel(com.vividsolutions.jts.geomgraph.Label) -> a
    void mergeLabel(com.vividsolutions.jts.geomgraph.Label,int) -> a
    void addPoints(com.vividsolutions.jts.geomgraph.Edge,boolean,boolean) -> a
com.vividsolutions.jts.geomgraph.GeometryGraph -> com.c.a.c.l:
    com.vividsolutions.jts.geom.Geometry parentGeom -> a
    java.util.Map lineEdgeMap -> a
    com.vividsolutions.jts.algorithm.BoundaryNodeRule boundaryNodeRule -> a
    boolean useBoundaryDeterminationRule -> a
    int argIndex -> a
    java.util.Collection boundaryNodes -> a
    boolean hasTooFewPoints -> b
    com.vividsolutions.jts.geom.Coordinate invalidPoint -> a
    com.vividsolutions.jts.algorithm.locate.PointOnGeometryLocator areaPtLocator -> a
    com.vividsolutions.jts.algorithm.PointLocator ptLocator -> a
    int determineBoundary(com.vividsolutions.jts.algorithm.BoundaryNodeRule,int) -> a
    com.vividsolutions.jts.geomgraph.index.EdgeSetIntersector createEdgeSetIntersector() -> a
    com.vividsolutions.jts.geom.Geometry getGeometry() -> a
    com.vividsolutions.jts.algorithm.BoundaryNodeRule getBoundaryNodeRule() -> a
    java.util.Collection getBoundaryNodes() -> a
    void computeSplitEdges(java.util.List) -> a
    void add(com.vividsolutions.jts.geom.Geometry) -> a
    void addCollection(com.vividsolutions.jts.geom.GeometryCollection) -> a
    void addPoint(com.vividsolutions.jts.geom.Point) -> a
    void addPolygonRing(com.vividsolutions.jts.geom.LinearRing,int,int) -> a
    void addPolygon(com.vividsolutions.jts.geom.Polygon) -> a
    void addLineString(com.vividsolutions.jts.geom.LineString) -> a
    com.vividsolutions.jts.geomgraph.index.SegmentIntersector computeSelfNodes(com.vividsolutions.jts.algorithm.LineIntersector,boolean) -> a
    com.vividsolutions.jts.geomgraph.index.SegmentIntersector computeEdgeIntersections(com.vividsolutions.jts.geomgraph.GeometryGraph,com.vividsolutions.jts.algorithm.LineIntersector,boolean) -> a
    void insertPoint(int,com.vividsolutions.jts.geom.Coordinate,int) -> a
    void insertBoundaryPoint(int,com.vividsolutions.jts.geom.Coordinate) -> a
    void addSelfIntersectionNodes(int) -> a
    void addSelfIntersectionNode(int,com.vividsolutions.jts.geom.Coordinate,int) -> b
com.vividsolutions.jts.geomgraph.GraphComponent -> com.c.a.c.m:
    com.vividsolutions.jts.geomgraph.Label label -> a
    boolean isInResult -> a
    boolean isCovered -> b
    boolean isCoveredSet -> c
    boolean isVisited -> d
    com.vividsolutions.jts.geomgraph.Label getLabel() -> a
    void setInResult(boolean) -> b
    boolean isInResult() -> c
    void setCovered(boolean) -> c
    boolean isCovered() -> d
    boolean isCoveredSet() -> e
com.vividsolutions.jts.geomgraph.Label -> com.c.a.c.n:
    com.vividsolutions.jts.geomgraph.TopologyLocation[] elt -> a
    com.vividsolutions.jts.geomgraph.Label toLineLabel(com.vividsolutions.jts.geomgraph.Label) -> a
    void flip() -> a
    int getLocation(int,int) -> a
    int getLocation(int) -> a
    void setLocation(int,int,int) -> a
    void setLocation(int,int) -> a
    void setAllLocationsIfNull(int,int) -> b
    void merge(com.vividsolutions.jts.geomgraph.Label) -> a
    int getGeometryCount() -> a
    boolean isNull(int) -> a
    boolean isAnyNull(int) -> b
    boolean isArea() -> a
    boolean isArea(int) -> c
    boolean isLine(int) -> d
    boolean allPositionsEqual(int,int) -> a
    void toLine(int) -> a
    java.lang.String toString() -> toString
com.vividsolutions.jts.geomgraph.Node -> com.c.a.c.o:
    com.vividsolutions.jts.geom.Coordinate coord -> a
    com.vividsolutions.jts.geomgraph.EdgeEndStar edges -> a
    com.vividsolutions.jts.geom.Coordinate getCoordinate() -> a
    com.vividsolutions.jts.geomgraph.EdgeEndStar getEdges() -> a
    boolean isIncidentEdgeInResult() -> a
    boolean isIsolated() -> b
    void add(com.vividsolutions.jts.geomgraph.EdgeEnd) -> a
    void setLabel(int,int) -> a
com.vividsolutions.jts.geomgraph.NodeFactory -> com.c.a.c.p:
    com.vividsolutions.jts.geomgraph.Node createNode(com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.geomgraph.NodeMap -> com.c.a.c.q:
    java.util.Map nodeMap -> a
    com.vividsolutions.jts.geomgraph.NodeFactory nodeFact -> a
    com.vividsolutions.jts.geomgraph.Node addNode(com.vividsolutions.jts.geom.Coordinate) -> a
    void add(com.vividsolutions.jts.geomgraph.EdgeEnd) -> a
    com.vividsolutions.jts.geomgraph.Node find(com.vividsolutions.jts.geom.Coordinate) -> b
    java.util.Iterator iterator() -> a
    java.util.Collection values() -> a
    java.util.Collection getBoundaryNodes(int) -> a
com.vividsolutions.jts.geomgraph.PlanarGraph -> com.c.a.c.r:
    java.util.List edges -> a
    com.vividsolutions.jts.geomgraph.NodeMap nodes -> a
    java.util.List edgeEndList -> b
    void linkResultDirectedEdges(java.util.Collection) -> a
    java.util.Collection getEdgeEnds() -> b
    boolean isBoundaryNode(int,com.vividsolutions.jts.geom.Coordinate) -> a
    void insertEdge(com.vividsolutions.jts.geomgraph.Edge) -> a
    void add(com.vividsolutions.jts.geomgraph.EdgeEnd) -> a
    java.util.Iterator getNodeIterator() -> a
    java.util.Collection getNodes() -> c
    com.vividsolutions.jts.geomgraph.Node addNode(com.vividsolutions.jts.geom.Coordinate) -> a
    void addEdges(java.util.List) -> b
com.vividsolutions.jts.geomgraph.Quadrant -> com.c.a.c.s:
    int quadrant(double,double) -> a
    int quadrant(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.geomgraph.TopologyLocation -> com.c.a.c.t:
    int[] location -> a
    void init(int) -> d
    int get(int) -> a
    boolean isNull() -> a
    boolean isAnyNull() -> b
    boolean isArea() -> c
    boolean isLine() -> d
    void flip() -> a
    void setAllLocations(int) -> a
    void setAllLocationsIfNull(int) -> b
    void setLocation(int,int) -> a
    void setLocation(int) -> c
    void setLocations(int,int,int) -> a
    boolean allPositionsEqual(int) -> a
    void merge(com.vividsolutions.jts.geomgraph.TopologyLocation) -> a
    java.lang.String toString() -> toString
com.vividsolutions.jts.geomgraph.index.EdgeSetIntersector -> com.c.a.c.a.a:
    void computeIntersections(java.util.List,com.vividsolutions.jts.geomgraph.index.SegmentIntersector,boolean) -> a
    void computeIntersections(java.util.List,java.util.List,com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
com.vividsolutions.jts.geomgraph.index.MonotoneChain -> com.c.a.c.a.b:
    com.vividsolutions.jts.geomgraph.index.MonotoneChainEdge mce -> a
    int chainIndex -> a
    void computeIntersections(com.vividsolutions.jts.geomgraph.index.MonotoneChain,com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
com.vividsolutions.jts.geomgraph.index.MonotoneChainEdge -> com.c.a.c.a.c:
    com.vividsolutions.jts.geomgraph.Edge e -> a
    com.vividsolutions.jts.geom.Coordinate[] pts -> a
    int[] startIndex -> a
    com.vividsolutions.jts.geom.Envelope env1 -> a
    com.vividsolutions.jts.geom.Envelope env2 -> b
    int[] getStartIndexes() -> a
    double getMinX(int) -> a
    double getMaxX(int) -> b
    void computeIntersectsForChain(int,com.vividsolutions.jts.geomgraph.index.MonotoneChainEdge,int,com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
    void computeIntersectsForChain(int,int,com.vividsolutions.jts.geomgraph.index.MonotoneChainEdge,int,int,com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
com.vividsolutions.jts.geomgraph.index.MonotoneChainIndexer -> com.c.a.c.a.d:
    int[] toIntArray(java.util.List) -> a
    int[] getChainStartIndices(com.vividsolutions.jts.geom.Coordinate[]) -> a
    int findChainEnd(com.vividsolutions.jts.geom.Coordinate[],int) -> a
com.vividsolutions.jts.geomgraph.index.SegmentIntersector -> com.c.a.c.a.e:
    boolean hasIntersection -> a
    boolean hasProper -> b
    boolean hasProperInterior -> c
    com.vividsolutions.jts.geom.Coordinate properIntersectionPoint -> a
    com.vividsolutions.jts.algorithm.LineIntersector li -> a
    boolean includeProper -> d
    boolean recordIsolated -> e
    int numIntersections -> b
    int numTests -> a
    java.util.Collection[] bdyNodes -> a
    boolean isAdjacentSegments(int,int) -> a
    void setBoundaryNodes(java.util.Collection,java.util.Collection) -> a
    boolean isTrivialIntersection(com.vividsolutions.jts.geomgraph.Edge,int,com.vividsolutions.jts.geomgraph.Edge,int) -> a
    void addIntersections(com.vividsolutions.jts.geomgraph.Edge,int,com.vividsolutions.jts.geomgraph.Edge,int) -> a
    boolean isBoundaryPoint(com.vividsolutions.jts.algorithm.LineIntersector,java.util.Collection[]) -> a
    boolean isBoundaryPoint(com.vividsolutions.jts.algorithm.LineIntersector,java.util.Collection) -> a
com.vividsolutions.jts.geomgraph.index.SimpleMCSweepLineIntersector -> com.c.a.c.a.f:
    java.util.List events -> a
    int nOverlaps -> a
    void computeIntersections(java.util.List,com.vividsolutions.jts.geomgraph.index.SegmentIntersector,boolean) -> a
    void computeIntersections(java.util.List,java.util.List,com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
    void add(java.util.List) -> a
    void add(java.util.List,java.lang.Object) -> a
    void add(com.vividsolutions.jts.geomgraph.Edge,java.lang.Object) -> a
    void prepareEvents() -> a
    void computeIntersections(com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
    void processOverlaps(int,int,com.vividsolutions.jts.geomgraph.index.SweepLineEvent,com.vividsolutions.jts.geomgraph.index.SegmentIntersector) -> a
com.vividsolutions.jts.geomgraph.index.SweepLineEvent -> com.c.a.c.a.g:
    java.lang.Object edgeSet -> a
    double xValue -> a
    int eventType -> a
    com.vividsolutions.jts.geomgraph.index.SweepLineEvent insertEvent -> a
    int deleteEventIndex -> b
    java.lang.Object obj -> b
    boolean isInsert() -> a
    boolean isDelete() -> b
    com.vividsolutions.jts.geomgraph.index.SweepLineEvent getInsertEvent() -> a
    int getDeleteEventIndex() -> a
    void setDeleteEventIndex(int) -> a
    java.lang.Object getObject() -> a
    int compareTo(java.lang.Object) -> compareTo
com.vividsolutions.jts.index.SpatialIndex -> com.c.a.d.a:
    void insert(com.vividsolutions.jts.geom.Envelope,java.lang.Object) -> a
    java.util.List query(com.vividsolutions.jts.geom.Envelope) -> a
com.vividsolutions.jts.index.chain.MonotoneChain -> com.c.a.d.a.a:
    com.vividsolutions.jts.geom.Coordinate[] pts -> a
    int start -> a
    int end -> b
    com.vividsolutions.jts.geom.Envelope env -> a
    java.lang.Object context -> a
    int id -> c
    void setId(int) -> a
    int getId() -> a
    java.lang.Object getContext() -> a
    com.vividsolutions.jts.geom.Envelope getEnvelope() -> a
    void getLineSegment(int,com.vividsolutions.jts.geom.LineSegment) -> a
    void computeOverlaps(com.vividsolutions.jts.index.chain.MonotoneChain,com.vividsolutions.jts.index.chain.MonotoneChainOverlapAction) -> a
    void computeOverlaps(int,int,com.vividsolutions.jts.index.chain.MonotoneChain,int,int,com.vividsolutions.jts.index.chain.MonotoneChainOverlapAction) -> a
com.vividsolutions.jts.index.chain.MonotoneChainBuilder -> com.c.a.d.a.b:
    int[] toIntArray(java.util.List) -> a
    java.util.List getChains(com.vividsolutions.jts.geom.Coordinate[],java.lang.Object) -> a
    int[] getChainStartIndices(com.vividsolutions.jts.geom.Coordinate[]) -> a
    int findChainEnd(com.vividsolutions.jts.geom.Coordinate[],int) -> a
com.vividsolutions.jts.index.chain.MonotoneChainOverlapAction -> com.c.a.d.a.c:
    com.vividsolutions.jts.geom.Envelope tempEnv1 -> a
    com.vividsolutions.jts.geom.Envelope tempEnv2 -> b
    com.vividsolutions.jts.geom.LineSegment overlapSeg1 -> a
    com.vividsolutions.jts.geom.LineSegment overlapSeg2 -> b
    void overlap(com.vividsolutions.jts.index.chain.MonotoneChain,int,com.vividsolutions.jts.index.chain.MonotoneChain,int) -> a
    void overlap(com.vividsolutions.jts.geom.LineSegment,com.vividsolutions.jts.geom.LineSegment) -> a
com.vividsolutions.jts.index.strtree.AbstractNode -> com.c.a.d.b.a:
    java.util.ArrayList childBoundables -> a
    java.lang.Object bounds -> a
    int level -> a
    java.util.List getChildBoundables() -> a
    java.lang.Object computeBounds() -> a
    java.lang.Object getBounds() -> b
    void addChildBoundable(com.vividsolutions.jts.index.strtree.Boundable) -> a
com.vividsolutions.jts.index.strtree.AbstractSTRtree -> com.c.a.d.b.b:
    com.vividsolutions.jts.index.strtree.AbstractNode root -> a
    boolean built -> a
    java.util.ArrayList itemBoundables -> a
    int nodeCapacity -> a
    void build() -> a
    com.vividsolutions.jts.index.strtree.AbstractNode createNode(int) -> a
    java.util.List createParentBoundables(java.util.List,int) -> a
    com.vividsolutions.jts.index.strtree.AbstractNode lastNode(java.util.List) -> a
    int compareDoubles(double,double) -> a
    com.vividsolutions.jts.index.strtree.AbstractNode createHigherLevels(java.util.List,int) -> a
    int getNodeCapacity() -> a
    void insert(java.lang.Object,java.lang.Object) -> a
    java.util.List query(java.lang.Object) -> a
    com.vividsolutions.jts.index.strtree.AbstractSTRtree$IntersectsOp getIntersectsOp() -> a
    void query(java.lang.Object,com.vividsolutions.jts.index.strtree.AbstractNode,java.util.List) -> a
    java.util.Comparator getComparator() -> a
com.vividsolutions.jts.index.strtree.AbstractSTRtree$IntersectsOp -> com.c.a.d.b.b$a:
    boolean intersects(java.lang.Object,java.lang.Object) -> a
com.vividsolutions.jts.index.strtree.Boundable -> com.c.a.d.b.c:
    java.lang.Object getBounds() -> b
com.vividsolutions.jts.index.strtree.ItemBoundable -> com.c.a.d.b.d:
    java.lang.Object bounds -> a
    java.lang.Object item -> b
    java.lang.Object getBounds() -> b
    java.lang.Object getItem() -> a
com.vividsolutions.jts.index.strtree.STRtree -> com.c.a.d.b.e:
    java.util.Comparator xComparator -> a
    java.util.Comparator yComparator -> b
    com.vividsolutions.jts.index.strtree.AbstractSTRtree$IntersectsOp intersectsOp -> a
    double centreX(com.vividsolutions.jts.geom.Envelope) -> a
    double avg(double,double) -> a
    double centreY(com.vividsolutions.jts.geom.Envelope) -> b
    java.util.List createParentBoundables(java.util.List,int) -> a
    java.util.List createParentBoundablesFromVerticalSlices(java.util.List[],int) -> a
    java.util.List createParentBoundablesFromVerticalSlice(java.util.List,int) -> b
    java.util.List[] verticalSlices(java.util.List,int) -> a
    com.vividsolutions.jts.index.strtree.AbstractNode createNode(int) -> a
    com.vividsolutions.jts.index.strtree.AbstractSTRtree$IntersectsOp getIntersectsOp() -> a
    void insert(com.vividsolutions.jts.geom.Envelope,java.lang.Object) -> a
    java.util.List query(com.vividsolutions.jts.geom.Envelope) -> a
    java.util.Comparator getComparator() -> a
    double access$0(com.vividsolutions.jts.index.strtree.STRtree,com.vividsolutions.jts.geom.Envelope) -> a
    double access$1(com.vividsolutions.jts.index.strtree.STRtree,com.vividsolutions.jts.geom.Envelope) -> b
com.vividsolutions.jts.index.strtree.STRtree$1 -> com.c.a.d.b.f:
    com.vividsolutions.jts.index.strtree.STRtree this$0 -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
com.vividsolutions.jts.index.strtree.STRtree$2 -> com.c.a.d.b.g:
    com.vividsolutions.jts.index.strtree.STRtree this$0 -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
com.vividsolutions.jts.index.strtree.STRtree$3 -> com.c.a.d.b.h:
    com.vividsolutions.jts.index.strtree.STRtree this$0 -> a
    boolean intersects(java.lang.Object,java.lang.Object) -> a
com.vividsolutions.jts.index.strtree.STRtree$4 -> com.c.a.d.b.i:
    com.vividsolutions.jts.index.strtree.STRtree this$0 -> a
    java.lang.Object computeBounds() -> a
com.vividsolutions.jts.io.WKTWriter -> com.c.a.e.a:
    int INDENT -> a
    java.lang.String toLineString(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.noding.BasicSegmentString -> com.c.a.f.a:
    com.vividsolutions.jts.geom.Coordinate[] pts -> a
    java.lang.Object data -> a
    int size() -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
com.vividsolutions.jts.noding.FastNodingValidator -> com.c.a.f.b:
    com.vividsolutions.jts.algorithm.LineIntersector li -> a
    java.util.Collection segStrings -> a
    com.vividsolutions.jts.noding.InteriorIntersectionFinder segInt -> a
    boolean isValid -> a
    java.lang.String getErrorMessage() -> a
    void checkValid() -> a
    void execute() -> b
    void checkInteriorIntersections() -> c
com.vividsolutions.jts.noding.InteriorIntersectionFinder -> com.c.a.f.c:
    boolean isCheckEndSegmentsOnly -> a
    com.vividsolutions.jts.algorithm.LineIntersector li -> a
    com.vividsolutions.jts.geom.Coordinate interiorIntersection -> a
    com.vividsolutions.jts.geom.Coordinate[] intSegments -> a
    boolean hasIntersection() -> a
    com.vividsolutions.jts.geom.Coordinate getInteriorIntersection() -> a
    com.vividsolutions.jts.geom.Coordinate[] getIntersectionSegments() -> a
    void processIntersections(com.vividsolutions.jts.noding.SegmentString,int,com.vividsolutions.jts.noding.SegmentString,int) -> a
    boolean isEndSegment(com.vividsolutions.jts.noding.SegmentString,int) -> a
    boolean isDone() -> b
com.vividsolutions.jts.noding.MCIndexNoder -> com.c.a.f.d:
    java.util.List monoChains -> a
    com.vividsolutions.jts.index.SpatialIndex index -> a
    int idCounter -> a
    java.util.Collection nodedSegStrings -> a
    int nOverlaps -> b
    void computeNodes(java.util.Collection) -> a
    void intersectChains() -> a
    void add(com.vividsolutions.jts.noding.SegmentString) -> a
com.vividsolutions.jts.noding.MCIndexNoder$SegmentOverlapAction -> com.c.a.f.d$a:
    com.vividsolutions.jts.noding.SegmentIntersector si -> a
    com.vividsolutions.jts.noding.MCIndexNoder this$0 -> a
    void overlap(com.vividsolutions.jts.index.chain.MonotoneChain,int,com.vividsolutions.jts.index.chain.MonotoneChain,int) -> a
com.vividsolutions.jts.noding.OrientedCoordinateArray -> com.c.a.f.e:
    com.vividsolutions.jts.geom.Coordinate[] pts -> a
    boolean orientation -> a
    boolean orientation(com.vividsolutions.jts.geom.Coordinate[]) -> a
    int compareTo(java.lang.Object) -> compareTo
    int compareOriented(com.vividsolutions.jts.geom.Coordinate[],boolean,com.vividsolutions.jts.geom.Coordinate[],boolean) -> a
com.vividsolutions.jts.noding.SegmentIntersector -> com.c.a.f.f:
    void processIntersections(com.vividsolutions.jts.noding.SegmentString,int,com.vividsolutions.jts.noding.SegmentString,int) -> a
    boolean isDone() -> b
com.vividsolutions.jts.noding.SegmentString -> com.c.a.f.g:
    int size() -> a
    com.vividsolutions.jts.geom.Coordinate[] getCoordinates() -> a
com.vividsolutions.jts.noding.SinglePassNoder -> com.c.a.f.h:
    com.vividsolutions.jts.noding.SegmentIntersector segInt -> a
    void setSegmentIntersector(com.vividsolutions.jts.noding.SegmentIntersector) -> a
com.vividsolutions.jts.operation.GeometryGraphOperation -> com.c.a.g.a:
    com.vividsolutions.jts.algorithm.LineIntersector li -> a
    com.vividsolutions.jts.geom.PrecisionModel resultPrecisionModel -> a
    com.vividsolutions.jts.geomgraph.GeometryGraph[] arg -> a
    void setComputationPrecision(com.vividsolutions.jts.geom.PrecisionModel) -> a
com.vividsolutions.jts.operation.overlay.LineBuilder -> com.c.a.g.a.a:
    com.vividsolutions.jts.operation.overlay.OverlayOp op -> a
    com.vividsolutions.jts.geom.GeometryFactory geometryFactory -> a
    com.vividsolutions.jts.algorithm.PointLocator ptLocator -> a
    java.util.List lineEdgesList -> a
    java.util.List resultLineList -> b
    java.util.List build(int) -> a
    void findCoveredLineEdges() -> a
    void collectLines(int) -> a
    void collectLineEdge(com.vividsolutions.jts.geomgraph.DirectedEdge,int,java.util.List) -> a
    void collectBoundaryTouchEdge(com.vividsolutions.jts.geomgraph.DirectedEdge,int,java.util.List) -> b
    void buildLines(int) -> b
com.vividsolutions.jts.operation.overlay.MaximalEdgeRing -> com.c.a.g.a.b:
    com.vividsolutions.jts.geomgraph.DirectedEdge getNext(com.vividsolutions.jts.geomgraph.DirectedEdge) -> a
    void setEdgeRing(com.vividsolutions.jts.geomgraph.DirectedEdge,com.vividsolutions.jts.geomgraph.EdgeRing) -> a
    void linkDirectedEdgesForMinimalEdgeRings() -> c
    java.util.List buildMinimalRings() -> a
com.vividsolutions.jts.operation.overlay.MinimalEdgeRing -> com.c.a.g.a.c:
    com.vividsolutions.jts.geomgraph.DirectedEdge getNext(com.vividsolutions.jts.geomgraph.DirectedEdge) -> a
    void setEdgeRing(com.vividsolutions.jts.geomgraph.DirectedEdge,com.vividsolutions.jts.geomgraph.EdgeRing) -> a
com.vividsolutions.jts.operation.overlay.OverlayNodeFactory -> com.c.a.g.a.d:
    com.vividsolutions.jts.geomgraph.Node createNode(com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.operation.overlay.OverlayOp -> com.c.a.g.a.e:
    com.vividsolutions.jts.algorithm.PointLocator ptLocator -> a
    com.vividsolutions.jts.geom.GeometryFactory geomFact -> a
    com.vividsolutions.jts.geom.Geometry resultGeom -> a
    com.vividsolutions.jts.geomgraph.PlanarGraph graph -> a
    com.vividsolutions.jts.geomgraph.EdgeList edgeList -> a
    java.util.List resultPolyList -> a
    java.util.List resultLineList -> b
    java.util.List resultPointList -> c
    com.vividsolutions.jts.geom.Geometry overlayOp(com.vividsolutions.jts.geom.Geometry,com.vividsolutions.jts.geom.Geometry,int) -> a
    boolean isResultOfOp(com.vividsolutions.jts.geomgraph.Label,int) -> a
    boolean isResultOfOp(int,int,int) -> a
    com.vividsolutions.jts.geom.Geometry getResultGeometry(int) -> a
    com.vividsolutions.jts.geomgraph.PlanarGraph getGraph() -> a
    void computeOverlay(int) -> a
    void insertUniqueEdges(java.util.List) -> a
    void insertUniqueEdge(com.vividsolutions.jts.geomgraph.Edge) -> a
    void computeLabelsFromDepths() -> a
    void replaceCollapsedEdges() -> b
    void copyPoints(int) -> b
    void computeLabelling() -> c
    void mergeSymLabels() -> d
    void updateNodeLabelling() -> e
    void labelIncompleteNodes() -> f
    void labelIncompleteNode(com.vividsolutions.jts.geomgraph.Node,int) -> a
    void findResultAreaEdges(int) -> c
    void cancelDuplicateResultEdges() -> g
    boolean isCoveredByLA(com.vividsolutions.jts.geom.Coordinate) -> a
    boolean isCoveredByA(com.vividsolutions.jts.geom.Coordinate) -> b
    boolean isCovered(com.vividsolutions.jts.geom.Coordinate,java.util.List) -> a
    com.vividsolutions.jts.geom.Geometry computeGeometry(java.util.List,java.util.List,java.util.List,int) -> a
com.vividsolutions.jts.operation.overlay.PointBuilder -> com.c.a.g.a.f:
    com.vividsolutions.jts.operation.overlay.OverlayOp op -> a
    com.vividsolutions.jts.geom.GeometryFactory geometryFactory -> a
    java.util.List resultPointList -> a
    java.util.List build(int) -> a
    void extractNonCoveredResultNodes(int) -> a
    void filterCoveredNodeToPoint(com.vividsolutions.jts.geomgraph.Node) -> a
com.vividsolutions.jts.operation.overlay.PolygonBuilder -> com.c.a.g.a.g:
    com.vividsolutions.jts.geom.GeometryFactory geometryFactory -> a
    java.util.List shellList -> a
    void add(com.vividsolutions.jts.geomgraph.PlanarGraph) -> a
    void add(java.util.Collection,java.util.Collection) -> a
    java.util.List getPolygons() -> a
    java.util.List buildMaximalEdgeRings(java.util.Collection) -> a
    java.util.List buildMinimalEdgeRings(java.util.List,java.util.List,java.util.List) -> a
    com.vividsolutions.jts.geomgraph.EdgeRing findShell(java.util.List) -> a
    void placePolygonHoles(com.vividsolutions.jts.geomgraph.EdgeRing,java.util.List) -> a
    void sortShellsAndHoles(java.util.List,java.util.List,java.util.List) -> a
    void placeFreeHoles(java.util.List,java.util.List) -> a
    com.vividsolutions.jts.geomgraph.EdgeRing findEdgeRingContaining(com.vividsolutions.jts.geomgraph.EdgeRing,java.util.List) -> a
    java.util.List computePolygons(java.util.List) -> a
com.vividsolutions.jts.operation.overlay.snap.GeometrySnapper -> com.c.a.g.a.a.a:
    com.vividsolutions.jts.geom.Geometry srcGeom -> a
    double computeOverlaySnapTolerance(com.vividsolutions.jts.geom.Geometry) -> a
    double computeSizeBasedSnapTolerance(com.vividsolutions.jts.geom.Geometry) -> b
    double computeOverlaySnapTolerance(com.vividsolutions.jts.geom.Geometry,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry[] snap(com.vividsolutions.jts.geom.Geometry,com.vividsolutions.jts.geom.Geometry,double) -> a
    com.vividsolutions.jts.geom.Geometry snapTo(com.vividsolutions.jts.geom.Geometry,double) -> a
    com.vividsolutions.jts.geom.Coordinate[] extractTargetCoordinates(com.vividsolutions.jts.geom.Geometry) -> a
com.vividsolutions.jts.operation.overlay.snap.LineStringSnapper -> com.c.a.g.a.a.b:
    double snapTolerance -> a
    com.vividsolutions.jts.geom.Coordinate[] srcPts -> a
    com.vividsolutions.jts.geom.LineSegment seg -> a
    boolean isClosed -> a
    com.vividsolutions.jts.geom.Coordinate[] snapTo(com.vividsolutions.jts.geom.Coordinate[]) -> a
    void snapVertices(com.vividsolutions.jts.geom.CoordinateList,com.vividsolutions.jts.geom.Coordinate[]) -> a
    com.vividsolutions.jts.geom.Coordinate findSnapForVertex(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.Coordinate[]) -> a
    void snapSegments(com.vividsolutions.jts.geom.CoordinateList,com.vividsolutions.jts.geom.Coordinate[]) -> b
    int findSegmentIndexToSnap(com.vividsolutions.jts.geom.Coordinate,com.vividsolutions.jts.geom.CoordinateList) -> a
com.vividsolutions.jts.operation.overlay.snap.SnapIfNeededOverlayOp -> com.c.a.g.a.a.c:
    com.vividsolutions.jts.geom.Geometry[] geom -> a
    com.vividsolutions.jts.geom.Geometry overlayOp(com.vividsolutions.jts.geom.Geometry,com.vividsolutions.jts.geom.Geometry,int) -> a
    com.vividsolutions.jts.geom.Geometry getResultGeometry(int) -> a
com.vividsolutions.jts.operation.overlay.snap.SnapOverlayOp -> com.c.a.g.a.a.d:
    com.vividsolutions.jts.geom.Geometry[] geom -> a
    double snapTolerance -> a
    com.vividsolutions.jts.precision.CommonBitsRemover cbr -> a
    com.vividsolutions.jts.geom.Geometry overlayOp(com.vividsolutions.jts.geom.Geometry,com.vividsolutions.jts.geom.Geometry,int) -> a
    void computeSnapTolerance() -> a
    com.vividsolutions.jts.geom.Geometry getResultGeometry(int) -> a
    com.vividsolutions.jts.geom.Geometry[] snap() -> a
    com.vividsolutions.jts.geom.Geometry prepareResult(com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry[] removeCommonBits(com.vividsolutions.jts.geom.Geometry[]) -> a
com.vividsolutions.jts.operation.overlay.snap.SnapTransformer -> com.c.a.g.a.a.e:
    double snapTolerance -> a
    com.vividsolutions.jts.geom.Coordinate[] snapPts -> a
    com.vividsolutions.jts.geom.CoordinateSequence transformCoordinates(com.vividsolutions.jts.geom.CoordinateSequence,com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Coordinate[] snapLine(com.vividsolutions.jts.geom.Coordinate[],com.vividsolutions.jts.geom.Coordinate[]) -> a
com.vividsolutions.jts.precision.CommonBits -> com.c.a.h.a:
    boolean isFirst -> a
    int commonMantissaBitsCount -> a
    long commonBits -> a
    long commonSignExp -> b
    long signExpBits(long) -> a
    int numCommonMostSigMantissaBits(long,long) -> a
    long zeroLowerBits(long,int) -> a
    int getBit(long,int) -> a
    void add(double) -> a
    double getCommon() -> a
com.vividsolutions.jts.precision.CommonBitsRemover -> com.c.a.h.b:
    com.vividsolutions.jts.geom.Coordinate commonCoord -> a
    com.vividsolutions.jts.precision.CommonBitsRemover$CommonCoordinateFilter ccFilter -> a
    void add(com.vividsolutions.jts.geom.Geometry) -> a
    com.vividsolutions.jts.geom.Geometry removeCommonBits(com.vividsolutions.jts.geom.Geometry) -> a
    void addCommonBits(com.vividsolutions.jts.geom.Geometry) -> b
com.vividsolutions.jts.precision.CommonBitsRemover$CommonCoordinateFilter -> com.c.a.h.b$a:
    com.vividsolutions.jts.precision.CommonBits commonBitsX -> a
    com.vividsolutions.jts.precision.CommonBits commonBitsY -> b
    com.vividsolutions.jts.precision.CommonBitsRemover this$0 -> a
    void filter(com.vividsolutions.jts.geom.Coordinate) -> a
    com.vividsolutions.jts.geom.Coordinate getCommonCoordinate() -> a
com.vividsolutions.jts.precision.CommonBitsRemover$Translater -> com.c.a.h.b$b:
    com.vividsolutions.jts.geom.Coordinate trans -> a
    com.vividsolutions.jts.precision.CommonBitsRemover this$0 -> a
    void filter(com.vividsolutions.jts.geom.Coordinate) -> a
com.vividsolutions.jts.util.Assert -> com.c.a.i.a:
    void isTrue(boolean) -> a
    void isTrue(boolean,java.lang.String) -> a
    void shouldNeverReachHere() -> a
    void shouldNeverReachHere(java.lang.String) -> a
com.vividsolutions.jts.util.AssertionFailedException -> com.c.a.i.b:
edu.uci.ics.jung.algorithms.shortestpath.DijkstraDistance -> a.a.a.a.a.a.a:
    edu.uci.ics.jung.graph.Hypergraph g -> a
    org.apache.commons.collections15.Transformer nev -> a
    java.util.Map sourceMap -> a
    boolean cached -> a
    double max_distance -> a
    int max_targets -> a
    java.util.LinkedHashMap singleSourceShortestPath(java.lang.Object,java.util.Collection,int) -> a
    edu.uci.ics.jung.algorithms.shortestpath.DijkstraDistance$SourceData getSourceData(java.lang.Object) -> a
    java.util.Collection getEdgesToCheck(java.lang.Object) -> a
edu.uci.ics.jung.algorithms.shortestpath.DijkstraDistance$SourceData -> a.a.a.a.a.a.a$a:
    java.util.LinkedHashMap distances -> a
    java.util.Map estimatedDistances -> a
    edu.uci.ics.jung.algorithms.util.MapBinaryHeap unknownVertices -> a
    boolean reached_max -> a
    double dist_reached -> a
    edu.uci.ics.jung.algorithms.shortestpath.DijkstraDistance this$0 -> a
    java.util.Map$Entry getNextVertex() -> a
    void update(java.lang.Object,java.lang.Object,double) -> a
    void createRecord(java.lang.Object,java.lang.Object,double) -> b
    void restoreVertex(java.lang.Object,double) -> a
edu.uci.ics.jung.algorithms.shortestpath.DijkstraDistance$VertexComparator -> a.a.a.a.a.a.a$b:
    java.util.Map distances -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
edu.uci.ics.jung.algorithms.shortestpath.DijkstraShortestPath -> a.a.a.a.a.a.b:
    edu.uci.ics.jung.algorithms.shortestpath.DijkstraDistance$SourceData getSourceData(java.lang.Object) -> a
    java.util.List getPath(java.lang.Object,java.lang.Object) -> a
edu.uci.ics.jung.algorithms.shortestpath.DijkstraShortestPath$SourcePathData -> a.a.a.a.a.a.b$a:
    java.util.Map tentativeIncomingEdges -> b
    java.util.LinkedHashMap incomingEdges -> b
    edu.uci.ics.jung.algorithms.shortestpath.DijkstraShortestPath this$0 -> a
    void update(java.lang.Object,java.lang.Object,double) -> a
    java.util.Map$Entry getNextVertex() -> a
    void restoreVertex(java.lang.Object,double) -> a
    void createRecord(java.lang.Object,java.lang.Object,double) -> b
edu.uci.ics.jung.algorithms.util.BasicMapEntry -> a.a.a.a.a.b.a:
    java.lang.Object key -> a
    java.lang.Object value -> b
    java.lang.Object getKey() -> getKey
    java.lang.Object getValue() -> getValue
    java.lang.Object setValue(java.lang.Object) -> setValue
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    java.lang.String toString() -> toString
edu.uci.ics.jung.algorithms.util.MapBinaryHeap -> a.a.a.a.a.b.b:
    java.util.Vector heap -> a
    java.util.Map object_indices -> a
    java.util.Comparator comp -> a
    void initialize(java.util.Comparator) -> a
    void clear() -> clear
    boolean add(java.lang.Object) -> add
    boolean isEmpty() -> isEmpty
    java.lang.Object peek() -> peek
    int size() -> size
    void update(java.lang.Object) -> a
    boolean contains(java.lang.Object) -> contains
    void percolateDown(int) -> a
    int percolateUp(int,java.lang.Object) -> a
    int lChild(int) -> a
    int rChild(int) -> b
    int parent(int) -> c
    void swap(int,int) -> a
    java.util.Iterator iterator() -> iterator
    boolean remove(java.lang.Object) -> remove
    boolean removeAll(java.util.Collection) -> removeAll
    boolean retainAll(java.util.Collection) -> retainAll
    java.lang.Object element() -> element
    boolean offer(java.lang.Object) -> offer
    java.lang.Object poll() -> poll
    java.lang.Object remove() -> remove
edu.uci.ics.jung.algorithms.util.MapBinaryHeap$ComparableComparator -> a.a.a.a.a.b.b$a:
    edu.uci.ics.jung.algorithms.util.MapBinaryHeap this$0 -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
edu.uci.ics.jung.graph.AbstractGraph -> a.a.a.a.b.a:
    boolean addEdge(java.lang.Object,java.lang.Object,java.lang.Object,edu.uci.ics.jung.graph.util.EdgeType) -> a
    boolean addEdge(java.lang.Object,edu.uci.ics.jung.graph.util.Pair,edu.uci.ics.jung.graph.util.EdgeType) -> a
    edu.uci.ics.jung.graph.util.Pair getValidatedEndpoints(java.lang.Object,edu.uci.ics.jung.graph.util.Pair) -> a
    java.lang.Object getOpposite(java.lang.Object,java.lang.Object) -> a
    java.util.Collection getIncidentVertices(java.lang.Object) -> a
    java.lang.String toString() -> toString
edu.uci.ics.jung.graph.Graph -> a.a.a.a.b.b:
    java.util.Collection getOutEdges(java.lang.Object) -> b
    edu.uci.ics.jung.graph.util.Pair getEndpoints(java.lang.Object) -> a
    java.lang.Object getOpposite(java.lang.Object,java.lang.Object) -> a
edu.uci.ics.jung.graph.Hypergraph -> a.a.a.a.b.c:
    java.util.Collection getEdges() -> a
    java.util.Collection getVertices() -> b
    boolean containsVertex(java.lang.Object) -> a
    boolean containsEdge(java.lang.Object) -> b
    int getVertexCount() -> a
    java.util.Collection getIncidentEdges(java.lang.Object) -> c
    java.util.Collection getIncidentVertices(java.lang.Object) -> a
edu.uci.ics.jung.graph.SparseMultigraph -> a.a.a.a.b.d:
    java.util.Map vertices -> a
    java.util.Map edges -> b
    java.util.Set directedEdges -> a
    java.util.Collection getEdges() -> a
    java.util.Collection getVertices() -> b
    boolean containsVertex(java.lang.Object) -> a
    boolean containsEdge(java.lang.Object) -> b
    boolean addVertex(java.lang.Object) -> c
    boolean addEdge(java.lang.Object,edu.uci.ics.jung.graph.util.Pair,edu.uci.ics.jung.graph.util.EdgeType) -> a
    java.util.Collection getInEdges(java.lang.Object) -> d
    java.util.Collection getOutEdges(java.lang.Object) -> b
    java.util.Collection getIncidentEdges(java.lang.Object) -> c
    edu.uci.ics.jung.graph.util.Pair getEndpoints(java.lang.Object) -> a
    int getVertexCount() -> a
edu.uci.ics.jung.graph.util.EdgeType -> a.a.a.a.b.a.a:
    edu.uci.ics.jung.graph.util.EdgeType DIRECTED -> a
    edu.uci.ics.jung.graph.util.EdgeType UNDIRECTED -> b
    edu.uci.ics.jung.graph.util.EdgeType[] ENUM$VALUES -> a
    edu.uci.ics.jung.graph.util.EdgeType[] values() -> values
    edu.uci.ics.jung.graph.util.EdgeType valueOf(java.lang.String) -> valueOf
edu.uci.ics.jung.graph.util.Pair -> a.a.a.a.b.a.b:
    java.lang.Object first -> a
    java.lang.Object second -> b
    java.lang.Object getFirst() -> a
    java.lang.Object getSecond() -> b
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    java.lang.String toString() -> toString
    boolean add(java.lang.Object) -> add
    boolean addAll(java.util.Collection) -> addAll
    void clear() -> clear
    boolean contains(java.lang.Object) -> contains
    boolean containsAll(java.util.Collection) -> containsAll
    boolean isEmpty() -> isEmpty
    java.util.Iterator iterator() -> iterator
    boolean remove(java.lang.Object) -> remove
    boolean removeAll(java.util.Collection) -> removeAll
    boolean retainAll(java.util.Collection) -> retainAll
    int size() -> size
    java.lang.Object[] toArray() -> toArray
    java.lang.Object[] toArray(java.lang.Object[]) -> toArray
    java.lang.Object access$0(edu.uci.ics.jung.graph.util.Pair) -> a
    java.lang.Object access$1(edu.uci.ics.jung.graph.util.Pair) -> b
edu.uci.ics.jung.graph.util.Pair$PairIterator -> a.a.a.a.b.a.b$a:
    int position -> a
    edu.uci.ics.jung.graph.util.Pair this$0 -> a
    boolean hasNext() -> hasNext
    java.lang.Object next() -> next
    void remove() -> remove
geogebra.AppId -> geogebra.AppId:
    java.lang.String getCurrentProcessExplicitAppUserModelID() -> a
    void setCurrentProcessExplicitAppUserModelID(java.lang.String) -> a
    com.sun.jna.NativeLong GetCurrentProcessExplicitAppUserModelID(com.sun.jna.ptr.PointerByReference) -> GetCurrentProcessExplicitAppUserModelID
    com.sun.jna.NativeLong SetCurrentProcessExplicitAppUserModelID(com.sun.jna.WString) -> SetCurrentProcessExplicitAppUserModelID
geogebra.AppletImplementationInterface -> geogebra.a:
    void dispose() -> a
    void initInBackground() -> b
geogebra.AppletSplashScreen -> geogebra.b:
    java.awt.Image splashImage -> a
    java.awt.Image progressImage -> b
    java.awt.Image splashScreenImage -> c
    java.awt.Graphics splashScreenImageGraphics -> a
    int width -> a
    int height -> b
    geogebra.GeoGebraApplet parentApplet -> a
    boolean dispose -> a
    void dispose() -> a
    void update() -> b
    java.awt.Image getImage() -> a
    boolean isReady() -> a
    boolean imageUpdate(java.awt.Image,int,int,int,int,int) -> imageUpdate
geogebra.CommandLineArguments -> geogebra.c:
    java.util.HashMap args -> a
    int noOfFiles -> a
    int noOfTools -> b
    void addFile(java.lang.String) -> a
    int getNoOfFiles() -> a
    int getNoOfTools() -> b
    java.lang.String getStringValue(java.lang.String) -> a
    boolean getBooleanValue(java.lang.String,boolean) -> a
    boolean isBoolean(java.lang.String) -> a
    boolean containsArg(java.lang.String) -> b
    geogebra.CommandLineArguments add(java.lang.String,java.lang.String) -> a
    geogebra.CommandLineArguments getGlobalArguments() -> a
geogebra.GeoGebra -> geogebra.GeoGebra:
    java.awt.Frame splashFrame -> a
    void main(java.lang.String[]) -> main
    void doMain(java.lang.String[]) -> a
    void startGeoGebra(geogebra.CommandLineArguments) -> a
geogebra.GeoGebra3D -> geogebra.GeoGebra3D:
    void main(java.lang.String[]) -> main
    void startGeoGebra(geogebra.CommandLineArguments) -> a
geogebra.GeoGebraApplet -> geogebra.GeoGebraApplet:
    geogebra.AppletImplementationInterface appletImplementation -> a
    boolean animationRunningAtLastStop -> a
    geogebra.AppletSplashScreen splashScreen -> a
    boolean appletIsIniting -> b
    void init() -> init
    void initAppletInBackground() -> a
    void start() -> start
    void stop() -> stop
    void destroy() -> destroy
    geogebra.AppletImplementationInterface getAppletImplementation() -> getAppletImplementation
    void setAppletImplementation(geogebra.AppletImplementationInterface) -> setAppletImplementation
    void initAppletImplementation() -> b
    void paint(java.awt.Graphics) -> paint
    boolean isAppletFullyLoaded() -> a
    void deleteObject(java.lang.String) -> deleteObject
    boolean evalCommand(java.lang.String) -> evalCommand
    java.lang.String evalCommandCAS(java.lang.String) -> evalCommandCAS
    java.lang.String evalGeoGebraCAS(java.lang.String) -> evalGeoGebraCAS
    boolean evalCommand(java.lang.String,boolean) -> evalCommand
    void evalXML(java.lang.String) -> evalXML
    void debug(java.lang.String) -> debug
    boolean exists(java.lang.String) -> exists
    java.lang.String[] getAllObjectNames() -> getAllObjectNames
    java.lang.String getColor(java.lang.String) -> getColor
    double getFilling(java.lang.String) -> getFilling
    int getPointStyle(java.lang.String) -> getPointStyle
    int getPointSize(java.lang.String) -> getPointSize
    int getLineStyle(java.lang.String) -> getLineStyle
    int getLineThickness(java.lang.String) -> getLineThickness
    java.lang.String getCommandString(java.lang.String) -> getCommandString
    java.lang.String getDefinitionString(java.lang.String) -> getDefinitionString
    byte[] getGGBfile() -> getGGBfile
    java.lang.String getHostname() -> getHostname
    java.lang.String getIPAddress() -> getIPAddress
    int getLayer(java.lang.String) -> getLayer
    java.lang.String getObjectName(int) -> getObjectName
    java.lang.String getPNGBase64(double,boolean,double) -> getPNGBase64
    boolean writePNGtoFile(java.lang.String,double,boolean,double) -> writePNGtoFile
    int getObjectNumber() -> getObjectNumber
    java.lang.String getObjectType(java.lang.String) -> getObjectType
    double getValue(java.lang.String) -> getValue
    java.lang.String getValueString(java.lang.String) -> getValueString
    java.lang.String getXML() -> getXML
    java.lang.String getBase64() -> getBase64
    java.lang.String getBase64(boolean) -> getBase64
    java.lang.String getXML(java.lang.String) -> getXML
    java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML
    double getXcoord(java.lang.String) -> getXcoord
    double getYcoord(java.lang.String) -> getYcoord
    boolean isDefined(java.lang.String) -> isDefined
    boolean isIndependent(java.lang.String) -> isIndependent
    void openFile(java.lang.String) -> openFile
    void refreshViews() -> refreshViews
    void registerAddListener(java.lang.String) -> registerAddListener
    void registerClearListener(java.lang.String) -> registerClearListener
    void registerObjectUpdateListener(java.lang.String,java.lang.String) -> registerObjectUpdateListener
    void registerObjectClickListener(java.lang.String,java.lang.String) -> registerObjectClickListener
    void registerRemoveListener(java.lang.String) -> registerRemoveListener
    void registerRenameListener(java.lang.String) -> registerRenameListener
    void registerUpdateListener(java.lang.String) -> registerUpdateListener
    void registerClickListener(java.lang.String) -> registerClickListener
    boolean renameObject(java.lang.String,java.lang.String) -> renameObject
    void setAnimating(java.lang.String,boolean) -> setAnimating
    void setAnimationSpeed(java.lang.String,double) -> setAnimationSpeed
    void startAnimation() -> startAnimation
    void stopAnimation() -> stopAnimation
    void hideCursorWhenDragging(boolean) -> hideCursorWhenDragging
    boolean isAnimationRunning() -> isAnimationRunning
    void reset() -> reset
    void setAxesVisible(boolean,boolean) -> setAxesVisible
    void setColor(java.lang.String,int,int,int) -> setColor
    void setCorner(java.lang.String,double,double,int) -> setCorner
    void setCorner(java.lang.String,double,double) -> setCorner
    void setLineThickness(java.lang.String,int) -> setLineThickness
    void setLineStyle(java.lang.String,int) -> setLineStyle
    void setFilling(java.lang.String,double) -> setFilling
    java.lang.String getGraphicsViewCheckSum(java.lang.String,java.lang.String) -> getGraphicsViewCheckSum
    void setPointStyle(java.lang.String,int) -> setPointStyle
    void setOnTheFlyPointCreationActive(boolean) -> setOnTheFlyPointCreationActive
    void setUndoPoint() -> setUndoPoint
    void setPointSize(java.lang.String,int) -> setPointSize
    void setCoordSystem(double,double,double,double) -> setCoordSystem
    void setCoords(java.lang.String,double,double) -> setCoords
    void setErrorDialogsActive(boolean) -> setErrorDialogsActive
    void setFixed(java.lang.String,boolean) -> setFixed
    void setGridVisible(boolean) -> setGridVisible
    void setLabelStyle(java.lang.String,int) -> setLabelStyle
    void setLabelVisible(java.lang.String,boolean) -> setLabelVisible
    void setLayer(java.lang.String,int) -> setLayer
    void setLayerVisible(int,boolean) -> setLayerVisible
    void setMode(int) -> setMode
    void setRepaintingActive(boolean) -> setRepaintingActive
    void setTrace(java.lang.String,boolean) -> setTrace
    void setValue(java.lang.String,double) -> setValue
    void setTextValue(java.lang.String,java.lang.String) -> setTextValue
    void setListValue(java.lang.String,double,double) -> setListValue
    void setVisible(java.lang.String,boolean) -> setVisible
    boolean getVisible(java.lang.String) -> getVisible
    void setXML(java.lang.String) -> setXML
    void setBase64(java.lang.String) -> setBase64
    void unregisterAddListener(java.lang.String) -> unregisterAddListener
    void unregisterClearListener(java.lang.String) -> unregisterClearListener
    void unregisterObjectUpdateListener(java.lang.String) -> unregisterObjectUpdateListener
    void unregisterObjectClickListener(java.lang.String) -> unregisterObjectClickListener
    void registerStoreUndoListener(java.lang.String) -> registerStoreUndoListener
    void unregisterRemoveListener(java.lang.String) -> unregisterRemoveListener
    void unregisterRenameListener(java.lang.String) -> unregisterRenameListener
    void unregisterUpdateListener(java.lang.String) -> unregisterUpdateListener
    void unregisterClickListener(java.lang.String) -> unregisterClickListener
    boolean isMoveable(java.lang.String) -> isMoveable
    void drawToImage(java.lang.String,double[],double[]) -> drawToImage
    void clearImage(java.lang.String) -> clearImage
    void uploadToGeoGebraTube() -> uploadToGeoGebraTube
    void setPenColor(int,int,int) -> setPenColor
    void setPenSize(int) -> setPenSize
    int getPenSize() -> getPenSize
    java.lang.String getPenColor() -> getPenColor
    double getListValue(java.lang.String,int) -> getListValue
    void registerClientListener(java.lang.String) -> registerClientListener
    void unregisterClientListener(java.lang.String) -> unregisterClientListener
    void setPerspective(java.lang.String) -> setPerspective
    boolean getVisible(java.lang.String,int) -> getVisible
geogebra.GeoGebraApplet$1 -> geogebra.d:
    geogebra.GeoGebraApplet this$0 -> a
    void run() -> run
geogebra.GeoGebraApplet$2 -> geogebra.e:
    geogebra.GeoGebraApplet this$0 -> a
    void run() -> run
    geogebra.GeoGebraApplet access$0(geogebra.GeoGebraApplet$2) -> a
geogebra.GeoGebraApplet$2$1 -> geogebra.f:
    geogebra.GeoGebraApplet$2 this$1 -> a
    void run() -> run
geogebra.GeoGebraApplet$3 -> geogebra.g:
    geogebra.GeoGebraApplet this$0 -> a
    java.lang.String val$cmdString -> a
    void run() -> run
geogebra.GeoGebraApplet3D -> geogebra.GeoGebraApplet3D:
    void initAppletImplementation() -> b
geogebra.GeoGebraAppletPreloader -> geogebra.GeoGebraAppletPreloader:
    void init() -> init
    void loadAllJarFiles(boolean) -> loadAllJarFiles
geogebra.GeoGebraAppletPreloader$1 -> geogebra.h:
    boolean val$loadJavaScriptJAR -> a
    void run() -> run
geogebra.GeoGebraPanel -> geogebra.GeoGebraPanel:
    geogebra.main.AppD app -> a
    void main(java.lang.String[]) -> main
    void openFile(java.net.URL) -> openFile
    void setShowToolbar(boolean) -> setShowToolbar
    void setFontSize(int) -> setFontSize
    void setMaxIconSize(int) -> setMaxIconSize
    void setShowMenubar(boolean) -> setShowMenubar
    void setShowAlgebraInput(boolean) -> setShowAlgebraInput
    void setShowAlgebraView(boolean) -> setShowAlgebraView
    void setShowSpreadsheetView(boolean) -> setShowSpreadsheetView
    javax.swing.JPanel getGraphicsPanel() -> getGraphicsPanel
    void setLanguage(java.util.Locale) -> setLanguage
    void attachView(geogebra.common.kernel.View) -> attachView
    void detachView(geogebra.common.kernel.View) -> detachView
    void buildGUI() -> buildGUI
    geogebra.plugin.GgbAPID getGeoGebraAPI() -> getGeoGebraAPI
geogebra.SplashWindow -> geogebra.i:
    java.awt.Image splashImage -> a
    boolean paintCalled -> a
    void update(java.awt.Graphics) -> update
    void paint(java.awt.Graphics) -> paint
    java.awt.Frame splash(java.awt.Image) -> a
    void access$0(geogebra.SplashWindow,boolean) -> a
geogebra.SplashWindow$1 -> geogebra.j:
    geogebra.SplashWindow this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.awt.GAffineTransformD -> geogebra.awt.a:
    java.awt.geom.AffineTransform at -> a
    java.awt.geom.AffineTransform getImpl() -> a
    void setTransform(geogebra.common.awt.GAffineTransform) -> a
    void setTransform(double,double,double,double,double,double) -> a
    void concatenate(geogebra.common.awt.GAffineTransform) -> b
    double getScaleX() -> a
    double getScaleY() -> b
    double getShearX() -> c
    double getShearY() -> d
    double getTranslateX() -> e
    double getTranslateY() -> f
    java.awt.geom.AffineTransform getAwtAffineTransform(geogebra.common.awt.GAffineTransform) -> a
    geogebra.common.awt.GShape createTransformedShape(geogebra.common.awt.GShape) -> a
    geogebra.common.awt.GPoint2D transform(geogebra.common.awt.GPoint2D,geogebra.common.awt.GPoint2D) -> a
    void transform(double[],int,double[],int,int) -> a
    geogebra.common.awt.GAffineTransform createInverse() -> a
    void scale(double,double) -> a
    void translate(double,double) -> b
    void rotate(double) -> a
geogebra.awt.GAlphaCompositeD -> geogebra.awt.b:
geogebra.awt.GArc2DD -> geogebra.awt.c:
    java.awt.geom.Arc2D$Double impl -> a
    boolean contains(double,double) -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.awt.GRectangleD getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    java.awt.Shape getAwtShape() -> a
    void setArc(double,double,double,double,double,double,int) -> a
    geogebra.common.awt.GPoint2D getStartPoint() -> a
    geogebra.common.awt.GPoint2D getEndPoint() -> b
    void setArcByCenter(double,double,double,double,double,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.awt.GAreaD -> geogebra.awt.d:
    java.awt.geom.Area impl -> a
    void subtract(geogebra.common.awt.GArea) -> a
    void add(geogebra.common.awt.GArea) -> b
    void intersect(geogebra.common.awt.GArea) -> c
    void exclusiveOr(geogebra.common.awt.GArea) -> d
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    java.awt.Shape getAwtShape() -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
geogebra.awt.GBasicStrokeD -> geogebra.awt.e:
    java.awt.BasicStroke impl -> a
    java.awt.BasicStroke getAwtStroke(geogebra.common.awt.GBasicStroke) -> a
    int getEndCap() -> a
    float getMiterLimit() -> a
    int getLineJoin() -> b
    geogebra.common.awt.GShape createStrokedShape(geogebra.common.awt.GShape) -> a
    float getLineWidth() -> b
    float[] getDashArray() -> a
geogebra.awt.GBufferedImageD -> geogebra.awt.f:
    int TYPE_INT_ARGB -> a
    java.awt.image.BufferedImage impl -> a
    java.awt.image.BufferedImage getAwtBufferedImage(geogebra.common.awt.GBufferedImage) -> a
    geogebra.common.awt.GGraphics2D createGraphics() -> a
    geogebra.common.awt.GBufferedImage getSubimage(int,int,int,int) -> a
    int[] getData() -> a
geogebra.awt.GBufferedImageOpD -> geogebra.awt.g:
    java.awt.image.BufferedImage createCompatibleDestImage(java.awt.image.BufferedImage,java.awt.image.ColorModel) -> createCompatibleDestImage
    java.awt.image.BufferedImage filter(java.awt.image.BufferedImage,java.awt.image.BufferedImage) -> filter
    java.awt.geom.Rectangle2D getBounds2D(java.awt.image.BufferedImage) -> getBounds2D
    java.awt.geom.Point2D getPoint2D(java.awt.geom.Point2D,java.awt.geom.Point2D) -> getPoint2D
    java.awt.RenderingHints getRenderingHints() -> getRenderingHints
geogebra.awt.GColorD -> geogebra.awt.GColorD:
    double FACTOR -> FACTOR
    java.awt.Color adaptedColor -> adaptedColor
    void getRGBColorComponents(float[]) -> a
    int getBlue() -> a
    int getAlpha() -> b
    int getGreen() -> c
    int getRed() -> d
    java.awt.Color getAwtColor(geogebra.common.awt.GColor) -> a
    geogebra.awt.GColorD darker() -> a
    geogebra.common.awt.GColor brighter() -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    geogebra.common.awt.GColor darker() -> b
geogebra.awt.GCompositeD -> geogebra.awt.h:
    java.awt.Composite impl -> a
    java.awt.Composite getAwtComposite(geogebra.common.awt.GComposite) -> a
geogebra.awt.GCubicCurve2DD -> geogebra.awt.i:
    java.awt.geom.CubicCurve2D impl -> a
    int solveCubic(double[],double[]) -> a
geogebra.awt.GDimensionD -> geogebra.awt.j:
    java.awt.Dimension impl -> a
    int getWidth() -> a
    int getHeight() -> b
    java.awt.Dimension getAWTDimension(geogebra.common.awt.GDimension) -> a
geogebra.awt.GEllipse2DDoubleD -> geogebra.awt.k:
    java.awt.geom.Ellipse2D$Double impl -> a
    void setFrame(double,double,double,double) -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    java.awt.Shape getAwtShape() -> a
    void setFrameFromCenter(double,double,double,double) -> b
geogebra.awt.GEllipse2DFloatD -> geogebra.awt.l:
    java.awt.geom.Ellipse2D$Float impl -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    java.awt.Shape getAwtShape() -> a
geogebra.awt.GFontD -> geogebra.awt.m:
    java.awt.Font impl -> a
    java.awt.Font getAwtFont(geogebra.common.awt.GFont) -> a
    int getStyle() -> a
    int getSize() -> b
    boolean isItalic() -> a
    boolean isBold() -> b
    int canDisplayUpTo(java.lang.String) -> a
    geogebra.awt.GFontD deriveFont(int,int) -> a
    geogebra.common.awt.GFont deriveFont(int) -> a
    java.lang.String getFontName() -> a
    boolean equals(java.lang.Object) -> equals
    geogebra.common.awt.GFont deriveFont(int,int) -> a
geogebra.awt.GFontRenderContextD -> geogebra.awt.n:
    java.awt.font.FontRenderContext impl -> a
    java.awt.font.FontRenderContext getAwtFrc(geogebra.common.awt.GFontRenderContext) -> a
geogebra.awt.GGeneralPathD -> geogebra.awt.o:
    java.awt.geom.GeneralPath impl -> a
    java.awt.geom.GeneralPath getAwtGeneralPath(geogebra.common.awt.GGeneralPath) -> a
    void moveTo(float,float) -> a
    void reset() -> a
    void lineTo(float,float) -> b
    void closePath() -> b
    void append(geogebra.common.awt.GShape,boolean) -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(double,double) -> a
    java.awt.Shape getAwtShape() -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    geogebra.common.awt.GShape createTransformedShape(geogebra.common.awt.GAffineTransform) -> a
    geogebra.common.awt.GPoint2D getCurrentPoint() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double,double,double) -> a
    void curveTo(float,float,float,float,float,float) -> a
geogebra.awt.GGenericImageD -> geogebra.awt.p:
    java.awt.Image impl -> a
geogebra.awt.GGenericRectangle2DD -> geogebra.awt.q:
    java.awt.geom.Rectangle2D impl -> a
    double getY() -> a
    double getX() -> b
    double getWidth() -> c
    double getHeight() -> d
    void setRect(double,double,double,double) -> a
    void setFrame(double,double,double,double) -> b
    boolean intersects(double,double,double,double) -> a
    java.awt.geom.Rectangle2D getAWTRectangle2D(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.awt.GRectangleD getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    java.awt.Shape getAwtShape() -> a
    double getMinX() -> e
    double getMaxX() -> f
    double getMinY() -> g
    double getMaxY() -> h
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    java.awt.geom.Rectangle2D getImpl() -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.awt.GGenericShapeD -> geogebra.awt.r:
    java.awt.Shape impl -> a
    boolean intersects(int,int,int,int) -> a
    java.awt.Shape getAwtShape(geogebra.common.awt.GShape) -> a
    boolean contains(int,int) -> a
    geogebra.awt.GRectangleD getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    java.awt.Shape getAwtShape() -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.awt.GGradientPaintD -> geogebra.awt.s:
    java.awt.GradientPaint impl -> a
    java.awt.GradientPaint getPaint() -> a
geogebra.awt.GGraphics2DD -> geogebra.awt.t:
    java.awt.Graphics2D impl -> a
    geogebra.common.awt.GLine2D line -> a
    void drawString(java.lang.String,int,int) -> a
    void drawString(java.lang.String,float,float) -> a
    void setComposite(geogebra.common.awt.GComposite) -> a
    void setPaint(geogebra.common.awt.GPaint) -> a
    void setRenderingHint(geogebra.common.awt.GKey,java.lang.Object) -> a
    void setRenderingHints(java.util.Map) -> a
    void translate(double,double) -> a
    void scale(double,double) -> b
    void transform(geogebra.common.awt.GAffineTransform) -> a
    void setTransform(geogebra.common.awt.GAffineTransform) -> b
    geogebra.common.awt.GAffineTransform getTransform() -> a
    geogebra.common.awt.GComposite getComposite() -> a
    geogebra.common.awt.GColor getBackground() -> a
    geogebra.common.awt.GFontRenderContext getFontRenderContext() -> a
    geogebra.common.awt.GColor getColor() -> b
    geogebra.common.awt.GFont getFont() -> a
    java.awt.Graphics2D getAwtGraphics(geogebra.common.awt.GGraphics2D) -> a
    void setFont(geogebra.common.awt.GFont) -> a
    void setStroke(geogebra.common.awt.GBasicStroke) -> a
    void setColor(geogebra.common.awt.GColor) -> a
    void clip(geogebra.common.awt.GShape) -> a
    void drawImage(geogebra.common.awt.GBufferedImage,geogebra.common.awt.GBufferedImageOp,int,int) -> a
    void drawImage(geogebra.common.awt.MyImage,geogebra.common.awt.GBufferedImageOp,int,int) -> a
    void drawImage(geogebra.common.awt.MyImage,int,int) -> a
    void fillRect(int,int,int,int) -> a
    void drawLine(int,int,int,int) -> b
    void setClip(geogebra.common.awt.GShape) -> b
    void draw(geogebra.common.awt.GShape) -> c
    void fill(geogebra.common.awt.GShape) -> d
    geogebra.common.awt.GShape getClip() -> a
    void drawRect(int,int,int,int) -> c
    void setClip(int,int,int,int) -> d
    void setImpl(java.awt.Graphics2D) -> a
    void drawRoundRect(int,int,int,int,int,int) -> a
    void fillRoundRect(int,int,int,int,int,int) -> b
    void setAntialiasing() -> a
    void setTransparent() -> b
    void drawWithValueStrokePure(geogebra.common.awt.GShape) -> e
    void fillWithValueStrokePure(geogebra.common.awt.GShape) -> f
    java.lang.Object setInterpolationHint(boolean) -> a
    void resetInterpolationHint(java.lang.Object) -> a
    void updateCanvasColor() -> c
    void drawStraightLine(double,double,double,double) -> a
    void dispose() -> d
    void drawImage(geogebra.gui.MyImageD,int,int,int,int,java.awt.image.ImageObserver) -> a
geogebra.awt.GLine2DD -> geogebra.awt.u:
    java.awt.geom.Line2D impl -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    java.awt.Shape getAwtShape() -> a
    void setLine(double,double,double,double) -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    geogebra.common.awt.GPoint2D getP1() -> a
    geogebra.common.awt.GPoint2D getP2() -> b
geogebra.awt.GPathIteratorD -> geogebra.awt.v:
    java.awt.geom.PathIterator impl -> a
    int getWindingRule() -> a
    boolean isDone() -> a
    void next() -> a
    int currentSegment(double[]) -> a
geogebra.awt.GPoint2DD -> geogebra.awt.w:
    java.awt.geom.Point2D$Double impl -> a
    java.awt.geom.Point2D getAwtPoint2D(geogebra.common.awt.GPoint2D) -> a
    double getX() -> a
    double getY() -> b
    void setX(double) -> a
    void setY(double) -> b
    double distance(geogebra.common.awt.GPoint2D) -> a
    double distance(double,double) -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
geogebra.awt.GRectangle2DD -> geogebra.awt.x:
    geogebra.awt.GRectangle2DD impl -> a
    java.awt.geom.Rectangle2D getImpl() -> a
geogebra.awt.GRectangleD -> geogebra.awt.y:
    java.awt.Rectangle impl -> a
    double getY() -> a
    double getX() -> b
    double getWidth() -> c
    double getHeight() -> d
    void setBounds(int,int,int,int) -> a
    void setLocation(int,int) -> a
    void setBounds(geogebra.common.awt.GRectangle) -> a
    boolean contains(double,double) -> a
    java.awt.Rectangle getAWTRectangle(geogebra.common.awt.GRectangle) -> a
    void add(geogebra.common.awt.GRectangle) -> b
    double getMinX() -> e
    double getMinY() -> g
    double getMaxX() -> f
    double getMaxY() -> h
    void add(double,double) -> a
    void setRect(double,double,double,double) -> a
    void setFrame(double,double,double,double) -> b
    boolean intersects(double,double,double,double) -> a
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.awt.GRectangleD getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    java.awt.Shape getAwtShape() -> a
    boolean contains(geogebra.common.awt.GPoint2D) -> a
    geogebra.common.awt.GRectangle union(geogebra.common.awt.GRectangle) -> a
    void setSize(int,int) -> b
    java.awt.geom.Rectangle2D getAWTRectangle2D(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    java.awt.geom.Rectangle2D getImpl() -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.awt.GRectangularShapeD -> geogebra.awt.z:
geogebra.awt.GShapeD -> geogebra.awt.A:
    java.awt.Shape getAwtShape() -> a
geogebra.awt.GTextLayoutD -> geogebra.awt.B:
    java.awt.font.TextLayout impl -> a
    java.lang.String str -> a
    geogebra.common.awt.GFont font -> a
    float getAdvance() -> a
    float getAscent() -> b
    float getDescent() -> c
    void draw(geogebra.common.awt.GGraphics2D,int,int) -> a
geogebra.awt.GTexturePaintD -> geogebra.awt.C:
    java.awt.TexturePaint impl -> a
    java.awt.TexturePaint getPaint() -> a
geogebra.cas.giac.CASgiacD -> geogebra.a.a.a:
    geogebra.main.AppD app -> a
    boolean giacLoaded -> b
    javagiac.context C -> a
    boolean useThread -> c
    java.util.List queue -> a
    java.lang.String threadResult -> a
    java.lang.String evaluate(java.lang.String) -> a
    java.lang.String wrapJSString(java.lang.String) -> h
    java.lang.String evaluate(java.lang.String,long) -> a
    void initialize() -> a
    java.lang.String evaluateCAS(java.lang.String) -> b
    java.lang.String evalRaw(java.lang.String) -> c
    void clearResult() -> b
geogebra.cas.giac.CASgiacD$GiacJNIThread -> geogebra.a.a.a$a:
    java.lang.String exp -> a
    geogebra.cas.giac.CASgiacD this$0 -> a
    void run() -> run
geogebra.cas.giac.MyClassPathLoader -> geogebra.a.a.b:
    boolean loadLibrary(java.lang.String) -> a
    java.io.File writeTmpFile(java.io.InputStream,java.lang.String) -> a
geogebra.cas.view.CASInputPanel -> geogebra.a.b.a:
    geogebra.gui.inputfield.AutoCompleteTextFieldD inputArea -> a
    geogebra.main.AppD app -> a
    void setInput(java.lang.String) -> a
    java.lang.String getInput() -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD getInputArea() -> a
    boolean setInputAreaFocused() -> a
    void setFont(java.awt.Font) -> setFont
    void setCommentColor(java.awt.Color) -> a
    void setLabels() -> a
    void setOrientation() -> b
geogebra.cas.view.CASOutputPanel -> geogebra.a.b.b:
    java.awt.Color ERROR_COLOR -> a
    java.awt.Color OUTPUT_PREFIX_COLOR -> b
    javax.swing.JLabel outputSign -> a
    javax.swing.JLabel outputArea -> b
    geogebra.cas.view.LaTeXPanel latexPanel -> a
    geogebra.main.AppD app -> a
    javax.swing.JPanel centerPanel -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setOutput(java.lang.String,java.lang.String,java.lang.String,boolean,geogebra.common.awt.GColor,geogebra.common.main.App) -> a
    void setFont(java.awt.Font) -> setFont
    void setOrientation() -> a
geogebra.cas.view.CASStyleBar -> geogebra.a.b.c:
    geogebra.main.AppD app -> a
    geogebra.cas.view.CASViewD casView -> a
    geogebra.gui.util.MyToggleButton[] toggleBtnList -> a
    geogebra.gui.util.PopupMenuButton[] popupBtnList -> a
    geogebra.gui.color.ColorPopupMenuButton btnTextColor -> a
    geogebra.gui.util.PopupMenuButton btnTextSize -> a
    geogebra.gui.util.MyToggleButton btnBold -> a
    geogebra.gui.util.MyToggleButton btnItalic -> b
    geogebra.gui.util.MyToggleButton btnUseAsText -> c
    geogebra.gui.util.MyToggleButton btnShowKeyboard -> d
    int iconHeight -> a
    java.awt.Dimension iconDimension -> a
    boolean needUndo -> a
    java.util.ArrayList selectedRows -> a
    geogebra.main.LocalizationD loc -> a
    void setSelectedRows(java.util.ArrayList) -> a
    void setSelectedRow(geogebra.common.kernel.geos.GeoElement) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void processSource(java.lang.Object,java.util.ArrayList) -> a
    void updateStyleBar() -> a
    void applyTextColor(java.util.ArrayList) -> b
    void applyUseAsText(java.util.ArrayList) -> c
    void applyFontStyle(java.util.ArrayList) -> d
    void applyTextSize(java.util.ArrayList) -> e
    geogebra.gui.util.PopupMenuButton[] newPopupBtnList() -> a
    geogebra.gui.util.MyToggleButton[] newToggleBtnList() -> a
    void reinit() -> b
    void initGUI() -> c
    boolean checkGeoText(java.lang.Object[]) -> a
    void createTextButtons() -> d
geogebra.cas.view.CASStyleBar$1 -> geogebra.a.b.d:
    java.awt.Color geoColor -> a
    geogebra.cas.view.CASStyleBar this$0 -> a
    java.awt.Dimension val$textColoriconHeight -> a
    void update(java.lang.Object[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.cas.view.CASStyleBar$2 -> geogebra.a.b.e:
    geogebra.cas.view.CASStyleBar this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.cas.view.CASStyleBar$3 -> geogebra.a.b.f:
    geogebra.cas.view.CASStyleBar this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.cas.view.CASStyleBar$4 -> geogebra.a.b.g:
    geogebra.cas.view.CASStyleBar this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.cas.view.CASStyleBar$5 -> geogebra.a.b.h:
    geogebra.cas.view.CASStyleBar this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.cas.view.CASSubDialogD -> geogebra.a.b.i:
    geogebra.main.AppD app -> a
    geogebra.cas.view.CASViewD casView -> a
    javax.swing.JButton btSub -> a
    javax.swing.JButton btEval -> b
    javax.swing.JButton btNumeric -> c
    javax.swing.JScrollPane scrollPane -> a
    javax.swing.JPanel optionPane -> a
    javax.swing.JPanel btPanel -> b
    javax.swing.JPanel captionPanel -> c
    javax.swing.JTable replaceTable -> a
    javax.swing.JDialog dialog -> a
    void createGUI() -> a
    void addRow(boolean) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setVisible(boolean) -> b
    geogebra.main.AppD getApp() -> a
    void setAlwaysOnTop(boolean) -> c
    boolean isShowing() -> a
    geogebra.common.cas.view.CASView getCASView() -> a
geogebra.cas.view.CASSubDialogD$1 -> geogebra.a.b.j:
    geogebra.cas.view.CASSubDialogD this$0 -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.cas.view.CASSubDialogD$2 -> geogebra.a.b.k:
    geogebra.cas.view.CASSubDialogD this$0 -> a
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
geogebra.cas.view.CASSubDialogD$MathTextCellEditor -> geogebra.a.b.i$a:
    boolean editing -> a
    geogebra.gui.inputfield.MathTextField delegate -> a
    geogebra.cas.view.CASSubDialogD this$0 -> a
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    boolean stopCellEditing() -> stopCellEditing
    void cancelCellEditing() -> cancelCellEditing
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    geogebra.cas.view.CASSubDialogD access$0(geogebra.cas.view.CASSubDialogD$MathTextCellEditor) -> a
geogebra.cas.view.CASSubDialogD$MathTextCellEditor$1 -> geogebra.a.b.l:
    geogebra.cas.view.CASSubDialogD$MathTextCellEditor this$1 -> a
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
geogebra.cas.view.CASTableCell -> geogebra.a.b.m:
    geogebra.cas.view.CASInputPanel inputPanel -> a
    geogebra.cas.view.CASOutputPanel outputPanel -> a
    geogebra.gui.inputfield.MyTextField dummyField -> a
    geogebra.main.AppD app -> a
    geogebra.cas.view.CASViewD view -> a
    java.awt.Dimension getPreferredSize() -> getPreferredSize
    int getInputPanelHeight() -> a
    void setInputPanelWidth(int) -> a
    void setValue(geogebra.common.kernel.geos.GeoCasCell) -> a
    void updateTableRowHeight(javax.swing.JTable,int) -> a
    java.lang.String getInput() -> a
    boolean setInputAreaFocused() -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD getInputArea() -> a
    void setFont(java.awt.Font) -> setFont
    void setLabels() -> x_
    void setOrientation() -> b
geogebra.cas.view.CASTableCellController -> geogebra.a.b.n:
    geogebra.cas.view.CASViewD view -> a
    geogebra.cas.view.CASTableD table -> a
    geogebra.main.AppD app -> a
    geogebra.cas.view.CASTableCellEditorD tableCellEditor -> a
    boolean rightClick -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    boolean handleKeyPressedInputTextField(java.awt.event.KeyEvent) -> a
    boolean isRightClick() -> a
    void setRightClick(boolean) -> a
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
geogebra.cas.view.CASTableCellEditorD -> geogebra.a.b.o:
    javax.swing.JTable table -> a
    geogebra.common.kernel.geos.GeoCasCell cellValue -> a
    boolean editing -> a
    int editingRow -> a
    java.lang.String inputOnEditingStart -> a
    boolean isUseAsTextOnEditingStart -> b
    java.util.ArrayList listeners -> a
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    java.lang.String getInputSelectedText() -> b
    int getInputSelectionStart() -> b
    int getInputSelectionEnd() -> c
    void setInputSelectionStart(int) -> b
    void setInputSelectionEnd(int) -> c
    int getCaretPosition() -> d
    void setCaretPosition(int) -> d
    void insertText(java.lang.String) -> a
    void clearInputSelectionText() -> c
    boolean stopCellEditing() -> stopCellEditing
    void cancelCellEditing() -> cancelCellEditing
    boolean isEditing() -> b
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    void fireEditingCanceled() -> d
    void fireEditingStopped() -> e
    boolean isCellEditable(java.util.EventObject) -> isCellEditable
    void removeCellEditorListener(javax.swing.event.CellEditorListener) -> removeCellEditorListener
    void addCellEditorListener(javax.swing.event.CellEditorListener) -> addCellEditorListener
    boolean shouldSelectCell(java.util.EventObject) -> shouldSelectCell
    int getEditingRow() -> e
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void clearInputText() -> f
geogebra.cas.view.CASTableCellRenderer -> geogebra.a.b.p:
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.cas.view.CASTableD -> geogebra.a.b.q:
    geogebra.cas.view.CASTableModel tableModel -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.main.AppD app -> a
    geogebra.cas.view.CASViewD view -> a
    geogebra.cas.view.CASTableCellEditorD editor -> a
    geogebra.cas.view.CASTableCellRenderer renderer -> a
    int currentWidth -> b
    boolean rightClick -> d
    int clickedRow -> c
    int rollOverRow -> a
    boolean isOutputRollOver -> a
    boolean highlight -> b
    boolean isAltDown -> c
    float[] dash1 -> a
    java.awt.BasicStroke dashed -> a
    geogebra.cas.view.CASViewD getCASView() -> a
    boolean isOutputPanelClicked(java.awt.Point) -> a
    boolean isEditing() -> isEditing
    void stopEditing() -> a
    geogebra.cas.view.CASTableCellEditorD getEditor() -> a
    void insertRow(int,geogebra.common.kernel.geos.GeoCasCell,boolean) -> a
    void setRow(int,geogebra.common.kernel.geos.GeoCasCell) -> a
    int getPreferredRowHeight(int) -> a
    void updateRow(int) -> a
    void updateAllRows() -> b
    geogebra.common.kernel.geos.GeoCasCell getGeoCasCell(int) -> a
    void deleteAllRows() -> c
    void deleteRow(int) -> b
    void startEditingRow(int) -> c
    void doEditCellAt(int) -> g
    void setFont(java.awt.Font) -> setFont
    boolean getScrollableTracksViewportWidth() -> getScrollableTracksViewportWidth
    java.awt.Dimension getPreferredSize() -> getPreferredSize
    void configureEnclosingScrollPane() -> configureEnclosingScrollPane
    void setLabels() -> d
    void setOrientation() -> e
    int getClickedRow() -> a
    boolean isRightClick() -> a
    void setRightClick(boolean) -> a
    void setClickedRow(int) -> d
    geogebra.cas.view.CASTableD getTable() -> a
    int getCurrentWidth() -> b
    void setCurrentWidth(int) -> e
    int getOpenRow() -> c
    void paint(java.awt.Graphics) -> paint
    geogebra.common.main.App getApplication() -> a
    void resetRowNumbers(int) -> f
    geogebra.common.cas.view.CASTableCellEditor getEditor() -> a
geogebra.cas.view.CASTableD$1 -> geogebra.a.b.r:
    geogebra.cas.view.CASTableD this$0 -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
geogebra.cas.view.CASTableD$2 -> geogebra.a.b.s:
    geogebra.cas.view.CASTableD this$0 -> a
    void tableChanged(javax.swing.event.TableModelEvent) -> tableChanged
geogebra.cas.view.CASTableD$3 -> geogebra.a.b.t:
    geogebra.cas.view.CASTableD this$0 -> a
    int val$editRow -> a
    void run() -> run
geogebra.cas.view.CASTableD$MyMouseListener -> geogebra.a.b.q$a:
    geogebra.cas.view.CASTableD this$0 -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
geogebra.cas.view.CASTableD$RollOverListener -> geogebra.a.b.q$b:
    geogebra.cas.view.CASTableD this$0 -> a
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.cas.view.CASTableD$SelectionListener -> geogebra.a.b.q$c:
    javax.swing.JTable table -> a
    geogebra.cas.view.CASTableD this$0 -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.cas.view.CASTableModel -> geogebra.a.b.u:
    boolean isCellEditable(int,int) -> isCellEditable
geogebra.cas.view.CASViewD -> geogebra.a.b.v:
    javax.swing.JComponent component -> a
    geogebra.cas.view.CASTableD consoleTable -> a
    geogebra.cas.view.CASSubDialogD subDialog -> a
    javax.swing.ListSelectionModel listSelModel -> a
    geogebra.main.AppD app -> a
    geogebra.cas.view.RowHeaderD rowHeader -> a
    geogebra.cas.view.CASStyleBar styleBar -> a
    javax.swing.event.ListSelectionListener selectionListener() -> a
    java.awt.event.MouseListener scrollPaneListener() -> a
    void showSubstituteDialog(java.lang.String,java.lang.String,java.lang.String,int) -> a
    void setSubstituteDialog(geogebra.cas.view.CASSubDialogD) -> a
    void updateFonts() -> b
    void createCASTable() -> m
    geogebra.cas.view.CASTableD getConsoleTable() -> a
    javax.swing.JComponent getCASViewComponent() -> a
    geogebra.main.AppD getApp() -> a
    void repaintView() -> c
    geogebra.main.AppD getApplication() -> b
    int[] getGridColwidths() -> a
    int[] getGridRowHeights() -> b
    java.awt.Component[][] getPrintComponents() -> a
    geogebra.cas.view.CASStyleBar getCASStyleBar() -> a
    geogebra.cas.view.CASStyleBar newCASStyleBar() -> b
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
    geogebra.cas.view.CASViewD getCASViewD() -> a
    void setOrientation() -> d
    void resetCursor() -> e
    geogebra.common.cas.view.CASTable getConsoleTable() -> a
    geogebra.common.main.App getApp() -> a
geogebra.cas.view.CASViewD$1 -> geogebra.a.b.w:
    geogebra.cas.view.CASViewD this$0 -> a
    geogebra.main.AppD val$app -> a
    void run() -> run
geogebra.cas.view.CASViewD$2 -> geogebra.a.b.x:
    geogebra.cas.view.CASViewD this$0 -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.cas.view.CASViewD$3 -> geogebra.a.b.y:
    geogebra.cas.view.CASViewD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.cas.view.CASViewD$4 -> geogebra.a.b.z:
    geogebra.cas.view.CASViewD this$0 -> a
    java.lang.String val$prefix -> a
    java.lang.String val$evalText -> b
    java.lang.String val$postfix -> c
    int val$selRow -> a
    void run() -> run
geogebra.cas.view.CASViewD$CASComponent -> geogebra.a.b.v$a:
    geogebra.cas.view.CASViewD this$0 -> a
geogebra.cas.view.LaTeXPanel -> geogebra.a.b.A:
    geogebra.main.AppD app -> a
    java.lang.String latex -> a
    java.awt.image.BufferedImage image -> a
    java.awt.Graphics2D g2image -> a
    java.awt.Dimension equSize -> a
    void setLaTeX(java.lang.String) -> a
    void updateLaTeX() -> a
    void setForeground(java.awt.Color) -> setForeground
    java.awt.Dimension drawEquationToImage() -> a
    boolean ensureImageSize(int,int) -> a
    void setFont(java.awt.Font) -> setFont
    void paint(java.awt.Graphics) -> paint
geogebra.cas.view.RowContentPopupMenu -> geogebra.a.b.B:
    geogebra.common.kernel.geos.GeoCasCell value -> a
    geogebra.cas.view.CASTableCellEditorD editor -> a
    geogebra.cas.view.CASTableD table -> a
    geogebra.main.AppD app -> a
    geogebra.cas.view.RowContentPopupMenu$Panel clickedPanel -> a
    int[] $SWITCH_TABLE$geogebra$cas$view$RowContentPopupMenu$Panel -> a
    void initMenu() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void handleCopy(java.awt.event.ActionEvent) -> a
    void handlePaste(java.awt.event.ActionEvent) -> b
    int[] $SWITCH_TABLE$geogebra$cas$view$RowContentPopupMenu$Panel() -> a
geogebra.cas.view.RowContentPopupMenu$Panel -> geogebra.a.b.B$a:
    geogebra.cas.view.RowContentPopupMenu$Panel OUTPUT -> a
    geogebra.cas.view.RowContentPopupMenu$Panel INPUT -> b
    geogebra.cas.view.RowContentPopupMenu$Panel[] ENUM$VALUES -> a
    geogebra.cas.view.RowContentPopupMenu$Panel[] values() -> values
    geogebra.cas.view.RowContentPopupMenu$Panel valueOf(java.lang.String) -> valueOf
geogebra.cas.view.RowHeaderD -> geogebra.a.b.C:
    geogebra.cas.view.RowHeaderRenderer renderer -> a
    void updateIcons() -> a
geogebra.cas.view.RowHeaderListModel -> geogebra.a.b.D:
    javax.swing.JTable table -> a
    int size -> a
    int getSize() -> getSize
    java.lang.Object getElementAt(int) -> getElementAt
    void tableChanged(javax.swing.event.TableModelEvent) -> tableChanged
geogebra.cas.view.RowHeaderListener -> geogebra.a.b.E:
    geogebra.cas.view.CASTableD table -> a
    javax.swing.JList rowHeader -> a
    int mousePressedRow -> a
    boolean rightClick -> a
    geogebra.main.AppD app -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.cas.view.RowHeaderPopupMenuD -> geogebra.a.b.F:
    javax.swing.JList rowHeader -> a
    geogebra.cas.view.CASTableD table -> a
    javax.swing.JMenuItem cbUseAsText -> a
    javax.swing.JPopupMenu rowHeaderPopupMenu -> a
    void initMenu() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void show(java.awt.Component,int,int) -> a
geogebra.cas.view.RowHeaderRenderer -> geogebra.a.b.G:
    geogebra.cas.view.CASTableD casTable -> a
    javax.swing.JLabel numLabel -> b
    javax.swing.JLabel showHideControl -> a
    javax.swing.ImageIcon iconShown -> a
    javax.swing.ImageIcon iconHidden -> b
    java.awt.GridBagConstraints c -> a
    geogebra.main.AppD app -> a
    boolean marbleValue -> a
    void updateIcons() -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void setMarbleValue(boolean) -> a
    void setMarbleVisible(boolean) -> b
geogebra.common.awt.GAffineTransform -> geogebra.common.a.a:
    void setTransform(geogebra.common.awt.GAffineTransform) -> a
    void setTransform(double,double,double,double,double,double) -> a
    void concatenate(geogebra.common.awt.GAffineTransform) -> b
    double getScaleX() -> a
    double getScaleY() -> b
    double getShearX() -> c
    double getShearY() -> d
    geogebra.common.awt.GShape createTransformedShape(geogebra.common.awt.GShape) -> a
    geogebra.common.awt.GPoint2D transform(geogebra.common.awt.GPoint2D,geogebra.common.awt.GPoint2D) -> a
    void transform(double[],int,double[],int,int) -> a
    geogebra.common.awt.GAffineTransform createInverse() -> a
    void scale(double,double) -> a
    void translate(double,double) -> b
    double getTranslateX() -> e
    double getTranslateY() -> f
    void rotate(double) -> a
geogebra.common.awt.GAlphaComposite -> geogebra.common.a.b:
geogebra.common.awt.GArc2D -> geogebra.common.a.c:
    void setArc(double,double,double,double,double,double,int) -> a
    geogebra.common.awt.GPoint2D getStartPoint() -> a
    geogebra.common.awt.GPoint2D getEndPoint() -> b
    void setArcByCenter(double,double,double,double,double,int) -> a
geogebra.common.awt.GArea -> geogebra.common.a.d:
    void subtract(geogebra.common.awt.GArea) -> a
    void intersect(geogebra.common.awt.GArea) -> c
    void exclusiveOr(geogebra.common.awt.GArea) -> d
    void add(geogebra.common.awt.GArea) -> b
geogebra.common.awt.GBasicStroke -> geogebra.common.a.e:
    geogebra.common.awt.GShape createStrokedShape(geogebra.common.awt.GShape) -> a
    int getEndCap() -> a
    float getMiterLimit() -> a
    int getLineJoin() -> b
    float getLineWidth() -> b
    float[] getDashArray() -> a
geogebra.common.awt.GBufferedImage -> geogebra.common.a.f:
    geogebra.common.awt.GGraphics2D createGraphics() -> a
    geogebra.common.awt.GBufferedImage getSubimage(int,int,int,int) -> a
geogebra.common.awt.GBufferedImageOp -> geogebra.common.a.g:
geogebra.common.awt.GColor -> geogebra.common.a.h:
    geogebra.common.awt.GColor white -> white
    geogebra.common.awt.GColor black -> black
    geogebra.common.awt.GColor RED -> RED
    geogebra.common.awt.GColor WHITE -> WHITE
    geogebra.common.awt.GColor BLACK -> BLACK
    geogebra.common.awt.GColor BLUE -> BLUE
    geogebra.common.awt.GColor GRAY -> GRAY
    geogebra.common.awt.GColor GREEN -> GREEN
    geogebra.common.awt.GColor YELLOW -> YELLOW
    geogebra.common.awt.GColor DARK_GRAY -> DARK_GRAY
    geogebra.common.awt.GColor LIGHT_GRAY -> LIGHT_GRAY
    geogebra.common.awt.GColor CYAN -> CYAN
    geogebra.common.awt.GColor MAGENTA -> MAGENTA
    geogebra.common.awt.GColor red -> red
    geogebra.common.awt.GColor orange -> orange
    geogebra.common.awt.GColor yellow -> yellow
    geogebra.common.awt.GColor green -> green
    geogebra.common.awt.GColor blue -> blue
    geogebra.common.awt.GColor cyan -> cyan
    geogebra.common.awt.GColor darkCyan -> darkCyan
    geogebra.common.awt.GColor darkGreen -> darkGreen
    geogebra.common.awt.GColor magenta -> magenta
    geogebra.common.awt.GColor lightGray -> lightGray
    geogebra.common.awt.GColor gray -> gray
    geogebra.common.awt.GColor darkGray -> darkGray
    void initColors(geogebra.common.factories.AwtFactory) -> a
    int getRed() -> d
    int getBlue() -> a
    int getGreen() -> c
    int getAlpha() -> b
    void getRGBColorComponents(float[]) -> a
    int HSBtoRGB(float,float,float) -> a
    geogebra.common.awt.GColor darker() -> b
    geogebra.common.awt.GColor brighter() -> a
    java.lang.String getColorString(geogebra.common.awt.GColor) -> a
    int getRGB() -> e
    double getGrayScale() -> a
geogebra.common.awt.GComposite -> geogebra.common.a.i:
geogebra.common.awt.GCubicCurve2D -> geogebra.common.a.j:
    int solveCubic(double[],double[]) -> a
geogebra.common.awt.GDimension -> geogebra.common.a.k:
    int getWidth() -> a
    int getHeight() -> b
    boolean equals(java.lang.Object) -> equals
geogebra.common.awt.GEllipse2DDouble -> geogebra.common.a.l:
    void setFrame(double,double,double,double) -> a
    void setFrameFromCenter(double,double,double,double) -> b
geogebra.common.awt.GEllipse2DFloat -> geogebra.common.a.m:
geogebra.common.awt.GFont -> geogebra.common.a.n:
    int getStyle() -> a
    int getSize() -> b
    boolean isItalic() -> a
    boolean isBold() -> b
    int canDisplayUpTo(java.lang.String) -> a
    geogebra.common.awt.GFont deriveFont(int,int) -> a
    geogebra.common.awt.GFont deriveFont(int) -> a
    java.lang.String getFontName() -> a
geogebra.common.awt.GFontRenderContext -> geogebra.common.a.o:
geogebra.common.awt.GGeneralPath -> geogebra.common.a.p:
    void moveTo(float,float) -> a
    void reset() -> a
    void lineTo(float,float) -> b
    void append(geogebra.common.awt.GShape,boolean) -> a
    void closePath() -> b
    geogebra.common.awt.GShape createTransformedShape(geogebra.common.awt.GAffineTransform) -> a
    geogebra.common.awt.GPoint2D getCurrentPoint() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double,double,double) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    void curveTo(float,float,float,float,float,float) -> a
geogebra.common.awt.GGradientPaint -> geogebra.common.a.q:
geogebra.common.awt.GGraphics2D -> geogebra.common.a.r:
    void draw(geogebra.common.awt.GShape) -> c
    void drawImage(geogebra.common.awt.GBufferedImage,geogebra.common.awt.GBufferedImageOp,int,int) -> a
    void drawImage(geogebra.common.awt.MyImage,geogebra.common.awt.GBufferedImageOp,int,int) -> a
    void drawImage(geogebra.common.awt.MyImage,int,int) -> a
    void drawString(java.lang.String,int,int) -> a
    void drawString(java.lang.String,float,float) -> a
    void fill(geogebra.common.awt.GShape) -> d
    void setComposite(geogebra.common.awt.GComposite) -> a
    void setPaint(geogebra.common.awt.GPaint) -> a
    void setStroke(geogebra.common.awt.GBasicStroke) -> a
    void setRenderingHint(geogebra.common.awt.GKey,java.lang.Object) -> a
    void setRenderingHints(java.util.Map) -> a
    void translate(double,double) -> a
    void scale(double,double) -> b
    void transform(geogebra.common.awt.GAffineTransform) -> a
    void setTransform(geogebra.common.awt.GAffineTransform) -> b
    geogebra.common.awt.GAffineTransform getTransform() -> a
    geogebra.common.awt.GComposite getComposite() -> a
    geogebra.common.awt.GColor getBackground() -> a
    void clip(geogebra.common.awt.GShape) -> a
    geogebra.common.awt.GFontRenderContext getFontRenderContext() -> a
    geogebra.common.awt.GColor getColor() -> b
    geogebra.common.awt.GFont getFont() -> a
    void setFont(geogebra.common.awt.GFont) -> a
    void setColor(geogebra.common.awt.GColor) -> a
    void fillRect(int,int,int,int) -> a
    void drawLine(int,int,int,int) -> b
    void setClip(geogebra.common.awt.GShape) -> b
    geogebra.common.awt.GShape getClip() -> a
    void drawRect(int,int,int,int) -> c
    void setClip(int,int,int,int) -> d
    void drawRoundRect(int,int,int,int,int,int) -> a
    void fillRoundRect(int,int,int,int,int,int) -> b
    void setAntialiasing() -> a
    void setTransparent() -> b
    void drawWithValueStrokePure(geogebra.common.awt.GShape) -> e
    void fillWithValueStrokePure(geogebra.common.awt.GShape) -> f
    java.lang.Object setInterpolationHint(boolean) -> a
    void resetInterpolationHint(java.lang.Object) -> a
    void updateCanvasColor() -> c
    void drawStraightLine(double,double,double,double) -> a
geogebra.common.awt.GImage -> geogebra.common.a.s:
geogebra.common.awt.GKey -> geogebra.common.a.t:
geogebra.common.awt.GLine2D -> geogebra.common.a.u:
    void setLine(double,double,double,double) -> a
    geogebra.common.awt.GPoint2D getP1() -> a
    geogebra.common.awt.GPoint2D getP2() -> b
geogebra.common.awt.GPaint -> geogebra.common.a.v:
geogebra.common.awt.GPathIterator -> geogebra.common.a.w:
    int getWindingRule() -> a
    boolean isDone() -> a
    void next() -> a
    int currentSegment(double[]) -> a
geogebra.common.awt.GPoint -> geogebra.common.a.x:
    int y -> a
    int x -> b
    void setLocation(int,int) -> a
    void setLocation(geogebra.common.awt.GPoint) -> a
    int getY() -> a
    int getX() -> b
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    double distance(geogebra.common.awt.GPoint) -> a
    java.lang.String toString() -> toString
geogebra.common.awt.GPoint2D -> geogebra.common.a.y:
    double getX() -> a
    double distance(double,double) -> a
    double getY() -> b
    void setX(double) -> a
    void setY(double) -> b
    double distance(geogebra.common.awt.GPoint2D) -> a
    double distanceSq(double,double,double,double) -> a
    void setLocation(double,double) -> a
geogebra.common.awt.GPoint2D$Double -> geogebra.common.a.y$a:
    double x -> a
    double y -> b
    void setLocation(double,double) -> a
    double getX() -> a
    double getY() -> b
    void setX(double) -> a
    void setY(double) -> b
    double distance(geogebra.common.awt.GPoint2D) -> a
    double distance(double,double) -> a
geogebra.common.awt.GRectangle -> geogebra.common.a.z:
    double getY() -> a
    double getX() -> b
    double getWidth() -> c
    double getHeight() -> d
    void setBounds(int,int,int,int) -> a
    void setLocation(int,int) -> a
    void setBounds(geogebra.common.awt.GRectangle) -> a
    void add(geogebra.common.awt.GRectangle) -> b
    void add(double,double) -> a
    boolean contains(geogebra.common.awt.GPoint2D) -> a
    geogebra.common.awt.GRectangle union(geogebra.common.awt.GRectangle) -> a
    void setSize(int,int) -> b
geogebra.common.awt.GRectangle2D -> geogebra.common.a.A:
    double getY() -> a
    double getX() -> b
    double getWidth() -> c
    double getHeight() -> d
    void setRect(double,double,double,double) -> a
    void setFrame(double,double,double,double) -> b
    boolean intersects(double,double,double,double) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    double getMinX() -> e
    double getMaxX() -> f
    double getMinY() -> g
    double getMaxY() -> h
geogebra.common.awt.GRectangularShape -> geogebra.common.a.B:
geogebra.common.awt.GRenderingHints -> geogebra.common.a.C:
    geogebra.common.awt.GKey KEY_STROKE_CONTROL -> a
    java.lang.Object VALUE_STROKE_PURE -> a
    geogebra.common.awt.GKey KEY_ANTIALIASING -> b
    java.lang.Object VALUE_ANTIALIAS_ON -> b
geogebra.common.awt.GShape -> geogebra.common.a.D:
    boolean intersects(int,int,int,int) -> a
    boolean contains(int,int) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
geogebra.common.awt.GTexturePaint -> geogebra.common.a.E:
geogebra.common.awt.MyImage -> geogebra.common.a.F:
    int getWidth() -> a
    int getHeight() -> b
    boolean isSVG() -> a
    geogebra.common.awt.GBufferedImage getSubimage(int,int,int,int) -> a
geogebra.common.awt.font.GTextLayout -> geogebra.common.a.a.a:
    float getAdvance() -> a
    float getAscent() -> b
    void draw(geogebra.common.awt.GGraphics2D,int,int) -> a
    float getDescent() -> c
geogebra.common.cas.AlgoAsymptoteFunction -> geogebra.common.b.a:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoList g -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.cas.CASparser -> geogebra.common.b.b:
    geogebra.common.kernel.parser.Parser parser -> a
    geogebra.common.kernel.parser.cashandlers.ParserFunctions parserFunctions -> a
    java.util.Map rbCasTranslations -> a
    int[] $SWITCH_TABLE$geogebra$common$cas$CASparser$FA -> a
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraCASInput(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraCASInputAndResolveDummyVars(java.lang.String,geogebra.common.kernel.Kernel) -> a
    void resolveVariablesForCAS(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> a
    java.lang.String toGeoGebraString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.ValidExpression parseGiac(java.lang.String) -> b
    java.lang.String replaceIndices(java.lang.String,boolean) -> a
    void appendcode(java.lang.StringBuilder,int) -> a
    java.lang.String insertSpecialChars(java.lang.String) -> a
    java.lang.String translateToCAS(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.CASGenericInterface) -> a
    java.lang.String getTranslatedCASCommand(java.lang.String) -> b
    boolean isCommandAvailable(java.lang.String) -> a
    java.util.Map getTranslationRessourceBundle() -> a
    int[] $SWITCH_TABLE$geogebra$common$cas$CASparser$FA() -> a
geogebra.common.cas.CASparser$FA -> geogebra.common.b.b$a:
    geogebra.common.cas.CASparser$FA NORMAL -> a
    geogebra.common.cas.CASparser$FA UNDERSCORE -> b
    geogebra.common.cas.CASparser$FA LONG_INDEX -> c
    geogebra.common.cas.CASparser$FA[] ENUM$VALUES -> a
    geogebra.common.cas.CASparser$FA[] values() -> values
    geogebra.common.cas.CASparser$FA valueOf(java.lang.String) -> valueOf
geogebra.common.cas.CasParserTools -> geogebra.common.b.c:
geogebra.common.cas.CasParserToolsImpl -> geogebra.common.b.d:
    com.google.gwt.regexp.shared.RegExp pattern -> a
geogebra.common.cas.GeoGebraCAS -> geogebra.common.b.e:
    geogebra.common.main.App app -> a
    geogebra.common.cas.CASparser casParser -> a
    geogebra.common.kernel.CASGenericInterface cas -> a
    java.util.Map getPolynomialCoeffsCache -> a
    java.lang.StringBuilder getPolynomialCoeffsSB -> a
    java.lang.StringBuilder sbPolyCoeffs -> b
    geogebra.common.cas.CASparser getCASparser() -> a
    geogebra.common.kernel.CASGenericInterface getCurrentCAS() -> a
    void initCurrentCAS() -> a
    void setCurrentCAS() -> b
    geogebra.common.kernel.CASGenericInterface getGiac() -> b
    java.lang.String evaluateGeoGebraCAS(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    java.lang.String evaluateGeoGebraCAS(java.lang.String,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    java.lang.String evaluateRaw(java.lang.String) -> a
    java.lang.String evaluate(java.lang.String) -> b
    java.lang.String[] getPolynomialCoeffs(java.lang.String,java.lang.String) -> a
    java.lang.String toString(geogebra.common.kernel.arithmetic.ExpressionValue,boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getCASCommand(java.lang.String,java.util.ArrayList,boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getCASCommand(java.lang.String,java.util.ArrayList,boolean,geogebra.common.kernel.StringTemplate,boolean) -> a
    boolean isCommandAvailable(geogebra.common.kernel.arithmetic.Command) -> a
    boolean isStructurallyEqual(geogebra.common.kernel.arithmetic.ValidExpression,java.lang.String,geogebra.common.kernel.Kernel) -> a
    java.util.Set getAvailableCommandNames() -> a
    void clearCache() -> c
    geogebra.common.kernel.CASParserInterface getCASparser() -> a
geogebra.common.cas.error.ComputationException -> geogebra.common.b.a.a:
    java.lang.String getKey() -> a
geogebra.common.cas.error.TimeoutException -> geogebra.common.b.a.b:
    java.lang.String getKey() -> a
geogebra.common.cas.giac.CASgiac -> geogebra.common.b.b.a:
    geogebra.common.cas.CasParserTools parserTools -> a
    boolean giacSetToGeoGebraMode -> a
    geogebra.common.cas.CASparser casParser -> a
    long timeoutMillis -> a
    com.google.gwt.regexp.shared.RegExp inequality -> a
    com.google.gwt.regexp.shared.RegExp inequalitySimple -> b
    com.google.gwt.regexp.shared.RegExp inequalitySimpleInList -> c
    java.lang.StringBuilder expSB -> a
    java.lang.String evaluateCAS(java.lang.String) -> b
    java.lang.String evaluateRaw(java.lang.String) -> d
    java.lang.String evaluate(java.lang.String,long) -> a
    java.lang.String evaluateGeoGebraCAS(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluateToExpression(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.Kernel) -> a
    java.lang.String getPlainResult(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.Kernel) -> a
    java.lang.String toGeoGebraString(java.lang.String,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue replaceRoots(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.Kernel) -> a
    long getTimeoutMilliseconds() -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void appendListStart(java.lang.StringBuilder) -> a
    void appendListEnd(java.lang.StringBuilder) -> b
    java.lang.String createLocusEquationScript(java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String createEliminateFactorizedScript(java.lang.String,java.lang.String) -> a
    java.lang.String createGroebnerSolvableScript(java.util.HashMap,java.lang.String,java.lang.String,java.lang.String,boolean) -> a
    java.lang.String substitutionsString(java.util.HashMap) -> a
    double[][] getBivarPolyCoefficients(java.lang.String,geogebra.common.cas.GeoGebraCAS) -> a
    java.lang.String checkInequalityInterval(java.lang.String) -> e
    java.lang.String postProcess(java.lang.String) -> f
    java.lang.String wrapInevalfa(java.lang.String) -> g
geogebra.common.cas.giac.Ggb2giac -> geogebra.common.b.b.b:
    java.util.Map commandMap -> a
    void p(java.lang.String,java.lang.String) -> a
    java.util.Map getMap() -> a
geogebra.common.cas.singularws.SingularWebService -> geogebra.common.b.c.a:
    int GET_REQUEST_MAX_SIZE -> a
    int timeout -> b
    java.lang.String testConnectionCommand -> a
    java.lang.String singularDirectCommand -> b
    java.lang.String wsHost -> c
    java.lang.Boolean available -> a
    java.lang.String locusLib -> d
    boolean fastConn -> a
    java.lang.String[] SINGULAR_LIB_GROBCOVs -> a
    int CONNECTION_SPEED_NO_TESTS -> c
    int CONNECTION_SPEED_THRESHOLD -> d
    java.lang.String swsCommandResult(java.lang.String) -> c
    java.lang.String swsCommandResult(java.lang.String,java.lang.String) -> a
    java.lang.String cachingString() -> f
    boolean isAvailable() -> a
    boolean isFast() -> b
    java.lang.String speed() -> g
    boolean testConnection() -> c
    boolean testLib(java.lang.String) -> a
    java.lang.String directCommand(java.lang.String) -> a
    java.lang.String getConnectionSite() -> a
    void enable() -> a
    java.lang.String getVersion() -> b
    java.lang.String getSingularVersionString() -> c
    java.lang.String getLocusLib() -> d
    java.lang.String getLocusCommand() -> e
    java.lang.String getTranslatedCASCommand(java.lang.String) -> b
geogebra.common.cas.view.CASInputHandler -> geogebra.common.b.d.a:
    geogebra.common.cas.view.CASView casView -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.cas.view.CASTable consoleTable -> a
    boolean $assertionsDisabled -> a
    void processCurrentRow(java.lang.String) -> a
    boolean meaningfulSelection(java.lang.String) -> a
    void processMultipleRows(java.lang.String) -> b
    boolean processRowThenEdit(int,boolean) -> a
    java.lang.String resolveCASrowReferences(java.lang.String,int,char,boolean) -> a
    void handleReference(java.lang.StringBuilder,int,int,boolean,boolean,boolean) -> a
    void appendReference(java.lang.StringBuilder,java.lang.String,boolean,boolean) -> a
    boolean isPositiveNumber(java.lang.String) -> b
    java.lang.String fixInputErrors(java.lang.String) -> a
    void handleMarble(geogebra.common.kernel.geos.GeoCasCell,geogebra.common.cas.view.MarbleRenderer) -> a
geogebra.common.cas.view.CASSubDialog -> geogebra.common.b.d.b:
    int editRow -> a
    java.lang.String prefix -> a
    java.lang.String evalText -> b
    java.lang.String postfix -> c
    java.util.Vector data -> a
    geogebra.common.cas.view.CASView getCASView() -> a
    void initData(geogebra.common.kernel.geos.GeoCasCell) -> a
    void addVariables(geogebra.common.kernel.geos.GeoElement,java.util.HashSet) -> a
    boolean apply(java.lang.String) -> a
geogebra.common.cas.view.CASTable -> geogebra.common.b.d.c:
    int getRowCount() -> getRowCount
    void setLabels() -> d
    geogebra.common.kernel.geos.GeoCasCell getGeoCasCell(int) -> a
    geogebra.common.main.App getApplication() -> a
    void deleteAllRows() -> c
    void insertRow(int,geogebra.common.kernel.geos.GeoCasCell,boolean) -> a
    int[] getSelectedRows() -> getSelectedRows
    int getSelectedRow() -> getSelectedRow
    void stopEditing() -> a
    void startEditingRow(int) -> c
    geogebra.common.cas.view.CASTableCellEditor getEditor() -> a
    void deleteRow(int) -> b
    void setRow(int,geogebra.common.kernel.geos.GeoCasCell) -> a
    boolean isEditing() -> isEditing
    void resetRowNumbers(int) -> f
geogebra.common.cas.view.CASTableCellController -> geogebra.common.b.d.d:
    void handleEnterKey(geogebra.common.euclidian.event.KeyEvent,geogebra.common.main.App) -> a
geogebra.common.cas.view.CASTableCellEditor -> geogebra.common.b.d.e:
    int getInputSelectionEnd() -> c
    int getInputSelectionStart() -> b
    java.lang.String getInputSelectedText() -> b
    java.lang.String getInput() -> a
    void setInputSelectionStart(int) -> b
    void setInputSelectionEnd(int) -> c
    void clearInputText() -> f
geogebra.common.cas.view.CASView -> geogebra.common.b.d.f:
    geogebra.common.cas.GeoGebraCAS cas -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.cas.view.CASInputHandler casInputHandler -> a
    geogebra.common.cas.view.CASTable getConsoleTable() -> a
    geogebra.common.main.App getApp() -> a
    void showSubstituteDialog(java.lang.String,java.lang.String,java.lang.String,int) -> a
    void setLabels() -> x_
    int getViewID() -> a
    java.lang.String getRowOutputValue(int) -> a
    java.lang.String getRowInputValue(int) -> b
    int getRowCount() -> b
    geogebra.common.cas.GeoGebraCAS getCAS() -> a
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void clearView() -> f
    void ensureOneEmptyRow() -> g
    void attachView() -> h
    void detachView() -> i
    void reset() -> j
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void processInput(java.lang.String) -> a
    void processRowThenEdit(int,boolean) -> a
    java.lang.String resolveCASrowReferences(java.lang.String,int) -> a
    boolean deleteCasCells(int[]) -> a
    java.lang.String getLaTeXfromCells(int[]) -> a
    geogebra.common.cas.view.CASInputHandler getInputHandler() -> a
    boolean isRowEmpty(int) -> a
    void insertRow(geogebra.common.kernel.geos.GeoCasCell,boolean) -> a
    boolean isRowOutputEmpty(int) -> b
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
geogebra.common.cas.view.MarbleRenderer -> geogebra.common.b.d.g:
    void setMarbleValue(boolean) -> a
    void setMarbleVisible(boolean) -> b
geogebra.common.cas.view.RowHeaderPopupMenu -> geogebra.common.b.d.h:
    geogebra.common.main.App app -> a
    java.lang.String getDeleteString(int[]) -> a
geogebra.common.euclidian.DrawEquation -> geogebra.common.c.a:
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType checkStringType(geogebra.common.kernel.StringTemplate) -> a
    void appendFormulaStart(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    void appendFractionStart(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> b
    void appendFractionMiddle(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> c
    void appendFractionEnd(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> d
    void appendInfinity(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> e
    void appendMinusInfinity(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> f
    void appendNegation(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> g
    void appendNumber(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate,java.lang.String) -> a
    void setUseJavaFontsForLaTeX(geogebra.common.main.App,boolean) -> a
    geogebra.common.awt.GDimension drawEquation(geogebra.common.main.App,geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GGraphics2D,int,int,java.lang.String,geogebra.common.awt.GFont,boolean,geogebra.common.awt.GColor,geogebra.common.awt.GColor,boolean,boolean) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.euclidian.Drawable -> geogebra.common.c.b:
    boolean forceNoFill -> b
    geogebra.common.awt.GBasicStroke objStroke -> a
    geogebra.common.awt.GBasicStroke selStroke -> b
    geogebra.common.awt.GBasicStroke decoStroke -> c
    int lineThickness -> c
    int lineType -> d
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    int xLabel -> a
    int yLabel -> b
    java.lang.String labelDesc -> a
    java.lang.String oldLabelDesc -> b
    boolean labelHasIndex -> c
    geogebra.common.awt.GRectangle labelRectangle -> a
    geogebra.common.awt.GShape strokedShape -> a
    geogebra.common.awt.GShape strokedShape2 -> b
    geogebra.common.awt.GArea shape -> a
    int lastFontSize -> e
    boolean isTracing -> a
    java.util.ArrayList hatchPaint -> a
    boolean forcedLineType -> d
    geogebra.common.euclidian.HatchingHandler hatchingHandler -> a
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    double getxLabel() -> a
    double getyLabel() -> b
    void updateFontSize() -> g_
    geogebra.common.awt.GRectangle getBounds() -> a
    void drawLabel(geogebra.common.awt.GGraphics2D) -> b
    void ensureLabelDrawsOnScreen(double,double) -> b
    void drawMultilineLaTeX(geogebra.common.awt.GGraphics2D,geogebra.common.awt.GFont,geogebra.common.awt.GColor,geogebra.common.awt.GColor) -> a
    boolean isSerif() -> a
    void drawMultilineText(geogebra.common.awt.GGraphics2D,geogebra.common.awt.GFont) -> a
    boolean addLabelOffset() -> b
    void addLabelOffsetEnsureOnScreen() -> c
    void addLabelOffsetEnsureOnScreen(double,double) -> a
    boolean hitLabel(int,int) -> a
    void forceLineType(int) -> a
    void updateStrokes(geogebra.common.kernel.kernelND.GeoElementND) -> a
    void updateStrokes(geogebra.common.kernel.kernelND.GeoElementND,int) -> a
    void updateStrokesJustLineThickness(geogebra.common.kernel.geos.GeoElement) -> b
    void fill(geogebra.common.awt.GGraphics2D,geogebra.common.awt.GShape,boolean) -> a
    geogebra.common.euclidian.HatchingHandler getHatchingHandler() -> a
    void setForceNoFill(boolean) -> a
    boolean isForceNoFill() -> c
    void setShape(geogebra.common.awt.GArea) -> a
    geogebra.common.awt.GArea getShape() -> a
    boolean isTracing() -> d
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    boolean isFilled() -> e
    geogebra.common.euclidian.EuclidianView getView() -> a
    void resetHatch() -> d
    boolean isEuclidianVisible() -> f
    geogebra.common.awt.GColor getObjectColor() -> a
geogebra.common.euclidian.DrawableList -> geogebra.common.c.c:
    geogebra.common.euclidian.DrawableList$Link head -> a
    geogebra.common.euclidian.DrawableList$Link tail -> b
    int size -> a
    int size() -> a
    void add(geogebra.common.euclidian.Drawable) -> a
    void addUnique(geogebra.common.euclidian.Drawable) -> b
    boolean contains(geogebra.common.euclidian.Drawable) -> a
    void remove(geogebra.common.euclidian.Drawable) -> c
    void drawAll(geogebra.common.awt.GGraphics2D) -> a
    void updateAll() -> a
    void updateFontSizeAll() -> b
    void clear() -> c
    geogebra.common.euclidian.DrawableList$DrawableIterator getIterator() -> a
geogebra.common.euclidian.DrawableList$DrawableIterator -> geogebra.common.c.c$a:
    geogebra.common.euclidian.DrawableList$Link it -> a
    geogebra.common.euclidian.DrawableList this$0 -> a
    geogebra.common.euclidian.Drawable next() -> a
    boolean hasNext() -> hasNext
    void reset() -> a
    void remove() -> remove
    java.lang.Object next() -> next
geogebra.common.euclidian.DrawableList$Link -> geogebra.common.c.c$b:
    geogebra.common.euclidian.Drawable d -> a
    geogebra.common.euclidian.DrawableList$Link next -> a
    geogebra.common.euclidian.DrawableList this$0 -> a
geogebra.common.euclidian.DrawableND -> geogebra.common.c.d:
    boolean createdByDrawList -> a
    boolean createdByDrawListVisible -> b
    geogebra.common.euclidian.DrawableND drawList -> a
    boolean needsUpdate -> c
    void setCreatedByDrawList(geogebra.common.euclidian.DrawableND) -> a
    void setCreatedByDrawListVisible(boolean) -> b
    boolean createdByDrawList() -> g
    boolean isCreatedByDrawListVisible() -> h
    geogebra.common.euclidian.DrawableND getDrawListCreator() -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setWaitForUpdate() -> e
    void setWaitForUpdateVisualStyle() -> f
    void update() -> a
    double getxLabel() -> a
    double getyLabel() -> b
    void resetHatch() -> d
    void setNeedsUpdate(boolean) -> c
    boolean needsUpdate() -> i
    boolean isTracing() -> d
geogebra.common.euclidian.EuclidianController -> geogebra.common.c.e:
    geogebra.common.euclidian.modes.ModeDelete deleteMode -> a
    double xTemp -> a
    double yTemp -> b
    double xRW -> c
    double yRW -> d
    double xRWold -> e
    double yRWold -> f
    boolean useLineEndPoint -> a
    geogebra.common.kernel.geos.GeoConic tempConic -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly tempImplicitPoly -> a
    java.util.ArrayList moveDependentPoints -> a
    geogebra.common.kernel.geos.GeoFunction tempFunction -> a
    geogebra.common.kernel.kernelND.GeoPointND movedGeoPoint -> a
    boolean movedGeoPointDragged -> b
    geogebra.common.kernel.kernelND.GeoLineND movedGeoLine -> a
    geogebra.common.kernel.geos.GeoConic movedGeoConic -> b
    geogebra.common.kernel.implicit.GeoImplicitPoly movedGeoImplicitPoly -> b
    geogebra.common.kernel.kernelND.GeoVectorND movedGeoVector -> a
    geogebra.common.kernel.geos.GeoText movedGeoText -> a
    geogebra.common.kernel.geos.GeoImage oldImage -> a
    geogebra.common.kernel.geos.GeoImage movedGeoImage -> b
    geogebra.common.kernel.geos.GeoFunction movedGeoFunction -> b
    geogebra.common.kernel.geos.GeoNumeric movedGeoNumeric -> a
    boolean movedGeoNumericDragged -> c
    geogebra.common.kernel.geos.GeoBoolean movedGeoBoolean -> a
    geogebra.common.kernel.geos.Furniture movedGeoButton -> a
    geogebra.common.kernel.geos.GeoElement movedLabelGeoElement -> a
    geogebra.common.kernel.geos.GeoElement movedGeoElement -> b
    geogebra.common.kernel.arithmetic.MyDouble tempNum -> a
    double rotationLastAngle -> g
    java.util.ArrayList translateableGeos -> b
    geogebra.common.kernel.Matrix.Coords translationVec -> a
    geogebra.common.euclidian.Hits tempArrayList -> a
    geogebra.common.euclidian.Hits tempArrayList2 -> b
    geogebra.common.euclidian.Hits tempArrayList3 -> c
    java.util.ArrayList selectedPoints -> c
    java.util.ArrayList selectedNumbers -> d
    java.util.ArrayList selectedNumberValues -> e
    java.util.ArrayList selectedLines -> f
    java.util.ArrayList selectedDirections -> g
    java.util.ArrayList selectedSegments -> h
    java.util.ArrayList selectedRegions -> i
    java.util.ArrayList selectedPaths -> j
    java.util.ArrayList selectedConicsND -> k
    java.util.ArrayList selectedImplicitpoly -> l
    java.util.ArrayList selectedFunctions -> m
    java.util.ArrayList selectedCurves -> n
    java.util.ArrayList selectedVectors -> o
    java.util.ArrayList selectedPolygons -> p
    java.util.ArrayList selectedPolyLines -> q
    java.util.ArrayList selectedGeos -> r
    java.util.ArrayList selectedLists -> s
    geogebra.common.euclidian.Hits highlightedGeos -> d
    java.util.ArrayList justCreatedGeos -> t
    boolean selectionPreview -> d
    boolean hideIntersection -> e
    geogebra.common.kernel.geos.GeoElement resultedGeo -> c
    boolean temporaryMode -> f
    boolean dontClearSelection -> g
    boolean draggingOccured -> h
    boolean draggingOccuredBeforeRelease -> i
    boolean draggingBeyondThreshold -> j
    geogebra.common.kernel.kernelND.GeoPointND pointCreated -> b
    boolean moveModeSelectionHandled -> k
    boolean highlightJustCreatedGeos -> l
    java.util.ArrayList pastePreviewSelected -> u
    java.util.ArrayList pastePreviewSelectedAndDependent -> v
    int mode -> a
    int oldMode -> b
    int moveMode -> c
    geogebra.common.kernel.Macro macro -> a
    geogebra.common.kernel.geos.Test[] macroInput -> a
    int defaultInitialDelay -> d
    boolean toggleModeChangedKernel -> m
    boolean altDown -> n
    geogebra.common.kernel.geos.GeoElement rotGeoElement -> d
    geogebra.common.kernel.geos.GeoPoint rotationCenter -> a
    int polygonMode -> e
    double[] transformCoordsOffset -> a
    boolean allowSelectionRectangleForTranslateByVector -> o
    int previousPointCapturing -> f
    java.util.ArrayList persistentStickyPointList -> w
    geogebra.common.main.App app -> a
    geogebra.common.main.SelectionManager selection -> a
    geogebra.common.main.Localization l10n -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.awt.GPoint startLoc -> a
    geogebra.common.awt.GPoint mouseLoc -> b
    geogebra.common.awt.GPoint lastMouseLoc -> c
    geogebra.common.awt.GPoint oldLoc -> d
    geogebra.common.awt.GPoint2D$Double startPoint -> b
    geogebra.common.awt.GPoint2D$Double lineEndPoint -> a
    geogebra.common.awt.GPoint selectionStartPoint -> e
    java.util.ArrayList tempDependentPointX -> x
    java.util.ArrayList tempDependentPointY -> y
    boolean mouseIsOverLabel -> p
    geogebra.common.euclidian.EuclidianView view -> a
    int collectingRepaints -> g
    boolean collectedRepaints -> q
    long lastMouseRelease -> a
    int index -> h
    geogebra.common.euclidian.EuclidianControllerCompanion companion -> a
    geogebra.common.euclidian.EuclidianPen pen -> a
    geogebra.common.euclidian.Hits handleAddSelectedArrayList -> e
    boolean textfieldHasFocus -> s
    geogebra.common.euclidian.MyButton pressedButton -> a
    geogebra.common.kernel.Matrix.Coords tmpCoordsL3 -> b
    geogebra.common.kernel.Matrix.Coords tmpCoordsL4 -> c
    geogebra.common.kernel.Matrix.Coords mouseLocRW -> d
    geogebra.common.euclidian.TextDispatcher textDispatcher -> a
    double vertexX -> h
    double vertexY -> i
    double initxRW -> j
    double initFactor -> k
    boolean checkBoxOrButtonJustHitted -> t
    boolean penDragged -> r
    boolean scriptsHaveRun -> u
    boolean doubleClickStarted -> v
    geogebra.common.awt.GPoint lastMouseUpLoc -> f
    boolean checkboxChangeOccured -> w
    long lastMousePressedTime -> b
    boolean wheelZoomingOccurred -> x
    geogebra.common.euclidian.event.PointerEventType defaultEventType -> a
    java.lang.Object detachFrom -> a
    boolean detachFromPath -> y
    boolean detachFromRegion -> z
    boolean needsAttach -> A
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void removeAxes(java.util.ArrayList) -> a
    geogebra.common.euclidian.modes.ModeDelete getDeleteMode() -> a
    void createCompanions() -> a
    geogebra.common.euclidian.EuclidianControllerCompanion getCompanion() -> a
    geogebra.common.euclidian.EuclidianControllerCompanion newCompanion() -> b
    void startCollectingMinorRepaints() -> b
    void stopCollectingMinorRepaints() -> c
    void updatePastePreviewPosition() -> d
    void setPastePreviewSelected() -> e
    boolean mayPaste() -> a
    void deletePastePreviewSelected() -> f
    void mergeStickyPointsAfterPaste() -> g
    int getMode() -> a
    int getMoveMode() -> b
    void endOfMode(int) -> a
    void clearSelection(java.util.ArrayList,boolean) -> a
    void clearSelection(java.util.ArrayList) -> b
    geogebra.common.euclidian.Hits getRegionHits(geogebra.common.euclidian.Hits) -> a
    geogebra.common.kernel.kernelND.GeoPointND getSingleIntersectionPoint(geogebra.common.euclidian.Hits) -> a
    geogebra.common.kernel.geos.GeoElement[] getSelectedGeos() -> a
    void getSelectedPointsND(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getSelectedPointsND() -> a
    geogebra.common.kernel.geos.GeoPoint[] getSelectedPoints() -> a
    geogebra.common.kernel.geos.GeoNumeric[] getSelectedNumbers() -> a
    geogebra.common.kernel.arithmetic.NumberValue[] getSelectedNumberValues() -> a
    geogebra.common.kernel.geos.GeoList[] getSelectedLists() -> a
    geogebra.common.kernel.geos.GeoPolygon[] getSelectedPolygons() -> a
    geogebra.common.kernel.geos.GeoPolyLine[] getSelectedPolyLines() -> a
    void getSelectedLinesND(geogebra.common.kernel.kernelND.GeoLineND[]) -> a
    geogebra.common.kernel.kernelND.GeoLineND[] getSelectedLinesND() -> a
    geogebra.common.kernel.geos.GeoLine[] getSelectedLines() -> a
    void getSelectedSegmentsND(geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND[] getSelectedSegmentsND() -> a
    void getSelectedVectorsND(geogebra.common.kernel.kernelND.GeoVectorND[]) -> a
    geogebra.common.kernel.kernelND.GeoVectorND[] getSelectedVectorsND() -> a
    geogebra.common.kernel.geos.GeoConic[] getSelectedConics() -> a
    geogebra.common.kernel.geos.GeoConic[] getSelectedCircles() -> b
    geogebra.common.kernel.kernelND.GeoConicND[] getSelectedConicsND() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND[] getSelectedDirections() -> a
    geogebra.common.kernel.Region[] getSelectedRegions() -> a
    geogebra.common.kernel.Path[] getSelectedPaths() -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly[] getSelectedImplicitpoly() -> a
    geogebra.common.kernel.geos.GeoFunction[] getSelectedFunctions() -> a
    geogebra.common.kernel.geos.GeoCurveCartesian[] getSelectedCurves() -> a
    boolean allowPointCreation() -> b
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint2D(java.lang.String,boolean,geogebra.common.kernel.Path,double,double,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint2D(java.lang.String,boolean,geogebra.common.kernel.Region,double,double,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(java.lang.String,boolean,geogebra.common.kernel.Region,double,double,double,boolean,boolean) -> a
    void setKernel(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    void clearJustCreatedGeos() -> h
    java.util.ArrayList getJustCreatedGeos() -> a
    void memorizeJustCreatedGeos(java.util.ArrayList) -> c
    void memorizeJustCreatedGeos(geogebra.common.kernel.geos.GeoElement[]) -> a
    void setHighlightedGeos(boolean) -> a
    void doSingleHighlighting(geogebra.common.kernel.geos.GeoElement) -> a
    boolean mouseIsOverLabel() -> c
    void removeParentPoints(java.util.ArrayList) -> d
    int addToSelectionList(java.util.ArrayList,java.lang.Object,int) -> a
    int addToHighlightedList(java.util.ArrayList,java.util.ArrayList,int) -> a
    geogebra.common.kernel.geos.GeoElement chooseGeo(java.util.ArrayList,boolean) -> a
    geogebra.common.kernel.geos.GeoElement chooseGeo(java.util.ArrayList,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement chooseGeo(geogebra.common.euclidian.Hits,geogebra.common.kernel.geos.Test) -> a
    int addToSelectionList(java.util.ArrayList,java.util.ArrayList,int,boolean,boolean) -> a
    int selGeos() -> c
    int selPoints() -> d
    int selNumbers() -> e
    int selNumberValues() -> f
    int selLists() -> g
    int selPolyLines() -> h
    int selPolygons() -> i
    int selLines() -> j
    int selDirections() -> k
    int selSegments() -> l
    int selVectors() -> m
    int selConics() -> n
    int selPaths() -> o
    int selRegions() -> p
    int selImplicitpoly() -> q
    int selFunctions() -> r
    int selCurves() -> s
    int handleAddSelected(geogebra.common.euclidian.Hits,int,boolean,java.util.ArrayList,geogebra.common.kernel.geos.Test) -> a
    int handleAddSelectedRegions(geogebra.common.euclidian.Hits,int,boolean,java.util.ArrayList) -> a
    int addSelectedGeo(geogebra.common.euclidian.Hits,int,boolean) -> a
    int addSelectedPoint(geogebra.common.euclidian.Hits,int,boolean) -> b
    int addSelectedNumeric(geogebra.common.euclidian.Hits,int,boolean) -> c
    int addSelectedNumberValue(geogebra.common.euclidian.Hits,int,boolean) -> d
    int addSelectedLine(geogebra.common.euclidian.Hits,int,boolean) -> e
    int addSelectedSegment(geogebra.common.euclidian.Hits,int,boolean) -> f
    int addSelectedVector(geogebra.common.euclidian.Hits,int,boolean) -> g
    int addSelectedVector(geogebra.common.euclidian.Hits,int,boolean,geogebra.common.kernel.geos.Test) -> a
    int addSelectedPath(geogebra.common.euclidian.Hits,int,boolean) -> h
    int addSelectedRegion(geogebra.common.euclidian.Hits,int,boolean) -> i
    int addSelectedImplicitpoly(geogebra.common.euclidian.Hits,int,boolean) -> j
    int addSelectedPolygon(geogebra.common.euclidian.Hits,int,boolean) -> k
    int addSelectedPolyLine(geogebra.common.euclidian.Hits,int,boolean) -> l
    int addSelectedList(geogebra.common.euclidian.Hits,int,boolean) -> m
    int addSelectedDirection(geogebra.common.euclidian.Hits,int,boolean) -> n
    int addSelectedConic(geogebra.common.euclidian.Hits,int,boolean) -> o
    int addSelectedFunction(geogebra.common.euclidian.Hits,int,boolean) -> p
    int addSelectedCurve(geogebra.common.euclidian.Hits,int,boolean) -> q
    void createNewPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void createNewPointIntersection(geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement[] join(geogebra.common.euclidian.Hits) -> a
    geogebra.common.kernel.geos.GeoElement[] join() -> b
    geogebra.common.kernel.geos.GeoElement[] ray() -> c
    geogebra.common.kernel.geos.GeoElement[] segment(geogebra.common.euclidian.Hits) -> b
    geogebra.common.kernel.geos.GeoElement[] segment() -> e
    geogebra.common.kernel.geos.GeoElement[] vector(geogebra.common.euclidian.Hits) -> c
    geogebra.common.kernel.geos.GeoElement vector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] ray(geogebra.common.euclidian.Hits) -> d
    geogebra.common.kernel.geos.GeoElement[] polygon(geogebra.common.euclidian.Hits) -> e
    geogebra.common.kernel.geos.GeoElement[] polyline(geogebra.common.euclidian.Hits) -> f
    geogebra.common.kernel.geos.GeoElement[] polygon() -> d
    geogebra.common.kernel.geos.GeoElement[] intersect(geogebra.common.euclidian.Hits) -> g
    geogebra.common.kernel.geos.GeoElement[] parallel(geogebra.common.euclidian.Hits) -> h
    void checkCoordCartesian(geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.geos.GeoElement[] parabola(geogebra.common.euclidian.Hits) -> i
    geogebra.common.kernel.geos.GeoElement[] orthogonal(geogebra.common.euclidian.Hits) -> j
    geogebra.common.kernel.geos.GeoElement[] orthogonal(geogebra.common.euclidian.Hits,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] midpoint(geogebra.common.euclidian.Hits) -> k
    boolean functionInspector(geogebra.common.euclidian.Hits) -> a
    geogebra.common.kernel.geos.GeoElement[] lineBisector(geogebra.common.euclidian.Hits) -> l
    geogebra.common.kernel.geos.GeoElement[] angularBisector(geogebra.common.euclidian.Hits) -> m
    geogebra.common.kernel.geos.GeoElement[] threePoints(geogebra.common.euclidian.Hits,int) -> a
    geogebra.common.kernel.geos.GeoElement[] switchModeForThreePoints(int) -> a
    boolean relation(geogebra.common.euclidian.Hits) -> b
    geogebra.common.kernel.geos.GeoElement[] locus(geogebra.common.euclidian.Hits) -> n
    geogebra.common.kernel.geos.GeoElement[] conic5(geogebra.common.euclidian.Hits) -> o
    geogebra.common.kernel.geos.GeoElement[] slope(geogebra.common.euclidian.Hits) -> p
    geogebra.common.kernel.geos.GeoElement[] tangents(geogebra.common.euclidian.Hits) -> q
    boolean deleteAll(geogebra.common.euclidian.Hits) -> c
    geogebra.common.kernel.geos.GeoElement[] polarLine(geogebra.common.euclidian.Hits) -> r
    boolean showHideLabel(geogebra.common.euclidian.Hits) -> d
    boolean copyVisualStyle(geogebra.common.euclidian.Hits) -> e
    geogebra.common.awt.GPoint getMouseLoc() -> a
    void textfieldHasFocus(boolean) -> b
    boolean checkBoxOrTextfieldOrButtonJustHitted() -> d
    void initToolTipManager() -> i
    void initShowMouseCoords() -> j
    void wrapMouseEntered() -> k
    boolean getSelectables(geogebra.common.euclidian.Hits) -> f
    boolean moveRotate(geogebra.common.euclidian.Hits) -> g
    boolean point(geogebra.common.euclidian.Hits) -> h
    boolean geoElementSelected(geogebra.common.euclidian.Hits,boolean) -> a
    boolean segmentFixed(geogebra.common.euclidian.Hits) -> i
    geogebra.common.kernel.geos.GeoElement[] angleFixed(geogebra.common.euclidian.Hits) -> s
    geogebra.common.kernel.geos.GeoElement[] switchModeForCircleOrSphere2(int) -> b
    geogebra.common.kernel.geos.GeoElement[] circleOrSphere2(geogebra.common.euclidian.Hits,int) -> b
    boolean showHideObject(geogebra.common.euclidian.Hits) -> j
    boolean text(geogebra.common.euclidian.Hits) -> k
    boolean isAltDown() -> e
    void setAltDown(boolean) -> c
    boolean slider() -> f
    boolean image(geogebra.common.euclidian.Hits) -> l
    geogebra.common.kernel.geos.GeoElement[] mirrorAtPoint(geogebra.common.euclidian.Hits) -> t
    geogebra.common.kernel.geos.GeoElement[] mirrorAtLine(geogebra.common.euclidian.Hits) -> u
    geogebra.common.kernel.geos.GeoElement[] mirrorAtCircle(geogebra.common.euclidian.Hits) -> v
    boolean clearHighlightedGeos() -> x
    boolean refreshHighlighting(geogebra.common.euclidian.Hits,boolean) -> b
    boolean highlight(geogebra.common.kernel.geos.GeoElement) -> a
    boolean highlight(java.util.ArrayList) -> a
    void clearSelections() -> l
    void clearSelections(boolean,boolean) -> a
    void clearSelected() -> m
    boolean attachDetach(geogebra.common.euclidian.Hits) -> m
    geogebra.common.kernel.Matrix.Coords getMouseLocRW() -> a
    geogebra.common.kernel.geos.GeoElement[] translateByVector(geogebra.common.euclidian.Hits) -> w
    geogebra.common.kernel.geos.GeoElement[] rotateByAngle(geogebra.common.euclidian.Hits) -> x
    geogebra.common.kernel.geos.GeoElement[] dilateFromPoint(geogebra.common.euclidian.Hits) -> y
    geogebra.common.kernel.geos.GeoElement[] fitLine(geogebra.common.euclidian.Hits) -> z
    geogebra.common.kernel.geos.GeoLine FitLineY(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement[] createList(geogebra.common.euclidian.Hits) -> A
    void calcRWcoords() -> n
    void setMouseLocation(geogebra.common.euclidian.event.AbstractEvent) -> a
    void setMouseLocation(boolean,int,int) -> a
    float getPointCapturingPercentage() -> a
    void transformCoords() -> o
    double getTransformCoordsOffset(int) -> a
    geogebra.common.kernel.algos.AlgoDispatcher getAlgoDispatcher() -> a
    geogebra.common.kernel.geos.GeoElement[] area(geogebra.common.euclidian.Hits) -> B
    boolean regularPolygon(geogebra.common.euclidian.Hits) -> n
    int addSelectedPlanesForAngle(geogebra.common.euclidian.Hits,int) -> a
    geogebra.common.kernel.geos.GeoAngle createAngle3D() -> a
    geogebra.common.kernel.geos.GeoElement[] angle(geogebra.common.euclidian.Hits) -> C
    geogebra.common.euclidian.TextDispatcher getTextDispatcher() -> a
    geogebra.common.kernel.geos.GeoElement[] distance(geogebra.common.euclidian.Hits) -> D
    boolean showCheckBox() -> g
    geogebra.common.kernel.geos.GeoElement[] compasses(geogebra.common.euclidian.Hits) -> E
    geogebra.common.kernel.kernelND.GeoConicND Circle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND CircleCompasses(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] vectorFromPoint(geogebra.common.euclidian.Hits) -> F
    boolean circlePointRadius(geogebra.common.euclidian.Hits) -> o
    geogebra.common.kernel.geos.GeoElement getMovedGeoPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND updateNewPoint(boolean,geogebra.common.euclidian.Hits,boolean,boolean,boolean,boolean,boolean) -> a
    boolean createNewPointInRegionPossible(geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND getNewPoint(geogebra.common.euclidian.Hits,boolean,boolean,boolean,boolean) -> a
    boolean createNewPoint(geogebra.common.euclidian.Hits,boolean,boolean,boolean,boolean,boolean) -> a
    boolean createNewPoint(geogebra.common.euclidian.Hits,boolean,boolean,boolean) -> a
    void macro(geogebra.common.euclidian.Hits,geogebra.common.util.AsyncOperation) -> a
    void readNumberOrAngleIfNeeded(geogebra.common.util.AsyncOperation) -> a
    void macroProcess(geogebra.common.util.AsyncOperation) -> b
    boolean button(boolean) -> a
    boolean switchModeForProcessMode(geogebra.common.euclidian.Hits,boolean,geogebra.common.util.AsyncOperation) -> a
    boolean endOfSwitchModeForProcessMode(geogebra.common.kernel.geos.GeoElement[],boolean,geogebra.common.util.AsyncOperation) -> a
    void memorizeJustCreatedGeosAfterProcessMode(geogebra.common.kernel.geos.GeoElement[]) -> b
    void processModeLock() -> p
    boolean processMode(geogebra.common.euclidian.Hits,boolean) -> c
    boolean processMode(geogebra.common.euclidian.Hits,boolean,geogebra.common.util.AsyncOperation) -> b
    void toolCompleted() -> q
    void updatePreview() -> r
    void processReleaseForMovedGeoPoint(boolean) -> d
    boolean processRightReleaseFor3D(geogebra.common.euclidian.event.PointerEventType) -> a
    void rotateObject(boolean) -> e
    void moveLabel() -> s
    void movePointWithOffset(boolean) -> f
    void moveLine(boolean) -> g
    void updateAfterMove(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void moveVector(boolean) -> h
    void moveVector() -> t
    void moveVector(double,double) -> a
    void moveVectorStartPoint(boolean) -> i
    void moveText(boolean) -> j
    void moveTextAbsoluteLocation() -> u
    void moveImage(boolean) -> k
    void moveConic(boolean) -> l
    void moveImplicitPoly(boolean) -> m
    void moveFreehand(boolean) -> n
    void moveFunction(boolean) -> o
    void moveBoolean(boolean) -> p
    void moveButton(boolean) -> q
    double getSliderValue(geogebra.common.kernel.geos.GeoNumeric,boolean) -> a
    void moveNumeric(boolean,boolean) -> b
    void moveSlider(boolean) -> r
    void moveDependent(boolean) -> s
    void moveAttached(boolean) -> t
    void moveMultipleObjects(boolean) -> u
    double getStartPointX() -> a
    double getStartPointY() -> b
    void setMovedGeoPoint(geogebra.common.kernel.geos.GeoElement) -> b
    void switchModeForRemovePolygons(geogebra.common.euclidian.Hits) -> a
    boolean switchModeForMouseReleased(int,geogebra.common.euclidian.Hits,boolean,boolean,geogebra.common.euclidian.event.PointerEventType) -> a
    void hitCheckBox(geogebra.common.kernel.geos.GeoBoolean) -> a
    geogebra.common.euclidian.Hits addPointCreatedForMouseReleased(geogebra.common.euclidian.Hits) -> b
    boolean moveMode(int) -> a
    boolean hitResetIcon() -> h
    void processMouseMoved(geogebra.common.euclidian.event.AbstractEvent) -> b
    void wrapMouseMoved(geogebra.common.euclidian.event.AbstractEvent) -> c
    void resetToolTipManager() -> v
    void wrapMouseExited(geogebra.common.euclidian.event.AbstractEvent) -> d
    void handleSelectClick(java.util.ArrayList,boolean) -> b
    void wrapMouseclicked(boolean,int,geogebra.common.euclidian.event.PointerEventType) -> a
    boolean textfieldJustFocusedW(int,int,geogebra.common.euclidian.event.PointerEventType) -> a
    void resetMovedGeoPoint() -> w
    void setStartPointLocation() -> x
    void setStartPointLocationWithOrigin(double,double) -> b
    void handleMovedElementMultiple() -> y
    void handleMovedElement(geogebra.common.kernel.geos.GeoElement,boolean,geogebra.common.euclidian.event.PointerEventType) -> a
    boolean handleMovedElementDependentWithChangeableCoordParentNumbers() -> i
    void handleMovedElementDependent() -> z
    void handleMovedElementDependentInitMode() -> A
    boolean handleMovedElementFreePoint() -> j
    boolean handleMovedElementFreeText() -> k
    void handleMovedElementFree(geogebra.common.euclidian.event.PointerEventType) -> a
    void addMovedGeoElementFreeInputPointsToTranslateableGeos() -> G
    boolean isMoveSliderExpected(int) -> b
    void setStartPointLocation(double,double) -> c
    boolean isCheckboxFixed(geogebra.common.kernel.geos.GeoBoolean) -> a
    void updateSelectionRectangle(boolean) -> v
    boolean isDraggingBeyondThreshold() -> l
    boolean freehandModePrepared() -> m
    void handleMouseDragged(boolean,geogebra.common.euclidian.event.AbstractEvent) -> a
    boolean viewHasHitsForMouseDragged() -> n
    boolean processRotate3DView() -> o
    boolean allowSelectionRectangle() -> p
    void handleMousePressedForMoveMode(geogebra.common.euclidian.event.AbstractEvent,boolean) -> a
    boolean shouldCancelDrag() -> q
    void wrapMouseDragged(geogebra.common.euclidian.event.AbstractEvent,boolean) -> b
    void translateHitsByVector(geogebra.common.euclidian.event.PointerEventType) -> e
    geogebra.common.kernel.kernelND.GeoVectorND createVectorForTranslation() -> a
    geogebra.common.kernel.kernelND.GeoVectorND createVectorForTranslation(java.lang.String) -> a
    void setTranslateStart(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    boolean penMode(int) -> c
    boolean handleMousePressedForViewButtons() -> r
    boolean processRightPressFor3D() -> s
    void createNewPointForModePoint(geogebra.common.euclidian.Hits,boolean) -> a
    void createNewPointForModeOther(geogebra.common.euclidian.Hits) -> b
    void handleMousePressedForRotateMode(geogebra.common.euclidian.event.PointerEventType) -> b
    void mousePressedTranslatedView(geogebra.common.euclidian.event.PointerEventType) -> c
    boolean moveAxesPossible() -> t
    void setDragCursorIfMoveView() -> B
    void switchModeForMousePressed(geogebra.common.euclidian.event.AbstractEvent) -> e
    void wrapMousePressed(geogebra.common.euclidian.event.AbstractEvent) -> f
    boolean shallMoveView(geogebra.common.euclidian.event.AbstractEvent) -> a
    void runScriptsIfNeeded(geogebra.common.kernel.geos.GeoElement) -> c
    boolean processZoomRectangle() -> u
    void processSelectionRectangleForTransformations(geogebra.common.euclidian.Hits,geogebra.common.kernel.geos.Test) -> a
    void processSelectionRectangle(boolean,boolean) -> c
    void processSelection() -> C
    void showDrawingPadPopup(geogebra.common.awt.GPoint) -> a
    void wrapMouseReleased(geogebra.common.euclidian.event.AbstractEvent) -> g
    boolean modeCreatesHelperPoints(int) -> d
    void endOfWrapMouseReleased(geogebra.common.euclidian.Hits,geogebra.common.euclidian.event.AbstractEvent) -> a
    void endOfWrapMouseReleased(geogebra.common.euclidian.Hits,boolean,boolean,geogebra.common.euclidian.event.PointerEventType) -> a
    void altClicked(geogebra.common.euclidian.event.PointerEventType) -> f
    void processRightReleased(boolean,boolean,geogebra.common.euclidian.event.PointerEventType) -> a
    boolean setJustCreatedGeosSelected() -> v
    void wrapMouseWheelMoved(int,int,double,boolean,boolean) -> a
    void setLineEndPoint(geogebra.common.awt.GPoint2D) -> a
    void setLineEndPoint(geogebra.common.awt.GPoint2D$Double) -> a
    geogebra.common.euclidian.Previewable switchPreviewableForInitNewMode(int) -> a
    void initNewMode(int) -> b
    void setMode(int) -> c
    void zoomInOut(boolean,boolean) -> d
    void zoomInOut(double,int) -> a
    geogebra.common.main.App getApplication() -> a
    void showPopupMenuChooseGeo(java.util.ArrayList,geogebra.common.euclidian.Hits) -> a
    geogebra.common.euclidian.EuclidianPen getPen() -> a
    void resetPen() -> D
    void checkZooming() -> E
    void checkZooming(boolean) -> w
    int getDeleteToolSize() -> t
    geogebra.common.main.DialogManager getDialogManager() -> a
    java.util.ArrayList getAppSelectedGeos() -> b
    void setAppSelectedGeos(java.util.ArrayList) -> e
    void setAppSelectedGeos(java.util.ArrayList,boolean) -> c
    boolean isTextfieldHasFocus() -> w
    void moveAttachDetach(boolean,geogebra.common.euclidian.event.AbstractEvent) -> b
    void setView(geogebra.common.euclidian.EuclidianView) -> a
    void setDialogOccurred() -> F
    void setViewHits(geogebra.common.euclidian.event.PointerEventType) -> d
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.euclidian.EuclidianController$1 -> geogebra.common.c.f:
    geogebra.common.euclidian.EuclidianController this$0 -> a
    geogebra.common.util.AsyncOperation val$callback2 -> a
    void callback(java.lang.Object) -> a
geogebra.common.euclidian.EuclidianController$2 -> geogebra.common.c.g:
    geogebra.common.euclidian.EuclidianController this$0 -> a
    geogebra.common.util.AsyncOperation val$callback -> a
    void callback(java.lang.Object) -> a
geogebra.common.euclidian.EuclidianController$3 -> geogebra.common.c.h:
    geogebra.common.euclidian.EuclidianController this$0 -> a
    geogebra.common.euclidian.Hits val$hits2 -> a
    void callback(java.lang.Object) -> a
geogebra.common.euclidian.EuclidianController$4 -> geogebra.common.c.i:
    geogebra.common.euclidian.EuclidianController this$0 -> a
    geogebra.common.util.AsyncOperation val$callback -> a
    void callback(java.lang.Object) -> a
geogebra.common.euclidian.EuclidianController$5 -> geogebra.common.c.j:
    geogebra.common.euclidian.EuclidianController this$0 -> a
    geogebra.common.euclidian.Hits val$hits2 -> a
    geogebra.common.euclidian.event.AbstractEvent val$event -> a
    void callback(java.lang.Object) -> a
geogebra.common.euclidian.EuclidianControllerCompanion -> geogebra.common.c.k:
    geogebra.common.euclidian.EuclidianController ec -> a
    geogebra.common.kernel.geos.GeoAngle createAngle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] createAngles(geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoAngle createAngle(geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoAngle createAngle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue,boolean) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] translate(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] mirrorAtPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] mirrorAtLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] dilateFromPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND getSingleIntersectionPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] orthogonal(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(java.lang.String,boolean,geogebra.common.kernel.Path,double,double,double,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement midpoint(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement midpoint(geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement midpoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] regularPolygon(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.algos.AlgoElement segmentAlgo(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] createCircle2(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement semicircle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.kernelND.GeoConicND circle(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] angularBisector(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement angularBisector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement circleArcSector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.geos.GeoElement circumcircleArc(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement circumcircleSector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> c
    void movePoint(boolean,geogebra.common.euclidian.event.AbstractEvent) -> a
    void movePlane(boolean,geogebra.common.euclidian.event.AbstractEvent) -> b
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,geogebra.common.kernel.Path,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,geogebra.common.kernel.Region,boolean) -> a
    void processModeLock(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void processModeLock(geogebra.common.kernel.Path) -> a
    java.util.ArrayList removeParentsOfView(java.util.ArrayList) -> a
    boolean viewOrientationForClockwise(boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] rotateByAngle(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement polarLine(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement diameterLine(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement diameterLine(geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement lineBisector(geogebra.common.kernel.kernelND.GeoSegmentND) -> b
    geogebra.common.kernel.geos.GeoElement lineBisector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.kernelND.GeoConicND conic5(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND ellipseHyperbola(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND parabola(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement vectorPoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement locus(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> d
geogebra.common.euclidian.EuclidianDraw -> geogebra.common.c.l:
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    geogebra.common.euclidian.DrawableND newDrawable(geogebra.common.euclidian.EuclidianView,geogebra.common.kernel.geos.GeoElement) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.euclidian.EuclidianPen -> geogebra.common.c.m:
    geogebra.common.main.App app -> a
    geogebra.common.euclidian.EuclidianView view -> a
    double CIRCLE_MIN_DET -> a
    double CIRCLE_MAX_SCORE -> b
    double RECTANGLE_LINEAR_TOLERANCE -> c
    double POLYGON_LINEAR_TOLERANCE -> d
    double RECTANGLE_ANGLE_TOLERANCE -> e
    geogebra.common.kernel.geos.GeoPolyLine DEFAULT_PEN_LINE -> a
    geogebra.common.kernel.algos.AlgoElement lastAlgo -> a
    java.util.ArrayList penPoints -> a
    java.util.ArrayList temp -> b
    int minX -> a
    int maxX -> b
    double score -> f
    double ARROW_MAXSIZE -> g
    double ARROW_ANGLE_MIN -> h
    double ARROW_ANGLE_MAX -> i
    double ARROW_ASYMMETRY_MAX_ANGLE -> j
    double ARROW_ASYMMETRY_MAX_LINEAR -> k
    double ARROW_TIP_LINEAR_TOLERANCE -> l
    double ARROW_SIDEWAYS_GAP_TOLERANCE -> m
    double ARROW_MAIN_LINEAR_GAP_MIN -> n
    double ARROW_MAIN_LINEAR_GAP_MAX -> o
    int[] brk -> a
    int count -> c
    int recognizer_queue_length -> d
    int MAX_POLYGON_SIDES -> e
    double LINE_MAX_DET -> p
    double SLANT_TOLERANCE -> q
    geogebra.common.euclidian.EuclidianPen$Inertia a -> a
    geogebra.common.euclidian.EuclidianPen$Inertia b -> b
    geogebra.common.euclidian.EuclidianPen$Inertia c -> c
    geogebra.common.euclidian.EuclidianPen$Inertia d -> d
    geogebra.common.euclidian.EuclidianPen$RecoSegment reco_queue_a -> a
    geogebra.common.euclidian.EuclidianPen$RecoSegment reco_queue_b -> b
    geogebra.common.euclidian.EuclidianPen$RecoSegment reco_queue_c -> c
    geogebra.common.euclidian.EuclidianPen$RecoSegment reco_queue_d -> d
    geogebra.common.euclidian.EuclidianPen$RecoSegment reco_queue_e -> e
    int gridSize -> f
    geogebra.common.awt.GPoint startPoint -> a
    java.lang.StringBuffer gesture -> a
    int deltaX -> g
    int deltaY -> h
    int absDeltaX -> i
    int absDeltaY -> j
    float absTangent -> a
    boolean startNewStroke -> b
    int penSize -> k
    geogebra.common.kernel.geos.GeoPoint initialPoint -> a
    boolean deleteInitialPoint -> a
    int eraserSize -> l
    int penLineStyle -> m
    geogebra.common.awt.GColor penColor -> a
    boolean freehand -> c
    boolean absoluteScreenPosition -> d
    int getPenSize() -> a
    void setPenSize(int) -> a
    int getPenLineStyle() -> b
    void setPenLineStyle(int) -> b
    geogebra.common.awt.GColor getPenColor() -> a
    void setDefaults() -> a
    boolean isErasingEvent(geogebra.common.euclidian.event.AbstractEvent) -> a
    void resetPenOffsets() -> b
    void handleMouseDraggedForPenMode(geogebra.common.euclidian.event.AbstractEvent) -> a
    void handleMousePressedForPenMode(geogebra.common.euclidian.event.AbstractEvent,geogebra.common.euclidian.Hits) -> a
    void addPointPenMode(geogebra.common.euclidian.event.AbstractEvent,geogebra.common.euclidian.Hits) -> b
    void drawPenPreviewLine(geogebra.common.awt.GGraphics2D,geogebra.common.awt.GPoint,geogebra.common.awt.GPoint) -> a
    void handleMouseReleasedForPenMode(boolean,int,int) -> a
    geogebra.common.kernel.geos.GeoElement checkShapes(int,int) -> a
    void addPointsToPolyLine(java.util.ArrayList) -> a
    geogebra.common.kernel.algos.AlgoPolyLine getAlgoPolyline(geogebra.common.kernel.algos.AlgoElement) -> a
    void mouseReleasedFreehand(int,int) -> a
    void setFreehand(boolean) -> a
    int findPolygonal(int,int,int,int,int) -> a
    void calc_inertia(int,int,geogebra.common.euclidian.EuclidianPen$Inertia) -> a
    double I_det(geogebra.common.euclidian.EuclidianPen$Inertia) -> a
    double I_xx(geogebra.common.euclidian.EuclidianPen$Inertia) -> b
    double I_xy(geogebra.common.euclidian.EuclidianPen$Inertia) -> c
    double I_yy(geogebra.common.euclidian.EuclidianPen$Inertia) -> d
    double score_circle(int,int,geogebra.common.euclidian.EuclidianPen$Inertia) -> a
    double center_x(geogebra.common.euclidian.EuclidianPen$Inertia) -> e
    double center_y(geogebra.common.euclidian.EuclidianPen$Inertia) -> f
    double I_rad(geogebra.common.euclidian.EuclidianPen$Inertia) -> g
    geogebra.common.kernel.geos.GeoConic makeACircle(double,double,double) -> a
    geogebra.common.kernel.geos.GeoConic makeAConic() -> a
    int getDeltaX(geogebra.common.awt.GPoint,geogebra.common.awt.GPoint) -> a
    int getDeltaY(geogebra.common.awt.GPoint,geogebra.common.awt.GPoint) -> b
    void saveMove(java.lang.String) -> a
    java.lang.String getGesture() -> a
    void clearTemporaryInfo() -> c
    void optimize_polygonal(int) -> c
    void incr_inertia(int,geogebra.common.euclidian.EuclidianPen$Inertia,int) -> a
    void get_segment_geometry(int,int,geogebra.common.euclidian.EuclidianPen$Inertia,geogebra.common.euclidian.EuclidianPen$RecoSegment) -> a
    geogebra.common.kernel.geos.GeoElement try_rectangle() -> a
    geogebra.common.kernel.geos.GeoElement try_arrow() -> b
    geogebra.common.kernel.geos.GeoElement try_closed_polygon(int) -> a
    void calc_edge_isect(geogebra.common.euclidian.EuclidianPen$RecoSegment,geogebra.common.euclidian.EuclidianPen$RecoSegment,double[]) -> a
    void setPenColor(geogebra.common.awt.GColor) -> a
    void setAbsoluteScreenPosition(boolean) -> b
geogebra.common.euclidian.EuclidianPen$1 -> geogebra.common.c.n:
    geogebra.common.euclidian.EuclidianPen this$0 -> a
    void setObjColor(geogebra.common.awt.GColor) -> a
    void setLineThickness(int) -> a
    void setLineType(int) -> b
geogebra.common.euclidian.EuclidianPen$Inertia -> geogebra.common.c.m$a:
    double mass -> a
    double sx -> b
    double sxx -> c
    double sy -> d
    double sxy -> e
    double syy -> f
    geogebra.common.euclidian.EuclidianPen this$0 -> a
geogebra.common.euclidian.EuclidianPen$RecoSegment -> geogebra.common.c.m$b:
    int startpt -> a
    int endpt -> b
    double xcenter -> a
    double ycenter -> b
    double angle -> c
    double radius -> d
    double x1 -> e
    double y1 -> f
    double x2 -> g
    double y2 -> h
    boolean reversed -> a
    geogebra.common.euclidian.EuclidianPen this$0 -> a
geogebra.common.euclidian.EuclidianStatic -> geogebra.common.c.o:
    geogebra.common.euclidian.EuclidianStatic prototype -> a
    geogebra.common.awt.GBasicStroke standardStroke -> a
    geogebra.common.awt.GBasicStroke selStroke -> b
    geogebra.common.awt.GBasicStroke getDefaultStroke() -> a
    geogebra.common.awt.GBasicStroke getDefaultSelectionStroke() -> b
    float textWidth(java.lang.String,geogebra.common.awt.GFont,geogebra.common.awt.GFontRenderContext) -> a
    geogebra.common.awt.GBasicStroke getStroke(float,int) -> a
    geogebra.common.awt.GRectangle drawMultilineLaTeX(geogebra.common.main.App,geogebra.common.awt.GGraphics2D,geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GGraphics2D,geogebra.common.awt.GFont,geogebra.common.awt.GColor,geogebra.common.awt.GColor,java.lang.String,int,int,boolean) -> a
    geogebra.common.awt.GRectangle doDrawMultilineLaTeX(geogebra.common.main.App,geogebra.common.awt.GGraphics2D,geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GGraphics2D,geogebra.common.awt.GFont,geogebra.common.awt.GColor,geogebra.common.awt.GColor,java.lang.String,int,int,boolean) -> b
    geogebra.common.awt.GFont getIndexFont(geogebra.common.awt.GFont) -> a
    geogebra.common.awt.GPoint drawIndexedString(geogebra.common.main.App,geogebra.common.awt.GGraphics2D,java.lang.String,float,float,boolean,boolean) -> a
    double measureString(java.lang.String,geogebra.common.awt.GFont,geogebra.common.awt.GFontRenderContext) -> a
    void doFillAfterImageLoaded(geogebra.common.awt.GShape,geogebra.common.awt.GGraphics2D,geogebra.common.awt.GBufferedImage,geogebra.common.main.App) -> a
    void fillAfterImageLoaded(geogebra.common.awt.GShape,geogebra.common.awt.GGraphics2D,geogebra.common.awt.GBufferedImage,geogebra.common.main.App) -> b
    geogebra.common.awt.GRectangle drawMultiLineText(geogebra.common.main.App,java.lang.String,int,int,geogebra.common.awt.GGraphics2D,boolean,geogebra.common.awt.GFont) -> a
geogebra.common.euclidian.EuclidianStyleBar -> geogebra.common.c.p:
    void setMode(int) -> a
    void setLabels() -> a
    void restoreDefaultGeo() -> b
    void updateStyleBar() -> c
    void updateButtonPointCapture(int) -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> a
    int getPointCaptureSelectedIndex() -> a
    void updateGUI() -> d
    void resetFirstPaint() -> e
    void reinit() -> f
geogebra.common.euclidian.EuclidianStyleBarStatic -> geogebra.common.c.q:
    java.lang.String[] bracketArray -> a
    java.lang.String[] bracketArray2 -> b
    java.lang.Integer[] lineStyleArray -> a
    java.lang.Integer[] pointStyleArray -> b
    geogebra.common.kernel.geos.GeoElement applyFixPosition(java.util.ArrayList,boolean,geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> a
    java.lang.String getDefinitonString(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement redefineGeo(geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    void applyTableTextFormat(java.util.ArrayList,int,boolean,boolean,int,geogebra.common.main.App) -> a
    boolean applyCaptionStyle(java.util.ArrayList,int,int) -> a
    boolean applyLineStyle(java.util.ArrayList,int,int) -> b
    boolean applyPointStyle(java.util.ArrayList,int,int) -> c
    boolean applyColor(java.util.ArrayList,geogebra.common.awt.GColor,float,geogebra.common.main.App) -> a
    boolean applyBgColor(java.util.ArrayList,geogebra.common.awt.GColor,float) -> a
    boolean applyTextColor(java.util.ArrayList,geogebra.common.awt.GColor) -> a
    boolean applyFontStyle(java.util.ArrayList,int,int) -> d
    boolean applyTextSize(java.util.ArrayList,int) -> a
    boolean processSourceCommon(java.lang.String,java.util.ArrayList,geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> a
    geogebra.common.kernel.algos.AlgoTableText updateTableText(java.lang.Object[],int) -> a
    java.util.HashMap createDefaultMap() -> a
geogebra.common.euclidian.EuclidianView -> geogebra.common.c.r:
    boolean hasMouse -> a
    int EVNO_GENERAL -> a
    int EVNO_3D -> b
    int evNo -> c
    double xZeroOld -> f
    double yZeroOld -> g
    int mode -> g
    int SCREEN_BORDER -> d
    geogebra.common.awt.GBufferedImage bgImage -> a
    geogebra.common.awt.GGraphics2D bgGraphics -> a
    geogebra.common.awt.GColor colZoomRectangle -> b
    geogebra.common.awt.GColor colZoomRectangleFill -> c
    geogebra.common.awt.GColor colDeletionSquare -> a
    geogebra.common.awt.GBasicStroke strokeDeletionSquare -> a
    geogebra.common.awt.GRectangle deletionRectangle -> a
    geogebra.common.awt.GColor axesColor -> d
    geogebra.common.awt.GColor gridColor -> e
    geogebra.common.awt.GRectangle selectionRectangle -> b
    geogebra.common.awt.GBasicStroke defAxesStroke -> b
    geogebra.common.awt.GBasicStroke boldAxesStroke -> c
    geogebra.common.awt.GBasicStroke axesStroke -> d
    geogebra.common.awt.GBasicStroke tickStroke -> e
    geogebra.common.awt.GBasicStroke gridStroke -> f
    geogebra.common.kernel.Kernel kernel -> a
    int fontSize -> h
    geogebra.common.awt.GAffineTransform coordTransform -> a
    double[] AxesTickInterval -> a
    geogebra.common.util.NumberFormatAdapter[] axesNumberFormat -> a
    boolean[] showAxes -> a
    boolean automaticGridDistance -> l
    double[] gridDistances -> b
    int gridLineStyle -> i
    int axesLineType -> j
    boolean gridIsBold -> b
    int tooltipsInThisView -> e
    int gridType -> k
    geogebra.common.awt.GFont fontPoint -> a
    geogebra.common.awt.GFont fontCoords -> b
    geogebra.common.util.NumberFormatAdapter printScaleNF -> a
    boolean showGrid -> c
    boolean antiAliasing -> d
    boolean showMouseCoords -> e
    boolean allowShowMouseCoords -> f
    boolean showAxesRatio -> g
    boolean highlightAnimationButtons -> h
    int pointCapturingMode -> f
    boolean showAxesCornerCoords -> m
    boolean[] showAxesNumbers -> b
    java.lang.String[] axesLabels -> a
    int[] axesLabelsStyle -> a
    java.lang.String[] axesUnitLabels -> b
    geogebra.common.euclidian.Previewable previewDrawable -> a
    boolean firstPaint -> i
    geogebra.common.main.App app -> a
    geogebra.common.main.settings.EuclidianSettings settings -> a
    geogebra.common.euclidian.EuclidianController euclidianController -> a
    geogebra.common.euclidian.Hits hits -> a
    double MAX_BEND -> h
    double MAX_BEND_OFF_SCREEN -> i
    geogebra.common.euclidian.EuclidianViewCompanion companion -> a
    geogebra.common.kernel.arithmetic.NumberValue xminObject -> a
    geogebra.common.kernel.arithmetic.NumberValue xmaxObject -> b
    geogebra.common.kernel.arithmetic.NumberValue yminObject -> c
    geogebra.common.kernel.arithmetic.NumberValue ymaxObject -> d
    java.lang.Double lockedAxesRatio -> a
    boolean updateBackgroundOnNextRepaint -> n
    boolean updatingBounds -> o
    double xmin -> a
    double xmax -> b
    double ymin -> c
    double ymax -> d
    double invXscale -> j
    double invYscale -> k
    double xZero -> l
    double yZero -> m
    double xscale -> n
    double yscale -> o
    double printingScale -> e
    java.util.HashMap DrawableMap -> a
    java.util.ArrayList stickyPointList -> a
    geogebra.common.euclidian.DrawableList allDrawableList -> a
    geogebra.common.euclidian.DrawableList[] drawLayers -> a
    geogebra.common.euclidian.DrawableList bgImageList -> b
    boolean[] piAxisUnit -> c
    int[] axesTickStyles -> b
    boolean[] automaticAxesNumberingDistances -> d
    double[] axesNumberingDistances -> c
    boolean needsAllDrawablesUpdate -> p
    boolean batchUpdate -> q
    java.util.ArrayList geosWaiting -> b
    java.util.ArrayList hitPointOrBoundary -> c
    java.util.ArrayList hitFilling -> d
    java.util.ArrayList hitLabel -> e
    double[] axisCross -> d
    boolean[] positiveAxes -> e
    boolean[] drawBorderAxes -> f
    boolean reIniting -> j
    geogebra.common.awt.GEllipse2DDouble circle -> a
    geogebra.common.awt.GLine2D tempLine -> a
    geogebra.common.awt.GGeneralPath gp -> a
    geogebra.common.euclidian.EuclidianStyleBar styleBar -> a
    java.util.ArrayList axesLabelsPositionsY -> f
    java.util.ArrayList axesLabelsPositionsX -> g
    double yLabelMaxWidth -> p
    double xLabelHeights -> q
    int widthTemp -> l
    int heightTemp -> m
    double xminTemp -> r
    double xmaxTemp -> s
    double yminTemp -> t
    double ymaxTemp -> u
    boolean tracing -> k
    geogebra.common.euclidian.Hits tempArrayList -> b
    geogebra.common.euclidian.MyZoomer zoomer -> a
    geogebra.common.euclidian.MyZoomer axesRatioZoomer -> b
    geogebra.common.euclidian.MyZoomer mover -> c
    geogebra.common.euclidian.MyZoomer zoomerRW -> d
    geogebra.common.gui.dialog.options.OptionsEuclidian optionPanel -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> c
    java.lang.Integer[] getLineTypes() -> a
    java.lang.Integer[] getPointStyles() -> b
    geogebra.common.euclidian.EuclidianViewCompanion newEuclidianViewCompanion() -> a
    geogebra.common.euclidian.EuclidianViewCompanion getCompanion() -> b
    void initAxesValues() -> b
    void setAxesColor(geogebra.common.awt.GColor) -> a
    void setStandardCoordSystem(boolean) -> o
    void attachView() -> d
    int getPointCapturingMode() -> b
    void setPointCapturing(int) -> a
    int getMode() -> c
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    boolean clearRectangle(int) -> e
    geogebra.common.kernel.geos.GeoNumeric getXminObject() -> a
    void updateBoundObjects() -> e
    boolean isLockedAxesRatio() -> a
    void setLockedAxesRatio(java.lang.Double) -> a
    void updateBounds(boolean) -> a
    boolean isZoomable() -> b
    void setXminObject(geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoNumeric getXmaxObject() -> b
    void setXmaxObject(geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.geos.GeoNumeric getYminObject() -> c
    void setYminObject(geogebra.common.kernel.arithmetic.NumberValue) -> c
    void setSizeListeners() -> N
    int toScreenCoordX(double) -> a
    int toScreenCoordY(double) -> b
    double toScreenCoordXd(double) -> a
    double toScreenCoordYd(double) -> b
    int toClippedScreenCoordX(double) -> c
    void rememberOrigins() -> g
    int toClippedScreenCoordY(double) -> d
    boolean toScreenCoords(double[]) -> a
    boolean isOnScreen(double[]) -> b
    boolean isOnView(double[]) -> c
    double[] getOnScreenDiff(double[],double[]) -> a
    boolean isSegmentOffView(double[],double[]) -> a
    double toRealWorldCoordX(double) -> c
    double toRealWorldCoordY(double) -> d
    void setCoordSystem(double,double,double,double) -> a
    void translateCoordSystemInPixels(int,int,int,int) -> a
    void setCoordSystemFromMouseMove(int,int,int) -> a
    void pageUpDownTranslateCoordSystem(int) -> b
    void setRealWorldCoordSystem(double,double,double,double) -> b
    void setCoordSystem(double,double,double,double,boolean) -> a
    void updateBackgroundIfNecessary() -> h
    geogebra.common.kernel.geos.GeoNumeric getYmaxObject() -> d
    void setAntialiasing(boolean) -> b
    void setEuclidianViewNo(int) -> c
    int getEuclidianViewNo() -> d
    void setYmaxObject(geogebra.common.kernel.arithmetic.NumberValue) -> d
    void setXscale(double) -> c
    void setYscale(double) -> d
    void setFontSize(int) -> d
    double getxZero() -> c_
    double getyZero() -> d_
    double getXZero() -> c
    double getYZero() -> d
    java.lang.String getXYscaleRatioString() -> a
    double getXscale() -> e
    double getYscale() -> f
    double getInvXscale() -> g
    double getInvYscale() -> h
    int getViewWidth() -> e
    int getViewHeight() -> f
    double getScaleRatio() -> i
    double getXmax() -> j
    double getXmin() -> k
    double getYmax() -> l
    double getYmin() -> m
    int getGridType() -> g
    void setGridType(int) -> e
    void setXYMinMax(double[][]) -> a
    void setRealWorldBounds() -> i
    void setXYMinMaxForSetCoordSystem() -> m
    void zoomAroundCenter(double) -> a
    void setCoordTransformIfNeeded() -> O
    void updateAllDrawables(boolean) -> c
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    void drawListAsComboBox(geogebra.common.kernel.geos.GeoList,boolean) -> a
    void calcPrintingScale() -> n
    void setAxesIntervals(double,int) -> a
    int getFontSize() -> h
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    boolean drawableNeeded(geogebra.common.kernel.geos.GeoElement) -> c
    boolean isPlotPanel() -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    geogebra.common.euclidian.Hits getHits() -> a
    void setHits(geogebra.common.euclidian.event.PointerEventType) -> a
    void setHits(geogebra.common.awt.GPoint,geogebra.common.euclidian.event.PointerEventType) -> a
    void setHits(geogebra.common.awt.GPoint,int) -> a
    geogebra.common.euclidian.MyButton getHitButton(geogebra.common.awt.GPoint,geogebra.common.euclidian.event.PointerEventType) -> a
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint,geogebra.common.euclidian.event.PointerEventType) -> a
    geogebra.common.euclidian.DrawableND getDrawable(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.euclidian.DrawableND getDrawableND(geogebra.common.kernel.geos.GeoElement) -> b
    void addToDrawableLists(geogebra.common.euclidian.Drawable) -> a
    boolean isVisibleInThisView(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.euclidian.DrawableND createDrawable(geogebra.common.kernel.geos.GeoElement) -> c
    geogebra.common.euclidian.DrawableND newDrawable(geogebra.common.kernel.geos.GeoElement) -> d
    void reset() -> j
    void resetMode() -> o
    void setMode(int) -> f
    void repaintView() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    geogebra.common.euclidian.DrawableND getDrawableFor(geogebra.common.kernel.geos.GeoElement) -> e
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void updateDrawableFontSize() -> p
    geogebra.common.awt.GFont getFontPoint() -> a
    void setFontPoint(geogebra.common.awt.GFont) -> a
    geogebra.common.awt.GFont getFontLine() -> b
    geogebra.common.awt.GFont getFontVector() -> c
    geogebra.common.awt.GFont getFontConic() -> d
    geogebra.common.awt.GFont getFontCoords() -> e
    void setFontCoords(geogebra.common.awt.GFont) -> b
    geogebra.common.awt.GFont getFontAxes() -> f
    geogebra.common.awt.GFont getFontAngle() -> g
    java.util.ArrayList getStickyPointList() -> a
    int getBooleanSize() -> i
    void setAllowToolTips(int) -> g
    int getAllowToolTips() -> j
    geogebra.common.kernel.Matrix.CoordMatrix getMatrix() -> a
    geogebra.common.kernel.Matrix.CoordMatrix getInverseMatrix() -> b
    java.lang.String getFromPlaneString() -> b
    java.lang.String getTranslatedFromPlaneString() -> c
    boolean isDefault2D() -> d
    boolean isEuclidianView3D() -> e
    int getViewID() -> a
    void changeLayer(geogebra.common.kernel.geos.GeoElement,int,int) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND getPlaneContaining() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND getDirection() -> a
    geogebra.common.kernel.Matrix.Coords getCoordsForView(geogebra.common.kernel.Matrix.Coords) -> a
    boolean isMoveable(geogebra.common.kernel.geos.GeoElement) -> b
    java.util.ArrayList getFreeInputPoints(geogebra.common.kernel.algos.AlgoElement) -> a
    void replaceBoundObject(geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
    int getRightAngleStyle() -> k
    boolean isAutomaticGridDistance() -> f
    double[] getGridDistances() -> a
    void setGridDistances(double[]) -> a
    int getGridLineStyle() -> l
    void setAutomaticGridDistance(boolean) -> d
    int getAxesLineStyle() -> m
    void setAxesLineStyle(int) -> h
    geogebra.common.awt.GAffineTransform getCoordTransform() -> a
    void updateBackground() -> q
    geogebra.common.awt.GGraphics2D getTempGraphics2D(geogebra.common.awt.GFont) -> a
    geogebra.common.awt.GFont getFont() -> h
    void setHeight(int) -> i
    void setWidth(int) -> j
    void initCursor() -> r
    void setStyleBarMode(int) -> k
    boolean usesSelectionAsInput(int) -> a
    boolean usesSelectionRectangleAsInput(int) -> b
    void setSelectionRectangle(geogebra.common.awt.GRectangle) -> a
    double[] getAxesCross() -> b
    void setAxesCross(double[]) -> b
    void setAxisCross(int,double) -> a
    boolean[] getPositiveAxes() -> a
    void setPositiveAxes(boolean[]) -> a
    void setPositiveAxis(int,boolean) -> a
    boolean[] getDrawBorderAxes() -> b
    void setDrawBorderAxes(boolean[]) -> b
    void setAxesCornerCoordsVisible(boolean) -> e
    double getPrintingScale() -> n
    void setPrintingScale(double) -> b
    java.lang.String[] getAxesLabels(boolean) -> a
    void setAxisLabel(int,java.lang.String) -> a
    double getScale(int) -> a
    void setAutomaticAxesNumberingDistance(boolean,int) -> a
    boolean[] isAutomaticAxesNumberingDistance() -> c
    double[] getAxesNumberingDistances() -> c
    void setAxesNumberingDistance(double,int) -> b
    boolean getGridIsBold() -> g
    boolean[] getShowAxesNumbers() -> d
    void setShowAxisNumbers(int,boolean) -> b
    java.lang.String[] getAxesUnitLabels() -> a
    void setAxesUnitLabels(java.lang.String[]) -> a
    int[] getAxesTickStyles() -> a
    void setAxesTickStyles(int[]) -> a
    void setShowMouseCoords(boolean) -> f
    boolean getAllowShowMouseCoords() -> h
    void setAllowShowMouseCoords(boolean) -> g
    boolean getShowMouseCoords() -> i
    void setShowAxesRatio(boolean) -> h
    geogebra.common.euclidian.Previewable getPreviewDrawable() -> a
    double getGridDistances(int) -> b
    boolean getShowGrid() -> j
    boolean isGridOrAxesShown() -> k
    boolean getShowAxis(int) -> c
    boolean getShowXaxis() -> l
    boolean getShowYaxis() -> m
    geogebra.common.euclidian.Previewable createPreviewLine(java.util.ArrayList) -> a
    geogebra.common.euclidian.Previewable createPreviewPerpendicularBisector(java.util.ArrayList) -> b
    geogebra.common.euclidian.Previewable createPreviewAngleBisector(java.util.ArrayList) -> c
    geogebra.common.euclidian.Previewable createPreviewSegment(java.util.ArrayList) -> d
    geogebra.common.euclidian.Previewable createPreviewRay(java.util.ArrayList) -> e
    geogebra.common.euclidian.Previewable createPreviewVector(java.util.ArrayList) -> f
    geogebra.common.euclidian.Previewable createPreviewConic(int,java.util.ArrayList) -> a
    geogebra.common.euclidian.Previewable createPreviewParabola(java.util.ArrayList,java.util.ArrayList) -> a
    geogebra.common.euclidian.Previewable createPreviewPolygon(java.util.ArrayList) -> g
    geogebra.common.euclidian.Previewable createPreviewAngle(java.util.ArrayList) -> h
    geogebra.common.euclidian.Previewable createPreviewPolyLine(java.util.ArrayList) -> i
    void updatePreviewable() -> s
    void updatePreviewableForProcessMode() -> t
    void mouseEntered() -> u
    void mouseExited() -> v
    boolean hasMouse() -> n
    boolean hasMouse2D() -> o
    geogebra.common.euclidian.Previewable createPreviewParallelLine(java.util.ArrayList,java.util.ArrayList) -> b
    geogebra.common.euclidian.Previewable createPreviewPerpendicularLine(java.util.ArrayList,java.util.ArrayList) -> c
    void setApplication(geogebra.common.main.App) -> a
    geogebra.common.main.App getApplication() -> a
    void updateFonts() -> w
    void updateSize() -> x
    void updateSizeKeepDrawables() -> y
    boolean requestFocusInWindow() -> p
    void drawGeometricObjects(geogebra.common.awt.GGraphics2D) -> a
    void drawObjects(geogebra.common.awt.GGraphics2D) -> b
    void clearBackground(geogebra.common.awt.GGraphics2D) -> c
    void drawBackgroundWithImages(geogebra.common.awt.GGraphics2D,boolean) -> a
    void drawAxesRatio(geogebra.common.awt.GGraphics2D) -> d
    void paintBackground(geogebra.common.awt.GGraphics2D) -> e
    void paint(geogebra.common.awt.GGraphics2D) -> f
    void paintTheBackground(geogebra.common.awt.GGraphics2D) -> g
    void updateBackgroundImage() -> z
    void drawZoomRectangle(geogebra.common.awt.GGraphics2D) -> h
    void drawRect(geogebra.common.awt.GGraphics2D,geogebra.common.awt.GColor,geogebra.common.awt.GBasicStroke,geogebra.common.awt.GRectangle) -> a
    void drawMouseCoords(geogebra.common.awt.GGraphics2D) -> i
    void drawBackgroundWithImages(geogebra.common.awt.GGraphics2D) -> j
    void drawBackground(geogebra.common.awt.GGraphics2D,boolean) -> b
    void drawGrid(geogebra.common.awt.GGraphics2D) -> k
    double getXAxisCrossingPixel() -> t
    double getYAxisCrossingPixel() -> u
    void drawAxes(geogebra.common.awt.GGraphics2D) -> l
    boolean xAxisOnscreen() -> v
    boolean yAxisOnscreen() -> w
    void drawLineAvoidingLabelsH(geogebra.common.awt.GGraphics2D,double,double,double,double,double) -> a
    void drawLineAvoidingLabelsV(geogebra.common.awt.GGraphics2D,double,double,double,double,double) -> b
    void drawString(geogebra.common.awt.GGraphics2D,java.lang.String,double,double) -> a
    void drawResetIcon(geogebra.common.awt.GGraphics2D) -> m
    void drawActionObjects(geogebra.common.awt.GGraphics2D) -> n
    void setDefRenderingHints(geogebra.common.awt.GGraphics2D) -> o
    void setAntialiasing(geogebra.common.awt.GGraphics2D) -> p
    void drawAnimationButtons(geogebra.common.awt.GGraphics2D) -> q
    void setBackground(geogebra.common.awt.GColor) -> b
    void synchronizeMenuBarAndEuclidianStyleBar(geogebra.common.main.settings.EuclidianSettings) -> a
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    boolean showGrid(boolean) -> a
    void setGridIsBold(boolean) -> i
    void setGridColor(geogebra.common.awt.GColor) -> c
    void setGridLineStyle(int) -> l
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    geogebra.common.main.settings.EuclidianSettings getSettings() -> a
    void setHits(geogebra.common.awt.GRectangle) -> b
    void updateCursor(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setIntersectionHits(geogebra.common.awt.GRectangle) -> c
    geogebra.common.awt.GRectangle getSelectionRectangle() -> a
    geogebra.common.euclidian.GeneralPathClipped getBoundingPath() -> a
    void addBackgroundImage(geogebra.common.euclidian.draw.DrawImage) -> a
    void removeBackgroundImage(geogebra.common.euclidian.draw.DrawImage) -> b
    void resetLists() -> A
    geogebra.common.awt.GRectangle getBounds() -> b
    void setPreview(geogebra.common.euclidian.Previewable) -> a
    void setTemporaryCoordSystemForExport() -> B
    geogebra.common.awt.GPoint getMaximumLabelSize(geogebra.common.awt.GGraphics2D) -> a
    void restoreOldCoordSystem() -> C
    void setTemporarySize(int,int) -> a
    boolean setShowAxis(int,boolean,boolean) -> a
    boolean setShowAxes(boolean,boolean) -> a
    void setBoldAxes(boolean) -> j
    boolean isTracing() -> q
    boolean hasBackgroundImages() -> r
    geogebra.common.awt.GGraphics2D getBackgroundGraphics() -> a
    void getXML(java.lang.StringBuilder,boolean) -> a
    void startXML(java.lang.StringBuilder,boolean) -> b
    void endXML(java.lang.StringBuilder) -> a
    void drawPoints(geogebra.common.kernel.geos.GeoImage,double[],double[]) -> a
    void doDrawPoints(geogebra.common.kernel.geos.GeoImage,java.util.List,geogebra.common.awt.GColor,int,int) -> a
    void resetXYMinMaxObjects() -> D
    void setViewShowAllObjects(boolean) -> k
    int getSelectedWidth() -> n
    int getSelectedHeight() -> o
    int getExportWidth() -> p
    int getExportHeight() -> q
    void clickedGeo(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    geogebra.common.euclidian.MyZoomer newZoomer() -> a
    void zoom(double,double,double,int,boolean) -> a
    void zoomAxesRatio(double,boolean) -> a
    void setStandardView(boolean) -> l
    void setAnimatedCoordSystem(double,double,int,boolean) -> a
    void setAnimatedCoordSystem(double,double,double,double,int,boolean) -> a
    void setAnimatedRealWorldCoordSystem(double,double,double,double,int,boolean) -> b
    void mouseMovedOver(geogebra.common.kernel.geos.GeoElement) -> g
    void highlight(geogebra.common.kernel.geos.GeoElement) -> h
    void highlight(java.util.ArrayList) -> a
    void mouseMovedOverList(java.util.ArrayList) -> b
    boolean setAnimationButtonsHighlighted(boolean) -> b
    boolean drawPlayButtonInThisView() -> s
    geogebra.common.awt.GColor getAxesColor() -> a
    geogebra.common.awt.GColor getGridColor() -> b
    void add(geogebra.common.javax.swing.GBox) -> a
    void remove(geogebra.common.javax.swing.GBox) -> b
    void initView(boolean) -> m
    void setShowAxis(boolean) -> n
    void setTransparentCursor() -> E
    geogebra.common.awt.GGraphics2D getGraphicsForPen() -> b
    boolean hasStyleBar() -> t
    boolean isPenMode(int) -> d
    void setOptionPanel(geogebra.common.gui.dialog.options.OptionsEuclidian) -> a
    geogebra.common.awt.GRectangle getDeletionRectangle() -> c
    void setDeletionRectangle(geogebra.common.awt.GRectangle) -> d
    int getBoldAxes(boolean,int) -> a
    boolean areAxesBold() -> u
    double estimateNumberHeight(geogebra.common.awt.GFont) -> a
    double estimateNumberWidth(double,geogebra.common.awt.GFont) -> a
    double estimateTextWidth(java.lang.String,geogebra.common.awt.GFont) -> a
    int getSliderOffsetY() -> r
    double getMinSamplePoints() -> o
    double getMaxBendOfScreen() -> p
    double getMaxBend() -> q
    int getMaxDefinedBisections() -> s
    double getMinPixelDistance() -> r
    int getMaxZeroCount() -> t
    double getMaxPixelDistance() -> s
    int getMaxProblemBisections() -> u
    int getAbsoluteTop() -> v
    int getAbsoluteLeft() -> w
    geogebra.common.euclidian.EuclidianStyleBar getStyleBar() -> a
    geogebra.common.euclidian.EuclidianStyleBar newEuclidianStyleBar() -> b
    long getLastRepaintTime() -> a
    void setLabels() -> x_
    int getDimension() -> x
    void exportPaintPre(geogebra.common.awt.GGraphics2D,double,boolean) -> a
    void exportPaint(geogebra.common.awt.GGraphics2D,double,boolean) -> b
    void centerView(geogebra.common.kernel.kernelND.GeoPointND) -> b
    java.lang.String getDraggedLabels(java.util.ArrayList) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> b
geogebra.common.euclidian.EuclidianViewCompanion -> geogebra.common.c.s:
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.common.euclidian.EuclidianView getView() -> a
    void setXYMinMaxForUpdateSize() -> a
    geogebra.common.euclidian.draw.DrawAngle newDrawAngle(geogebra.common.kernel.geos.GeoAngle) -> a
    boolean isDefault2D() -> a
    boolean isVisibleInThisView(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsForView(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.CoordMatrix getMatrix() -> a
    geogebra.common.kernel.Matrix.CoordMatrix getInverseMatrix() -> b
    java.lang.String getFromPlaneString() -> a
    java.lang.String getTranslatedFromPlaneString() -> b
    geogebra.common.kernel.kernelND.GeoPlaneND getPlaneContaining() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND getDirection() -> a
    boolean goToZPlus(geogebra.common.kernel.Matrix.Coords) -> a
    boolean isMoveable(geogebra.common.kernel.geos.GeoElement) -> b
    java.util.ArrayList getFreeInputPoints(geogebra.common.kernel.algos.AlgoElement) -> a
    void getXMLid(java.lang.StringBuilder) -> a
    void getXMLidNoCheck(java.lang.StringBuilder) -> b
    void getXML(java.lang.StringBuilder,boolean) -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void paint(geogebra.common.awt.GGraphics2D) -> a
    void attachView() -> b
    boolean showGrid(boolean) -> a
    geogebra.common.euclidian.DrawableND newDrawable(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GAffineTransform getTransform(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[]) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsForView(geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.euclidian.EuclidianViewInterfaceCommon -> geogebra.common.c.t:
    void zoom(double,double,double,int,boolean) -> a
    void resetMode() -> o
    void repaint() -> F
    void rememberOrigins() -> g
    geogebra.common.main.App getApplication() -> a
    geogebra.common.euclidian.DrawableND getDrawableFor(geogebra.common.kernel.geos.GeoElement) -> e
    java.lang.String getFromPlaneString() -> b
    java.lang.String getTranslatedFromPlaneString() -> c
    boolean isLockedAxesRatio() -> a
    boolean isZoomable() -> b
    double[] getAxesNumberingDistances() -> c
    geogebra.common.awt.GColor getBackgroundCommon() -> c
    double getInvXscale() -> g
    double getInvYscale() -> h
    int getMode() -> c
    geogebra.common.euclidian.Previewable getPreviewDrawable() -> a
    boolean getShowGrid() -> j
    boolean getShowXaxis() -> l
    boolean getShowYaxis() -> m
    double getXZero() -> c
    double getYZero() -> d
    void setAutomaticAxesNumberingDistance(boolean,int) -> a
    void setAutomaticGridDistance(boolean) -> d
    void setAxesLineStyle(int) -> h
    void setAxesNumberingDistance(double,int) -> b
    void setAxisCross(int,double) -> a
    void setCoordSystem(double,double,double,double) -> a
    void translateCoordSystemInPixels(int,int,int,int) -> a
    void pageUpDownTranslateCoordSystem(int) -> b
    void setDrawBorderAxes(boolean[]) -> b
    void setGridDistances(double[]) -> a
    void setPositiveAxes(boolean[]) -> a
    int toScreenCoordX(double) -> a
    int toScreenCoordY(double) -> b
    boolean hitAnimationButton(int,int) -> a
    void setDefaultCursor() -> G
    void setHitCursor() -> H
    geogebra.common.euclidian.EuclidianStyleBar getStyleBar() -> a
    boolean setShowAxis(int,boolean,boolean) -> a
    void setDragCursor() -> I
    void setToolTipText(java.lang.String) -> a
    void setResizeXAxisCursor() -> J
    void setResizeYAxisCursor() -> K
    void setMoveCursor() -> L
    int getEuclidianViewNo() -> d
    double toScreenCoordXd(double) -> a
    double toScreenCoordYd(double) -> b
    boolean setShowAxes(boolean,boolean) -> a
    void getXML(java.lang.StringBuilder,boolean) -> a
    void setAxesCornerCoordsVisible(boolean) -> e
    boolean showGrid(boolean) -> a
    void clickedGeo(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void mouseMovedOver(geogebra.common.kernel.geos.GeoElement) -> g
    void highlight(geogebra.common.kernel.geos.GeoElement) -> h
    void highlight(java.util.ArrayList) -> a
    void mouseMovedOverList(java.util.ArrayList) -> b
    boolean hasFocus() -> hasFocus
    void setShowAxis(boolean) -> n
    void setStandardView(boolean) -> l
    void requestFocus() -> M
    void setViewShowAllObjects(boolean) -> k
    void zoomAxesRatio(double,boolean) -> a
    geogebra.common.main.settings.EuclidianSettings getSettings() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND getDirection() -> a
geogebra.common.euclidian.EuclidianViewInterfaceSlim -> geogebra.common.c.u:
    boolean isDefault2D() -> d
    boolean isEuclidianView3D() -> e
    java.util.ArrayList getFreeInputPoints(geogebra.common.kernel.algos.AlgoElement) -> a
    boolean isMoveable(geogebra.common.kernel.geos.GeoElement) -> b
    int getWidth() -> y
    int getHeight() -> z
    double toRealWorldCoordX(double) -> c
    double toRealWorldCoordY(double) -> d
    void updateBounds(boolean) -> a
    void replaceBoundObject(geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.euclidian.EuclidianController getEuclidianController() -> a
    double[] getGridDistances() -> a
    double getXmax() -> j
    double getYmax() -> l
    double getXmin() -> k
    double getYmin() -> m
    double getXscale() -> e
    double getYscale() -> f
    geogebra.common.euclidian.DrawableND getDrawableND(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.euclidian.DrawableND newDrawable(geogebra.common.kernel.geos.GeoElement) -> d
    void zoom(double,double,double,int,boolean) -> a
    int getPointCapturingMode() -> b
    void setPointCapturing(int) -> a
    void setSelectionRectangle(geogebra.common.awt.GRectangle) -> a
    void setRealWorldCoordSystem(double,double,double,double) -> b
    void centerView(geogebra.common.kernel.kernelND.GeoPointND) -> b
    int getSliderOffsetY() -> r
    double getMinPixelDistance() -> r
geogebra.common.euclidian.GeneralPathClipped -> geogebra.common.c.v:
    java.util.ArrayList pathPoints -> a
    geogebra.common.awt.GGeneralPath gp -> a
    geogebra.common.euclidian.EuclidianViewInterfaceSlim view -> a
    double largestCoord -> a
    boolean needClosePath -> a
    geogebra.common.awt.GRectangle bounds -> a
    geogebra.common.kernel.MyPoint firstPoint() -> a
    void reset() -> a
    void closePath() -> b
    geogebra.common.awt.GGeneralPath getGeneralPath() -> a
    void addSimpleSegments() -> c
    void addClippedSegments() -> d
    void addClippedLine(geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint,geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GPoint2D getPointCloseToScreen(double,double) -> a
    void addToGeneralPath(geogebra.common.awt.GPoint2D,boolean) -> a
    void moveTo(double,double) -> a
    void lineTo(double,double) -> b
    void addPoint(int,double,double) -> a
    void addPoint(double,double,boolean) -> a
    void updateBounds(geogebra.common.kernel.MyPoint) -> a
    geogebra.common.awt.GPoint2D getCurrentPoint() -> a
    void transform(geogebra.common.awt.GAffineTransform) -> a
    boolean contains(geogebra.common.awt.GRectangle2D) -> a
    boolean contains(double,double) -> a
    boolean contains(double,double,double,double) -> a
    boolean contains(int,int) -> a
    boolean contains(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GRectangle2D getBounds2D() -> a
    geogebra.common.awt.GPathIterator getPathIterator(geogebra.common.awt.GAffineTransform) -> a
    boolean intersects(geogebra.common.awt.GRectangle2D) -> b
    boolean intersects(int,int,int,int) -> a
    boolean intersects(int,int,int) -> a
geogebra.common.euclidian.GetViewId -> geogebra.common.c.w:
    int getViewId() -> a
geogebra.common.euclidian.HatchingHandler -> geogebra.common.c.x:
    geogebra.common.awt.GBufferedImage bufferedImage -> a
    geogebra.common.awt.GBufferedImage subImage -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType -> a
    geogebra.common.awt.GPaint setHatching(geogebra.common.awt.GGraphics2D,geogebra.common.awt.GBasicStroke,geogebra.common.awt.GColor,geogebra.common.awt.GColor,float,double,double,geogebra.common.kernel.geos.GeoElement$FillType,java.lang.String,geogebra.common.main.App) -> a
    geogebra.common.awt.GGraphics2D createImage(geogebra.common.awt.GBasicStroke,geogebra.common.awt.GColor,geogebra.common.awt.GColor,float,int,int) -> a
    void setTexture(geogebra.common.awt.GGraphics2D,geogebra.common.kernel.geos.GeoElement,float) -> a
    void drawBricks(double,int,int,geogebra.common.awt.GGraphics2D) -> a
    void drawDotted(double,geogebra.common.awt.GGraphics2D) -> a
    boolean drawChessboard(double,float,geogebra.common.awt.GGraphics2D) -> a
    void drawHoneycomb(float,geogebra.common.awt.GGraphics2D) -> a
    void drawHatching(double,double,int,int,geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.awt.GBufferedImage getSubImage() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType() -> a
geogebra.common.euclidian.Hits -> geogebra.common.c.y:
    int listCount -> a
    int polyCount -> b
    int imageCount -> c
    int cs2DCount -> d
    boolean hasXAxis -> a
    boolean hasYAxis -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$Test -> a
    void init() -> a
    geogebra.common.euclidian.Hits clone() -> a
    geogebra.common.euclidian.Hits newHits() -> b
    boolean add(geogebra.common.kernel.geos.GeoElement) -> a
    int getImageCount() -> a
    int getListCount() -> b
    boolean hasXAxis() -> a
    boolean hasYAxis() -> b
    void removePolygonsIfSidePresent() -> b
    void removePolygonsIfSideNotPresent() -> c
    void keepOnlyHitsForNewPointMode() -> d
    void removeConicsHittedOnFilling() -> e
    void removePolygonsDependingSidePresent(boolean) -> a
    void removeGeosAfter(geogebra.common.kernel.geos.GeoElement) -> a
    void removeSegmentsFromPolygons() -> f
    void removePolygons() -> g
    void removeAllPolygons() -> h
    void removeAllPlanes() -> i
    void removeAllPolygonsButOne() -> j
    int getPolyCount() -> c
    geogebra.common.euclidian.Hits keepFirsts(geogebra.common.kernel.geos.Test[]) -> a
    void removeAllButImages() -> k
    void removeImages() -> l
    geogebra.common.euclidian.Hits getMoveableHits(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> a
    geogebra.common.euclidian.Hits getPointRotateableHits(geogebra.common.euclidian.EuclidianViewInterfaceSlim,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.euclidian.Hits getSelectableHits() -> c
    geogebra.common.euclidian.Hits getMoveables(geogebra.common.euclidian.EuclidianViewInterfaceSlim,geogebra.common.kernel.geos.Test,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.euclidian.Hits getOtherHits(geogebra.common.kernel.geos.Test,geogebra.common.euclidian.Hits) -> a
    geogebra.common.euclidian.Hits getHits(geogebra.common.kernel.geos.Test,geogebra.common.euclidian.Hits) -> b
    geogebra.common.euclidian.Hits getHits(geogebra.common.kernel.geos.Test,boolean,geogebra.common.euclidian.Hits) -> a
    geogebra.common.euclidian.Hits getRegionHits(geogebra.common.euclidian.Hits) -> a
    geogebra.common.euclidian.Hits getHits(geogebra.common.kernel.geos.Test[],boolean,geogebra.common.euclidian.Hits) -> a
    geogebra.common.kernel.geos.GeoElement getFirstHit(geogebra.common.kernel.geos.Test) -> a
    geogebra.common.euclidian.Hits getTopHits() -> d
    geogebra.common.euclidian.Hits getTopHits(int) -> a
    geogebra.common.euclidian.Hits getHits(int) -> b
    geogebra.common.euclidian.Hits createNewHits() -> e
    boolean containsGeoPoint() -> c
    boolean containsGeoPoint(geogebra.common.euclidian.Hits) -> a
    boolean containsGeoText(geogebra.common.euclidian.Hits) -> b
    java.lang.String toString() -> toString
    boolean intersect(java.util.ArrayList) -> a
    geogebra.common.euclidian.Hits getFiniteVolumeIncludingMetaHits() -> f
    void addFiniteVolume(geogebra.common.euclidian.Hits,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.euclidian.Hits getPolyhedronsIncludingMetaHits() -> g
    geogebra.common.euclidian.Hits getFirstSurfaceBefore(java.util.ArrayList) -> a
    void removePolygonsIfNotOnlyCS2D() -> m
    java.lang.Object clone() -> clone
    boolean add(java.lang.Object) -> add
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$Test() -> a
geogebra.common.euclidian.MyButton -> geogebra.common.c.z:
    geogebra.common.kernel.geos.GeoButton geoButton -> a
    geogebra.common.euclidian.EuclidianView view -> a
    int x -> a
    int y -> b
    boolean selected -> a
    java.lang.String text -> a
    geogebra.common.awt.GFont font -> a
    boolean pressed -> b
    boolean draggedOrContext -> c
    float textHeight -> a
    float textWidth -> b
    float marginTopMultiplier -> c
    float marginBottomMultiplier -> d
    float marginLeftMultiplier -> e
    float marginRightMultiplier -> f
    java.lang.String getCaption() -> b
    void paintComponent(geogebra.common.awt.GGraphics2D) -> a
    void resize(geogebra.common.awt.GGraphics2D,int) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    boolean isSelected() -> b
    int getWidth() -> a
    int getHeight() -> b
    void setBounds(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void setSelected(boolean) -> a
    void setText(java.lang.String) -> a
    java.lang.String getText() -> a
    void setFont(geogebra.common.awt.GFont) -> a
    void setPressed(boolean) -> b
    void setDraggedOrContext(boolean) -> c
    boolean getDraggedOrContext() -> a
    void notifySizeChanged() -> a
    geogebra.common.kernel.geos.GeoElement getButton() -> a
geogebra.common.euclidian.MyZoomer -> geogebra.common.c.A:
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.common.euclidian.MyZoomer$ZoomerMode mode -> a
    double px -> a
    double py -> b
    double factor -> c
    int counter -> a
    int steps -> b
    double oldScale -> d
    double newScale -> e
    double add -> f
    double dx -> g
    double dy -> h
    double x0 -> i
    double x1 -> j
    double y0 -> k
    double y1 -> l
    double xminOld -> m
    double yminOld -> n
    double ymaxOld -> o
    double xmaxOld -> p
    long startTime -> a
    boolean storeUndo -> a
    boolean setStandard -> b
    double standardX -> q
    double standardY -> r
    int[] $SWITCH_TABLE$geogebra$common$euclidian$MyZoomer$ZoomerMode -> a
    void init(double,boolean) -> a
    void init(double,double,double,int,boolean) -> a
    void initRW(double,double,double,double,int,boolean) -> a
    void init(double,double,boolean) -> a
    void step() -> a
    void stopAnimation() -> e
    void setStandardViewAfter(double,double) -> a
    void startAnimation() -> b
    void stopTimer() -> c
    void startTimer() -> d
    boolean hasTimer() -> a
    int[] $SWITCH_TABLE$geogebra$common$euclidian$MyZoomer$ZoomerMode() -> a
geogebra.common.euclidian.MyZoomer$ZoomerMode -> geogebra.common.c.A$a:
    geogebra.common.euclidian.MyZoomer$ZoomerMode ZOOM -> a
    geogebra.common.euclidian.MyZoomer$ZoomerMode ZOOM_RW -> b
    geogebra.common.euclidian.MyZoomer$ZoomerMode AXES -> c
    geogebra.common.euclidian.MyZoomer$ZoomerMode MOVE -> d
    geogebra.common.euclidian.MyZoomer$ZoomerMode[] ENUM$VALUES -> a
    geogebra.common.euclidian.MyZoomer$ZoomerMode[] values() -> values
    geogebra.common.euclidian.MyZoomer$ZoomerMode valueOf(java.lang.String) -> valueOf
geogebra.common.euclidian.Previewable -> geogebra.common.c.B:
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
geogebra.common.euclidian.RemoveNeeded -> geogebra.common.c.C:
    void remove() -> b
geogebra.common.euclidian.TextDispatcher -> geogebra.common.c.D:
    geogebra.common.main.Localization l10n -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.euclidian.EuclidianView view -> a
    java.lang.String removeUnderscores(java.lang.String) -> a
    void setNoPointLoc(geogebra.common.kernel.geos.GeoText,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] getAreaText(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.awt.GPoint) -> a
    java.lang.String descriptionPoints(java.lang.String,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoText createDynamicText(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoElementND) -> a
    geogebra.common.kernel.geos.GeoText createDynamicTextForMouseLoc(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoElementND,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.kernelND.GeoPointND getPointForDynamicText(geogebra.common.kernel.Region,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.kernelND.GeoPointND getPointForDynamicText(geogebra.common.kernel.Path,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.kernelND.GeoPointND getPointForDynamicText(geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoText createDistanceText(geogebra.common.kernel.kernelND.GeoElementND,geogebra.common.kernel.kernelND.GeoElementND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumeric) -> a
    void makeLabelNameVisible(geogebra.common.kernel.kernelND.GeoElementND) -> a
    geogebra.common.kernel.geos.GeoElement[] createCircumferenceText(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] createPerimeterText(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] createSlopeText(geogebra.common.kernel.geos.GeoLine,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoElement createDistanceText(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND MidpointForDistance(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement createDistanceText(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPointND ClosestPoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.Path) -> a
geogebra.common.euclidian.clipping.ClipLine -> geogebra.common.c.a.a:
    geogebra.common.awt.GPoint2D[] getClipped(double,double,double,double,int,int,int,int) -> a
    geogebra.common.awt.GPoint2D[] getClipped(double,double,int,double,double,int,double,double,double,double) -> a
    geogebra.common.awt.GPoint2D intersect(double,double,double,double,double,double,double,double) -> a
geogebra.common.euclidian.clipping.ClipShape -> geogebra.common.c.a.b:
    geogebra.common.euclidian.clipping.DoubleArrayFactory doubleFactory -> a
    geogebra.common.awt.GGeneralPath clipToRect(geogebra.common.awt.GShape,geogebra.common.awt.GAffineTransform,geogebra.common.awt.GRectangle2D) -> a
geogebra.common.euclidian.clipping.ClipShape$CFunction -> geogebra.common.c.a.b$a:
    double a -> a
    double b -> b
    double c -> c
    double d -> d
    double[] t2 -> a
    double[] eqn -> b
    java.lang.String toString() -> toString
    void define(double,double,double,double) -> a
    double evaluate(double) -> a
    double getDerivative(double) -> b
    int evaluateInverse(double,double[],int) -> a
geogebra.common.euclidian.clipping.ClipShape$ClippedPath -> geogebra.common.c.a.b$b:
    geogebra.common.awt.GGeneralPath g -> a
    java.util.Stack uncommittedPoints -> a
    double initialX -> a
    double initialY -> b
    void moveTo(double,double) -> a
    void curveTo(geogebra.common.euclidian.clipping.ClipShape$Function,geogebra.common.euclidian.clipping.ClipShape$Function,double,double) -> a
    void lineTo(double,double) -> b
    void closePath() -> a
    void flush() -> b
geogebra.common.euclidian.clipping.ClipShape$Function -> geogebra.common.c.a.b$c:
    double evaluate(double) -> a
    int evaluateInverse(double,double[],int) -> a
    double getDerivative(double) -> b
geogebra.common.euclidian.clipping.ClipShape$LFunction -> geogebra.common.c.a.b$d:
    double slope -> a
    double intercept -> b
    void define(double,double) -> a
    java.lang.String toString() -> toString
    double evaluate(double) -> a
    int evaluateInverse(double,double[],int) -> a
    double getDerivative(double) -> b
geogebra.common.euclidian.clipping.ClipShape$QFunction -> geogebra.common.c.a.b$e:
    double a -> a
    double b -> b
    double c -> c
    java.lang.String toString() -> toString
    void define(double,double,double) -> a
    double evaluate(double) -> a
    double getDerivative(double) -> b
    int evaluateInverse(double,double[],int) -> a
geogebra.common.euclidian.clipping.DoubleArrayFactory -> geogebra.common.c.a.c:
    double[] double2 -> a
    double[] double6 -> b
    boolean d2free -> a
    boolean d6free -> b
    double[] getArray(int) -> a
    void putArray(double[]) -> a
geogebra.common.euclidian.draw.DrawAngle -> geogebra.common.c.b.a:
    geogebra.common.kernel.geos.GeoAngle angle -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    boolean show90degrees -> d
    geogebra.common.kernel.algos.AlgoAngle algo -> a
    geogebra.common.awt.GArc2D drawArc -> a
    geogebra.common.awt.GGeneralPath polygon -> a
    geogebra.common.awt.GEllipse2DDouble dot90degree -> a
    geogebra.common.awt.GShape shape -> c
    double[] m -> a
    double[] coords -> b
    double[] firstVec -> c
    boolean drawDot -> e
    geogebra.common.kernel.geos.GeoPoint[] previewTempPoints -> a
    geogebra.common.awt.GShape shapeArc1 -> d
    geogebra.common.awt.GShape shapeArc2 -> e
    geogebra.common.awt.GArc2D decoArc -> b
    geogebra.common.awt.GLine2D[] tick -> a
    double[] angleTick -> d
    double MAX_TICK_DISTANCE -> a
    geogebra.common.awt.GGeneralPath square -> b
    java.util.ArrayList prevPoints -> a
    double maxRadius -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle -> a
    void init() -> g
    boolean inView(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInView(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInView(geogebra.common.kernel.Matrix.Coords) -> a
    double getAngleStart(double,double) -> a
    void setNotVisible() -> h
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void updateTick(double,int,int) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void initPreview() -> i
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    void toScreenCoords(double[]) -> a
    void setMaxRadius(double) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle() -> a
geogebra.common.euclidian.draw.DrawBarGraph -> geogebra.common.c.b.b:
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType drawType -> a
    int pointType -> c
    boolean isVisible -> b
    boolean labelVisible -> c
    double[] coords -> a
    geogebra.common.euclidian.GeneralPathClipped[] gp -> a
    geogebra.common.kernel.geos.GeoNumeric sum -> a
    geogebra.common.kernel.algos.AlgoBarChart algo -> a
    java.util.ArrayList pts -> a
    java.util.ArrayList drawPoints -> b
    int[] $SWITCH_TABLE$geogebra$common$euclidian$draw$DrawBarGraph$DrawType -> a
    void init() -> g
    geogebra.common.awt.GRectangle getBounds() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void update() -> a
    void updatePointLists() -> h
    void addPt() -> i
    void setToolTip(int) -> b
    int[] $SWITCH_TABLE$geogebra$common$euclidian$draw$DrawBarGraph$DrawType() -> a
geogebra.common.euclidian.draw.DrawBarGraph$DrawType -> geogebra.common.c.b.b$a:
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType VERTICAL_BAR -> a
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType HORIZONTAL_BAR -> b
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType STEP_GRAPH_CONTINUOUS -> c
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType STEP_GRAPH_JUMP -> d
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType[] ENUM$VALUES -> a
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType[] values() -> values
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType valueOf(java.lang.String) -> valueOf
geogebra.common.euclidian.draw.DrawBoolean -> geogebra.common.c.b.c:
    geogebra.common.kernel.geos.GeoBoolean geoBool -> a
    boolean isVisible -> b
    java.lang.String oldCaption -> b
    geogebra.common.awt.GPoint textSize -> a
    geogebra.common.euclidian.draw.DrawBoolean$CheckBoxIcon checkBoxIcon -> a
    void update() -> a
    void updateLabel() -> g
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawBoolean$CheckBoxIcon -> geogebra.common.c.b.c$a:
    geogebra.common.euclidian.EuclidianView ev -> a
    geogebra.common.awt.GColor highlightBackground -> a
    void paintIcon(boolean,boolean,geogebra.common.awt.GGraphics2D,int,int) -> a
geogebra.common.euclidian.draw.DrawBoxPlot -> geogebra.common.c.b.d:
    boolean isVisible -> b
    boolean labelVisible -> c
    double[] coords -> a
    geogebra.common.euclidian.GeneralPathClipped gp -> a
    geogebra.common.kernel.geos.GeoNumeric sum -> a
    geogebra.common.kernel.algos.AlgoBoxPlot algo -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    double OUTLIER_SIZE -> a
    void init() -> g
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void update() -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.draw.DrawButton -> geogebra.common.c.b.e:
    geogebra.common.kernel.geos.GeoButton geoButton -> a
    boolean isVisible -> b
    java.lang.String oldCaption -> b
    geogebra.common.euclidian.MyButton myButton -> a
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void remove() -> b
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawConic -> geogebra.common.c.b.f:
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    int type -> d
    double[] labelCoords -> a
    boolean firstPoint -> e
    geogebra.common.kernel.geos.GeoPoint point -> a
    geogebra.common.euclidian.draw.DrawPoint drawPoint -> a
    boolean firstLines -> f
    geogebra.common.kernel.geos.GeoLine[] lines -> a
    geogebra.common.euclidian.draw.DrawLine[] drawLines -> a
    boolean firstCircle -> g
    geogebra.common.kernel.geos.GeoVec2D midpoint -> a
    geogebra.common.awt.GArc2D arc -> a
    geogebra.common.euclidian.GeneralPathClipped arcFiller -> a
    geogebra.common.euclidian.GeneralPathClipped gp -> b
    geogebra.common.awt.GRectangularShape circle -> a
    double mx -> d
    double my -> e
    double radius -> f
    double yradius -> g
    double angSt -> h
    double angEnd -> i
    geogebra.common.awt.GAffineTransform transform -> a
    geogebra.common.awt.GShape shape -> c
    boolean firstEllipse -> h
    double[] halfAxes -> b
    geogebra.common.awt.GEllipse2DDouble ellipse -> a
    boolean firstParabola -> i
    double x0 -> a
    double y0 -> b
    double k2 -> j
    geogebra.common.kernel.geos.GeoVec2D vertex -> b
    geogebra.common.awt.GGeneralPath parabola -> a
    double[] parpoints -> c
    boolean firstHyperbola -> d
    double a -> c
    double b -> k
    double tsq -> l
    double step -> m
    double t -> n
    double denom -> o
    double x -> p
    double y -> q
    int index0 -> e
    int index1 -> f
    int n -> g
    int points -> c
    geogebra.common.euclidian.GeneralPathClipped hypLeft -> c
    geogebra.common.euclidian.GeneralPathClipped hypRight -> d
    boolean hypLeftOnScreen -> j
    boolean hypRightOnScreen -> k
    java.util.ArrayList prevPoints -> a
    java.util.ArrayList prevSegments -> b
    java.util.ArrayList prevLines -> c
    java.util.ArrayList prevConics -> d
    geogebra.common.kernel.geos.GeoPoint[] previewTempPoints -> a
    geogebra.common.kernel.geos.GeoLine previewTempLine -> a
    geogebra.common.kernel.geos.GeoNumeric previewTempRadius -> a
    int previewMode -> h
    int neededPrevPoints -> i
    boolean isPreview -> l
    boolean ignoreSingularities -> m
    geogebra.common.kernel.Matrix.Coords[] ev -> a
    geogebra.common.awt.GArea getShape() -> a
    void initConic(geogebra.common.kernel.kernelND.GeoConicND) -> a
    void update() -> a
    boolean checkCircleEllipseParabolaOnScreen(geogebra.common.awt.GRectangle) -> c
    boolean checkHyperbolaOnScreen(geogebra.common.awt.GRectangle) -> d
    void updateSinglePoint() -> v
    void updateDoubleLine() -> g
    void updateLines() -> h
    boolean negativeColored() -> k
    void updateCircle() -> i
    void updateEllipse() -> j
    void updateHyperbola() -> k
    void updateHyperbolaLabelCoords() -> l
    void updateHyperbolaResetPaths() -> m
    void updateHyperbolaX0() -> n
    void updateHyperbolaAddPoint(int,double,double) -> a
    void updateHyperboalSetTransformToPaths() -> o
    void updateHyperbolaClosePaths() -> p
    void updateHyperbolaSetShape() -> q
    void updateParabola() -> r
    void updateParabolaLabelCoords() -> s
    void updateParabolaX0Y0() -> t
    void updateParabolaPath() -> u
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawLines(geogebra.common.awt.GGraphics2D) -> d
    void drawHyperbola(geogebra.common.awt.GGraphics2D) -> e
    geogebra.common.awt.GRectangle getBounds() -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    boolean checkIsOnFilling() -> j
    boolean hit(int,int,int) -> a
    boolean hitLines(int,int,int) -> b
    boolean hitHyperbola(int,int,int) -> c
    boolean hitEllipse(int,int,int) -> d
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void initPreview() -> w
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> a
    void setIgnoreSingularities(boolean) -> d
geogebra.common.euclidian.draw.DrawConicPart -> geogebra.common.c.b.g:
    geogebra.common.kernel.kernelND.GeoConicPartND conicPart -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    geogebra.common.awt.GArc2D arc -> a
    geogebra.common.awt.GShape shape -> c
    double[] halfAxes -> a
    int closure -> c
    int draw_type -> d
    geogebra.common.awt.GAffineTransform transform -> a
    geogebra.common.euclidian.draw.DrawRay drawRay1 -> a
    geogebra.common.euclidian.draw.DrawRay drawRay2 -> b
    geogebra.common.euclidian.draw.DrawSegment drawSegment -> a
    double[] coords -> b
    java.util.ArrayList prevPoints -> a
    geogebra.common.kernel.geos.GeoPoint[] previewTempPoints -> a
    int previewMode -> e
    int neededPrevPoints -> f
    boolean isPreview -> d
    geogebra.common.kernel.Matrix.Coords[] ev -> a
    void initConicPart(geogebra.common.kernel.kernelND.GeoConicPartND) -> a
    void update() -> a
    void updateEllipse() -> g
    void updateParallelLines() -> h
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void initPreview() -> i
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawConicSection -> geogebra.common.c.b.h:
    geogebra.common.awt.GArc2D arc -> a
    geogebra.common.awt.GLine2D line -> a
    geogebra.common.awt.GLine2D[] lines -> a
    geogebra.common.euclidian.GeneralPathClipped hyp -> a
    boolean onlyEdge -> e
    geogebra.common.kernel.Matrix.Coords[] endPoints -> b
    boolean drawLeft -> f
    double getStart(int) -> a
    double getExtent(int) -> b
    double getEnd(int) -> c
    geogebra.common.kernel.Matrix.Coords ellipsePoint(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    void updateEllipseEdge() -> v
    void updateCircle() -> i
    void updateHyperbola() -> k
    void updateParabola() -> r
    boolean checkIsOnFilling() -> j
    boolean hitEllipse(int,int,int) -> d
    void updateEllipse() -> j
    void updateLines() -> h
    void updateDoubleLine() -> g
    void drawLines(geogebra.common.awt.GGraphics2D) -> d
    boolean hitLines(int,int,int) -> b
    void updateParabolaX0Y0() -> t
    void updateParabolaPath() -> u
    void updateParabolaLabelCoords() -> s
    void updateHyperbolaResetPaths() -> m
    void updateHyperbolaX0() -> n
    void updateHyperbolaAddPoint(int,double,double) -> a
    void updateHyperboalSetTransformToPaths() -> o
    void updateHyperbolaClosePaths() -> p
    void updateHyperbolaSetShape() -> q
    void drawHyperbola(geogebra.common.awt.GGraphics2D) -> e
    void updateHyperbolaLabelCoords() -> l
    boolean checkHyperbolaOnScreen(geogebra.common.awt.GRectangle) -> d
    boolean checkCircleEllipseParabolaOnScreen(geogebra.common.awt.GRectangle) -> c
    boolean hitHyperbola(int,int,int) -> c
geogebra.common.euclidian.draw.DrawImage -> geogebra.common.c.b.i:
    geogebra.common.kernel.geos.GeoImage geoImage -> a
    boolean isVisible -> b
    geogebra.common.awt.MyImage image -> a
    boolean absoluteLocation -> c
    geogebra.common.awt.GAlphaComposite alphaComp -> a
    float alpha -> a
    boolean isInBackground -> d
    geogebra.common.awt.GAffineTransform at -> a
    geogebra.common.awt.GAffineTransform atInverse -> b
    geogebra.common.awt.GAffineTransform tempAT -> c
    boolean needsInterpolationRenderingHint -> e
    int screenX -> c
    int screenY -> d
    geogebra.common.awt.GRectangle boundingBox -> b
    geogebra.common.awt.GGeneralPath highlighting -> a
    double[] hitCoords -> a
    void update() -> a
    boolean checkInBackground() -> j
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawHighlighting(geogebra.common.awt.GAffineTransform,geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawImplicitPoly -> geogebra.common.c.b.j:
    geogebra.common.kernel.implicit.GeoImplicitPoly implicitPoly -> a
    geogebra.common.awt.GArea getShape() -> a
    boolean hit(int,int,int) -> a
geogebra.common.euclidian.draw.DrawInequality -> geogebra.common.c.b.k:
    boolean isVisible -> c
    boolean labelVisible -> b
    geogebra.common.euclidian.Drawable drawable -> a
    geogebra.common.plugin.Operation operation -> a
    geogebra.common.euclidian.draw.DrawInequality left -> a
    geogebra.common.euclidian.draw.DrawInequality right -> b
    geogebra.common.kernel.arithmetic.Inequality ineq -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar function -> a
    geogebra.common.euclidian.GeneralPathClipped[] gpAxis -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType -> a
    void update() -> a
    void updateRecursive(geogebra.common.kernel.arithmetic.IneqTree) -> a
    void createDrawable() -> g
    void updateShape() -> h
    void updateTrees(geogebra.common.kernel.arithmetic.IneqTree) -> b
    boolean matchBorder(geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.Drawable) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean hit2(int,int) -> b
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType() -> a
geogebra.common.euclidian.draw.DrawInequality1Var -> geogebra.common.c.b.l:
    geogebra.common.kernel.arithmetic.Inequality ineq -> a
    geogebra.common.euclidian.GeneralPathClipped[] gp -> a
    geogebra.common.awt.GEllipse2DDouble[] circle -> a
    boolean varIsY -> b
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void update() -> a
geogebra.common.euclidian.draw.DrawIntegral -> geogebra.common.c.b.m:
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.euclidian.plot.GeneralPathClippedForCurvePlotter gp -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    boolean isCasObject -> d
    void init() -> g
    void initFromCasObject() -> h
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawIntegralFunctions -> geogebra.common.c.b.n:
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.euclidian.plot.GeneralPathClippedForCurvePlotter gp -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    boolean isCasObject -> d
    void init() -> g
    void initFromCasObject() -> h
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawLine -> geogebra.common.c.b.o:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.awt.GLine2D line -> a
    double y1 -> a
    double y2 -> b
    double x1 -> c
    double x2 -> d
    double k -> e
    double d -> f
    double gx -> g
    double gy -> h
    double gz -> i
    int labelPos -> c
    int p1Pos -> d
    int p2Pos -> e
    int x -> f
    int y -> g
    boolean isVisible -> b
    boolean labelVisible -> c
    java.util.ArrayList points -> a
    java.util.ArrayList lines -> b
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    geogebra.common.kernel.kernelND.GeoPointND previewPoint2 -> b
    boolean[] attr1 -> a
    boolean[] attr2 -> b
    geogebra.common.euclidian.draw.DrawLine$PreviewType previewMode -> a
    geogebra.common.awt.GPoint2D endPoint -> a
    int[] $SWITCH_TABLE$geogebra$common$euclidian$draw$DrawLine$PreviewType -> a
    void update() -> a
    void update(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    void setClippedLine() -> g
    void clipTopBottom() -> h
    void clipLeftRight() -> i
    void setLabelPosition() -> j
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GArea getShape() -> a
    geogebra.common.awt.GArea getShape(boolean) -> a
    int[] $SWITCH_TABLE$geogebra$common$euclidian$draw$DrawLine$PreviewType() -> a
geogebra.common.euclidian.draw.DrawLine$PreviewType -> geogebra.common.c.b.o$a:
    geogebra.common.euclidian.draw.DrawLine$PreviewType NONE -> a
    geogebra.common.euclidian.draw.DrawLine$PreviewType LINE -> b
    geogebra.common.euclidian.draw.DrawLine$PreviewType PARALLEL -> c
    geogebra.common.euclidian.draw.DrawLine$PreviewType PERPENDICULAR -> d
    geogebra.common.euclidian.draw.DrawLine$PreviewType PERPENDICULAR_BISECTOR -> e
    geogebra.common.euclidian.draw.DrawLine$PreviewType ANGLE_BISECTOR -> f
    geogebra.common.euclidian.draw.DrawLine$PreviewType[] ENUM$VALUES -> a
    geogebra.common.euclidian.draw.DrawLine$PreviewType[] values() -> values
    geogebra.common.euclidian.draw.DrawLine$PreviewType valueOf(java.lang.String) -> valueOf
geogebra.common.euclidian.draw.DrawList -> geogebra.common.c.b.p:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.euclidian.draw.DrawListArray drawables -> a
    boolean isVisible -> b
    java.lang.String oldCaption -> b
    geogebra.common.javax.swing.AbstractJComboBox comboBox -> a
    geogebra.common.javax.swing.GLabel label -> a
    geogebra.common.javax.swing.GBox box -> a
    void reset() -> h
    void update() -> a
    void remove() -> b
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.awt.GRectangle getBounds() -> a
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void resetDrawType() -> g
geogebra.common.euclidian.draw.DrawList$ActionListener -> geogebra.common.c.b.p$a:
    geogebra.common.euclidian.draw.DrawList this$0 -> a
    void actionPerformed(geogebra.common.euclidian.event.ActionEvent) -> a
geogebra.common.euclidian.draw.DrawListArray -> geogebra.common.c.b.q:
    geogebra.common.euclidian.EuclidianViewInterfaceSlim view -> a
    boolean addToDrawableList(geogebra.common.kernel.geos.GeoElement,int,int,geogebra.common.euclidian.DrawableND) -> a
    geogebra.common.euclidian.DrawableND getDrawable(geogebra.common.euclidian.DrawableND,geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.DrawableND) -> a
    void update(geogebra.common.euclidian.DrawableND) -> a
    geogebra.common.euclidian.DrawableND getDrawable(geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.DrawableND) -> a
    geogebra.common.euclidian.DrawableND createDrawableND(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawLocus -> geogebra.common.c.b.r:
    geogebra.common.kernel.geos.GeoLocusND locus -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    geogebra.common.euclidian.plot.GeneralPathClippedForCurvePlotter gp -> a
    double[] lastPointCoords -> a
    void update() -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void buildGeneralPath(java.util.ArrayList) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.draw.DrawNyquist -> geogebra.common.c.b.s:
    geogebra.common.kernel.geos.GeoTransferFunction gcf -> a
    boolean isVisible -> b
    geogebra.common.euclidian.GeneralPathClipped gpP -> a
    java.util.List coordsList -> a
    geogebra.common.kernel.Matrix.Coords p -> a
    double yP -> a
    double xPN -> b
    geogebra.common.euclidian.GeneralPathClipped gpN -> b
    double yN -> c
    double ANGLE_L -> d
    double ANGLE_R -> e
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawArrow(geogebra.common.awt.GGraphics2D) -> d
    void fill(geogebra.common.awt.GGraphics2D,double,double,double) -> a
    double getAngle(double,double,double,double) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.euclidian.draw.DrawParametricCurve -> geogebra.common.c.b.t:
    geogebra.common.kernel.kernelND.CurveEvaluable curve -> a
    geogebra.common.euclidian.plot.GeneralPathClippedForCurvePlotter gp -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    boolean fillCurve -> d
    java.lang.StringBuilder labelSB -> a
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    boolean filling(geogebra.common.kernel.kernelND.CurveEvaluable) -> a
geogebra.common.euclidian.draw.DrawParametricInequality -> geogebra.common.c.b.u:
    geogebra.common.kernel.arithmetic.Inequality paramIneq -> a
    geogebra.common.euclidian.plot.GeneralPathClippedForCurvePlotter gp -> a
    geogebra.common.awt.GArea getShape() -> a
    geogebra.common.kernel.geos.GeoElement getBorder() -> b
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void update() -> a
    boolean isXparametric() -> j
geogebra.common.euclidian.draw.DrawPoint -> geogebra.common.c.b.v:
    int HIGHLIGHT_OFFSET -> c
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    int diameter -> d
    int hightlightDiameter -> e
    int pointSize -> f
    boolean isVisible -> b
    boolean labelVisible -> c
    geogebra.common.awt.GEllipse2DDouble circle -> a
    geogebra.common.awt.GEllipse2DDouble circleHighlight -> b
    geogebra.common.awt.GLine2D line1 -> a
    geogebra.common.awt.GLine2D line2 -> b
    geogebra.common.awt.GLine2D line3 -> c
    geogebra.common.awt.GLine2D line4 -> d
    geogebra.common.awt.GGeneralPath gp -> a
    geogebra.common.awt.GBasicStroke borderStroke -> d
    geogebra.common.awt.GBasicStroke[] fillStrokes -> a
    geogebra.common.awt.GBasicStroke[] emptyStrokes -> b
    boolean isPreview -> d
    double[] coords -> a
    double[] coords1 -> b
    geogebra.common.euclidian.Drawable drawable -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    int getSelectionThreshold(int) -> a
    void update() -> a
    void update(double[]) -> a
    void updateDiameter() -> g
    void drawClippedSection(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GGraphics2D) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GBasicStroke getEmptyStroke(int) -> a
    geogebra.common.awt.GBasicStroke getFillStroke(int) -> b
    void setPointStyle(int) -> b
    geogebra.common.awt.GArea getDot() -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.euclidian.draw.DrawPointPlot -> geogebra.common.c.b.w:
    geogebra.common.euclidian.draw.DrawPointPlot$DrawType drawType -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    double[] coords -> a
    geogebra.common.kernel.algos.AlgoElement algo -> a
    java.util.ArrayList drawPoints -> a
    int pointStyle -> c
    int pointSize -> d
    int oldPointSize -> e
    int oldPointStyle -> f
    geogebra.common.awt.GColor oldColor -> a
    geogebra.common.awt.GColor pointColor -> b
    double scaleFactor -> a
    geogebra.common.kernel.geos.GeoList pointList -> a
    void init() -> g
    geogebra.common.awt.GRectangle getBounds() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void update() -> a
    void updatePointLists() -> h
    void setDotHeight(geogebra.common.kernel.geos.GeoPoint,int) -> a
    void doDotDensity() -> i
    void setToolTipForPoint(int) -> b
    double getDotPlotX(int) -> a
geogebra.common.euclidian.draw.DrawPointPlot$DrawType -> geogebra.common.c.b.w$a:
    geogebra.common.euclidian.draw.DrawPointPlot$DrawType DOT_PLOT -> a
    geogebra.common.euclidian.draw.DrawPointPlot$DrawType POINT_PLOT -> b
    geogebra.common.euclidian.draw.DrawPointPlot$DrawType[] ENUM$VALUES -> a
    geogebra.common.euclidian.draw.DrawPointPlot$DrawType[] values() -> values
    geogebra.common.euclidian.draw.DrawPointPlot$DrawType valueOf(java.lang.String) -> valueOf
geogebra.common.euclidian.draw.DrawPolyLine -> geogebra.common.c.b.x:
    geogebra.common.kernel.geos.GeoPolyLine poly -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    geogebra.common.euclidian.GeneralPathClipped gp -> a
    double[] coords -> a
    java.util.ArrayList points -> a
    geogebra.common.awt.GPoint2D endPoint -> a
    void update() -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void addPointsToPath(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.draw.DrawPolygon -> geogebra.common.c.b.y:
    geogebra.common.kernel.geos.GeoPolygon poly -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    geogebra.common.euclidian.GeneralPathClipped gp -> a
    double[] coords -> a
    java.util.ArrayList points -> a
    geogebra.common.awt.GPoint2D endPoint -> a
    void update() -> a
    geogebra.common.kernel.Matrix.Coords getCoords(int) -> a
    boolean addPointsToPath(int) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GArea getShape() -> a
geogebra.common.euclidian.draw.DrawRay -> geogebra.common.c.b.z:
    geogebra.common.kernel.kernelND.GeoLineND ray -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    java.util.ArrayList points -> a
    geogebra.common.awt.GLine2D line -> a
    double[] a -> a
    double[] v -> b
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> a
    geogebra.common.awt.GPoint2D endPoint -> a
    void update() -> a
    void update(boolean) -> d
    void update(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,boolean) -> a
    void setClippedLine() -> h
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void setStroke(geogebra.common.awt.GBasicStroke) -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    void setIsVisible() -> g
geogebra.common.euclidian.draw.DrawSegment -> geogebra.common.c.b.A:
    geogebra.common.kernel.kernelND.GeoLineND s -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    java.util.ArrayList points -> a
    geogebra.common.awt.GLine2D line -> a
    double[] coordsA -> a
    double[] coordsB -> b
    geogebra.common.awt.GLine2D[] decoTicks -> a
    geogebra.common.awt.GPoint2D endPoint -> a
    void update() -> a
    void update(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void setIsVisible() -> g
geogebra.common.euclidian.draw.DrawSlider -> geogebra.common.c.b.B:
    geogebra.common.kernel.geos.GeoNumeric number -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    double[] coordsRW -> a
    double[] coordsScreen -> b
    int HIGHLIGHT_OFFSET -> c
    int diameter -> d
    int hightlightDiameter -> e
    int pointSize -> f
    geogebra.common.awt.GEllipse2DDouble circle -> a
    geogebra.common.awt.GEllipse2DDouble circleOuter -> b
    geogebra.common.awt.GEllipse2DDouble circleHighlight -> c
    geogebra.common.awt.GBasicStroke borderStroke -> d
    double[] coords -> c
    geogebra.common.awt.GLine2D line -> a
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean hitPoint(int,int,int) -> b
    boolean hitLabel(int,int) -> a
    boolean hitSlider(int,int,int) -> c
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    void updatePoint(double,double) -> b
    void setPointSize(int) -> b
geogebra.common.euclidian.draw.DrawSlope -> geogebra.common.c.b.C:
    geogebra.common.kernel.geos.GeoNumeric slope -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    int xLabelHor -> c
    int yLabelHor -> d
    java.lang.String horLabel -> b
    double[] coords -> a
    geogebra.common.euclidian.GeneralPathClipped gp -> a
    geogebra.common.kernel.Kernel kernel -> a
    void init() -> g
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.draw.DrawText -> geogebra.common.c.b.D:
    geogebra.common.awt.GColor HIGHLIGHT_COLOR -> a
    geogebra.common.kernel.geos.GeoText text -> a
    boolean isVisible -> b
    boolean isLaTeX -> c
    int fontSize -> c
    int fontStyle -> d
    boolean serifFont -> d
    geogebra.common.awt.GFont textFont -> a
    geogebra.common.kernel.kernelND.GeoPointND loc -> a
    int oldXpos -> e
    int oldYpos -> f
    boolean needsBoundingBoxOld -> e
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    boolean doUpdateFontSize() -> j
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.draw.DrawTextField -> geogebra.common.c.b.E:
    geogebra.common.kernel.geos.GeoTextField geoTextField -> a
    boolean isVisible -> b
    java.lang.String oldCaption -> b
    geogebra.common.gui.inputfield.AutoCompleteTextField textField -> a
    geogebra.common.javax.swing.GLabel label -> a
    geogebra.common.euclidian.draw.DrawTextField$InputFieldListener ifListener -> a
    geogebra.common.euclidian.event.KeyHandler ifKeyListener -> a
    geogebra.common.javax.swing.GBox box -> a
    int oldLength -> c
    geogebra.common.kernel.geos.GeoElement getGeo() -> b
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void remove() -> b
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    boolean hitLabel(int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void setFocus(java.lang.String) -> a
geogebra.common.euclidian.draw.DrawTextField$InputFieldKeyListener -> geogebra.common.c.b.E$a:
    geogebra.common.euclidian.draw.DrawTextField this$0 -> a
    void keyReleased(geogebra.common.euclidian.event.KeyEvent) -> a
geogebra.common.euclidian.draw.DrawTextField$InputFieldListener -> geogebra.common.c.b.E$b:
    java.lang.String initialText -> a
    geogebra.common.euclidian.draw.DrawTextField this$0 -> a
    void focusGained(geogebra.common.euclidian.event.FocusEvent) -> a
    void focusLost(geogebra.common.euclidian.event.FocusEvent) -> b
geogebra.common.euclidian.draw.DrawTurtle -> geogebra.common.c.b.F:
    geogebra.common.kernel.geos.GeoTurtle turtle -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    java.util.ArrayList pathList -> a
    geogebra.common.awt.GRectangle boundRect -> b
    double turnAngle -> a
    geogebra.common.awt.GRectangle turtleImageBounds -> c
    double imageSize -> b
    double[] currentCoords -> a
    geogebra.common.awt.GAffineTransform at -> a
    geogebra.common.awt.GEllipse2DDouble ellipse -> a
    geogebra.common.awt.GBasicStroke stroke1 -> d
    geogebra.common.awt.GBasicStroke stroke2 -> e
    geogebra.common.awt.GGeneralPath gPath -> a
    geogebra.common.awt.GShape legs -> c
    geogebra.common.awt.GShape head -> d
    geogebra.common.awt.GShape body -> e
    geogebra.common.awt.GShape dot -> f
    void update() -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void drawTurtleShape(geogebra.common.awt.GGraphics2D) -> d
    void updateTurtleShape() -> g
geogebra.common.euclidian.draw.DrawTurtle$DrawState -> geogebra.common.c.b.F$a:
    boolean penDown -> a
    geogebra.common.awt.GColor penColor -> a
    int penThickness -> a
    int nlines -> b
    double turnAngle1 -> a
    geogebra.common.euclidian.GeneralPathClipped currentPath -> a
    double[] coords -> a
    geogebra.common.euclidian.draw.DrawTurtle this$0 -> a
    void setPen(boolean) -> a
    void move(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void partialMove(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void turn(double) -> a
    void partialTurn(double,double) -> a
    void finishPartialPath() -> a
geogebra.common.euclidian.draw.DrawTurtle$PartialPath -> geogebra.common.c.b.F$b:
    geogebra.common.awt.GColor color -> a
    int thickness -> a
    geogebra.common.euclidian.GeneralPathClipped path1 -> a
    geogebra.common.awt.GBasicStroke stroke -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
geogebra.common.euclidian.draw.DrawUpperLowerSum -> geogebra.common.c.b.G:
    geogebra.common.kernel.geos.GeoNumeric sum -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    boolean isVisible -> b
    boolean labelVisible -> c
    geogebra.common.kernel.algos.AlgoFunctionAreaSums algo -> a
    geogebra.common.euclidian.GeneralPathClipped gp -> a
    double[] coords -> a
    boolean trapeziums -> d
    boolean histogram -> e
    boolean barchartFreqs -> f
    boolean barchartFreqsWidth -> g
    void init() -> g
    void update() -> a
    void updateBarChart() -> h
    void draw(geogebra.common.awt.GGraphics2D) -> a
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.draw.DrawVector -> geogebra.common.c.b.H:
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    boolean isVisible -> b
    boolean labelVisible -> c
    boolean traceDrawingNeeded -> d
    geogebra.common.awt.GLine2D line -> a
    double[] coordsA -> a
    double[] coordsB -> b
    double[] coordsV -> c
    geogebra.common.awt.GGeneralPath gp -> a
    boolean arrowheadVisible -> e
    boolean lineVisible -> f
    java.util.ArrayList points -> a
    geogebra.common.awt.GPoint2D endPoint -> a
    void update() -> a
    void setArrow(float) -> a
    void draw(geogebra.common.awt.GGraphics2D) -> a
    void drawTrace(geogebra.common.awt.GGraphics2D) -> c
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void disposePreview() -> f_
    boolean hit(int,int,int) -> a
    boolean isInside(geogebra.common.awt.GRectangle) -> a
    boolean intersectsRectangle(geogebra.common.awt.GRectangle) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GRectangle getBounds() -> a
geogebra.common.euclidian.event.AbstractEvent -> geogebra.common.c.c.a:
    geogebra.common.awt.GPoint getPoint() -> a
    boolean isAltDown() -> a
    boolean isShiftDown() -> b
    void release() -> a
    int getX() -> a
    int getY() -> b
    boolean isRightClick() -> c
    boolean isControlDown() -> d
    boolean isMetaDown() -> e
    boolean isMiddleClick() -> f
    boolean isPopupTrigger() -> g
    geogebra.common.euclidian.event.PointerEventType getType() -> a
geogebra.common.euclidian.event.ActionEvent -> geogebra.common.c.c.b:
geogebra.common.euclidian.event.ActionListener -> geogebra.common.c.c.c:
    geogebra.common.euclidian.event.ActionListenerI listenerClass -> a
    void wrapActionPerformed(geogebra.common.euclidian.event.ActionEvent) -> b
    void setListenerClass(geogebra.common.euclidian.event.ActionListenerI) -> a
geogebra.common.euclidian.event.ActionListenerI -> geogebra.common.c.c.d:
    void actionPerformed(geogebra.common.euclidian.event.ActionEvent) -> a
geogebra.common.euclidian.event.FocusEvent -> geogebra.common.c.c.e:
geogebra.common.euclidian.event.FocusListener -> geogebra.common.c.c.f:
    java.lang.Object listenerClass -> a
    void wrapFocusGained(geogebra.common.euclidian.event.FocusEvent) -> c
    void wrapFocusLost(geogebra.common.euclidian.event.FocusEvent) -> d
    void setListenerClass(java.lang.Object) -> a
geogebra.common.euclidian.event.KeyEvent -> geogebra.common.c.c.g:
    boolean isEnterKey() -> a
    boolean isCtrlDown() -> b
    boolean isAltDown() -> c
geogebra.common.euclidian.event.KeyHandler -> geogebra.common.c.c.h:
    void keyReleased(geogebra.common.euclidian.event.KeyEvent) -> a
geogebra.common.euclidian.event.PointerEventType -> geogebra.common.c.c.i:
    geogebra.common.euclidian.event.PointerEventType MOUSE -> a
    geogebra.common.euclidian.event.PointerEventType TOUCH -> b
    geogebra.common.euclidian.event.PointerEventType[] ENUM$VALUES -> a
    geogebra.common.euclidian.event.PointerEventType[] values() -> values
    geogebra.common.euclidian.event.PointerEventType valueOf(java.lang.String) -> valueOf
geogebra.common.euclidian.modes.ModeDelete -> geogebra.common.c.d.a:
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.euclidian.EuclidianController ec -> a
    boolean objDeleteMode -> a
    boolean penDeleteMode -> b
    geogebra.common.awt.GRectangle rect -> a
    void handleMouseDraggedForDelete(geogebra.common.euclidian.event.AbstractEvent,int,boolean) -> a
    void updatePenDeleteMode(geogebra.common.euclidian.Hits) -> a
    void mousePressed(geogebra.common.euclidian.event.PointerEventType) -> a
    boolean process(geogebra.common.euclidian.Hits,boolean) -> a
geogebra.common.euclidian.plot.CurvePlotter -> geogebra.common.c.e.a:
    int countPoints -> a
    long countEvaluations -> a
    int plotIntervals -> b
    geogebra.common.awt.GPoint plotCurve(geogebra.common.kernel.kernelND.CurveEvaluable,double,double,geogebra.common.euclidian.EuclidianView,geogebra.common.euclidian.plot.PathPlotter,boolean,geogebra.common.euclidian.plot.CurvePlotter$Gap) -> a
    geogebra.common.awt.GPoint plotInterval(geogebra.common.kernel.kernelND.CurveEvaluable,double,double,int,double,geogebra.common.euclidian.EuclidianView,geogebra.common.euclidian.plot.PathPlotter,boolean,geogebra.common.euclidian.plot.CurvePlotter$Gap) -> a
    boolean isUndefined(double) -> a
    boolean isUndefined(double[]) -> a
    geogebra.common.awt.GPoint plotProblemInterval(geogebra.common.kernel.kernelND.CurveEvaluable,double,double,int,double,geogebra.common.euclidian.EuclidianView,geogebra.common.euclidian.plot.PathPlotter,boolean,geogebra.common.euclidian.plot.CurvePlotter$Gap,geogebra.common.awt.GPoint) -> a
    boolean isDefinedAround(geogebra.common.kernel.kernelND.CurveEvaluable,double,double) -> a
    boolean isDistanceOK(double[],geogebra.common.euclidian.EuclidianView) -> a
    boolean isAngleOK(double[],double[],double) -> a
    boolean isContinuous(geogebra.common.kernel.kernelND.CurveEvaluable,double,double,int) -> a
    boolean getDefinedInterval(geogebra.common.kernel.kernelND.CurveEvaluable,double,double,double[]) -> a
    double[] draw(geogebra.common.euclidian.plot.PathPlotter,java.util.ArrayList) -> a
geogebra.common.euclidian.plot.CurvePlotter$Gap -> geogebra.common.c.e.a$a:
    geogebra.common.euclidian.plot.CurvePlotter$Gap LINE_TO -> a
    geogebra.common.euclidian.plot.CurvePlotter$Gap MOVE_TO -> b
    geogebra.common.euclidian.plot.CurvePlotter$Gap RESET_XMIN -> c
    geogebra.common.euclidian.plot.CurvePlotter$Gap RESET_YMIN -> d
    geogebra.common.euclidian.plot.CurvePlotter$Gap RESET_XMAX -> e
    geogebra.common.euclidian.plot.CurvePlotter$Gap RESET_YMAX -> f
    geogebra.common.euclidian.plot.CurvePlotter$Gap CORNER -> g
    geogebra.common.euclidian.plot.CurvePlotter$Gap[] ENUM$VALUES -> a
    geogebra.common.euclidian.plot.CurvePlotter$Gap[] values() -> values
    geogebra.common.euclidian.plot.CurvePlotter$Gap valueOf(java.lang.String) -> valueOf
geogebra.common.euclidian.plot.GeneralPathClippedForCurvePlotter -> geogebra.common.c.e.b:
    void lineTo(double[]) -> a
    void moveTo(double[]) -> b
    void drawTo(double[],boolean) -> a
    void drawTo(double,double,boolean) -> a
    void corner() -> c
    void corner(double[]) -> c
    void corner(double,double) -> c
    void firstPoint(double[],geogebra.common.euclidian.plot.CurvePlotter$Gap) -> a
    double[] newDoubleArray() -> a
    boolean copyCoords(geogebra.common.kernel.MyPoint,double[]) -> a
geogebra.common.euclidian.plot.PathPlotter -> geogebra.common.c.e.c:
    void lineTo(double[]) -> a
    void moveTo(double[]) -> b
    void corner() -> c
    void corner(double[]) -> c
    void firstPoint(double[],geogebra.common.euclidian.plot.CurvePlotter$Gap) -> a
    double[] newDoubleArray() -> a
    boolean copyCoords(geogebra.common.kernel.MyPoint,double[]) -> a
geogebra.common.euclidian3D.EuclidianView3DInterface -> geogebra.common.d.a:
    void setClosestRotAnimation(geogebra.common.kernel.Matrix.Coords) -> a
    double getZmin() -> a
    double getZmax() -> b
    double getZZero() -> b_
    void updateAllDrawables() -> h_
    geogebra.common.kernel.Matrix.Coords getEyePosition() -> a
geogebra.common.euclidian3D.Input3D -> geogebra.common.d.b:
    geogebra.common.euclidian3D.Input3D$DeviceType getDeviceType() -> a
    boolean update() -> a
    double[] getMouse3DPosition() -> a
    double[] getMouse3DOrientation() -> b
    double[] getGlassesPosition() -> c
    double getEyeSeparation() -> a
    boolean isRightPressed() -> b
    boolean isLeftPressed() -> c
    boolean useInputDepthForHitting() -> d
    boolean useMouseRobot() -> e
    boolean hasMouse(geogebra.common.geogebra3D.euclidian3D.EuclidianView3D) -> a
    boolean currentlyUseMouse2D() -> f
    void setLeftButtonPressed(boolean) -> a
    boolean getLeftButton() -> g
    void setPositionXYOnPanel(double[],geogebra.common.kernel.Matrix.Coords,double,double,int,int,int,int) -> a
    boolean useScreenZOffset() -> h
geogebra.common.euclidian3D.Input3D$DeviceType -> geogebra.common.d.b$a:
    geogebra.common.euclidian3D.Input3D$DeviceType HAND -> a
    geogebra.common.euclidian3D.Input3D$DeviceType PEN -> b
    geogebra.common.euclidian3D.Input3D$DeviceType[] ENUM$VALUES -> a
    geogebra.common.euclidian3D.Input3D$DeviceType[] values() -> values
    geogebra.common.euclidian3D.Input3D$DeviceType valueOf(java.lang.String) -> valueOf
geogebra.common.euclidianForPlane.EuclidianViewForPlaneInterface -> geogebra.common.e.a:
geogebra.common.export.GeoGebraTubeExport -> geogebra.common.f.a:
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    java.util.ArrayList macros -> a
    void statusLabelSetText(java.lang.String) -> a
    void pack() -> a
    java.lang.String getBase64String() -> a
    java.lang.String getBase64Tools(java.util.ArrayList) -> a
    void showDialog() -> b
    java.lang.StringBuffer getPostData() -> a
    java.lang.String encode(java.lang.String) -> a
    void setMaximum(int) -> a
    void setMinimum(int) -> b
    void setIndeterminate(boolean) -> a
    void setValue(int) -> c
    void setEnabled(boolean) -> b
geogebra.common.export.GeoGebraTubeExport$UploadResults -> geogebra.common.f.a$a:
    java.lang.String status -> a
    java.lang.String uid -> b
    java.lang.String errorMessage -> c
    geogebra.common.export.GeoGebraTubeExport this$0 -> a
    boolean HasError() -> a
    java.lang.String getUID() -> a
    java.lang.String getErrorMessage() -> b
geogebra.common.export.MathmlTemplate -> geogebra.common.f.b:
    void mathml(java.lang.StringBuilder,java.lang.String,java.lang.String,java.lang.String) -> a
    void mathml(java.lang.StringBuilder,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
geogebra.common.export.pstricks.ExportSettings -> geogebra.common.f.a.a:
    double getLatexHeight() -> a
    int getFontSize() -> a
    double getYUnit() -> b
    boolean isGrayscale() -> a
    double getXUnit() -> c
    boolean getKeepDotColors() -> b
    int getFormat() -> b
    int textYmaxValue() -> c
    int textYminValue() -> d
    void write(java.lang.StringBuilder) -> a
    boolean getAsyCompactCse5() -> c
    boolean getAsyCompact() -> d
    int getFillType() -> e
    boolean getExportPointSymbol() -> e
    double getLatexWidth() -> d
    boolean getShowAxes() -> f
    boolean getUsePairNames() -> g
    boolean getGnuplot() -> h
geogebra.common.export.pstricks.GeoGebraExport -> geogebra.common.f.a.b:
    int beamerSlideNumber -> a
    double PRECISION_XRANGE_FUNCTION -> a
    java.lang.StringBuilder code -> a
    java.lang.StringBuilder codePoint -> b
    java.lang.StringBuilder codePreamble -> c
    java.lang.StringBuilder codeFilledObject -> d
    java.lang.StringBuilder codeBeginDoc -> e
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction construction -> a
    geogebra.common.euclidian.EuclidianView euclidianView -> a
    geogebra.common.export.pstricks.ExportSettings frame -> a
    java.util.HashMap CustomColor -> a
    double xunit -> b
    double yunit -> c
    double xmin -> d
    double xmax -> e
    double ymin -> f
    double ymax -> g
    int format -> b
    boolean isBeamer -> a
    int barNumber -> c
    geogebra.common.kernel.StringTemplate tpl -> a
    geogebra.common.main.App getApp() -> a
    java.lang.String format(double) -> a
    void refreshSelectionRectangle() -> a
    void setxmin(double) -> a
    void setxmax(double) -> b
    void setymin(double) -> c
    void setymax(double) -> d
    double getxmin() -> a
    double getxmax() -> b
    double getymin() -> c
    double getymax() -> d
    void initBounds() -> e
    void setBeamer(boolean) -> a
    java.lang.String sci2dec(double) -> b
    java.lang.String createCustomColor(int,int,int) -> a
    void drawGeoElement(geogebra.common.kernel.geos.GeoElement,boolean,boolean) -> a
    void drawBarChartOrHistogram(geogebra.common.kernel.geos.GeoNumeric) -> a
    boolean isSinglePointConic(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDoubleLineConic(geogebra.common.kernel.geos.GeoElement) -> b
    boolean isEmpty(geogebra.common.kernel.geos.GeoElement) -> c
    int resizePt(int) -> a
    void drawGeoPoint(geogebra.common.kernel.geos.GeoPoint) -> a
    void drawGeoLine(geogebra.common.kernel.geos.GeoLine) -> a
    void drawGeoRay(geogebra.common.kernel.geos.GeoRay) -> a
    void drawGeoSegment(geogebra.common.kernel.geos.GeoSegment) -> a
    void drawPolygon(geogebra.common.kernel.geos.GeoPolygon) -> a
    void drawSlider(geogebra.common.kernel.geos.GeoNumeric) -> b
    void drawSlope(geogebra.common.kernel.geos.GeoNumeric) -> c
    void drawIntegral(geogebra.common.kernel.geos.GeoNumeric) -> d
    void drawIntegralFunctions(geogebra.common.kernel.geos.GeoNumeric) -> e
    void drawSumUpperLower(geogebra.common.kernel.geos.GeoNumeric) -> f
    void drawSumTrapezoidal(geogebra.common.kernel.geos.GeoNumeric) -> g
    void drawBoxPlot(geogebra.common.kernel.geos.GeoNumeric) -> h
    void drawAngle(geogebra.common.kernel.geos.GeoAngle) -> a
    void drawGeoVector(geogebra.common.kernel.geos.GeoVector) -> a
    void drawGeoConic(geogebra.common.kernel.geos.GeoConic) -> a
    void drawGeoConicPart(geogebra.common.kernel.geos.GeoConicPart) -> a
    void drawLabel(geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.DrawableND) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction) -> a
    void drawImplicitPoly(geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    void drawSingleCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian,boolean) -> a
    void drawText(geogebra.common.kernel.geos.GeoText) -> a
    void drawLocus(geogebra.common.kernel.geos.GeoLocus) -> a
    void drawLine(double,double,double,double,geogebra.common.kernel.geos.GeoElement) -> a
    void drawArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double) -> a
    void drawTick(geogebra.common.kernel.geos.GeoAngle,double[],double) -> a
    void drawArrowArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double,boolean) -> a
    void setFrame(geogebra.common.export.pstricks.ExportSettings) -> a
    void generateAllCode() -> b
    void ColorCode(geogebra.common.awt.GColor,java.lang.StringBuilder) -> a
    void drawPolyLine(geogebra.common.kernel.geos.GeoPolyLine) -> a
    void drawHistogramOrBarChartBox(double[],double[],int,double,geogebra.common.kernel.geos.GeoNumeric) -> a
    void drawGeoInequalities(geogebra.common.kernel.geos.GeoFunctionNVar,geogebra.common.kernel.geos.GeoElement) -> a
    void drawNyquist(geogebra.common.kernel.geos.GeoTransferFunction) -> a
    geogebra.common.awt.GGraphics2D createGraphics(geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.Inequality,geogebra.common.euclidian.EuclidianView) -> a
    boolean fillSpline(geogebra.common.kernel.geos.GeoCurveCartesian[]) -> a
    double getXmin() -> e
    void setXmin(double) -> e
    double getXmax() -> f
    void setXmax(double) -> f
    double getYmin() -> g
    double getYmax() -> h
    double getXunit() -> i
    void setXunit(double) -> g
    double getYunit() -> j
    void setYunit(double) -> h
    void mark(double[],double[],int,geogebra.common.kernel.geos.GeoElement) -> a
    void markAngle(geogebra.common.kernel.geos.GeoAngle,double,double[],double,double) -> a
    void drawAllElements() -> c
    void startBeamer(java.lang.StringBuilder) -> a
    void endBeamer(java.lang.StringBuilder) -> b
    java.lang.String getImplicitExpr(geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    geogebra.common.kernel.StringTemplate getStringTemplate() -> a
    java.lang.StringBuilder drawNoLatexFunction(geogebra.common.kernel.geos.GeoFunction,double,double,int,java.lang.String) -> a
    java.lang.StringBuilder drawNyquistDiagram(geogebra.common.kernel.geos.GeoTransferFunction,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    boolean isLatexFunction(java.lang.String) -> a
    void addTextPackage() -> d
    void drawCurveCartesian(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.export.pstricks.GeoGebraExport$Info -> geogebra.common.f.a.b$a:
    float alpha -> a
    int y -> a
    double angle -> a
    geogebra.common.kernel.geos.GeoElement$FillType fillType -> a
    geogebra.common.awt.GColor linecolor -> a
    geogebra.common.export.pstricks.GeoGebraExport this$0 -> a
    float getAlpha() -> a
    int getY() -> a
    double getAngle() -> a
    geogebra.common.kernel.geos.GeoElement$FillType getFillType() -> a
    geogebra.common.awt.GColor getLinecolor() -> a
geogebra.common.export.pstricks.GeoGebraToAsymptote -> geogebra.common.f.a.c:
    boolean eurosym -> c
    boolean compact -> d
    boolean compactcse5 -> e
    boolean grayscale -> f
    boolean dotColors -> g
    boolean pairName -> h
    int parabolaCount -> d
    int hyperbolaCount -> e
    int arcCount -> f
    int functionCount -> g
    int implicitFuncCount -> h
    int fillType -> i
    int fontsize -> j
    java.lang.StringBuilder codeBeginPic -> f
    java.lang.StringBuilder codePointDecl -> g
    java.lang.StringBuilder codeColors -> h
    java.lang.StringBuilder codeEndDoc -> i
    java.util.ArrayList pointList -> a
    java.util.Map pairNameTable -> a
    java.util.Map functionTable -> b
    java.util.Map implicitPolyTable -> c
    java.util.Set usepackage -> b
    java.util.Set importpackage -> a
    boolean fillInequality -> b
    void generateAllCode() -> b
    void drawLocus(geogebra.common.kernel.geos.GeoLocus) -> a
    void drawBoxPlot(geogebra.common.kernel.geos.GeoNumeric) -> h
    void drawHistogramOrBarChartBox(double[],double[],int,double,geogebra.common.kernel.geos.GeoNumeric) -> a
    void drawSumTrapezoidal(geogebra.common.kernel.geos.GeoNumeric) -> g
    void drawSumUpperLower(geogebra.common.kernel.geos.GeoNumeric) -> f
    void drawIntegralFunctions(geogebra.common.kernel.geos.GeoNumeric) -> e
    void drawIntegral(geogebra.common.kernel.geos.GeoNumeric) -> d
    void drawSlope(geogebra.common.kernel.geos.GeoNumeric) -> c
    void drawAngle(geogebra.common.kernel.geos.GeoAngle) -> a
    void drawArrowArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double,boolean) -> a
    void drawArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double) -> a
    void drawTick(geogebra.common.kernel.geos.GeoAngle,double[],double) -> a
    void drawSlider(geogebra.common.kernel.geos.GeoNumeric) -> b
    void drawPolygon(geogebra.common.kernel.geos.GeoPolygon) -> a
    void drawText(geogebra.common.kernel.geos.GeoText) -> a
    void drawGeoConicPart(geogebra.common.kernel.geos.GeoConicPart) -> a
    void drawSingleCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian,boolean) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction,boolean,geogebra.common.kernel.geos.GeoNumeric,boolean) -> a
    void renameFunc(java.lang.StringBuilder,java.lang.String,java.lang.String) -> a
    double maxDefinedValue(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    double firstDefinedValue(geogebra.common.kernel.geos.GeoFunction,double,double) -> b
    void drawGeoVector(geogebra.common.kernel.geos.GeoVector) -> a
    void drawCircle(geogebra.common.kernel.geos.GeoConic) -> b
    void drawGeoConic(geogebra.common.kernel.geos.GeoConic) -> a
    void drawGeoPoint(geogebra.common.kernel.geos.GeoPoint) -> a
    void drawSpecialPoint(geogebra.common.kernel.geos.GeoPoint) -> b
    void drawGeoLine(geogebra.common.kernel.geos.GeoLine) -> a
    void drawGeoSegment(geogebra.common.kernel.geos.GeoSegment) -> a
    void drawLine(double,double,double,double,geogebra.common.kernel.geos.GeoElement) -> a
    void drawGeoRay(geogebra.common.kernel.geos.GeoRay) -> a
    void drawImplicitPoly(geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    void drawPolyLine(geogebra.common.kernel.geos.GeoPolyLine) -> a
    void initUnitAndVariable() -> f
    void initPointDeclarations() -> g
    void drawLabel(geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.DrawableND) -> a
    boolean ColorEquals(geogebra.common.awt.GColor,geogebra.common.awt.GColor) -> a
    void drawGrid() -> h
    void drawAxis() -> i
    void drawArrows(int,boolean) -> a
    void PointOptionCode(geogebra.common.kernel.geos.GeoPoint,java.lang.StringBuilder,double) -> a
    void PointOptionCode(geogebra.common.kernel.geos.GeoPoint,java.lang.StringBuilder) -> a
    java.lang.String LineOptionCode(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void LinestyleCode(int,java.lang.StringBuilder) -> a
    void ColorCode(geogebra.common.awt.GColor,java.lang.StringBuilder) -> a
    void ColorLightCode(geogebra.common.awt.GColor,double,java.lang.StringBuilder) -> a
    void addText(java.lang.String,boolean,int) -> a
    void packSpaceBetween(java.lang.String[]) -> a
    void packSpaceBetween(java.lang.StringBuilder,java.lang.String[]) -> a
    void packSpaceAfter(java.lang.String[]) -> b
    void packSpaceAfter(java.lang.StringBuilder,java.lang.String[]) -> b
    void packSpace(java.lang.String[]) -> c
    void packSpace(java.lang.StringBuilder,java.lang.String[]) -> c
    void startDraw() -> e
    void startDraw(java.lang.StringBuilder) -> c
    void endDraw(geogebra.common.kernel.geos.GeoElement) -> a
    void endDraw(geogebra.common.kernel.geos.GeoElement,java.lang.StringBuilder) -> a
    void startTransparentFill(java.lang.StringBuilder) -> d
    void endTransparentFill(geogebra.common.kernel.geos.GeoElement,java.lang.StringBuilder) -> b
    void endPoint(geogebra.common.awt.GColor) -> a
    void addPoint(java.lang.String,java.lang.String,java.lang.StringBuilder) -> a
    java.lang.StringBuilder convertUnicodeToText(java.lang.StringBuilder) -> a
    java.lang.String convertUnicodeToText(java.lang.String) -> a
    java.lang.String convertUnicodeToLatex(java.lang.String) -> b
    java.lang.String parseFunction(java.lang.String) -> c
    java.lang.String killSpace(java.lang.String) -> d
    geogebra.common.kernel.StringTemplate getStringTemplate() -> a
    java.lang.String penStyle(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLatexFunction(java.lang.String) -> a
    void drawNyquist(geogebra.common.kernel.geos.GeoTransferFunction) -> a
    java.lang.String format(double) -> a
    boolean fillSpline(geogebra.common.kernel.geos.GeoCurveCartesian[]) -> a
geogebra.common.export.pstricks.GeoGebraToPgf -> geogebra.common.f.a.d:
    int functionIdentifier -> d
    boolean forceGnuplot -> b
    boolean gnuplotWarning -> c
    boolean hatchWarning -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType -> a
    void generateAllCode() -> b
    void drawLocus(geogebra.common.kernel.geos.GeoLocus) -> a
    void drawBoxPlot(geogebra.common.kernel.geos.GeoNumeric) -> h
    void drawSumTrapezoidal(geogebra.common.kernel.geos.GeoNumeric) -> g
    void drawSumUpperLower(geogebra.common.kernel.geos.GeoNumeric) -> f
    void drawIntegralFunctions(geogebra.common.kernel.geos.GeoNumeric) -> e
    void drawIntegral(geogebra.common.kernel.geos.GeoNumeric) -> d
    void drawSlope(geogebra.common.kernel.geos.GeoNumeric) -> c
    void drawAngle(geogebra.common.kernel.geos.GeoAngle) -> a
    void drawArrowArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double,boolean) -> a
    void drawArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double) -> a
    void drawTick(geogebra.common.kernel.geos.GeoAngle,double[],double) -> a
    void drawSlider(geogebra.common.kernel.geos.GeoNumeric) -> b
    void drawPolygon(geogebra.common.kernel.geos.GeoPolygon) -> a
    void drawText(geogebra.common.kernel.geos.GeoText) -> a
    void addText(java.lang.String,boolean,int) -> a
    void drawGeoConicPart(geogebra.common.kernel.geos.GeoConicPart) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,boolean,geogebra.common.kernel.geos.GeoNumeric) -> a
    boolean isTrigInv(java.lang.String) -> b
    boolean[] hasFractionalOrTrigoExponent(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    void drawPgfStandard(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,java.lang.String,double,double) -> a
    void drawGnuPlot(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,java.lang.String,double,double) -> b
    void drawNoLatexFunction(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,double,double,boolean,geogebra.common.kernel.geos.GeoNumeric) -> a
    void drawSingleCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian,boolean) -> a
    void drawSingleCurve(geogebra.common.kernel.geos.GeoCurveCartesian,java.lang.StringBuilder) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction) -> a
    java.lang.String replaceX(java.lang.String,java.lang.String) -> a
    java.lang.String killSpace(java.lang.String) -> a
    boolean warningFunc(java.lang.String,java.lang.String) -> a
    void addWarningGnuplot() -> e
    void addWarningHatch() -> f
    void renameFunc(java.lang.StringBuilder,java.lang.String,java.lang.String) -> a
    double maxDefinedValue(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    double firstDefinedValue(geogebra.common.kernel.geos.GeoFunction,double,double) -> b
    void drawGeoVector(geogebra.common.kernel.geos.GeoVector) -> a
    void drawCircle(geogebra.common.kernel.geos.GeoConic) -> b
    void drawGeoConic(geogebra.common.kernel.geos.GeoConic) -> a
    void drawGeoPoint(geogebra.common.kernel.geos.GeoPoint) -> a
    void drawGeoLine(geogebra.common.kernel.geos.GeoLine) -> a
    void drawGeoSegment(geogebra.common.kernel.geos.GeoSegment) -> a
    void drawLine(double,double,double,double,geogebra.common.kernel.geos.GeoElement) -> a
    void drawGeoRay(geogebra.common.kernel.geos.GeoRay) -> a
    void drawLabel(geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.DrawableND) -> a
    void drawGrid() -> g
    void drawAxis() -> h
    java.lang.String getUnit(java.lang.String[],double,int) -> a
    boolean hasMeasureUnit(java.lang.String[],double,int) -> a
    java.lang.String footnotesize(java.lang.String) -> b
    void writePoint(double,double,java.lang.StringBuilder) -> a
    java.lang.String LineOptionCode(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void LinestyleCode(int,java.lang.StringBuilder) -> a
    void ColorCode(geogebra.common.awt.GColor,java.lang.StringBuilder) -> a
    void drawImplicitPoly(geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    void drawPolyLine(geogebra.common.kernel.geos.GeoPolyLine) -> a
    geogebra.common.kernel.StringTemplate getStringTemplate() -> a
    java.lang.String handleAxesStyle() -> a
    void drawHistogramOrBarChartBox(double[],double[],int,double,geogebra.common.kernel.geos.GeoNumeric) -> a
    void drawNyquist(geogebra.common.kernel.geos.GeoTransferFunction) -> a
    boolean fillSpline(geogebra.common.kernel.geos.GeoCurveCartesian[]) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType() -> a
geogebra.common.export.pstricks.GeoGebraToPstricks -> geogebra.common.f.a.e:
    boolean eurosym -> b
    java.lang.StringBuilder codeBeginPic -> f
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType -> a
    void generateAllCode() -> b
    void drawLocus(geogebra.common.kernel.geos.GeoLocus) -> a
    void drawBoxPlot(geogebra.common.kernel.geos.GeoNumeric) -> h
    void drawSumTrapezoidal(geogebra.common.kernel.geos.GeoNumeric) -> g
    void drawSumUpperLower(geogebra.common.kernel.geos.GeoNumeric) -> f
    void drawIntegralFunctions(geogebra.common.kernel.geos.GeoNumeric) -> e
    void drawIntegral(geogebra.common.kernel.geos.GeoNumeric) -> d
    void drawSlope(geogebra.common.kernel.geos.GeoNumeric) -> c
    void drawAngle(geogebra.common.kernel.geos.GeoAngle) -> a
    void drawArrowArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double,boolean) -> a
    void drawArc(geogebra.common.kernel.geos.GeoAngle,double[],double,double,double) -> a
    void drawTick(geogebra.common.kernel.geos.GeoAngle,double[],double) -> a
    void drawSlider(geogebra.common.kernel.geos.GeoNumeric) -> b
    void drawPolygon(geogebra.common.kernel.geos.GeoPolygon) -> a
    void drawText(geogebra.common.kernel.geos.GeoText) -> a
    void drawGeoConicPart(geogebra.common.kernel.geos.GeoConicPart) -> a
    void drawSingleCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian,boolean) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction) -> a
    void drawFunction(geogebra.common.kernel.geos.GeoFunction,boolean,geogebra.common.kernel.geos.GeoNumeric) -> a
    java.lang.String killSpace(java.lang.String) -> a
    void renameFunc(java.lang.StringBuilder,java.lang.String,java.lang.String) -> a
    double maxDefinedValue(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    double firstDefinedValue(geogebra.common.kernel.geos.GeoFunction,double,double) -> b
    void drawGeoVector(geogebra.common.kernel.geos.GeoVector) -> a
    void drawCircle(geogebra.common.kernel.geos.GeoConic) -> b
    void drawGeoConic(geogebra.common.kernel.geos.GeoConic) -> a
    void drawGeoPoint(geogebra.common.kernel.geos.GeoPoint) -> a
    void drawGeoLine(geogebra.common.kernel.geos.GeoLine) -> a
    void drawGeoSegment(geogebra.common.kernel.geos.GeoSegment) -> a
    void drawLine(double,double,double,double,geogebra.common.kernel.geos.GeoElement) -> a
    void drawGeoRay(geogebra.common.kernel.geos.GeoRay) -> a
    void initUnitAndVariable() -> e
    void drawLabel(geogebra.common.kernel.geos.GeoElement,geogebra.common.euclidian.DrawableND) -> a
    void drawGrid() -> f
    void drawAxis() -> g
    void PointOptionCode(geogebra.common.kernel.geos.GeoPoint) -> b
    java.lang.String LineOptionCode(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void LinestyleCode(int,java.lang.StringBuilder) -> a
    void ColorCode(geogebra.common.awt.GColor,java.lang.StringBuilder) -> a
    void addText(java.lang.String,boolean,int,geogebra.common.awt.GColor) -> a
    void drawImplicitPoly(geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    void drawPolyLine(geogebra.common.kernel.geos.GeoPolyLine) -> a
    void drawHistogramOrBarChartBox(double[],double[],int,double,geogebra.common.kernel.geos.GeoNumeric) -> a
    void drawNyquist(geogebra.common.kernel.geos.GeoTransferFunction) -> a
    boolean fillSpline(geogebra.common.kernel.geos.GeoCurveCartesian[]) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType() -> a
geogebra.common.export.pstricks.UnicodeTeX -> geogebra.common.f.a.f:
    java.util.HashMap unicode2tex -> a
    void p(char,java.lang.String) -> a
    java.util.HashMap getMap() -> a
geogebra.common.factories.AwtFactory -> geogebra.common.g.a:
    geogebra.common.factories.AwtFactory prototype -> a
    geogebra.common.awt.GColor newColor(int) -> a
    geogebra.common.awt.GColor newColor(int,int,int) -> a
    geogebra.common.awt.GColor newColor(int,int,int,int) -> a
    geogebra.common.awt.GColor newColor(float,float,float,float) -> a
    geogebra.common.awt.GColor newColor(float,float,float) -> a
    geogebra.common.awt.GAffineTransform newAffineTransform() -> a
    geogebra.common.awt.GRectangle2D newRectangle2D() -> a
    geogebra.common.awt.GRectangle newRectangle(int,int,int,int) -> a
    geogebra.common.awt.GBufferedImage newBufferedImage(int,int,int) -> a
    geogebra.common.awt.MyImage newMyImage(int,int,int) -> a
    geogebra.common.awt.GDimension newDimension(int,int) -> a
    geogebra.common.awt.GPoint2D newPoint2D() -> a
    geogebra.common.awt.GRectangle newRectangle(int,int) -> a
    geogebra.common.awt.GRectangle newRectangle() -> a
    geogebra.common.awt.GPoint2D newPoint2D(double,double) -> a
    geogebra.common.awt.GGeneralPath newGeneralPath() -> a
    geogebra.common.awt.GBasicStroke newMyBasicStroke(float) -> a
    geogebra.common.awt.GBasicStroke newBasicStroke(float,int,int) -> a
    geogebra.common.awt.GBasicStroke newBasicStroke(float,int,int,float,float[],float) -> a
    geogebra.common.awt.GBasicStroke newBasicStroke(float) -> b
    geogebra.common.awt.GLine2D newLine2D() -> a
    geogebra.common.awt.GRectangle newRectangle(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GEllipse2DDouble newEllipse2DDouble() -> a
    geogebra.common.awt.GEllipse2DFloat newEllipse2DFloat(int,int,int,int) -> a
    geogebra.common.awt.GArc2D newArc2D() -> a
    geogebra.common.awt.GArea newArea() -> a
    geogebra.common.awt.GArea newArea(geogebra.common.awt.GShape) -> a
    geogebra.common.awt.GGeneralPath newGeneralPath(int) -> a
    geogebra.common.awt.GCubicCurve2D newCubicCurve2D() -> a
    geogebra.common.awt.font.GTextLayout newTextLayout(java.lang.String,geogebra.common.awt.GFont,geogebra.common.awt.GFontRenderContext) -> a
    geogebra.common.awt.GAlphaComposite newAlphaComposite(int,float) -> a
    geogebra.common.awt.GBasicStroke newBasicStrokeJoinMitre(float) -> c
    geogebra.common.awt.GGradientPaint newGradientPaint(int,int,geogebra.common.awt.GColor,int,int,geogebra.common.awt.GColor) -> a
    geogebra.common.euclidian.event.FocusListener newFocusListener(java.lang.Object) -> a
    geogebra.common.euclidian.event.ActionListener newActionListener(geogebra.common.euclidian.event.ActionListenerI) -> a
    geogebra.common.awt.GPaint newTexturePaint(geogebra.common.awt.GBufferedImage,geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GPaint newTexturePaint(geogebra.common.awt.MyImage,geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GFont newFont(java.lang.String,int,int) -> a
geogebra.common.factories.CASFactory -> geogebra.common.g.b:
    geogebra.common.factories.CASFactory prototype -> a
    geogebra.common.factories.CASFactory getPrototype() -> a
    void setPrototype(geogebra.common.factories.CASFactory) -> a
    geogebra.common.kernel.CASGenericInterface newGiac(geogebra.common.cas.CASparser,geogebra.common.cas.CasParserTools,geogebra.common.kernel.Kernel) -> a
geogebra.common.factories.Factory -> geogebra.common.g.c:
    geogebra.common.factories.Factory prototype -> a
    geogebra.common.javax.swing.RelationPane newRelationPane() -> a
    geogebra.common.factories.Factory getPrototype() -> a
    void setPrototype(geogebra.common.factories.Factory) -> a
geogebra.common.factories.FormatFactory -> geogebra.common.g.d:
    geogebra.common.factories.FormatFactory prototype -> a
    geogebra.common.util.ScientificFormatAdapter getScientificFormat(int,int,boolean) -> a
    geogebra.common.util.NumberFormatAdapter getNumberFormat(int) -> a
    geogebra.common.util.NumberFormatAdapter getNumberFormat(java.lang.String,int) -> a
geogebra.common.factories.LaTeXFactory -> geogebra.common.g.e:
    geogebra.common.factories.LaTeXFactory prototype -> a
    geogebra.common.util.LaTeXCache newLaTeXCache() -> a
geogebra.common.factories.SwingFactory -> geogebra.common.g.f:
    geogebra.common.factories.SwingFactory prototype -> a
    geogebra.common.gui.inputfield.AutoCompleteTextField newAutoCompleteTextField(int,geogebra.common.main.App,geogebra.common.euclidian.Drawable) -> a
    geogebra.common.javax.swing.GLabel newJLabel(java.lang.String,boolean) -> a
    geogebra.common.javax.swing.AbstractJComboBox newJComboBox(geogebra.common.main.App,int) -> a
    geogebra.common.javax.swing.GBox createHorizontalBox(geogebra.common.euclidian.EuclidianController) -> a
    geogebra.common.factories.SwingFactory getPrototype() -> a
    void setPrototype(geogebra.common.factories.SwingFactory) -> a
geogebra.common.factories.UtilFactory -> geogebra.common.g.g:
    geogebra.common.factories.UtilFactory prototype -> a
    geogebra.common.util.HttpRequest newHttpRequest() -> a
    geogebra.common.util.URLEncoder newURLEncoder() -> a
    geogebra.common.util.Prover newProver() -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition -> geogebra.common.h.a.a.a.a.a.a.a:
    int[] signature -> a
    java.lang.String name -> a
    boolean dual -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList knownSolids -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TETRAHEDRON -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition CUBE -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition OCTAHEDRON -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition DODECAHEDRON -> d
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition ICOSAHEDRON -> e
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRUNCATED_TETRAHEDRON -> f
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRUNCATED_CUBE -> g
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRUNCATED_OCTAHEDRON -> h
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition CUBOCTAHEDRON -> i
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition SMALL_RHOMBICUBOCTAHEDRON -> j
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition GREAT_RHOMBICUBOCTAHEDRON -> k
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition SNUB_CUBE -> l
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRUNCATED_DODECAHEDRON -> m
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRUNCATED_ICOSAHEDRON -> n
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition ICOSIDODECAHEDRON -> o
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition SMALL_RHOMBICOSIDODECAHEDRON -> p
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition GREAT_RHOMBICOSIDODECAHEDRON -> q
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition SNUB_DODECAHEDRON -> r
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRIAKIS_TETRAHEDRON -> s
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRIAKIS_OCTAHEDRON -> t
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TETRAKIS_HEXAHEDRON -> u
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition RHOMBIC_DODECAHEDRON -> v
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRAPEZOIDAL_ICOSITETRAHEDRON -> w
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition HEXAKIS_OCTAHEDRON -> x
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition PENTAGONAL_ICOSITETRAHEDRON -> y
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRIAKIS_ICOSAHEDRON -> z
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition PENTAKIS_DODECAHEDRON -> A
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition RHOMBIC_TRIACONTAHEDRON -> B
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition TRAPEZOIDAL_HEXECONTAHEDRON -> C
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition HEXAKIS_ICOSAHEDRON -> D
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition PENTAGONAL_HEXECONTAHEDRON -> E
    void init() -> a
    int getSolidType(int[],int) -> a
    boolean equals(java.lang.String) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition findSolidDefinition(java.lang.String) -> a
    int[] getSignature() -> a
    boolean isDual() -> a
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder -> geogebra.common.h.a.a.a.a.a.b.a:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList points -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList vectors -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList corners -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList sides -> e
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList firstSides -> d
    boolean ambiguous -> a
    int ambiguousPoly -> a
    int type -> b
    int[] signature -> a
    double maxError -> a
    boolean untwist -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder dualPartner -> a
    double COMMIT_EPSILON -> b
    double FIND_APPROX_POINT_EPSILON -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiCorner createArchiCorner() -> a
    void identify() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Surface createSurface() -> a
    void recurse(int,double) -> a
    boolean isComplete() -> a
    void getAmbiguous() -> b
    void createFirstSides(int[],int) -> a
    int registerPoint(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    int registerCorner(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiCorner) -> a
    int registerSide(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet) -> a
    int cornerIsBuilt(int,int,int) -> a
    int sideIsBuilt(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    void center() -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet getSide(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiCorner getCorner(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getPoint(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.State getState() -> a
    void setState(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.State) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList getPoints() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList getSides() -> b
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiCorner -> geogebra.common.h.a.a.a.a.a.b.b:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder boss -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList firstSides -> a
    int hub -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList spokes -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple pole -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList sides -> b
    int getHub() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList getSpokes() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList getSides() -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getPole() -> a
    double computePoleTheta(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList,double) -> a
    void init(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,int,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder) -> a
    void init(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,int,double,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder,int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiCorner simpleCorner(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,int,double,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder) -> a
    void createFirstCorner(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList,double,int,double,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder) -> a
    void createFirstCorner(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList,double,int,double,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder,boolean) -> a
    void start(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,int,double) -> a
    int getFirstSides(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet,int,int) -> a
    void complete(int,double,int) -> a
    void completeSpokes(double) -> a
    void completeSides() -> a
    void propagateCorners(int,double,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiBuilder,int) -> a
    void errorCheck() -> b
    double polyAngle(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getSpoke(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple wrapgetSpoke(int) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet getSide(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet wrapgetSide(int) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getHubPoint() -> b
    int[] getSignature() -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet -> geogebra.common.h.a.a.a.a.a.b.c:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList vertexIndices -> a
    int normalIndex -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList points -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList vectors -> b
    boolean isREGULAR -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetStateCalculator stateCalculator -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetShapeCalculator shapeCalculator -> a
    void setPoints(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList) -> a
    void setVectors(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getNormal() -> a
    void setNormal(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList getVertexIndices() -> a
    int findPoint(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    int findIndex(int) -> a
    int toRange(int) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getPoint(int) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple wrapgetPoint(int) -> b
    int wrapgetIndex(int) -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple calcNormal() -> b
    boolean isAdjacent(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.ArchiFacet) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple[] threeDistinctPoints() -> a
    int getVertexCount() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetStateCalculator getStateCalculator() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetShapeCalculator getShapeCalculator() -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Facet -> geogebra.common.h.a.a.a.a.a.b.d:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Surface surface -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList pointIndices -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple normal -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetState defaultState -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetStateCalculator stateCalculator -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetShapeCalculator shapeCalculator -> a
    java.util.List children -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Facet parent -> a
    void setStateCalculator(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetStateCalculator) -> a
    void setShapeCalculator(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetShapeCalculator) -> a
    void init(int[],geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getPoint(int) -> a
    void calcNormal() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList getPointIndices() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getNormal() -> a
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetShapeCalculator -> geogebra.common.h.a.a.a.a.a.b.e:
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetState -> geogebra.common.h.a.a.a.a.a.b.f:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetState REAL -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetState NOT_REAL -> b
    boolean real -> a
    boolean primary -> b
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.FacetStateCalculator -> geogebra.common.h.a.a.a.a.a.b.g:
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Geometry -> geogebra.common.h.a.a.a.a.a.b.h:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList points -> a
    java.util.List listeners -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList getPoints() -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.GeometryUtils -> geogebra.common.h.a.a.a.a.a.b.i:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList createPoly(int,double) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.MySolver -> geogebra.common.h.a.a.a.a.a.b.j:
    double[] v -> a
    boolean insidePole -> a
    int maxi -> a
    double compute(double) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.State -> geogebra.common.h.a.a.a.a.a.b.k:
    int numCorners -> a
    int numPoints -> b
    int numSides -> c
    int numVectors -> d
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Surface -> geogebra.common.h.a.a.a.a.a.b.l:
    java.util.List rootFacets -> a
    java.util.Set excludedRootFacetIndices -> a
    java.util.List facets -> b
    java.util.List boundaries -> c
    int nonTransientPointCount -> a
    java.util.TreeMap savedBspTrees -> a
    void addRootFacet(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Facet) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.Facet getRootFacet(int) -> a
    java.util.Iterator rootFacetsIterator() -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.geom.TransformablePoint -> geogebra.common.h.a.a.a.a.a.b.m:
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Axes -> geogebra.common.h.a.a.a.a.a.c.a:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple X -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple Y -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple Z -> d
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple origin -> a
    double sizeFactor -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getX() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple getY() -> b
    void setX(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    void setY(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> b
    void setZ(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> c
    void correct() -> a
    void transformVector(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> d
    void transformPoint(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> e
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList -> geogebra.common.h.a.a.a.a.a.c.b:
    int[] ints -> a
    int num -> a
    int growBy -> b
    void add(int) -> a
    int orderedRemoveIndex(int) -> a
    int get(int) -> b
    int wrapget(int) -> c
    int find(int) -> d
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList wrapCopy(int,int) -> a
    int indexToRange(int) -> e
    java.lang.String toString() -> toString
    int[] toArray() -> a
    java.util.Iterator iterator() -> iterator
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList$1 -> geogebra.common.h.a.a.a.a.a.c.c:
    int index -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.IntList this$0 -> a
    boolean hasNext() -> hasNext
    java.lang.Integer next() -> a
    void remove() -> remove
    java.lang.Object next() -> next
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Matrix -> geogebra.common.h.a.a.a.a.a.c.d:
    double[][] mat -> a
    int numRows() -> a
    int numColumns() -> b
    void timesEquals(double) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple times(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Matrix times(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Matrix) -> a
    void timesEquals(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Matrix) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Misc -> geogebra.common.h.a.a.a.a.a.c.e:
    int arrayCompare(int[],int[]) -> a
    double round(double,int) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList -> geogebra.common.h.a.a.a.a.a.c.f:
    java.lang.Object[] objects -> a
    int num -> a
    int growBy -> b
    int addReturnIndex(java.lang.Object) -> a
    boolean add(java.lang.Object) -> add
    boolean remove(java.lang.Object) -> remove
    void removeIndex(int) -> a
    java.lang.Object get(int) -> get
    java.lang.Object wrapget(int) -> a
    java.lang.Object getLast() -> a
    java.lang.Object set(int,java.lang.Object) -> set
    int find(java.lang.Object) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList copy() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList shrinkCopy() -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList wrapCopy(int,int) -> a
    int indexToRange(int) -> a
    java.lang.String toString() -> toString
    java.util.Iterator iterator() -> iterator
    int size() -> size
    void clear() -> clear
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedDouble -> geogebra.common.h.a.a.a.a.a.c.g:
    double x -> a
    double y -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedDouble solveEquations(double,double,double,double,double,double) -> a
    boolean isApprox(double,double,double) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple -> geogebra.common.h.a.a.a.a.a.c.h:
    double x -> a
    double y -> b
    double z -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple origin() -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple xAxis() -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple yAxis() -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple zAxis() -> d
    void become(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    void become(double,double,double) -> a
    double lengthSquared() -> a
    double length() -> b
    double distanceSquared(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    double distance(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple plus(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    void plusEquals(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple minus(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> b
    void minusEquals(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> c
    double dot(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple cross(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> c
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple times(double) -> a
    void timesEquals(double) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple dividedBy(double) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple negative() -> e
    boolean isApprox(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,double) -> a
    double radBetween(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> d
    double degBetween(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> e
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple findThirdVector(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,double,double,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    double[] solveQuadratic(double,double,double) -> a
    boolean isApprox(double,double,double) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple LineLineIntersect(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> b
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple sectLines(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple mid(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> d
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple unit() -> f
    java.lang.String toString() -> toString
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple round(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,int) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix -> geogebra.common.h.a.a.a.a.a.c.i:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix identity -> a
    double determinant(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix adjoint(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix inverse(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> b
    void timesEquals(double) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix times(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Quick3X3Matrix findRotationMatrix(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple,geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple times(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple) -> a
    java.lang.String toString() -> toString
    java.lang.String toString(double[]) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Rotater -> geogebra.common.h.a.a.a.a.a.c.j:
    double rad2Deg(double) -> a
geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.Solver -> geogebra.common.h.a.a.a.a.a.c.k:
    double minx -> a
    double maxx -> b
    double solve() -> a
    double solve(double) -> b
    double compute(double) -> a
geogebra.common.geogebra3D.archimedean.support.AbstractArchimedeanSolid -> geogebra.common.h.a.b.a:
    geogebra.common.geogebra3D.archimedean.support.Point[] vertices -> a
    geogebra.common.geogebra3D.archimedean.support.AbstractArchimedeanSolid$Face[] faces -> a
    geogebra.common.kernel.Matrix.Coords[] verticesInABv -> a
    int getVertexCount() -> a
    geogebra.common.kernel.Matrix.Coords[] getVerticesInABv() -> a
    void calcVerticesInABv() -> a
    int getFaceCount() -> b
    geogebra.common.geogebra3D.archimedean.support.IFace[] getFaces() -> a
    java.lang.Integer[] sort(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList) -> a
    void setVertices(geogebra.common.geogebra3D.archimedean.support.Point[]) -> a
    void setFaces(geogebra.common.geogebra3D.archimedean.support.AbstractArchimedeanSolid$Face[]) -> a
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.archimedean.support.AbstractArchimedeanSolid$1 -> geogebra.common.h.a.b.b:
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.ObjectList val$vertices -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.utils.OrderedTriple val$zeroAngleVector -> a
    int compare(java.lang.Integer,java.lang.Integer) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.geogebra3D.archimedean.support.AbstractArchimedeanSolid$Face -> geogebra.common.h.a.b.a$a:
    int[] vertexIndices -> a
    geogebra.common.geogebra3D.archimedean.support.AbstractArchimedeanSolid this$0 -> a
    int[] getVertexIndices() -> a
    int getVertexCount() -> a
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.archimedean.support.ArchimedeanSolidFactory -> geogebra.common.h.a.b.c:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.geogebra3D.archimedean.support.IArchimedeanSolid create(geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition) -> a
    geogebra.common.geogebra3D.archimedean.support.IArchimedeanSolid create(geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.geogebra3D.archimedean.com.quantimegroup.solutions.archimedean.common.SolidDefinition getSolidDefinition(geogebra.common.kernel.commands.Commands) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.geogebra3D.archimedean.support.ArchimedeanSolidFactory$1 -> geogebra.common.h.a.b.d:
geogebra.common.geogebra3D.archimedean.support.IArchimedeanSolid -> geogebra.common.h.a.b.e:
    int getVertexCount() -> a
    geogebra.common.kernel.Matrix.Coords[] getVerticesInABv() -> a
    int getFaceCount() -> b
    geogebra.common.geogebra3D.archimedean.support.IFace[] getFaces() -> a
geogebra.common.geogebra3D.archimedean.support.IFace -> geogebra.common.h.a.b.f:
    int[] getVertexIndices() -> a
    int getVertexCount() -> a
geogebra.common.geogebra3D.archimedean.support.Point -> geogebra.common.h.a.b.g:
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.euclidian3D.EuclidianController3D -> geogebra.common.h.b.a:
    double[] xMinMax -> c
    double[] yMinMax -> d
    double[] zMinMax -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 currentPlane -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view3D -> a
    geogebra.common.awt.GPoint mouseLocOld -> f
    geogebra.common.kernel.Matrix.Coords positionOld -> d
    boolean freePointJustCreated -> u
    boolean viewRotationOccured -> s
    double animatedRotSpeed -> k
    long timeOld -> a
    int xOld -> i
    geogebra.common.geogebra3D.euclidian3D.Hits3D goodHits -> a
    java.util.ArrayList intersectionCurveList -> E
    java.util.ArrayList selectedCS2D -> z
    java.util.ArrayList selectedPolygons3D -> F
    java.util.ArrayList selectedPlane -> G
    geogebra.common.kernel.Matrix.Coords tmpCoords -> e
    geogebra.common.kernel.kernelND.GeoPointND singleIntersectionPoint -> c
    geogebra.common.geogebra3D.euclidian3D.TextDispatcher3D textDispatcher -> a
    boolean dialogOccurred -> v
    geogebra.common.kernel.kernelND.GeoPointND[] pyramidBasis -> a
    boolean polygonForPyramidBasis -> w
    int pointMoveMode -> j
    boolean mouseMoved -> t
    geogebra.common.euclidian.event.AbstractEvent mouseEvent -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianController3D$IntersectionCurve resultedIntersectionCurve -> a
    double startPointZ -> j
    java.util.ArrayList selectedCS1D -> A
    java.util.ArrayList selectedQuadric -> B
    java.util.ArrayList selectedQuadricLimited -> C
    java.util.ArrayList selectedPolyhedron -> D
    geogebra.common.kernel.geos.GeoElement handledGeo -> e
    geogebra.common.kernel.Matrix.Coords startPoint3D -> f
    geogebra.common.kernel.Matrix.Coords startPoint3DxOy -> g
    double zRW -> l
    geogebra.common.kernel.Matrix.Coords translationVec3D -> c
    geogebra.common.kernel.Matrix.Coords translateDirection -> h
    geogebra.common.euclidian.EuclidianControllerCompanion newCompanion() -> b
    void setView3D(geogebra.common.euclidian.EuclidianView) -> b
    double[] getMinMax(double,double,double) -> a
    void setMovedGeoPoint(geogebra.common.kernel.geos.GeoElement) -> b
    void updateMovedGeoPointStartValues(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getCurrentPlane() -> a
    void movePointOnCurrentPlane(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D,boolean) -> a
    boolean checkXYMinMax(geogebra.common.kernel.Matrix.Coords) -> a
    void setMouseInformation(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void addOffsetForTranslation(geogebra.common.kernel.Matrix.Coords) -> b
    void moveTextAbsoluteLocation() -> u
    geogebra.common.euclidian.Hits getRegionHits(geogebra.common.euclidian.Hits) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getNewPointFree(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND getNewPoint(geogebra.common.euclidian.Hits,boolean,boolean,boolean,boolean) -> a
    void createNewPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void createNewPointIntersection(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean createNewPointInRegionPossible(geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND getSingleIntersectionPoint(geogebra.common.euclidian.Hits) -> a
    boolean spherePointRadius(geogebra.common.euclidian.Hits) -> p
    boolean coneTwoPointsRadius(geogebra.common.euclidian.Hits) -> q
    boolean cylinderTwoPointsRadius(geogebra.common.euclidian.Hits) -> r
    geogebra.common.kernel.geos.GeoElement[] archimedeanSolid(geogebra.common.euclidian.Hits,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoElement[] polyhedronNet(geogebra.common.euclidian.Hits) -> G
    geogebra.common.kernel.geos.GeoElement[] orthogonalPlane(geogebra.common.euclidian.Hits) -> H
    geogebra.common.kernel.geos.GeoElement[] circleAxisPoint(geogebra.common.euclidian.Hits) -> I
    boolean circlePointRadiusDirection(geogebra.common.euclidian.Hits) -> s
    geogebra.common.geogebra3D.euclidian3D.TextDispatcher3D getTextDispatcher() -> a
    boolean volume(geogebra.common.euclidian.Hits) -> t
    geogebra.common.kernel.geos.GeoElement[] planeContaining(geogebra.common.euclidian.Hits) -> J
    boolean viewInFrontOf(geogebra.common.euclidian.Hits) -> u
    geogebra.common.kernel.geos.GeoElement[] parallelPlane(geogebra.common.euclidian.Hits) -> K
    void setDialogOccurred() -> F
    geogebra.common.kernel.geos.GeoElement[] extrusionOrConify(geogebra.common.euclidian.Hits) -> L
    geogebra.common.kernel.geos.GeoElement[] pyramidOrPrism(geogebra.common.euclidian.Hits) -> M
    geogebra.common.kernel.geos.GeoElement getMovedGeoPoint() -> a
    void wrapMouseReleased(geogebra.common.euclidian.event.AbstractEvent) -> g
    void processReleaseForMovedGeoPoint(boolean) -> d
    void switchPointMoveMode() -> M
    void cancelSwitchPointMoveModeIfNeeded() -> N
    void initPointMoveMode() -> O
    int getPointMoveMode() -> u
    void updateInput3D() -> G
    void wrapMousePressed(geogebra.common.euclidian.event.AbstractEvent) -> f
    void processMouseMoved(geogebra.common.euclidian.event.AbstractEvent) -> b
    void setMouseMovedEvent(geogebra.common.euclidian.event.AbstractEvent) -> h
    void update() -> H
    void processMouseMoved() -> I
    void initNewMode(int) -> b
    geogebra.common.euclidian.Previewable switchPreviewableForInitNewMode(int) -> a
    boolean getSelectables(geogebra.common.euclidian.Hits) -> f
    void processModeLock() -> p
    boolean processRightPressFor3D() -> s
    boolean processRotate3DView() -> o
    boolean processRightReleaseFor3D(geogebra.common.euclidian.event.PointerEventType) -> a
    boolean switchModeForProcessMode(geogebra.common.euclidian.Hits,boolean,geogebra.common.util.AsyncOperation) -> a
    void switchModeForRemovePolygons(geogebra.common.euclidian.Hits) -> a
    geogebra.common.kernel.geos.GeoElement[] switchModeForThreePoints(int) -> a
    geogebra.common.kernel.geos.GeoElement[] switchModeForCircleOrSphere2(int) -> b
    void createNewPointForModePoint(geogebra.common.euclidian.Hits,boolean) -> a
    void createNewPointForModeOther(geogebra.common.euclidian.Hits) -> b
    void switchModeForMousePressed(geogebra.common.euclidian.event.AbstractEvent) -> e
    boolean switchModeForMouseReleased(int,geogebra.common.euclidian.Hits,boolean,boolean,geogebra.common.euclidian.event.PointerEventType) -> a
    geogebra.common.euclidian.Hits addPointCreatedForMouseReleased(geogebra.common.euclidian.Hits) -> b
    void showDrawingPadPopup(geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] intersect(geogebra.common.euclidian.Hits) -> g
    void checkCoordCartesian3D(geogebra.common.kernel.kernelND.GeoPointND) -> c
    java.util.ArrayList getIntersectionCurves() -> c
    geogebra.common.kernel.geos.GeoElement[] intersectionCurve(geogebra.common.euclidian.Hits) -> N
    boolean createIntersectionCurve(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    boolean createIntersectionCurvePlanePolygon(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoPolygon) -> a
    boolean createIntersectionCurvePlaneQuadric(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    boolean createIntersectionCurvePlaneQuadricLimited(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> c
    void processIntersectionCurve(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    geogebra.common.kernel.geos.GeoElement getMetaIfJustOne(geogebra.common.kernel.geos.GeoElement) -> a
    void decideIntersection(geogebra.common.euclidian.Hits) -> c
    void addToGoodHits(geogebra.common.kernel.geos.GeoElement) -> e
    void transformCoords() -> o
    void updatePastePreviewPosition() -> d
    double getStartPointZ() -> c
    void setStartPointLocation(double,double,double) -> a
    int addSelectedCS2D(geogebra.common.euclidian.Hits,int,boolean) -> r
    int selCS2D() -> v
    geogebra.common.kernel.kernelND.GeoCoordSys2D[] getSelectedCS2D() -> a
    int addSelectedPlane(geogebra.common.euclidian.Hits,int,boolean) -> s
    int selPlanes() -> w
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D[] getSelectedPlanes() -> a
    int selQuadric() -> x
    int addSelectedQuadric(geogebra.common.euclidian.Hits,int,boolean) -> t
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D[] getSelectedQuadric() -> a
    int selQuadricLimited() -> y
    int addSelectedQuadricLimited(geogebra.common.euclidian.Hits,int,boolean) -> u
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited[] getSelectedQuadricLimited() -> a
    int selPolyhedron() -> z
    int addSelectedPolyhedron(geogebra.common.euclidian.Hits,int,boolean) -> v
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron[] getSelectedPolyhedron() -> a
    geogebra.common.kernel.geos.GeoElement chooseGeo(java.util.ArrayList,boolean) -> a
    geogebra.common.kernel.geos.GeoElement chooseGeo(java.util.ArrayList,boolean,boolean) -> a
    boolean isModeForMovingPoint(int) -> e
    boolean isModeForCreatingPoint(int) -> f
    boolean cursor3DVisibleForCurrentMode(int) -> d
    void setHandledGeo(geogebra.common.kernel.geos.GeoElement) -> d
    boolean viewHasHitsForMouseDragged() -> n
    void wrapMouseDragged(geogebra.common.euclidian.event.AbstractEvent,boolean) -> b
    void updateTranslationVector() -> J
    void updateTranslationVector(geogebra.common.kernel.Matrix.Coords) -> c
    void setStartPointLocation() -> x
    void udpateStartPoint() -> K
    void updateStartPoint(geogebra.common.kernel.Matrix.Coords) -> d
    void setTranslateStart(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    void setTranslateFromPointStart(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.Matrix.Coords getNormalTranslateDirection() -> b
    void moveVector() -> t
    void setStartPointLocationWithOrigin(double,double) -> b
    void calcRWcoords() -> n
    void moveDependent(boolean) -> s
    void handleMovedElementMultiple() -> y
    void handleMovedElementFree(geogebra.common.euclidian.event.PointerEventType) -> a
    boolean handleMovedElementFreePlane() -> x
    void handleMovedElementDependent() -> z
    void movePointWithOffset(boolean) -> f
    geogebra.common.kernel.geos.GeoElement[] orthogonal(geogebra.common.euclidian.Hits) -> j
    geogebra.common.kernel.geos.GeoElement[] rotateAroundLine(geogebra.common.euclidian.Hits) -> O
    geogebra.common.kernel.geos.GeoElement[] rotateAroundLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean viewOrientationForClockwise(boolean,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] mirrorAtPlane(geogebra.common.euclidian.Hits) -> P
    void showPopupMenuChooseGeo(java.util.ArrayList,geogebra.common.euclidian.Hits) -> a
    void updateOwnDrawablesNow() -> L
    void setMode(int) -> c
    void setDragCursorIfMoveView() -> B
    void processSelectionRectangle(boolean,boolean) -> c
    int addSelectedPlanesForAngle(geogebra.common.euclidian.Hits,int) -> a
    geogebra.common.kernel.geos.GeoAngle createAngle3D() -> a
    boolean hasInput3D() -> y
    boolean useInputDepthForHitting() -> z
    geogebra.common.kernel.Matrix.Coords getMouseLocRW() -> a
    java.lang.String rotateObject(geogebra.common.main.App,java.lang.String,boolean,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoLineND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.geogebra3D.euclidian3D.EuclidianController3D) -> a
    void clearSelected() -> m
    geogebra.common.kernel.geos.GeoElement[] polygon() -> d
    geogebra.common.kernel.kernelND.GeoVectorND createVectorForTranslation() -> a
    geogebra.common.kernel.kernelND.GeoVectorND createVectorForTranslation(java.lang.String) -> a
    geogebra.common.euclidian.TextDispatcher getTextDispatcher() -> a
geogebra.common.geogebra3D.euclidian3D.EuclidianController3D$IntersectionCurve -> geogebra.common.h.b.a$a:
    geogebra.common.kernel.geos.GeoElement geo1 -> a
    geogebra.common.kernel.geos.GeoElement geo2 -> b
    geogebra.common.kernel.geos.GeoElement result -> c
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D drawable -> a
    boolean hitted -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianController3D this$0 -> a
geogebra.common.geogebra3D.euclidian3D.EuclidianController3DCompanion -> geogebra.common.h.b.b:
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> b
    geogebra.common.kernel.Matrix.Coords captureCoords -> c
    void movePoint(boolean,geogebra.common.euclidian.event.AbstractEvent) -> a
    boolean checkPointCapturingXY(geogebra.common.kernel.Matrix.Coords) -> a
    boolean checkPointCapturingXYThenZ(geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,geogebra.common.kernel.Path,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,geogebra.common.kernel.Region,boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D createNewFreePoint(boolean) -> a
geogebra.common.geogebra3D.euclidian3D.EuclidianStyleBarStatic3D -> geogebra.common.h.b.c:
    void addToDefaultMap(java.util.HashMap) -> a
geogebra.common.geogebra3D.euclidian3D.EuclidianView3D -> geogebra.common.h.b.d:
    geogebra.common.geogebra3D.kernel3D.Kernel3D kernel3D -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer renderer -> a
    boolean automaticGridDistance -> l
    double automaticGridDistanceFactor -> f
    double XZero -> g
    double YZero -> h
    double ZZero -> i
    double XZeroOld -> j
    double YZeroOld -> k
    double ZZeroOld -> l
    boolean waitForUpdate -> m
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForView drawable3DLists -> a
    java.util.LinkedList drawable3DListToBeAdded -> a
    java.util.LinkedList drawable3DListToBeRemoved -> b
    java.util.TreeSet geosToBeAdded -> a
    java.util.TreeMap drawable3DMap -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 m -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mInv -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mInvTranspose -> d
    geogebra.common.kernel.Matrix.CoordMatrix4x4 undoRotationMatrix -> e
    double a -> o
    double b -> p
    double aOld -> m
    double bOld -> n
    double aNew -> q
    double bNew -> r
    geogebra.common.geogebra3D.euclidian3D.Hits3D hits -> a
    geogebra.common.kernel.Matrix.Coords viewDirection -> b
    geogebra.common.kernel.Matrix.Coords eyePosition -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D xOyPlane -> a
    geogebra.common.kernel.kernelND.GeoAxisND[] axis -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoClippingCube3D clippingCube -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawPlane3D xOyPlaneDrawable -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawAxis3D[] axisDrawable -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawClippingCube3D clippingCubeDrawable -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawPointDecorations pointDecorations -> a
    boolean decorationVisible -> n
    geogebra.common.euclidian.Previewable previewDrawable -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D cursor3D -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D cursorOnXOYPlane -> b
    int cursor3DType -> g
    int cursor -> h
    boolean animatedScale -> o
    double animatedScaleStart -> s
    double animatedScaleEnd -> t
    double animatedScaleTimeFactor -> u
    long animatedScaleTimeStart -> a
    double animatedScaleStartX -> v
    double animatedScaleStartY -> w
    double animatedScaleStartZ -> x
    double animatedScaleEndX -> y
    double animatedScaleEndY -> z
    double animatedScaleEndZ -> A
    boolean animatedContinueRot -> p
    double animatedRotSpeed -> B
    long animatedRotTimeStart -> b
    boolean animatedRot -> q
    boolean isFrozen -> r
    geogebra.common.kernel.Matrix.CoordMatrix4x4 scaleMatrix -> f
    geogebra.common.kernel.Matrix.CoordMatrix4x4 undoScaleMatrix -> g
    geogebra.common.kernel.Matrix.CoordMatrix4x4 translationMatrix -> h
    geogebra.common.kernel.Matrix.CoordMatrix4x4 undoTranslationMatrix -> i
    geogebra.common.kernel.Matrix.CoordMatrix rotationMatrix -> b
    geogebra.common.kernel.Matrix.CoordMatrix rotationAndScaleMatrix -> a
    geogebra.common.kernel.Matrix.Coords pickPoint -> a
    geogebra.common.kernel.Matrix.Coords viewDirectionPersp -> d
    geogebra.common.kernel.Matrix.Coords tmpCoordsLength3 -> e
    int intersectionThickness -> i
    geogebra.common.kernel.kernelND.GeoPointND intersectionPoint -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> j
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4_2 -> k
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4_3 -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> f
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> g
    boolean defaultCursorWillBeHitCursor -> s
    double[] parameters -> e
    geogebra.common.geogebra3D.euclidian3D.Hits3D tempArrayList -> b
    boolean viewChangedByZoom -> t
    boolean viewChangedByTranslate -> u
    boolean viewChangedByRotate -> v
    int projection -> j
    double projectionPerspectiveEyeDistance -> C
    boolean isGlassesGrayScaled -> w
    boolean isGlassesShutDownGreen -> x
    double eyeSep -> D
    double eyesHeight -> E
    double eyesSide -> F
    double projectionObliqueAngle -> G
    double projectionObliqueFactor -> H
    geogebra.common.awt.GColor bgColor -> b
    geogebra.common.kernel.Matrix.Coords boundsMin -> h
    geogebra.common.kernel.Matrix.Coords boundsMax -> i
    double MAX_BEND_SPEED_SURFACE -> I
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> c
    void initAxesValues() -> b
    int getAxisTickStyle(int) -> a
    void createPanel() -> N
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer createRenderer() -> a
    void start() -> ay
    void initAxisAndPlane() -> O
    java.util.ArrayList getStickyPointList() -> a
    geogebra.common.geogebra3D.kernel3D.Kernel3D getKernel() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer getRenderer() -> b
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void addNow(geogebra.common.kernel.geos.GeoElement) -> i
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D newDrawable(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D createDrawable(geogebra.common.kernel.geos.GeoElement) -> b
    void toSceneCoords3D(geogebra.common.kernel.Matrix.Coords) -> b
    void toScreenCoords3D(geogebra.common.kernel.Matrix.Coords) -> c
    void changeCoords(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getToSceneMatrix() -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getToSceneMatrixTranspose() -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getToScreenMatrix() -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getUndoRotationMatrix() -> d
    boolean getYAxisVertical() -> v
    void setYAxisVertical(boolean) -> o
    boolean getUseLight() -> w
    void updateRotationMatrix() -> az
    void updateScaleMatrix() -> aA
    void updateTranslationMatrix() -> P
    void updateRotationAndScaleMatrices() -> Q
    void setGlobalMatrices() -> R
    void updateMatrix() -> S
    void updateUndoTranslationMatrix() -> T
    void updateEye() -> aB
    geogebra.common.kernel.Matrix.Coords getViewDirection() -> b
    geogebra.common.kernel.Matrix.Coords getEyePosition() -> a
    void setRotXYinDegrees(double,double) -> a
    geogebra.common.main.settings.EuclidianSettings3D getSettings() -> a
    void translateCoordSystemInPixels(int,int,int,int) -> a
    void pageUpDownTranslateCoordSystem(int) -> b
    void setCoordSystemFromMouseMove(int,int,int) -> a
    double getXZero() -> c
    double getYZero() -> d
    double getZZero() -> b_
    void setXZero(double) -> c
    void setYZero(double) -> d
    void setZZero(double) -> e
    double getXmin() -> k
    double getXmax() -> j
    double getYmin() -> m
    double getYmax() -> l
    double getZmin() -> a
    double getZmax() -> b
    geogebra.common.kernel.Matrix.Coords getCenter() -> c
    double getFrustumRadius() -> t
    double getXscale() -> e
    double getYscale() -> f
    double getZscale() -> u
    double getScale(int) -> a
    void setAxesIntervals(double,int) -> a
    void setScale(double) -> f
    double getScale() -> v
    void rememberOrigins() -> g
    void updateAnimation() -> U
    void update() -> V
    void setWaitForUpdate() -> W
    geogebra.common.kernel.Matrix.Coords getPickPoint(geogebra.common.awt.GPoint) -> a
    void setCenteredPosition(geogebra.common.awt.GPoint,geogebra.common.awt.GPoint) -> a
    void setPickPointFromMouse(geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.Matrix.Coords projectOnScreen(geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords getPickFromScenePoint(geogebra.common.kernel.Matrix.Coords,int,int) -> a
    void attachView() -> d
    void clearView() -> f
    void initView(boolean) -> m
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void remove(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> b
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void repaintView() -> c
    void waitForNewRepaint() -> X
    void reset() -> j
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAllDrawables() -> h_
    void update(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> c
    geogebra.common.euclidian.DrawableND getDrawableND(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint,geogebra.common.euclidian.event.PointerEventType) -> a
    geogebra.common.euclidian.Previewable getPreviewDrawable() -> a
    boolean getShowMouseCoords() -> i
    boolean getShowXaxis() -> l
    boolean getShowYaxis() -> m
    boolean setShowAxis(int,boolean,boolean) -> a
    boolean setShowAxes(boolean,boolean) -> a
    void setShowPlate(boolean) -> p
    boolean setShowGrid(boolean) -> c
    int getViewHeight() -> f
    int getViewWidth() -> e
    boolean hitAnimationButton(int,int) -> a
    void resetMode() -> o
    boolean isAnimated() -> x
    boolean isRotAnimated() -> y
    boolean isRotAnimatedContinue() -> z
    boolean isInside(geogebra.common.kernel.Matrix.Coords) -> a
    boolean useClippingCube() -> A
    void setUseClippingCube(boolean) -> q
    void updateUseClippingCube() -> aC
    boolean showClippingCube() -> B
    void setShowClippingCube(boolean) -> r
    void toggleShowAndUseClippingCube() -> Y
    void setClippingReduction(int) -> m
    int getClippingReduction() -> A
    void setAnimatedCoordSystem(double,double,int,boolean) -> a
    void setAnimatedCoordSystem(double,double,double,double,int) -> a
    void setAnimatedCoordSystem(double,double,double,double,int,boolean) -> a
    void setRotContinueAnimation(long,double) -> a
    void setRotAnimation(geogebra.common.kernel.Matrix.Coords) -> d
    void setClosestRotAnimation(geogebra.common.kernel.Matrix.Coords) -> a
    void setRotAnimation(double,double,boolean) -> a
    void stopRotAnimation() -> Z
    void animate() -> aD
    void setHits(geogebra.common.awt.GPoint,geogebra.common.euclidian.event.PointerEventType) -> a
    int getCapturingThreshold(geogebra.common.euclidian.event.PointerEventType) -> a
    void setHits3D(geogebra.common.awt.GPoint) -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawAxis3D getAxisDrawable(int) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawPlane3D getPlaneDrawable() -> a
    geogebra.common.geogebra3D.euclidian3D.Hits3D getHits3D() -> a
    geogebra.common.euclidian.Hits getHits() -> a
    void updateCursor(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setSelectionRectangle(geogebra.common.awt.GRectangle) -> a
    void setShowAxesRatio(boolean) -> h
    void setShowMouseCoords(boolean) -> f
    void zoom(double,double,double,int,boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getCursor3D() -> a
    void setCursor3DType(int) -> n
    int getCursor3DType() -> B
    void setIntersectionThickness(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    int getIntersectionThickness() -> C
    void setIntersectionPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.kernelND.GeoPointND getIntersectionPoint() -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists getDrawList3D() -> a
    geogebra.common.euclidian.Previewable createPreviewLine(java.util.ArrayList) -> a
    geogebra.common.euclidian.Previewable createPreviewSegment(java.util.ArrayList) -> d
    geogebra.common.euclidian.Previewable createPreviewRay(java.util.ArrayList) -> e
    geogebra.common.euclidian.Previewable createPreviewVector(java.util.ArrayList) -> f
    geogebra.common.euclidian.Previewable createPreviewPolygon(java.util.ArrayList) -> g
    geogebra.common.euclidian.Previewable createPreviewPyramidOrPrism(java.util.ArrayList,java.util.ArrayList,int) -> a
    geogebra.common.euclidian.Previewable createPreviewConic(int,java.util.ArrayList) -> a
    geogebra.common.euclidian.Previewable createPreviewSphere(java.util.ArrayList) -> j
    geogebra.common.euclidian.Previewable createPreviewExtrusion(java.util.ArrayList,java.util.ArrayList) -> d
    geogebra.common.euclidian.Previewable createPreviewConify(java.util.ArrayList,java.util.ArrayList) -> e
    void updatePreviewable() -> s
    void updatePreviewableForProcessMode() -> t
    void updateCursor3D(geogebra.common.euclidian.Hits) -> a
    void updateCursorOnXOYPlane() -> aE
    void switchMoveCursor() -> aa
    boolean moveCursorIsVisible() -> O
    void updateCursor3D() -> ab
    void updateMatrixForCursor3D() -> ac
    void setPreview(geogebra.common.euclidian.Previewable) -> a
    void initPointDecorations() -> aF
    void updatePointDecorations(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void drawMouseCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawMouseCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.kernel.Matrix.Coords) -> a
    void drawFreeCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void drawCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawPointAlready(int) -> q
    void setMoveCursor() -> L
    void setCursor(int) -> o
    int getCursor() -> D
    void setDefaultCursorWillBeHitCursor() -> ad
    void setDragCursor() -> I
    boolean getShiftDown() -> C
    void setDefaultCursor() -> G
    void setDefault2DCursor() -> ae
    void setHitCursor() -> H
    void getXML(java.lang.StringBuilder,boolean) -> a
    void toggleAxis() -> af
    boolean axesAreAllVisible() -> D
    boolean getShowPlane() -> E
    void toggleGrid() -> ag
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D getxOyPlane() -> a
    boolean owns(geogebra.common.kernel.geos.GeoElement) -> c
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void drawHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> i
    void setWaitForUpdateOwnDrawables() -> aG
    void resetOwnDrawables() -> ah
    void resetAllDrawables() -> ai
    void resetAllVisualStyles() -> aj
    geogebra.common.kernel.Matrix.Coords getClippingVertex(int) -> a
    void getMinIntervalOutsideClipping(double[],geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void intervalUnionOutside(double[],geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void intervalUnion(double[],double,double) -> a
    void updateBounds() -> ak
    void viewChangedOwnDrawables() -> aH
    void updateOwnDrawablesNow() -> al
    java.lang.String getAxisLabel(int) -> a
    geogebra.common.awt.GFont getAxisLabelFont(int) -> a
    java.lang.String getAxisUnitLabel(int) -> b
    boolean getPiAxisUnit(int) -> e
    void setAxisLabel(int,java.lang.String) -> a
    void setAxesUnitLabels(java.lang.String[]) -> a
    boolean getShowAxisNumbers(int) -> f
    geogebra.common.euclidian.Previewable createPreviewParallelLine(java.util.ArrayList,java.util.ArrayList) -> b
    geogebra.common.euclidian.Previewable createPreviewPerpendicularLine(java.util.ArrayList,java.util.ArrayList) -> c
    geogebra.common.euclidian.Previewable createPreviewPerpendicularBisector(java.util.ArrayList) -> b
    geogebra.common.euclidian.Previewable createPreviewAngleBisector(java.util.ArrayList) -> c
    geogebra.common.euclidian.Previewable createPreviewPolyLine(java.util.ArrayList) -> i
    boolean getPositiveAxis(int) -> g
    void setPositiveAxis(int,boolean) -> a
    boolean getShowGrid() -> j
    boolean showGrid(boolean) -> a
    void setAutomaticGridDistance(boolean) -> d
    int getMode() -> c
    void setResizeXAxisCursor() -> J
    void setResizeYAxisCursor() -> K
    void setViewChangedByZoom() -> am
    void setViewChangedByTranslate() -> an
    void setViewChangedByRotate() -> ao
    void setViewChanged() -> ap
    boolean viewChangedByZoom() -> F
    boolean viewChangedByTranslate() -> G
    boolean viewChanged() -> H
    void resetViewChanged() -> aq
    java.lang.String getFromPlaneString() -> b
    java.lang.String getTranslatedFromPlaneString() -> c
    geogebra.common.euclidian.Previewable createPreviewAngle(java.util.ArrayList) -> h
    boolean isDefault2D() -> d
    boolean isEuclidianView3D() -> e
    boolean isMoveable(geogebra.common.kernel.geos.GeoElement) -> b
    java.util.ArrayList getFreeInputPoints(geogebra.common.kernel.algos.AlgoElement) -> a
    void setProjection(int) -> p
    void setProjectionValues(int) -> r
    int getProjection() -> E
    void setProjectionOrthographic() -> ar
    void setProjectionPerspective() -> as
    void setProjectionPerspectiveEyeDistance(double) -> g
    void updateProjectionPerspectiveEyeDistance() -> aI
    double getProjectionPerspectiveEyeDistance() -> w
    void setProjectionGlasses() -> at
    boolean isGlassesGrayScaled() -> I
    void setGlassesGrayScaled(boolean) -> s
    boolean isPolarized() -> J
    boolean isStereoBuffered() -> K
    double getScreenZOffset() -> x
    boolean isGrayScaled() -> L
    boolean isGlassesShutDownGreen() -> M
    void setGlassesShutDownGreen(boolean) -> t
    boolean isShutDownGreen() -> N
    void setEyes(double,double,double) -> a
    double getEyeSep() -> y
    double getEyesHeight() -> z
    double getEyesSide() -> A
    int getViewID() -> a
    void setProjectionOblique() -> au
    double getProjectionObliqueAngle() -> B
    void setProjectionObliqueFactor(double) -> h
    double getProjectionObliqueFactor() -> C
    boolean getShowAxis(int) -> c
    void replaceBoundObject(geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.awt.GColor getBackground() -> d
    geogebra.common.awt.GColor getBackgroundCommon() -> c
    void addOneGeoToPick() -> av
    void removeOneGeoToPick() -> aw
    int getFontSize() -> h
    int getEuclidianViewNo() -> d
    void drawAxes(geogebra.common.awt.GGraphics2D) -> l
    void initCursor() -> r
    void setShowAxis(boolean) -> n
    geogebra.common.awt.GGraphics2D getGraphicsForPen() -> b
    void doDrawPoints(geogebra.common.kernel.geos.GeoImage,java.util.List,geogebra.common.awt.GColor,int,int) -> a
    void drawResetIcon(geogebra.common.awt.GGraphics2D) -> m
    double[] getIntervalClipped(double[],geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean isOnView(double[]) -> c
    double[] getOnScreenDiff(double[],double[]) -> a
    boolean isSegmentOffView(double[],double[]) -> a
    boolean drawPlayButtonInThisView() -> s
    double getNumbersDistance() -> D
    double getAxisNumberingDistance(int) -> c
    double getGridDistances(int) -> b
    geogebra.common.util.NumberFormatAdapter getAxisNumberFormat(int) -> a
    geogebra.common.euclidian.EuclidianController getEuclidianController() -> a
    int getMousePickWidth() -> F
    geogebra.common.kernel.kernelND.GeoDirectionND getDirection() -> a
    int getDimension() -> x
    boolean isGridOrAxesShown() -> k
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void setViewShowAllObjects(boolean) -> k
    void setEuclidianViewNo(int) -> c
    void disposePreview() -> ax
    void updateDrawableFontSize() -> p
    void centerView(geogebra.common.kernel.kernelND.GeoPointND) -> b
    double getMaxBendSpeedSurface() -> E
    geogebra.common.main.settings.EuclidianSettings getSettings() -> a
    geogebra.common.euclidian.DrawableND newDrawable(geogebra.common.kernel.geos.GeoElement) -> d
    geogebra.common.kernel.Kernel getKernel() -> a
    geogebra.common.euclidian.DrawableND createDrawable(geogebra.common.kernel.geos.GeoElement) -> c
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> c
geogebra.common.geogebra3D.euclidian3D.Hits3D -> geogebra.common.h.b.e:
    geogebra.common.geogebra3D.euclidian3D.Hits3D$TreeSetOfDrawable3D[] hitSet -> a
    geogebra.common.geogebra3D.euclidian3D.Hits3D$TreeSetOfDrawable3D hitsOthers -> a
    geogebra.common.geogebra3D.euclidian3D.Hits3D$TreeSetOfDrawable3D hitsLabels -> b
    java.util.TreeSet hitSetSet -> a
    geogebra.common.euclidian.Hits topHits -> a
    java.util.ArrayList drawables3D -> a
    int QuadCount -> a
    geogebra.common.geogebra3D.euclidian3D.Hits3D clone() -> a
    geogebra.common.euclidian.Hits newHits() -> b
    boolean add(geogebra.common.kernel.geos.GeoElement) -> a
    void init() -> a
    void addDrawable3D(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType,double,double) -> a
    void addDrawable3D(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void sort() -> n
    geogebra.common.euclidian.Hits getTopHits() -> d
    geogebra.common.kernel.geos.GeoElement getLabelHit() -> a
    void removeAllPolygonsButOne() -> j
    geogebra.common.euclidian.Hits createNewHits() -> e
    geogebra.common.euclidian.Hits clone() -> a
geogebra.common.geogebra3D.euclidian3D.Hits3D$TreeSetOfDrawable3D -> geogebra.common.h.b.e$a:
    geogebra.common.geogebra3D.euclidian3D.Hits3D this$0 -> a
    void add(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,double,double) -> a
geogebra.common.geogebra3D.euclidian3D.Hitting -> geogebra.common.h.b.f:
    geogebra.common.kernel.Matrix.Coords origin -> a
    geogebra.common.kernel.Matrix.Coords direction -> b
    geogebra.common.awt.GPoint pos -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view -> a
    int threshold -> a
    void setHits(geogebra.common.awt.GPoint,int) -> a
    void setHits() -> a
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint) -> a
    boolean isInsideClipping(geogebra.common.kernel.Matrix.Coords) -> a
    int getThreshold() -> a
    boolean isSphere() -> a
geogebra.common.geogebra3D.euclidian3D.HittingSphere -> geogebra.common.h.b.g:
    boolean isSphere() -> a
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation -> geogebra.common.h.b.h:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point nextNewPointForNonSelfIntersectingPolygon -> a
    java.util.Comparator nonSelfIntersectingPolygonPointComparator -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment comparedSameOrientationSegment -> a
    int comparedSameOrientationValue -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment comparedSameSegment -> b
    geogebra.common.kernel.geos.GeoPolygon polygon -> a
    int maxPointIndex -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point firstPoint -> b
    java.util.ArrayList polygonPointsList -> a
    java.util.ArrayList fansList -> b
    geogebra.common.awt.GPoint2D$Double[] pointsArray -> a
    geogebra.common.kernel.Matrix.Coords[] completeVertices -> a
    void debug(java.lang.String) -> a
    void error(java.lang.String) -> b
    void setPolygon(geogebra.common.kernel.geos.GeoPolygon) -> a
    void clear() -> a
    void setName(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point,int) -> a
    int updatePoints() -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity checkIsConvex() -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment cut(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point) -> a
    void cutAfterComparisonToRight(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> a
    void cutAfterComparisonToLeft(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> b
    void setIntersections() -> b
    void setNonSelfIntersecting(java.util.TreeSet) -> a
    void checkIntersection(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment,java.util.TreeSet) -> a
    void createSegment(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point) -> a
    double getReverseOrientation(double) -> a
    void triangulate() -> c
    void triangulate(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$PolygonPoints) -> a
    boolean needsDiagonal(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> a
    void triangulate(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> a
    void debugDiagonal(java.lang.String,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point) -> a
    java.util.ArrayList getTriangleFans() -> a
    geogebra.common.kernel.Matrix.Coords[] getCompleteVertices(geogebra.common.kernel.Matrix.Coords[],geogebra.common.kernel.Matrix.CoordSys,int) -> a
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$1 -> geogebra.common.h.b.i:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation this$0 -> a
    int compare(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain -> geogebra.common.h.b.h$a:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain BOTH -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain BELOW -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain ABOVE -> c
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Chain valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity -> geogebra.common.h.b.h$b:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity CLOCKWISE -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity ANTI_CLOCKWISE -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity NOT -> c
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Convexity valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$MyTreeSet -> geogebra.common.h.b.h$c:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation this$0 -> a
    java.lang.Object higher(java.lang.Object) -> higher
    java.lang.Object lower(java.lang.Object) -> lower
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point -> geogebra.common.h.b.h$d:
    double x -> a
    double y -> b
    int id -> a
    java.lang.String name -> a
    double orientationToNext -> c
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point prev -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point next -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$MyTreeSet toRight -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$MyTreeSet toLeft -> b
    boolean needsDiagonal -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation this$0 -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point clone() -> a
    java.lang.String debugSegments() -> a
    void removeSegmentToRight(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> a
    boolean addSegmentToRight(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> a
    void removeSegmentToLeft(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> b
    boolean addSegmentToLeft(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> b
    boolean hasNoSegment() -> a
    int compareTo(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point) -> a
    int compareToOnly(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point) -> b
    int compareTo(double,double) -> a
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$PolygonPoints -> geogebra.common.h.b.h$e:
    boolean needsDiagonals -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation this$0 -> a
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running -> geogebra.common.h.b.h$f:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running RIGHT -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running LEFT -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running STOP -> c
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment -> geogebra.common.h.b.h$g:
    double orientation -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point leftPoint -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Point rightPoint -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment above -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment below -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment next -> c
    int usable -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Running running -> a
    double x -> b
    double y -> c
    double z -> d
    boolean equationNeedsUpdate -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation this$0 -> a
    boolean isDummy() -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment clone() -> a
    void setEquation() -> a
    java.lang.String toString() -> toString
    void removeFromPoints() -> b
    boolean addToPoints() -> b
    int compareTo(geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$Segment) -> a
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangleFan -> geogebra.common.h.b.h$h:
    boolean isClockWise -> a
    int apex -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation this$0 -> a
    int getApexPoint() -> a
    int getVertexIndex(int) -> a
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException -> geogebra.common.h.b.h$i:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type type -> a
    java.lang.String getMessage() -> getMessage
geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type -> geogebra.common.h.b.h$i$a:
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type LEFT_POINT_INTERSECTION -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type ZERO_SEGMENT -> b
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type DEAD_END -> c
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangulationException$Type valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.TextDispatcher3D -> geogebra.common.h.b.j:
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view3D -> a
    geogebra.common.kernel.kernelND.GeoPointND getPointForDynamicText(geogebra.common.kernel.Region,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.kernelND.GeoPointND getPointForDynamicText(geogebra.common.kernel.Path,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.kernelND.GeoPointND getPointForDynamicText(geogebra.common.awt.GPoint) -> a
    void setNoPointLoc(geogebra.common.kernel.geos.GeoText,geogebra.common.awt.GPoint) -> a
    void createVolumeText(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GPoint) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawAngle3D -> geogebra.common.h.b.a.a:
    geogebra.common.kernel.Matrix.Coords labelCenter -> a
    geogebra.common.kernel.Matrix.Coords vn2 -> b
    boolean angleVisible -> b
    geogebra.common.kernel.Matrix.Coords[] drawCoords -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> c
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle -> a
    void updateColors() -> b
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    boolean isLabelVisible() -> a
    boolean updateForItSelf() -> b
    void updateForView() -> g
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> n
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a
    void updateLabel() -> h
    void updateLabelPosition() -> i
    float getLabelOffsetX() -> a
    float getLabelOffsetY() -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle() -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawAxis3D -> geogebra.common.h.b.a.b:
    java.util.TreeMap labels -> a
    int numbersXOffset -> a
    int numbersYOffset -> b
    boolean outsideBox -> b
    void drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    void setWaitForReset() -> j
    void updateLabel() -> h
    void updateLabelPosition() -> i
    boolean updateForItSelf() -> b
    void updateDecorations() -> i_
    void updateForView() -> g
    void setDrawMinMaxImmediatly(double[][]) -> a
    boolean isVisible() -> c
    boolean hitLabel(geogebra.common.geogebra3D.euclidian3D.Hitting,geogebra.common.geogebra3D.euclidian3D.Hits3D) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawClippingCube3D -> geogebra.common.h.b.a.c:
    float clippingBorder -> a
    double[][] minMax -> a
    double[][] minMaxLarge -> b
    geogebra.common.kernel.Matrix.Coords[] vertices -> a
    geogebra.common.kernel.Matrix.Coords center -> a
    double REDUCTION_LARGE -> a
    double REDUCTION_ENLARGE -> b
    double[] REDUCTION_VALUES -> a
    int REDUCTION_LENGTH -> a
    double horizontalDiagonal -> c
    double frustumRadius -> d
    double getHorizontalDiagonal() -> e_
    double getFrustumRadius() -> d
    double[][] updateMinMax() -> a
    void setVertices() -> l
    geogebra.common.kernel.Matrix.Coords getVertex(int) -> a
    geogebra.common.kernel.Matrix.Coords getCenter() -> b
    double[][] getMinMax() -> b
    geogebra.common.kernel.Matrix.Coords getVertexWithBorder(int,int,int) -> a
    boolean updateForItSelf() -> b
    void updateRendererClipPlanes() -> j_
    void updateForView() -> g
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    int getPickOrder() -> a
    double[] getIntervalClipped(double[],geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    double[] updateInterval(double[],double,double) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D -> geogebra.common.h.b.a.d:
    geogebra.common.kernel.Matrix.Coords m -> a
    geogebra.common.kernel.Matrix.Coords d -> b
    geogebra.common.kernel.Matrix.Coords[] points -> a
    double[] minmax -> a
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    geogebra.common.kernel.Matrix.Coords ev1 -> c
    geogebra.common.kernel.Matrix.Coords ev2 -> d
    double e1 -> a
    double e2 -> b
    double alpha -> c
    double beta -> d
    int longitude -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible visible -> a
    geogebra.common.kernel.Matrix.Coords boundsMin -> i
    geogebra.common.kernel.Matrix.Coords boundsMax -> j
    geogebra.common.kernel.PathParameter hittingPathParameter -> a
    geogebra.common.kernel.Matrix.Coords project -> k
    geogebra.common.kernel.Matrix.Coords globalCoords -> l
    geogebra.common.kernel.Matrix.Coords inPlaneCoords -> m
    double[] parameters -> b
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void updateColors() -> b
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    double acosh(double) -> a
    boolean updateForItSelf() -> b
    double[] getLineMinMax(int) -> a
    void updateLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> a
    void updateParallelLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> a
    void updateIntersectingLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> b
    void updateHyperbola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> b
    void updateParabola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> c
    void updateParabola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> c
    double[] getParabolaMinMax() -> a
    void updateHyperbola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> d
    void updateEllipse(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> e
    void updateSinglePoint(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> f
    boolean isSector() -> e
    double getEllipseSurfaceStart() -> f_
    double getEllipseSurfaceExtent() -> d
    void updateCircle(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> d
    void updateEllipse(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> e
    void updateForView() -> g
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> n
    void drawGeometryForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    geogebra.common.kernel.Matrix.Coords evaluatePoint(double,double) -> a
    geogebra.common.kernel.Matrix.Coords evaluateNormal(double,double) -> b
    double getMinParameter(int) -> a
    double getMaxParameter(int) -> b
    void updatePreview() -> e_
    void updateMousePos(double,double) -> a_
    boolean isTransparent() -> f
    void checkEllipseVisible(geogebra.common.kernel.Matrix.Coords,double,double) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible calcVisibleAngles(geogebra.common.kernel.Matrix.Coords,double) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void setBoundsEllipse() -> l
    void checkVisibleAndSetBoundingBox() -> k
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
    boolean hitForList(geogebra.common.geogebra3D.euclidian3D.Hitting) -> b
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting,boolean) -> a
    boolean doHighlighting() -> j
geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible -> geogebra.common.h.b.a.d$a:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible TOTALLY_OUTSIDE -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible FRUSTUM_INSIDE -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible TOTALLY_INSIDE -> c
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible CENTER_OUTSIDE -> d
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible CENTER_INSIDE -> e
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D$Visible valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.draw.DrawConicPart3D -> geogebra.common.h.b.a.e:
    double getEllipseSurfaceStart() -> f_
    double getEllipseSurfaceExtent() -> d
    void updateCircle(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> d
    void updateEllipse(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> e
    void updateSectorSegments(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush,double,double) -> a
    void updateLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> a
    void updateParallelLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> a
    void updateSinglePoint(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> f
    boolean isSector() -> e
geogebra.common.geogebra3D.euclidian3D.draw.DrawConicSection3D -> geogebra.common.h.b.a.f:
    double getStart(int) -> c
    double getExtent(int) -> d
    double getEnd(int) -> e
    void updateCircle(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> d
    boolean updateForItSelf() -> b
    void updateEllipse(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> e
    void updateEllipse(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> e
    double[] getLineMinMax(int) -> a
    void updateLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> a
    void updateHyperbola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> b
    void updateHyperbola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> d
    void updateIntersectingLines(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> b
    double[] getParabolaMinMax() -> a
    void updateParabola(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> c
geogebra.common.geogebra3D.euclidian3D.draw.DrawConify3D -> geogebra.common.h.b.a.g:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawCoordSys1D -> geogebra.common.h.b.a.h:
    void setPreviewableCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.Matrix.Coords[] calcPoints() -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawCurve3D -> geogebra.common.h.b.a.i:
    geogebra.common.kernel.kernelND.CurveEvaluable curve -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    boolean updateForItSelf() -> b
    void updateForView() -> g
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
geogebra.common.geogebra3D.euclidian3D.draw.DrawExtrusion3D -> geogebra.common.h.b.a.j:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawExtrusionOrConify3D -> geogebra.common.h.b.a.k:
    java.util.ArrayList selectedPolygons -> a
    java.util.ArrayList selectedConics -> b
    geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer extrusionComputer -> a
    geogebra.common.kernel.geos.GeoNumeric height -> a
    geogebra.common.kernel.geos.GeoElement basis -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawExtrusionOrConify3D$CreatePolyhedronCallback callback -> a
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    boolean updateForItSelf() -> b
    void updateMousePos(double,double) -> a_
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.geos.GeoNumeric) -> a
    void updatePreview() -> e_
    void disposePreview() -> f_
    void createPolyhedron() -> k
geogebra.common.geogebra3D.euclidian3D.draw.DrawExtrusionOrConify3D$CreatePolyhedronCallback -> geogebra.common.h.b.a.k$a:
    geogebra.common.kernel.geos.GeoElement basis -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view -> a
    geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer extrusionComputer -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawExtrusionOrConify3D this$0 -> a
    void set(geogebra.common.kernel.geos.GeoElement,geogebra.common.geogebra3D.euclidian3D.EuclidianView3D,geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer) -> a
    void callback(java.lang.Object) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawIntersectionCurve3D -> geogebra.common.h.b.a.l:
    java.util.ArrayList drawables -> a
    void add(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    int getPickOrder() -> a
    boolean updateForItSelf() -> b
    void updateForView() -> g
    void updateMousePos(double,double) -> a_
    void updatePreview() -> e_
    void disposePreview() -> f_
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawJoinPoints -> geogebra.common.h.b.a.m:
    double[] drawMinMax -> a
    geogebra.common.kernel.Matrix.Coords startPoint -> a
    geogebra.common.kernel.Matrix.Coords endPoint -> b
    java.util.ArrayList selectedPoints -> a
    geogebra.common.kernel.Matrix.Coords project1 -> c
    geogebra.common.kernel.Matrix.Coords project2 -> d
    double[] lineCoords -> b
    double[] tmp -> c
    void setDrawMinMax(double,double) -> b
    double[] getDrawMinMax() -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    geogebra.common.kernel.Matrix.Coords[] calcPoints() -> a
    boolean updateForItSelf() -> b
    void setStartEndPoints(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void updateForItSelf(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    void setArrowTypeBefore(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> a
    void setArrowTypeAfter(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> b
    int getLineThickness() -> b
    int getPickOrder() -> a
    void updateMousePos(double,double) -> a_
    void updatePreview() -> e_
    void setPreviewableCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D -> geogebra.common.h.b.a.n:
    java.lang.String text -> a
    geogebra.common.awt.GFont font -> a
    geogebra.common.kernel.Matrix.Coords backgroundColor -> b
    geogebra.common.kernel.Matrix.Coords color -> c
    geogebra.common.kernel.Matrix.Coords origin -> a
    float xOffset -> a
    float yOffset -> b
    float xOffset2 -> c
    float yOffset2 -> d
    boolean anchor -> b
    boolean isVisible -> c
    int height -> a
    int width -> b
    int height2 -> g
    int width2 -> h
    int textureIndex -> i
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view -> a
    boolean waitForReset -> d
    geogebra.common.awt.GGraphics2D tempGraphics -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D drawable -> a
    boolean hasIndex -> a
    int drawX -> c
    int drawY -> d
    int drawZ -> e
    int pickingX -> j
    int pickingY -> k
    int pickingW -> l
    int pickingH -> m
    int textIndex -> n
    int pickingIndex -> o
    int backgroundIndex -> f
    void update(java.lang.String,geogebra.common.awt.GFont,geogebra.common.awt.GColor,geogebra.common.kernel.Matrix.Coords,float,float) -> a
    void update(java.lang.String,geogebra.common.awt.GFont,geogebra.common.awt.GColor,geogebra.common.awt.GColor,geogebra.common.kernel.Matrix.Coords,float,float) -> a
    geogebra.common.awt.GGraphics2D createGraphics2D(geogebra.common.awt.GBufferedImage) -> a
    geogebra.common.awt.GBufferedImage createBufferedImage() -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    boolean isLatex(java.lang.String) -> a
    geogebra.common.awt.GBufferedImage draw() -> b
    void setWaitForReset() -> a
    boolean waitForReset() -> a
    void setAnchor(boolean) -> a
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    int getDrawZ() -> a
    void updateDrawPosition() -> b
    boolean hit(geogebra.common.awt.GPoint) -> a
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,boolean) -> a
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,int,int,int) -> a
    void setTextureIndex(int) -> a
    int getTextureIndex() -> b
    void setIsVisible(boolean) -> b
    int getWidth() -> c
    int getHeight() -> d
    int getWidthPowerOfTwo() -> e
    int getHeightPowerOfTwo() -> f
    void setPickingDimension(int,int,int,int) -> a
    void setDimensionPowerOfTwo(int,int) -> a
    void updatePosition(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3DForText -> geogebra.common.h.b.a.o:
    geogebra.common.kernel.geos.GeoText geo -> a
    int highLightIndex -> g
    geogebra.common.awt.GRectangle getBounds() -> a
    geogebra.common.awt.GBufferedImage draw() -> b
    void setGeo(geogebra.common.kernel.geos.GeoText) -> a
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,int,int,int) -> a
    void updatePosition(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void setWaitForReset() -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawLine3D -> geogebra.common.h.b.a.p:
    boolean updateForItSelf() -> b
    void updateForItSelf(boolean) -> a
    void updateDrawMinMax() -> l
    void updateForView() -> g
geogebra.common.geogebra3D.euclidian3D.draw.DrawList3D -> geogebra.common.h.b.a.q:
    geogebra.common.kernel.geos.GeoList geoList -> a
    boolean isVisible -> b
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForDrawList3D drawable3DLists -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawList3DArray drawables -> a
    int pickOrder -> a
    boolean updateForItSelf() -> b
    void updateForView() -> g
    void clearTraceForViewChanged() -> k_
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForDrawList3D getDrawable3DLists() -> a
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D drawForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,boolean,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    boolean drawLabelForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    boolean isTransparent() -> f
    boolean isLabelVisible() -> a
    void updateLabel() -> h
    void updateLabelPosition() -> i
    double getColorShift() -> c
    void setWaitForUpdateVisualStyle() -> f
    void setWaitForReset() -> j
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D getDrawablePicked(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    int getPickOrder() -> a
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
    void removeAllGeosToPick() -> l
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawList3DArray -> geogebra.common.h.b.a.r:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawList3D drawList3D -> a
    void update(geogebra.common.euclidian.DrawableND) -> a
    void add(int,geogebra.common.euclidian.DrawableND) -> a
    geogebra.common.euclidian.DrawableND set(int,geogebra.common.euclidian.DrawableND) -> a
    void add(int,java.lang.Object) -> add
    java.lang.Object set(int,java.lang.Object) -> set
geogebra.common.geogebra3D.euclidian3D.draw.DrawLocus3D -> geogebra.common.h.b.a.s:
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    boolean updateForItSelf() -> b
    void updateForView() -> g
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
geogebra.common.geogebra3D.euclidian3D.draw.DrawPlane3D -> geogebra.common.h.b.a.t:
    int gridIndex -> a
    int gridOutlineIndex -> b
    double[] minmaxXFinal -> a
    double[] minmaxYFinal -> b
    boolean viewDirectionIsParallel -> c
    geogebra.common.kernel.Matrix.Coords o -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> b
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> c
    void setWaitForReset() -> j
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    void drawPlate(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> n
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    boolean isGridVisible() -> e
    boolean updateForItSelf() -> b
    boolean updateGeometry() -> k
    void updateForView() -> g
    void setWaitForUpdate() -> e
    void setMinMax() -> l
    void setMinMax(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    void checkViewDirectionIsParallel() -> t
    void setWaitForUpdateVisualStyle() -> f
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawPlaneConstant3D -> geogebra.common.h.b.a.u:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawAxis3D xAxis -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawAxis3D yAxis -> b
    boolean updateForItSelf() -> b
    void updateForView() -> g
    void setMinMax() -> l
    boolean isGridVisible() -> e
geogebra.common.geogebra3D.euclidian3D.draw.DrawPoint3D -> geogebra.common.h.b.a.v:
    geogebra.common.kernel.Matrix.Coords center -> a
    geogebra.common.kernel.Matrix.Coords boundsMin -> b
    geogebra.common.kernel.Matrix.Coords boundsMax -> c
    geogebra.common.kernel.Matrix.Coords project -> d
    double[] parameters -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void setLineTextureHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> i
    boolean updateForItSelf() -> b
    void doRemoveGeometryIndex(int) -> a
    void updateForView() -> g
    int getPickOrder() -> a
    void disposePreview() -> f_
    void updateMousePos(double,double) -> a_
    void updatePreview() -> e_
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    geogebra.common.kernel.Matrix.Coords evaluatePoint(double,double) -> a
    geogebra.common.kernel.Matrix.Coords evaluateNormal(double,double) -> b
    float getLabelOffsetX() -> a
    float getLabelOffsetY() -> b
    double getColorShift() -> c
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
    boolean hitForList(geogebra.common.geogebra3D.euclidian3D.Hitting) -> b
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting,geogebra.common.kernel.Matrix.Coords,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,int,geogebra.common.kernel.Matrix.Coords,double[],boolean) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex newTraceIndex() -> a
    void drawGeom(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawPointDecorations -> geogebra.common.h.b.a.w:
    geogebra.common.kernel.Matrix.CoordMatrix4x4 planeMatrix -> a
    geogebra.common.kernel.Matrix.Coords p1 -> a
    geogebra.common.kernel.Matrix.Coords p2 -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D point -> a
    boolean isVisible() -> c
    void setPoint(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void drawHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    boolean updateForItSelf() -> b
    void updateLabel() -> h
    void updateLabelPosition() -> i
    int getLineThickness() -> b
    void updateForView() -> g
    int getPickOrder() -> a
    boolean isTransparent() -> f
    double getColorShift() -> c
    void updateColors() -> b
geogebra.common.geogebra3D.euclidian3D.draw.DrawPolyLine3D -> geogebra.common.h.b.a.x:
    double[] drawMinMax -> a
    geogebra.common.kernel.Matrix.Coords boundsMin -> a
    geogebra.common.kernel.Matrix.Coords boundsMax -> b
    java.util.ArrayList selectedPoints -> a
    double[] getDrawMinMax() -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    boolean updateForItSelf() -> b
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    int getLineThickness() -> b
    int getPickOrder() -> a
    void updateMousePos(double,double) -> a_
    void updatePreview() -> e_
    void updateForView() -> g
geogebra.common.geogebra3D.euclidian3D.draw.DrawPolygon3D -> geogebra.common.h.b.a.y:
    geogebra.common.kernel.Matrix.Coords[] vertices -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation pt -> a
    geogebra.common.kernel.Matrix.Coords boundsMin -> a
    geogebra.common.kernel.Matrix.Coords boundsMax -> b
    java.util.ArrayList selectedPoints -> a
    java.util.ArrayList segments -> b
    java.util.ArrayList segmentsPoints -> c
    boolean isPreview -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D hittingPointForOutline -> a
    geogebra.common.kernel.Matrix.Coords project -> c
    geogebra.common.kernel.Matrix.Coords globalCoords -> d
    geogebra.common.kernel.Matrix.Coords inPlaneCoords -> i
    double[] parameters -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawGeometryForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    void updateVertices(geogebra.common.kernel.geos.GeoPolygon,int) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean updateForItSelf() -> b
    void drawPolygon(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.kernel.geos.GeoPolygon,geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation,geogebra.common.kernel.Matrix.Coords[],int) -> a
    void updateOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.kernel.Matrix.Coords[],int) -> a
    void updateForView() -> g
    void updateMousePos(double,double) -> a_
    void updatePreview() -> e_
    void disposePreview() -> f_
    boolean doHighlighting() -> j
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawPolyhedron3D -> geogebra.common.h.b.a.z:
    boolean isPreview -> c
    int previewMode -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawPolygon3D drawPolygon3D -> a
    java.util.ArrayList selectedPoints -> a
    java.util.ArrayList selectedPolygons -> b
    geogebra.common.kernel.Matrix.Coords[] vertices -> a
    geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation pt -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronPoints previewAlgo -> a
    boolean previewBasisIsFinished -> d
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawGeometryForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    boolean updateForItSelf() -> b
    void updateOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> n
    void drawSegment(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void drawPolygon(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.kernel.geos.GeoPolygon) -> a
    void updateForView() -> g
    void updatePreview() -> e_
    void disposePreview() -> f_
    void updateMousePos(double,double) -> a_
    void previewBasisIsFinished() -> l
geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D -> geogebra.common.h.b.a.A:
    int longitude -> a
    double scale -> a
    double alpha -> b
    double beta -> c
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible visible -> a
    geogebra.common.kernel.Matrix.Coords boundsMin -> a
    geogebra.common.kernel.Matrix.Coords boundsMax -> b
    java.util.ArrayList selectedPoints -> a
    geogebra.common.kernel.Matrix.Coords project -> c
    geogebra.common.kernel.Matrix.Coords p1 -> d
    geogebra.common.kernel.Matrix.Coords p2 -> i
    double[] parameters -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void checkSphereVisible(geogebra.common.kernel.Matrix.Coords,double) -> a
    void drawSphere(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface,geogebra.common.kernel.Matrix.Coords,double) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean updateForItSelf() -> b
    double[] getMinMax() -> a
    void updateForView() -> g
    int getPickOrder() -> a
    boolean isTransparent() -> f
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    void updateMousePos(double,double) -> a_
    void updatePreview() -> e_
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible -> geogebra.common.h.b.a.A$a:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible TOTALLY_OUTSIDE -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible TOTALLY_INSIDE -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible CENTER_OUTSIDE -> c
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible CENTER_INSIDE -> d
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3D$Visible valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3DLimited -> geogebra.common.h.b.a.B:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D drawBottom -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawConic3D drawTop -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3DPart drawSide -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void drawGeometryForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    boolean updateForItSelf() -> b
    void updateForView() -> g
    void update() -> a
    void setWaitForUpdateVisualStyle() -> f
    void setWaitForUpdate() -> e
    void setWaitForReset() -> j
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    boolean isTransparent() -> f
    double getColorShift() -> c
geogebra.common.geogebra3D.euclidian3D.draw.DrawQuadric3DPart -> geogebra.common.h.b.a.C:
    double[] getMinMax() -> a
    void updateForView() -> g
    boolean doHighlighting() -> j
geogebra.common.geogebra3D.euclidian3D.draw.DrawRay3D -> geogebra.common.h.b.a.D:
    boolean updateForItSelf() -> b
    void updateForItSelf(boolean) -> a
    void updateDrawMinMax() -> l
    void updateForView() -> g
geogebra.common.geogebra3D.euclidian3D.draw.DrawSegment3D -> geogebra.common.h.b.a.E:
    geogebra.common.kernel.Matrix.Coords boundsMin -> a
    geogebra.common.kernel.Matrix.Coords boundsMax -> b
    boolean doHighlighting() -> j
    void updateForView() -> g
    geogebra.common.kernel.Matrix.Coords[] calcPoints() -> a
    void setStartEndPoints(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D -> geogebra.common.h.b.a.F:
    geogebra.common.kernel.kernelND.SurfaceEvaluable surfaceGeo -> a
    double uDelta -> c
    double vDelta -> d
    short rootMeshIntervals -> a
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail levelOfDetail -> a
    int maxSplit -> d
    int maxDraw -> e
    int cornerListSize -> f
    int maxSplitsInOneUpdate -> g
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[] currentSplit -> c
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[] nextSplit -> d
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[] cornerList -> e
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$CornerAndCenter[] drawList -> a
    int currentSplitIndex -> h
    int nextSplitIndex -> i
    int cornerListIndex -> j
    int currentSplitStoppedIndex -> k
    int loopSplitIndex -> a
    int drawListIndex -> b
    double[] cullingBox -> a
    boolean drawFromScratch -> c
    boolean splitsStartedNotFinished -> d
    boolean stillRoomLeft -> e
    geogebra.common.kernel.Matrix.Coords boundsMin -> a
    geogebra.common.kernel.Matrix.Coords boundsMax -> b
    int notDrawn -> c
    geogebra.common.kernel.Matrix.Coords3 evaluatedPoint -> a
    geogebra.common.kernel.Matrix.Coords3 evaluatedNormal -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$CornerAndCenter ccForStillToSplit -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[] cornerForStillToSplit -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[] cornerToDrawStillToSplit -> b
    double maxRWPixelDistance -> e
    double maxRWDistance -> f
    double maxRWDistanceNoAngleCheck -> a
    double maxBend -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$kernelND$SurfaceEvaluable$LevelOfDetail -> a
    void setLevelOfDetail() -> l
    void setTolerances() -> t
    void debug(java.lang.String) -> a
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    boolean updateForItSelf() -> b
    void draw() -> u
    void updateForView() -> g
    void setWaitForUpdate() -> e
    int getPickOrder() -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    boolean updateCullingBox() -> e
    boolean inCullingBox(geogebra.common.kernel.Matrix.Coords3) -> a
    void initBounds() -> v
    void updateBounds(geogebra.common.kernel.Matrix.Coords3) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner createRootMesh(double,double,int,double,double,int) -> a
    void splitRootMesh(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> b
    boolean split(boolean) -> a
    geogebra.common.kernel.Matrix.Coords3 newCoords3() -> a
    geogebra.common.kernel.Matrix.Coords3 evaluatePoint(double,double) -> a
    geogebra.common.kernel.Matrix.Coords3 evaluatePoint(double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    geogebra.common.kernel.Matrix.Coords3 evaluateNormal(geogebra.common.kernel.Matrix.Coords3,double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    void setBarycenter(geogebra.common.kernel.Matrix.Coords3,geogebra.common.kernel.Matrix.Coords3,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[]) -> a
    void setBarycenter(geogebra.common.kernel.Matrix.Coords3,geogebra.common.kernel.Matrix.Coords3,int,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[]) -> a
    double getDistance(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    double getDistance(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    double getDistanceNoLoop(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> b
    double getDistance(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    boolean isAngleOK(geogebra.common.kernel.Matrix.Coords3,geogebra.common.kernel.Matrix.Coords3,double) -> a
    boolean isAngleOK(double,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    boolean isAngleOK(double,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    boolean isAngleOK(double,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    boolean isAngleOKNoLoop(double,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> b
    void drawTriangle(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface,geogebra.common.kernel.Matrix.Coords3,geogebra.common.kernel.Matrix.Coords3,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    void drawTriangleCheckCorners(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface,geogebra.common.kernel.Matrix.Coords3,geogebra.common.kernel.Matrix.Coords3,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> b
    void addToNextSplit(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner newCorner(double,double) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner newCorner() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$kernelND$SurfaceEvaluable$LevelOfDetail() -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner -> geogebra.common.h.b.a.F$a:
    geogebra.common.kernel.Matrix.Coords3 p -> a
    geogebra.common.kernel.Matrix.Coords3 normal -> b
    double u -> a
    double v -> b
    boolean isNotEnd -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner a -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner l -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D this$0 -> a
    void set(double,double) -> a
    void set(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    void set(double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    void drawAsNextToSplit(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> a
    void drawAsStillToSplit(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> b
    void split(boolean) -> a
    void split(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    void addToDrawList(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner[]) -> a
    void findU(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,int,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    void findU(geogebra.common.kernel.Matrix.Coords3,double,double,double,double,int,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,boolean) -> a
    void findV(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,int,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> b
    void findV(geogebra.common.kernel.Matrix.Coords3,double,double,double,double,int,geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner,boolean) -> b
geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$CornerAndCenter -> geogebra.common.h.b.a.F$b:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner corner -> a
    geogebra.common.kernel.Matrix.Coords3 center -> a
    geogebra.common.kernel.Matrix.Coords3 centerNormal -> b
    geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D this$0 -> a
    void setCorner(geogebra.common.geogebra3D.euclidian3D.draw.DrawSurface3D$Corner) -> a
    geogebra.common.kernel.Matrix.Coords3 getCenter() -> a
    geogebra.common.kernel.Matrix.Coords3 getCenterNormal() -> b
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface) -> a
geogebra.common.geogebra3D.euclidian3D.draw.DrawText3D -> geogebra.common.h.b.a.G:
    geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D newDrawLabel3D(geogebra.common.geogebra3D.euclidian3D.EuclidianView3D) -> a
    void updateForView() -> g
    boolean updateForItSelf() -> b
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void updateLabel() -> h
    void updateLabelPosition() -> i
    geogebra.common.awt.GFont getFont() -> a
    boolean isLabelVisible() -> a
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a
    int getPickOrder() -> a
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
    boolean hitLabel(geogebra.common.geogebra3D.euclidian3D.Hitting,geogebra.common.geogebra3D.euclidian3D.Hits3D) -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
geogebra.common.geogebra3D.euclidian3D.draw.DrawVector3D -> geogebra.common.h.b.a.H:
    geogebra.common.kernel.Matrix.Coords boundsMin -> a
    geogebra.common.kernel.Matrix.Coords boundsMax -> b
    void setArrowTypeBefore(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> a
    void setArrowTypeAfter(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush) -> b
    void updateForView() -> g
    void setPreviewableCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.Matrix.Coords[] calcPoints() -> a
    void setStartEndPoints(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D -> geogebra.common.h.b.a.I:
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D m_view3D -> a
    boolean waitForUpdate -> b
    boolean labelWaitForUpdate -> c
    boolean waitForReset -> a
    int geomIndex -> a
    int surfaceIndex -> b
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D label -> a
    double zPickFar -> a
    double zPickNear -> b
    geogebra.common.kernel.Matrix.Coords color -> e
    geogebra.common.kernel.Matrix.Coords colorHighlighted -> f
    geogebra.common.kernel.Matrix.Coords surfaceColor -> g
    geogebra.common.kernel.Matrix.Coords surfaceColorHighlighted -> h
    boolean waitForUpdateVisualStyle -> d
    float alpha -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType lastPickingType -> a
    java.util.TreeMap trace -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceSettings traceSettingsCurrent -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex lastTraceIndex -> a
    java.util.ArrayList lastTraceIndices -> a
    geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D newDrawLabel3D(geogebra.common.geogebra3D.euclidian3D.EuclidianView3D) -> a
    void update() -> a
    boolean hasTrace() -> l
    void updateLabel() -> h
    void updateLabelPosition() -> i
    float getLabelOffsetX() -> a
    float getLabelOffsetY() -> b
    void updateForView() -> g
    boolean updateForItSelf() -> b
    void updateForHitting() -> m
    void setWaitForUpdate() -> e
    boolean waitForUpdate() -> m
    void setLabelWaitForUpdate() -> n
    void setWaitForReset() -> j
    void setWaitForUpdateVisualStyle() -> f
    void removeGeometryIndex(int) -> b
    void doRemoveGeometryIndex(int) -> a
    void setGeometryIndex(int) -> c
    int getGeometryIndex() -> c
    int getReusableGeometryIndex() -> d
    void setSurfaceIndex(int) -> d
    int getSurfaceIndex() -> e
    int getReusableSurfaceIndex() -> f
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D getView3D() -> a
    void setView3D(geogebra.common.geogebra3D.euclidian3D.EuclidianView3D) -> a
    boolean isVisible() -> c
    int getLayer() -> g
    void drawGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void drawHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void setLineTextureHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> i
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D drawForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,boolean,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D getDrawablePicked() -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D getDrawablePicked(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    void drawGeometryForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void drawGeometryForPickingIntersection(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> j
    void drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    boolean drawLabelForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    boolean drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,boolean) -> a
    boolean isLabelVisible() -> a
    int getPickOrder() -> a
    boolean isTransparent() -> f
    int comparePickingTo(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,boolean) -> a
    boolean doHighlighting() -> j
    void setHighlightingColor() -> o
    void setDrawingColor(geogebra.common.kernel.Matrix.Coords) -> a
    void setSurfaceHighlightingColor() -> p
    void updateColors() -> b
    void setColorsOutlined() -> q
    void setColors(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void setAlpha(float) -> a
    float getAlpha() -> c
    void updateAlpha() -> r
    boolean hasTransparentAlpha() -> n
    double getColorShift() -> c
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists,int) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists,int) -> b
    void disposePreview() -> f_
    void drawPreview(geogebra.common.awt.GGraphics2D) -> a_
    void setPickingType(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType getPickingType() -> a
    void recordTrace() -> s
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex newTraceIndex() -> a
    void drawTracesOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,boolean) -> a
    void drawGeom(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex) -> a
    void drawSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex) -> b
    void drawTracesTranspSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> k
    void drawTracesHidingSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> l
    void drawTracesNotTranspSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> m
    void clearTraceForViewChanged() -> k_
    void setZPick(double,double) -> c
    double getZPickNear() -> e
    double getZPickFar() -> f
    boolean hit(geogebra.common.geogebra3D.euclidian3D.Hitting) -> a
    boolean hitForList(geogebra.common.geogebra3D.euclidian3D.Hitting) -> b
    void hitIfVisibleAndPickable(geogebra.common.geogebra3D.euclidian3D.Hitting,geogebra.common.geogebra3D.euclidian3D.Hits3D) -> a
    boolean hitLabel(geogebra.common.geogebra3D.euclidian3D.Hitting,geogebra.common.geogebra3D.euclidian3D.Hits3D) -> a
    void resetHatch() -> d
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void enlargeBoundsToDiagonal(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double) -> a
    boolean isTracing() -> d
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceIndex -> geogebra.common.h.b.a.I$a:
    int geom -> a
    int surface -> b
    geogebra.common.kernel.Matrix.Coords center -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D this$0 -> a
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceSettings -> geogebra.common.h.b.a.I$b:
    geogebra.common.kernel.Matrix.Coords c -> a
    double a -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D this$0 -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceSettings clone() -> a
    geogebra.common.kernel.Matrix.Coords getColor() -> a
    double getAlpha() -> a
    void setAlpha(double) -> a
    int getInt(double) -> a
    int compareTo(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$TraceSettings) -> a
    java.lang.Object clone() -> clone
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$drawableComparator -> geogebra.common.h.b.a.I$c:
    int compare(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D$setComparator -> geogebra.common.h.b.a.I$d:
    int compare(java.util.TreeSet,java.util.TreeSet) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DCurves -> geogebra.common.h.b.a.J:
    void drawOutline(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawGeometryHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawHidden(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    boolean isTransparent() -> f
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    double getColorShift() -> c
    void setWaitForUpdateVisualStyle() -> f
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists -> geogebra.common.h.b.a.K:
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists$Drawable3DList[] lists -> a
    void add(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    void add(java.util.LinkedList) -> a
    void remove(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> b
    void remove(java.util.LinkedList) -> b
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists$Drawable3DList getList(int) -> a
    boolean containsClippedSurfaces() -> a
    boolean containsClippedCurves() -> b
    java.lang.String toString() -> toString
    void clear() -> a
    void updateAll() -> b
    void resetAllDrawables() -> c
    void resetAllLabels() -> d
    void resetAllVisualStyles() -> e
    void drawHiddenNotTextured(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawNotTransparentSurfaces(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void drawNotTransparentSurfacesClosed(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawNotTransparentSurfacesClipped(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    void drawHiddenTextured(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void drawTranspClosedNotCurved(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> g
    void drawTranspClosedCurved(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> h
    void drawTranspClipped(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> i
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> j
    void drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> k
    void drawSurfacesForHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> l
    void drawClosedSurfacesForHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> m
    void drawClippedSurfacesForHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> n
    void drawListForPickingPointOrCurve(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists$Drawable3DList) -> a
    void drawListForPickingSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists$Drawable3DList) -> b
    void drawForPickingPointsAndCurves(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> o
    void drawForPickingPointsAndCurves(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer,geogebra.common.geogebra3D.euclidian3D.draw.DrawList3D) -> a
    void drawForPickingSurfaces(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> p
    void hit(geogebra.common.geogebra3D.euclidian3D.Hitting,geogebra.common.geogebra3D.euclidian3D.Hits3D) -> a
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint) -> a
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists$Drawable3DList -> geogebra.common.h.b.a.K$a:
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists this$0 -> a
    java.lang.String toString() -> toString
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForDrawList3D -> geogebra.common.h.b.a.L:
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view3D -> a
    void add(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    void remove(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> b
    void drawTexts(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> q
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForView -> geogebra.common.h.b.a.M:
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view3D -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists$Drawable3DList listForPicking -> a
    void add(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    void remove(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> b
    void clear() -> a
    void drawHiddenTextured(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> f
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> j
    void drawLabel(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> k
    void drawSurfacesForHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> l
    void drawForPickingPointsAndCurves(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> o
    void drawLabelForPicking(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> q
    void enlargeBounds(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DSurfaces -> geogebra.common.h.b.a.N:
    boolean elementHasChanged -> b
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    void drawSurfaceGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a_
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> c
    void drawGeometryForPickingIntersection(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> j
    void drawNotTransparentSurface(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    void updateColors() -> b
    void updateForView() -> g
    void setWaitForUpdate() -> e
    boolean isTransparent() -> f
    void addToDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> a
    void removeFromDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DLists) -> b
    double getColorShift() -> c
geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer -> geogebra.common.h.b.b.a:
    void allocate(int) -> a
    void setLimit(int) -> b
    void put(double) -> a
    void set(java.util.ArrayList,int) -> a
    int capacity() -> a
    void array(float[]) -> a
    boolean isEmpty() -> a
    void setEmpty() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.GLFactory -> geogebra.common.h.b.b.b:
    geogebra.common.geogebra3D.euclidian3D.openGL.GLFactory prototype -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer newBuffer() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.Manager -> geogebra.common.h.b.b.c:
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterCursor cursor -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterViewInFrontOf viewInFrontOf -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush brush -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface surface -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterText text -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterMouseCursor mouseCursor -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterCompletingCursor completingCursor -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view3D -> a
    geogebra.common.kernel.Matrix.Coords clockU -> a
    geogebra.common.kernel.Matrix.Coords clockV -> b
    geogebra.common.kernel.Matrix.Coords cylinderStart -> c
    geogebra.common.kernel.Matrix.Coords cylinderEnd -> d
    void initGeometriesList() -> a
    void setRenderer(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer getRenderer() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterViewInFrontOf getViewInFrontOf() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush getBrush() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface getSurface() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterText getText() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterMouseCursor getMouseCursor() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterCompletingCursor getCompletingCursor() -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D getView3D() -> a
    int startNewList(int) -> a
    void endList() -> b
    void startGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type) -> a
    void startGeometryDirect(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type,int) -> a
    void endGeometry() -> c
    void endGeometryDirect() -> d
    int startPolygons(int) -> b
    void drawPolygon(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[]) -> a
    void drawPolygonConvex(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[],int,boolean) -> a
    void setDummyTexture() -> e
    void drawTriangleFan(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[],geogebra.common.geogebra3D.euclidian3D.PolygonTriangulation$TriangleFan) -> a
    void endPolygons() -> f
    void draw(int) -> a
    void drawLabel(int) -> b
    void remove(int) -> c
    void vertex(double,double,double) -> a
    void vertexDirect(double,double,double) -> b
    void vertexInt(int,int,int) -> a
    void vertex(geogebra.common.kernel.Matrix.Coords) -> a
    void vertexDirect(geogebra.common.kernel.Matrix.Coords3) -> a
    void triangleFanApex(geogebra.common.kernel.Matrix.Coords) -> b
    void triangleFanVertex(geogebra.common.kernel.Matrix.Coords) -> c
    void normal(double,double,double) -> c
    void normalDirect(double,double,double) -> d
    void normal(geogebra.common.kernel.Matrix.Coords) -> d
    void normalDirect(geogebra.common.kernel.Matrix.Coords3) -> b
    void texture(double,double) -> a
    void color(double,double,double,double) -> a
    void lineWidth(double) -> a
    void pointSize(double) -> b
    geogebra.common.kernel.Matrix.Coords getHigthlighting(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    int rectangle(int,int,int,int,int,int) -> a
    void rectangleGeometry(int,int,int,int,int) -> a
    int rectangleBounds(int,int,int,int,int,int) -> b
    int getLongitudeMax() -> a
    int getLongitudeDefault() -> b
    int getLongitude(double,double) -> a
    int drawPoint(int,geogebra.common.kernel.Matrix.Coords,int) -> a
    int drawSphere(int,geogebra.common.kernel.Matrix.Coords,double,int) -> a
    void draw(int,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type -> geogebra.common.h.b.b.c$a:
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type TRIANGLE_STRIP -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type TRIANGLE_FAN -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type TRIANGLES -> c
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type LINE_LOOP -> d
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders -> geogebra.common.h.b.b.d:
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer renderer -> a
    java.util.ArrayList vertices -> a
    java.util.ArrayList normals -> b
    java.util.ArrayList textures -> c
    java.util.ArrayList colors -> d
    int verticesLength -> a
    int verticesSize -> b
    int normalsLength -> c
    int normalsSize -> d
    int texturesLength -> e
    int texturesSize -> f
    int colorsLength -> g
    int colorsSize -> h
    java.util.TreeMap geometriesSetList -> a
    int geometriesSetMaxIndex -> i
    geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders$GeometriesSet currentGeometriesSet -> a
    java.util.Stack indicesRemoved -> a
    int currentOld -> j
    void initGeometriesList() -> a
    void setRenderer(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer getRenderer() -> a
    int startNewList(int) -> a
    void endList() -> b
    void startGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type) -> a
    void endGeometry() -> c
    int startPolygons(int) -> b
    void drawPolygon(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[]) -> a
    void endPolygons() -> f
    void remove(int) -> c
    void draw(int) -> a
    void drawLabel(int) -> b
    void texture(double,double) -> a
    void setDummyTexture() -> e
    void normal(double,double,double) -> c
    void vertex(double,double,double) -> a
    void vertexInt(int,int,int) -> a
    void color(double,double,double,double) -> a
    void pointSize(double) -> b
    void rectangleGeometry(int,int,int,int,int) -> a
    void startGeometryDirect(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type,int) -> a
    void vertexDirect(double,double,double) -> b
    void normalDirect(double,double,double) -> d
    void endGeometryDirect() -> d
geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders$GeometriesSet -> geogebra.common.h.b.b.d$a:
    geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders$Geometry currentGeometry -> a
    int currentGeometryIndex -> a
    int geometriesLength -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders this$0 -> a
    void reset() -> a
    int getGeometriesLength() -> a
    void startGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type) -> a
    void allocate(int) -> a
    void vertexDirect(double,double,double) -> a
    void normalDirect(double,double,double) -> b
    void endGeometry() -> b
    void setVertices(java.util.ArrayList,int) -> a
    void setNormals(java.util.ArrayList,int) -> b
    void setTextures(java.util.ArrayList,int) -> c
    void setColors(java.util.ArrayList,int) -> d
geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders$Geometry -> geogebra.common.h.b.b.d$b:
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type type -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer v -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer n -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer t -> c
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer c -> d
    int length -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShaders this$0 -> a
    void allocateBuffers(int) -> a
    void vertexDirect(double,double,double) -> a
    void normalDirect(double,double,double) -> b
    void end() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type getType() -> a
    void setVertices(java.util.ArrayList,int) -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer getVertices() -> a
    void setNormals(java.util.ArrayList,int) -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer getNormals() -> b
    void setTextures(java.util.ArrayList,int) -> c
    void setTexturesEmpty() -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer getTextures() -> c
    void setColors(java.util.ArrayList,int) -> d
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer getColors() -> d
    void setLength(int) -> b
    int getLength() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.ManagerShadersWithTemplates -> geogebra.common.h.b.b.e:
    int[] pointGeometry -> a
    int drawPoint(int,geogebra.common.kernel.Matrix.Coords,int) -> a
    void draw(int,geogebra.common.kernel.Matrix.Coords) -> a
    void draw(int) -> a
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush -> geogebra.common.h.b.b.f:
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager manager -> a
    int index -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrushSection start -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrushSection end -> b
    boolean justStarted -> a
    boolean notStarted -> b
    float thickness -> a
    int lineThickness -> b
    float scale -> b
    float length -> c
    float red -> d
    float green -> e
    float blue -> f
    float alpha -> g
    boolean hasColor -> c
    float texturePosZero -> h
    float textureValZero -> i
    float[] textureX -> a
    int textureTypeX -> c
    int textureTypeY -> d
    float curvePos -> j
    int arrowType -> e
    float ARROW_LENGTH -> k
    float ARROW_WIDTH -> l
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks ticks -> a
    float ticksDistance -> m
    float ticksOffset -> n
    double[] COSINUS -> a
    double[] SINUS -> b
    geogebra.common.kernel.Matrix.Coords drawNormal -> a
    geogebra.common.kernel.Matrix.Coords drawPos -> b
    geogebra.common.kernel.Matrix.Coords m -> c
    geogebra.common.kernel.Matrix.Coords vn1 -> d
    geogebra.common.kernel.Matrix.Coords tmpCoords -> e
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> f
    geogebra.common.kernel.Matrix.Coords tmpCoords3 -> g
    geogebra.common.kernel.Matrix.Coords tmpCoords4 -> h
    geogebra.common.kernel.Matrix.Coords f1 -> i
    geogebra.common.kernel.Matrix.Coords f2 -> j
    geogebra.common.kernel.Matrix.Coords vn2 -> k
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$euclidian3D$openGL$PlotterBrush$Ticks -> a
    void start(int) -> a
    int end() -> a
    void down(geogebra.common.kernel.Matrix.Coords) -> a
    void down(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void moveTo(geogebra.common.kernel.Matrix.Coords) -> b
    void curveTo(geogebra.common.kernel.Matrix.Coords) -> c
    void moveTo(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void join() -> a
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrushSection,double,double,int) -> a
    void vertex(geogebra.common.kernel.Matrix.Coords) -> d
    void segment(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void circle(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,int) -> a
    int calcArcLongitudesNeeded(double,double,double) -> a
    void arc(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,int) -> a
    void arcEllipse(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double) -> a
    void hyperbolaBranch(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double) -> b
    void parabola(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    float setThickness(int,float) -> a
    void setThickness(float) -> a
    float getThickness() -> a
    void setColor(geogebra.common.awt.GColor,float) -> a
    void setColor(geogebra.common.awt.GColor) -> a
    void setCurvePos(float) -> b
    void addCurvePos(float) -> c
    void setAffineTexture(float,float) -> a
    void setPlainTexture() -> b
    void setTextureType(int) -> c
    void setTextureX(float,float) -> b
    void setTextureX(float) -> g
    void setArrowType(int) -> b
    void setTicks(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks) -> a
    void setTicksDistance(float) -> d
    void setTicksOffset(float) -> e
    void drawTo(double[],boolean) -> a
    void lineTo(double[]) -> a
    void moveTo(double[]) -> b
    void corner() -> c
    void corner(double[]) -> c
    void firstPoint(double[],geogebra.common.euclidian.plot.CurvePlotter$Gap) -> a
    double[] newDoubleArray() -> a
    boolean copyCoords(geogebra.common.kernel.MyPoint,double[]) -> a
    void setLength(float) -> f
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$euclidian3D$openGL$PlotterBrush$Ticks() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks -> geogebra.common.h.b.b.f$a:
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks NONE -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks MAJOR -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks MAJOR_AND_MINOR -> c
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrush$Ticks valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrushSection -> geogebra.common.h.b.b.g:
    geogebra.common.kernel.Matrix.Coords center -> a
    geogebra.common.kernel.Matrix.Coords clockU -> b
    geogebra.common.kernel.Matrix.Coords clockV -> c
    geogebra.common.kernel.Matrix.Coords direction -> d
    double length -> a
    geogebra.common.kernel.Matrix.Coords normal -> e
    double normalDevD -> b
    double normalDevN -> c
    float thickness -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> f
    void set(geogebra.common.kernel.Matrix.Coords,float,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void set(geogebra.common.kernel.Matrix.Coords,float) -> a
    void set(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrushSection,geogebra.common.kernel.Matrix.Coords,float,boolean) -> a
    void getNormalAndPosition(double,double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getCenter() -> a
    void set(geogebra.common.geogebra3D.euclidian3D.openGL.PlotterBrushSection,geogebra.common.kernel.Matrix.Coords,float) -> a
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterCompletingCursor -> geogebra.common.h.b.b.h:
    float coeff -> a
    float coeff2 -> b
    int index -> b
    int indexCircle -> c
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager manager -> a
    float[] u -> a
    float[] v -> b
    int longitude -> a
    geogebra.common.kernel.Matrix.Coords p -> a
    float r -> c
    float g -> d
    float b -> e
    float a -> f
    void startGeometry() -> a
    void endGeometry() -> b
    void draw(double,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterCursor -> geogebra.common.h.b.b.i:
    int TYPE_CROSS2D -> a
    int TYPE_DIAMOND -> b
    int TYPE_CYLINDER -> c
    int TYPE_CROSS3D -> d
    int TYPE_ALREADY_XY -> e
    int TYPE_ALREADY_Z -> f
    int TYPE_CUBE -> g
    int TYPE_SPHERE -> h
    int TYPE_SPHERE_HIGHLIGHTED -> i
    int TYPE_LENGTH -> j
    float size -> a
    float thickness -> b
    float thickness2 -> c
    float depth -> d
    float size_start_move -> e
    float size_move -> f
    float thickness3 -> g
    float size_cube -> h
    int[] index -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager manager -> a
    float r -> i
    float g -> j
    float b -> k
    float a -> l
    void color(float,float,float,float) -> a
    void color(float,float,float) -> a
    void vertex(float,float,float) -> b
    void quad(float,float,float,float,float,float,float,float,float,float,float,float) -> a
    boolean isTypeAlready(int) -> a
    int getIndex(int) -> a
    void cursor(int) -> a
    void cursorCross2D() -> a
    void cursorCross3D() -> b
    void cursorDiamond() -> c
    void cursorCylinder() -> d
    void cursorSphere(float,float) -> a
    void quadSymxOyRotOz90SymOz(float,float,float,float,float,float,float,float,float,float,float,float) -> b
    void quadRotOz90SymOz(float,float,float,float,float,float,float,float,float,float,float,float) -> c
    void quadSymOz(float,float,float,float,float,float,float,float,float,float,float,float) -> d
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterMouseCursor -> geogebra.common.h.b.b.j:
    float coeff -> a
    int index -> a
    int getIndex() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterSurface -> geogebra.common.h.b.b.k:
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager manager -> a
    int index -> a
    geogebra.common.kernel.arithmetic.Functional2Var functional2Var -> a
    float uMin -> a
    float uMax -> b
    float vMin -> c
    float vMax -> d
    int uNb -> b
    int vNb -> c
    float du -> e
    float dv -> f
    float uMinFade -> g
    float uMaxFade -> h
    float vMinFade -> i
    float vMaxFade -> j
    float uMinFadeNb -> k
    float uMaxFadeNb -> l
    float vMinFadeNb -> m
    float vMaxFadeNb -> n
    geogebra.common.kernel.Matrix.Coords[] coordsArray -> a
    geogebra.common.kernel.Matrix.Coords m -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> b
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> c
    geogebra.common.kernel.Matrix.Coords tmpCoords3 -> d
    geogebra.common.kernel.Matrix.Coords center1 -> e
    geogebra.common.kernel.Matrix.Coords center2 -> f
    geogebra.common.kernel.Matrix.Coords n -> g
    geogebra.common.kernel.Matrix.Coords coords1 -> h
    geogebra.common.kernel.Matrix.Coords normal2 -> i
    void start(int) -> a
    void start(geogebra.common.kernel.arithmetic.Functional2Var,int) -> a
    int end() -> a
    void setU(float,float) -> a
    void setV(float,float) -> b
    void setNbU(int) -> b
    void setNbV(int) -> c
    void setUFading(float,float) -> c
    void setVFading(float,float) -> d
    void drawTriangle(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void drawQuad(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void startTriangles(int) -> d
    void vertexDirect(geogebra.common.kernel.Matrix.Coords3) -> a
    void normalDirect(geogebra.common.kernel.Matrix.Coords3) -> b
    void endGeometryDirect() -> a
    int calcSphereLongitudesNeeded(double,double) -> a
    void drawSphere(geogebra.common.kernel.Matrix.Coords,double,int) -> a
    void drawSphere(geogebra.common.kernel.Matrix.Coords,double,int,double,int) -> a
    void draw() -> b
    void drawSphere(int,geogebra.common.kernel.Matrix.Coords,double) -> a
    void cosSin(int,int,double[]) -> a
    void sphericalCoords(int,int,double,double[],geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords sphericalCoords(int,int,int,int) -> a
    void parallelogram(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double) -> a
    void ellipsePart(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double) -> a
    void ellipsePart(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double,boolean) -> a
    geogebra.common.kernel.Matrix.Coords cone(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double,float) -> a
    void cone(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double,double,boolean,boolean) -> a
    geogebra.common.kernel.Matrix.Coords cylinder(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double,double,boolean,boolean,int) -> a
    void hyperbolaPart(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double,double) -> b
    void parabola(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    void drawQuad(int,int) -> a
    void drawTNV(int,int) -> b
    void drawNCr(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> a
    void drawNCrm(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> b
    void drawNV(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    float getTextureCoord(int,int,float,float) -> a
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterText -> geogebra.common.h.b.b.l:
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager manager -> a
    void rectangle(int,int,int,int,int) -> a
    void rectangleBounds(int,int,int,int,int) -> b
geogebra.common.geogebra3D.euclidian3D.openGL.PlotterViewInFrontOf -> geogebra.common.h.b.b.m:
    float start -> a
    float end -> b
    int[] index -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager manager -> a
    int getIndex() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.Renderer -> geogebra.common.h.b.b.n:
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D[] drawHits -> a
    int pickingLoop -> a
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForView drawable3DLists -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view3D -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 m_drawingMatrix -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager geometryManager -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Textures textures -> a
    int m_arrowType -> l
    int dilation -> m
    double[] dilationValues -> a
    geogebra.common.awt.GPoint mouse -> a
    boolean waitForPick -> a
    boolean doPick -> h
    int pickingMode -> b
    boolean enableClipPlanes -> b
    boolean waitForUpdateClipPlanes -> c
    int oldGeoToPickSize -> c
    int geoToPickSize -> d
    boolean needsNewPickingBuffer -> d
    float SQRT2_DIV2 -> a
    float[] LIGHT_POSITION_W -> a
    float[] LIGHT_POSITION_D -> b
    boolean waitForUpdateClearColor -> e
    int left -> e
    int right -> f
    int bottom -> g
    int top -> h
    boolean waitForDisableStencilLines -> f
    boolean waitForSetStencilLines -> g
    double eyeToScreenDistance -> a
    double perspNear -> b
    double perspLeft -> c
    double perspRight -> d
    double perspBottom -> e
    double perspTop -> f
    double perspFar -> g
    double perspDistratio -> h
    double perspFocus -> i
    geogebra.common.kernel.Matrix.Coords perspEye -> a
    double glassesEyeSep -> j
    double glassesEyeSep1 -> k
    double glassesEyesSide -> l
    double glassesEyesSide1 -> m
    double glassesEyesHeight -> n
    double glassesEyesHeight1 -> o
    int eye -> i
    double obliqueX -> p
    double obliqueY -> q
    geogebra.common.kernel.Matrix.Coords obliqueOrthoDirection -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType exportType -> a
    int export_n -> j
    double export_val -> r
    double export_min -> s
    double export_max -> t
    double export_step -> u
    int export_i -> k
    geogebra.common.kernel.geos.GeoNumeric export_num -> a
    void setDrawable3DLists(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3DListsForView) -> a
    void updateViewAndDrawables() -> z_
    void initRenderingValues() -> b
    void drawScene() -> c
    void setDrawLeft() -> d
    void setDrawRight() -> e
    void setBufferLeft() -> f
    void setBufferRight() -> g
    void clearColorBuffer() -> h
    void clearDepthBuffer() -> i
    void setStencilFunc(int) -> a
    void exportImage() -> j
    void enableCulling() -> k
    void disableCulling() -> l
    void setCullFaceFront() -> m
    void setCullFaceBack() -> n
    void disableBlending() -> o
    void enableBlending() -> p
    void drawTranspNotCurved() -> q
    void drawTransp() -> r
    void setLight(int) -> b
    void drawNotTransp() -> s
    void enableTextures() -> t
    void disableTextures() -> u
    void enableMultisample() -> v
    void disableMultisample() -> w
    void enableAlphaTest() -> x
    void disableAlphaTest() -> y
    void disableLighting() -> z
    void enableLighting() -> A
    void initLighting() -> B
    void setLabelOrigin(geogebra.common.kernel.Matrix.Coords) -> a
    void drawFaceToScreen() -> C
    void setEnableClipPlanes(boolean) -> a
    void enableClipPlanes() -> D
    void disableClipPlanes() -> E
    void enableClipPlanesIfNeeded() -> F
    void disableClipPlanesIfNeeded() -> G
    void setClipPlanes(double[][]) -> a
    void setMatrixView() -> H
    void unsetMatrixView() -> I
    void enableDepthMask() -> J
    void disableDepthMask() -> K
    void enableDepthTest() -> L
    void disableDepthTest() -> M
    void setColorMask(boolean,boolean,boolean,boolean) -> a
    void draw() -> N
    void setLineWidth(double) -> a
    void setColor(geogebra.common.kernel.Matrix.Coords) -> a_
    void setColor(geogebra.common.awt.GColor) -> a
    void setColor(float,float,float,float) -> a
    void setLayer(float) -> a
    void setMatrix(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getMatrix() -> a
    void initMatrix() -> O
    void resetMatrix() -> P
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager getGeometryManager() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Textures getTextures() -> a
    void drawCursor(int) -> c
    void drawCompletingCursor(double,geogebra.common.kernel.Matrix.Coords) -> a
    void drawViewInFrontOf() -> Q
    void drawMouseCursor() -> R
    int startPolygons(int) -> a
    void endPolygons() -> S
    void setMouseLoc(geogebra.common.awt.GPoint,int) -> a
    void setHits(geogebra.common.awt.GPoint,int) -> b
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint) -> a
    void addOneGeoToPick() -> T
    void removeOneGeoToPick() -> U
    geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D[] createDrawableListForPicking(int) -> a
    void setGLForPicking() -> V
    void pushSceneMatrix() -> W
    boolean intersectsMouse3D(double,double,double) -> a
    void doPick() -> X
    void pickIntersectionCurves() -> Y
    void glLoadName(int) -> d
    void pick(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void pick(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D,boolean,geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType) -> a
    void pickLabel(geogebra.common.geogebra3D.euclidian3D.draw.Drawable3D) -> a
    double getScreenZFromPickingDepth(double) -> a
    void setLightPosition() -> Z
    float[] getLightPosition() -> a
    void setLightPosition(float[]) -> a
    void setLightAmbiantDiffuse(float,float,float,float) -> b
    void setWaitForUpdateClearColor() -> aa
    void updateClearColor() -> ab
    void setClearColor(float,float,float,float) -> c
    void initShaders() -> ac
    void useShaderProgram() -> ad
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager createManager() -> b
    void setColorMaterial() -> ae
    void setLightModel() -> af
    void setAlphaFunc() -> ag
    void resumeAnimator() -> ah
    int getLeft() -> a
    int getRight() -> b
    int getWidth() -> c
    int getBottom() -> d
    int getTop() -> e
    int getHeight() -> f
    int getVisibleDepth() -> g
    void setView() -> ai
    void setWaitForDisableStencilLines() -> aj
    void disableStencilLines() -> ak
    void setWaitForSetStencilLines() -> al
    void setStencilLines() -> am
    void setProjectionMatrixForPicking() -> an
    void setProjectionMatrix() -> ao
    void updateOrthoValues() -> ap
    void viewOrtho() -> aq
    void setNear(double) -> b
    void updatePerspValues() -> ar
    void updatePerspEye() -> aK
    geogebra.common.kernel.Matrix.Coords getPerspEye() -> a
    double getEyeSep() -> a
    void viewPersp() -> as
    void updateGlassesValues() -> at
    void viewGlasses() -> au
    void setColorMask() -> av
    void updateProjectionObliqueValues() -> aw
    void viewOblique() -> ax
    double getObliqueX() -> b
    double getObliqueY() -> c
    geogebra.common.kernel.Matrix.Coords getObliqueOrthoDirection() -> b
    void setView(int,int,int,int) -> a
    void exportToClipboard() -> ay
    void uploadToGeoGebraTube() -> az
    double getEyeToScreenDistance() -> d
    void enableTextures2D() -> aA
    void disableTextures2D() -> aB
    void genTextures2D(int,int[]) -> a
    void bindTexture(int) -> e
    geogebra.common.awt.GBufferedImage createBufferedImage(geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D) -> a
    void createAlphaTexture(geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D,geogebra.common.awt.GBufferedImage) -> a
    int firstPowerOfTwoGreaterThan(int) -> b
    void textureImage2D(int,int,byte[]) -> a
    void setTextureLinear() -> aC
    void init() -> aD
    void setDepthFunc() -> aE
    void enablePolygonOffsetFill() -> aF
    void setBlendFunc() -> aG
    void enableNormalNormalized() -> aH
    void enableFading() -> aI
    void enableDash() -> aJ
    void setDashTexture(int) -> f
    boolean useLogicalPicking() -> a
geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType -> geogebra.common.h.b.b.n$a:
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType NONE -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType ANIMATEDGIF -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType THUMBNAIL_IN_GGBFILE -> c
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType PNG -> d
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType CLIPBOARD -> e
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType UPLOAD_TO_GEOGEBRATUBE -> f
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$ExportType valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType -> geogebra.common.h.b.b.n$b:
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType POINT_OR_CURVE -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType SURFACE -> b
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType LABEL -> c
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType[] values() -> values
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer$PickingType valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.euclidian3D.openGL.RendererShadersInterface -> geogebra.common.h.b.b.o:
    void loadColorBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> a
    void loadNormalBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> b
    void loadTextureBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> c
    void loadVertexBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> d
    void setCenter(geogebra.common.kernel.Matrix.Coords) -> b
    void resetCenter() -> a
    boolean areTexturesEnabled() -> b
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type,int) -> a
geogebra.common.geogebra3D.euclidian3D.openGL.Textures -> geogebra.common.h.b.b.p:
    geogebra.common.util.ImageManager imageManager -> a
    int[] texturesIndex -> a
    int DASH_INIT -> a
    int DASH_NONE -> b
    int DASH_SHORT -> c
    int DASH_LONG -> d
    int DASH_DOTTED -> e
    int DASH_DOTTED_DASHED -> f
    int DASH_NONE_HIDDEN -> g
    int DASH_SHORT_HIDDEN -> h
    int DASH_LONG_HIDDEN -> i
    int DASH_DOTTED_HIDDEN -> j
    int DASH_DOTTED_DASHED_HIDDEN -> k
    int DASH_NUMBER -> m
    boolean[][] DASH_DESCRIPTION -> a
    float[][] DASH_SHADERS_VALUES -> a
    int FADING -> l
    int TEXTURES_NUMBER -> n
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer renderer -> a
    void init() -> a
    void loadTextureLinear(int) -> a
    void setTextureLinear(int) -> b
    void initDashTexture(int,boolean[]) -> a
    void setDashFromLineType(int) -> c
    void setDashFromLineTypeHidden(int) -> d
    void initFadingTexture(int) -> e
    void setTextureLinear() -> b
    int getIndex(int) -> a
geogebra.common.geogebra3D.euclidianFor3D.CurveEvaluableFor3D -> geogebra.common.h.c.a:
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D parent -> a
    double[] parentOut -> a
    geogebra.common.geogebra3D.euclidianFor3D.CurveEvaluableFor3D$FunMustBeZero funZ -> a
    void evaluateCurve(double,double[]) -> a
    double[] getDefinedInterval(double,double) -> a
    double[] newDoubleArray() -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean getTrace() -> a
    boolean isClosedPath() -> b
    boolean isFunctionInX() -> c
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
    double distanceMax(double[],double[]) -> a
geogebra.common.geogebra3D.euclidianFor3D.CurveEvaluableFor3D$FunMustBeZero -> geogebra.common.h.c.a$a:
    geogebra.common.kernel.roots.RealRootFunction parentFun -> a
    geogebra.common.geogebra3D.euclidianFor3D.CurveEvaluableFor3D this$0 -> a
    void setParentFun(geogebra.common.kernel.roots.RealRootFunction) -> a
    double evaluate(double) -> a
geogebra.common.geogebra3D.euclidianFor3D.DrawAngleFor3D -> geogebra.common.h.c.b:
    boolean inView(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInView(geogebra.common.kernel.Matrix.Coords) -> a
    double getAngleStart(double,double) -> a
geogebra.common.geogebra3D.euclidianFor3D.EuclidianControllerFor3DCompanion -> geogebra.common.h.c.c:
    geogebra.common.kernel.geos.GeoAngle createAngle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] createAngles(geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoAngle createAngle(geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoAngle createAngle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue,boolean) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] translate(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] mirrorAtPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] mirrorAtLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] dilateFromPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND getSingleIntersectionPointFrom2D(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> b
    geogebra.common.kernel.kernelND.GeoPointND getSingleIntersectionPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] orthogonal(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(java.lang.String,boolean,geogebra.common.kernel.Path,double,double,double,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement midpoint(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement midpoint(geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement midpoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] regularPolygon(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.algos.AlgoElement segmentAlgo(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] createCircle2(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] createCircle2For3D(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.kernelND.GeoConicND circle(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoConicND circleFor3D(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.geos.GeoElement[] angularBisector(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement angularBisector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement circleArcSector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.geos.GeoElement semicircle(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement circumcircleArc(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement circumcircleSector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.geos.GeoElement[] tangent(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement polarLine(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement diameterLine(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement diameterLine(geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement lineBisector(geogebra.common.kernel.kernelND.GeoSegmentND) -> b
    geogebra.common.kernel.geos.GeoElement lineBisector(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.kernelND.GeoConicND conic5(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND ellipseHyperbola(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND parabola(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement vectorPoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement locus(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> d
geogebra.common.geogebra3D.euclidianFor3D.EuclidianViewFor3DCompanion -> geogebra.common.h.c.d:
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    geogebra.common.euclidian.DrawableND newDrawable(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.awt.GAffineTransform getTransform(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[]) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsForView(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void getXMLid(java.lang.StringBuilder) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.geogebra3D.euclidianForPlane.EuclidianControllerForPlaneCompanion -> geogebra.common.h.d.a:
    geogebra.common.kernel.geos.GeoElement[] createCircle2(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoConicND circle(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND getSingleIntersectionPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsFromView(double,double) -> a
    void movePoint(boolean,geogebra.common.euclidian.event.AbstractEvent) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,geogebra.common.kernel.Path,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint(boolean,geogebra.common.kernel.Region,boolean) -> a
    void processModeLock(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void processModeLock(geogebra.common.kernel.Path) -> a
    java.util.ArrayList removeParentsOfView(java.util.ArrayList) -> a
    boolean viewOrientationForClockwise(boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] rotateByAngle(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion -> geogebra.common.h.d.b:
    geogebra.common.kernel.kernelND.ViewCreator plane -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 transform -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 planeMatrix -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 transformedMatrix -> c
    geogebra.common.kernel.Matrix.CoordMatrix inverseTransformedMatrix -> a
    int transformMirror -> a
    int transformRotate -> b
    geogebra.common.gui.layout.DockPanel panel -> a
    int id -> c
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void initView(geogebra.common.kernel.kernelND.ViewCreator) -> a
    void setPlane(geogebra.common.kernel.kernelND.ViewCreator) -> b
    geogebra.common.kernel.kernelND.ViewCreator getPlane() -> a
    void updateScaleRegardingView() -> c
    void updateCenterAndOrientationRegardingView() -> d
    geogebra.common.kernel.Matrix.CoordMatrix getMatrix() -> a
    geogebra.common.kernel.Matrix.CoordMatrix getInverseMatrix() -> b
    void updateMatrix() -> e
    void setTransformRegardingView() -> f
    void setTransform() -> g
    void getXML(java.lang.StringBuilder,boolean) -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void setXYMinMaxForUpdateSize() -> a
    geogebra.common.euclidian.draw.DrawAngle newDrawAngle(geogebra.common.kernel.geos.GeoAngle) -> a
    boolean isDefault2D() -> a
    void updateForPlane() -> h
    boolean isVisibleInThisView(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsForView(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsFromView(geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords getCoordsFromView(double,double) -> a
    java.lang.String getFromPlaneString() -> a
    java.lang.String getTranslatedFromPlaneString() -> b
    geogebra.common.kernel.kernelND.GeoPlaneND getPlaneContaining() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND getDirection() -> a
    boolean goToZPlus(geogebra.common.kernel.Matrix.Coords) -> a
    boolean viewOrientationForClockwise(boolean) -> b
    boolean isMoveable(geogebra.common.kernel.geos.GeoElement) -> b
    boolean hasForParent(geogebra.common.kernel.geos.GeoElement) -> c
    java.util.ArrayList getFreeInputPoints(geogebra.common.kernel.algos.AlgoElement) -> a
    void getXMLid(java.lang.StringBuilder) -> a
    void paint(geogebra.common.awt.GGraphics2D) -> a
    void addExistingGeos() -> i
    void attachView() -> b
    boolean showGrid(boolean) -> a
    void setDockPanel(geogebra.common.gui.layout.DockPanel) -> a
    int getId() -> a
    void doRemove() -> j
    void removeFromGuiAndKernel() -> k
    void updateAllDrawables(boolean) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> b
geogebra.common.geogebra3D.io.MyXMLHandler3D -> geogebra.common.h.e.a:
    void startEuclidianView3DElement(java.lang.String,java.util.LinkedHashMap) -> a
    void startGeoElement(java.lang.String,java.util.LinkedHashMap) -> b
    boolean handleCoordSystem3D(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> g
    boolean handleFading(java.util.LinkedHashMap) -> a
    boolean handleLevelOfDetailQuality(java.util.LinkedHashMap) -> b
    boolean handlePlane(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> a
    boolean handlePlate(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> b
    boolean handleYAxisIsUp(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> c
    boolean handleLight(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> d
    boolean handleGrid(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> a
    boolean handleClipping(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> e
    boolean handleProjection(geogebra.common.main.settings.EuclidianSettings3D,java.util.LinkedHashMap) -> f
    geogebra.common.kernel.kernelND.GeoPointND handleAbsoluteStartPoint(java.util.LinkedHashMap) -> a
    void startEuclidianViewElementCheckViewId(java.lang.String,java.util.LinkedHashMap) -> c
    boolean startEuclidianViewElementSwitch(java.lang.String,java.util.LinkedHashMap,char) -> a
    boolean handleTransformForPlane(geogebra.common.geogebra3D.main.settings.EuclidianSettingsForPlane,java.util.LinkedHashMap) -> a
    void handleMatrixConicOrQuadric(java.util.LinkedHashMap) -> a
geogebra.common.geogebra3D.io.layout.DockPanelDataForPlane -> geogebra.common.h.e.a.a:
    boolean storeXml() -> a
    java.lang.String getXml() -> a
    int getViewIdForXML() -> a
geogebra.common.geogebra3D.kernel3D.Construction3D -> geogebra.common.h.f.a:
    geogebra.common.geogebra3D.kernel3D.geos.GeoAxis3D zAxis3D -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3DConstant xOyPlane -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSpace space -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoClippingCube3D clippingCube -> a
    java.lang.String zAxis3DLocalName -> a
    java.lang.String xOyPlaneLocalName -> b
    java.lang.String spaceLocalName -> c
    void initAxis() -> a
    geogebra.common.kernel.kernelND.GeoAxisND getXAxis3D() -> a
    geogebra.common.kernel.kernelND.GeoAxisND getYAxis3D() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoAxis3D getZAxis3D() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3DConstant getXOYPlane() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSpace getSpace() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoClippingCube3D getClippingCube() -> a
    void newConstructionDefaults() -> b
    void initGeoTables() -> c
    void updateLocalAxesNames() -> d
    geogebra.common.kernel.Construction$Constants isConstantElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.ConstructionDefaults3D -> geogebra.common.h.f.b:
    geogebra.common.awt.GColor colCurveCartesian3D -> a
    geogebra.common.awt.GColor colPlane3D -> p
    geogebra.common.awt.GColor colPolyhedron -> q
    geogebra.common.awt.GColor colIntersectionCurve -> b
    geogebra.common.awt.GColor colXAXIS -> c
    geogebra.common.awt.GColor colYAXIS -> d
    geogebra.common.awt.GColor colZAXIS -> e
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void createDefaultGeoElements() -> a
    int getDefaultType(geogebra.common.kernel.geos.GeoElement) -> a
    void getXML(geogebra.common.kernel.geos.GeoElement,java.lang.StringBuilder) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.geogebra3D.kernel3D.Kernel3D -> geogebra.common.h.f.c:
    double zmin3 -> b
    double zmax3 -> c
    double zscale3 -> d
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    geogebra.common.kernel.kernelND.GeoAxisND getXAxis3D() -> a
    geogebra.common.kernel.kernelND.GeoAxisND getYAxis3D() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoAxis3D getZAxis3D() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3DConstant getXOYPlane() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoClippingCube3D getClippingCube() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSpace getSpace() -> a
    java.lang.String getModeText(int) -> a
    geogebra.common.kernel.Manager3DInterface newManager3D(geogebra.common.kernel.Kernel) -> a
    boolean isZvarAllowed() -> a
    void newConstruction() -> a
    geogebra.common.io.MyXMLHandler newMyXMLHandler(geogebra.common.kernel.Kernel,geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator newExpressionNodeEvaluator(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.commands.AlgebraProcessor newAlgebraProcessor(geogebra.common.kernel.Kernel) -> a
    java.util.TreeSet getPointSet() -> a
    geogebra.common.kernel.geos.GeoElement createGeoElement(geogebra.common.kernel.Construction,java.lang.String) -> a
    boolean handleCoords(geogebra.common.kernel.geos.GeoElement,java.util.LinkedHashMap) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D getDefaultPlane() -> a
    geogebra.common.kernel.geos.GeoElement copy3D(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement copyInternal3D(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.kernelND.GeoRayND RayND(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND SegmentND(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] PolygonND(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLineND(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> b
    geogebra.common.kernel.algos.AlgoDispatcher newAlgoDispatcher(geogebra.common.kernel.Construction) -> a
    double getZmax(int) -> a
    double getZmin(int) -> b
    double getZscale(int) -> c
    void setEuclidianView3DBounds(int,double,double,double,double,double,double,double,double,double) -> a
    geogebra.common.kernel.kernelND.GeoPointND RigidPolygonPointOnCircle(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void RigidPolygonAddEndOfCommand(java.lang.StringBuilder,boolean) -> a
    geogebra.common.kernel.geos.GeoElement wrapInVector(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoCoordSys2D getXOYPlane() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND getSpace() -> a
    geogebra.common.kernel.kernelND.GeoAxisND getZAxis3D() -> c
    geogebra.common.kernel.geos.GeoElement getClippingCube() -> a
    geogebra.common.kernel.kernelND.GeoPlaneND getDefaultPlane() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.geogebra3D.kernel3D.MyPoint3D -> geogebra.common.h.f.d:
    double z -> a
    double distSqr(double,double,double) -> a
    java.lang.String toString() -> toString
    double getZ() -> c
    double distance(double,double,double) -> b
    void setZ(double) -> c
    double distance(geogebra.common.awt.GPoint2D) -> a
    boolean isFinite() -> a
    geogebra.common.geogebra3D.kernel3D.MyPoint3D barycenter(double,geogebra.common.kernel.MyPoint) -> a
    geogebra.common.kernel.MyPoint barycenter(double,geogebra.common.kernel.MyPoint) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleConic3D -> geogebra.common.h.f.a.a:
    geogebra.common.kernel.Matrix.Coords o -> a
    geogebra.common.kernel.Matrix.Coords getVectorCoords() -> a
    geogebra.common.kernel.Matrix.Coords getOrigin() -> b
    void setOrigin() -> l_
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleElement3D -> geogebra.common.h.f.a.b:
    geogebra.common.kernel.Matrix.Coords vn -> a
    geogebra.common.kernel.Matrix.Coords v2 -> b
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.Matrix.Coords getVectorCoords() -> a
    geogebra.common.kernel.Matrix.Coords getOrigin() -> b
    void setOrigin() -> l_
    void compute() -> b
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleLinePlane -> geogebra.common.h.f.a.c:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D p -> a
    geogebra.common.kernel.geos.GeoAngle angle -> a
    geogebra.common.kernel.Matrix.Coords vn -> a
    geogebra.common.kernel.Matrix.Coords o -> b
    geogebra.common.kernel.Matrix.Coords v1 -> c
    geogebra.common.kernel.Matrix.Coords v2 -> d
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleLinePlane copy() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void initCoords() -> c
    void compute() -> b
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleLines3D -> geogebra.common.h.f.a.d:
    geogebra.common.kernel.Matrix.Coords vn -> a
    geogebra.common.kernel.Matrix.Coords o -> b
    geogebra.common.kernel.Matrix.Coords v1 -> c
    geogebra.common.kernel.Matrix.Coords v2 -> d
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleLines3D copy() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleLines3DOrientation -> geogebra.common.h.f.a.e:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    void setInput(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setInputOutput() -> a_
geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePlanes -> geogebra.common.h.f.a.f:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D p -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D q -> b
    geogebra.common.kernel.geos.GeoAngle angle -> a
    geogebra.common.kernel.Matrix.Coords vn -> a
    geogebra.common.kernel.Matrix.Coords o -> b
    geogebra.common.kernel.Matrix.Coords v1 -> c
    geogebra.common.kernel.Matrix.Coords v2 -> d
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePlanes copy() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void initCoords() -> c
    void compute() -> b
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePoint3D -> geogebra.common.h.f.a.g:
    geogebra.common.kernel.Matrix.Coords getVectorCoords() -> a
    geogebra.common.kernel.Matrix.Coords getOrigin() -> b
    void setOrigin() -> l_
geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePoints3D -> geogebra.common.h.f.a.h:
    geogebra.common.kernel.Matrix.Coords center -> a
    geogebra.common.kernel.Matrix.Coords v1 -> b
    geogebra.common.kernel.Matrix.Coords v2 -> c
    geogebra.common.kernel.Matrix.Coords vn -> d
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    void setForceNormalVector() -> n_
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
    double acos(double) -> a
    geogebra.common.kernel.Matrix.Coords forceNormalVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords crossXorY(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePoints3D copy() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePoints3DOrientation -> geogebra.common.h.f.a.i:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    void setInput(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    void setInputOutput() -> a_
    void compute() -> b
    void setForceNormalVector() -> n_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePolygon3D -> geogebra.common.h.f.a.j:
    geogebra.common.kernel.algos.AlgoAnglePointsND newAlgoAnglePoints(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAnglePolygon3DOrientation -> geogebra.common.h.f.a.k:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    geogebra.common.kernel.algos.AlgoAnglePointsND newAlgoAnglePoints(geogebra.common.kernel.Construction) -> a
    void setPolyAndOrientation(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setInputOutput() -> a_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleVector3D -> geogebra.common.h.f.a.l:
    geogebra.common.kernel.Matrix.Coords o -> a
    geogebra.common.kernel.Matrix.Coords getVectorCoords() -> a
    geogebra.common.kernel.Matrix.Coords getOrigin() -> b
    void setOrigin() -> l_
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleVectors3D -> geogebra.common.h.f.a.m:
    geogebra.common.kernel.Matrix.Coords vn -> a
    geogebra.common.kernel.Matrix.Coords o -> b
    geogebra.common.kernel.Matrix.Coords v1 -> c
    geogebra.common.kernel.Matrix.Coords v2 -> d
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngleVectors3DOrientation -> geogebra.common.h.f.a.n:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    void setInput(geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    void setInputOutput() -> a_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngularBisectorLines3D -> geogebra.common.h.f.a.o:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.kernelND.GeoLineND h -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D[] bisector -> a
    geogebra.common.kernel.geos.GeoVector[] wv -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D B -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D[] getLines() -> a
    geogebra.common.kernel.kernelND.GeoLineND getg() -> a
    geogebra.common.kernel.kernelND.GeoLineND geth() -> b
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngularBisectorPoints3D -> geogebra.common.h.f.a.p:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D bisector -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInput(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setOutput() -> e
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    void compute() -> b
    void setCoordFromFiniteB(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAngularBisectorPoints3DOrientation -> geogebra.common.h.f.a.q:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    void setInput(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setCoordFromFiniteB(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoArchimedeanSolid -> geogebra.common.h.f.a.r:
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygons -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegments -> b
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoDirectionND v -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 matrix -> a
    geogebra.common.kernel.Matrix.Coords[] coords -> a
    geogebra.common.kernel.commands.Commands name -> a
    double volumeFactor -> a
    double heightFactor -> b
    double areaFactor -> c
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND getA() -> a
    geogebra.common.kernel.kernelND.GeoPointND getB() -> b
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    void setInput() -> c
    void createOutputSegments() -> d
    void createOutputPolygons() -> e
    void updateOutput() -> o_
    void createPolyhedron() -> g
    void compute() -> b
    void setVolumeAreaAndHeightFactors() -> l
    void setUndefined() -> m
    void updateDependentGeos() -> h
    geogebra.common.kernel.commands.Commands getClassName() -> a
    boolean isFirstInputPointVisible() -> a
    boolean isFirstInputPointLabelVisible() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoArchimedeanSolidThreePoints -> geogebra.common.h.f.a.s:
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygons -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegments -> b
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 matrix -> a
    geogebra.common.kernel.Matrix.Coords[] coords -> a
    geogebra.common.kernel.commands.Commands name -> a
    geogebra.common.kernel.Matrix.Coords v1l -> a
    geogebra.common.kernel.Matrix.Coords v2l -> b
    geogebra.common.kernel.Matrix.Coords vnl -> c
    geogebra.common.kernel.Matrix.Coords tmpCoords -> d
    double volumeFactor -> a
    double heightFactor -> b
    double areaFactor -> c
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    void setLabels(java.lang.String[]) -> a
    void setInput() -> c
    void createOutputSegments() -> d
    void createOutputPolygons() -> e
    void updateOutput() -> o_
    void createPolyhedron() -> g
    void compute() -> b
    void setVolumeAreaAndHeightFactors() -> l
    void setUndefined() -> m
    void updateDependentGeos() -> h
    geogebra.common.kernel.commands.Commands getClassName() -> a
    boolean isFirstInputPointVisible() -> a
    boolean isFirstInputPointLabelVisible() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoAreaPoints3D -> geogebra.common.h.f.a.t:
    geogebra.common.kernel.Matrix.CoordSys coordSys -> a
    geogebra.common.kernel.geos.GeoPoint[] points2D -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> a
    void createOutput(geogebra.common.kernel.Construction) -> a
    void initCoords() -> c
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoAxes3D -> geogebra.common.h.f.a.u:
    geogebra.common.kernel.Matrix.Coords midpoint -> a
    void createInput() -> c
    void compute() -> b
    void setAxisCoords(int) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCenterConic3D -> geogebra.common.h.f.a.v:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    void setCoords(double,double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCenterQuadric -> geogebra.common.h.f.a.w:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    void setCoords() -> c
geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DAxisPoint -> geogebra.common.h.f.a.x:
    geogebra.common.kernel.kernelND.GeoLineND axis -> a
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D circle -> a
    geogebra.common.kernel.Matrix.CoordSys coordsys -> a
    geogebra.common.kernel.Matrix.Coords center -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getCircle() -> a
    void compute() -> b
    void setCircle(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DCenterPointPoint -> geogebra.common.h.f.a.y:
    double getRadius() -> a
    boolean setCoordSys() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String getCommandString() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DPointDirection -> geogebra.common.h.f.a.z:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.geos.GeoElement secondInput -> a
    geogebra.common.kernel.geos.GeoElement forAxis -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D circle -> a
    geogebra.common.kernel.Matrix.CoordSys coordsys -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getCircle() -> a
    void compute() -> b
    boolean setCoordSys() -> a
    double getRadius() -> a
    geogebra.common.kernel.kernelND.GeoPointND getCenter() -> a
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> a
    geogebra.common.kernel.geos.GeoElement getForAxis() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getCommandString() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DPointPointDirection -> geogebra.common.h.f.a.A:
    double getRadius() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String getCommandString() -> a
    boolean setCoordSys() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DPointRadiusDirection -> geogebra.common.h.f.a.B:
    double getRadius() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String getCommandString() -> a
    boolean setCoordSys() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DThreePoints -> geogebra.common.h.f.a.C:
    geogebra.common.kernel.Matrix.CoordSys coordSys -> a
    geogebra.common.kernel.geos.GeoPoint[] points2D -> a
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    void setPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoPoint getPoint2D(int) -> a
    void createCircle() -> c
    void setInput() -> d
    void setOutput() -> e
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoClosestPoint3D -> geogebra.common.h.f.a.D:
    void createOutputPoint(geogebra.common.kernel.Construction,geogebra.common.kernel.Path) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setCoords() -> c
    void addIncidence() -> d
geogebra.common.geogebra3D.kernel3D.algos.AlgoClosestPointLines3D -> geogebra.common.h.f.a.E:
    geogebra.common.kernel.kernelND.GeoLineND g3D -> a
    geogebra.common.kernel.kernelND.GeoLineND h3D -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D geoPointOnG -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getPoint() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoClosestPointToRegion3D -> geogebra.common.h.f.a.F:
    geogebra.common.kernel.Region r -> a
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoPointND geoPointOnRegion -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getOutputPoint() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCommonTangents3D -> geogebra.common.h.f.a.G:
    geogebra.common.kernel.Matrix.Coords[] coords2D -> a
    double[] polarCoords -> a
    geogebra.common.kernel.Matrix.Coords polarOrigin -> a
    geogebra.common.kernel.Matrix.Coords polarDirection -> b
    geogebra.common.kernel.Matrix.Coords[][] midpointProjected -> a
    void createPoints(geogebra.common.kernel.Construction) -> a
    void setCoordsAsPoint(int,double,double) -> a
    void setCoordsAsVector(int,double,double) -> b
    void initTangents() -> c
    geogebra.common.kernel.kernelND.AlgoIntersectND createAlgo(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.kernelND.GeoConicND) -> a
    void initForNearToRelationship() -> p_
    void updatePolarLines() -> e
    boolean isIntersectionPointIncident(int,geogebra.common.kernel.kernelND.GeoConicND) -> a
    void updateTangents(geogebra.common.kernel.kernelND.GeoPointND[],int) -> a
    void setTangentFromPolar(int,geogebra.common.kernel.geos.GeoLine) -> a
    boolean checkUndefined() -> a
    double getMidpointX(int,int) -> a
    double getMidpointY(int,int) -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoConeInfinitePointPointNumber -> geogebra.common.h.f.a.H:
    java.lang.String getPlainName() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConeInfinitePointVectorNumber -> geogebra.common.h.f.a.I:
    java.lang.String getPlainName() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConePointLineAngle -> geogebra.common.h.f.a.J:
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getPlainName() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicFivePoints3D -> geogebra.common.h.f.a.K:
    geogebra.common.kernel.kernelND.GeoPointND[] inputP -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> a
    void setInputPoints() -> c
    geogebra.common.kernel.geos.GeoPoint[] createPoints2D(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void initCoords() -> e
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicFociLength3D -> geogebra.common.h.f.a.L:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    geogebra.common.kernel.geos.GeoPoint A2d -> a
    geogebra.common.kernel.geos.GeoPoint B2d -> b
    geogebra.common.kernel.Matrix.Coords project -> a
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void setInput() -> c
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getA2d() -> a
    geogebra.common.kernel.geos.GeoPoint getB2d() -> b
    void compute() -> b
    void initCoords() -> e
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicPartCircle3D -> geogebra.common.h.f.a.M:
    geogebra.common.kernel.kernelND.GeoPointND center -> a
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> b
    geogebra.common.kernel.kernelND.GeoPointND endPoint -> c
    geogebra.common.kernel.PathParameter paramP -> a
    geogebra.common.kernel.PathParameter paramQ -> b
    geogebra.common.kernel.Matrix.Coords p2d -> a
    void initCoords() -> c
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setIncidence() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void setInput() -> e
    void setInput(int) -> a
    void semiCircle(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void compute() -> b
    void setConicPart(double,double) -> a
    boolean getPositiveOrientation() -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D getConicPart() -> a
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicPartCircle3DOrientation -> geogebra.common.h.f.a.N:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    boolean getPositiveOrientation() -> a
    void setInput() -> e
    void semiCircle(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicPartCircumcircle3D -> geogebra.common.h.f.a.O:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoCircle3DThreePoints algo -> a
    geogebra.common.kernel.algos.AlgoCircleThreePoints getAlgo() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D createConicPart(geogebra.common.kernel.Construction,int) -> a
    void computeSinglePoint() -> c
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getC() -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D getConicPart() -> a
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
    geogebra.common.kernel.kernelND.GeoConicND createConicPart(geogebra.common.kernel.Construction,int) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicPartConicParameters3D -> geogebra.common.h.f.a.P:
    geogebra.common.kernel.kernelND.GeoConicND newGeoConicPart(geogebra.common.kernel.Construction,int) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoConicPartConicPoints3D -> geogebra.common.h.f.a.Q:
    geogebra.common.kernel.PathParameter paramP -> a
    geogebra.common.kernel.PathParameter paramQ -> b
    geogebra.common.kernel.Matrix.Coords p2d -> a
    void setTempValues() -> c
    geogebra.common.kernel.kernelND.GeoConicND newGeoConicPart(geogebra.common.kernel.Construction,int) -> a
    void computeParemeters() -> e
    void initCoords() -> f
    double getStartParameter() -> a
    double getEndParameter() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoCornerConicSection -> geogebra.common.h.f.a.R:
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicSection conic -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneQuadricLimited algoParent -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    void compute() -> b
    void setPoint(int,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setLabels(java.lang.String[]) -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getCorners() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCornerConicSection$1 -> geogebra.common.h.f.a.S:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoCornerConicSection this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCurveCartesian3D -> geogebra.common.h.f.a.T:
    geogebra.common.kernel.kernelND.GeoCurveCartesianND createCurve(geogebra.common.kernel.Construction,geogebra.common.kernel.arithmetic.Function[]) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCylinderAxisRadius -> geogebra.common.h.f.a.U:
    geogebra.common.kernel.kernelND.GeoLineND axis -> a
    void compute() -> b
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCylinderInfinitePointPointNumber -> geogebra.common.h.f.a.V:
    java.lang.String getPlainName() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoCylinderInfinitePointVectorNumber -> geogebra.common.h.f.a.W:
    java.lang.String getPlainName() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDependentPlane3D -> geogebra.common.h.f.a.X:
    geogebra.common.kernel.arithmetic.Equation equation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[] ev -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D p -> a
    geogebra.common.kernel.arithmetic.ExpressionNode lhs0z -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D getPlane() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDependentPoint3D -> geogebra.common.h.f.a.Y:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D P -> a
    double[] temp -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getPoint3D() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getExpressionNode() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDependentQuadric3D -> geogebra.common.h.f.a.Z:
    geogebra.common.kernel.arithmetic.Equation equation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[] ev -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D quadric -> a
    double[] coeffs -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D getQuadric() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDependentVector3D -> geogebra.common.h.f.a.aa:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D vec -> a
    double[] temp -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D getVector3D() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDiameterLine3D -> geogebra.common.h.f.a.ab:
    geogebra.common.kernel.Matrix.Coords direction -> a
    geogebra.common.kernel.Matrix.Coords direction3D -> b
    geogebra.common.kernel.geos.GeoLine diameter2D -> a
    double[] diameterCoords -> a
    geogebra.common.kernel.Matrix.Coords diameterOrigin -> c
    geogebra.common.kernel.Matrix.Coords diameterDirection -> d
    void createOutput(geogebra.common.kernel.Construction) -> a
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoDiameterVector3D -> geogebra.common.h.f.a.ac:
    geogebra.common.kernel.Matrix.Coords direction -> a
    geogebra.common.kernel.geos.GeoLine diameter2D -> a
    double[] diameterCoords -> a
    geogebra.common.kernel.Matrix.Coords diameterOrigin -> b
    geogebra.common.kernel.Matrix.Coords diameterDirection -> c
    void createOutput(geogebra.common.kernel.Construction) -> a
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoDilate3D -> geogebra.common.h.f.a.ad:
    geogebra.common.kernel.geos.GeoElement copy(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    void setOutGeo() -> c
    geogebra.common.kernel.Matrix.Coords getPointCoords() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDispatcher3D -> geogebra.common.h.f.a.ae:
    geogebra.common.kernel.Matrix.Coords tmpCoords -> a
    geogebra.common.kernel.algos.AlgoClosestPoint getNewAlgoClosestPoint(geogebra.common.kernel.Construction,geogebra.common.kernel.Path,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLines(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoVectorND createVector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectConics(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectLineConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.Manager3DInterface getManager3D() -> a
    geogebra.common.kernel.algos.AlgoVertexPolygon newAlgoVertexPolygon(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.geos.GeoPoly) -> a
    geogebra.common.kernel.geos.GeoElement[] SegmentFixed(java.lang.String,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] SegmentFixedSphere(java.lang.String,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.geos.GeoElement[] Polygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND PointIn(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.Matrix.Coords,boolean,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.Matrix.Coords,boolean,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND copyFreePoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> a
    geogebra.common.kernel.kernelND.GeoVectorND Vector3D(java.lang.String) -> a
    geogebra.common.kernel.kernelND.GeoVectorND Vector3D() -> a
    geogebra.common.kernel.geos.GeoElement[] TranslateND(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDistanceLines3D -> geogebra.common.h.f.a.af:
    geogebra.common.kernel.kernelND.GeoLineND g3D -> a
    geogebra.common.kernel.kernelND.GeoLineND h3D -> b
    geogebra.common.kernel.geos.GeoNumeric dist -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getDistance() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDistancePointPlane3D -> geogebra.common.h.f.a.ag:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    geogebra.common.kernel.geos.GeoNumeric dist -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getDistance() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoDrawingPadCorner3D -> geogebra.common.h.f.a.ah:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    boolean is3D(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoElement3D -> geogebra.common.h.f.a.ai:
    void setInputOutput(geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoElement[]) -> a
    void setInputOutput(geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoElement[]) -> a
    void setInputOutput(geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoElement[],boolean) -> a
    void setInputOutput() -> a_
    void setInputOutput(boolean) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoEllipseFociLength3D -> geogebra.common.h.f.a.aj:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoEllipseHyperbolaFociPoint3D -> geogebra.common.h.f.a.ak:
    geogebra.common.kernel.geos.GeoPoint A2d -> a
    geogebra.common.kernel.geos.GeoPoint B2d -> b
    geogebra.common.kernel.geos.GeoPoint C2d -> c
    geogebra.common.kernel.Matrix.Coords project -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getA2d() -> a
    geogebra.common.kernel.geos.GeoPoint getB2d() -> b
    geogebra.common.kernel.geos.GeoPoint getC2d() -> c
    boolean setCoordSys(geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void compute() -> b
    void initCoords() -> c
geogebra.common.geogebra3D.kernel3D.algos.AlgoEllipseHyperbolaFociPoint3DOriented -> geogebra.common.h.f.a.al:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setInput() -> e
    boolean setCoordSys(geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoFocus3D -> geogebra.common.h.f.a.am:
    void createFocus(geogebra.common.kernel.Construction) -> a
    void setCoords(int,double,double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion -> geogebra.common.h.f.a.an:
    void remove() -> a
    geogebra.common.kernel.geos.GeoElement getOutput(int) -> a
    void setExtrusionComputer(geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer) -> a
    void removeOutputFromAlgebraView() -> m_
    void removeOutputFromPicking() -> b_
    void setOutputPointsEuclidianVisible(boolean) -> a_
    void notifyUpdateOutputPoints() -> r_
    geogebra.common.kernel.geos.GeoElement getGeoToHandle() -> a
    void setOutputOtherEuclidianVisible(boolean) -> b
    void notifyUpdateOutputOther() -> f
geogebra.common.geogebra3D.kernel3D.algos.AlgoFunctionNVarND -> geogebra.common.h.f.a.ao:
    geogebra.common.kernel.geos.GeoFunctionNVar inputFunction -> a
    geogebra.common.kernel.geos.GeoFunctionNVar function -> b
    geogebra.common.kernel.arithmetic.NumberValue[] from -> a
    geogebra.common.kernel.arithmetic.NumberValue[] to -> b
    void setInputOutput(geogebra.common.kernel.arithmetic.NumberValue[],geogebra.common.kernel.geos.GeoNumeric[]) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar getFunction() -> a
    void compute() -> b
    double[] getDouble(geogebra.common.kernel.arithmetic.NumberValue[]) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoHyperbolaFociLength3D -> geogebra.common.h.f.a.ap:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersect3D -> geogebra.common.h.f.a.aq:
    int numberOfUsers -> a
    void avoidDoubleTangentPoint() -> e
    int getClosestPointIndex(double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getIntersectionPoints() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getLastDefinedIntersectionPoints() -> b
    int getClosestPointIndex(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void compute() -> b
    void initForNearToRelationship() -> p_
    geogebra.common.kernel.kernelND.GeoPointND[] getLastDefinedIntersectionPoints() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getIntersectionPoints() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D1D -> geogebra.common.h.f.a.ar:
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String getIntersectionTypeString() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D -> geogebra.common.h.f.a.as:
    void setCoordSys(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    void compute() -> b
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane getConfigLinePlane(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.Matrix.Coords getIntersectLinePlane(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoCoordSys2D,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    java.lang.String getIntersectionTypeString() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane -> geogebra.common.h.f.a.as$a:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane GENERAL -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane PARALLEL -> b
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane CONTAINED -> c
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane[] ENUM$VALUES -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane[] values() -> values
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCS1D2D$ConfigLinePlane valueOf(java.lang.String) -> valueOf
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectConic3D -> geogebra.common.h.f.a.at:
    geogebra.common.kernel.geos.GeoElement firstGeo -> a
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] P -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] D -> b
    geogebra.common.kernel.geos.GeoLine g2d -> a
    geogebra.common.kernel.geos.GeoPoint[] points2d -> a
    geogebra.common.kernel.Matrix.Coords p2d -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getIntersectionPoints() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getLastDefinedIntersectionPoints() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoStartInhomCoords() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoDirectionInD3() -> b
    boolean getFirstGeoRespectLimitedPath(geogebra.common.kernel.Matrix.Coords) -> a
    void compute() -> b
    void intersect(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[]) -> a
    void intersectLineIncluded(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[],geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.geos.GeoLine) -> a
    void checkIsOnFirstGeo(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void setPointsUndefined() -> g
    void initForNearToRelationship() -> p_
    geogebra.common.kernel.geos.GeoElement getFirtGeo() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectConics3D -> geogebra.common.h.f.a.au:
    geogebra.common.kernel.kernelND.GeoConicND A -> a
    geogebra.common.kernel.kernelND.GeoConicND B -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] P -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] D -> b
    geogebra.common.kernel.geos.GeoLine l2d -> a
    geogebra.common.kernel.geos.GeoConic A2d -> a
    geogebra.common.kernel.geos.GeoConic B2d -> b
    geogebra.common.kernel.geos.GeoPoint[] points2d -> a
    geogebra.common.kernel.algos.AlgoIntersectConics algo2d -> a
    geogebra.common.kernel.Matrix.CoordMatrix AUGMENT_DIM -> a
    geogebra.common.kernel.Matrix.CoordMatrix REDUCE_DIM -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getIntersectionPoints() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getLastDefinedIntersectionPoints() -> b
    void setCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void compute() -> b
    void intersectConics3D(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[]) -> a
    void checkIsOnConic(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void setPointsUndefined(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[]) -> a
    void initForNearToRelationship() -> p_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectCoordSys -> geogebra.common.h.f.a.av:
    geogebra.common.kernel.geos.GeoElement cs1 -> a
    geogebra.common.kernel.geos.GeoElement cs2 -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoElement3D intersection -> a
    void setCoordSys(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoElement3D createIntersection(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement getCS1() -> a
    geogebra.common.kernel.geos.GeoElement getCS2() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoElement3D getIntersection() -> a
    boolean outputIsDefined() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getIntersectionTypeString() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLineConic3D -> geogebra.common.h.f.a.aw:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.kernelND.GeoLineND getLine() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoStartInhomCoords() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoDirectionInD3() -> b
    boolean getFirstGeoRespectLimitedPath(geogebra.common.kernel.Matrix.Coords) -> a
    void checkIsOnFirstGeo(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLineIncludedConic3D -> geogebra.common.h.f.a.ax:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoStartInhomCoords() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoDirectionInD3() -> b
    boolean getFirstGeoRespectLimitedPath(geogebra.common.kernel.Matrix.Coords) -> a
    void checkIsOnFirstGeo(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLinePolygon3D -> geogebra.common.h.f.a.ay:
    int spaceDim -> a
    geogebra.common.kernel.kernelND.HasSegments p -> a
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> a
    java.util.TreeMap newCoords -> a
    geogebra.common.kernel.Matrix.Coords o1 -> a
    geogebra.common.kernel.Matrix.Coords d1 -> b
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$kernel3D$algos$AlgoIntersectCS1D2D$ConfigLinePlane -> a
    void setFirstInput(geogebra.common.kernel.geos.GeoElement) -> a_
    geogebra.common.kernel.geos.GeoElement getFirstInput() -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    void setIntersectionLine() -> e
    void intersectionsCoords(geogebra.common.kernel.kernelND.HasSegments,java.util.TreeMap) -> a
    void intersectionsCoordsContained(geogebra.common.kernel.kernelND.HasSegments,java.util.TreeMap) -> b
    void intersectionsCoordsGeneral(geogebra.common.kernel.geos.GeoPolygon,java.util.TreeMap) -> a
    boolean checkParameter(double) -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setLabels(java.lang.String[]) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$kernel3D$algos$AlgoIntersectCS1D2D$ConfigLinePlane() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLinePolygon3D$1 -> geogebra.common.h.f.a.az:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLinePolygon3D this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLineQuadric3D -> geogebra.common.h.f.a.aA:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.kernelND.GeoQuadricND q -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] D -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] P -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] Q -> b
    int intersectionType -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getIntersectionPoints() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getLastDefinedIntersectionPoints() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void compute() -> b
    void checkIsOnLine(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void initForNearToRelationship() -> p_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPathLinePolygon3D -> geogebra.common.h.f.a.aB:
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputSegments() -> a
    void addCoords(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.kernelND.GeoElementND) -> a
    void addStartEndPoints() -> e
    boolean checkMidpoint(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPathLinePolygon3D$1 -> geogebra.common.h.f.a.aC:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPathLinePolygon3D this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPathPlanePolygon3D -> geogebra.common.h.f.a.aD:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    void setFirstInput(geogebra.common.kernel.geos.GeoElement) -> b_
    geogebra.common.kernel.geos.GeoElement getFirstInput() -> a
    void addStartEndPoints() -> e
    void setIntersectionLine() -> f
    boolean checkParameter(double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneConic -> geogebra.common.h.f.a.aE:
    geogebra.common.kernel.Matrix.Coords[] intersection -> a
    void compute() -> b
    void intersect(geogebra.common.kernel.kernelND.GeoCoordSys2D,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[]) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoStartInhomCoords() -> a
    geogebra.common.kernel.Matrix.Coords getFirstGeoDirectionInD3() -> b
    boolean getFirstGeoRespectLimitedPath(geogebra.common.kernel.Matrix.Coords) -> a
    void checkIsOnFirstGeo(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlanePolygon -> geogebra.common.h.f.a.aF:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    void setFirstInput(geogebra.common.kernel.geos.GeoElement) -> a_
    geogebra.common.kernel.geos.GeoElement getFirstInput() -> a
    void setIntersectionLine() -> e
    void intersectionsCoords(geogebra.common.kernel.kernelND.HasSegments,java.util.TreeMap) -> a
    boolean checkParameter(double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlanePolyhedron -> geogebra.common.h.f.a.aG:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    void setFirstInput(geogebra.common.kernel.geos.GeoElement) -> a_
    geogebra.common.kernel.geos.GeoElement getFirstInput() -> a
    void setIntersectionLine() -> e
    void intersectionsCoords(geogebra.common.kernel.kernelND.HasSegments,java.util.TreeMap) -> a
    geogebra.common.kernel.Matrix.Coords intersectionCoords(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    boolean checkParameter(double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneQuadric -> geogebra.common.h.f.a.aH:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    geogebra.common.kernel.kernelND.GeoQuadricND quadric -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D conic -> a
    geogebra.common.kernel.Matrix.CoordMatrix cm -> a
    geogebra.common.kernel.Matrix.CoordMatrix tmpMatrix -> b
    void end() -> e
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D newConic(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getConic() -> a
    void compute() -> b
    void intersectPlaneQuadric(geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneQuadricLimited -> geogebra.common.h.f.a.aI:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneConic algoBottom -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneConic algoTop -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] bottomP -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] topP -> b
    geogebra.common.kernel.Matrix.Coords tmpCoords -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D newConic(geogebra.common.kernel.Construction) -> a
    void end() -> e
    geogebra.common.kernel.kernelND.GeoConicND getBottom() -> a
    geogebra.common.kernel.kernelND.GeoConicND getTop() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart getSide() -> a
    void compute() -> b
    double getBottomParameter() -> a
    double getTopParameter() -> b
    boolean planeOutsideAxis() -> e
    void setSinglePoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    double[] setPartPoints(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneConic,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[]) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getBottomPoint(int) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getTopPoint(int) -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneQuadricPart -> geogebra.common.h.f.a.aJ:
    geogebra.common.kernel.kernelND.GeoConicND bottom -> a
    geogebra.common.kernel.kernelND.GeoConicND top -> b
    geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricEnds algoEnds -> a
    void end() -> e
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoConicND getBottom() -> a
    geogebra.common.kernel.kernelND.GeoConicND getTop() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart getSide() -> a
    double getBottomParameter() -> a
    double getTopParameter() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlanes -> geogebra.common.h.f.a.aK:
    geogebra.common.kernel.Matrix.Coords o -> a
    geogebra.common.kernel.Matrix.Coords vn -> b
    geogebra.common.kernel.Matrix.Coords vn1 -> c
    geogebra.common.kernel.Matrix.Coords vn2 -> d
    int RESULTCATEGORY_NA -> a
    int RESULTCATEGORY_GENERAL -> b
    int RESULTCATEGORY_PARALLEL -> c
    int RESULTCATEGORY_CONTAINED -> d
    geogebra.common.geogebra3D.kernel3D.geos.GeoElement3D createIntersection(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    int getConfigPlanePlane(geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.Matrix.CoordSys) -> a
    java.lang.String getIntersectionTypeString() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectQuadricsAsCircle -> geogebra.common.h.f.a.aL:
    geogebra.common.kernel.kernelND.GeoQuadricND quadric1 -> a
    geogebra.common.kernel.kernelND.GeoQuadricND quadric2 -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D circle -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron -> geogebra.common.h.f.a.aM:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron polyhedron -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygons -> c
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> d
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegments -> a
    boolean hasLabels -> a
    java.util.TreeSet newCoords -> a
    java.util.TreeSet polyhedronVertices -> b
    java.util.TreeMap parentToPolygons -> b
    java.util.TreeMap newCoordsList -> c
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$VerticesList verticesList -> a
    java.util.ArrayList polyhedronFaces -> a
    java.util.TreeSet checkVerticesList -> c
    java.util.ArrayList segmentCoords -> b
    int removeSegmentCoordsIndex -> a
    geogebra.common.kernel.geos.GeoPolygon removeSegmentCoordsPolygon -> b
    java.util.Comparator COORDS_COMPARATOR -> a
    java.util.TreeSet getPolygons(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent) -> a
    void setSecondInput(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> b
    void addCoords(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.kernelND.GeoElementND) -> a
    void setNewCoords() -> g
    void setNewCoordsList() -> j
    java.util.ArrayList getSegmentsCoords() -> a
    void addSegment(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent,geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent,java.util.ArrayList) -> a
    void addParentToPolygons(geogebra.common.kernel.kernelND.GeoElementND) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent nextVertex(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent,geogebra.common.kernel.kernelND.GeoElementND) -> a
    void removeSegmentCoords() -> k
    void removeSegmentCoords(int,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent nextVertex(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent,geogebra.common.kernel.kernelND.GeoElementND,geogebra.common.kernel.kernelND.GeoElementND) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$Vertices addVertices() -> a
    void addPolyhedronVerticesToOutput(int,int,int) -> a
    void addToVerticesList(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$Vertices) -> a
    void updateLabels(geogebra.common.kernel.algos.AlgoElement$OutputHandler) -> a
    void compute() -> b
    boolean checkParameter(double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void createOutput() -> l
    void setInputOutput() -> a_
    void getCmdOutputXML(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler access$0(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron) -> a
    boolean access$1(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler access$2(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron) -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$1 -> geogebra.common.h.f.a.aN:
    int compare(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$2 -> geogebra.common.h.f.a.aO:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$3 -> geogebra.common.h.f.a.aP:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$4 -> geogebra.common.h.f.a.aQ:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent -> geogebra.common.h.f.a.aM$a:
    geogebra.common.kernel.kernelND.GeoElementND parent -> a
    java.lang.Double parameter -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
    int compareTo(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent) -> a
    int compareParentTo(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent) -> b
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$Segment -> geogebra.common.h.f.a.aM$b:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent p1 -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$CoordsWithParent p2 -> b
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$Vertices -> geogebra.common.h.f.a.aM$c:
    int lowest -> a
    short direction -> a
    int current -> b
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
    boolean add(geogebra.common.kernel.Matrix.Coords) -> a
    void setDirection() -> a
    geogebra.common.kernel.Matrix.Coords next() -> a
    void start() -> b
    int compareTo(geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$Vertices) -> a
    boolean add(java.lang.Object) -> add
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron$VerticesList -> geogebra.common.h.f.a.aM$d:
    int cumulateSize -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectRegionPlanePolyhedron this$0 -> a
    boolean add(java.util.ArrayList) -> a
    void clear() -> clear
    boolean add(java.lang.Object) -> add
geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectSingle3D -> geogebra.common.h.f.a.aR:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersect3D algo -> a
    int index -> a
    geogebra.common.kernel.kernelND.GeoPointND refPoint -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D point -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] parentOutput -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getPoint() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getIntersectionPoints() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] getLastDefinedIntersectionPoints() -> b
    boolean isNearToAlgorithm() -> s_
    void initForNearToRelationship() -> p_
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoJoinPoints3D -> geogebra.common.h.f.a.aS:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoPointND Q -> b
    geogebra.common.kernel.geos.GeoElement poly -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D cs -> a
    geogebra.common.plugin.GeoClass geoClassType -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getP() -> a
    geogebra.common.kernel.kernelND.GeoPointND getQ() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D getCS() -> a
    void compute() -> b
    void remove() -> a
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void modifyInputPolyAndPoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoElement getPoly() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLengthPoint3D -> geogebra.common.h.f.a.aT:
    geogebra.common.kernel.kernelND.GeoPointND p -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLengthVector3D -> geogebra.common.h.f.a.aU:
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLineBisectorSegmentDirection3D -> geogebra.common.h.f.a.aV:
    geogebra.common.kernel.kernelND.GeoSegmentND segment -> a
    geogebra.common.kernel.kernelND.GeoDirectionND direction -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D line -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLineBisectorTwoPointsDirection3D -> geogebra.common.h.f.a.aW:
    geogebra.common.kernel.kernelND.GeoPointND a -> a
    geogebra.common.kernel.kernelND.GeoPointND b -> b
    geogebra.common.kernel.kernelND.GeoDirectionND direction -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D line -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLinePoint -> geogebra.common.h.f.a.aX:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.geos.GeoElement inputParallel -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D line -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D createLine(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    geogebra.common.kernel.geos.GeoElement getInputParallel() -> a
    void compute() -> b
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLinePointLine3D -> geogebra.common.h.f.a.aY:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLinePointVector3D -> geogebra.common.h.f.a.aZ:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoLocus3D -> geogebra.common.h.f.a.ba:
    double[] maxZdist -> a
    double[] farZmin -> b
    double[] farZmax -> c
    int MAX_Z_PIXEL_DIST -> e
    double lastZ -> c
    void createMaxDistances() -> e
    void setMaxDistances(int) -> a
    void createStartPos(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLocus3D newGeoLocus(geogebra.common.kernel.Construction) -> a
    boolean isFarAway(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    boolean distanceOK(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.awt.GRectangle2D) -> a
    boolean distanceSmall(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    void insertPoint(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    void insertPoint(double,double,double,boolean) -> a
    boolean isFarAway(double,double,double,int) -> a
    boolean differentFromLast(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean areEqual(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.MyPoint3D[] createQCopyCache() -> a
    void setQCopyCache(geogebra.common.geogebra3D.kernel3D.MyPoint3D,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.MyPoint3D newCache() -> a
    void setQCopyCache(geogebra.common.kernel.MyPoint,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.MyPoint newCache() -> a
    geogebra.common.kernel.MyPoint[] createQCopyCache() -> a
    geogebra.common.kernel.geos.GeoLocusND newGeoLocus(geogebra.common.kernel.Construction) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoMidpoint3D -> geogebra.common.h.f.a.bb:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getPoint() -> a
    void copyCoords(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void computeMidCoords() -> e
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoMidpointSegment3D -> geogebra.common.h.f.a.bc:
    geogebra.common.kernel.kernelND.GeoSegmentND segment -> a
    void setInputOutput() -> a_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoMirror3D -> geogebra.common.h.f.a.bd:
    geogebra.common.kernel.kernelND.GeoCoordSys2D mirrorPlane -> a
    void computeRegardingMirror() -> e
    geogebra.common.kernel.geos.GeoElement copy(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    void setOutGeo() -> f
    geogebra.common.kernel.Matrix.Coords getMirrorCoords() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrientedHeight -> geogebra.common.h.f.a.be:
    geogebra.common.kernel.kernelND.HasHeight c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getOrientedHeight() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrtho -> geogebra.common.h.f.a.bf:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.geos.GeoElement inputOrtho -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D line -> a
    void setSpecificInputOutput() -> e
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    geogebra.common.kernel.geos.GeoElement getInputOrtho() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoLineLine -> geogebra.common.h.f.a.bg:
    geogebra.common.kernel.kernelND.GeoLineND line1 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D line -> a
    geogebra.common.kernel.Matrix.Coords origin -> a
    geogebra.common.kernel.Matrix.Coords direction2 -> b
    geogebra.common.kernel.Matrix.Coords origin1 -> c
    geogebra.common.kernel.Matrix.Coords direction1 -> d
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    void compute() -> b
    void setOriginAndDirection2() -> e
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoLineLineLine -> geogebra.common.h.f.a.bh:
    geogebra.common.kernel.kernelND.GeoLineND line2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setOriginAndDirection2() -> e
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoLinePointDirectionDirection -> geogebra.common.h.f.a.bi:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.kernelND.GeoDirectionND direction1 -> a
    geogebra.common.kernel.kernelND.GeoDirectionND direction2 -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D line -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoLinePointLine3D -> geogebra.common.h.f.a.bj:
    void setSpecificInputOutput() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.kernelND.GeoLineND getInputLine() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoLinePointPlane -> geogebra.common.h.f.a.bk:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.kernelND.GeoCoordSys2D getCS() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoPlane -> geogebra.common.h.f.a.bl:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D getPlane() -> a
    geogebra.common.kernel.Matrix.Coords getNormal() -> a
    geogebra.common.kernel.Matrix.Coords getPoint() -> b
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoPlaneBisectorPointPoint -> geogebra.common.h.f.a.bm:
    geogebra.common.kernel.kernelND.GeoPointND point1 -> a
    geogebra.common.kernel.kernelND.GeoPointND point2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.Matrix.Coords getNormal() -> a
    geogebra.common.kernel.Matrix.Coords getPoint() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoPlaneBisectorSegment -> geogebra.common.h.f.a.bn:
    geogebra.common.kernel.kernelND.GeoSegmentND segment -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.Matrix.Coords getNormal() -> a
    geogebra.common.kernel.Matrix.Coords getPoint() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoPlanePoint -> geogebra.common.h.f.a.bo:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.geos.GeoElement secondInput -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.Matrix.Coords getPoint() -> b
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoPlanePointLine -> geogebra.common.h.f.a.bp:
    geogebra.common.kernel.Matrix.Coords getNormal() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoPlanePointVector -> geogebra.common.h.f.a.bq:
    geogebra.common.kernel.Matrix.Coords getNormal() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoVectorLineDirection -> geogebra.common.h.f.a.br:
    geogebra.common.kernel.kernelND.GeoLineND line -> a
    geogebra.common.kernel.kernelND.GeoDirectionND direction -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D vector -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D getVector() -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoOrthoVectorPlane -> geogebra.common.h.f.a.bs:
    geogebra.common.kernel.kernelND.GeoCoordSys2D plane -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D vector -> a
    geogebra.common.kernel.Matrix.Coords vCoords -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D getVector() -> a
    void compute() -> b
    void updateCoords() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoParabolaPointLine3D -> geogebra.common.h.f.a.bt:
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPlaneCS2D -> geogebra.common.h.f.a.bu:
    geogebra.common.kernel.kernelND.GeoCoordSys2D cs -> a
    geogebra.common.kernel.kernelND.GeoCoordSys2D csInput -> b
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoCoordSys2D getCoordSys() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPlaneThreePoints -> geogebra.common.h.f.a.bv:
    geogebra.common.kernel.kernelND.GeoCoordSys2D cs -> a
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoCoordSys2D getCoordSys() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPlaneThroughPoint -> geogebra.common.h.f.a.bw:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D plane -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D getPlane() -> a
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPlaneThroughPointAndLine -> geogebra.common.h.f.a.bx:
    geogebra.common.kernel.kernelND.GeoLineND line -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPlaneThroughPointAndPlane -> geogebra.common.h.f.a.by:
    geogebra.common.kernel.kernelND.GeoCoordSys2D cs -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPlaneTwoLines -> geogebra.common.h.f.a.bz:
    geogebra.common.kernel.kernelND.GeoCoordSys2D cs -> a
    geogebra.common.kernel.kernelND.GeoLineND a -> a
    geogebra.common.kernel.kernelND.GeoLineND b -> b
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoCoordSys2D getCoordSys() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPoint3DInRegion -> geogebra.common.h.f.a.bA:
    geogebra.common.kernel.Region region -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D P -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D getP() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPoint3DOnPath -> geogebra.common.h.f.a.bB:
    void createPoint(geogebra.common.kernel.Path,double,double,double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPointVector3D -> geogebra.common.h.f.a.bC:
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolarLine3D -> geogebra.common.h.f.a.bD:
    geogebra.common.kernel.geos.GeoLine polar2D -> a
    geogebra.common.kernel.Matrix.Coords coords2D -> a
    double[] polarCoords -> a
    geogebra.common.kernel.Matrix.Coords polarOrigin -> b
    geogebra.common.kernel.Matrix.Coords polarDirection -> c
    geogebra.common.kernel.kernelND.GeoLineND newGeoLine(geogebra.common.kernel.Construction) -> a
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolarPoint3D -> geogebra.common.h.f.a.bE:
    geogebra.common.kernel.geos.GeoPoint polar2D -> a
    geogebra.common.kernel.Matrix.Coords equation2D -> a
    double[] polarCoords -> a
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyLine3D -> geogebra.common.h.f.a.bF:
    void createPolyLine() -> e
    int getRelatedModeID() -> f_
    void updatePointArray(geogebra.common.kernel.geos.GeoList) -> a
    void update() -> q_
    geogebra.common.kernel.kernelND.GeoPointND[] getPointsND() -> a
    void compute() -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement[] createEfficientInput() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolygon3D -> geogebra.common.h.f.a.bG:
    boolean createSegments -> a
    void createPolygon(boolean) -> a
    void compute() -> b
    void calcCentroid(geogebra.common.kernel.geos.GeoPoint) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolygonRegular3D -> geogebra.common.h.f.a.bH:
    geogebra.common.kernel.kernelND.GeoDirectionND direction -> a
    geogebra.common.kernel.Matrix.Coords coordsA -> a
    geogebra.common.kernel.Matrix.Coords coordsB -> b
    geogebra.common.kernel.Matrix.Coords vAB -> c
    geogebra.common.kernel.Matrix.Coords vDirection -> d
    geogebra.common.kernel.geos.GeoPolygon newGeoPolygon(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement newGeoPoint(geogebra.common.kernel.Construction) -> a
    void setInputOutput() -> a_
    void setDirection(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setCenterPoint(int,double) -> a
    void rotate(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean checkUnDefined(int) -> a
    void calcCentroid(geogebra.common.kernel.geos.GeoPoint) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron -> geogebra.common.h.f.a.bI:
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> c
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolyhedron -> d
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron polyhedron -> a
    boolean isFirstInputPointVisible() -> a
    boolean isFirstInputPointLabelVisible() -> b
    void createFaces() -> i
    void createOutputSegments() -> d
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputSegmentsHandler() -> a
    void createOutputPolygons() -> e
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPolygonsHandler() -> b
    void addAlgoToInput() -> j
    void updateOutput() -> o_
    void setOutput() -> k
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron getPolyhedron() -> a
    void removeOutputExcept(geogebra.common.kernel.geos.GeoElement) -> a
    void removePoint(geogebra.common.kernel.geos.GeoElement) -> b
    void updateDependentGeos() -> h
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron$1 -> geogebra.common.h.f.a.bJ:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron$2 -> geogebra.common.h.f.a.bK:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron$3 -> geogebra.common.h.f.a.bL:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron$4 -> geogebra.common.h.f.a.bM:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedron this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet -> geogebra.common.h.f.a.bN:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron p -> a
    geogebra.common.kernel.arithmetic.NumberValue v -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputNet -> a
    int bottomPointsLength -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPointsBottom -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPointsSide -> c
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPointsTop -> d
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegmentsBottom -> e
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegmentsSide -> f
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegmentsTop -> g
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygonsBottom -> h
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygonsSide -> i
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygonsTop -> j
    void setLabels(java.lang.String[]) -> a
    int getPointLengthFromLabelsLength(int) -> a
    void createNet(int) -> a
    void setOutputSideTop(int,geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D,int,geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    void setOutput(int) -> d
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputSegments() -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPolygons() -> c
    void rotate(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,geogebra.common.kernel.Matrix.Coords,double,boolean) -> a
    void compute(double,geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.Matrix.Coords[]) -> a
    void adjustOutputSize(int) -> b
    void updateBottom(int) -> c
    void compute() -> b
    void setUndefined() -> e
    geogebra.common.kernel.Matrix.Coords[] getPointsCoords(geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet getNet() -> a
    void updateOutputSegmentsAndPolygonsParentAlgorithms() -> g
    int getRelatedModeID() -> f_
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet$1 -> geogebra.common.h.f.a.bO:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet$2 -> geogebra.common.h.f.a.bP:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet$3 -> geogebra.common.h.f.a.bQ:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet$4 -> geogebra.common.h.f.a.bR:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNet this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex -> geogebra.common.h.f.a.bS:
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron p -> a
    geogebra.common.kernel.arithmetic.NumberValue v -> a
    geogebra.common.kernel.geos.GeoPolygon bottomFace -> a
    int iBottom -> a
    geogebra.common.kernel.kernelND.GeoSegmentND[] userCutSegments -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputNet -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPointsNet -> b
    int pointsCounter -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegments -> c
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygons -> d
    java.util.ArrayList netMap -> c
    java.util.ArrayList polygonInfo -> d
    java.util.ArrayList polygonChildSegsList -> e
    java.util.ArrayList segmentList -> a
    java.util.ArrayList segmentInfoList -> b
    boolean netComplete -> a
    geogebra.common.kernel.Matrix.Coords projCoord -> a
    void netFacesCompute() -> g
    void setSegmentsToFacesLink(geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron) -> a
    boolean makeNetMap(geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron) -> a
    void compute() -> b
    java.util.ArrayList rotateFace(int,double) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet getNet() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    void createNet() -> e
    void createFace(int) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputSegments() -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPolygons() -> c
    void setLabels(java.lang.String[]) -> a
    void updateOutputSegmentsAndPolygonsParentAlgorithms() -> i
    geogebra.common.kernel.Matrix.Coords[] getPointsCoords(geogebra.common.kernel.geos.GeoPolygon) -> a
    void setUndefined() -> j
    int getRelatedModeID() -> f_
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex$1 -> geogebra.common.h.f.a.bT:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex$2 -> geogebra.common.h.f.a.bU:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex$3 -> geogebra.common.h.f.a.bV:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex$4 -> geogebra.common.h.f.a.bW:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex$PolygonInfoElement -> geogebra.common.h.f.a.bS$a:
    int linkSegNumber -> a
    int rank -> b
    int segShift -> c
    java.util.ArrayList pointIndex -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex this$0 -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex$SegmentInfo -> geogebra.common.h.f.a.bS$b:
    int segmentParent1 -> a
    int segmentParent2 -> b
    int pointIndex1 -> c
    int pointIndex2 -> d
    boolean userCut -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetConvex this$0 -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetPrism -> geogebra.common.h.f.a.bX:
    geogebra.common.kernel.Matrix.Coords pp1 -> a
    int getPointLengthFromLabelsLength(int) -> a
    void createNet(int) -> a
    void setOutputSideTop(int,geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D,int,geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    void setOutputSide(geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D) -> a
    void compute(double,geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.Matrix.Coords[]) -> a
    void adjustOutputSize(int) -> b
    void updateSide(int,int) -> a
    void createSideFace(geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet,int,int) -> a
    void updateTop(int) -> d
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronNetPyramid -> geogebra.common.h.f.a.bY:
    geogebra.common.kernel.Matrix.Coords p1 -> a
    int getPointLengthFromLabelsLength(int) -> a
    void createNet(int) -> a
    void createSideFace(geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet,int,int) -> a
    void setOutputSideTop(int,geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D,int,geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    void setOutputSide(geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D) -> a
    void adjustOutputSize(int) -> b
    void updateSide(int,int) -> a
    void compute(double,geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronPoints -> geogebra.common.h.f.a.bZ:
    geogebra.common.kernel.kernelND.GeoPointND[] bottomPoints -> b
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.kernelND.GeoPointND topPoint -> a
    geogebra.common.kernel.geos.GeoPolygon bottom -> a
    geogebra.common.kernel.arithmetic.NumberValue height -> a
    boolean bottomAsInput -> a
    int bottomPointsLength -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegmentsBottom -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegmentsSide -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegmentsTop -> e
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygonsBottom -> f
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygonsSide -> g
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygonsTop -> h
    int shift -> b
    void createOutputSegments() -> d
    void createOutputPolygons() -> e
    void setLabels(java.lang.String[]) -> a
    void augmentOutputSize(int) -> a
    int getSideLengthFromLabelsLength(int) -> a
    void initCoords() -> g
    void updateOutputPoints() -> l
    void updateOutputSegmentsAndPolygonsParentAlgorithms() -> m
    void createPolyhedron() -> v
    void createPolyhedron(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void updateOutput(int) -> b
    void setBottom(geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron) -> a
    geogebra.common.kernel.geos.GeoPolygon getBottom() -> a
    int getShift() -> a_
    boolean preCompute() -> c
    void updateVolume(double) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getBottomPoints() -> a
    geogebra.common.kernel.kernelND.GeoPointND getTopPoint() -> a
    void setTopPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setOutputOtherEuclidianVisible(boolean) -> b
    void notifyUpdateOutputOther() -> f
    void setOutputPointsEuclidianVisible(boolean) -> a_
    void notifyUpdateOutputPoints() -> r_
    geogebra.common.kernel.geos.GeoPolygon getTopFace() -> b
    boolean isFirstInputPointVisible() -> a
    boolean isFirstInputPointLabelVisible() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronPointsPrism -> geogebra.common.h.f.a.ca:
    geogebra.common.kernel.Matrix.Coords uptranslation -> a
    void createPolyhedron(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND getTopPoint(int) -> a
    void updateOutput(int) -> b
    void updateTop(int) -> c
    void updateSide(int,geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    void updateOutputPoints() -> l
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void updateOutput() -> o_
    int getSideLengthFromLabelsLength(int) -> a
    void updateVolume(double) -> a
    void updateDependentGeos() -> h
    void updateOutputSegmentsAndPolygonsParentAlgorithms() -> m
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronPointsPrismForExtrusion -> geogebra.common.h.f.a.cb:
    geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer extrusionComputer -> a
    void setExtrusionComputer(geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer) -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getGeoToHandle() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronPointsPyramid -> geogebra.common.h.f.a.cc:
    geogebra.common.kernel.Matrix.Coords bottomCenter -> a
    void createPolyhedron(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void updateOutput(int) -> b
    void updateSide(int,geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    void initCoords() -> g
    void updateOutputPoints() -> l
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void updateOutput() -> o_
    int getSideLengthFromLabelsLength(int) -> a
    void updateVolume(double) -> a
    void updateDependentGeos() -> h
    void updateOutputSegmentsAndPolygonsParentAlgorithms() -> m
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoPolyhedronPointsPyramidForExtrusion -> geogebra.common.h.f.a.cd:
    geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer extrusionComputer -> a
    void setExtrusionComputer(geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer) -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getGeoToHandle() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadric -> geogebra.common.h.f.a.ce:
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D quadric -> a
    geogebra.common.kernel.geos.GeoElement secondInput -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricComputer computer -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricComputer getComputer() -> a
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> a
    geogebra.common.kernel.geos.GeoElement getNumber() -> b
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D getQuadric() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricComputer -> geogebra.common.h.f.a.cf:
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D newQuadric(geogebra.common.kernel.Construction) -> a
    void setQuadric(geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> a
    double getNumber(double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricComputerCone -> geogebra.common.h.f.a.cg:
    void setQuadric(geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> a
    double getNumber(double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricComputerCylinder -> geogebra.common.h.f.a.ch:
    void setQuadric(geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> a
    double getNumber(double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricComputerSide -> geogebra.common.h.f.a.ci:
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D newQuadric(geogebra.common.kernel.Construction) -> a
    void setQuadric(geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> a
    double getNumber(double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricEnd -> geogebra.common.h.f.a.cj:
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited quadric -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D section -> a
    geogebra.common.kernel.Matrix.CoordSys coordsys -> a
    geogebra.common.kernel.Matrix.CoordMatrix pm -> a
    geogebra.common.kernel.Matrix.CoordMatrix pmt -> b
    boolean isHelperAlgo -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getSection() -> a
    void compute() -> b
    void setIsHelperAlgo() -> e
    void remove() -> a
    geogebra.common.kernel.Matrix.Coords getOrigin(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getV1(geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricEndBottom -> geogebra.common.h.f.a.ck:
    geogebra.common.kernel.Matrix.Coords getOrigin(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getV1(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricEndTop -> geogebra.common.h.f.a.cl:
    geogebra.common.kernel.Matrix.Coords getOrigin(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getV1(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricEnds -> geogebra.common.h.f.a.cm:
    geogebra.common.kernel.kernelND.GeoQuadricND quadric -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D[] sections -> a
    geogebra.common.kernel.Matrix.CoordSys coordsys1 -> a
    geogebra.common.kernel.Matrix.CoordSys coordsys2 -> b
    geogebra.common.kernel.Matrix.CoordMatrix pm -> a
    geogebra.common.kernel.Matrix.CoordMatrix pmt -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getSection1() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getSection2() -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D[] getSections() -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedConicHeight -> geogebra.common.h.f.a.cn:
    geogebra.common.kernel.kernelND.GeoConicND bottom -> a
    geogebra.common.kernel.arithmetic.NumberValue height -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart side -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D top -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited quadric -> a
    void createTop() -> g
    void setOutput() -> i
    void compute() -> b
    void setQuadric(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited getQuadric() -> a
    void update() -> q_
    void getOutputXML(java.lang.StringBuilder) -> a
    void setOutputPointsEuclidianVisible(boolean) -> a_
    void notifyUpdateOutputPoints() -> r_
    geogebra.common.kernel.geos.GeoElement getTopFace() -> b
    void setOutputOtherEuclidianVisible(boolean) -> b
    void notifyUpdateOutputOther() -> f
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedConicHeightCone -> geogebra.common.h.f.a.co:
    void setQuadric(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedConicHeightConeForExtrusion -> geogebra.common.h.f.a.cp:
    geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer extrusionComputer -> a
    void setExtrusionComputer(geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer) -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getGeoToHandle() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedConicHeightCylinder -> geogebra.common.h.f.a.cq:
    void setQuadric(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedConicHeightCylinderForExtrusion -> geogebra.common.h.f.a.cr:
    geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer extrusionComputer -> a
    void setExtrusionComputer(geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer) -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getGeoToHandle() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedPointPointRadius -> geogebra.common.h.f.a.cs:
    geogebra.common.kernel.kernelND.GeoPointND origin -> a
    geogebra.common.kernel.kernelND.GeoPointND secondPoint -> b
    geogebra.common.kernel.arithmetic.NumberValue radius -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart side -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D bottom -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D top -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited quadric -> a
    void setOutput() -> e
    void createEnds() -> g
    void compute() -> b
    void setQuadric(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited getQuadric() -> a
    void update() -> q_
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedPointPointRadiusCone -> geogebra.common.h.f.a.ct:
    void createEnds() -> g
    void setOutput() -> e
    void setQuadric(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricLimitedPointPointRadiusCylinder -> geogebra.common.h.f.a.cu:
    void createEnds() -> g
    void setOutput() -> e
    void setQuadric(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricPointNumber -> geogebra.common.h.f.a.cv:
    geogebra.common.kernel.kernelND.GeoPointND origin -> a
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoPointND getOrigin() -> a
    java.lang.String getPlainName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricPointPointNumber -> geogebra.common.h.f.a.cw:
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricPointVectorNumber -> geogebra.common.h.f.a.cx:
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoQuadricSide -> geogebra.common.h.f.a.cy:
    boolean isHelperAlgo -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited getInputQuadric() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoRayPointVector3D -> geogebra.common.h.f.a.cz:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D createLine(geogebra.common.kernel.Construction) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoRotate3D -> geogebra.common.h.f.a.cA:
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.kernelND.RotateableND out -> a
    geogebra.common.kernel.arithmetic.NumberValue angle -> a
    void setOutput() -> e
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement copy(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoRotate3DLine -> geogebra.common.h.f.a.cB:
    geogebra.common.kernel.kernelND.GeoLineND line -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    int getRelatedModeID() -> f_
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoRotate3DPointOrientation -> geogebra.common.h.f.a.cC:
    geogebra.common.kernel.kernelND.GeoPointND center -> a
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoSemicircle3D -> geogebra.common.h.f.a.cD:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D conicPart -> a
    geogebra.common.kernel.PathParameter param -> a
    geogebra.common.kernel.kernelND.GeoPointND M -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D conic -> a
    geogebra.common.kernel.Matrix.Coords p2d -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D getSemicircle() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoSpherePointRadius -> geogebra.common.h.f.a.cE:
    geogebra.common.kernel.kernelND.GeoQuadricND createSphereND(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D getSphere() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoSphereTwoPoints -> geogebra.common.h.f.a.cF:
    geogebra.common.kernel.kernelND.GeoQuadricND createSphereND(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D getSphere() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoSurfaceCartesian3D -> geogebra.common.h.f.a.cG:
    geogebra.common.kernel.arithmetic.NumberValue[] coords -> a
    geogebra.common.kernel.arithmetic.NumberValue[] from -> b
    geogebra.common.kernel.arithmetic.NumberValue[] to -> c
    geogebra.common.kernel.geos.GeoNumeric[] localVar -> a
    geogebra.common.kernel.kernelND.GeoSurfaceCartesianND surface -> a
    geogebra.common.kernel.kernelND.GeoSurfaceCartesianND createCurve(geogebra.common.kernel.Construction,geogebra.common.kernel.arithmetic.FunctionNVar[]) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoSurfaceCartesianND getSurface() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoTangentCurve3D -> geogebra.common.h.f.a.cH:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D f -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D df -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D tangent -> a
    geogebra.common.kernel.kernelND.GeoPointND T -> b
    boolean pointOnCurve -> a
    boolean pointOnCurveSpecial -> b
    geogebra.common.kernel.arithmetic.ExpressionValue pointOnCurveSpecialParam -> a
    geogebra.common.kernel.cas.AlgoDerivative algo -> a
    geogebra.common.kernel.Matrix.Coords direction -> a
    double[] feval -> a
    double[] dfeval -> b
    void initialize(geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D getLine() -> a
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    geogebra.common.kernel.Matrix.Coords getDirection() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoTangentLine3D -> geogebra.common.h.f.a.cI:
    geogebra.common.kernel.Matrix.Coords direction -> a
    geogebra.common.kernel.Matrix.Coords direction3D -> b
    void initDiameterAndDirection() -> e
    void setTangents() -> g
    void initForNearToRelationship() -> p_
    boolean checkUndefined() -> c
    void updateDiameterLine() -> i
    void updateTangent(int) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoTangentPoint3D -> geogebra.common.h.f.a.cJ:
    double[] polarCoords -> a
    geogebra.common.kernel.Matrix.Coords polarOrigin -> a
    geogebra.common.kernel.Matrix.Coords polarDirection -> b
    geogebra.common.kernel.Matrix.Coords coords2D -> c
    void setPolar() -> e
    void setTangentFromPolar(int) -> a
    void setTangents() -> g
    boolean checkUndefined() -> c
    void updatePolarLine() -> i
    boolean isIntersectionPointIncident() -> d
    void updateTangents() -> j
    void initForNearToRelationship() -> p_
    void initForNearToRelationship(geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.AlgoIntersectND) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoTransformation3D -> geogebra.common.h.f.a.cK:
    void toGeoCurveCartesian(geogebra.common.kernel.Kernel,geogebra.common.kernel.geos.GeoFunction,geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoTranslate3D -> geogebra.common.h.f.a.cL:
    geogebra.common.kernel.Matrix.Coords getVectorCoords() -> a
    geogebra.common.kernel.geos.GeoElement copy(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    void setOutGeo() -> e
geogebra.common.geogebra3D.kernel3D.algos.AlgoTranslateVector3D -> geogebra.common.h.f.a.cM:
    geogebra.common.kernel.kernelND.GeoVectorND newGeoVector(geogebra.common.kernel.Construction) -> a
    void compute() -> b
geogebra.common.geogebra3D.kernel3D.algos.AlgoUnitOrthoVectorPlane -> geogebra.common.h.f.a.cN:
    void updateCoords() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoUnitVector3D -> geogebra.common.h.f.a.cO:
    geogebra.common.kernel.kernelND.GeoVectorND createVector(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoPointND getInputStartPoint() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoVector3D -> geogebra.common.h.f.a.cP:
    geogebra.common.kernel.kernelND.GeoVectorND createNewVector() -> a
    geogebra.common.kernel.kernelND.GeoPointND newStartPoint() -> a
    void setCoords() -> e
geogebra.common.geogebra3D.kernel3D.algos.AlgoVectorPoint3D -> geogebra.common.h.f.a.cQ:
    geogebra.common.kernel.kernelND.GeoVectorND createNewVector() -> a
    void setCoords() -> e
geogebra.common.geogebra3D.kernel3D.algos.AlgoVertexConic3D -> geogebra.common.h.f.a.cR:
    void createVertex(geogebra.common.kernel.Construction) -> a
    void setCoords(int,double,double) -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoVertexPolygon3D -> geogebra.common.h.f.a.cS:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    void setPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoVertexPolygon3D$1 -> geogebra.common.h.f.a.cT:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoVertexPolygon3D this$0 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.geogebra3D.kernel3D.algos.AlgoVolume -> geogebra.common.h.f.a.cU:
    geogebra.common.kernel.kernelND.HasVolume hasVolume -> a
    geogebra.common.kernel.geos.GeoNumeric volume -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getVolume() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.geogebra3D.kernel3D.algos.ExtrusionComputer -> geogebra.common.h.f.a.cV:
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion algo -> a
    int computed -> a
    void compute() -> a
    int getComputed() -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoForExtrusion getAlgo() -> a
geogebra.common.geogebra3D.kernel3D.algos.Manager3D -> geogebra.common.h.f.a.cW:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D Point3D(java.lang.String,double,double,double,boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D DependentPoint3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D DependentVector3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D Vector3D(java.lang.String,double,double,double) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D Vector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D Point3DIn(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.Matrix.Coords,boolean,boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D Point3DIn(java.lang.String,geogebra.common.kernel.Region,boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D Point3D(java.lang.String,geogebra.common.kernel.Path,double,double,double,boolean,boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D Point3D(java.lang.String,geogebra.common.kernel.Path,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3D(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D Midpoint(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Midpoint(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Center(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND CenterQuadric(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D Segment3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoLineND Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoLineND Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoRay3D Ray3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoVectorND OrthogonalVector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoVectorND OrthogonalVector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoVectorND UnitOrthogonalVector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> b
    geogebra.common.kernel.geos.GeoElement[] Polygon3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLine3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> b
    geogebra.common.kernel.geos.GeoElement[] PolyLine3D(java.lang.String[],geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement[] Prism(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> c
    geogebra.common.kernel.geos.GeoElement[] Prism(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] Prism(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] Pyramid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> d
    geogebra.common.kernel.geos.GeoElement[] Pyramid(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement[] Pyramid(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D Plane3D(java.lang.String,double,double,double,double) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D DependentPlane3D(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D DependentQuadric3D(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D OrthogonalPlane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D OrthogonalPlane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D PlaneBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D PlaneBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Sphere(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Sphere(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] ConeLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] ConeLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] CylinderLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.geos.GeoElement[] CylinderLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart QuadricSide(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D QuadricBottom(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D QuadricTop(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D Plane3D(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.geos.GeoElement Intersect(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectionPoint(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.geos.GeoSurfaceFinite) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectionPoint(java.lang.String[],geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectPath(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.geos.GeoSurfaceFinite) -> b
    geogebra.common.kernel.geos.GeoElement[] IntersectPath(java.lang.String[],geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement[] IntersectPath(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectRegion(java.lang.String[],geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement,int[]) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectRegion(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D Intersect(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND IntersectQuadricLimited(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND IntersectQuadricLimited(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D Intersect(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectAsCircle(java.lang.String[],geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectAsCircle(geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar Function2Var(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar Function2Var(java.lang.String,geogebra.common.kernel.geos.GeoFunctionNVar,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D CurveCartesian3D(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement SurfaceCartesian3D(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLineConic3D getIntersectionAlgorithm(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] IntersectLineConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,int) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectConics3D getIntersectionAlgorithm(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] IntersectConics(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,int) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectLineQuadric3D getIntersectionAlgorithm(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectLineQuadric(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,int) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,double,double,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.algos.AlgoIntersectPlaneConic getIntersectionAlgorithm(geogebra.common.kernel.kernelND.GeoCoordSys2D,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectPlaneConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoCoordSys2D,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement IntersectPlanes(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoElement IntersectPlanes(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoElement ClosestPoint(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D ClosestPoint(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND ClosestPoint(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Angle(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoDirectionND,boolean) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Angles3D(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoElement[] Angles3D(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoNumeric Length(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] ArchimedeanSolid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoElement[] ArchimedeanSolid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoElement[] ArchimedeanSolid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoElement[] Translate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.kernelND.Geo3DVec newGeo3DVec(double,double,double) -> a
    geogebra.common.kernel.geos.GeoElement[] Rotate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Rotate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.geos.GeoElement[] Dilate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumeric Volume(java.lang.String,geogebra.common.kernel.kernelND.HasVolume) -> a
    geogebra.common.kernel.geos.GeoNumeric OrientedHeight(java.lang.String,geogebra.common.kernel.kernelND.HasHeight) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D[] Corner(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] RegularPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyhedronNet(java.lang.String[],geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D CircumcircleArc3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D CircumcircleSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement[] AngularBisector3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D AngularBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D AngularBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D CircleArcSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircleArcSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,int) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D Line3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionValue[]) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND Semicircle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Tangent3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] Tangent3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] CommonTangents3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement DiameterLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement DiameterLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement LineBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement LineBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Conic3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND EllipseHyperbola3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND EllipseHyperbola3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND Parabola3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement Locus3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement Tangent3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCurveCartesianND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,double,double,double,double) -> a
    geogebra.common.kernel.geos.GeoElement Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoConicND QuadricTop(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.geos.GeoElement Sphere(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement Sphere(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoLineND Line3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionValue[]) -> a
    geogebra.common.kernel.geos.GeoElement Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.geos.GeoElement ClosestPoint(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoConicND QuadricBottom(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND QuadricSide(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND PlaneBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND PlaneBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3D(java.lang.String,geogebra.common.kernel.Path,double,double,double,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement Point3D(java.lang.String,double,double,double,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3D(java.lang.String,geogebra.common.kernel.Path,boolean) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircumcircleSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement AngularBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement AngularBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement DependentVector3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,double,double,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement CurveCartesian3D(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND DependentQuadric3D(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectConics(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircumcircleArc3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.kernelND.GeoPlaneND DependentPlane3D(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.kernelND.GeoConicND Intersect(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.kernel.kernelND.GeoConicND Intersect(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.kernel.geos.GeoElement[] Corner(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3DIn(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.Matrix.Coords,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3DIn(java.lang.String,geogebra.common.kernel.Region,boolean) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircleArcSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectLineConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Midpoint(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND Segment3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement DependentPoint3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> b
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND OrthogonalPlane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND OrthogonalPlane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.kernel.kernelND.GeoRayND Ray3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement Vector3D(java.lang.String,double,double,double) -> a
    geogebra.common.kernel.geos.GeoElement Vector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.geogebra3D.kernel3D.arithmetic.ExpressionNodeEvaluator3D -> geogebra.common.h.f.b.a:
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleOp(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue multiply(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue innerProduct(geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue complexMult(geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.Kernel) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue vectorProduct(geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue multiply(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.geogebra3D.kernel3D.commands.AlgebraProcessor3D -> geogebra.common.h.f.c.a:
    geogebra.common.kernel.geos.GeoElement[] processPointVector3D(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void checkNoTermsInZ(geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.geos.GeoElement[] processLine(geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.geos.GeoElement[] processConic(geogebra.common.kernel.arithmetic.Equation) -> b
    geogebra.common.kernel.geos.GeoElement[] processQuadric(geogebra.common.kernel.arithmetic.Equation) -> e
    geogebra.common.kernel.geos.GeoElement[] processPlane(geogebra.common.kernel.arithmetic.Equation) -> f
    geogebra.common.kernel.geos.GeoElement[] processParametricFunction(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.FunctionVariable,java.lang.String) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdAngle3D -> geogebra.common.h.f.c.b:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command,int,boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] anglePointOrVector(java.lang.String,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdAngularBisector3D -> geogebra.common.h.f.c.c:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command,int,boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] angularBisector(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement angularBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdArcSector3D -> geogebra.common.h.f.c.d:
    geogebra.common.kernel.geos.GeoElement arcSector(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoElement arcSector(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdArchimedeanSolid -> geogebra.common.h.f.c.e:
    geogebra.common.kernel.commands.Commands name -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdArea3D -> geogebra.common.h.f.c.f:
    geogebra.common.kernel.algos.AlgoAreaPoints getAlgoAreaPoints(geogebra.common.kernel.Construction,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdAxes3D -> geogebra.common.h.f.c.g:
    geogebra.common.kernel.algos.AlgoAxesQuadricND axesConic(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.kernelND.GeoQuadricND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdBottom -> geogebra.common.h.f.c.h:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCircle3D -> geogebra.common.h.f.c.i:
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoElement circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
    geogebra.common.kernel.geos.GeoElement circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCircleArcSector3D -> geogebra.common.h.f.c.j:
    geogebra.common.kernel.geos.GeoElement circleArcSector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process4(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCircumcircleArc3D -> geogebra.common.h.f.c.k:
    geogebra.common.kernel.geos.GeoElement getArc(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCircumcircleSector3D -> geogebra.common.h.f.c.l:
    geogebra.common.kernel.geos.GeoElement getSector(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdClosestPoint3D -> geogebra.common.h.f.c.m:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdClosestPointRegion -> geogebra.common.h.f.c.n:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCone -> geogebra.common.h.f.c.o:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] conePointPointRadius(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.main.MyError argErr(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.main.MyError argNumErr(int,geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdConeInfinite -> geogebra.common.h.f.c.p:
    geogebra.common.kernel.geos.GeoElement[] conePointPointRadius(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.main.MyError argErr(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.main.MyError argNumErr(int,geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdConic3D -> geogebra.common.h.f.c.q:
    geogebra.common.kernel.geos.GeoElement Conic(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCorner3D -> geogebra.common.h.f.c.r:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCurveCartesian3D -> geogebra.common.h.f.c.s:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCylinder -> geogebra.common.h.f.c.t:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] cylinderPointPointRadius(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.main.MyError argErr(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.main.MyError argNumErr(int,geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdCylinderInfinite -> geogebra.common.h.f.c.u:
    geogebra.common.kernel.geos.GeoElement[] cylinderPointPointRadius(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.main.MyError argErr(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.main.MyError argNumErr(int,geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdDiameter3D -> geogebra.common.h.f.c.v:
    geogebra.common.kernel.geos.GeoElement diameter(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement diameter(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdDilate3D -> geogebra.common.h.f.c.w:
    geogebra.common.kernel.geos.GeoElement[] Dilate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdDistance3D -> geogebra.common.h.f.c.x:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdEllipseHyperbola3D -> geogebra.common.h.f.c.y:
    geogebra.common.kernel.geos.GeoElement ellipse(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process4(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement ellipseHyperbola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement ellipseHyperbola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdEnds -> geogebra.common.h.f.c.z:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdFocus3D -> geogebra.common.h.f.c.A:
    geogebra.common.kernel.algos.AlgoFocus newAlgoFocus(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdFunction2Var -> geogebra.common.h.f.c.B:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdHeight -> geogebra.common.h.f.c.C:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdIntersect3D -> geogebra.common.h.f.c.D:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdIntersectConic -> geogebra.common.h.f.c.E:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdIntersectPath3D -> geogebra.common.h.f.c.F:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement processQuadricPlane(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement intersectPlaneQuadricLimited(geogebra.common.kernel.Kernel,java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdLength3D -> geogebra.common.h.f.c.G:
    geogebra.common.kernel.geos.GeoElement length(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement length(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdLine3D -> geogebra.common.h.f.c.H:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdLineBisector3D -> geogebra.common.h.f.c.I:
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement lineBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement lineBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
geogebra.common.geogebra3D.kernel3D.commands.CmdLocus3D -> geogebra.common.h.f.c.J:
    geogebra.common.kernel.geos.GeoElement locus(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdMidpoint3D -> geogebra.common.h.f.c.K:
    geogebra.common.kernel.geos.GeoElement[] process1(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] segment(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement[] conic(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] twoPoints(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdMirror3D -> geogebra.common.h.f.c.L:
    geogebra.common.kernel.geos.GeoElement[] process2(java.lang.String,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdOrthogonalLine3D -> geogebra.common.h.f.c.M:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdOrthogonalPlane -> geogebra.common.h.f.c.N:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdOrthogonalVector3D -> geogebra.common.h.f.c.O:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdParabola3D -> geogebra.common.h.f.c.P:
    geogebra.common.kernel.geos.GeoElement parabola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPlane -> geogebra.common.h.f.c.Q:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPlaneBisector -> geogebra.common.h.f.c.R:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPoint3D -> geogebra.common.h.f.c.S:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement point(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND point(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPointIn3D -> geogebra.common.h.f.c.T:
    geogebra.common.kernel.geos.GeoElement[] pointIn(java.lang.String,geogebra.common.kernel.Region) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPolar3D -> geogebra.common.h.f.c.U:
    geogebra.common.kernel.geos.GeoElement PolarLine(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement PolarPoint(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPolyLine3D -> geogebra.common.h.f.c.V:
    geogebra.common.kernel.geos.GeoElement[] PolyLine(java.lang.String[],geogebra.common.kernel.geos.GeoList) -> a
    boolean checkIs3D(boolean,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLine(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[],boolean,boolean) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPolygon3D -> geogebra.common.h.f.c.W:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command,int,geogebra.common.kernel.geos.GeoElement[]) -> a
    boolean checkIs3D(boolean,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] polygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] regularPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] regularPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPolyhedronNet -> geogebra.common.h.f.c.X:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPrism -> geogebra.common.h.f.c.Y:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdPyramid -> geogebra.common.h.f.c.Z:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdQuadricSide -> geogebra.common.h.f.c.aa:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.main.MyError argErr(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.main.MyError argNumErr(int) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdRay3D -> geogebra.common.h.f.c.ab:
    geogebra.common.kernel.geos.GeoElement ray(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement ray(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdRotate3D -> geogebra.common.h.f.c.ac:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdSegment3D -> geogebra.common.h.f.c.ad:
    geogebra.common.kernel.geos.GeoElement segment(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdSemicircle3D -> geogebra.common.h.f.c.ae:
    geogebra.common.kernel.geos.GeoElement semicircle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdSphere3D -> geogebra.common.h.f.c.af:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdSurfaceCartesian3D -> geogebra.common.h.f.c.ag:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdTangent3D -> geogebra.common.h.f.c.ah:
    geogebra.common.kernel.geos.GeoElement[] tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement tangentToCurve(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCurveCartesianND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdTop -> geogebra.common.h.f.c.ai:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdTranslate3D -> geogebra.common.h.f.c.aj:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.algos.AlgoTranslateVector getAlgoTranslateVector(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdUnitOrthogonalVector3D -> geogebra.common.h.f.c.ak:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdUnitVector3D -> geogebra.common.h.f.c.al:
    geogebra.common.kernel.geos.GeoElement[] processNotLineNotVector(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.AlgoUnitVector algo(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.algos.AlgoUnitVector algo(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdVector3D -> geogebra.common.h.f.c.am:
    geogebra.common.kernel.geos.GeoElement vector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdVertex3D -> geogebra.common.h.f.c.an:
    geogebra.common.kernel.kernelND.GeoPointND cornerOfDrawingPad(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND cornerOfDrawingPad3D(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.algos.AlgoVertexPolygon newAlgoVertexPolygon(geogebra.common.kernel.Construction,java.lang.String,geogebra.common.kernel.geos.GeoPoly,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.algos.AlgoVertexConic newAlgoVertexConic(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdVertexForce3D -> geogebra.common.h.f.c.ao:
    geogebra.common.kernel.kernelND.GeoPointND cornerOfDrawingPad(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.geogebra3D.kernel3D.commands.CmdVolume -> geogebra.common.h.f.c.ap:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.commands.CommandDispatcher3D -> geogebra.common.h.f.c.aq:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor commandTableSwitch(java.lang.String) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.geogebra3D.kernel3D.commands.CommandProcessor3D -> geogebra.common.h.f.c.ar:
    geogebra.common.kernel.kernelND.GeoDirectionND getCurrentViewOrientation(geogebra.common.kernel.Kernel,geogebra.common.main.App) -> a
geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec -> geogebra.common.h.f.d.a:
    double x -> a
    double y -> b
    double z -> c
    int mode -> a
    geogebra.common.kernel.Kernel kernel -> a
    java.lang.StringBuilder sbToString -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void resolveVariables() -> c_
    double getX() -> g_
    double getY() -> b
    double getZ() -> c
    double length() -> d
    double length(double,double,double) -> a
    void add(geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> a
    void add(geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> a
    void add(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> a
    void vectorProduct(geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> a
    void sub(geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> b
    void sub(geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> b
    void sub(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> b
    void mult(geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,double,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> a
    void inner(geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void complexMultiply(geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.geos.GeoVec2D) -> a
    void div(geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec,double,geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec getVector() -> a
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    java.util.HashSet getVariables() -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isNumberValue() -> A_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean evaluatesTo3DVector() -> d
    double[] getPointAsDouble() -> a
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    boolean isEqual(geogebra.common.kernel.kernelND.Geo3DVec) -> a
    void multiplyMatrix3x3(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    void multiplyMatrix4x4(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.VectorNDValue) -> b
    void multiplyMatrix3x2(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.VectorNDValue) -> c
    void multiplyMatrix(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.geos.GeoVec2D) -> a
    int getMode() -> a
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec round() -> b
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec floor() -> c
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec ceil() -> d
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    geogebra.common.kernel.kernelND.Geo3DVec ceil() -> a
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    geogebra.common.kernel.kernelND.Geo3DVec getVector() -> b
    geogebra.common.kernel.kernelND.Geo3DVec floor() -> c
    geogebra.common.kernel.kernelND.Geo3DVec round() -> d
geogebra.common.geogebra3D.kernel3D.geos.GeoAngle3D -> geogebra.common.h.f.d.b:
    boolean hasOrientation -> j
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean hasOrientation() -> w_
    void setHasOrientation(boolean) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoAngle3D newAngle3DWithDefaultInterval(geogebra.common.kernel.Construction) -> a
    void setAngleStyle(geogebra.common.kernel.geos.GeoAngle$AngleStyle) -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoAxis3D -> geogebra.common.h.f.d.c:
    int type -> a
    int ticksize -> b
    int getType() -> b
    boolean isAvailableAtConstructionStep(int) -> a_
    boolean isDefined() -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean isLabelSet() -> j_
    int getTickSize() -> b_
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    boolean isAxis() -> m_
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    boolean isTraceable() -> h
    void getCoordsXML(java.lang.StringBuilder) -> a
    boolean isRenameable() -> i_
geogebra.common.geogebra3D.kernel3D.geos.GeoClippingCube3D -> geogebra.common.h.f.d.d:
    int reduction -> a
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setReduction(int) -> c
    int getReduction() -> b
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D -> geogebra.common.h.f.d.e:
    geogebra.common.kernel.Matrix.CoordSys coordSys -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> a
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion euclidianViewForPlane -> a
    void setCoordSys(geogebra.common.kernel.Matrix.CoordSys) -> a
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    geogebra.common.kernel.Matrix.Coords getEigenvec3D(int) -> a
    geogebra.common.kernel.Matrix.Coords getMidpoint3D() -> c
    geogebra.common.kernel.Matrix.Coords getDirection3D(int) -> b
    geogebra.common.kernel.Matrix.Coords getOrigin3D(int) -> c
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isGeoElement3D() -> l
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void buildValueStringMidpointConic(boolean,java.lang.String,java.lang.String,geogebra.common.kernel.StringTemplate,java.lang.StringBuilder) -> a
    void buildValueString(boolean,java.lang.String,java.lang.String,double,double,geogebra.common.kernel.StringTemplate,java.lang.StringBuilder) -> a
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setSinglePoint(geogebra.common.kernel.kernelND.GeoPointND) -> a_
    void setSinglePointMatrix() -> N
    void setSinglePoint(geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a_
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    boolean isIntersection() -> z_
    void doTranslate(geogebra.common.kernel.Matrix.Coords) -> a
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void createView2D() -> c
    void removeView2D() -> d
    void doRemove() -> e
    void setView2DVisible(boolean) -> b_
    void update() -> q_
    void updateViewForPlane() -> O
    void setEuclidianViewForPlane(geogebra.common.euclidian.EuclidianViewCompanion) -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoConicPart3D -> geogebra.common.h.f.d.f:
    geogebra.common.kernel.kernelND.GeoConicPartParameters parameters -> a
    java.lang.StringBuilder sbToString -> a
    geogebra.common.kernel.PathParameter tempPP -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> b
    double[] tmpParameters -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String getTypeString() -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.kernelND.GeoConicPartParameters getParameters() -> a
    int getConicPartType() -> b
    double getParameterStart() -> c
    double getParameterExtent() -> d
    boolean positiveOrientation() -> n
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setParameters(double,double,boolean) -> a
    void setParametersToSinglePoint() -> g
    boolean isDefined() -> a_
    void setUndefined() -> b
    double getValue() -> e
    double getArcLength() -> f
    double getArea() -> g
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean isIntersectionPointIncident(geogebra.common.kernel.geos.GeoPoint,double) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    geogebra.common.kernel.PathParameter getTempPathParameter() -> a
    boolean isClosedPath() -> b
    void pointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> a
    void pathChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> b
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean isNumberValue() -> A_
    boolean isGeoConicPart() -> n_
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isInRegion(double,double) -> a
    void moveBackToRegion(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.RegionParameters) -> a
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    boolean hasDrawable3D() -> p
    void superPointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> c
    geogebra.common.kernel.Matrix.Coords getOrigin3D(int) -> c
    geogebra.common.kernel.Matrix.Coords getSegmentEnd3D() -> d
geogebra.common.geogebra3D.kernel3D.geos.GeoConicSection -> geogebra.common.h.f.d.g:
    double[] paramStart -> a
    double[] paramEnd -> b
    double[] paramExtent -> h
    double[] edgeStartX -> i
    double[] edgeStartY -> j
    double[] edgeEndX -> k
    double[] edgeEndY -> l
    double[] edgeStartParam -> m
    double[] edgeEndParam -> n
    boolean[] edgeExists -> a
    java.util.TreeSet parametersTree -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicSection$IndexedParameter[] parametersArray -> a
    void setParameters(double,double,double,double) -> b
    void sortParameters() -> N
    void setInfParameter(double[],double) -> b
    double getParameterStart(int) -> a_
    double getParameterEnd(int) -> b
    double getParameterExtent(int) -> c
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isInRegion(double,double) -> a
    boolean isInsideEdges(double,double) -> b
    void pointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> a
    double getParameterOnSegment(double,double,double,double,double,double) -> a
    void pathChangedWithoutCheckEllipse(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> b
    void pathChangedWithoutCheckParabola(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> c
    void pathChangedWithoutCheckHyperbola(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> d
geogebra.common.geogebra3D.kernel3D.geos.GeoConicSection$IndexedParameter -> geogebra.common.h.f.d.g$a:
    double value -> a
    int index -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConicSection this$0 -> a
    int compareTo(geogebra.common.geogebra3D.kernel3D.geos.GeoConicSection$IndexedParameter) -> a
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D -> geogebra.common.h.f.d.h:
    geogebra.common.kernel.Matrix.CoordSys coordsys -> a
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    geogebra.common.kernel.kernelND.GeoPointND endPoint -> b
    boolean isIntersection -> a
    java.util.ArrayList pointsOnLine -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> a
    boolean trace -> b
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> b
    boolean isDefined() -> a_
    void setUndefined() -> b
    void setCoordFromPoints(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void setCoord(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void setLineThrough(double,double) -> a
    void setCoord(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setCoord(geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D create(geogebra.common.kernel.Construction) -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D copy() -> a
    geogebra.common.kernel.Matrix.Coords getPoint(double) -> a
    geogebra.common.kernel.Matrix.Coords getPointInD(int,double) -> a
    double getUnit() -> c
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    geogebra.common.kernel.Matrix.Coords getDirectionForEquation() -> c
    boolean isPath() -> d_
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    double getParamOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> a_
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    boolean isOnPath(geogebra.common.kernel.Matrix.Coords,double) -> a
    boolean isOnFullLine(geogebra.common.kernel.Matrix.Coords,double) -> b
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.Matrix.Coords getCartesianEquationVector(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.Coords getStartInhomCoords() -> d
    geogebra.common.kernel.Matrix.Coords getEndInhomCoords() -> e
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND getEndPoint() -> b
    boolean isIntersection() -> n
    boolean isTranslateable() -> h_
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void addPointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> c
    double distance(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void setToImplicit() -> c
    void setToExplicit() -> d
    void setToParametric(java.lang.String) -> a
    boolean isMatrixTransformable() -> y_
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.kernelND.GeoLineND copy() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoCoords4D -> geogebra.common.h.f.d.i:
    void setCoords(double,double,double,double) -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D -> geogebra.common.h.f.d.j:
    boolean trace -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> a
    geogebra.common.kernel.arithmetic.Function getFun(int) -> a
    void evaluateCurve(double,double[]) -> a
    double[] newDoubleArray() -> a
    geogebra.common.kernel.Matrix.Coords evaluateCurve3D(double) -> a
    double evaluateCurvature(double) -> a
    void updateDerivatives() -> d
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    boolean isGeoElement3D() -> l
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void transform(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    double[] getDefinedInterval(double,double) -> a
    double[] getDefinedInterval(double,double,geogebra.common.kernel.roots.RealRootFunction,geogebra.common.kernel.roots.RealRootFunction,geogebra.common.kernel.roots.RealRootFunction) -> a
    boolean isClosedPath() -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    double getClosestParameter(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double adjustRange(double) -> b
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void clearCasEvalMap(java.lang.String) -> a
    boolean isFunctionInX() -> c
    double distanceMax(double[],double[]) -> a
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec evaluateCurve(double) -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND newGeoCurveCartesian(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluateCurve(double) -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D$CurveCartesian3DDistanceFunction -> geogebra.common.h.f.d.j$a:
    geogebra.common.kernel.Matrix.Coords distCoords -> a
    geogebra.common.kernel.Matrix.Coords distDirection -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D curve -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D this$0 -> a
    void setDistantPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
    double evaluate(double) -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoElement3D -> geogebra.common.h.f.d.k:
    java.lang.StringBuilder sbToString -> a
    java.lang.StringBuilder sbBuildValueString -> b
    boolean isGeoElement3D() -> l
    void setAlphaValue(float) -> a
    java.lang.StringBuilder getSbToString() -> a
    java.lang.StringBuilder getSbBuildValueString() -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoLine3D -> geogebra.common.h.f.d.l:
    java.lang.String parameter -> c
    void setParameter(java.lang.String) -> b
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> d
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D create(geogebra.common.kernel.Construction) -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    void getCoordsXML(java.lang.StringBuilder) -> a
    boolean isGeoLine() -> T_
    geogebra.common.kernel.PathMover createPathMover() -> a
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    void removePointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> e
    boolean respectLimitedPath(double) -> a
    void setStandardStartPoint() -> g
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoLocus3D -> geogebra.common.h.f.d.m:
    geogebra.common.kernel.kernelND.GeoPointND changingPoint -> a
    geogebra.common.kernel.Matrix.Coords changingCoords -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoLocus3D newGeoLocus() -> a
    void insertPoint(double,double,double,boolean) -> a
    boolean isGeoElement3D() -> l
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND newGeoSegment() -> a
    void setChangingPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    double changingPointDistance(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    double getChangingPointParameter(geogebra.common.kernel.kernelND.GeoSegmentND) -> b
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.geos.GeoLocusND newGeoLocus() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D -> geogebra.common.h.f.d.n:
    char[] Labels -> a
    boolean KEEP_LEADING_SIGN -> j
    double xmin -> a
    double xmax -> b
    double ymin -> c
    double ymax -> d
    boolean gridVisible -> a
    boolean plateVisible -> b
    double dx -> e
    double dy -> f
    geogebra.common.kernel.Matrix.CoordSys coordsys -> a
    java.lang.String[] VAR_STRING -> a
    geogebra.common.kernel.Matrix.CoordMatrix parametricMatrix -> a
    float fading -> b
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion euclidianViewForPlane -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> b
    boolean trace -> k
    void setEquation(double,double,double,double,boolean) -> a
    void setEquation(double,double,double,double) -> a
    void setCoords(double,double,double,double) -> b
    void setEquation(double[],boolean) -> a
    boolean isRegion() -> x_
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean isInRegion(double,double) -> a
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a_
    void setGridCorners(double,double,double,double) -> c
    void setGridDistances(double,double) -> a
    double getXmin() -> h_
    double getYmin() -> b
    double getXmax() -> c
    double getYmax() -> d
    boolean isGridVisible() -> t
    boolean setGridVisible(boolean) -> a_
    boolean isPlateVisible() -> B_
    void setPlateVisible(boolean) -> c_
    double getGridXd() -> e
    double getGridYd() -> f
    geogebra.common.kernel.Matrix.CoordMatrix getParametricMatrix() -> a
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D copy() -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setCoordSys(geogebra.common.kernel.Matrix.CoordSys) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    boolean isFillable() -> v
    geogebra.common.kernel.Matrix.Coords evaluateNormal(double,double) -> b
    geogebra.common.kernel.Matrix.Coords evaluatePoint(double,double) -> a
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    boolean isDefined() -> a_
    boolean isMoveable() -> w
    java.lang.String getDefaultLabel() -> b
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isGeoPlane() -> x
    void setFading(float) -> b
    float getFading() -> a
    void createView2D() -> c
    void removeView2D() -> d
    void doRemove() -> e
    void setView2DVisible(boolean) -> b_
    void update() -> q_
    void setEuclidianViewForPlane(geogebra.common.euclidian.EuclidianViewCompanion) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    double distanceWithSign(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    void rotate(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3DConstant -> geogebra.common.h.f.d.o:
    boolean isAvailableAtConstructionStep(int) -> a_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    boolean isTraceable() -> h
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isRenameable() -> i_
geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D -> geogebra.common.h.f.d.p:
    boolean isInfinite -> a
    boolean isDefined -> b
    int pointSize -> b
    geogebra.common.kernel.Matrix.Coords willingCoords -> c
    geogebra.common.kernel.Matrix.Coords willingDirection -> d
    geogebra.common.kernel.Path path -> a
    geogebra.common.kernel.PathParameter pp -> a
    geogebra.common.kernel.Region region -> a
    geogebra.common.kernel.RegionParameters regionParameters -> a
    double x2D -> a
    double y2D -> b
    double z2D -> c
    geogebra.common.kernel.Matrix.Coords inhom -> a
    geogebra.common.kernel.LocateableList locateableList -> a
    geogebra.common.kernel.Matrix.Coords inhom2D -> e
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> a
    geogebra.common.kernel.Matrix.Coords tmpCoordsLength3 -> f
    int moveMode -> a
    geogebra.common.kernel.Matrix.Coords moveNormalDirection -> g
    boolean showUndefinedInAlgebraView -> j
    boolean setEuclidianVisibleBySetParentAlgorithm -> k
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> h
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> i
    geogebra.common.kernel.Matrix.Coords tmpCoords3 -> j
    geogebra.common.kernel.Matrix.Coords tmpWillingCoords -> k
    geogebra.common.kernel.Matrix.Coords tmpWillingDirection -> l
    geogebra.common.kernel.Matrix.CoordMatrix4x4 m_drawingMatrix -> b
    boolean trace -> l
    java.util.ArrayList incidenceList -> a
    double animationValue -> d
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void setPath(geogebra.common.kernel.Path) -> a
    void setRegion(geogebra.common.kernel.Region) -> a
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    double getX() -> c
    double getY() -> d
    double getZ() -> e
    void setCoords(geogebra.common.kernel.Matrix.Coords,boolean) -> a
    void setCoords(geogebra.common.kernel.Matrix.Coords) -> a
    void setCoordsFromPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void setCoords(double,double,double,double) -> b
    void setCoords(double,double,double) -> a
    void updateCoords() -> c
    geogebra.common.kernel.Matrix.Coords getInhomCoords() -> c
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD(int) -> a
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD2() -> d
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD3() -> e
    double getInhomX() -> f
    double getInhomY() -> g
    double getInhomZ() -> h
    geogebra.common.kernel.Matrix.Coords getCoordsInD2(geogebra.common.kernel.Matrix.CoordSys) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInD2() -> f
    geogebra.common.kernel.Matrix.Coords getCoordsInD3() -> g
    void getInhomCoords(double[]) -> a
    double[] vectorTo(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean movePoint(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean hasPath() -> t
    boolean isPointOnPath() -> g_
    geogebra.common.kernel.Path getPath() -> a
    geogebra.common.kernel.PathParameter getPathParameter() -> a
    void doPath() -> d
    boolean isChangeable() -> y
    boolean hasRegion() -> z
    boolean isPointInRegion() -> A
    void doRegion() -> g
    geogebra.common.kernel.RegionParameters getRegionParameters() -> a
    geogebra.common.kernel.Region getRegion() -> a
    void updateCoords2D() -> h
    void updateCoords2D(geogebra.common.kernel.Region,boolean) -> a
    void setCoords2D(double,double,double) -> b
    double getX2D() -> i
    double getY2D() -> j
    void updateCoordsFrom2D(boolean,geogebra.common.kernel.Matrix.CoordSys) -> a
    void updateCoordsFrom2D(boolean) -> d_
    void setWillingCoords(geogebra.common.kernel.Matrix.Coords) -> d
    void setWillingCoordsUndefined() -> i
    void setWillingDirection(geogebra.common.kernel.Matrix.Coords) -> e
    void setWillingDirectionUndefined() -> j
    geogebra.common.kernel.Matrix.Coords getWillingCoords() -> h
    boolean hasWillingCoords() -> B
    geogebra.common.kernel.Matrix.Coords getWillingDirection() -> i
    boolean hasWillingDirection() -> C_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D copy() -> a
    boolean isGeoPoint() -> D
    boolean isDefined() -> a_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setUndefined() -> b
    boolean showInEuclidianView() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEqualPointND(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean hasChangeableCoordParentNumbers() -> E
    int getPointSize() -> h_
    int getPointStyle() -> d_
    void setPointSize(int) -> e_
    void setPointStyle(int) -> c_
    void getXMLtags(java.lang.StringBuilder) -> a_
    java.lang.String getStartPointXML() -> c
    boolean isAbsoluteStartPoint() -> F
    geogebra.common.kernel.LocateableList getLocateableList() -> a
    boolean hasLocateableList() -> G
    void setLocateableList(geogebra.common.kernel.LocateableList) -> a
    void doRemove() -> e
    void update() -> q_
    boolean isFinite() -> H
    boolean isInfinite() -> I
    double[] getPointAsDouble() -> a
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec getVector() -> a
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    void switchMoveMode(int) -> e
    void setMoveMode(int) -> d_
    int getMoveMode() -> e_
    int getRealMoveMode() -> e
    void setMoveNormalDirection(geogebra.common.kernel.Matrix.Coords) -> f
    geogebra.common.kernel.Matrix.Coords getMoveNormalDirection() -> j
    void showUndefinedInAlgebraView(boolean) -> c
    boolean showInAlgebraView() -> b_
    void set(geogebra.common.kernel.kernelND.GeoPointND) -> d
    void setParentAlgorithm(geogebra.common.kernel.algos.AlgoElement) -> a
    void dontSetEuclidianVisibleBySetParentAlgorithm() -> k
    void updateColumnHeadingsForTraceValues() -> l
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    java.lang.String getTraceDialogAsValues() -> d
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    boolean isMatrixTransformable() -> y_
    int getDimension() -> f
    boolean isCasEvaluableObject() -> J
    void setCartesian() -> m
    void setCartesian3D() -> n
    void setSpherical() -> o
    void setPolar() -> p
    void setComplex() -> q
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> b
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void rotate(double,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean isClosedPath() -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
    double distanceToPath(geogebra.common.kernel.PathOrPoint) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getDrawingMatrix() -> a
    void setDrawingMatrix(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    java.util.ArrayList getIncidenceList() -> a
    void setIncidenceList(java.util.ArrayList) -> b
    void createIncidenceList() -> r
    void addIncidence(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void removeIncidence(geogebra.common.kernel.geos.GeoElement) -> c
    boolean evaluatesTo3DVector() -> d
    void set(double,double,geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean doAnimationStep(double) -> a
    boolean isAnimatable() -> K
    double getAnimationValue() -> k
    void setAnimationValue(double) -> a
    geogebra.common.kernel.kernelND.GeoPointND copy() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    geogebra.common.kernel.kernelND.Geo3DVec getVector() -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoPolyLine3D -> geogebra.common.h.f.d.q:
    boolean defined -> a
    geogebra.common.kernel.Matrix.Coords direction1 -> a
    geogebra.common.kernel.Matrix.Coords direction2 -> b
    geogebra.common.kernel.Matrix.Coords direction3 -> c
    boolean isPlanar -> b
    geogebra.common.kernel.Matrix.Coords normal -> d
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D seg -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isGeoElement3D() -> l
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.kernelND.GeoPointND createNewPoint() -> a
    void setSegmentPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void calcLength() -> c
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void matrixTransform(double,double,double,double) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean isAllVertexLabelsSet() -> t
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint getPoint(int) -> a
    void toGeoCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D -> geogebra.common.h.f.d.r:
    geogebra.common.kernel.Matrix.CoordSys coordSys -> a
    geogebra.common.kernel.geos.GeoPoint[] points2D -> a
    boolean isPartOfClosedSurface -> j
    boolean createSegments -> k
    java.util.ArrayList points3DArray -> a
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion euclidianViewForPlane -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> a
    boolean reverseNormal -> l
    double[] tmp3 -> a
    boolean isIntersection() -> z
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isGeoElement3D() -> l
    geogebra.common.kernel.kernelND.GeoSegmentND createSegment(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    geogebra.common.kernel.geos.GeoPoint getPoint(int) -> a
    geogebra.common.kernel.Matrix.Coords getPoint3D(int) -> a
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    geogebra.common.kernel.kernelND.GeoPointND[] getPoints() -> a
    void setPoints2D(geogebra.common.kernel.geos.GeoPoint[]) -> a
    void setEuclidianVisible(boolean) -> b
    void setCoordSys(geogebra.common.kernel.Matrix.CoordSys) -> a
    void setCoordSys(geogebra.common.kernel.geos.GeoPolygon) -> a
    void setCoordSysAndPoints3D(geogebra.common.kernel.geos.GeoPolygon) -> b
    void setPoints3DLength() -> c
    void setPointsAndSegmentsLength(int) -> c
    boolean checkPointsAreOnCoordSys(geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoPoint[],geogebra.common.kernel.Matrix.Coords) -> a
    boolean updateCoordSys() -> B
    boolean updateCoordSys(geogebra.common.kernel.Matrix.CoordSys,geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoPoint[],geogebra.common.kernel.Matrix.Coords) -> b
    void setOrthoNormalRegionCS() -> d
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    boolean isDefined() -> a_
    void setIsPartOfClosedSurface(boolean) -> c
    boolean isPartOfClosedSurface() -> I_
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setRegionChanged(geogebra.common.kernel.kernelND.GeoPointND,double,double) -> a
    boolean isInRegion(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    geogebra.common.kernel.geos.GeoPolygon newGeoPolygon(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    void createView2D() -> g
    void removeView2D() -> h
    void setEuclidianViewForPlane(geogebra.common.euclidian.EuclidianViewCompanion) -> a
    void setView2DVisible(boolean) -> b_
    void update() -> q_
    void doRemove() -> e
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void setInitLabelsCalled(boolean) -> d
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void setReverseNormal() -> i
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isConvexInverseDirection() -> F
    void calcCentroid(geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedron -> geogebra.common.h.f.d.s:
    int type -> a
    java.util.TreeMap segmentsIndex -> a
    long segmentsIndexMax -> a
    java.util.TreeMap segments -> b
    java.util.TreeMap segmentsLinked -> e
    java.util.TreeMap polygonsIndex -> c
    java.util.ArrayList polygonsDescriptions -> a
    int polygonsIndexMax -> b
    java.util.TreeMap polygons -> d
    java.util.ArrayList polygonsLinked -> b
    java.util.ArrayList pointsCreated -> c
    geogebra.common.kernel.ConstructionElementCycle currentFace -> a
    int topFaceIndex -> m
    boolean allLabelsAreSet -> a
    java.lang.StringBuffer sb -> a
    boolean isDefined -> b
    java.lang.StringBuilder sbToString -> a
    double volume -> a
    double area -> b
    boolean trace -> j
    double orientedHeight -> c
    void addSegmentsLinked(geogebra.common.kernel.geos.GeoPolygon) -> b
    void updateSegmentsLinked() -> c
    java.util.Collection getSegmentsLinked() -> a
    java.util.Collection getPolygonsLinked() -> b
    void setType(int) -> c
    int getType() -> b
    void startNewFace() -> d
    void addPointToCurrentFace(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void endCurrentFace() -> g
    void setCurrentFaceIsTopFace() -> h
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D createPolygon(int) -> a
    void createFaces() -> i
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D createPolygon(geogebra.common.kernel.kernelND.GeoPointND[],int) -> a
    void addPolygonLinked(geogebra.common.kernel.geos.GeoPolygon) -> a
    void addPointCreated(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND createSegment(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND createNewSegment(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.ConstructionElementCycle) -> a
    void storeSegment(geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D,geogebra.common.kernel.ConstructionElementCycle) -> a
    void addSegmentLinked(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    boolean allLabelsAreSet() -> t
    void setAllLabelsAreSet(boolean) -> c
    void initLabels(java.lang.String[]) -> a
    void defaultPointsLabels() -> o
    int usableLabel(geogebra.common.kernel.geos.GeoElement) -> a
    void defaultPolygonsLabels() -> p
    void defaultSegmentLabels() -> q
    geogebra.common.kernel.kernelND.GeoSegmentND[] getSegments() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D[] getSegments3D() -> a
    geogebra.common.kernel.geos.GeoPolygon[] getFaces() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D[] getFaces3D() -> a
    java.util.Collection getFacesCollection() -> c
    geogebra.common.kernel.geos.GeoPolygon getFace(int) -> a
    int getFacesSize() -> c
    java.util.Collection getPolygons() -> d
    void setReverseNormalsForDrawing(boolean) -> d
    void setReverseNormals() -> j
    void setEuclidianVisible(boolean) -> b
    void setObjColor(geogebra.common.awt.GColor) -> a
    void removeColorFunction() -> v_
    void setColorFunction(geogebra.common.kernel.geos.GeoList) -> a
    void setLineType(int) -> b
    void setLayer(int) -> d
    void setLineTypeHidden(int) -> b_
    void setLineThickness(int) -> a
    void setLineThicknessOrVisibility(int) -> a_
    void setAlphaValue(float) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String getTypeString() -> a
    boolean isDefined() -> a_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean setPolygon(int,geogebra.common.kernel.geos.GeoPolygon) -> a
    boolean setSegment(long,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setUndefined() -> b
    void setDefined() -> m
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isGeoPolyhedron() -> F_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    boolean isFillable() -> v
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    void remove() -> a
    void setVolume(double) -> a
    double getVolume() -> c
    boolean hasFiniteVolume() -> B
    void setArea(double) -> b
    double getArea() -> d
    boolean isTraceable() -> h
    boolean getTrace() -> a
    void setTrace(boolean) -> e_
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean isTranslateable() -> h_
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void setOrientedHeight(double) -> c
    double getOrientedHeight() -> e
    geogebra.common.kernel.geos.GeoPolygon getBottomFace() -> a
    geogebra.common.kernel.geos.GeoPolygon getTopFace() -> b
    geogebra.common.kernel.geos.GeoPolygon getFirstSideFace() -> c
    geogebra.common.kernel.Matrix.Coords getTopPoint() -> c
    boolean isPath() -> d_
    geogebra.common.kernel.PathMover createPathMover() -> a
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void setShowObjectCondition(geogebra.common.kernel.geos.GeoBoolean) -> a
    void updateVisualStyle() -> u_
    void setPointSizeOrVisibility(int) -> g
    void setPointSize(int) -> i
    void setPointNotVisibile() -> r
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
geogebra.common.geogebra3D.kernel3D.geos.GeoPolyhedronNet -> geogebra.common.h.f.d.t:
    java.lang.StringBuilder sbToString -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D[] oldFaces -> a
    int oldFacesIndex -> m
    geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D[] oldSegments -> a
    java.lang.String getTypeString() -> a
    boolean isGeoPolyhedron() -> F_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    void createFaces() -> i
    void clearIndexes() -> o
    geogebra.common.geogebra3D.kernel3D.geos.GeoPolygon3D createPolygon(geogebra.common.kernel.kernelND.GeoPointND[],int) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND createNewSegment(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.ConstructionElementCycle) -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void setEuclidianVisible(boolean) -> b
    double getDouble() -> h
geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3D -> geogebra.common.h.f.d.u:
    java.lang.String[] vars3D -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 eigenMatrix -> a
    double detS -> a
    double volume -> b
    double[] tmpDouble2 -> a
    double[] tmpDouble2bis -> b
    geogebra.common.kernel.Matrix.CoordMatrix tmpMatrix4x2 -> a
    geogebra.common.kernel.Matrix.CoordMatrix tmpMatrix2x4 -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> b
    geogebra.common.kernel.Matrix.Coords tmpCoords -> b
    void setMatrix(double[]) -> a
    void classifyQuadric() -> c
    void classifyQuadric(boolean) -> c
    void classifyMidpointQuadric(boolean) -> d
    void ellipsoid() -> h
    boolean checkDefined() -> X
    void setSphereNDMatrix(geogebra.common.kernel.Matrix.Coords,double) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setCone(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> a
    void setCylinder(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> b
    void setEigenMatrix(double,double,double) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String getTypeString() -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    boolean isFillable() -> v
    boolean isGeoElement3D() -> l
    geogebra.common.kernel.Matrix.Coords evaluatePoint(double,double) -> a
    void evaluatePoint(double,double,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords evaluateNormal(double,double) -> b
    double getMinParameter(int) -> b_
    double getMaxParameter(int) -> b
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    boolean isRegion() -> x_
    void getNormalProjectionParameters(geogebra.common.kernel.Matrix.Coords,double[]) -> a
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double) -> a
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a_
    geogebra.common.kernel.Matrix.Coords getPointInRegion(double,double) -> c
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void getProjections(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean checkParameters(double[]) -> a
    boolean isInRegion(geogebra.common.kernel.Matrix.Coords) -> a
    boolean isInRegion(double,double) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionToCenter(geogebra.common.kernel.Matrix.Coords) -> a
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    double getVolume() -> c
    boolean hasFiniteVolume() -> B
    void setUndefined() -> b
    void singlePoint() -> t_
    boolean isGeoQuadric() -> o_
    void getXMLtags(java.lang.StringBuilder) -> a_
    void getXMLtagsMatrix(java.lang.StringBuilder) -> b_
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimited -> geogebra.common.h.f.d.v:
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart side -> a
    geogebra.common.kernel.kernelND.GeoConicND bottom -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D top -> a
    double bottomParameter -> a
    double topParameter -> b
    geogebra.common.kernel.Matrix.Coords direction -> b
    geogebra.common.kernel.Matrix.Coords origin -> c
    double radius -> c
    double volume -> g
    boolean silentTop -> a
    void setBottomTop(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D) -> a
    void setSide(geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart) -> a
    void remove() -> a
    geogebra.common.kernel.kernelND.GeoConicND getBottom() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoConic3D getTop() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart getSide() -> a
    void updatePartsVisualStyle() -> c
    void initLabelsIncludingBottom(java.lang.String[]) -> a
    void initLabelsNoBottom(java.lang.String[]) -> b
    double getBottomParameter() -> i_
    double getTopParameter() -> b
    geogebra.common.kernel.Matrix.Coords getDirection() -> d
    geogebra.common.kernel.Matrix.Coords getOrigin() -> e
    void setCylinder(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> a
    void setLimits(double,double) -> a
    double getRadius() -> d
    void setCone(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double,double) -> b
    void setObjColor(geogebra.common.awt.GColor) -> a
    void setTrace(boolean) -> e_
    boolean isFillable() -> v
    void setEuclidianVisible(boolean) -> b
    void setShowObjectCondition(geogebra.common.kernel.geos.GeoBoolean) -> a
    void updateVisualStyle() -> u_
    void setLineType(int) -> b
    void setLineTypeHidden(int) -> b_
    void setLineThickness(int) -> a
    void setAlphaValue(float) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String getTypeString() -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    void calcVolume() -> g
    double getVolume() -> c
    boolean hasFiniteVolume() -> B
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean isNumberValue() -> A_
    void setSilentTop() -> h
    double getOrientedHeight() -> e
    boolean isGeoElement3D() -> l
    void setColorVisualStyle(geogebra.common.kernel.geos.GeoElement) -> c_
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean isTranslateable() -> h_
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void singlePoint() -> t_
    geogebra.common.kernel.Matrix.Coords getMidpoint2D() -> f
    geogebra.common.kernel.Matrix.Coords getMidpoint() -> g
    geogebra.common.kernel.Matrix.Coords getMidpoint3D() -> c
    geogebra.common.kernel.Matrix.CoordMatrix getSymetricMatrix() -> a
    double getHalfAxis(int) -> a
    int getDimension() -> c_
    geogebra.common.kernel.Matrix.Coords getEigenvec3D(int) -> a
    double[] getFlatMatrix() -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DLimitedOrPart -> geogebra.common.h.f.d.w:
    double getBottomParameter() -> i_
    double getTopParameter() -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoQuadric3DPart -> geogebra.common.h.f.d.x:
    double min -> a
    double max -> b
    double bottom -> c
    double top -> g
    double area -> h
    geogebra.common.kernel.geos.GeoElement meta -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setLimits(double,double) -> a
    double getBottomParameter() -> i_
    double getTopParameter() -> b
    double getMinParameter(int) -> b_
    double getMaxParameter(int) -> b
    void set(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double) -> c
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void getNormalProjectionParameters(geogebra.common.kernel.Matrix.Coords,double[]) -> a
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double) -> a
    boolean checkParameters(double[]) -> a
    geogebra.common.kernel.Matrix.Coords[] getProjectionSorted(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double) -> b
    boolean isInRegion(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getPointInRegion(double,double) -> c
    void calcArea() -> g
    double getArea() -> d
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean isNumberValue() -> A_
    int getMetasLength() -> g_
    geogebra.common.kernel.geos.GeoElement[] getMetas() -> a
    void setFromMeta(geogebra.common.kernel.geos.GeoElement) -> d
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void getXMLtagsMatrix(java.lang.StringBuilder) -> b_
    void classifyQuadric() -> c
    java.lang.String getTypeString() -> a
    java.lang.String getQuadricTypeString() -> c
geogebra.common.geogebra3D.kernel3D.geos.GeoRay3D -> geogebra.common.h.f.d.y:
    boolean allowOutlyingIntersections -> a
    boolean keepTypeOnGeometricTransform -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D create(geogebra.common.kernel.Construction) -> a
    double getMinParameter() -> a_
    boolean isOnPath(geogebra.common.kernel.Matrix.Coords,double) -> a
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    boolean isLimitedPath() -> D_
    boolean allowOutlyingIntersections() -> C
    void setAllowOutlyingIntersections(boolean) -> c
    boolean keepsTypeOnGeometricTransform() -> F
    void setKeepTypeOnGeometricTransform(boolean) -> d
    geogebra.common.kernel.geos.GeoElement[] createTransformedObject(geogebra.common.kernel.Transform,java.lang.String) -> a
    boolean isAllEndpointsLabelsSet() -> G
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isGeoRay() -> G_
    boolean respectLimitedPath(double) -> a
    void getCoordsXML(java.lang.StringBuilder) -> a
    geogebra.common.kernel.geos.GeoElement copyFreeRay() -> c
geogebra.common.geogebra3D.kernel3D.geos.GeoSegment3D -> geogebra.common.h.f.d.z:
    geogebra.common.kernel.geos.GeoElement geoParent -> a
    boolean allowOutlyingIntersections -> a
    boolean keepTypeOnGeometricTransform -> b
    boolean forceSimpleTransform -> j
    geogebra.common.kernel.geos.GeoElement meta -> b
    double getLength() -> d
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCoordSys1D create(geogebra.common.kernel.Construction) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEqual(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isGeoSegment() -> L
    void setTwoPointsInhomCoords(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    boolean isOnPath(geogebra.common.kernel.Matrix.Coords,double) -> a
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    geogebra.common.kernel.PathMover createPathMover() -> a
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    double getPointX(double) -> a_
    double getPointY(double) -> b
    geogebra.common.kernel.Matrix.Coords getPointCoords(double) -> b
    geogebra.common.kernel.geos.GeoElement getStartPointAsGeoElement() -> c
    geogebra.common.kernel.geos.GeoElement getEndPointAsGeoElement() -> d
    boolean isGeoLine() -> T_
    boolean isLimitedPath() -> D_
    boolean allowOutlyingIntersections() -> C
    void setAllowOutlyingIntersections(boolean) -> c
    boolean keepsTypeOnGeometricTransform() -> F
    void setKeepTypeOnGeometricTransform(boolean) -> d
    geogebra.common.kernel.geos.GeoElement[] createTransformedObject(geogebra.common.kernel.Transform,java.lang.String) -> a
    boolean isAllEndpointsLabelsSet() -> G
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setSegment(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean isNumberValue() -> A_
    int getMetasLength() -> g_
    geogebra.common.kernel.geos.GeoElement[] getMetas() -> a
    void setFromMeta(geogebra.common.kernel.geos.GeoElement) -> d
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    void modifyInputPolyAndPoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void removePointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> e
    boolean respectLimitedPath(double) -> a
    void setPoints(geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D,geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D) -> a
    void setStandardStartPoint() -> g
    void setCoords(geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint) -> a
    geogebra.common.kernel.geos.GeoElement copyFreeSegment() -> e
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoSpace -> geogebra.common.h.f.d.A:
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isAvailableAtConstructionStep(int) -> a_
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.geogebra3D.kernel3D.geos.GeoSurfaceCartesian3D -> geogebra.common.h.f.d.B:
    double[] tmp -> c
    geogebra.common.kernel.Matrix.Coords der1 -> a
    geogebra.common.kernel.Matrix.Coords der2 -> b
    geogebra.common.kernel.Matrix.Coords normal -> c
    geogebra.common.kernel.Matrix.CoordsDouble3 p1 -> a
    geogebra.common.kernel.Matrix.CoordsDouble3 p2 -> b
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail levelOfDetail -> a
    boolean trace -> b
    void evaluatePoint(double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    boolean setNormalFromNeighbours(geogebra.common.kernel.Matrix.Coords3,double,double,geogebra.common.kernel.Matrix.Coords3) -> b
    boolean evaluateNormal(geogebra.common.kernel.Matrix.Coords3,double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    boolean isGeoElement3D() -> l
    boolean isFillable() -> v
    geogebra.common.kernel.Matrix.Coords evaluatePoint(double,double) -> a
    geogebra.common.kernel.Matrix.Coords evaluateNormal(double,double) -> b
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail getLevelOfDetail() -> a
    void setLevelOfDetail(geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail) -> a
    boolean hasLevelOfDetail() -> J_
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    void setUsingCasCommand(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    void clearCasEvalMap(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar[] getFunctions() -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    void setAllVisualPropertiesExceptEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> a_
geogebra.common.geogebra3D.kernel3D.geos.GeoVec -> geogebra.common.h.f.d.C:
    geogebra.common.kernel.Matrix.Coords v -> b
    int m_length -> a
    void setCoords(geogebra.common.kernel.Matrix.Coords) -> a
    void setCoords(double[]) -> b
    void setCoords(geogebra.common.kernel.kernelND.GeoPointND) -> e
    geogebra.common.kernel.Matrix.Coords getCoords() -> k
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
geogebra.common.geogebra3D.kernel3D.geos.GeoVec4D -> geogebra.common.h.f.d.D:
    void setCoords(double,double,double,double) -> b
    void setCoords(double,double,double) -> a
    double getX() -> c
    double getY() -> d
    double getZ() -> e
    double getW() -> l
    void getXMLtags(java.lang.StringBuilder) -> a_
    void setMode(int) -> g
    int getMode() -> a
    boolean hasCoords() -> M
geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D -> geogebra.common.h.f.d.E:
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    geogebra.common.kernel.Matrix.CoordMatrix matrix -> a
    geogebra.common.kernel.Matrix.Coords labelPosition -> a
    java.lang.StringBuilder sbToString -> a
    java.lang.StringBuilder sbBuildValueString -> b
    java.lang.StringBuilder sb -> c
    boolean trace -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    void setCoords(double[]) -> b
    void updateStartPointPosition() -> c
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isDefined() -> a_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isInfinite() -> I
    boolean isFinite() -> F
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean evaluatesTo3DVector() -> d
    boolean isPath() -> d_
    boolean isGeoVector() -> H_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean evaluatesToVectorNotPoint() -> N
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    void setCoordSep(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> e_
    geogebra.common.kernel.kernelND.GeoPointND[] getStartPoints() -> a
    boolean hasAbsoluteLocation() -> K_
    void initStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    boolean isAlwaysFixed() -> P
    void removeStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> d_
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> b
    void setWaitForStartPoint() -> d
    geogebra.common.geogebra3D.kernel3D.geos.Geo3DVec getVector() -> a
    double[] getPointAsDouble() -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInD3() -> c
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    boolean isLaTeXDrawableGeo() -> Q
    void getInhomCoords(double[]) -> a
    void updateColumnHeadingsForTraceValues() -> l
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    java.lang.String getTraceDialogAsValues() -> d
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    boolean isCasEvaluableObject() -> J
    void updateLocation() -> g
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    boolean isMatrixTransformable() -> y_
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void setCartesian() -> m
    void setCartesian3D() -> n
    void setSpherical() -> o
    void setPolar() -> p
    void setComplex() -> q
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    boolean moveVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    geogebra.common.kernel.kernelND.Geo3DVec getVector() -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.geogebra3D.kernel3D.scripting.CmdSetSpinSpeed -> geogebra.common.h.f.e.a:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.scripting.CmdSetViewDirection -> geogebra.common.h.f.e.b:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.geogebra3D.kernel3D.transform.MirrorableAtPlane -> geogebra.common.h.f.f.a:
    void mirror(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
geogebra.common.geogebra3D.kernel3D.transform.Transform3D -> geogebra.common.h.f.f.b:
geogebra.common.geogebra3D.kernel3D.transform.TransformDilate3D -> geogebra.common.h.f.f.c:
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.transform.TransformMirror3D -> geogebra.common.h.f.f.d:
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.transform.TransformRotate3D -> geogebra.common.h.f.f.e:
    geogebra.common.kernel.kernelND.GeoDirectionND orientation -> a
    geogebra.common.kernel.kernelND.GeoLineND line -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.kernel3D.transform.TransformTranslate3D -> geogebra.common.h.f.f.f:
    geogebra.common.kernel.geos.GeoElement transVec -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.geogebra3D.main.App3DCompanion -> geogebra.common.h.g.a:
    java.util.ArrayList euclidianViewForPlaneCompanionList -> a
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion euclidianViewForPlaneCompanion -> a
    geogebra.common.kernel.Kernel newKernel() -> a
    boolean tableVisible(int) -> a
    void addCompleteUserInterfaceXMLForPlane(java.lang.StringBuilder,boolean) -> a
    void getEuclidianViewXML(java.lang.StringBuilder,boolean) -> b
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion createEuclidianViewForPlane(geogebra.common.kernel.kernelND.ViewCreator,geogebra.common.main.settings.EuclidianSettings,boolean) -> a
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion createEuclidianViewForPlane(geogebra.common.kernel.kernelND.ViewCreator,boolean) -> a
    void resetFonts() -> a
    void removeEuclidianViewForPlaneFromList(geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion) -> a
    void removeAllEuclidianViewForPlane() -> b
    geogebra.common.gui.layout.DockPanel createEuclidianDockPanelForPlane(int,java.lang.String) -> a
    geogebra.common.gui.layout.DockPanel getPanelForPlane() -> a
    geogebra.common.main.settings.Settings newSettings() -> a
    geogebra.common.euclidian.EuclidianViewCompanion createEuclidianViewForPlane(geogebra.common.kernel.kernelND.ViewCreator,boolean) -> a
geogebra.common.geogebra3D.main.settings.EuclidianSettingsForPlane -> geogebra.common.h.g.a.a:
    boolean mirror -> b
    int rotate -> a
    void setTransformForPlane(boolean,int) -> a
    boolean getMirror() -> a
    int getRotate() -> a
    boolean isViewForPlane() -> b
geogebra.common.geogebra3D.util.CopyPaste3D -> geogebra.common.h.h.a:
    void addSubGeos(java.util.ArrayList) -> a
geogebra.common.gui.ContextMenuGeoElement -> geogebra.common.i.a:
    double[] zoomFactors -> a
    double[] axesRatios -> b
    java.util.ArrayList geos -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.main.App app -> a
    boolean justOneGeo -> a
    java.lang.String getDescription(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void cartesianCoordsCmd() -> a
    void polarCoorsCmd() -> b
    void equationImplicitEquationCmd() -> c
    void equationExplicitEquationCmd() -> d
    void parametricFormCmd() -> e
    void cartesianCoordsForVectorItemsCmd() -> f
    void polarCoordsForVectorItemsCmd() -> g
    void implicitConicEquationCmd() -> h
    void equationConicEqnCmd() -> i
    void equationExplicitConicEquationCmd() -> j
    void extendedFormCmd(geogebra.common.kernel.geos.GeoUserInputElement) -> a
    void deleteCmd() -> k
    java.util.ArrayList checkOneGeo() -> a
    void editCmd() -> l
    void renameCmd() -> m
    void fixObjectNumericCmd(geogebra.common.kernel.geos.GeoNumeric) -> a
    void fixObjectCmd() -> n
    void fixCheckboxCmd() -> o
    void showLabelCmd() -> p
    void showObjectCmd() -> q
    void showObjectAuxiliaryCmd() -> r
    void openPropertiesDialogCmd() -> s
    void inputFormCmd(geogebra.common.kernel.geos.GeoUserInputElement) -> b
    void traceCmd() -> t
    void animationCmd() -> u
    void pinCmd(boolean) -> a
    void geoActionCmd(geogebra.common.kernel.geos.GeoElement,java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView,geogebra.common.awt.GPoint) -> a
    void recordToSpreadSheetCmd() -> v
geogebra.common.gui.GuiManager -> geogebra.common.i.b:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolNavigation constProtocolNavigation -> a
    java.util.HashMap plotPanelIDMap -> a
    int lastUsedPlotPanelID -> b
    boolean setModeFinished -> a
    geogebra.common.gui.view.probcalculator.ProbabilityCalculatorView probCalculator -> a
    int caller_APP -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$GuiManager$Help -> a
    void updateMenubar() -> a
    boolean hasAlgebraView() -> a
    boolean isUsingConstructionProtocol() -> b
    void getConsProtocolXML(java.lang.StringBuilder) -> a
    boolean hasProbabilityCalculator() -> c
    void getProbabilityCalculatorXML(java.lang.StringBuilder) -> b
    void getSpreadsheetViewXML(java.lang.StringBuilder,boolean) -> a
    void updateActions() -> b
    void updateConstructionProtocol() -> c
    boolean loadURL(java.lang.String) -> a
    boolean loadURL(java.lang.String,boolean) -> a
    geogebra.common.main.App getApp() -> a
    boolean loadURL_GGB(java.lang.String) -> b
    boolean loadURL_base64(java.lang.String) -> c
    boolean loadFromApplet(java.lang.String) -> d
    void attachView(int) -> a
    void showAxesCmd() -> d
    void showGridCmd() -> e
    void doAfterRedefine(geogebra.common.kernel.geos.GeoElement) -> a
    void detachView(int) -> b
    void openCommandHelp(java.lang.String) -> a
    void openHelp(java.lang.String,geogebra.common.gui.GuiManager$Help) -> a
    void openHelp(java.lang.String) -> b
    void setShowConstructionProtocolNavigation(boolean) -> a
    void setShowConstructionProtocolNavigation(boolean,boolean,double,boolean) -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolNavigation getConstructionProtocolNavigation() -> a
    void applyCPsettings(geogebra.common.main.settings.ConstructionProtocolSettings) -> a
    java.util.HashMap getPlotPanelIDMap() -> a
    int assignPlotPanelID(geogebra.common.gui.view.data.PlotPanelEuclidianViewInterface) -> a
    geogebra.common.gui.view.data.PlotPanelEuclidianViewInterface getPlotPanelView(int) -> a
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int setToolbarMode(int) -> a
    void setCallerApp() -> f
    java.lang.String getHelpURL(geogebra.common.gui.GuiManager$Help,java.lang.String) -> a
    void redo() -> g
    void undo() -> h
    java.lang.String getToolbarDefinition() -> a
    void setToolBarDefinition(java.lang.String) -> c
    void refreshCustomToolsInToolBar() -> i
    geogebra.common.kernel.View getPlotPanelView(int) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$GuiManager$Help() -> a
geogebra.common.gui.GuiManager$Help -> geogebra.common.i.b$a:
    geogebra.common.gui.GuiManager$Help COMMAND -> a
    geogebra.common.gui.GuiManager$Help TOOL -> b
    geogebra.common.gui.GuiManager$Help GENERIC -> c
    geogebra.common.gui.GuiManager$Help[] ENUM$VALUES -> a
    geogebra.common.gui.GuiManager$Help[] values() -> values
    geogebra.common.gui.GuiManager$Help valueOf(java.lang.String) -> valueOf
geogebra.common.gui.InputHandler -> geogebra.common.i.c:
    boolean processInput(java.lang.String) -> a
geogebra.common.gui.Layout -> geogebra.common.i.d:
    java.util.ArrayList perspectives -> a
    geogebra.common.main.settings.LayoutSettings settings -> a
    geogebra.common.io.layout.Perspective[] defaultPerspectives -> a
    void initializeDefaultPerspectives(geogebra.common.main.App,double) -> a
    void setPerspectives(java.util.ArrayList,geogebra.common.io.layout.Perspective) -> a
    boolean setEVsettingsFromPerspective(geogebra.common.main.App,geogebra.common.io.layout.Perspective) -> a
    boolean applyPerspective(geogebra.common.io.layout.Perspective) -> a
    void getXml(java.lang.StringBuilder,boolean) -> a
    boolean isOnlyVisible(int) -> a
    geogebra.common.gui.layout.DockManager getDockManager() -> a
geogebra.common.gui.SetLabels -> geogebra.common.i.e:
    void setLabels() -> x_
geogebra.common.gui.SetOrientation -> geogebra.common.i.f:
    void setOrientation() -> d
geogebra.common.gui.VirtualKeyboardListener -> geogebra.common.i.g:
    void insertString(java.lang.String) -> a
geogebra.common.gui.dialog.ButtonDialogModel -> geogebra.common.i.a.a:
    geogebra.common.kernel.geos.GeoElement linkedGeo -> a
    boolean textField -> a
    geogebra.common.main.App app -> a
    geogebra.common.kernel.geos.GeoElement geoResult -> b
    geogebra.common.kernel.geos.GeoButton button -> a
    int x -> a
    int y -> b
    void apply(java.lang.String,java.lang.String) -> a
    void cancel() -> a
    java.lang.String getTitle() -> a
    java.lang.String getInitString() -> b
    boolean isTextField() -> a
    java.lang.String getClickScript() -> c
    void setLinkedGeo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.gui.dialog.InputDialog -> geogebra.common.i.a.b:
    java.lang.String initString -> a
    geogebra.common.gui.InputHandler inputHandler -> a
    java.lang.String inputText -> b
    java.util.ArrayList tempArrayList -> a
    boolean processInputHandler() -> X_
geogebra.common.gui.dialog.TextInputDialog -> geogebra.common.i.a.c:
    void reInitEditor(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setVisible(boolean) -> a
geogebra.common.gui.dialog.TextPreviewer -> geogebra.common.i.a.d:
    geogebra.common.euclidian.EuclidianView ev -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.geos.GeoText previewGeoIndependent -> a
    geogebra.common.kernel.geos.GeoText previewGeoDependent -> b
    geogebra.common.kernel.algos.AlgoDependentText textAlgo -> a
    geogebra.common.kernel.Construction cons -> a
    boolean isIndependent -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
    void removeEVMouseListeners() -> a
    void updateViewportSize(geogebra.common.kernel.geos.GeoText) -> a
    void updateFonts() -> b
    void removePreviewGeoText() -> c
    void updatePreviewText(geogebra.common.kernel.geos.GeoText,java.lang.String,boolean) -> a
    void updateVisualProperties(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.geos.GeoText,boolean,boolean) -> a
    void locateTextGeo(geogebra.common.kernel.geos.GeoText) -> b
geogebra.common.gui.dialog.ToolManagerDialogModel -> geogebra.common.i.a.e:
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    java.util.List deletedMacros -> a
    geogebra.common.gui.dialog.ToolManagerDialogModel$ToolManagerDialogListener listener -> a
    void addMacros(java.lang.Object[]) -> a
    boolean deleteTools(java.lang.Object[]) -> a
    java.util.List getDeletedMacros() -> a
    void uploadToGeoGebraTube(java.lang.Object[]) -> b
    java.util.ArrayList getAllTools(java.lang.Object[]) -> a
geogebra.common.gui.dialog.ToolManagerDialogModel$ToolManagerDialogListener -> geogebra.common.i.a.e$a:
    void removeMacroFromToolbar(int) -> a
    void refreshCustomToolsInToolBar() -> a
    void uploadWorksheet(java.util.ArrayList) -> a
geogebra.common.gui.dialog.handler.NumberChangeSignInputHandler -> geogebra.common.i.a.a.a:
    boolean processInput(java.lang.String,boolean) -> a
geogebra.common.gui.dialog.handler.NumberInputHandler -> geogebra.common.i.a.a.b:
    geogebra.common.kernel.commands.AlgebraProcessor algebraProcessor -> a
    geogebra.common.kernel.geos.GeoNumberValue num -> a
    geogebra.common.util.AsyncOperation callback -> a
    boolean oldVal -> a
    geogebra.common.main.App app -> a
    boolean processInput(java.lang.String) -> a
    void setNum(geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoNumberValue getNum() -> a
geogebra.common.gui.dialog.handler.RedefineInputHandler -> geogebra.common.i.a.a.c:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.main.App app -> a
    java.lang.String oldString -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElement() -> a
    boolean processInput(java.lang.String) -> a
geogebra.common.gui.dialog.handler.RenameInputHandler -> geogebra.common.i.a.a.d:
    geogebra.common.kernel.geos.GeoElement geo -> a
    boolean storeUndo -> a
    geogebra.common.main.App app -> a
    void setGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    boolean processInput(java.lang.String) -> a
geogebra.common.gui.dialog.options.OptionsAdvanced -> geogebra.common.i.a.b.a:
geogebra.common.gui.dialog.options.OptionsCAS -> geogebra.common.i.a.b.b:
geogebra.common.gui.dialog.options.OptionsDefaults -> geogebra.common.i.a.b.c:
geogebra.common.gui.dialog.options.OptionsEuclidian -> geogebra.common.i.a.b.d:
    void updateBounds() -> b
geogebra.common.gui.dialog.options.OptionsLayout -> geogebra.common.i.a.b.e:
geogebra.common.gui.dialog.options.OptionsObject -> geogebra.common.i.a.b.f:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.geos.GeoElement geoAdded -> a
    boolean firstTime -> a
    java.util.ArrayList selection -> a
    java.lang.StringBuilder sb -> a
    geogebra.common.main.App app -> a
    void add(geogebra.common.kernel.geos.GeoElement) -> a
    void forgetGeoAdded() -> b
    geogebra.common.kernel.geos.GeoElement consumeGeoAdded() -> a
    java.lang.String getSelectionDescription() -> a
geogebra.common.gui.dialog.options.OptionsSpreadsheet -> geogebra.common.i.a.b.g:
geogebra.common.gui.dialog.options.model.AbsoluteScreenLocationModel -> geogebra.common.i.a.b.a.a:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.geos.AbsoluteScreenLocateable getAbsoluteScreenLocateable(int) -> a
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.AngleArcSizeModel -> geogebra.common.i.a.b.a.b:
    java.lang.Integer MIN_VALUE -> a
    geogebra.common.gui.dialog.options.model.ISliderListener listener -> a
    geogebra.common.kernel.geos.AngleProperties getAngleAt(int) -> a
    void applyChanges(int) -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.AnimatingModel -> geogebra.common.i.a.b.a.c:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    void applyChanges(boolean) -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.AnimationSpeedModel -> geogebra.common.i.a.b.a.d:
    boolean showSliders -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.dialog.options.model.AnimationSpeedModel$IAnimationSpeedListener getListener() -> a
    boolean isValidAt(int) -> b
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void applyTypeChanges(int) -> a
    void applySpeedChanges(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void apply(int,int) -> a
    int getValueAt(int) -> a
    boolean isShowSliders() -> M_
    void setShowSliders(boolean) -> a
    geogebra.common.gui.dialog.options.model.IComboListener getListener() -> a
geogebra.common.gui.dialog.options.model.AnimationSpeedModel$IAnimationSpeedListener -> geogebra.common.i.a.b.a.d$a:
geogebra.common.gui.dialog.options.model.AnimationStepModel -> geogebra.common.i.a.b.a.e:
    geogebra.common.gui.dialog.options.model.ITextFieldListener listener -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean partOfSlider -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    void applyChanges(geogebra.common.kernel.arithmetic.NumberValue) -> a
    boolean isPartOfSlider() -> N_
    void setPartOfSlider(boolean) -> a
geogebra.common.gui.dialog.options.model.AuxObjectModel -> geogebra.common.i.a.b.a.f:
    void apply(int,boolean) -> a
    boolean getValueAt(int) -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.AxisModel -> geogebra.common.i.a.b.a.g:
    geogebra.common.gui.dialog.options.model.AxisModel$IAxisModelListener listener -> a
    int axis -> a
    geogebra.common.main.App app -> a
    geogebra.common.euclidian.EuclidianView view -> a
    void fillTicksCombo() -> a
    java.lang.String getAxisName() -> a
    void applyTickDistance(double) -> a
    double parseDouble(java.lang.String) -> a
    void fillUnitLabel() -> b
    void showAxis(boolean) -> a
    void showAxisNumbers(boolean) -> b
    void applyTickDistance(boolean) -> c
    void applyUnitLabel(java.lang.String) -> a
    void applyAxisLabel(java.lang.String) -> b
    void applyTickStyle(int) -> a
    void applyPositiveAxis(boolean) -> d
    void applyDrawAtBorder(boolean) -> e
    void applyCrossing(java.lang.String) -> c
    int getAxis() -> a
    void fillAxisCombo() -> c
geogebra.common.gui.dialog.options.model.AxisModel$IAxisModelListener -> geogebra.common.i.a.b.a.g$a:
    void addTickItem(java.lang.String) -> a
    void addAxisLabelItem(java.lang.String) -> b
    void addUnitLabelItem(java.lang.String) -> c
    void setCrossText(java.lang.String) -> d
geogebra.common.gui.dialog.options.model.BackgroundImageModel -> geogebra.common.i.a.b.a.h:
    geogebra.common.kernel.geos.GeoImage getImageAt(int) -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.BooleanOptionModel -> geogebra.common.i.a.b.a.i:
    geogebra.common.gui.dialog.options.model.BooleanOptionModel$IBooleanOptionListener listener -> a
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
    void updateProperties() -> a
    void applyChanges(boolean) -> a
    geogebra.common.gui.dialog.options.model.BooleanOptionModel$IBooleanOptionListener getListener() -> a
    void setListener(geogebra.common.gui.dialog.options.model.BooleanOptionModel$IBooleanOptionListener) -> a
geogebra.common.gui.dialog.options.model.BooleanOptionModel$IBooleanOptionListener -> geogebra.common.i.a.b.a.i$a:
    void updateCheckbox(boolean) -> a
geogebra.common.gui.dialog.options.model.ButtonSizeModel -> geogebra.common.i.a.b.a.j:
    geogebra.common.gui.dialog.options.model.ButtonSizeModel$IButtonSizeListener listener -> a
    geogebra.common.kernel.geos.GeoButton getButtonAt(int) -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    void setSizesFromString(java.lang.String,java.lang.String,boolean) -> a
    void applyChanges(boolean) -> a
geogebra.common.gui.dialog.options.model.ButtonSizeModel$IButtonSizeListener -> geogebra.common.i.a.b.a.j$a:
    void updateSizes(int,int,boolean) -> a
geogebra.common.gui.dialog.options.model.ColorFunctionModel -> geogebra.common.i.a.b.a.k:
    geogebra.common.gui.dialog.options.model.ColorFunctionModel$IColorFunctionListener listener -> a
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    void updateProperties() -> a
    void setListenerRGBA(java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    void applyChanges(java.lang.String,java.lang.String,java.lang.String,java.lang.String,int,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    boolean checkGeos() -> a
    void removeAll() -> b
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.ColorFunctionModel$IColorFunctionListener -> geogebra.common.i.a.b.a.k$a:
    void setRedText(java.lang.String) -> a
    void setGreenText(java.lang.String) -> b
    void setBlueText(java.lang.String) -> c
    void setAlphaText(java.lang.String) -> d
    void showAlpha(boolean) -> a
    void setDefaultValues(geogebra.common.kernel.geos.GeoElement) -> a
    void updateSelection(java.lang.Object[]) -> a
geogebra.common.gui.dialog.options.model.ColorObjectModel -> geogebra.common.i.a.b.a.l:
    boolean allFillable -> a
    boolean hasBackground -> b
    boolean hasImageGeo -> c
    geogebra.common.gui.dialog.options.model.ColorObjectModel$IColorObjectListener listener -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    void updateProperties() -> a
    boolean hasOpacity(geogebra.common.kernel.geos.GeoElement) -> a
    void updateColor(geogebra.common.awt.GColor,float,boolean) -> b
    void clearBackgroundColor() -> b
    boolean checkGeos() -> a
    void applyChanges(geogebra.common.awt.GColor,float,boolean) -> a
    boolean hasImageGeo() -> b
    boolean hasBackground() -> c
    boolean isValidAt(int) -> b
    java.lang.String getColorAsString(geogebra.common.awt.GColor) -> a
geogebra.common.gui.dialog.options.model.ColorObjectModel$IColorObjectListener -> geogebra.common.i.a.b.a.l$a:
    void updateChooser(boolean,boolean,boolean,boolean,boolean) -> a
    void updatePreview(geogebra.common.awt.GColor,float) -> a
    boolean isBackgroundColorSelected() -> a
    void updateNoBackground(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GColor,float,boolean,boolean) -> a
geogebra.common.gui.dialog.options.model.ConicEqnModel -> geogebra.common.i.a.b.a.m:
    geogebra.common.main.Localization loc -> a
    int implicitIndex -> a
    int explicitIndex -> b
    int specificIndex -> c
    boolean isValidAt(int) -> b
    geogebra.common.kernel.geos.GeoConic getConicAt(int) -> a
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.CoordsModel -> geogebra.common.i.a.b.a.n:
    java.util.List coordValues -> a
    boolean isValidAt(int) -> b
    geogebra.common.kernel.kernelND.CoordStyle getCoordStyleAt(int) -> a
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void apply(int,int) -> a
    boolean applyChanges(int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.DecoAngleModel -> geogebra.common.i.a.b.a.o:
    geogebra.common.gui.dialog.options.model.DecoAngleModel$IDecoAngleListener listener -> a
    geogebra.common.kernel.geos.AngleProperties getAnglePropertiesAt(int) -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.DecoAngleModel$IDecoAngleListener -> geogebra.common.i.a.b.a.o$a:
    void setArcSizeMinValue() -> b
geogebra.common.gui.dialog.options.model.DecoSegmentModel -> geogebra.common.i.a.b.a.p:
    geogebra.common.gui.dialog.options.model.IComboListener listener -> a
    geogebra.common.kernel.geos.GeoSegment getGeoSegmentAt(int) -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.EuclidianOptionsModel -> geogebra.common.i.a.b.a.q:
    geogebra.common.main.App app -> a
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$IEuclidianOptionsListener listener -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$dialog$options$model$EuclidianOptionsModel$MinMaxType -> a
    void applyBackgroundColor() -> a
    void applyAxesColor(geogebra.common.awt.GColor) -> a
    void applyGridColor(geogebra.common.awt.GColor) -> b
    void applyTooltipMode(int) -> a
    void showAxes(boolean) -> a
    void applyBoldAxes(boolean,boolean) -> a
    void showGrid(boolean) -> b
    void applyBoldGrid(boolean) -> c
    void applyMouseCoords(boolean) -> d
    void appyGridType(int) -> b
    void appyAxesStyle(int) -> c
    void appyGridStyle(int) -> d
    void appyGridManualTick(boolean) -> e
    void applyAxesRatio(double,double) -> a
    void applyLockRatio(java.lang.Double) -> a
    void applyMinMax(java.lang.String,geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType) -> a
    void fillTooltipCombo() -> b
    void updateProperties() -> c
    void fillGridTypeCombo() -> d
    void fillAngleOptions() -> e
    void applyGridTicks(double,int) -> a
    void applyGridTickAngle(int) -> e
    geogebra.common.awt.GColor getBackgroundColor() -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$dialog$options$model$EuclidianOptionsModel$MinMaxType() -> a
geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$IEuclidianOptionsListener -> geogebra.common.i.a.b.a.q$a:
    geogebra.common.awt.GColor getEuclidianBackground(int) -> a
    void enableAxesRatio(boolean) -> a
    void setMinMaxText(java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    void addTooltipItem(java.lang.String) -> a
    void addGridTypeItem(java.lang.String) -> b
    void updateAxes(geogebra.common.awt.GColor,boolean,boolean) -> a
    void updateBackgroundColor(geogebra.common.awt.GColor) -> a
    void updateGrid(geogebra.common.awt.GColor,boolean,boolean,int) -> a
    void selectTooltipType(int) -> a
    void updateConsProtocolPanel(boolean) -> b
    void updateBounds() -> b
    void showMouseCoords(boolean) -> c
    void selectAxesStyle(int) -> b
    void updateGridTicks(boolean,double[],int) -> a
    void enableLock(boolean) -> d
    void selectGridStyle(int) -> c
    void addAngleOptionItem(java.lang.String) -> c
geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType -> geogebra.common.i.a.b.a.q$b:
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType minX -> a
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType maxX -> b
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType minY -> c
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType maxY -> d
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType[] ENUM$VALUES -> a
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType[] values() -> values
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel$MinMaxType valueOf(java.lang.String) -> valueOf
geogebra.common.gui.dialog.options.model.FillingModel -> geogebra.common.i.a.b.a.r:
    boolean isBarChart -> a
    geogebra.common.kernel.geos.GeoElement$FillType fillType -> a
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean hasGeoButton -> b
    boolean hasGeoTurtle -> c
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType -> a
    geogebra.common.gui.dialog.options.model.FillingModel$IFillingListener getFillingListener() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void updateFillType(geogebra.common.kernel.geos.GeoElement$FillType) -> a
    void updateProperties() -> a
    void setAlpha(geogebra.common.kernel.algos.AlgoBarChart,double) -> a
    void updateBarFillTypePanel(geogebra.common.kernel.algos.AlgoBarChart) -> a
    void setDistance(geogebra.common.kernel.algos.AlgoBarChart,int) -> a
    void setAngle(geogebra.common.kernel.algos.AlgoBarChart,double) -> b
    void setFillType(geogebra.common.kernel.geos.GeoElement) -> a
    void applyImage(java.lang.String) -> a
    void applyUnicode(java.lang.String) -> b
    void applyOpacity(int) -> a
    void applyAngleAndDistance(int,int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
    boolean isValidAt(int) -> b
    void applyFillType(int) -> b
    void applyFillingInverse(boolean) -> a
    boolean updateBarsFillType(geogebra.common.kernel.geos.GeoElement,int,java.lang.String) -> a
    java.lang.String getSelectedSymbolText() -> a
    float getFillingValue() -> a
    geogebra.common.kernel.geos.GeoElement$FillType getSelectedFillType() -> b
    int getAngleValue() -> a
    int getDistanceValue() -> c
    boolean checkGeos() -> a
    boolean isBarChart() -> b
    void setBarChart(boolean) -> b
    boolean hasGeoButton() -> c
    boolean hasGeoTurtle() -> d
    geogebra.common.kernel.geos.GeoElement$FillType getFillType() -> a
    geogebra.common.kernel.geos.GeoElement$FillType getFillTypeAt(int) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$FillType() -> a
geogebra.common.gui.dialog.options.model.FillingModel$IFillingListener -> geogebra.common.i.a.b.a.r$a:
    void setSymbolsVisible(boolean) -> a
    void setFillingImage(java.lang.String) -> a
    void setFillInverseVisible(boolean) -> b
    void setFillTypeVisible(boolean) -> c
    void setFillInverseSelected(boolean) -> d
    void setFillValue(int) -> a
    void setAngleValue(int) -> b
    void setDistanceValue(int) -> c
    void setImageFillType() -> b
    void setDottedFillType() -> c
    void setSymbolFillType() -> d
    void setBrickFillType() -> e
    void setCrossHatchedFillType() -> f
    void setHatchFillType() -> g
    void setStandardFillType() -> h
    int getSelectedBarIndex() -> a
    void selectSymbol(java.lang.String) -> b
    java.lang.String getSelectedSymbolText() -> a
    float getFillingValue() -> a
    geogebra.common.kernel.geos.GeoElement$FillType getSelectedFillType() -> a
    int getDistanceValue() -> b
    int getAngleValue() -> c
geogebra.common.gui.dialog.options.model.FixCheckboxModel -> geogebra.common.i.a.b.a.s:
    geogebra.common.kernel.geos.GeoBoolean getBooleanAt(int) -> a
    boolean getValueAt(int) -> a
    boolean isValidAt(int) -> b
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.FixObjectModel -> geogebra.common.i.a.b.a.t:
    void apply(int,boolean) -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.GraphicsViewLocationModel -> geogebra.common.i.a.b.a.u:
    geogebra.common.gui.dialog.options.model.GraphicsViewLocationModel$IGraphicsViewLocationListener listener -> a
    geogebra.common.main.App app -> a
    void updateProperties() -> a
    void applyToEuclidianView1(boolean) -> a
    void applyToEuclidianView2(boolean) -> b
    void applyToEuclidianView3D(boolean) -> c
    boolean checkGeos() -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.GraphicsViewLocationModel$IGraphicsViewLocationListener -> geogebra.common.i.a.b.a.u$a:
    void selectView(int,boolean) -> a
    void setCheckBox3DVisible(boolean) -> a
geogebra.common.gui.dialog.options.model.IComboListener -> geogebra.common.i.a.b.a.v:
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
geogebra.common.gui.dialog.options.model.ISliderListener -> geogebra.common.i.a.b.a.w:
    void setValue(int) -> a
geogebra.common.gui.dialog.options.model.ITextFieldListener -> geogebra.common.i.a.b.a.x:
    void setText(java.lang.String) -> a
geogebra.common.gui.dialog.options.model.ImageCornerModel -> geogebra.common.i.a.b.a.y:
    java.util.List choices -> a
    geogebra.common.kernel.Kernel kernel -> a
    int cornerIdx -> a
    geogebra.common.main.App app -> a
    void updateProperties() -> a
    int getCornerNumber() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    geogebra.common.kernel.geos.GeoImage getGeoImageAt(int) -> a
    void apply(int,int) -> a
    void applyChanges(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoPoint getPointAt(int) -> a
    boolean isValidAt(int) -> b
    void setCornerIdx(int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.IneqStyleModel -> geogebra.common.i.a.b.a.z:
    geogebra.common.kernel.geos.InequalityProperties getInequalityPropertiesAt(int) -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.IneqStyleModel$IIneqStyleListener -> geogebra.common.i.a.b.a.z$a:
    void enableFilling(boolean) -> b
geogebra.common.gui.dialog.options.model.InterpolateImageModel -> geogebra.common.i.a.b.a.A:
    geogebra.common.kernel.geos.GeoImage getGeoImageAt(int) -> a
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.LayerModel -> geogebra.common.i.a.b.a.B:
    boolean isValidAt(int) -> b
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.LineEqnModel -> geogebra.common.i.a.b.a.C:
    java.util.List eqnValues -> a
    boolean isValidAt(int) -> b
    geogebra.common.kernel.geos.GeoLine getLineAt(int) -> a
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.LineStyleModel -> geogebra.common.i.a.b.a.D:
    geogebra.common.gui.dialog.options.model.LineStyleModel$ILineStyleListener listener -> a
    boolean lineTypeEnabled -> a
    boolean lineOpacityEnabled -> b
    java.lang.Integer[] lineStyleArray -> a
    int maxMinimumThickness() -> a
    void updateProperties() -> a
    void applyThickness(int) -> a
    void applyLineType(int) -> b
    void applyOpacity(int) -> c
    boolean isValidAt(int) -> b
    boolean checkGeos() -> a
geogebra.common.gui.dialog.options.model.LineStyleModel$ILineStyleListener -> geogebra.common.i.a.b.a.D$a:
    void setThicknessSliderValue(int) -> a
    void setThicknessSliderMinimum(int) -> b
    void setOpacitySliderValue(int) -> c
    void selectCommonLineStyle(boolean,int) -> a
    void setLineTypeVisible(boolean) -> a
    void setLineOpacityVisible(boolean) -> b
geogebra.common.gui.dialog.options.model.ListAsComboModel -> geogebra.common.i.a.b.a.E:
    geogebra.common.main.App app -> a
    geogebra.common.gui.dialog.options.model.ListAsComboModel$IListAsComboListener listener -> a
    geogebra.common.kernel.geos.GeoList getGeoListAt(int) -> a
    void applyChanges(boolean) -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.ListAsComboModel$IListAsComboListener -> geogebra.common.i.a.b.a.E$a:
    void drawListAsComboBox(geogebra.common.kernel.geos.GeoList,boolean) -> a
geogebra.common.gui.dialog.options.model.LodModel -> geogebra.common.i.a.b.a.F:
    boolean isDefaults -> a
    geogebra.common.main.App app -> a
    geogebra.common.kernel.kernelND.SurfaceEvaluable getSurfaceAt(int) -> a
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.MultipleOptionsModel -> geogebra.common.i.a.b.a.G:
    geogebra.common.gui.dialog.options.model.IComboListener listener -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void updateProperties() -> a
    void fillModes(geogebra.common.main.Localization) -> a
    geogebra.common.gui.dialog.options.model.IComboListener getListener() -> a
geogebra.common.gui.dialog.options.model.NumberOptionsModel -> geogebra.common.i.a.b.a.H:
    void apply(int,int) -> a
    int getValueAt(int) -> a
    boolean applyChanges(int) -> a
geogebra.common.gui.dialog.options.model.ObjectNameModel -> geogebra.common.i.a.b.a.I:
    geogebra.common.gui.dialog.options.model.ObjectNameModel$IObjectNameListener listener -> a
    geogebra.common.main.App app -> a
    geogebra.common.gui.dialog.handler.RenameInputHandler nameInputHandler -> a
    geogebra.common.gui.dialog.handler.RedefineInputHandler defInputHandler -> a
    geogebra.common.kernel.geos.GeoElement currentGeo -> a
    boolean redefinitionFailed -> a
    boolean busy -> b
    void updateProperties() -> a
    boolean checkGeos() -> a
    void applyNameChange(java.lang.String) -> a
    void applyDefinitionChange(java.lang.String) -> b
    java.lang.String getDefText(geogebra.common.kernel.geos.GeoElement) -> a
    void applyCaptionChange(java.lang.String) -> c
    void redefineCurrentGeo(geogebra.common.kernel.geos.GeoElement,java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement getCurrentGeo() -> a
    void setCurrentGeo(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.gui.dialog.handler.RenameInputHandler getNameInputHandler() -> a
    void setNameInputHandler(geogebra.common.gui.dialog.handler.RenameInputHandler) -> a
    geogebra.common.gui.dialog.handler.RedefineInputHandler getDefInputHandler() -> a
    void setDefInputHandler(geogebra.common.gui.dialog.handler.RedefineInputHandler) -> a
    boolean isBusy() -> b
    void setBusy(boolean) -> a
    boolean isRedefinitionFailed() -> c
    void setRedefinitionFailed(boolean) -> b
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.ObjectNameModel$IObjectNameListener -> geogebra.common.i.a.b.a.I$a:
    void setNameText(java.lang.String) -> a
    void setDefinitionText(java.lang.String) -> b
    void setCaptionText(java.lang.String) -> c
    void updateGUI(boolean,boolean) -> a
    void updateDefLabel() -> b
    void updateCaption() -> c
    void updateName(java.lang.String) -> d
geogebra.common.gui.dialog.options.model.OptionsModel -> geogebra.common.i.a.b.a.J:
    java.lang.Object[] geos -> a
    java.lang.Object[] getGeos() -> a
    void setGeos(java.lang.Object[]) -> a
    java.lang.Object getObjectAt(int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoAt(int) -> a
    int getGeosLength() -> b
    boolean hasGeos() -> e
    boolean isValidAt(int) -> b
    boolean checkGeos() -> a
    boolean isAngleList(geogebra.common.kernel.geos.GeoElement) -> b
geogebra.common.gui.dialog.options.model.OutlyingIntersectionsModel -> geogebra.common.i.a.b.a.K:
    geogebra.common.kernel.geos.LimitedPath getLimitedPathAt(int) -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.PointSizeModel -> geogebra.common.i.a.b.a.L:
    geogebra.common.kernel.geos.PointProperties getPointPropertiesAt(int) -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.PointStyleModel -> geogebra.common.i.a.b.a.M:
    geogebra.common.gui.dialog.options.model.IComboListener listener -> a
    geogebra.common.kernel.geos.PointProperties getPointPropertiesAt(int) -> a
    void updateProperties() -> a
    boolean checkGeos() -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.ReflexAngleModel -> geogebra.common.i.a.b.a.N:
    boolean hasOrientation -> a
    boolean isDrawable -> b
    boolean isDefaults -> c
    geogebra.common.main.App app -> a
    geogebra.common.kernel.geos.AngleProperties getAnglePropertiesAt(int) -> a
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    boolean hasOrientation() -> b
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.ReflexAngleModel$IReflexAngleListener -> geogebra.common.i.a.b.a.N$a:
    void setComboLabels() -> b
geogebra.common.gui.dialog.options.model.RightAngleModel -> geogebra.common.i.a.b.a.O:
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.ScriptInputModel -> geogebra.common.i.a.b.a.P:
    geogebra.common.kernel.geos.GeoElement geo -> a
    boolean global -> a
    geogebra.common.plugin.ScriptType scriptType -> a
    boolean updateScript -> b
    geogebra.common.main.App app -> a
    geogebra.common.gui.dialog.options.model.ScriptInputModel$TextInputHandler inputHandler -> a
    geogebra.common.gui.dialog.options.model.ScriptInputModel$IScriptInputListener listener -> a
    boolean handlingDocumentEventOff -> c
    boolean editOccurred -> d
    int[] $SWITCH_TABLE$geogebra$common$plugin$ScriptType -> a
    void setGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void setGlobal() -> a
    boolean processInput(java.lang.String) -> a
    void setScriptType(geogebra.common.plugin.ScriptType) -> a
    geogebra.common.kernel.geos.GeoElement getGeo() -> a
    void handleDocumentEvent() -> b
    boolean isValidAt(int) -> b
    boolean checkGeos() -> a
    boolean isEditOccurred() -> b
    void setEditOccurred(boolean) -> a
    geogebra.common.main.App access$0(geogebra.common.gui.dialog.options.model.ScriptInputModel) -> a
    boolean access$1(geogebra.common.gui.dialog.options.model.ScriptInputModel) -> a
    geogebra.common.plugin.ScriptType access$2(geogebra.common.gui.dialog.options.model.ScriptInputModel) -> a
    boolean access$3(geogebra.common.gui.dialog.options.model.ScriptInputModel) -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$ScriptType() -> a
geogebra.common.gui.dialog.options.model.ScriptInputModel$IScriptInputListener -> geogebra.common.i.a.b.a.P$a:
    void setInputText(java.lang.String) -> a_
    void setLanguageIndex(int,java.lang.String) -> a
geogebra.common.gui.dialog.options.model.ScriptInputModel$TextInputHandler -> geogebra.common.i.a.b.a.P$b:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.dialog.options.model.ScriptInputModel this$0 -> a
    boolean processInput(java.lang.String) -> a
geogebra.common.gui.dialog.options.model.SelectionAllowedModel -> geogebra.common.i.a.b.a.Q:
    boolean checkGeos() -> a
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.ShowConditionModel -> geogebra.common.i.a.b.a.R:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.dialog.options.model.ShowConditionModel$IShowConditionListener listener -> a
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    void applyChanges(java.lang.String) -> a
    java.lang.String replaceEqualsSigns(java.lang.String) -> a
geogebra.common.gui.dialog.options.model.ShowConditionModel$IShowConditionListener -> geogebra.common.i.a.b.a.R$a:
    void setText(java.lang.String) -> a
    void updateSelection(java.lang.Object[]) -> a
geogebra.common.gui.dialog.options.model.ShowLabelModel -> geogebra.common.i.a.b.a.S:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean showNameValue -> a
    geogebra.common.gui.dialog.options.model.ShowLabelModel$IShowLabelListener listener -> a
    void updateProperties() -> a
    boolean isDropDownList(geogebra.common.kernel.geos.GeoElement) -> a
    void applyShowChanges(boolean) -> a
    void applyModeChanges(int) -> a
    boolean isNameValueShown() -> b
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.ShowLabelModel$IShowLabelListener -> geogebra.common.i.a.b.a.S$a:
    void update(boolean,boolean) -> a
geogebra.common.gui.dialog.options.model.ShowObjectModel -> geogebra.common.i.a.b.a.T:
    void updateProperties() -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.ShowObjectModel$IShowObjectListener -> geogebra.common.i.a.b.a.T$a:
    void updateCheckbox(boolean,boolean) -> a
geogebra.common.gui.dialog.options.model.SliderModel -> geogebra.common.i.a.b.a.U:
    geogebra.common.gui.dialog.options.model.SliderModel$ISliderOptionsListener listener -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    boolean widthUnit -> a
    boolean includeRandom -> b
    boolean isValidAt(int) -> b
    geogebra.common.kernel.geos.GeoNumeric getNumericAt(int) -> a
    void updateProperties() -> a
    void setLabelForWidthUnit() -> b
    void applyFixed(boolean) -> a
    void applyRandom(boolean) -> b
    void applyDirection(int) -> a
    void applyExtrema(geogebra.common.kernel.arithmetic.NumberValue,boolean) -> a
    void applyMin(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void applyMax(geogebra.common.kernel.arithmetic.NumberValue) -> b
    void applyWidth(double) -> a
    boolean isIncludeRandom() -> b
    void setIncludeRandom(boolean) -> c
geogebra.common.gui.dialog.options.model.SliderModel$ISliderOptionsListener -> geogebra.common.i.a.b.a.U$a:
    void setMinText(java.lang.String) -> a
    void setMaxText(java.lang.String) -> b
    void setWidthText(java.lang.String) -> c
    void setWidthUnitText(java.lang.String) -> d
    void selectFixed(boolean) -> a
    void selectRandom(boolean) -> b
    void setRandomVisible(boolean) -> c
    void setSliderDirection(int) -> a
geogebra.common.gui.dialog.options.model.SliderOptionsModel -> geogebra.common.i.a.b.a.V:
    geogebra.common.gui.dialog.options.model.ISliderListener listener -> a
    void updateProperties() -> a
    geogebra.common.gui.dialog.options.model.ISliderListener getListener() -> a
    void setListener(geogebra.common.gui.dialog.options.model.ISliderListener) -> a
geogebra.common.gui.dialog.options.model.SlopeTriangleSizeModel -> geogebra.common.i.a.b.a.W:
    geogebra.common.kernel.geos.GeoNumeric getNumericAt(int) -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.StartPointModel -> geogebra.common.i.a.b.a.X:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    java.util.List choices -> a
    geogebra.common.kernel.Locateable getLocateableAt(int) -> a
    void updateProperties() -> a
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    void applyChanges(java.lang.String) -> a
    void apply(int,int) -> a
    int getValueAt(int) -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.TextFieldSizeModel -> geogebra.common.i.a.b.a.Y:
    geogebra.common.gui.dialog.options.model.ITextFieldListener listener -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.geos.GeoTextField getTextFieldAt(int) -> a
    void updateProperties() -> a
    void applyChanges(java.lang.String) -> a
    void applyChanges(geogebra.common.kernel.arithmetic.NumberValue) -> a
    boolean isValidAt(int) -> b
geogebra.common.gui.dialog.options.model.TextOptionsModel -> geogebra.common.i.a.b.a.Z:
    geogebra.common.gui.dialog.options.model.TextOptionsModel$ITextOptionsListener listener -> a
    boolean justDisplayFontSize -> a
    java.lang.String[] fonts -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.gui.inputfield.DynamicTextProcessor dTProcessor -> a
    geogebra.common.kernel.geos.GeoText editGeo -> a
    geogebra.common.kernel.geos.GeoText lastGeo -> b
    boolean checkGeos() -> a
    geogebra.common.kernel.geos.TextProperties getTextPropertiesAt(int) -> a
    geogebra.common.kernel.geos.GeoText getGeoTextAt(int) -> a
    void updateProperties() -> a
    void applyFontSizeFromString(java.lang.String) -> a
    void applyFontSizeFromIndex(int) -> a
    void applyFontSize(double) -> a
    java.lang.String[] getFonts() -> a
    java.lang.String[] getFontSizes() -> b
    void applyFont(boolean) -> a
    void applyDecimalPlaces(int) -> b
    int getFontStyle(boolean,boolean) -> a
    void applyFontStyle(boolean,boolean) -> a
    void setEditGeo(geogebra.common.kernel.geos.GeoText) -> a
    void cancelEditGeo() -> b
    boolean isValidAt(int) -> b
    boolean isTextEditable() -> b
geogebra.common.gui.dialog.options.model.TextOptionsModel$ITextOptionsListener -> geogebra.common.i.a.b.a.Z$a:
    void setWidgetsVisible(boolean,boolean) -> a
    void setFontSizeVisibleOnly() -> b
    void selectSize(int) -> a
    void selectFont(int) -> b
    void selectDecimalPlaces(int) -> c
    void setSecondLineVisible(boolean) -> a
    void selectFontStyle(int) -> d
    void setEditorText(java.util.ArrayList) -> a
    void setEditorText(java.lang.String) -> a
    void updatePreview() -> c
geogebra.common.gui.dialog.options.model.TooltipModel -> geogebra.common.i.a.b.a.aa:
    java.util.List getChoiches(geogebra.common.main.Localization) -> a
    boolean isValidAt(int) -> b
    void apply(int,int) -> a
    int getValueAt(int) -> a
geogebra.common.gui.dialog.options.model.TraceModel -> geogebra.common.i.a.b.a.ab:
    geogebra.common.kernel.geos.Traceable getTraceableAt(int) -> a
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.dialog.options.model.TrimmedIntersectionLinesModel -> geogebra.common.i.a.b.a.ac:
    boolean isValidAt(int) -> b
    boolean getValueAt(int) -> a
    void apply(int,boolean) -> a
geogebra.common.gui.inputfield.AltKeys -> geogebra.common.i.b.a:
    java.util.HashMap LookupLower -> a
    java.util.HashMap LookupUpper -> b
geogebra.common.gui.inputfield.AutoCompleteTextField -> geogebra.common.i.b.b:
    void setAutoComplete(boolean) -> a
    void enableColoring(boolean) -> b
    void setFocus(boolean) -> c
    void setOpaque(boolean) -> setOpaque
    void setFont(geogebra.common.awt.GFont) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setBackground(geogebra.common.awt.GColor) -> b
    void setFocusable(boolean) -> setFocusable
    void setEditable(boolean) -> setEditable
    void requestFocus() -> requestFocus
    void setVisible(boolean) -> setVisible
    void setColumns(int) -> setColumns
    void addFocusListener(geogebra.common.euclidian.event.FocusListener) -> a
    void addKeyHandler(geogebra.common.euclidian.event.KeyHandler) -> a
    int getCaretPosition() -> getCaretPosition
    void setCaretPosition(int) -> setCaretPosition
    void setFocusTraversalKeysEnabled(boolean) -> setFocusTraversalKeysEnabled
    void setUsedForInputBox(geogebra.common.kernel.geos.GeoTextField) -> a
    boolean hasFocus() -> hasFocus
    boolean usedForInputBox() -> a
    void removeSymbolTable() -> a
    void prepareShowSymbolButton(boolean) -> d
geogebra.common.gui.inputfield.ColorProvider -> geogebra.common.i.b.c:
    geogebra.common.awt.GColor COLOR_DEFINED -> a
    geogebra.common.awt.GColor COLOR_UNDEFINED -> b
    geogebra.common.awt.GColor COLOR_LOCAL -> c
    geogebra.common.awt.GColor COLOR_DEFAULT -> d
    geogebra.common.kernel.Kernel kernel -> a
    java.util.Set labels -> a
    java.util.Set locals -> b
    geogebra.common.kernel.parser.cashandlers.ParserFunctions pf -> a
    java.util.List definedObjectsIntervals -> a
    java.util.List undefinedObjectsIntervals -> b
    java.util.List ignoreIntervals -> c
    java.util.List localVariableIntervals -> d
    java.lang.String text -> a
    boolean isCasInput -> a
    com.google.gwt.regexp.shared.RegExp commandReg -> a
    com.google.gwt.regexp.shared.RegExp commandParamReg -> b
    com.google.gwt.regexp.shared.RegExp splitter -> c
    com.google.gwt.regexp.shared.RegExp assignmentReg -> d
    void setText(java.lang.String) -> a
    geogebra.common.awt.GColor getColor(int) -> a
    void setIsCasInput(boolean) -> a
    com.google.gwt.regexp.shared.RegExp createAssignmentRegExp(boolean) -> a
    void getIntervals() -> a
    void getIntervalsRecursively(java.lang.String,int) -> a
    com.google.gwt.regexp.shared.SplitResult getVariables(java.lang.String) -> a
    java.lang.String trimVar(java.lang.String) -> a
    void addTo(java.util.List,int,int) -> a
    void addToInterval(java.lang.String,int,int) -> a
geogebra.common.gui.inputfield.ColorProvider$MyLabelParamRegExp -> geogebra.common.i.b.c$a:
    com.google.gwt.regexp.shared.RegExp regExp -> a
    java.lang.String input -> a
    java.lang.String text -> b
    int index -> a
    geogebra.common.gui.inputfield.ColorProvider this$0 -> a
    geogebra.common.gui.inputfield.ColorProvider$MyMatchResult exec() -> a
    void setText(java.lang.String) -> a
    char getClosingBracket(java.lang.String) -> a
geogebra.common.gui.inputfield.ColorProvider$MyMatchResult -> geogebra.common.i.b.c$b:
    int index -> a
    java.lang.String input -> a
    java.util.List groups -> a
    boolean isCommand -> a
    geogebra.common.gui.inputfield.ColorProvider this$0 -> a
    boolean isCommand() -> a
    void setCommand(boolean) -> a
    int getIndex() -> a
    java.lang.String getGroup(int) -> a
geogebra.common.gui.inputfield.DynamicTextElement -> geogebra.common.i.b.d:
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType type -> a
    java.lang.String text -> a
geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType -> geogebra.common.i.b.d$a:
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType VALUE -> a
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType DEFINITION -> b
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType FORMULA_TEXT -> c
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType STATIC -> d
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType[] ENUM$VALUES -> a
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType[] values() -> values
    geogebra.common.gui.inputfield.DynamicTextElement$DynamicTextType valueOf(java.lang.String) -> valueOf
geogebra.common.gui.inputfield.DynamicTextProcessor -> geogebra.common.i.b.e:
    geogebra.common.main.App app -> a
    java.util.ArrayList dList -> a
    java.util.ArrayList buildDynamicTextList(geogebra.common.kernel.geos.GeoText) -> a
    void splitString(geogebra.common.kernel.arithmetic.ExpressionNode,java.util.ArrayList) -> a
    geogebra.common.gui.inputfield.DynamicTextElement createDynamicTextElement(java.lang.String) -> a
geogebra.common.gui.inputfield.MyTextField -> geogebra.common.i.b.f:
    int[] getBracketPositions(java.lang.String,int) -> a
    boolean isCloseBracketOrWhitespace(char) -> a
geogebra.common.gui.layout.DockComponent -> geogebra.common.i.c.a:
    boolean updateResizeWeight() -> a
    void saveDividerLocation() -> a
    void updateDividerLocation(int,int) -> a
    void setDockPanelsVisible(boolean) -> a
geogebra.common.gui.layout.DockManager -> geogebra.common.i.c.b:
    geogebra.common.euclidian.GetViewId getFocusedEuclidianPanel() -> a
    boolean setFocusedPanel(int) -> a
    void unRegisterPanel(geogebra.common.gui.layout.DockPanel) -> a
    geogebra.common.gui.layout.DockPanel getPanel(int) -> a
geogebra.common.gui.layout.DockPanel -> geogebra.common.i.c.c:
    java.lang.String getToolbarString() -> a
    java.lang.String getDefaultToolbarString() -> b
    int getViewId() -> a
    void closePanel() -> b
geogebra.common.gui.menubar.MenuFactory -> geogebra.common.i.d.a:
    geogebra.common.gui.menubar.RadioButtonMenuBar newSubmenu() -> a
geogebra.common.gui.menubar.MenuInterface -> geogebra.common.i.d.b:
geogebra.common.gui.menubar.MyActionListener -> geogebra.common.i.d.c:
    void actionPerformed(java.lang.String) -> a
geogebra.common.gui.menubar.OptionsMenu -> geogebra.common.i.d.d:
    geogebra.common.gui.menubar.RadioButtonMenuBar menuAlgebraStyle -> a
    geogebra.common.gui.menubar.RadioButtonMenuBar menuDecimalPlaces -> b
    geogebra.common.gui.menubar.RadioButtonMenuBar menuLabeling -> c
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.menubar.MenuFactory menuFactory -> a
    void processActionPerformed(java.lang.String) -> a
    geogebra.common.gui.menubar.RadioButtonMenuBar newSubmenu() -> a
    void addAlgebraDescriptionMenu(geogebra.common.gui.menubar.MenuInterface) -> a
    void updateMenuViewDescription() -> a
    void updateMenuDecimalPlaces() -> b
    void addDecimalPlacesMenu(geogebra.common.gui.menubar.MenuInterface) -> b
    void addLabelingMenu(geogebra.common.gui.menubar.MenuInterface) -> c
    void updateMenuLabeling() -> d
    void addFontSizeMenu(geogebra.common.gui.menubar.MenuInterface) -> d
    void update() -> c
    geogebra.common.kernel.Kernel access$0(geogebra.common.gui.menubar.OptionsMenu) -> a
geogebra.common.gui.menubar.OptionsMenu$1 -> geogebra.common.i.d.e:
    geogebra.common.gui.menubar.OptionsMenu this$0 -> a
    void actionPerformed(java.lang.String) -> a
geogebra.common.gui.menubar.RadioButtonMenuBar -> geogebra.common.i.d.f:
    void addRadioButtonMenuItems(geogebra.common.gui.menubar.MyActionListener,java.lang.String[],java.lang.String[],int,boolean) -> a
    void setSelected(int) -> a
geogebra.common.gui.toolbar.ToolBar -> geogebra.common.i.e.a:
    java.lang.Integer SEPARATOR -> a
    boolean prerelease -> a
    java.lang.String getAllToolsNoMacros(boolean,boolean) -> a
    java.lang.String getAllToolsNoMacrosForPlane() -> a
    java.lang.String getAllToolsNoMacros3D() -> b
    java.util.Vector parseToolbarString(java.lang.String) -> a
geogebra.common.gui.toolbar.ToolbarItem -> geogebra.common.i.e.b:
    java.util.Vector menu -> a
    java.lang.Integer mode -> a
    java.util.Vector getMenu() -> a
    java.lang.Integer getMode() -> a
geogebra.common.gui.util.RelationMore -> geogebra.common.i.f.a:
    void action(geogebra.common.javax.swing.RelationPane,int) -> a
geogebra.common.gui.util.SelectionTable -> geogebra.common.i.f.b:
    geogebra.common.gui.util.SelectionTable UNKNOWN -> a
    geogebra.common.gui.util.SelectionTable MODE_TEXT -> b
    geogebra.common.gui.util.SelectionTable MODE_ICON -> c
    geogebra.common.gui.util.SelectionTable MODE_IMAGE -> d
    geogebra.common.gui.util.SelectionTable MODE_LATEX -> e
    geogebra.common.gui.util.SelectionTable[] ENUM$VALUES -> a
    geogebra.common.gui.util.SelectionTable[] values() -> values
    geogebra.common.gui.util.SelectionTable valueOf(java.lang.String) -> valueOf
geogebra.common.gui.util.TableSymbols -> geogebra.common.i.f.c:
    java.lang.String[] functions -> A
    java.lang.String[][] functionsGrouped -> a
    java.lang.String[] greekLowerCase -> a
    java.lang.String[] greekUpperCaseFull -> b
    java.lang.String[] analysis -> c
    java.lang.String[] logical -> d
    java.lang.String[] sets -> e
    java.lang.String[] operators -> f
    java.lang.String[] sub_superscripts -> g
    java.lang.String[] basic_arrows -> h
    java.lang.String[] otherArrows -> i
    java.lang.String[] geometricShapes -> j
    java.lang.String[] games_music -> k
    java.lang.String[] handPointers -> l
    java.lang.String[] UNICODEotherarrows -> m
    java.lang.String[] UNICODEmisc -> n
    java.lang.String[] UNICODEweather_astrology -> o
    java.lang.String[] UNICODEgames_music -> p
    java.lang.String[] UNICODEwriting -> q
    java.lang.String[] UNICODEbullets -> r
    java.lang.String[] otherdingbats -> s
    java.lang.String[] UNICODEgeometricShapes -> t
    java.lang.String[] letterLikeSymbols -> u
    java.lang.String[] currency -> v
    java.lang.String[] JLatex -> w
    java.lang.String[] displayChars -> x
    java.lang.String[] specialChars -> y
    java.lang.String[] symbols -> z
    java.lang.String[][] basicSymbolsMap(geogebra.common.main.Localization) -> a
    java.lang.String[] basicSymbols(geogebra.common.main.Localization) -> a
    java.lang.String[] basicSymbolsToolTips(geogebra.common.main.Localization) -> b
    java.lang.String[] getTranslatedFunctions(geogebra.common.main.App) -> a
    java.lang.String[] greekLettersPlusVariants() -> a
geogebra.common.gui.util.TableSymbolsLaTeX -> geogebra.common.i.f.d:
    java.lang.String[] miscSymbols -> a
    java.lang.String[] roots_fractions -> b
    java.lang.String[] sums -> c
    java.lang.String[] accents -> d
    java.lang.String[] accentsExtended -> e
    java.lang.String[] brackets -> f
    java.lang.String[] matrices -> g
    java.lang.String[] operators -> h
    java.lang.String[] relations -> i
    java.lang.String[] negations -> j
    java.lang.String[] arrows -> k
geogebra.common.gui.view.algebra.AlgebraController -> geogebra.common.i.g.a.a:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.SelectionManager selection -> a
    geogebra.common.gui.view.algebra.AlgebraView view -> a
    geogebra.common.kernel.geos.GeoElement lastSelectedGeo -> a
    boolean skipSelection -> a
    geogebra.common.main.App getApplication() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    java.lang.String getDragText(java.util.ArrayList) -> a
geogebra.common.gui.view.algebra.AlgebraView -> geogebra.common.i.g.a.b:
    boolean isVisible() -> isVisible
    void startEditing(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void cancelEditing() -> cancelEditing
    boolean isEditing() -> isEditing
geogebra.common.gui.view.algebra.AlgebraView$SortMode -> geogebra.common.i.g.a.b$a:
    geogebra.common.gui.view.algebra.AlgebraView$SortMode DEPENDENCY -> a
    geogebra.common.gui.view.algebra.AlgebraView$SortMode TYPE -> b
    geogebra.common.gui.view.algebra.AlgebraView$SortMode VIEW -> c
    geogebra.common.gui.view.algebra.AlgebraView$SortMode ORDER -> d
    geogebra.common.gui.view.algebra.AlgebraView$SortMode LAYER -> e
    geogebra.common.gui.view.algebra.AlgebraView$SortMode[] ENUM$VALUES -> a
    geogebra.common.gui.view.algebra.AlgebraView$SortMode[] values() -> values
    geogebra.common.gui.view.algebra.AlgebraView$SortMode valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.algebra.AlgebraView$SortMode$1 -> geogebra.common.i.g.a.c:
    java.lang.String toString() -> toString
geogebra.common.gui.view.algebra.AlgebraView$SortMode$2 -> geogebra.common.i.g.a.d:
    java.lang.String toString() -> toString
geogebra.common.gui.view.algebra.AlgebraView$SortMode$3 -> geogebra.common.i.g.a.e:
    java.lang.String toString() -> toString
geogebra.common.gui.view.algebra.AlgebraView$SortMode$4 -> geogebra.common.i.g.a.f:
    java.lang.String toString() -> toString
geogebra.common.gui.view.algebra.AlgebraView$SortMode$5 -> geogebra.common.i.g.a.g:
    java.lang.String toString() -> toString
geogebra.common.gui.view.algebra.DialogType -> geogebra.common.i.g.a.h:
    geogebra.common.gui.view.algebra.DialogType TextArea -> a
    geogebra.common.gui.view.algebra.DialogType DynamicText -> b
    geogebra.common.gui.view.algebra.DialogType GeoGebraEditor -> c
    geogebra.common.gui.view.algebra.DialogType[] ENUM$VALUES -> a
    geogebra.common.gui.view.algebra.DialogType[] values() -> values
    geogebra.common.gui.view.algebra.DialogType valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.consprotocol.ConstructionProtocolNavigation -> geogebra.common.i.g.b.a:
    boolean showPlayButton -> a
    double playDelay -> a
    boolean showConsProtButton -> b
    boolean isPlaying -> c
    geogebra.common.javax.swing.GPanel playPanel -> a
    void setVisible(boolean) -> a
    boolean isPlayButtonVisible() -> a
    double getPlayDelay() -> a
    boolean isConsProtButtonVisible() -> b
    void setPlayDelay(double) -> a
    void setConsProtButtonVisible(boolean) -> b
    void setLabels() -> x_
    void update() -> b
    void setPlayButtonVisible(boolean) -> c
geogebra.common.gui.view.consprotocol.ConstructionProtocolView -> geogebra.common.i.g.b.b:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ConstructionTableData data -> a
    boolean isViewAttached -> a
    java.util.ArrayList navigationBars -> a
    boolean useColors -> b
    boolean addIcons -> c
    void updateNavigationBars() -> b
    int getCurrentStepNumber() -> a
    int getLastStepNumber() -> b
    void setConstructionStep(int) -> a
    void nextStep() -> c
    void previousStep() -> d
    void firstStep() -> e
    void lastStep() -> f
    void repaint() -> g
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ConstructionTableData getData() -> a
    void registerNavigationBar(geogebra.common.gui.view.consprotocol.ConstructionProtocolNavigation) -> a
    void scrollToConstructionStep() -> h
    java.lang.String getConsProtocolXML() -> a
geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ColumnData -> geogebra.common.i.g.b.b$a:
    java.lang.String title -> a
    boolean isVisible -> a
    int prefWidth -> a
    int minWidth -> b
    int alignment -> c
    boolean initShow -> b
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView this$0 -> a
    java.lang.String getTitle() -> a
    java.lang.String getTranslatedTitle() -> b
    int getPreferredWidth() -> a
    int getMinWidth() -> b
    int getAlignment() -> c
    boolean getInitShow() -> a
    void setVisible(boolean) -> a
    boolean isVisible() -> b
geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ConstructionTableData -> geogebra.common.i.g.b.b$b:
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ConstructionTableData ctData -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ColumnData[] columns -> a
    java.util.ArrayList rowList -> a
    java.util.HashMap geoMap -> a
    int columnsCount -> a
    boolean notifyUpdateCalled -> a
    geogebra.common.gui.SetLabels gui -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView this$0 -> a
    void setLabels() -> x_
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    geogebra.common.javax.swing.table.GAbstractTableModel getImpl() -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ColumnData[] getColumns() -> a
    int getLastStepNumber() -> b
    int getCurrentStepNumber() -> c
    void setConstructionStepForRow(int) -> a
    int getConstructionIndex(int) -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$RowData getRow(int) -> a
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int getRowCount() -> d
    int getColumnCount() -> e
    int getColumnNumber(geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ColumnData) -> a
    boolean isCellEditable(int,int) -> a
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void clearView() -> f
    void repaintView() -> c
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void reset() -> j
    int getViewID() -> a
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
    void updateRowNumbers(int) -> c
    void updateIndices() -> g
    void fireTableRowsDeleted(int,int) -> a
    void fireTableRowsInserted(int,int) -> b
    void initView() -> b
    void updateAll() -> d
    void notifyAddAll(int) -> b
    void attachView() -> e
geogebra.common.gui.view.consprotocol.ConstructionProtocolView$RowData -> geogebra.common.i.g.b.b$c:
    int rowNumber -> a
    int index -> b
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.javax.swing.GImageIcon toolbarIcon -> a
    java.lang.String name -> a
    java.lang.String algebra -> b
    java.lang.String definition -> c
    java.lang.String command -> d
    java.lang.String caption -> e
    boolean includesIndex -> a
    java.lang.Boolean consProtocolVisible -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView this$0 -> a
    void updateAlgebraAndName() -> a
    void updateCaption() -> b
    geogebra.common.kernel.geos.GeoElement getGeo() -> a
    int getIndex() -> a
    void setIndex(int) -> a
    java.lang.String getName() -> a
    java.lang.String getDefinition() -> b
    java.lang.String getCommand() -> c
    java.lang.String getAlgebra() -> d
    java.lang.String getCaption() -> e
    geogebra.common.javax.swing.GImageIcon getToolbarIcon() -> a
    java.lang.Boolean getCPVisible() -> a
    int getRowNumber() -> b
    void setRowNumber(int) -> b
    boolean getIncludesIndex() -> a
    void updateAll() -> c
    int getConstructionIndex(int) -> a
    geogebra.common.javax.swing.GImageIcon getModeIcon(int) -> a
geogebra.common.gui.view.data.ANOVAStatTableModel -> geogebra.common.i.g.c.a:
    java.lang.String[] getRowNames() -> a
    java.lang.String[] getColumnNames() -> b
    int getRowCount() -> a
    int getColumnCount() -> b
geogebra.common.gui.view.data.DataAnalysisController -> geogebra.common.i.g.c.b:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.gui.view.data.StatGeo statGeo -> a
    geogebra.common.gui.view.data.DataSource dataSource -> a
    java.util.ArrayList dataArray -> a
    geogebra.common.kernel.geos.GeoList dataSelected -> a
    boolean leftToRight -> a
    boolean isValidData -> b
    geogebra.common.kernel.geos.GeoElement geoRegression -> a
    geogebra.common.gui.view.data.DataAnalysisModel model -> a
    int getMode() -> a
    java.util.ArrayList getDataArray() -> a
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    boolean isValidData() -> a
    void setValidData(boolean) -> a
    void setLeftToRight(boolean) -> b
    boolean isLeftToRight() -> b
    geogebra.common.kernel.geos.GeoElement getRegressionModel() -> a
    geogebra.common.gui.view.data.DataSource getDataSource() -> a
    void setDataSource(geogebra.common.gui.view.data.DataSource) -> a
    boolean isInDataSource(geogebra.common.kernel.geos.GeoElement) -> a
    void loadDataLists(boolean) -> c
    boolean isValidList(java.util.ArrayList) -> a
    void loadDataPanelArray() -> k
    void updateSelectedDataList(int,boolean) -> a
    void updateRegressionPanel() -> a
    java.lang.String[] getDataTitles() -> a
    void swapXY() -> b
    void clearPredictionPanel() -> c
    void updateDataAnalysisView() -> d
    void updateDataLists() -> e
    void updateAllPanels(boolean) -> d
    void handleRemovedDataGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void setRegressionGeo() -> f
    void removeRegressionGeo() -> g
    void disposeDataListSelected() -> h
    void removeStatGeos() -> i
    void removeGeos() -> j
    double[] getValueArray(geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.gui.view.data.DataAnalysisModel getModel() -> a
    void setModel(geogebra.common.gui.view.data.DataAnalysisModel) -> a
geogebra.common.gui.view.data.DataAnalysisModel -> geogebra.common.i.g.c.c:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.data.StatGeo statGeo -> a
    int mode -> a
    boolean showDataPanel -> a
    boolean showStatPanel -> b
    boolean showDataDisplayPanel2 -> c
    boolean isIniting -> d
    int printDecimals -> b
    int printFigures -> c
    geogebra.common.gui.view.data.DataAnalysisModel$Regression regressionMode -> a
    int regressionOrder -> d
    geogebra.common.gui.view.data.DataAnalysisController ctrl -> a
    geogebra.common.gui.view.data.DataAnalysisModel$IDataAnalysisListener listener -> a
    void setView(geogebra.common.gui.view.data.DataSource,int,boolean) -> a
    void setDataPlotPanels() -> a
    geogebra.common.gui.view.data.DataAnalysisController getDaCtrl() -> a
    geogebra.common.gui.view.data.DataSource getDataSource() -> a
    geogebra.common.gui.view.data.DataVariable$GroupType groupType() -> a
    boolean showDataDisplayPanel2() -> a
    boolean showDataPanel() -> b
    void setShowDataPanel(boolean) -> a
    void setShowStatistics(boolean) -> b
    boolean showStatPanel() -> c
    geogebra.common.gui.view.data.DataAnalysisController getController() -> b
    geogebra.common.kernel.geos.GeoElement getRegressionModel() -> a
    geogebra.common.gui.view.data.StatGeo getStatGeo() -> a
    int getRegressionOrder() -> a
    void setRegressionMode(int) -> a
    geogebra.common.gui.view.data.DataAnalysisModel$Regression getRegressionMode() -> a
    void setRegressionOrder(int) -> b
    geogebra.common.main.App getApp() -> a
    int getMode() -> b
    void setShowDataOptionsDialog(boolean) -> c
    boolean isNumericData() -> d
    void setShowComboPanel2(boolean) -> d
    java.lang.String format(double) -> a
    void updateRounding() -> c
    int getPrintDecimals() -> c
    int getPrintFigures() -> d
    void remove(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> b
    java.lang.String[] getDataTitles() -> a
    boolean isIniting() -> e
    void setIniting(boolean) -> e
    boolean isMultiVar() -> f
    boolean isRegressionMode() -> g
    void updateGUI() -> b
    geogebra.common.gui.view.data.DataAnalysisModel$IDataAnalysisListener getListener() -> a
    void setListener(geogebra.common.gui.view.data.DataAnalysisModel$IDataAnalysisListener) -> a
    void setMode(int) -> c
    geogebra.common.gui.view.data.DataAnalysisController access$0(geogebra.common.gui.view.data.DataAnalysisModel) -> a
geogebra.common.gui.view.data.DataAnalysisModel$1 -> geogebra.common.i.g.c.d:
    geogebra.common.gui.view.data.DataAnalysisModel this$0 -> a
    void run() -> run
geogebra.common.gui.view.data.DataAnalysisModel$ICreateColor -> geogebra.common.i.g.c.c$a:
    geogebra.common.awt.GColor createColor(int) -> a
geogebra.common.gui.view.data.DataAnalysisModel$IDataAnalysisListener -> geogebra.common.i.g.c.c$b:
    void onModeChange() -> b
    void setPlotPanelOVNotNumeric(int) -> a
    void setPlotPanelOVRawData(int) -> b
    void setPlotPanelOVFrequency(int) -> c
    void setPlotPanelOVClass(int) -> d
    void setPlotPanelRegression(int) -> e
    void setPlotPanelMultiVar(int) -> f
    void loadDataTable(java.util.ArrayList) -> a
    void updateStatDataPanelVisibility() -> d
    void showComboPanel2(boolean) -> a
    void updateGUI() -> e
geogebra.common.gui.view.data.DataAnalysisModel$Regression -> geogebra.common.i.g.c.c$c:
    geogebra.common.gui.view.data.DataAnalysisModel$Regression NONE -> a
    geogebra.common.gui.view.data.DataAnalysisModel$Regression LINEAR -> b
    geogebra.common.gui.view.data.DataAnalysisModel$Regression LOG -> c
    geogebra.common.gui.view.data.DataAnalysisModel$Regression POLY -> d
    geogebra.common.gui.view.data.DataAnalysisModel$Regression POW -> e
    geogebra.common.gui.view.data.DataAnalysisModel$Regression EXP -> f
    geogebra.common.gui.view.data.DataAnalysisModel$Regression GROWTH -> g
    geogebra.common.gui.view.data.DataAnalysisModel$Regression SIN -> h
    geogebra.common.gui.view.data.DataAnalysisModel$Regression LOGISTIC -> i
    java.lang.String label -> a
    geogebra.common.gui.view.data.DataAnalysisModel$Regression[] ENUM$VALUES -> a
    java.lang.String getLabel() -> a
    geogebra.common.gui.view.data.DataAnalysisModel$Regression[] values() -> values
    geogebra.common.gui.view.data.DataAnalysisModel$Regression valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.data.DataDisplayModel -> geogebra.common.i.g.c.e:
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.gui.view.data.DataAnalysisModel daModel -> a
    geogebra.common.gui.view.data.StatGeo statGeo -> a
    geogebra.common.gui.view.data.DataDisplayModel$PlotType selectedPlot -> a
    geogebra.common.gui.view.data.StatPanelSettings settings -> a
    java.util.ArrayList plotGeoList -> a
    geogebra.common.kernel.geos.GeoElement[] boxPlotTitles -> a
    geogebra.common.kernel.geos.GeoElement histogram -> a
    geogebra.common.kernel.geos.GeoElement dotPlot -> b
    geogebra.common.kernel.geos.GeoElement frequencyPolygon -> c
    geogebra.common.kernel.geos.GeoElement normalCurve -> d
    geogebra.common.kernel.geos.GeoElement scatterPlot -> e
    geogebra.common.kernel.geos.GeoElement scatterPlotLine -> f
    geogebra.common.kernel.geos.GeoElement residualPlot -> g
    geogebra.common.kernel.geos.GeoElement nqPlot -> h
    geogebra.common.kernel.geos.GeoElement boxPlot -> i
    geogebra.common.kernel.geos.GeoElement barChart -> j
    geogebra.common.kernel.geos.GeoElement freqTableGeo -> k
    boolean hasControlPanel -> a
    geogebra.common.gui.view.data.DataDisplayModel$IDataDisplayListener listener -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataDisplayModel$PlotType -> a
    void updatePlot(geogebra.common.gui.view.data.DataDisplayModel$PlotType,int) -> a
    void fillDisplayTypes() -> a
    void updatePlotPanelLayout() -> b
    void updatePlot(boolean) -> a
    void clearPlotGeoList() -> c
    void exportGeosToEV(int) -> a
    void prepareGeoForEV(geogebra.common.kernel.geos.GeoElement,int) -> a
    void removeGeos() -> d
    void setMode(int) -> b
    geogebra.common.gui.view.data.StatPanelSettings getSettings() -> a
    geogebra.common.gui.view.data.DataDisplayModel$PlotType getSelectedPlot() -> a
    void setSelectedPlot(geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataDisplayModel$PlotType() -> a
geogebra.common.gui.view.data.DataDisplayModel$IDataDisplayListener -> geogebra.common.i.g.c.e$a:
    void addDisplayTypeItem(geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> a
    void updateScatterPlot() -> a
    void updateFrequencyTable() -> b
    void setSelectedType(geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> b
    void showControlPanel() -> y_
    void setOptionsButtonVisible() -> d
    void showInvalidDataDisplay() -> e
    void setTableFromGeoFrequencyTable(geogebra.common.kernel.statistics.AlgoFrequencyTable,boolean) -> a
    void updatePlotPanelSettings() -> f
    void showManualClassesPanel() -> g
    void showNumClassesPanel() -> h
    void showPlotPanel() -> i
    void updateStemPlot(java.lang.String) -> a
    void updateXYTitles(boolean,boolean) -> a
    void geoToPlotPanel(geogebra.common.kernel.geos.GeoElement) -> a
    void removeFrequencyTable() -> j
    void resize() -> k
geogebra.common.gui.view.data.DataDisplayModel$PlotType -> geogebra.common.i.g.c.e$b:
    geogebra.common.gui.view.data.DataDisplayModel$PlotType HISTOGRAM -> a
    geogebra.common.gui.view.data.DataDisplayModel$PlotType BOXPLOT -> b
    geogebra.common.gui.view.data.DataDisplayModel$PlotType DOTPLOT -> c
    geogebra.common.gui.view.data.DataDisplayModel$PlotType NORMALQUANTILE -> d
    geogebra.common.gui.view.data.DataDisplayModel$PlotType STEMPLOT -> e
    geogebra.common.gui.view.data.DataDisplayModel$PlotType BARCHART -> f
    geogebra.common.gui.view.data.DataDisplayModel$PlotType SCATTERPLOT -> g
    geogebra.common.gui.view.data.DataDisplayModel$PlotType RESIDUAL -> h
    geogebra.common.gui.view.data.DataDisplayModel$PlotType MULTIBOXPLOT -> i
    java.lang.String key -> a
    geogebra.common.gui.view.data.DataDisplayModel$PlotType[] ENUM$VALUES -> a
    java.lang.String getTranslatedKey(geogebra.common.main.App) -> a
    geogebra.common.gui.view.data.DataDisplayModel$PlotType[] values() -> values
    geogebra.common.gui.view.data.DataDisplayModel$PlotType valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.data.DataItem -> geogebra.common.i.g.c.f:
    geogebra.common.gui.view.data.DataItem$SourceType sourceType -> a
    geogebra.common.plugin.GeoClass geoClass -> a
    java.util.ArrayList rangeList -> a
    geogebra.common.kernel.geos.GeoList geoList -> a
    java.lang.Double[] leftBorder -> a
    java.lang.String[] strInternal -> a
    java.lang.String description -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataItem$SourceType -> a
    void setDataItem(java.lang.Double[]) -> a
    java.util.ArrayList getRangeList() -> a
    geogebra.common.kernel.geos.GeoList getGeoList() -> a
    java.lang.Double[] getLeftBorder() -> a
    java.lang.String[] getStrInternal() -> a
    geogebra.common.gui.view.data.DataItem$SourceType getType() -> a
    void setGeoClass(geogebra.common.plugin.GeoClass) -> a
    java.lang.String getDescription() -> a
    void setDescription(java.lang.String) -> a
    void clearItem() -> a
    boolean isEmptyItem() -> a
    int getGeoCount() -> a
    java.lang.String getSourceString(geogebra.common.main.App) -> a
    java.lang.String getDataTitle(geogebra.common.main.App,boolean) -> a
    geogebra.common.kernel.geos.GeoList toGeoList(geogebra.common.main.App,boolean,boolean,boolean) -> a
    java.util.ArrayList rangeListCopy(java.util.ArrayList,boolean) -> a
    geogebra.common.gui.view.spreadsheet.CellRange rangeCopy(geogebra.common.gui.view.spreadsheet.CellRange,boolean) -> a
    geogebra.common.kernel.geos.GeoList dependentListCopy(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoList) -> a
    void swapXYCoords(geogebra.common.kernel.geos.GeoList) -> a
    java.lang.String[] toStringArray(boolean) -> a
    java.util.ArrayList toStringList(boolean) -> a
    boolean isValidDataType(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor crProcessor(geogebra.common.main.App) -> a
    geogebra.common.gui.view.spreadsheet.MyTable spreadsheetTable(geogebra.common.main.App) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataItem$SourceType() -> a
geogebra.common.gui.view.data.DataItem$SourceType -> geogebra.common.i.g.c.f$a:
    geogebra.common.gui.view.data.DataItem$SourceType SPREADSHEET -> a
    geogebra.common.gui.view.data.DataItem$SourceType LIST -> b
    geogebra.common.gui.view.data.DataItem$SourceType CLASS -> c
    geogebra.common.gui.view.data.DataItem$SourceType INTERNAL -> d
    geogebra.common.gui.view.data.DataItem$SourceType EMPTY -> e
    geogebra.common.gui.view.data.DataItem$SourceType[] ENUM$VALUES -> a
    geogebra.common.gui.view.data.DataItem$SourceType[] values() -> values
    geogebra.common.gui.view.data.DataItem$SourceType valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.data.DataSource -> geogebra.common.i.g.c.g:
    geogebra.common.gui.view.data.DataVariable$GroupType defaultGroupType -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.SelectionManager selection -> a
    java.util.ArrayList dataList -> a
    int selectedIndex -> a
    boolean isEmpty() -> a
    void clearData() -> a
    int getSelectedIndex() -> a
    boolean enableHeader() -> b
    void setEnableHeader(boolean) -> a
    boolean isNumericData() -> c
    boolean isPointData() -> d
    geogebra.common.gui.view.data.DataVariable getSelectedDataVariable() -> a
    geogebra.common.gui.view.data.DataVariable$GroupType getGroupType() -> a
    double getClassStart() -> a
    void setClassStart(double) -> a
    double getClassWidth() -> b
    void setClassWidth(double) -> b
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor crProcessor(geogebra.common.main.App) -> a
    geogebra.common.gui.view.spreadsheet.MyTable spreadsheetTable() -> a
    void setDataItemToGeoSelection(int,int) -> a
    geogebra.common.gui.view.data.DataItem createDataItemFromGeoSelection() -> a
    java.lang.String[][] getTableData() -> a
    java.lang.String[][] getTableData(int) -> a
    java.lang.String[] getTitles() -> a
    java.lang.String[] getTitles(int) -> a
    java.lang.String[] getDescriptions() -> b
    java.util.ArrayList toGeoList(int,boolean,boolean,int) -> a
    java.util.ArrayList toGeoListAll(int,boolean,boolean) -> a
    void setDataListFromSelection(int) -> a
    void setDataListFromGeoList(int) -> b
    void setDataListFromSpreadsheet(int,geogebra.common.gui.view.data.DataVariable$GroupType) -> a
    void add1DCellRanges(java.util.ArrayList,java.util.ArrayList) -> a
    boolean isInDataSource(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.gui.view.data.DataVariable -> geogebra.common.i.g.c.h:
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.data.DataVariable$GroupType groupType -> a
    geogebra.common.plugin.GeoClass geoClass -> a
    geogebra.common.gui.view.data.DataItem frequency -> a
    geogebra.common.gui.view.data.DataItem label -> b
    geogebra.common.gui.view.data.DataItem classes -> c
    java.util.ArrayList values -> a
    boolean enableHeader -> a
    double classStart -> a
    double classWidth -> b
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataVariable$GroupType -> a
    void setDataVariableAsRawData(geogebra.common.plugin.GeoClass,java.util.ArrayList) -> a
    void setDataVariable(geogebra.common.gui.view.data.DataVariable$GroupType,geogebra.common.plugin.GeoClass,java.util.ArrayList,geogebra.common.gui.view.data.DataItem,geogebra.common.gui.view.data.DataItem,geogebra.common.gui.view.data.DataItem) -> a
    void setGroupType(geogebra.common.gui.view.data.DataVariable$GroupType) -> a
    geogebra.common.gui.view.data.DataVariable$GroupType getGroupType() -> a
    void setGeoClass(geogebra.common.plugin.GeoClass) -> a
    geogebra.common.plugin.GeoClass getGeoClass() -> a
    double getClassStart() -> a
    void setClassStart(double) -> a
    double getClassWidth() -> b
    void setClassWidth(double) -> b
    void updateAutomaticClasses() -> c
    boolean enableHeader() -> a
    void setEnableHeader(boolean) -> a
    java.util.ArrayList getValues() -> a
    void setDataItem(int,geogebra.common.gui.view.data.DataItem) -> a
    void removeLastValue() -> a
    void addNewValue() -> b
    java.util.ArrayList getItemList() -> b
    java.util.ArrayList getGeoListData(geogebra.common.main.App,int,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoList getPointList(boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoList createPointGeoList(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,boolean,boolean) -> a
    java.util.ArrayList getStringData() -> c
    java.util.ArrayList getTitles(geogebra.common.main.App) -> a
    java.util.ArrayList getColumnNames() -> d
    boolean isInDataSource(geogebra.common.kernel.geos.GeoElement) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataVariable$GroupType() -> a
geogebra.common.gui.view.data.DataVariable$GroupType -> geogebra.common.i.g.c.h$a:
    geogebra.common.gui.view.data.DataVariable$GroupType RAWDATA -> a
    geogebra.common.gui.view.data.DataVariable$GroupType FREQUENCY -> b
    geogebra.common.gui.view.data.DataVariable$GroupType CLASS -> c
    geogebra.common.gui.view.data.DataVariable$GroupType[] ENUM$VALUES -> a
    geogebra.common.gui.view.data.DataVariable$GroupType[] values() -> values
    geogebra.common.gui.view.data.DataVariable$GroupType valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.data.MultiVarStatTableModel -> geogebra.common.i.g.c.i:
    geogebra.common.gui.view.data.MultiVarStatTableModel$MultiVarStatTableListener getMultiVarListener() -> a
    java.lang.String[] getRowNames() -> a
    java.lang.String[] getColumnNames() -> b
    int getRowCount() -> a
    int getColumnCount() -> b
    java.util.ArrayList getStatList() -> a
    void updatePanel() -> a
geogebra.common.gui.view.data.MultiVarStatTableModel$MultiVarStatTableListener -> geogebra.common.i.g.c.i$a:
    java.lang.String[] getDataTitles() -> a
    boolean isMinimalTable() -> a
geogebra.common.gui.view.data.PlotPanelEuclidianViewCommon -> geogebra.common.i.g.c.j:
    int viewID -> a
    boolean overDragRegion -> b
    geogebra.common.gui.view.data.PlotSettings plotSettings -> a
    boolean showGrid -> a
    boolean[] showAxes -> a
    int getViewID() -> a
    void setViewID(int) -> a
    boolean isOverDragRegion() -> a
    void setOverDragRegion(boolean) -> a
    geogebra.common.gui.view.data.PlotSettings getPlotSettings() -> a
    void setPlotSettings(geogebra.common.gui.view.data.PlotSettings) -> a
    void updateSettings(geogebra.common.gui.view.data.PlotPanelEuclidianViewInterface,geogebra.common.gui.view.data.PlotSettings) -> a
    void setEVParams(geogebra.common.gui.view.data.PlotPanelEuclidianViewInterface) -> a
    void updateSize(geogebra.common.gui.view.data.PlotPanelEuclidianViewInterface) -> b
geogebra.common.gui.view.data.PlotPanelEuclidianViewInterface -> geogebra.common.i.g.c.k:
    void setEVParams() -> a
    double getPixelOffset() -> a
    void updateSizeKeepDrawables() -> y
geogebra.common.gui.view.data.PlotSettings -> geogebra.common.i.g.c.l:
    double xMin -> a
    double xMax -> b
    double xAxesInterval -> c
    boolean xAxesIntervalAuto -> a
    double yMin -> d
    double yMax -> e
    double yAxesInterval -> f
    boolean yAxesIntervalAuto -> b
    double[] gridInterval -> a
    boolean gridIntervalAuto -> c
    int pointCaptureStyle -> a
    boolean showYAxis -> d
    boolean showXAxis -> e
    boolean showArrows -> f
    boolean forceXAxisBuffer -> g
    boolean forceYAxisBuffer -> h
    boolean[] isEdgeAxis -> a
    boolean[] isPositiveOnly -> b
    boolean showGrid -> i
geogebra.common.gui.view.data.StatGeo -> geogebra.common.i.g.c.m:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    double xMinData -> a
    double xMaxData -> b
    double yMinData -> c
    double yMaxData -> d
    boolean histogramRight -> a
    boolean removeFromConstruction -> b
    geogebra.common.gui.view.data.DataAnalysisModel$ICreateColor listener -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataDisplayModel$PlotType -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataAnalysisModel$Regression -> b
    void getDataBounds(geogebra.common.kernel.geos.GeoList) -> a
    void getDataBounds(geogebra.common.kernel.geos.GeoList,boolean) -> a
    void getDataBounds(geogebra.common.kernel.geos.GeoList,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createHistogram(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings,boolean) -> a
    geogebra.common.kernel.algos.AlgoPolyLine createFrequencyPolygon(geogebra.common.kernel.statistics.AlgoHistogram,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createNormalCurveOverlay(geogebra.common.kernel.geos.GeoList) -> a
    void getHistogramSettings(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.data.StatPanelSettings) -> a
    geogebra.common.kernel.geos.GeoElement createBarChartText(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> a
    geogebra.common.kernel.geos.GeoElement createBarChartNumeric(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> b
    double getPreferredBarWidth(geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement createFrequencyTableGeo(geogebra.common.kernel.geos.GeoNumeric,geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> a
    void getBarChartSettings(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement createBoxPlot(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> c
    void getBoxPlotSettings(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> a
    geogebra.common.kernel.geos.GeoElement[] createMultipleBoxPlot(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> a
    void getMultipleBoxPlotSettings(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> b
    geogebra.common.kernel.geos.GeoElement[] createBoxPlotTitles(geogebra.common.gui.view.data.DataAnalysisModel,geogebra.common.gui.view.data.StatPanelSettings) -> a
    geogebra.common.kernel.geos.GeoElement createDotPlot(geogebra.common.kernel.geos.GeoList) -> b
    void updateDotPlot(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.data.StatPanelSettings) -> b
    geogebra.common.kernel.geos.GeoElement createNormalQuantilePlot(geogebra.common.kernel.geos.GeoList) -> c
    void updateNormalQuantilePlot(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> c
    geogebra.common.kernel.geos.GeoElement createScatterPlotLine(geogebra.common.kernel.geos.GeoList) -> d
    geogebra.common.kernel.geos.GeoElement createScatterPlot(geogebra.common.kernel.geos.GeoList) -> e
    void getScatterPlotSettings(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.StatPanelSettings) -> d
    geogebra.common.kernel.geos.GeoElement createRegressionPlot(geogebra.common.kernel.geos.GeoList,geogebra.common.gui.view.data.DataAnalysisModel$Regression,int,boolean) -> a
    void getResidualPlotSettings(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.data.StatPanelSettings) -> c
    void setXYBounds(geogebra.common.gui.view.data.StatPanelSettings) -> a
    void setXYBounds(geogebra.common.gui.view.data.StatPanelSettings,double,double) -> a
    java.lang.String getStemPlotLatex(geogebra.common.kernel.geos.GeoList,int) -> a
    boolean removeFromConstruction() -> a
    void setRemoveFromConstruction(boolean) -> a
    void removeFromConstructionList(geogebra.common.kernel.algos.ConstructionElement) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataDisplayModel$PlotType() -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataAnalysisModel$Regression() -> b
geogebra.common.gui.view.data.StatPanelSettings -> geogebra.common.i.g.c.n:
    geogebra.common.gui.view.data.DataSource dataSource -> a
    int frequencyType -> b
    boolean isCumulative -> j
    boolean useManualClasses -> k
    boolean hasOverlayNormal -> l
    boolean hasOverlayPolygon -> m
    boolean showFrequencyTable -> n
    boolean showHistogram -> o
    boolean showScatterplotLine -> p
    boolean showOutliers -> q
    double classStart -> g
    double classWidth -> h
    int numClasses -> c
    boolean isLeftRule -> r
    double barWidth -> i
    boolean isAutomaticBarWidth -> s
    boolean isAutomaticWindow -> t
    int stemAdjust -> d
    geogebra.common.gui.view.data.DataSource getDataSource() -> a
    void setDataSource(geogebra.common.gui.view.data.DataSource) -> a
    geogebra.common.gui.view.data.DataVariable$GroupType groupType() -> a
    boolean isNumericData() -> a
    boolean isPointList() -> b
    boolean isUseManualClasses() -> c
    void setUseManualClasses(boolean) -> a
    boolean isCumulative() -> d
    void setCumulative(boolean) -> b
    int getFrequencyType() -> a
    void setFrequencyType(int) -> a
    boolean isHasOverlayNormal() -> e
    void setHasOverlayNormal(boolean) -> c
    boolean isHasOverlayPolygon() -> f
    void setHasOverlayPolygon(boolean) -> d
    boolean isAutomaticWindow() -> g
    void setAutomaticWindow(boolean) -> e
    boolean isShowFrequencyTable() -> h
    void setShowFrequencyTable(boolean) -> f
    boolean isShowHistogram() -> i
    void setShowHistogram(boolean) -> g
    boolean isLeftRule() -> j
    void setLeftRule(boolean) -> h
    boolean isShowScatterplotLine() -> k
    void setShowScatterplotLine(boolean) -> i
    boolean isShowOutliers() -> l
    void setShowOutliers(boolean) -> j
    boolean isAutomaticBarWidth() -> m
    void setAutomaticBarWidth(boolean) -> k
    double getBarWidth() -> a
    void setBarWidth(double) -> a
    int getNumClasses() -> b
    void setNumClasses(int) -> b
    double getClassStart() -> b
    void setClassStart(double) -> b
    double getClassWidth() -> c
    void setClassWidth(double) -> c
    int getStemAdjust() -> c
    void setStemAdjust(int) -> c
geogebra.common.gui.view.data.StatTableModel -> geogebra.common.i.g.c.o:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.gui.view.data.StatTableModel$StatTableListener listener -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$StatTableModel$Stat -> a
    java.lang.String[] getRowNames() -> a
    java.lang.String[] getColumnNames() -> b
    int getRowCount() -> a
    int getColumnCount() -> b
    void updatePanel() -> a
    java.util.ArrayList getStatList() -> a
    java.lang.String getStatName(geogebra.common.gui.view.data.StatTableModel$Stat) -> a
    geogebra.common.kernel.algos.AlgoElement getAlgo(geogebra.common.gui.view.data.StatTableModel$Stat,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.AlgoElement getAlgoRawData(geogebra.common.gui.view.data.StatTableModel$Stat,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.algos.AlgoElement getAlgoFrequency(geogebra.common.gui.view.data.StatTableModel$Stat,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement) -> c
    geogebra.common.kernel.algos.AlgoElement getAlgoClass(geogebra.common.gui.view.data.StatTableModel$Stat,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoElement) -> d
    geogebra.common.kernel.Construction getConstruction() -> a
    geogebra.common.main.App getApp() -> a
    geogebra.common.gui.view.data.StatTableModel$StatTableListener getListener() -> a
    void setListener(geogebra.common.gui.view.data.StatTableModel$StatTableListener) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$StatTableModel$Stat() -> a
geogebra.common.gui.view.data.StatTableModel$Stat -> geogebra.common.i.g.c.o$a:
    geogebra.common.gui.view.data.StatTableModel$Stat NULL -> a
    geogebra.common.gui.view.data.StatTableModel$Stat LENGTH -> b
    geogebra.common.gui.view.data.StatTableModel$Stat MEAN -> c
    geogebra.common.gui.view.data.StatTableModel$Stat SD -> d
    geogebra.common.gui.view.data.StatTableModel$Stat SAMPLE_SD -> e
    geogebra.common.gui.view.data.StatTableModel$Stat SUM -> f
    geogebra.common.gui.view.data.StatTableModel$Stat SIGMAXX -> g
    geogebra.common.gui.view.data.StatTableModel$Stat MIN -> h
    geogebra.common.gui.view.data.StatTableModel$Stat Q1 -> i
    geogebra.common.gui.view.data.StatTableModel$Stat MEDIAN -> j
    geogebra.common.gui.view.data.StatTableModel$Stat Q3 -> k
    geogebra.common.gui.view.data.StatTableModel$Stat MAX -> l
    geogebra.common.gui.view.data.StatTableModel$Stat MEANX -> m
    geogebra.common.gui.view.data.StatTableModel$Stat MEANY -> n
    geogebra.common.gui.view.data.StatTableModel$Stat SX -> o
    geogebra.common.gui.view.data.StatTableModel$Stat SY -> p
    geogebra.common.gui.view.data.StatTableModel$Stat PMCC -> q
    geogebra.common.gui.view.data.StatTableModel$Stat SPEARMAN -> r
    geogebra.common.gui.view.data.StatTableModel$Stat SXX -> s
    geogebra.common.gui.view.data.StatTableModel$Stat SYY -> t
    geogebra.common.gui.view.data.StatTableModel$Stat SXY -> u
    geogebra.common.gui.view.data.StatTableModel$Stat RSQUARE -> v
    geogebra.common.gui.view.data.StatTableModel$Stat SSE -> w
    geogebra.common.gui.view.data.StatTableModel$Stat[] ENUM$VALUES -> a
    geogebra.common.gui.view.data.StatTableModel$Stat[] values() -> values
    geogebra.common.gui.view.data.StatTableModel$Stat valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.data.StatTableModel$StatTableListener -> geogebra.common.i.g.c.o$b:
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    geogebra.common.kernel.geos.GeoElement getRegressionModel() -> a
    geogebra.common.gui.view.data.DataAnalysisModel$Regression getRegressionMode() -> a
    boolean isValidData() -> b
    void setValueAt(double,int,int) -> a
    boolean isViewValid() -> c
    int getMode() -> a
    geogebra.common.gui.view.data.DataVariable$GroupType groupType() -> a
    boolean isNumericData() -> d
geogebra.common.gui.view.data.StatisticsModel -> geogebra.common.i.g.c.p:
    java.util.HashMap labelMap -> a
    java.util.HashMap labelMapReverse -> b
    int selectedMode -> a
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.data.DataAnalysisModel daModel -> a
    geogebra.common.gui.view.data.StatisticsModel$IStatisticsModelListener listener -> a
    void fillInferenceModes() -> a
    void createLabelMap() -> c
    void update() -> b
    void selectInferenceMode(java.lang.String) -> a
    int getSelectedMode() -> a
geogebra.common.gui.view.data.StatisticsModel$IStatisticsModelListener -> geogebra.common.i.g.c.p$a:
    void addInferenceMode(java.lang.String) -> a
    void selectInferenceMode(java.lang.String) -> b
    java.lang.String getSeparator() -> a
    void updateOneVarInference(int) -> a
    void updateTwoVarInference(int) -> b
    void updateAnovaTable() -> a
geogebra.common.gui.view.data.TwoVarInferenceModel -> geogebra.common.i.g.c.q:
    geogebra.common.main.App app -> a
    int selectedInference -> a
    java.lang.String tail -> a
    double confLevel -> m
    double hypMean -> n
    double t -> a
    double P -> b
    double df -> c
    double lower -> d
    double upper -> e
    double se -> f
    double me -> g
    double n1 -> h
    double n2 -> i
    double diffMeans -> j
    double mean1 -> k
    double mean2 -> l
    org.apache.commons.math.stat.inference.TTestImpl tTestImpl -> a
    org.apache.commons.math.distribution.TDistributionImpl tDist -> a
    boolean pooled -> a
    double meanDifference -> o
    geogebra.common.gui.view.data.TwoVarInferenceModel$TwoVarInferenceListener listener -> a
    boolean isPairedData() -> a
    java.lang.String getNullHypName() -> a
    boolean isTest() -> b
    void setResults() -> a
    void updateResults() -> b
    boolean evaluate() -> c
    double adjustedPValue(double,double,java.lang.String) -> a
    double getDegreeOfFreedom(double,double,double,double,boolean) -> a
    void setSelectedInference(int) -> a
    double getHypMean() -> a
    void setHypMean(double) -> a
    double getConfLevel() -> b
    void setConfLevel(double) -> b
    boolean isPooled() -> d
    void applyTail(int) -> b
    void setPooled(boolean) -> a
    void fillAlternateHyp() -> c
geogebra.common.gui.view.data.TwoVarInferenceModel$TwoVarInferenceListener -> geogebra.common.i.g.c.q$a:
    void setStatTable(int,java.lang.String[],int,java.lang.String[]) -> a
    void setFormattedValueAt(double,int,int) -> a
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    int getSelectedDataIndex(int) -> a
    double[] getValueArray(geogebra.common.kernel.geos.GeoList) -> a
    void addAltHypItem(java.lang.String,java.lang.String,double) -> a
    void selectAltHyp(int) -> a
geogebra.common.gui.view.data.TwoVarStatModel -> geogebra.common.i.g.c.r:
    geogebra.common.main.App app -> a
    java.lang.Integer[] selectedDataIndex -> a
    boolean isPairedData -> a
    double mean1 -> a
    double mean2 -> b
    double sd1 -> c
    double sd2 -> d
    double sdDifference -> e
    double meanDifference -> f
    long n1 -> a
    long n2 -> b
    geogebra.common.gui.view.data.TwoVarStatModel$TwoVarStatListener listener -> a
    void setPairedData(boolean) -> a
    java.lang.String[] getRowNames() -> a
    java.lang.String[] getColumnNames() -> b
    int getRowCount() -> a
    int getColumnCount() -> b
    java.lang.Integer[] getSelectedDataIndex() -> a
    void update() -> a
    void updateStat() -> b
    void updateDifferences() -> c
    int getSelectedDataIndex0() -> c
    int getSelectedDataIndex1() -> d
    boolean evaluatePairedDifferences() -> a
    boolean evaluateSampleData() -> b
    void setSelectedDataIndex0(int) -> a
    void setSelectedDataIndex1(int) -> b
geogebra.common.gui.view.data.TwoVarStatModel$TwoVarStatListener -> geogebra.common.i.g.c.r$a:
    void setValueAt(java.lang.String,int,int) -> a
    void setValueAt(double,int,int) -> a
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    double[] getValueArray(geogebra.common.kernel.geos.GeoList) -> a
    void clear() -> a
geogebra.common.gui.view.functioninspector.FunctionInspector -> geogebra.common.i.g.d.a:
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel model -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean isIniting -> a
    boolean isChangingValue -> b
    geogebra.common.main.App app -> a
    void createGUI() -> b
    void createTabPanel() -> d
    void buildTabPanel() -> e
    void buildHelpPanel() -> g
    void buildHeaderPanel() -> h
    void createHeaderPanel() -> i
    void createHelpPanel() -> C
    void createTabIntervalPanel() -> m
    void createTabPointPanel() -> n
    void createGUIElements() -> o
    void updateIntervalTab() -> p
    void updatePointsTab() -> q
    boolean isIntervalTabSelected() -> a
    void updateGUI() -> r
    void updateTabPanels() -> s
    void updateIntervalFields() -> t
    void updateIntervalTable() -> u
    void updateXYTable() -> v
    void removeColumn() -> w
    void setInspectorVisible(boolean) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void createGeoElementSlectionListener() -> D
    void insertGeoElement(geogebra.common.kernel.geos.GeoElement) -> g
    void updateTestPoint() -> x
    void setStart(double) -> a
    void changedNumberFormat() -> y
    void createOptionsButton() -> z
    void doCopyToSpreadsheet() -> A
    int getViewID() -> a
    boolean isShowing() -> isShowing
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    geogebra.common.main.App getApp() -> a
    void setApp(geogebra.common.main.App) -> a
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel getModel() -> a
    void setModel(geogebra.common.gui.view.functioninspector.FunctionInspectorModel) -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    void setKernel(geogebra.common.kernel.Kernel) -> a
geogebra.common.gui.view.functioninspector.FunctionInspector$1 -> geogebra.common.i.g.d.b:
    geogebra.common.gui.view.functioninspector.FunctionInspector this$0 -> a
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
geogebra.common.gui.view.functioninspector.FunctionInspectorModel -> geogebra.common.i.g.d.c:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.euclidian.EuclidianView activeEV -> a
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$IFunctionInspectorListener listener -> a
    geogebra.common.main.Localization loc -> a
    java.util.ArrayList extraColumnList -> a
    geogebra.common.kernel.geos.GeoElement tangentLine -> a
    geogebra.common.kernel.geos.GeoElement oscCircle -> b
    geogebra.common.kernel.geos.GeoElement xSegment -> c
    geogebra.common.kernel.geos.GeoElement ySegment -> d
    geogebra.common.kernel.geos.GeoElement functionInterval -> e
    geogebra.common.kernel.geos.GeoElement integralGeo -> f
    geogebra.common.kernel.geos.GeoElement lengthGeo -> g
    geogebra.common.kernel.geos.GeoElement areaGeo -> h
    geogebra.common.kernel.geos.GeoFunction derivative -> a
    geogebra.common.kernel.geos.GeoFunction derivative2 -> b
    geogebra.common.kernel.geos.GeoFunction selectedGeo -> c
    geogebra.common.kernel.geos.GeoPoint testPoint -> a
    geogebra.common.kernel.geos.GeoPoint lowPoint -> b
    geogebra.common.kernel.geos.GeoPoint highPoint -> c
    geogebra.common.kernel.geos.GeoPoint minPoint -> d
    geogebra.common.kernel.geos.GeoPoint maxPoint -> e
    geogebra.common.kernel.geos.GeoList pts -> a
    java.util.ArrayList intervalTabGeoList -> b
    java.util.ArrayList pointTabGeoList -> c
    java.util.ArrayList hiddenGeoList -> d
    geogebra.common.kernel.geos.GeoElement[] rootGeos -> a
    java.util.ArrayList xyTableCopyList -> e
    double xMin -> a
    double xMax -> b
    double start -> c
    double step -> d
    int pointCount -> a
    java.util.ArrayList property -> f
    java.util.ArrayList value -> g
    java.util.ArrayList value2 -> h
    java.lang.String[] columnNames -> a
    int printFigures -> b
    int printDecimals -> c
    void setColumnNames() -> a
    java.lang.String getColumnName(int) -> a
    java.lang.String getColumnNameForCopy(int) -> b
    java.lang.String getTitleString() -> a
    void updatePoints(boolean,boolean,boolean,boolean) -> a
    void updateGeos(boolean) -> a
    geogebra.common.kernel.geos.GeoPoint getLowPoint() -> a
    geogebra.common.kernel.geos.GeoPoint getHighPoint() -> b
    void updateIntervalTable() -> b
    java.lang.String format(java.lang.Double) -> a
    void updateXYTable(int,boolean) -> a
    void updateExtraColumns(int) -> d
    void addColumn(int) -> a
    void removeColumn() -> c
    void applyStep(double) -> a
    void applyHigh(double) -> b
    void applyLow(double) -> c
    boolean isValid() -> a
    void update(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    double getStartX() -> b
    void insertGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void stepStartForward() -> d
    void stepStartBackward() -> e
    void defineDisplayGeos() -> i
    void updateTestPoint() -> f
    void clearGeoList() -> g
    void updateIntervalGeoVisiblity() -> h
    void copyPointsToSpreadsheet(int,int) -> a
    void copyIntervalsToSpreadsheet(int,int) -> b
    void processCellGeo(geogebra.common.kernel.geos.GeoElement,int,int) -> a
    void setStart(double) -> d
    java.lang.String[] getColumnNames() -> a
    java.lang.String[] getIntervalColumnNames() -> b
    int getPrintFigures() -> a
    void setPrintFigures(int) -> b
    int getPrintDecimals() -> b
    void setPrintDecimals(int) -> c
    double getInitialX() -> a
geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors -> geogebra.common.i.g.d.c$a:
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors GEO -> a
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors GEO2 -> b
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors EVEN_ROW -> c
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors GRID -> d
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors[] ENUM$VALUES -> a
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors[] values() -> values
    geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.functioninspector.FunctionInspectorModel$IFunctionInspectorListener -> geogebra.common.i.g.d.c$b:
    void updateXYTable(boolean) -> b
    void updateInterval(java.util.ArrayList,java.util.ArrayList) -> a
    void setXYValueAt(java.lang.Double,int,int) -> a
    java.lang.Object getXYValueAt(int,int) -> a
    void addTableColumn(java.lang.String) -> a
    void setGeoName(java.lang.String) -> b
    void changeTableSelection() -> B
    void updateHighAndLow(boolean,boolean) -> a
    void setStepText(java.lang.String) -> c
    void setStepVisible(boolean) -> c
    geogebra.common.awt.GColor getColor(geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors) -> a
    int getSelectedXYRow() -> b
geogebra.common.gui.view.probcalculator.ChiSquareCell -> geogebra.common.i.g.e.a:
    geogebra.common.gui.view.probcalculator.StatisticsCollection sc -> a
    boolean isMarginCell -> a
    boolean isHeaderCell -> b
    int row -> a
    int column -> b
geogebra.common.gui.view.probcalculator.ChiSquarePanel -> geogebra.common.i.g.e.b:
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator statCalc -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculatorProcessor statProcessor -> a
    geogebra.common.gui.view.probcalculator.StatisticsCollection sc -> a
geogebra.common.gui.view.probcalculator.ProbabilityCalculatorView -> geogebra.common.i.g.e.c:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.awt.GColor COLOR_PDF -> a
    geogebra.common.awt.GColor COLOR_NORMALOVERLAY -> b
    geogebra.common.awt.GColor COLOR_PDF_FILL -> c
    geogebra.common.awt.GColor COLOR_POINT -> d
    int defaultDividerSize -> a
    geogebra.common.euclidian.EuclidianView plotPanel -> a
    geogebra.common.gui.view.probcalculator.ProbabilityTable table -> a
    boolean hasIntegral -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST selectedDist -> a
    java.lang.String[][] parameterLabels -> a
    double[] parameters -> a
    boolean isCumulative -> b
    java.util.HashMap distributionMap -> a
    java.util.HashMap reverseDistributionMap -> b
    java.util.ArrayList plotGeoList -> a
    geogebra.common.kernel.geos.GeoPoint lowPoint -> a
    geogebra.common.kernel.geos.GeoPoint highPoint -> b
    geogebra.common.kernel.geos.GeoPoint curvePoint -> c
    geogebra.common.kernel.geos.GeoElement densityCurve -> a
    geogebra.common.kernel.geos.GeoElement integral -> b
    geogebra.common.kernel.geos.GeoElement ySegment -> c
    geogebra.common.kernel.geos.GeoElement xSegment -> d
    geogebra.common.kernel.geos.GeoElement discreteGraph -> e
    geogebra.common.kernel.geos.GeoElement discreteIntervalGraph -> f
    geogebra.common.kernel.geos.GeoElement normalOverlay -> g
    geogebra.common.kernel.geos.GeoList discreteValueList -> a
    geogebra.common.kernel.geos.GeoList discreteProbList -> b
    geogebra.common.kernel.geos.GeoList intervalProbList -> c
    geogebra.common.kernel.geos.GeoList intervalValueList -> d
    java.util.ArrayList pointList -> b
    boolean isIniting -> c
    boolean isSettingAxisPoints -> d
    int probMode -> b
    double low -> b
    double high -> c
    double probability -> a
    int printDecimals -> c
    int printFigures -> d
    boolean showProbGeos -> e
    boolean showNormalOverlay -> f
    boolean removeFromConstruction -> g
    int graphTypePDF -> e
    int graphTypeCDF -> f
    int graphType -> g
    geogebra.common.gui.view.data.PlotSettings plotSettings -> a
    geogebra.common.gui.view.probcalculator.ProbabilityManager probManager -> a
    geogebra.common.kernel.geos.GeoFunction pdfCurve -> a
    java.util.TreeSet tempSet -> a
    int[] $SWITCH_TABLE$geogebra$common$main$settings$ProbabilityCalculatorSettings$DIST -> a
    void setLabelArrays() -> b
    int getDiscreteXMax() -> b
    int getDiscreteXMin() -> c
    void setGraphType(int) -> a
    int getGraphType() -> d
    int getPrintDecimals() -> e
    int getPrintFigures() -> f
    void setProbabilityCalculator(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,double[],boolean) -> a
    geogebra.common.gui.view.data.PlotSettings getPlotSettings() -> a
    void setPlotSettings(geogebra.common.gui.view.data.PlotSettings) -> a
    boolean isShowNormalOverlay() -> a
    void setShowNormalOverlay(boolean) -> a
    void updateAll() -> d
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST getSelectedDist() -> a
    double getLow() -> a
    double getHigh() -> b
    int getProbMode() -> g
    boolean isCumulative() -> b
    void createGeoElements() -> e
    geogebra.common.kernel.geos.GeoElement createGeoFromString(java.lang.String,boolean) -> a
    void hideAllGeosFromViews() -> r
    void hideGeoFromViews(geogebra.common.kernel.geos.GeoElement) -> g
    void hideToolTips() -> s
    geogebra.common.kernel.geos.GeoElement createNormalCurveOverlay(double,double) -> a
    double[] getPlotDimensions() -> a
    java.lang.String format(double) -> a
    void updatePlotSettings() -> g
    void plotPanelUpdateSettings(geogebra.common.gui.view.data.PlotSettings) -> b
    void setXAxisPoints() -> h
    void removeGeos() -> i
    void createDiscreteLists() -> t
    void clearPlotGeoList() -> u
    java.util.TreeSet getTempSet() -> a
    void exportGeosToEV(int) -> b
    int getViewID() -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void setInterval(double,double) -> a
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    double intervalProbability() -> c
    double inverseProbability(double) -> a
    void updateIntervalProbability() -> m
    boolean isValidInterval(int,double,double) -> a
    boolean isValidParameter(double,int) -> a
    void updateRounding() -> v
    void updateDiscreteTable() -> n
    void updateGUI() -> o
    boolean probmanagerIsDiscrete() -> c
    int[] generateFirstXLastXCommon() -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void attachView() -> p
    void detachView() -> q
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void reset() -> j
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
    void removeFromAlgorithmList(geogebra.common.kernel.algos.AlgoElement) -> a
    geogebra.common.kernel.geos.GeoFunction buildDensityCurveExpression(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,boolean) -> a
    void getXML(java.lang.StringBuilder) -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    java.lang.String getMeanSigma() -> a
    void setHigh(double) -> a
    void setLow(double) -> b
    boolean isOverlayDefined() -> d
    int[] $SWITCH_TABLE$geogebra$common$main$settings$ProbabilityCalculatorSettings$DIST() -> b
geogebra.common.gui.view.probcalculator.ProbabilityManager -> geogebra.common.i.g.e.d:
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.gui.view.probcalculator.ProbabilityCalculatorView probCalc -> a
    int[] $SWITCH_TABLE$geogebra$common$main$settings$ProbabilityCalculatorSettings$DIST -> a
    boolean isDiscrete(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST) -> a
    java.util.HashMap getDistributionMap() -> a
    java.util.HashMap getReverseDistributionMap() -> b
    java.lang.String[][] getParameterLabelArray(geogebra.common.main.App) -> a
    geogebra.common.kernel.statistics.AlgoDistribution getInverseCommand(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,geogebra.common.kernel.Construction,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.statistics.AlgoDistribution getCommand(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,geogebra.common.kernel.Construction,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,boolean) -> a
    int getParmCount(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST) -> a
    double[] getDefaultParameters(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST) -> a
    double[] getPlotDimensions(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,double[],geogebra.common.kernel.geos.GeoElement,boolean) -> a
    double getContXMax(geogebra.common.kernel.geos.GeoFunction,double,double,double) -> a
    java.lang.Double[] getDistributionMeasures(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,double[]) -> a
    double probability(double,double[],geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,boolean) -> a
    double intervalProbability(double,double,geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,double[],int) -> a
    double inverseProbability(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,double,double[]) -> a
    int[] $SWITCH_TABLE$geogebra$common$main$settings$ProbabilityCalculatorSettings$DIST() -> a
geogebra.common.gui.view.probcalculator.ProbabilityTable -> geogebra.common.i.g.e.e:
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.probcalculator.ProbabilityManager probManager -> a
    geogebra.common.gui.view.probcalculator.ProbabilityCalculatorView probCalc -> a
    java.lang.String[] columnNames -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST distType -> a
    int xMin -> a
    int xMax -> b
    boolean isIniting -> a
    double[] parms -> a
    void setSelectionByRowValue(int,int) -> a
    void setColumnNames() -> a
    boolean isCumulative() -> a
geogebra.common.gui.view.probcalculator.ProbabiltyCalculatorStyleBar -> geogebra.common.i.g.e.f:
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.probcalculator.ProbabilityCalculatorView probCalc -> a
    int iconHeight -> a
geogebra.common.gui.view.probcalculator.StatisticsCalculator -> geogebra.common.i.g.e.g:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.gui.view.probcalculator.StatisticsCollection sc -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculatorProcessor statProcessor -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculatorHTML statHTML -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure selectedProcedure -> a
    java.util.HashMap mapNameToProcedure -> a
    java.util.HashMap mapProcedureToName -> b
    java.lang.StringBuilder bodyText -> a
    java.lang.String strMean -> a
    java.lang.String strSD -> b
    java.lang.String strSigma -> c
    java.lang.String strSuccesses -> d
    java.lang.String strN -> e
    java.lang.String strPooled -> f
    double[] s1 -> a
    double[] s2 -> b
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure getSelectedProcedure() -> a
    java.lang.String format(double) -> a
    java.util.HashMap getMapProcedureToName() -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculatorProcessor getStatProcessor() -> a
    geogebra.common.gui.view.probcalculator.StatisticsCollection getStatististicsCollection() -> a
    void updateResult() -> b
    void combolabelsPreprocess() -> c
    void setLabelStrings() -> d
geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure -> geogebra.common.i.g.e.g$a:
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZMEAN_TEST -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZMEAN2_TEST -> b
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure TMEAN_TEST -> c
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure TMEAN2_TEST -> d
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZPROP_TEST -> e
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZPROP2_TEST -> f
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZMEAN_CI -> g
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZMEAN2_CI -> h
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure TMEAN_CI -> i
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure TMEAN2_CI -> j
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZPROP_CI -> k
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure ZPROP2_CI -> l
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure GOF_TEST -> m
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure CHISQ_TEST -> n
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure[] ENUM$VALUES -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure[] values() -> values
    geogebra.common.gui.view.probcalculator.StatisticsCalculator$Procedure valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.probcalculator.StatisticsCalculatorHTML -> geogebra.common.i.g.e.h:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator statCalc -> a
    geogebra.common.gui.view.probcalculator.StatisticsCollection sc -> a
    java.lang.String strSample1 -> a
    java.lang.String strSample2 -> b
    java.lang.String strMean -> c
    java.lang.String strSD -> d
    java.lang.String strSigma -> e
    java.lang.String strSuccesses -> f
    java.lang.String strN -> g
    java.lang.String strSE -> h
    java.lang.String strDF -> i
    java.lang.String strUpper -> j
    java.lang.String strLower -> k
    java.lang.String strInterval -> l
    java.lang.String strP -> m
    java.lang.String strChiSq -> n
    java.lang.String strZ -> o
    java.lang.String strT -> p
    java.lang.String strPooled -> q
    int[] $SWITCH_TABLE$geogebra$common$gui$view$probcalculator$StatisticsCalculator$Procedure -> a
    java.lang.String format(double) -> a
    void setLabelStrings() -> a
    java.lang.StringBuilder getStatString() -> a
    java.lang.String isPooled() -> a
    java.lang.String getInterval(double,double) -> a
    java.lang.StringBuilder htmlTable(java.lang.String[][],boolean) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$probcalculator$StatisticsCalculator$Procedure() -> a
geogebra.common.gui.view.probcalculator.StatisticsCalculatorProcessor -> geogebra.common.i.g.e.i:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator statCalc -> a
    geogebra.common.gui.view.probcalculator.StatisticsCollection sc -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoNumeric n2 -> b
    geogebra.common.kernel.geos.GeoNumeric mean -> c
    geogebra.common.kernel.geos.GeoNumeric mean2 -> d
    geogebra.common.kernel.geos.GeoNumeric sd -> e
    geogebra.common.kernel.geos.GeoNumeric sd2 -> f
    geogebra.common.kernel.geos.GeoNumeric proportion -> g
    geogebra.common.kernel.geos.GeoNumeric proportion2 -> h
    geogebra.common.kernel.geos.GeoNumeric nullHyp -> i
    geogebra.common.kernel.geos.GeoNumeric level -> j
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoBoolean pooled -> a
    java.util.ArrayList geos -> a
    org.apache.commons.math.distribution.ChiSquaredDistribution chisquared -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$probcalculator$StatisticsCalculator$Procedure -> a
    void createGeos() -> b
    void updateGeoValues() -> c
    void doCalculate() -> a
    void setT2Stats() -> d
    void updateChiSq() -> e
    void updateGOF() -> f
    org.apache.commons.math.distribution.ChiSquaredDistribution getChiSquaredDistribution(double) -> a
    double parseStringData(java.lang.String) -> a
    void setTestResults(geogebra.common.kernel.geos.GeoElement) -> a
    void setIntervalResults(geogebra.common.kernel.geos.GeoElement) -> b
    int[] $SWITCH_TABLE$geogebra$common$gui$view$probcalculator$StatisticsCalculator$Procedure() -> a
geogebra.common.gui.view.probcalculator.StatisticsCollection -> geogebra.common.i.g.e.j:
    double mean -> a
    double mean2 -> b
    double sd -> c
    double sd2 -> d
    double nullHyp -> e
    double me -> f
    double lower -> g
    double upper -> h
    double se -> i
    double testStat -> j
    double P -> k
    double df -> l
    double level -> m
    double n -> n
    double n2 -> o
    double count -> p
    double count2 -> q
    double total -> r
    java.lang.String tail -> a
    boolean pooled -> a
    java.lang.String[][] chiSquareData -> a
    int rows -> a
    int columns -> b
    double[][] observed -> a
    double[][] expected -> b
    double[][] diff -> c
    double[] columnSum -> a
    double[] rowSum -> b
    void setChiSqData(int,int) -> a
    double getProportion() -> a
    double getProportion2() -> b
    void validate() -> a
geogebra.common.gui.view.properties.PropertiesStyleBar -> geogebra.common.i.g.f.a:
geogebra.common.gui.view.properties.PropertiesView -> geogebra.common.i.g.f.b:
    java.util.HashMap viewMap -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean attached -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.main.OptionType selectedOptionType -> a
    geogebra.common.gui.dialog.options.OptionsObject objectPanel -> a
    int[] $SWITCH_TABLE$geogebra$common$main$OptionType -> a
    void updateSelection() -> a
    void setOptionPanel(geogebra.common.main.OptionType) -> a
    java.lang.String getTypeString(geogebra.common.main.OptionType) -> a
    java.lang.String getTypeStringSimple(geogebra.common.main.Localization,geogebra.common.main.OptionType) -> a
    void updateTitleBar() -> b
    geogebra.common.main.OptionType getSelectedOptionType() -> a
    boolean isOptionPanelAvailable(geogebra.common.main.App,geogebra.common.main.OptionType) -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    int[] $SWITCH_TABLE$geogebra$common$main$OptionType() -> a
geogebra.common.gui.view.spreadsheet.CellFormat -> geogebra.common.i.g.g.a:
    geogebra.common.gui.view.spreadsheet.MyTableInterface table -> a
    geogebra.common.main.App app -> a
    int highestIndexRow -> a
    int highestIndexColumn -> b
    java.lang.String cellFormatString -> a
    geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap[] formatMapArray -> a
    int formatCount -> c
    java.util.HashMap formatTokenMap -> a
    void clearAll() -> a
    void shiftFormats(int,int,geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction) -> a
    void shiftRowsUp(geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap,int,int) -> a
    void shiftRowsDown(geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap,int,int) -> b
    void clearRows(geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap,int,int) -> c
    void shiftColumnsLeft(geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap,int,int) -> d
    void shiftColumnsRight(geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap,int,int) -> e
    void clearColumns(geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap,int,int) -> f
    java.util.HashMap getFormatMap(int) -> a
    java.lang.Object getCellFormat(int,int,int) -> a
    java.lang.Object getCellFormat(geogebra.common.gui.view.spreadsheet.CellRange,int) -> a
    void setFormat(geogebra.common.awt.GPoint,int,java.lang.Object) -> a
    void setFormat(geogebra.common.gui.view.spreadsheet.CellRange,int,java.lang.Object) -> a
    void setFormat(java.util.ArrayList,int,java.lang.Object) -> a
    void setCellFormatString() -> b
    void setBorderStyle(java.util.ArrayList,int) -> a
    void setBorderStyle(geogebra.common.gui.view.spreadsheet.CellRange,int) -> a
    java.lang.StringBuilder encodeFormats() -> a
    void processXMLString(java.lang.String) -> a
    void processCellFormatString(java.lang.String) -> b
geogebra.common.gui.view.spreadsheet.CellFormat$MyHashMap -> geogebra.common.i.g.g.a$a:
    java.lang.Object put(geogebra.common.awt.GPoint,java.lang.Object) -> a
    java.lang.Object put(java.lang.Object,java.lang.Object) -> put
geogebra.common.gui.view.spreadsheet.CellFormatInterface -> geogebra.common.i.g.g.b:
    java.lang.Object getCellFormat(int,int,int) -> a
    java.util.HashMap getFormatMap(int) -> a
    void processXMLString(java.lang.String) -> a
    void shiftFormats(int,int,geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction) -> a
geogebra.common.gui.view.spreadsheet.CellRange -> geogebra.common.i.g.g.c:
    int minColumn -> a
    int minRow -> b
    int maxColumn -> c
    int maxRow -> d
    int anchorColumn -> e
    int anchorRow -> f
    geogebra.common.main.App app -> a
    geogebra.common.main.SpreadsheetTableModel tableModel -> a
    void setCellRange(int,int,int,int) -> a
    int getMinColumn() -> a
    int getMinRow() -> b
    int getMaxColumn() -> c
    int getMaxRow() -> d
    boolean isSingleCell() -> a
    boolean isColumn() -> b
    boolean isRow() -> c
    int[] getActualDimensions() -> a
    boolean is2D() -> d
    boolean is1D() -> e
    boolean isPartialRow() -> f
    boolean isPartialColumn() -> g
    boolean isEmpty() -> h
    boolean isEmptyRange() -> i
    boolean isPointList() -> j
    geogebra.common.gui.view.spreadsheet.CellRange getActualRange() -> a
    void setActualRange() -> a
    int getWidth() -> e
    java.util.ArrayList toGeoList() -> a
    java.util.ArrayList toPartialColumnList() -> b
    java.util.ArrayList toPartialRowList() -> c
    java.util.ArrayList toCellList(boolean) -> a
    boolean hasSameAnchor(geogebra.common.gui.view.spreadsheet.CellRange) -> a
    boolean hasEmptyCells() -> k
    int getGeoCount(geogebra.common.plugin.GeoClass) -> a
    boolean containsGeoClass(geogebra.common.plugin.GeoClass) -> a
    boolean isValid() -> l
    geogebra.common.gui.view.spreadsheet.CellRange clone() -> b
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    boolean contains(geogebra.common.kernel.geos.GeoElement) -> a
    boolean contains(geogebra.common.awt.GPoint) -> a
    java.lang.Object clone() -> clone
geogebra.common.gui.view.spreadsheet.CellRangeProcessor -> geogebra.common.i.g.g.d:
    geogebra.common.gui.view.spreadsheet.MyTable table -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.main.SpreadsheetTableModel tableModel -> a
    java.util.ArrayList clone(java.util.ArrayList) -> a
    boolean isCreatePointListPossible(java.util.ArrayList) -> a
    boolean isCreateOperationTablePossible(java.util.ArrayList) -> b
    boolean isCreateMatrixPossible(java.util.ArrayList) -> c
    boolean containsGeoClass(java.util.ArrayList,geogebra.common.plugin.GeoClass) -> a
    geogebra.common.kernel.geos.GeoElement createPolyLine(java.util.ArrayList,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createPolyLine(java.util.ArrayList,boolean,boolean,boolean,boolean) -> a
    void getPointListDimensions(java.util.ArrayList,geogebra.common.gui.view.spreadsheet.CellRangeProcessor$PointDimension) -> a
    geogebra.common.kernel.geos.GeoList createPointGeoList(java.util.ArrayList,boolean,boolean,boolean,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createList(java.util.ArrayList,boolean,boolean) -> b
    geogebra.common.kernel.geos.GeoList createList(java.util.ArrayList,boolean,boolean,boolean,boolean,geogebra.common.plugin.GeoClass,boolean) -> a
    java.lang.String createMatrixExpression(int,int,int,int,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createMatrix(int,int,int,int,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createMatrix(int,int,int,int,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement createTableText(int,int,int,int,boolean,boolean) -> b
    void insertColumn(int,int,boolean) -> a
    void deleteColumns(int,int) -> a
    void shiftColumnsRight(int) -> a
    void shiftColumnsLeft(int,int) -> c
    void insertRow(int,int,boolean) -> b
    void deleteRows(int,int) -> b
    void shiftRowsDown(int) -> b
    void shiftRowsUp(int,int) -> d
    void createOperationTable(geogebra.common.gui.view.spreadsheet.CellRange,geogebra.common.kernel.geos.GeoFunctionNVar) -> a
    java.lang.String getCellRangeString(geogebra.common.gui.view.spreadsheet.CellRange) -> a
    java.lang.String getCellRangeString(geogebra.common.gui.view.spreadsheet.CellRange,boolean) -> a
    java.lang.String getCellRangeString(java.util.ArrayList) -> a
geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction -> geogebra.common.i.g.g.d$a:
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction Left -> a
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction Right -> b
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction Up -> c
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction Down -> d
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction[] ENUM$VALUES -> a
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction[] values() -> values
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor$Direction valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.spreadsheet.CellRangeProcessor$PointDimension -> geogebra.common.i.g.g.d$b:
    boolean doHorizontalPairs -> a
    int c1 -> a
    int c2 -> b
    int r1 -> c
    int r2 -> d
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor this$0 -> a
geogebra.common.gui.view.spreadsheet.CopyPasteCut -> geogebra.common.i.g.g.e:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.SpreadsheetTableModel tableModel -> a
    geogebra.common.gui.view.spreadsheet.SpreadsheetViewInterface view -> a
    geogebra.common.gui.view.spreadsheet.MyTableInterface table -> a
    java.lang.StringBuilder cellBufferStr -> a
    geogebra.common.kernel.geos.GeoElement[][] cellBufferGeo -> a
    int sourceColumn1 -> a
    int sourceRow1 -> b
    java.lang.Object[] constructionIndexes -> a
    java.util.Comparator comparator -> a
    geogebra.common.gui.view.spreadsheet.SpreadsheetViewInterface getView() -> a
    geogebra.common.gui.view.spreadsheet.MyTableInterface getTable() -> a
    void copy(int,int,int,int,boolean) -> a
    boolean cut(int,int,int,int) -> a
    boolean paste(int,int,int,int) -> b
    boolean pasteInternalMultiple(int,int,int,int) -> c
    boolean pasteInternal(int,int,int,int) -> d
    boolean pasteExternalMultiple(java.lang.String[][],geogebra.common.gui.view.spreadsheet.CellRange) -> a
    boolean pasteExternalMultiple(java.lang.String[][],int,int,int,int) -> a
    boolean pasteExternal(java.lang.String[][],int,int,int,int) -> b
    boolean delete(int,int,int,int) -> e
    void deleteAll() -> a
    boolean delete(geogebra.common.main.App,int,int,int,int,int) -> a
    java.util.Comparator getComparator() -> a
geogebra.common.gui.view.spreadsheet.CopyPasteCut$1 -> geogebra.common.i.g.g.f:
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.gui.view.spreadsheet.CopyPasteCut$Record -> geogebra.common.i.g.g.e$a:
    int id -> a
    int x1 -> b
    int y1 -> c
    int x2 -> d
    int y2 -> e
    int getx1() -> a
    int getx2() -> b
    int gety1() -> c
    int gety2() -> d
geogebra.common.gui.view.spreadsheet.CreateObjectModel -> geogebra.common.i.g.g.g:
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor cp -> a
    java.util.ArrayList selectedCellRanges -> a
    int objectType -> a
    geogebra.common.kernel.geos.GeoElement newGeo -> a
    boolean keepNewGeo -> a
    geogebra.common.gui.view.spreadsheet.MyTable table -> a
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.spreadsheet.CreateObjectModel$ICreateObjectListener listener -> a
    java.util.List getObjectTypeNames() -> a
    java.lang.String getTitle() -> a
    void update() -> a
    void cancel() -> b
    void ok() -> c
    void addNewGeoToConstruction() -> f
    void createNewGeo(java.lang.String) -> a
    void cleanUp() -> d
    java.lang.String getNonLatexText() -> b
    void setCellRangeProcessor(geogebra.common.gui.view.spreadsheet.CellRangeProcessor) -> a
    java.util.ArrayList getSelectedCellRanges() -> a
    void setSelectedCellRanges(java.util.ArrayList) -> a
    int getObjectType() -> a
    void setObjectType(int) -> a
    void setListType() -> e
    int getOptionType() -> b
geogebra.common.gui.view.spreadsheet.CreateObjectModel$ICreateObjectListener -> geogebra.common.i.g.g.g$a:
    void setName(java.lang.String) -> b_
    void setVisible(boolean) -> a
    void setSortVisible(boolean) -> b
    boolean isCopiedByValue() -> a
    boolean isScannedByColumn() -> b
    boolean isLeftToRight() -> c
    boolean isTranspose() -> d
    void updatePreview(java.lang.String,boolean) -> a
geogebra.common.gui.view.spreadsheet.DataImport -> geogebra.common.i.g.g.h:
    geogebra.common.util.opencsv.CSVParser commaParser -> a
    geogebra.common.util.opencsv.CSVParser tabParser -> b
    com.google.gwt.regexp.shared.RegExp regex -> a
    java.lang.String[][] parseExternalData(geogebra.common.main.App,java.lang.String,boolean) -> a
    geogebra.common.util.opencsv.CSVParser getCommaParser() -> a
    geogebra.common.util.opencsv.CSVParser getTabParser() -> b
    java.lang.String[][] parseCSVdata(java.lang.String) -> b
    java.lang.String[][] parseTabData(java.lang.String) -> a
    java.lang.String adjustNumberString(java.lang.String) -> a
geogebra.common.gui.view.spreadsheet.MyTable -> geogebra.common.i.g.g.i:
    geogebra.common.kernel.Kernel getKernel() -> a
    geogebra.common.gui.view.spreadsheet.SpreadsheetViewInterface getView() -> a
    geogebra.common.gui.view.spreadsheet.CopyPasteCut getCopyPasteCut() -> a
    java.util.ArrayList getSelectedCellRanges() -> a
geogebra.common.gui.view.spreadsheet.MyTableInterface -> geogebra.common.i.g.g.j:
    geogebra.common.main.App getApplication() -> a
    boolean editCellAt(int,int) -> editCellAt
    geogebra.common.gui.view.spreadsheet.CellFormatInterface getCellFormatHandler() -> a
    void updateCellFormat(java.lang.String) -> a
    void repaint() -> repaint
    void repaintAll() -> a
    void updateEditor(java.lang.String) -> b
    int getSelectionType() -> a
    void selectionChanged() -> b
    boolean isSelectNone() -> a
    boolean setSelection(int,int) -> a
    boolean isSelectAll() -> b
    boolean allowSpecialEditor() -> c
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor getCellRangeProcessor() -> a
geogebra.common.gui.view.spreadsheet.RelativeCopy -> geogebra.common.i.g.g.k:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    com.google.gwt.regexp.shared.RegExp pattern2 -> a
    boolean doDragCopy(int,int,int,int,int,int,int,int) -> a
    boolean isPatternSource(geogebra.common.gui.view.spreadsheet.CellRange) -> a
    void doCopyVerticalNoStoringUndoInfo1(int,int,int,int,int) -> a
    void doCopyHorizontalNoStoringUndoInfo1(int,int,int,int,int) -> b
    geogebra.common.kernel.geos.GeoElement doCopyNoStoringUndoInfo0(geogebra.common.kernel.Kernel,geogebra.common.main.App,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,int,int) -> a
    void updateCellReferences(geogebra.common.kernel.arithmetic.ValidExpression,int,int) -> a
    java.lang.String updateCellNameWithOffset(java.lang.String,int,int) -> a
    void doCopyNoStoringUndoInfo1(geogebra.common.kernel.Kernel,geogebra.common.main.App,java.lang.String,geogebra.common.kernel.geos.GeoElement,int,int) -> a
    geogebra.common.kernel.geos.GeoElement[][] getValues(geogebra.common.main.App,int,int,int,int) -> a
    geogebra.common.kernel.geos.GeoElement getValue(geogebra.common.main.App,int,int) -> a
    geogebra.common.kernel.geos.GeoElement prepareNewValue(geogebra.common.kernel.Kernel,java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement updateOldValue(geogebra.common.kernel.Kernel,geogebra.common.kernel.geos.GeoElement,java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement prepareAddingValueToTableNoStoringUndoInfo(geogebra.common.kernel.Kernel,geogebra.common.main.App,java.lang.String,geogebra.common.kernel.geos.GeoElement,int,int) -> a
    boolean isNumber(java.lang.String) -> a
    boolean isStandardNumber(java.lang.String) -> b
geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu -> geogebra.common.i.g.g.l:
    geogebra.common.main.App app -> a
    geogebra.common.gui.view.spreadsheet.MyTable table -> a
    java.util.ArrayList geos -> a
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor cp -> a
    java.util.ArrayList selectedCellRanges -> b
    int selectionType -> a
    int row1 -> b
    int row2 -> c
    int column1 -> d
    int column2 -> e
    int[] $SWITCH_TABLE$geogebra$common$gui$view$spreadsheet$SpreadsheetContextMenu$MenuCommand -> a
    void updateFields() -> a
    void initMenu() -> b
    java.lang.String getTitleString() -> a
    boolean enableDataImport() -> a
    boolean allFixed() -> c
    boolean isEmptySelection() -> b
    java.lang.String getDeleteRowString() -> b
    java.lang.String getDeleteColumnString() -> c
    void doCommand(java.lang.String) -> a
    void cmdShowObject() -> c
    void cmdShowLabel() -> d
    void cmdRecordToSpreadsheet() -> e
    void cmdListOfPoints() -> f
    void cmdPolyLine() -> g
    void cmdImportDataFile() -> h
    void cmdSpreadsheetOptions() -> i
    void cmdProperties() -> j
    java.lang.Object getMenuContainer() -> a
    void createGUI() -> k
    void addMenuItem(java.lang.String,java.lang.String,boolean) -> a
    void addCheckBoxMenuItem(java.lang.String,java.lang.String,boolean) -> b
    java.lang.Object addSubMenu(java.lang.String,java.lang.String) -> a
    void addSubMenuItem(java.lang.Object,java.lang.String,java.lang.String,boolean) -> a
    void addSeparator() -> l
    void setTitle(java.lang.String) -> b
    int[] $SWITCH_TABLE$geogebra$common$gui$view$spreadsheet$SpreadsheetContextMenu$MenuCommand() -> a
geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand -> geogebra.common.i.g.g.l$a:
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand ShowObject -> a
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand ShowLabel -> b
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand RecordToSpreadsheet -> c
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Copy -> d
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Paste -> e
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Cut -> f
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Delete -> g
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand DeleteObjects -> h
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand InsertLeft -> i
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand InsertRight -> j
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand InsertAbove -> k
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand InsertBelow -> l
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand DeleteRow -> m
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand DeleteRows -> n
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand DeleteColumn -> o
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand DeleteColumns -> p
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand List -> q
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand ListOfPoints -> r
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Matrix -> s
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Table -> t
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand PolyLine -> u
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand OperationTable -> v
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand ImportDataFile -> w
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand SpreadsheetOptions -> x
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand Properties -> y
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand[] ENUM$VALUES -> a
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand[] values() -> values
    geogebra.common.gui.view.spreadsheet.SpreadsheetContextMenu$MenuCommand valueOf(java.lang.String) -> valueOf
geogebra.common.gui.view.spreadsheet.SpreadsheetViewInterface -> geogebra.common.i.g.g.m:
    geogebra.common.gui.view.spreadsheet.MyTableInterface getSpreadsheetTable() -> a
    void rowHeaderRevalidate() -> a
    void showTraceDialog(geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.spreadsheet.CellRange) -> a
geogebra.common.io.DocHandler -> geogebra.common.j.a:
    void startElement(java.lang.String,java.util.LinkedHashMap) -> d
    void endElement(java.lang.String) -> a
    void startDocument() -> a
    void endDocument() -> b
    void text(java.lang.String) -> b
    int getConsStep() -> a
geogebra.common.io.MathMLParser -> geogebra.common.j.b:
    java.util.HashMap geogebraMap -> a
    java.util.HashMap latexMap -> b
    java.lang.String PH_BLOCK_START -> a
    char PH_BLOCK_END -> a
    char[] specialCharacters -> a
    char[] leftBraces -> b
    char[] rightBraces -> c
    java.util.HashMap substitutions -> c
    java.lang.String strBuf -> b
    int pos -> a
    boolean wrappedEntities -> a
    boolean skipUnknownEntities -> b
    boolean geogebraSyntax -> c
    java.lang.String nextTag -> c
    java.lang.StringBuilder tagBuf -> a
    java.lang.StringBuilder entity -> b
    java.lang.String entitySubst -> d
    boolean closeBracketNext -> d
    java.lang.String parse(java.lang.String,boolean,boolean) -> a
    void parseBlock(java.lang.String,java.lang.StringBuilder,boolean) -> a
    java.lang.String getNextTag() -> a
    java.lang.String generateEndTag(java.lang.String) -> a
    void skipFollowingTag() -> a
    void skipBlocks(int) -> a
    int getBlockEnd(java.lang.String,java.lang.String) -> a
    java.lang.String parseBlockContent(java.lang.String) -> b
    boolean isValidUnicode(java.lang.String) -> a
geogebra.common.io.MyXMLHandler -> geogebra.common.j.c:
    double FORMAT -> a
    int[] menuFontSizes -> a
    java.lang.String[] tooltipTimeouts -> a
    java.lang.Integer[] cbTimeoutOptions -> a
    int mode -> a
    int constMode -> b
    int casMode -> c
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoCasCell geoCasCell -> a
    geogebra.common.kernel.arithmetic.Command cmd -> a
    geogebra.common.kernel.Macro macro -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    java.lang.String[] macroInputLabels -> b
    java.lang.String[] macroOutputLabels -> c
    geogebra.common.kernel.geos.GeoElement[] cmdOutput -> a
    boolean startAnimation -> b
    int docPointStyle -> d
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Kernel origKernel -> b
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.kernel.Construction origCons -> b
    geogebra.common.kernel.parser.Parser parser -> a
    geogebra.common.kernel.parser.Parser origParser -> b
    java.util.LinkedList startPointList -> a
    java.util.LinkedList linkedGeoList -> b
    java.util.LinkedList showObjectConditionList -> c
    java.util.LinkedList dynamicColorList -> d
    java.util.LinkedList animationSpeedList -> e
    java.util.LinkedList animationStepList -> f
    java.util.LinkedList animatingList -> g
    java.util.LinkedList minMaxList -> h
    int consStep -> e
    double ggbFileFormat -> b
    boolean hasGuiElement -> c
    geogebra.common.io.layout.Perspective tmp_perspective -> a
    java.util.ArrayList tmp_perspectives -> a
    java.util.ArrayList tmp_panes -> b
    java.util.ArrayList tmp_views -> c
    int tmp_sp1 -> f
    int tmp_sp2 -> g
    boolean tmp_spHorizontal -> d
    boolean tmp_showAlgebra -> e
    boolean tmp_showSpreadsheet -> f
    boolean resetEVsettingsNeeded -> a
    geogebra.common.main.settings.EuclidianSettings evSet -> a
    java.util.HashMap xmin -> a
    java.util.HashMap xmax -> b
    java.util.HashMap ymin -> c
    java.util.HashMap ymax -> d
    boolean isPreferencesXML -> g
    void reset(boolean) -> a
    void initKernelVars() -> c
    int getConsStep() -> a
    java.lang.Integer getTimeoutOption(long) -> a
    void text(java.lang.String) -> b
    void startDocument() -> a
    void endDocument() -> b
    void startElement(java.lang.String,java.util.LinkedHashMap) -> d
    void startScriptingElement(java.util.LinkedHashMap) -> b
    void endElement(java.lang.String) -> a
    void startGeoGebraElement(java.lang.String,java.util.LinkedHashMap) -> e
    void handleKeyboard(java.util.LinkedHashMap) -> c
    void startMacroElement(java.lang.String,java.util.LinkedHashMap) -> f
    void startEuclidianView3DElement(java.lang.String,java.util.LinkedHashMap) -> a
    void startEuclidianViewElementCheckViewId(java.lang.String,java.util.LinkedHashMap) -> c
    boolean startEuclidianViewElementSwitch(java.lang.String,java.util.LinkedHashMap,char) -> a
    boolean handleExtraTag(java.util.LinkedHashMap) -> a
    void startEuclidianViewElement(java.lang.String,java.util.LinkedHashMap) -> g
    void startSpreadsheetViewElement(java.lang.String,java.util.LinkedHashMap) -> h
    void startProbabilityCalculatorElement(java.lang.String,java.util.LinkedHashMap) -> i
    boolean handleProbabilityDistribution(java.util.LinkedHashMap) -> b
    boolean handleProbabilityInterval(java.util.LinkedHashMap) -> c
    void startAlgebraViewElement(java.lang.String,java.util.LinkedHashMap) -> j
    boolean handleCoordSystem(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> a
    boolean handleEvSettings(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> b
    boolean handleEvSize(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> e
    boolean handleSpreadsheetSize(java.util.LinkedHashMap) -> d
    boolean handleSpreadsheetColumn(java.util.LinkedHashMap) -> e
    boolean handleSpreadsheetCellSize(java.util.LinkedHashMap) -> f
    boolean handleSpreadsheetFormat(java.util.LinkedHashMap) -> g
    boolean handleSpreadsheetRow(java.util.LinkedHashMap) -> h
    boolean handleSpreadsheetLayout(java.util.LinkedHashMap) -> i
    boolean handleSpreadsheetInitalSelection(java.util.LinkedHashMap) -> j
    boolean handleBgColor(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> c
    boolean handleAxesColor(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> f
    boolean handleGridColor(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> g
    boolean handleLineStyle(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> h
    boolean handleGrid(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> i
    boolean handleAxis(geogebra.common.main.settings.EuclidianSettings,java.util.LinkedHashMap) -> d
    void startKernelElement(java.lang.String,java.util.LinkedHashMap) -> k
    boolean handleAngleUnit(java.util.LinkedHashMap) -> k
    boolean handleAlgebraStyle(java.util.LinkedHashMap) -> l
    boolean handleKernelCoordStyle(java.util.LinkedHashMap) -> m
    boolean handleKernelInvTrig(java.util.LinkedHashMap) -> n
    boolean handleKernelDecimals(java.util.LinkedHashMap) -> o
    boolean handleKernelStartAnimation(java.util.LinkedHashMap) -> p
    boolean handleKernelLocalization(java.util.LinkedHashMap) -> q
    boolean handleCasSettings(java.util.LinkedHashMap) -> r
    boolean handleKernelFigures(java.util.LinkedHashMap) -> s
    boolean handleKernelContinuous(java.util.LinkedHashMap) -> t
    boolean handleKernelUsePathAndRegionParameters(java.util.LinkedHashMap) -> u
    void startGuiElement(java.lang.String,java.util.LinkedHashMap) -> l
    void createCompabilityLayout() -> d
    boolean handleConsProtColumns(geogebra.common.main.App,java.util.LinkedHashMap) -> a
    boolean handleConsProtocol(java.util.LinkedHashMap) -> v
    boolean handleConsProtNavigationBar(geogebra.common.main.App,java.util.LinkedHashMap) -> b
    boolean handleGuiShow(geogebra.common.main.App,java.util.LinkedHashMap) -> c
    boolean handleGuiSettings(geogebra.common.main.App,java.util.LinkedHashMap) -> d
    boolean handleGraphicsSettings(java.util.LinkedHashMap) -> w
    boolean handleSplitDivider(java.util.LinkedHashMap) -> x
    boolean handleToolbar(java.util.LinkedHashMap) -> y
    boolean handleWindowSize(geogebra.common.main.App,java.util.LinkedHashMap) -> e
    boolean handleFont(geogebra.common.main.App,java.util.LinkedHashMap) -> f
    boolean handleMenuFont(geogebra.common.main.App,java.util.LinkedHashMap) -> g
    boolean handleTooltipSettings(geogebra.common.main.App,java.util.LinkedHashMap) -> h
    boolean handleMouse(geogebra.common.main.App,java.util.LinkedHashMap) -> i
    boolean handleLabelingStyle(geogebra.common.main.App,java.util.LinkedHashMap) -> j
    void startGuiPerspectivesElement(java.lang.String,java.util.LinkedHashMap) -> m
    boolean handlePerspective(java.util.LinkedHashMap) -> z
    void endGuiPerspectivesElement() -> e
    void startGuiPerspectiveElement(java.lang.String,java.util.LinkedHashMap) -> n
    boolean handleAlgebraInput(java.util.LinkedHashMap) -> A
    boolean handleDockBar(java.util.LinkedHashMap) -> B
    void endGuiPerspectiveElement() -> f
    void startGuiViewsElement(java.lang.String,java.util.LinkedHashMap) -> o
    boolean handleView(java.util.LinkedHashMap) -> C
    void startGuiPanesElement(java.lang.String,java.util.LinkedHashMap) -> p
    boolean handlePane(java.util.LinkedHashMap) -> D
    void handleConstruction(java.util.LinkedHashMap) -> d
    void initMacro(java.util.LinkedHashMap) -> e
    void endMacro() -> g
    void handleWorksheetText(java.util.LinkedHashMap) -> f
    void startCasCell(java.lang.String,java.util.LinkedHashMap) -> q
    void endCasCell(java.lang.String) -> c
    void startCellPair() -> h
    void endCellPair(java.lang.String) -> d
    void startCellOutputElement(java.lang.String,java.util.LinkedHashMap) -> r
    void startCellInputElement(java.lang.String,java.util.LinkedHashMap) -> s
    void startCellTextElement(java.lang.String,java.util.LinkedHashMap) -> t
    void startConstructionElement(java.lang.String,java.util.LinkedHashMap) -> u
    void endConstructionElement(java.lang.String) -> e
    void processEvSizes() -> i
    geogebra.common.kernel.geos.GeoElement getGeoElement(java.util.LinkedHashMap) -> a
    void startGeoElement(java.lang.String,java.util.LinkedHashMap) -> b
    boolean handleDimensions(java.util.LinkedHashMap) -> E
    char firstChar(java.lang.String) -> a
    boolean handleShow(java.util.LinkedHashMap) -> F
    boolean handleShowOnAxis(java.util.LinkedHashMap) -> G
    boolean handleObjColor(java.util.LinkedHashMap) -> H
    boolean handleBgColor(java.util.LinkedHashMap) -> I
    geogebra.common.awt.GColor handleColorAttrs(java.util.LinkedHashMap) -> a
    geogebra.common.awt.GColor handleColorAlphaAttrs(java.util.LinkedHashMap) -> b
    boolean handleLineStyle(java.util.LinkedHashMap) -> J
    boolean handleDecoration(java.util.LinkedHashMap) -> K
    boolean handleEqnStyle(java.util.LinkedHashMap) -> L
    boolean handleCurveParam(java.util.LinkedHashMap) -> M
    boolean handleCoords(java.util.LinkedHashMap) -> N
    boolean handleCoordStyle(java.util.LinkedHashMap) -> O
    boolean handleListeners(java.util.LinkedHashMap) -> P
    boolean handleCaption(java.util.LinkedHashMap) -> Q
    boolean handleScript(java.util.LinkedHashMap,geogebra.common.plugin.ScriptType) -> a
    boolean handleCondition(java.util.LinkedHashMap) -> R
    boolean handleCheckbox(java.util.LinkedHashMap) -> S
    boolean handleValue(java.util.LinkedHashMap) -> T
    boolean handlePointSize(java.util.LinkedHashMap) -> U
    boolean handlePointStyle(java.util.LinkedHashMap) -> V
    boolean handleLayer(java.util.LinkedHashMap) -> W
    boolean handleCasCellInput(java.util.LinkedHashMap) -> X
    boolean handleCasCellOutput(java.util.LinkedHashMap) -> Y
    boolean handleSlider(java.util.LinkedHashMap) -> Z
    boolean handleTrace(java.util.LinkedHashMap) -> aa
    boolean handleSpreadsheetTrace(java.util.LinkedHashMap) -> ab
    boolean handleShowTrimmed(java.util.LinkedHashMap) -> ac
    boolean handleSelectionAllowed(java.util.LinkedHashMap) -> ad
    boolean handleSelectedIndex(java.util.LinkedHashMap) -> ae
    boolean handleAnimation(java.util.LinkedHashMap) -> af
    boolean handleFixed(java.util.LinkedHashMap) -> ag
    boolean handleBreakpoint(java.util.LinkedHashMap) -> ah
    boolean handleFile(java.util.LinkedHashMap) -> ai
    boolean handleTextFont(java.util.LinkedHashMap) -> aj
    boolean handleTextDecimals(java.util.LinkedHashMap) -> ak
    boolean handleTextFigures(java.util.LinkedHashMap) -> al
    boolean handleInBackground(java.util.LinkedHashMap) -> am
    boolean handleInterpolate(java.util.LinkedHashMap) -> an
    boolean handleAuxiliary(java.util.LinkedHashMap) -> ao
    boolean handleIsLaTeX(java.util.LinkedHashMap) -> ap
    boolean handleArcSize(java.util.LinkedHashMap) -> aq
    boolean handleAbsoluteScreenLocation(java.util.LinkedHashMap) -> ar
    boolean handleAllowReflexAngle(java.util.LinkedHashMap) -> as
    boolean handleEmphasizeRightAngle(java.util.LinkedHashMap) -> at
    boolean handleComboBox(java.util.LinkedHashMap) -> au
    boolean handleAngleStyle(java.util.LinkedHashMap) -> av
    boolean handleForceReflexAngle(java.util.LinkedHashMap) -> aw
    boolean handleOutlyingIntersections(java.util.LinkedHashMap) -> ax
    boolean handleKeepTypeOnTransform(java.util.LinkedHashMap) -> ay
    boolean handleSlopeTriangleSize(java.util.LinkedHashMap) -> az
    boolean handleStartPoint(java.util.LinkedHashMap) -> aA
    geogebra.common.kernel.kernelND.GeoPointND handleAbsoluteStartPoint(java.util.LinkedHashMap) -> a
    void processStartPointList() -> j
    boolean handleLength(java.util.LinkedHashMap) -> aB
    boolean handleListType(java.util.LinkedHashMap) -> aC
    boolean handleLinkedGeo(java.util.LinkedHashMap) -> aD
    void processLinkedGeoList() -> k
    void processShowObjectConditionList() -> l
    void processAnimationSpeedList() -> m
    void processAnimationStepList() -> n
    void processAnimatingList() -> o
    void processMinMaxList() -> p
    void processDynamicColorList() -> q
    boolean handleEigenvectors(java.util.LinkedHashMap) -> aE
    boolean handleMatrix(java.util.LinkedHashMap) -> aF
    void handleMatrixConicOrQuadric(java.util.LinkedHashMap) -> a
    boolean handleLabelOffset(java.util.LinkedHashMap) -> aG
    boolean handleLabelMode(java.util.LinkedHashMap) -> aH
    boolean handleTooltipMode(java.util.LinkedHashMap) -> aI
    boolean handleCoefficients(java.util.LinkedHashMap) -> aJ
    boolean handleUserInput(java.util.LinkedHashMap) -> aK
    geogebra.common.kernel.arithmetic.Command getCommand(java.util.LinkedHashMap) -> a
    void startCommandElement(java.lang.String,java.util.LinkedHashMap) -> v
    boolean handleCmdInput(java.util.LinkedHashMap) -> aL
    boolean handleCmdOutput(java.util.LinkedHashMap) -> aM
    boolean handleCmdOutputSizes(java.util.LinkedHashMap) -> aN
    java.lang.String[] getAttributeStrings(java.util.LinkedHashMap) -> a
    void startExpressionElement(java.util.LinkedHashMap) -> g
    boolean handleAlgebraViewMode(java.util.LinkedHashMap) -> aO
    boolean handleAlgebraViewShowAuxiliaryObjects(java.util.LinkedHashMap) -> aP
    boolean handleAlgebraViewCollapsedNodes(java.util.LinkedHashMap) -> aQ
    boolean parseBoolean(java.lang.String) -> a
geogebra.common.io.MyXMLHandler$GeoExpPair -> geogebra.common.j.c$a:
    geogebra.common.kernel.geos.GeoElement geoElement -> a
    java.lang.String exp -> a
    geogebra.common.io.MyXMLHandler this$0 -> a
    geogebra.common.kernel.geos.GeoElement getGeo() -> a
    void setGeo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.io.MyXMLHandler$GeoNumericMinMax -> geogebra.common.j.c$b:
    geogebra.common.kernel.geos.GeoElement geoElement -> a
    java.lang.String min -> a
    java.lang.String max -> b
    geogebra.common.io.MyXMLHandler this$0 -> a
    geogebra.common.kernel.geos.GeoElement getGeo() -> a
    void setGeo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.io.MyXMLHandler$LocateableExpPair -> geogebra.common.j.c$c:
    geogebra.common.kernel.Locateable locateable -> a
    java.lang.String exp -> a
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    int number -> a
    geogebra.common.io.MyXMLHandler this$0 -> a
geogebra.common.io.MyXMLio -> geogebra.common.j.d:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    java.lang.StringBuilder getUndoXML(geogebra.common.kernel.Construction,boolean) -> a
    void processXMLString(java.lang.String,boolean,boolean) -> a
    void processXMLString(java.lang.String,boolean,boolean,boolean) -> a
    void addGeoGebraHeader(java.lang.StringBuilder,boolean,java.lang.String) -> a
    void addXMLHeader(java.lang.StringBuilder) -> a
    java.lang.String getFullXML() -> a
    java.lang.String getFullMacroXML(java.util.ArrayList) -> a
    java.lang.String getPreferencesXML() -> b
    java.lang.String getConstructionRegressionOut() -> c
geogebra.common.io.QDParser -> geogebra.common.j.e:
    java.util.LinkedHashMap attrs -> a
    java.util.Stack stack -> a
    java.lang.StringBuilder sb -> a
    java.lang.StringBuilder etag -> b
    void reset() -> a
    int popMode(java.util.Stack) -> a
    void parse(geogebra.common.io.DocHandler,java.io.Reader) -> a
    void exc(java.lang.String,int,int) -> a
geogebra.common.io.layout.DockPanelData -> geogebra.common.j.a.a:
    int viewId -> a
    boolean isVisible -> a
    boolean openInFrame -> b
    boolean showStyleBar -> c
    geogebra.common.awt.GRectangle frameBounds -> a
    java.lang.String embeddedDef -> a
    java.lang.String toolbarString -> b
    int embeddedSize -> b
    java.lang.String plane -> c
    int getViewId() -> b
    void setViewId(int) -> a
    java.lang.String getToolbarString() -> b
    boolean isVisible() -> b
    boolean isOpenInFrame() -> c
    boolean showStyleBar() -> d
    geogebra.common.awt.GRectangle getFrameBounds() -> a
    java.lang.String getEmbeddedDef() -> c
    int getEmbeddedSize() -> c
    java.lang.String getPlane() -> d
    int getViewIdForXML() -> a
    java.lang.StringBuilder getStartXml() -> a
    java.lang.String getXml() -> a
    boolean storeXml() -> a
    java.lang.Object clone() -> clone
    void setVisible(boolean) -> a
    void setLocation(java.lang.String) -> a
geogebra.common.io.layout.DockSplitPaneData -> geogebra.common.j.a.b:
    java.lang.String location -> a
    double dividerLocation -> a
    int orientation -> a
    java.lang.String getLocation() -> a
    double getDividerLocation() -> a
    int getOrientation() -> a
    java.lang.String getXml() -> b
geogebra.common.io.layout.Perspective -> geogebra.common.j.a.c:
    java.lang.String id -> a
    geogebra.common.io.layout.DockSplitPaneData[] splitPaneData -> a
    geogebra.common.io.layout.DockPanelData[] dockPanelData -> a
    java.lang.String toolbarDefinition -> b
    boolean showToolBar -> a
    boolean showGrid -> b
    boolean showAxes -> c
    boolean unitAxesRatio -> d
    boolean showInputPanel -> e
    boolean showInputPanelCommands -> f
    geogebra.common.main.App$InputPositon showInputPanelOnTop -> a
    int toolBarPosition -> a
    boolean showToolBarHelp -> g
    boolean showDockBar -> h
    boolean isDockBarEast -> i
    java.lang.String iconString -> c
    java.lang.String getId() -> a
    void setSplitPaneData(geogebra.common.io.layout.DockSplitPaneData[]) -> a
    geogebra.common.io.layout.DockSplitPaneData[] getSplitPaneData() -> a
    geogebra.common.io.layout.DockPanelData[] getDockPanelData() -> a
    void setDockPanelData(geogebra.common.io.layout.DockPanelData[]) -> a
    void setShowToolBar(boolean) -> a
    boolean getShowToolBar() -> a
    void setToolbarDefinition(java.lang.String) -> a
    java.lang.String getToolbarDefinition() -> b
    void setShowGrid(boolean) -> b
    boolean getShowGrid() -> b
    void setShowAxes(boolean) -> c
    boolean getShowAxes() -> c
    void setShowInputPanel(boolean) -> d
    boolean getShowInputPanel() -> d
    void setShowInputPanelCommands(boolean) -> e
    boolean getShowInputPanelCommands() -> e
    void setInputPosition(geogebra.common.main.App$InputPositon) -> a
    boolean getShowInputPanelOnTop() -> f
    geogebra.common.main.App$InputPositon getInputPosition() -> a
    int getToolBarPosition() -> a
    void setToolBarPosition(int) -> a
    boolean getShowToolBarHelp() -> g
    void setShowToolBarHelp(boolean) -> f
    boolean getShowDockBar() -> h
    void setShowDockBar(boolean) -> g
    boolean isDockBarEast() -> i
    void setDockBarEast(boolean) -> h
    java.lang.String getXml() -> c
    void setUnitAxesRatio(boolean) -> i
    boolean isUnitAxesRatio() -> j
    java.lang.String getIconString() -> d
    void setIconString(java.lang.String) -> b
geogebra.common.io.layout.PerspectiveDecoder -> geogebra.common.j.a.d:
    java.util.Map viewCodes -> a
    geogebra.common.io.layout.Perspective decode(java.lang.String,geogebra.common.kernel.parser.Parser,java.lang.String) -> a
    void buildPerspective(geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,java.util.ArrayList,java.util.ArrayList,double,double) -> a
    double size(geogebra.common.kernel.arithmetic.ExpressionValue,boolean) -> a
geogebra.common.io.layout.ShowDockPanelListener -> geogebra.common.j.a.e:
    void showDockPanel(geogebra.common.gui.layout.DockPanel) -> a
geogebra.common.javax.swing.AbstractJComboBox -> geogebra.common.k.a.a:
    void setVisible(boolean) -> a
    java.lang.Object getItemAt(int) -> a
    void setFont(geogebra.common.awt.GFont) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setBackground(geogebra.common.awt.GColor) -> b
    void setFocusable(boolean) -> b
    void setEditable(boolean) -> c
    void addItem(java.lang.String) -> a
    void setSelectedIndex(int) -> a
    int getSelectedIndex() -> a
    void addActionListener(geogebra.common.euclidian.event.ActionListener) -> a
    void removeAllItems() -> a
    int getItemCount() -> b
geogebra.common.javax.swing.GBox -> geogebra.common.k.a.b:
    void add(geogebra.common.javax.swing.GLabel) -> a
    void add(geogebra.common.gui.inputfield.AutoCompleteTextField) -> a
    void setVisible(boolean) -> a
    void setBounds(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GDimension getPreferredSize() -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void validate() -> a
    void revalidate() -> b
    void add(geogebra.common.javax.swing.AbstractJComboBox) -> a
geogebra.common.javax.swing.GImageIcon -> geogebra.common.k.a.c:
geogebra.common.javax.swing.GLabel -> geogebra.common.k.a.d:
    void setVisible(boolean) -> a
    void setText(java.lang.String) -> a
    void setOpaque(boolean) -> b
    void setFont(geogebra.common.awt.GFont) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setBackground(geogebra.common.awt.GColor) -> b
geogebra.common.javax.swing.GPanel -> geogebra.common.k.a.e:
    void setVisible(boolean) -> a
geogebra.common.javax.swing.GPopupMenu -> geogebra.common.k.a.f:
geogebra.common.javax.swing.GSplitPane -> geogebra.common.k.a.g:
    int HORIZONTAL_SPLIT -> a
geogebra.common.javax.swing.GTextComponent -> geogebra.common.k.a.h:
    void replaceSelection(java.lang.String) -> a
geogebra.common.javax.swing.RelationPane -> geogebra.common.k.a.i:
    void showDialog(java.lang.String,geogebra.common.javax.swing.RelationPane$RelationRow[],geogebra.common.main.App) -> a
    void updateRow(int,geogebra.common.javax.swing.RelationPane$RelationRow) -> a
geogebra.common.javax.swing.RelationPane$RelationRow -> geogebra.common.k.a.i$a:
    java.lang.String info -> a
    geogebra.common.gui.util.RelationMore callback -> a
geogebra.common.javax.swing.table.GAbstractTableModel -> geogebra.common.k.a.a.a:
geogebra.common.kernel.AlgoCasCellInterface -> geogebra.common.l.a:
    geogebra.common.kernel.geos.GeoCasCell getCasCell() -> a
geogebra.common.kernel.AnimationManager -> geogebra.common.l.b:
    geogebra.common.kernel.Kernel kernel -> a
    java.util.ArrayList animatedGeos -> a
    java.util.ArrayList changedGeos -> b
    double frameRate -> a
    boolean needToShowAnimationButton -> a
    java.util.TreeSet tempSet -> a
    boolean needToShowAnimationButton() -> a
    void updateNeedToShowAnimationButton() -> a
    void addAnimatedGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void removeAnimatedGeo(geogebra.common.kernel.geos.GeoElement) -> b
    void startAnimation() -> b
    void stopAnimation() -> c
    boolean isPaused() -> b
    void clearAnimatedGeos() -> d
    void adaptFrameRate(long) -> a
    java.util.TreeSet getTempSet() -> a
    void sliderStep() -> e
    boolean isRunning() -> c
    void setTimerDelay(int) -> a
    void stopTimer() -> f
    void startTimer() -> g
geogebra.common.kernel.CASException -> geogebra.common.l.c:
    java.lang.String key -> a
    java.lang.String getKey() -> a
    void setKey(java.lang.String) -> a
geogebra.common.kernel.CASGenericInterface -> geogebra.common.l.d:
    java.lang.String evaluateGeoGebraCAS(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    java.lang.String evaluateRaw(java.lang.String) -> d
    void appendListStart(java.lang.StringBuilder) -> a
    void appendListEnd(java.lang.StringBuilder) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue evaluateToExpression(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.Kernel) -> a
    java.lang.String evaluateCAS(java.lang.String) -> b
    java.lang.String createLocusEquationScript(java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String createEliminateFactorizedScript(java.lang.String,java.lang.String) -> a
    java.lang.String createGroebnerSolvableScript(java.util.HashMap,java.lang.String,java.lang.String,java.lang.String,boolean) -> a
    double[][] getBivarPolyCoefficients(java.lang.String,geogebra.common.cas.GeoGebraCAS) -> a
    void clearResult() -> b
geogebra.common.kernel.CASParserInterface -> geogebra.common.l.e:
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraCASInputAndResolveDummyVars(java.lang.String,geogebra.common.kernel.Kernel) -> a
geogebra.common.kernel.CircularDefinitionException -> geogebra.common.l.f:
geogebra.common.kernel.ClientView -> geogebra.common.l.g:
    void renameUpdatesComplete() -> a
    void addingPolygon() -> b
    void addPolygonComplete(geogebra.common.kernel.geos.GeoElement) -> g
    void movingGeos() -> d
    void movedGeos(java.util.ArrayList) -> a
    void deleteGeos(java.util.ArrayList) -> b
    void pasteElms() -> e
    void pasteElmsComplete(java.util.ArrayList) -> c
geogebra.common.kernel.Construction -> geogebra.common.l.h:
    java.util.Map constsM -> a
    java.util.Map intsM -> b
    java.util.Map complexNumbersM -> c
    java.util.TreeSet usedGeos -> a
    java.util.ArrayList usedMacros -> a
    geogebra.common.kernel.UndoManager undoManager -> a
    geogebra.common.kernel.ConstructionDefaults consDefaults -> a
    java.lang.String title -> a
    java.lang.String author -> b
    java.lang.String date -> c
    java.lang.String[] worksheetText -> a
    boolean showOnlyBreakpoints -> a
    geogebra.common.kernel.Kernel kernel -> a
    int step -> a
    boolean supressLabelCreation -> b
    java.util.HashMap geoSetsTypeMap -> d
    java.util.ArrayList ceList -> b
    java.util.ArrayList algoList -> c
    java.util.HashMap geoTable -> a
    java.util.ArrayList euclidianViewCE -> d
    java.util.ArrayList corner5Algos -> e
    java.util.HashMap localVariableTable -> b
    java.util.TreeSet geoSetConsOrder -> b
    java.util.TreeSet geoSetLabelOrder -> c
    java.util.TreeSet geoSetWithCasCells -> d
    java.util.TreeSet randomElements -> e
    java.util.HashMap geoCasCellTable -> c
    boolean collectRedefineCalls -> c
    java.util.HashMap redefineMap -> e
    geogebra.common.kernel.geos.GeoElement keepGeo -> a
    java.util.ArrayList latexGeos -> f
    geogebra.common.kernel.geos.GeoAxis xAxis -> a
    geogebra.common.kernel.geos.GeoAxis yAxis -> b
    java.lang.String xAxisLocalName -> d
    java.lang.String yAxisLocalName -> e
    geogebra.common.kernel.geos.GeoPoint origin -> a
    boolean undoEnabled -> d
    boolean isGettingXMLForReplace -> e
    boolean isRemovingGeoToReplaceIt -> f
    geogebra.common.io.MyXMLio xmlio -> a
    geogebra.common.kernel.geos.GeoElement outputGeo -> b
    java.util.TreeSet registredFV -> f
    boolean fileLoading -> g
    boolean updateConstructionRunning -> h
    java.util.TreeSet casDummies -> g
    geogebra.common.kernel.algos.AlgorithmSet algoSetCurrentlyUpdated -> a
    boolean spreadsheetTraces -> i
    boolean allowUnboundedAngles -> j
    java.util.ArrayList casAlgos -> g
    void newConstructionDefaults() -> b
    geogebra.common.kernel.geos.GeoElement getKeepGeo() -> a
    geogebra.common.kernel.geos.GeoPoint getOrigin() -> a
    geogebra.common.kernel.geos.GeoAxis getXAxis() -> a
    geogebra.common.kernel.geos.GeoAxis getYAxis() -> b
    void initAxis() -> a
    geogebra.common.kernel.Construction$Constants isConstantElement(geogebra.common.kernel.geos.GeoElement) -> a
    void updateLocalAxesNames() -> d
    geogebra.common.kernel.ConstructionDefaults getConstructionDefaults() -> a
    java.lang.String getAuthor() -> a
    java.lang.String getDate() -> b
    java.lang.String getTitle() -> c
    void setAuthor(java.lang.String) -> a
    void setDate(java.lang.String) -> b
    void setTitle(java.lang.String) -> c
    java.lang.String getWorksheetText(int) -> a
    void setWorksheetText(java.lang.String,int) -> a
    boolean worksheetTextDefined() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    void setSuppressLabelCreation(boolean) -> a
    boolean isSuppressLabelsActive() -> b
    geogebra.common.main.App getApplication() -> a
    boolean isEmpty() -> c
    int steps() -> a
    geogebra.common.kernel.geos.GeoElement getLastGeoElement() -> b
    geogebra.common.kernel.geos.GeoCasCell getCasCell(int) -> a
    geogebra.common.kernel.geos.GeoCasCell getLastCasCell() -> a
    void setCasCellRow(geogebra.common.kernel.geos.GeoCasCell,int) -> a
    void addLocalVariable(java.lang.String,geogebra.common.kernel.geos.GeoElement) -> a
    void removeLocalVariable(java.lang.String) -> d
    geogebra.common.kernel.geos.GeoElement geoTableVarLookup(java.lang.String) -> a
    void setShowOnlyBreakpoints(boolean) -> b
    boolean showOnlyBreakpoints() -> d
    void updateConstructionIndex(int) -> a
    boolean updateAllConstructionProtocolAlgorithms() -> e
    void addToConstructionList(geogebra.common.kernel.algos.ConstructionElement,int) -> a
    void updateCasCellRows() -> e
    boolean moveInConstructionList(int,int) -> a
    void addToConstructionList(geogebra.common.kernel.algos.ConstructionElement,boolean) -> a
    void removeFromConstructionList(geogebra.common.kernel.algos.ConstructionElement) -> a
    void addToAlgorithmList(geogebra.common.kernel.algos.AlgoElement) -> a
    void removeFromAlgorithmList(geogebra.common.kernel.algos.AlgoElement) -> b
    boolean moveInConstructionList(geogebra.common.kernel.geos.GeoElement,int) -> a
    void updateAllAlgorithms() -> f
    void registerEuclidianViewCE(geogebra.common.kernel.EuclidianViewCE) -> a
    void unregisterEuclidianViewCE(geogebra.common.kernel.EuclidianViewCE) -> b
    boolean notifyEuclidianViewCE(boolean) -> a
    boolean hasEuclidianViewCE() -> f
    void updateAllFreeRandomGeosNoCascade() -> g
    void addRandomGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void removeRandomGeo(geogebra.common.kernel.geos.GeoElement) -> b
    void updateConstruction() -> h
    void updateCasCells() -> i
    void getConstructionXML(java.lang.StringBuilder,boolean) -> a
    void getConstructionElementsXML(java.lang.StringBuilder,boolean) -> b
    void getConstructionElementsXML_OGP(java.lang.StringBuilder,geogebra.common.kernel.geos.GeoElement) -> a
    void getConstructionRegressionOut(java.lang.StringBuilder) -> a
    boolean isUndoEnabled() -> g
    void setUndoEnabled(boolean) -> c
    geogebra.common.kernel.algos.ConstructionElement getConstructionElement(int) -> a
    geogebra.common.kernel.geos.GeoElement getFirstGeo() -> c
    java.util.TreeSet getGeoSetConstructionOrder() -> a
    java.util.TreeSet getGeoSetWithCasCellsConstructionOrder() -> b
    java.util.TreeSet getGeoSetLabelOrder() -> c
    void startCollectingRedefineCalls() -> j
    void stopCollectingRedefineCalls() -> k
    void replace(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    boolean isGettingXMLForReplace() -> h
    boolean isRemovingGeoToReplaceIt() -> i
    void processCollectedRedefineCalls() -> l
    void changeCasCell(geogebra.common.kernel.geos.GeoCasCell) -> a
    java.lang.StringBuilder doReplaceInXML(java.lang.StringBuilder,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    void setStep(int) -> b
    int getStep() -> b
    void putLabel(geogebra.common.kernel.geos.GeoElement) -> c
    void removeLabel(geogebra.common.kernel.geos.GeoElement) -> d
    void addToGeoSets(geogebra.common.kernel.geos.GeoElement) -> f
    java.util.TreeSet getGeoSetLabelOrder(geogebra.common.plugin.GeoClass) -> a
    java.util.TreeSet createTypeSet(geogebra.common.plugin.GeoClass) -> b
    void removeFromGeoSets(geogebra.common.kernel.geos.GeoElement) -> g
    void putCasCellLabel(geogebra.common.kernel.geos.GeoCasCell,java.lang.String) -> a
    void removeCasCellLabel(java.lang.String) -> e
    geogebra.common.kernel.geos.GeoElement lookupLabel(java.lang.String) -> b
    geogebra.common.kernel.geos.GeoCasCell lookupCasCellLabel(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoCasCell lookupCasRowReference(java.lang.String) -> b
    geogebra.common.kernel.geos.GeoElement lookupLabel(java.lang.String,boolean) -> a
    geogebra.common.kernel.geos.GeoElement checkConstructionStep(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isFreeLabel(java.lang.String) -> a
    boolean isFreeLabel(java.lang.String,boolean,boolean) -> a
    void updateConstructionOrder(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> c
    boolean updateConstructionOrder(geogebra.common.kernel.geos.GeoCasCell) -> a
    void prepareReplace(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    void addToGeoSetWithCasCells(geogebra.common.kernel.geos.GeoCasCell) -> b
    void removeFromGeoSetWithCasCells(geogebra.common.kernel.geos.GeoCasCell) -> c
    geogebra.common.kernel.geos.GeoElement createSpreadsheetGeoElement(geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    java.lang.String getIndexLabel(java.lang.String,int) -> a
    java.lang.String getIndexLabel(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement autoCreateGeoElement(java.lang.String) -> c
    void initGeoTables() -> c
    java.util.TreeSet getGeoSetNameDescriptionOrder() -> d
    geogebra.common.kernel.optimization.ExtremumFinder getExtremumFinder() -> a
    void storeUndoInfo() -> m
    void restoreCurrentUndoInfo() -> n
    void redo() -> o
    void undo() -> p
    boolean undoPossible() -> j
    boolean redoPossible() -> k
    void addUsedMacro(geogebra.common.kernel.Macro) -> a
    java.util.ArrayList getUsedMacros() -> a
    void clearConstruction() -> q
    java.lang.StringBuilder getCurrentUndoXML(boolean) -> a
    geogebra.common.io.MyXMLio getXMLio() -> a
    void initUndoInfo() -> r
    void buildConstruction(java.lang.StringBuilder) -> b
    geogebra.common.kernel.UndoManager getUndoManager() -> a
    void setOutputGeo(java.lang.String) -> f
    geogebra.common.kernel.geos.GeoElement getOutputGeo() -> d
    void registerFunctionVariable(java.lang.String) -> g
    boolean isRegistredFunctionVariable(java.lang.String) -> b
    java.lang.String getRegisteredFunctionVariable() -> d
    void setFileLoading(boolean) -> d
    boolean isFileLoading() -> l
    boolean isUpdateConstructionRunning() -> m
    java.util.TreeSet getCASdummies() -> e
    void setAlgoSetCurrentlyUpdated(geogebra.common.kernel.algos.AlgorithmSet) -> a
    geogebra.common.kernel.algos.AlgorithmSet getAlgoSetCurrentlyUpdated() -> a
    void setUpdateConstructionRunning(boolean) -> e
    java.util.Set getAllGeoLabels() -> a
    java.util.Set getAllLabels() -> b
    boolean hasSpreadsheetTracingGeos() -> n
    void addTracingGeo() -> s
    void setAllowUnboundedAngles(boolean) -> f
    boolean isAllowUnboundedAngles() -> o
    void addCASAlgo(geogebra.common.kernel.algos.AlgoElement) -> c
    void recomputeCASalgos() -> t
    void updateConstructionLaTeX() -> u
    void registerCorner5(geogebra.common.kernel.EuclidianViewCE) -> c
    java.lang.String[] getRegisteredFunctionVariables() -> a
    void addLaTeXGeo(geogebra.common.kernel.geos.GeoElement) -> e
geogebra.common.kernel.Construction$Constants -> geogebra.common.l.h$a:
    geogebra.common.kernel.Construction$Constants NOT -> a
    geogebra.common.kernel.Construction$Constants X_AXIS -> b
    geogebra.common.kernel.Construction$Constants Y_AXIS -> c
    geogebra.common.kernel.Construction$Constants Z_AXIS -> d
    geogebra.common.kernel.Construction$Constants XOY_PLANE -> e
    geogebra.common.kernel.Construction$Constants SPACE -> f
    geogebra.common.kernel.Construction$Constants[] ENUM$VALUES -> a
    geogebra.common.kernel.Construction$Constants[] values() -> values
    geogebra.common.kernel.Construction$Constants valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.Construction$LabelComparator -> geogebra.common.l.h$b:
    geogebra.common.kernel.Construction this$0 -> a
    int compare(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.ConstructionDefaults -> geogebra.common.l.i:
    geogebra.common.awt.GColor colPoint -> f
    geogebra.common.awt.GColor colDepPoint -> g
    geogebra.common.awt.GColor colPathPoint -> h
    geogebra.common.awt.GColor colRegionPoint -> i
    geogebra.common.awt.GColor colComplexPoint -> j
    geogebra.common.awt.GColor colLine -> a
    geogebra.common.awt.GColor colInequality -> b
    geogebra.common.awt.GColor colConic -> k
    geogebra.common.awt.GColor colPolygon -> l
    geogebra.common.awt.GColor colAngle -> c
    geogebra.common.awt.GColor colLocus -> d
    geogebra.common.awt.GColor colFunction -> e
    geogebra.common.awt.GColor colList -> p
    geogebra.common.awt.GColor colQuadric -> m
    geogebra.common.awt.GColor colPreview -> n
    geogebra.common.awt.GColor colPreviewFill -> o
    geogebra.common.kernel.Construction cons -> a
    java.util.HashMap defaultGeoElements -> a
    int lineThickness -> a
    int pointSize -> b
    int angleSize -> c
    float filling -> a
    boolean blackWhiteMode -> a
    java.lang.String strFree -> a
    java.lang.String strDependent -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void createDefaultGeoElementsFromScratch() -> b
    void createDefaultGeoElements() -> a
    java.lang.String getCDXML() -> a
    void getXML(geogebra.common.kernel.geos.GeoElement,java.lang.StringBuilder) -> a
    geogebra.common.kernel.geos.GeoElement getDefaultGeo(int) -> a
    void addDefaultGeo(java.lang.Integer,geogebra.common.kernel.geos.GeoElement) -> a
    int getDefaultType(geogebra.common.kernel.geos.GeoElement) -> a
    int getDefaultType(geogebra.common.kernel.geos.GeoElement,geogebra.common.plugin.GeoClass) -> a
    void setMaxLayerUsed(geogebra.common.kernel.geos.GeoElement,geogebra.common.main.App) -> a
    void setDefaultVisualStyles(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setDefaultVisualStyles(geogebra.common.kernel.geos.GeoElement,boolean,boolean) -> a
    void setBlackWhiteMode(boolean) -> a
    void resetDefaults() -> c
    int getDefaultLineThickness() -> a
    int getDefaultPointSize() -> b
    int getDefaultAngleSize() -> c
    void setDefaultAngleSize(int) -> a
    void setDefaultPointSize(int) -> b
    void setDefaultLineThickness(int) -> c
    void setDefaultFilling(float) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> b
geogebra.common.kernel.ConstructionElementCycle -> geogebra.common.l.j:
    long minID -> a
    int minIndex -> a
    int direction -> b
    int cycleIndex -> c
    geogebra.common.kernel.ConstructionElementCycle SegmentDescription(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    boolean add(geogebra.common.kernel.algos.ConstructionElement) -> a
    void setDirection() -> a
    int compareTo(geogebra.common.kernel.ConstructionElementCycle) -> a
    boolean equals(java.lang.Object) -> equals
    void setCycleFirst() -> b
    geogebra.common.kernel.algos.ConstructionElement getCycleNext() -> a
    java.lang.String toString() -> toString
    boolean add(java.lang.Object) -> add
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.DistanceFunction -> geogebra.common.l.k:
    double evaluate(double) -> a
    void setDistantPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.EquationSolver -> geogebra.common.l.l:
    org.apache.commons.math.analysis.solvers.LaguerreSolver laguerreSolver -> a
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver rootFinderBrent -> a
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver rootFinderNewton -> b
    java.util.Comparator comparatorReal -> a
    int polynomialRoots(double[],boolean) -> a
    int polynomialComplexRoots(double[],double[]) -> a
    int solveQuadratic(double[]) -> a
    int solveQuadratic(double[],double[],double) -> a
    int solveQuadraticComplex(double[],double[]) -> b
    int solveCubic(double[],double[],double) -> b
    void fixRoots(double[],double[]) -> a
    double solveEqn(double[],int,double) -> a
    double findZero(double,double,double[]) -> a
    int getTag(double,double,double) -> a
    int laguerreAll(double[]) -> b
    int laguerreAllComplex(double[],double[]) -> c
    int solveQuartic(double[],double[],double) -> c
    java.util.Comparator getComparatorReal() -> a
geogebra.common.kernel.EquationSolver$1 -> geogebra.common.l.m:
    int compare(org.apache.commons.math.complex.Complex,org.apache.commons.math.complex.Complex) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.EquationSolverInterface -> geogebra.common.l.n:
    int solveCubic(double[],double[],double) -> b
    int solveQuadratic(double[],double[],double) -> a
    int solveQuartic(double[],double[],double) -> c
    int polynomialRoots(double[],boolean) -> a
    int polynomialComplexRoots(double[],double[]) -> a
geogebra.common.kernel.EuclidianViewCE -> geogebra.common.l.o:
    boolean euclidianViewUpdate() -> f
geogebra.common.kernel.GeoGebraCasInterface -> geogebra.common.l.p:
    java.lang.String evaluateRaw(java.lang.String) -> a
    geogebra.common.kernel.CASGenericInterface getCurrentCAS() -> a
    geogebra.common.kernel.CASParserInterface getCASparser() -> a
    boolean isStructurallyEqual(geogebra.common.kernel.arithmetic.ValidExpression,java.lang.String,geogebra.common.kernel.Kernel) -> a
    boolean isCommandAvailable(geogebra.common.kernel.arithmetic.Command) -> a
    java.lang.String[] getPolynomialCoeffs(java.lang.String,java.lang.String) -> a
    java.lang.String evaluateGeoGebraCAS(java.lang.String,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    java.lang.String evaluateGeoGebraCAS(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    java.lang.String getCASCommand(java.lang.String,java.util.ArrayList,boolean,geogebra.common.kernel.StringTemplate) -> a
    java.util.Set getAvailableCommandNames() -> a
    void clearCache() -> c
geogebra.common.kernel.GraphAlgo -> geogebra.common.l.q:
geogebra.common.kernel.Kernel -> geogebra.common.l.r:
    int MAX_SPREADSHEET_COLUMNS_DESKTOP -> a
    int MAX_SPREADSHEET_ROWS_DESKTOP -> b
    int MAX_SPREADSHEET_COLUMNS_VISIBLE -> c
    int MAX_SPREADSHEET_ROWS_VISIBLE -> d
    java.lang.String STRING_PLUS_MINUS -> a
    java.lang.String STRING_MINUS_PLUS -> b
    int algebraStyle -> f
    geogebra.common.kernel.MacroManager macroManager -> a
    boolean insertLineBreaks -> a
    int angleUnit -> g
    boolean viewReiniting -> d
    boolean undoActive -> e
    java.util.ArrayList views -> a
    boolean addingPolygon -> b
    geogebra.common.kernel.geos.GeoElement newPolygon -> a
    java.util.ArrayList deleteList -> b
    java.util.ArrayList userAwarenessListeners -> c
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.kernel.commands.AlgebraProcessor algProcessor -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator expressionNodeEvaluator -> a
    boolean continuous -> f
    geogebra.common.kernel.PathRegionHandling usePathAndRegionParameters -> a
    geogebra.common.kernel.GeoGebraCasInterface ggbCAS -> a
    double SQRT_2_HALF -> a
    int GEOGEBRA_CAS_CACHE_SIZE -> e
    geogebra.common.util.NumberFormatAdapter nf -> a
    geogebra.common.util.ScientificFormatAdapter sf -> a
    boolean useSignificantFigures -> c
    int coordStyle -> h
    boolean useInternalCommandNames -> g
    boolean notifyConstructionProtocolViewAboutAddRemoveActive -> h
    boolean allowVisibilitySideEffects -> i
    boolean saveScriptsToXML -> j
    boolean elementDefaultAllowed -> k
    boolean silentMode -> l
    boolean wantAnimationStarted -> m
    boolean resolveUnkownVarsAsDummyGeos -> n
    boolean updateEVAgain -> o
    boolean forceUpdatingBoundingBox -> p
    java.lang.StringBuilder sbBuildExplicitLineEquation -> a
    geogebra.common.main.App app -> a
    geogebra.common.kernel.EquationSolver eqnSolver -> a
    geogebra.common.kernel.SystemOfEquationsSolver sysEqSolv -> a
    geogebra.common.kernel.optimization.ExtremumFinder extrFinder -> a
    geogebra.common.kernel.parser.Parser parser -> a
    geogebra.common.kernel.Manager3DInterface manager3D -> a
    java.lang.Object concurrentModificationLock -> a
    geogebra.common.kernel.AnimationManager animationManager -> a
    boolean showAnimationButton -> q
    boolean loadingMode -> r
    java.lang.StringBuilder sbFormat -> b
    java.lang.StringBuilder formatSB -> c
    java.lang.StringBuilder sbBuildImplicitEquation -> d
    java.lang.StringBuilder sbBuildLHS -> e
    java.lang.StringBuilder sbBuildExplicitConicEquation -> f
    java.lang.StringBuilder sbFormatSF -> g
    java.lang.String libraryJavaScript -> c
    boolean isSaving -> s
    java.lang.StringBuilder sbFormatAngle -> h
    boolean arcusFunctionCreatesAngle -> t
    geogebra.common.util.MaxSizeHashMap ggbCasCache -> a
    double[] xmin -> a
    double[] xmax -> b
    double[] ymin -> c
    double[] ymax -> d
    double[] xscale -> e
    double[] yscale -> f
    boolean graphicsView2showing -> u
    boolean notifyRepaint -> v
    boolean notifyViewsActive -> w
    java.util.ArrayList renameListenerAlgos -> d
    boolean spreadsheetBatchRunning -> x
    boolean isGettingUndo -> y
    java.util.ArrayList selectedGeosNames -> e
    geogebra.common.kernel.geos.GeoVec2D imaginaryUnit -> a
    geogebra.common.kernel.geos.GeoElementSpreadsheet ges -> a
    geogebra.common.kernel.algos.AlgoDispatcher algoDispatcher -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> b
    geogebra.common.kernel.commands.AlgebraProcessor getAlgebraProcessor() -> a
    geogebra.common.kernel.commands.AlgebraProcessor newAlgebraProcessor(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.Manager3DInterface newManager3D(geogebra.common.kernel.Kernel) -> a
    java.lang.Object getConcurrentModificationLock() -> a
    void setManager3D(geogebra.common.kernel.Manager3DInterface) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND getDefaultPlane() -> a
    geogebra.common.kernel.Manager3DInterface getManager3D() -> a
    void newConstruction() -> a
    geogebra.common.io.MyXMLHandler newMyXMLHandler(geogebra.common.kernel.Construction) -> a
    geogebra.common.io.MyXMLHandler newMyXMLHandler(geogebra.common.kernel.Kernel,geogebra.common.kernel.Construction) -> a
    geogebra.common.main.App getApplication() -> a
    geogebra.common.kernel.EquationSolver getEquationSolver() -> a
    geogebra.common.kernel.SystemOfEquationsSolver getSystemOfEquationsSolver(geogebra.common.kernel.EquationSolverInterface) -> a
    geogebra.common.kernel.optimization.ExtremumFinder getExtremumFinder() -> a
    geogebra.common.kernel.parser.Parser getParser() -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator newExpressionNodeEvaluator(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator getExpressionNodeEvaluator() -> a
    java.util.Comparator DoubleComparator(double) -> a
    boolean isAnimationRunning() -> b
    boolean isAnimationPaused() -> c
    boolean needToShowAnimationButton() -> d
    void udpateNeedToShowAnimationButton() -> b
    boolean handleCoords(geogebra.common.kernel.geos.GeoElement,java.util.LinkedHashMap) -> a
    geogebra.common.kernel.Construction getConstruction() -> a
    geogebra.common.kernel.algos.ConstructionElement getConstructionElement(int) -> a
    geogebra.common.kernel.geos.GeoElement getFirstGeo() -> b
    void setConstructionStep(int) -> a
    int getConstructionStep() -> a
    int getLastConstructionStep() -> b
    void firstStep() -> c
    void lastStep() -> d
    void nextStep() -> e
    int getNextBreakpoint(int) -> a
    void previousStep() -> f
    int getPreviousBreakpoint(int) -> b
    boolean moveInConstructionList(int,int) -> a
    void setVisualStyles(geogebra.common.kernel.Kernel) -> a
    void setSaveScriptsToXML(boolean) -> a
    boolean getSaveScriptsToXML() -> e
    void setElementDefaultAllowed(boolean) -> b
    boolean getElementDefaultAllowed() -> f
    boolean isContinuous() -> g
    void setContinuous(boolean) -> c
    boolean usePathAndRegionParameters(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setUsePathAndRegionParameters(geogebra.common.kernel.PathRegionHandling) -> a
    void setLoadingMode(boolean) -> d
    void notifyOpeningFile(java.lang.String) -> a
    void notifyFileOpenComplete(boolean) -> e
    boolean getLoadingMode() -> h
    char sign(double) -> a
    void setNotifyConstructionProtocolViewAboutAddRemoveActive(boolean) -> f
    boolean isNotifyConstructionProtocolViewAboutAddRemoveActive() -> i
    java.lang.StringBuilder buildImplicitEquation(double[],java.lang.String[],boolean,boolean,boolean,char,geogebra.common.kernel.StringTemplate) -> a
    void formatSignedCoefficient(double,java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    void formatSigned(double,java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> b
    void formatSignedCoefficientPlusMinus(double,java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> c
    void formatSignedPlusMinus(double,java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> d
    java.lang.String formatPiERaw(double,geogebra.common.util.NumberFormatAdapter,geogebra.common.kernel.StringTemplate) -> b
    java.lang.String formatRaw(double,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String formatNF(double,geogebra.common.kernel.StringTemplate) -> c
    java.lang.String format(double,geogebra.common.kernel.StringTemplate) -> b
    java.lang.String internationalizeDigits(java.lang.String,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String formatPiE(double,geogebra.common.util.NumberFormatAdapter,geogebra.common.kernel.StringTemplate) -> a
    void copy(double[],double[]) -> a
    void negative(double[],double[]) -> b
    void divide(double[],double,double[]) -> a
    long gcd(long,long) -> a
    double gcd(double[]) -> a
    double roundToScale(double,double) -> a
    java.lang.StringBuilder buildLHS(double[],java.lang.String[],boolean,boolean,boolean,geogebra.common.kernel.StringTemplate) -> a
    char oppositeSign(char) -> a
    double[] buildImplicitVarPart(java.lang.StringBuilder,double[],java.lang.String[],boolean,boolean,boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isZeroFigure(double,geogebra.common.kernel.StringTemplate) -> a
    java.lang.StringBuilder buildExplicitConicEquation(double[],java.lang.String[],int,boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String formatSF(double,geogebra.common.kernel.StringTemplate) -> d
    void appendTwoCoeffs(boolean,double,double,java.lang.String,java.lang.String,geogebra.common.kernel.StringTemplate,java.lang.StringBuilder) -> a
    void appendTwoCoeffs(double,double,geogebra.common.kernel.StringTemplate,java.lang.StringBuilder) -> a
    java.lang.String formatCoeff(double,geogebra.common.kernel.StringTemplate) -> e
    java.lang.StringBuilder buildExplicitLineEquation(double[],java.lang.String[],char,geogebra.common.kernel.StringTemplate) -> a
    boolean isZero(double) -> a
    boolean isZero(double,double) -> a
    boolean isInteger(double) -> b
    boolean isEqual(double,double) -> b
    boolean isEqual(double,double,double) -> a
    boolean isGreater(double,double) -> c
    int compare(double,double) -> a
    boolean isGreater(double,double,double) -> b
    boolean isGreaterEqual(double,double) -> d
    double convertToAngleValue(double) -> a
    double checkDecimalFraction(double,double) -> b
    double checkDecimalFraction(double) -> b
    double checkInteger(double) -> c
    java.lang.StringBuilder formatAngle(double,geogebra.common.kernel.StringTemplate,boolean) -> a
    java.lang.StringBuilder formatAngle(double,double,geogebra.common.kernel.StringTemplate,boolean) -> a
    void resetLibraryJavaScript() -> g
    void setLibraryJavaScript(java.lang.String) -> b
    java.lang.String getLibraryJavaScript() -> a
    java.util.TreeSet getPointSet() -> a
    boolean isSaving() -> j
    void setSaving(boolean) -> g
    void setInverseTrigReturnsAngle(boolean) -> h
    boolean getInverseTrigReturnsAngle() -> k
    void setAngleUnit(int) -> b
    int getAngleUnit() -> c
    boolean isZvarAllowed() -> a
    java.lang.String removeCASVariablePrefix(java.lang.String) -> a
    java.lang.String removeCASVariablePrefix(java.lang.String,java.lang.String) -> a
    void setPrintFigures(int) -> c
    void setPrintDecimals(int) -> d
    int getPrintDecimals() -> d
    int getPrintFigures() -> e
    boolean isUsingInternalCommandNames() -> l
    void setUseInternalCommandNames(boolean) -> i
    boolean isAllowVisibilitySideEffects() -> m
    void setAllowVisibilitySideEffects(boolean) -> j
    boolean isMacroKernel() -> n
    boolean isSilentMode() -> o
    boolean isGeoGebraCASready() -> p
    void setSilentMode(boolean) -> k
    void setResolveUnkownVarsAsDummyGeos(boolean) -> l
    boolean isResolveUnkownVarsAsDummyGeos() -> q
    java.lang.String evaluateGeoGebraCAS(java.lang.String,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    java.lang.String evaluateGeoGebraCAS(java.lang.String,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String evaluateCachedGeoGebraCAS(java.lang.String,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> b
    java.lang.String evaluateGeoGebraCAS(java.lang.String,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String evaluateRawGeoGebraCAS(java.lang.String) -> b
    void setAlgebraStyle(int) -> e
    int getAlgebraStyle() -> f
    geogebra.common.util.MaxSizeHashMap getCasCache() -> a
    boolean hasCasCache() -> r
    void setEuclidianViewBounds(int,double,double,double,double,double,double) -> a
    double[] prolong(double[],int) -> a
    double getViewsXMin(geogebra.common.kernel.geos.GeoElement) -> a
    double getViewsXMax(geogebra.common.kernel.geos.GeoElement) -> b
    double getViewsYMin(geogebra.common.kernel.geos.GeoElement) -> c
    double getViewsYMax(geogebra.common.kernel.geos.GeoElement) -> d
    void notifyEuclidianViewCE() -> h
    void clearConstruction(boolean) -> m
    double getXmax() -> a
    double getXmin() -> b
    double getXscale() -> c
    double getYmax() -> d
    double getYmin() -> e
    double getYscale() -> f
    double getXmax(boolean,boolean) -> a
    double getXmax(int) -> d
    double getXmin(int) -> e
    double getYmax(int) -> f
    double getYmin(int) -> g
    double getYscale(int) -> h
    double getXscale(int) -> i
    double getZmax(int) -> a
    double getZmin(int) -> b
    double getZscale(int) -> c
    double getXmin(boolean,boolean) -> b
    double getXscale(boolean,boolean) -> c
    double getYmax(boolean,boolean) -> d
    double getYmin(boolean,boolean) -> e
    double getYscale(boolean,boolean) -> f
    geogebra.common.kernel.GeoGebraCasInterface getGeoGebraCAS() -> a
    int getCoordStyle() -> g
    void setCoordStyle(int) -> f
    geogebra.common.kernel.geos.GeoElement lookupLabel(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoCasCell lookupCasCellLabel(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoCasCell lookupCasRowReference(java.lang.String) -> b
    geogebra.common.kernel.geos.GeoElement lookupLabel(java.lang.String,boolean) -> a
    java.lang.String getModeText(int) -> a
    java.lang.String[] getPolynomialCoeffs(java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement getGeoAt(int,int) -> a
    geogebra.common.kernel.AnimationManager getAnimatonManager() -> a
    double[] getViewBoundsForGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void addViews(java.lang.Integer,double[]) -> a
    geogebra.common.kernel.geos.GeoAxis getXAxis() -> a
    geogebra.common.kernel.geos.GeoAxis getYAxis() -> b
    boolean isAxis(geogebra.common.kernel.geos.GeoElement) -> a
    void updateLocalAxesNames() -> i
    void setNotifyRepaintActive(boolean) -> n
    void notifyRepaint() -> j
    void notifyReset() -> k
    void notifyClearView() -> l
    void clearJustCreatedGeosInViews() -> m
    void setNotifyViewsActive(boolean) -> o
    void attach(geogebra.common.kernel.View) -> a
    void printAttachedViews() -> J
    void detach(geogebra.common.kernel.View) -> b
    void notifyModeChanged(int,geogebra.common.kernel.ModeSetter) -> a
    void notifyAddAll(geogebra.common.kernel.View) -> c
    void registerRenameListenerAlgo(geogebra.common.kernel.algos.AlgoElement) -> a
    void notifyRenameListenerAlgos() -> K
    boolean isSpreadsheetBatchRunning() -> s
    void setSpreadsheetBatchRunning(boolean) -> p
    boolean renameLabelInScripts(java.lang.String,java.lang.String) -> a
    void notifyAddAll(geogebra.common.kernel.View,int) -> a
    void notifyAdd(geogebra.common.kernel.geos.GeoElement) -> a
    void addingPolygon() -> n
    void notifyPolygonAdded() -> o
    void notifyRemoveGroup() -> p
    void notifyRemove(geogebra.common.kernel.geos.GeoElement) -> b
    void movingGeoSet() -> q
    void movedGeoSet(java.util.ArrayList) -> a
    void notifyUpdate(geogebra.common.kernel.geos.GeoElement) -> c
    void notifyUpdateLocation(geogebra.common.kernel.geos.GeoElement) -> d
    void notifyUpdateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> e
    void notifyUpdateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> f
    void notifyRename(geogebra.common.kernel.geos.GeoElement) -> g
    void notifyRenameUpdatesComplete() -> r
    void notifyPerspectiveChanged(java.lang.String) -> c
    void notifyPaste() -> s
    void notifyPasteComplete() -> t
    boolean isNotifyViewsActive() -> t
    boolean isViewReiniting() -> u
    void addUserAwarenessListener(geogebra.common.kernel.UserAwarenessListener) -> a
    void removeUserAwarenessListener(geogebra.common.kernel.UserAwarenessListener) -> b
    void updateConstruction() -> u
    void updateConstruction(int) -> g
    boolean isEmpty() -> v
    boolean isGettingUndo() -> w
    void setIsGettingUndo(boolean) -> q
    void setUndoActive(boolean) -> r
    boolean isUndoActive() -> x
    void storeUndoInfo() -> v
    void initUndoInfo() -> w
    void storeSelectedGeosNames() -> x
    void recallSelectedGeosNames() -> y
    void redo() -> z
    void undo() -> A
    boolean undoPossible() -> y
    boolean redoPossible() -> z
    geogebra.common.kernel.arithmetic.ExpressionNode handleTrigPower(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.MyDouble convertIndexToNumber(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoVec2D getImaginaryUnit() -> a
    geogebra.common.kernel.geos.GeoElement[] useMacro(java.lang.String[],geogebra.common.kernel.Macro,geogebra.common.kernel.geos.GeoElement[]) -> a
    geogebra.common.main.Localization getLocalization() -> a
    boolean kernelHas3DObjects() -> I
    void getKernelXML(java.lang.StringBuilder,boolean) -> b
    void addMacro(geogebra.common.kernel.Macro) -> a
    void removeMacro(geogebra.common.kernel.Macro) -> b
    void removeAllMacros() -> B
    boolean setMacroCommandName(geogebra.common.kernel.Macro,java.lang.String) -> a
    geogebra.common.kernel.Macro getMacro(java.lang.String) -> a
    java.lang.String getMacroXML(java.util.ArrayList) -> a
    boolean hasMacros() -> A
    int getMacroNumber() -> h
    java.util.ArrayList getAllMacros() -> a
    geogebra.common.kernel.Macro getMacro(int) -> a
    int getMacroID(geogebra.common.kernel.Macro) -> a
    geogebra.common.kernel.geos.GeoElement createGeoElement(geogebra.common.kernel.Construction,java.lang.String) -> a
    void setWantAnimationStarted() -> C
    boolean wantAnimationStarted() -> B
    geogebra.common.kernel.arithmetic.ExpressionNode convertNumberValueToExpressionNode(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] VectorPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> c
    geogebra.common.kernel.geos.GeoElement[] RigidPolygon(geogebra.common.kernel.geos.GeoPolygon,double,double) -> a
    geogebra.common.kernel.kernelND.GeoPointND RigidPolygonPointOnCircle(geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] RigidPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> d
    void RigidPolygonAddEndOfCommand(java.lang.StringBuilder,boolean) -> a
    geogebra.common.kernel.geos.GeoLine Tangent(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.geos.GeoElementSpreadsheet getGeoElementSpreadsheet() -> a
    geogebra.common.kernel.MacroKernel newMacroKernel() -> a
    void notifyChangeLayer(geogebra.common.kernel.geos.GeoElement,int,int) -> a
    double getXmaxForFunctions() -> g
    double getXminForFunctions() -> h
    void clearCasCache() -> D
    void refreshCASCommands() -> E
    geogebra.common.kernel.geos.GeoElement[] PolygonND(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLineND(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> b
    geogebra.common.kernel.kernelND.GeoRayND RayND(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND SegmentND(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.algos.AlgoDispatcher getAlgoDispatcher() -> a
    geogebra.common.kernel.algos.AlgoDispatcher newAlgoDispatcher(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.kernelND.GeoRayND Ray(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND Segment(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] Polygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> e
    geogebra.common.kernel.geos.GeoElement[] PolyLine(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
    geogebra.common.kernel.kernelND.GeoCoordSys2D getXOYPlane() -> a
    geogebra.common.kernel.kernelND.GeoDirectionND getSpace() -> a
    void setUpdateAgain(boolean,geogebra.common.kernel.geos.GeoElement) -> a
    boolean getUpdateAgain() -> C
    boolean getForceUpdatingBoundingBox() -> D
    boolean useCASforDerivatives() -> E
    boolean useCASforIntegrals() -> F
    void notifyBatchUpdate() -> F
    void notifyEndBatchUpdate() -> G
    void setViewsLabels() -> H
    void setViewsOrientation() -> I
    boolean noNeedToSpecifyXOYPlane() -> G
    geogebra.common.kernel.geos.GeoElement copy3D(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement copyInternal3D(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    void setStringMode(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isParsingFor3D() -> H
    geogebra.common.kernel.geos.GeoElement wrapInVector(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoAxisND getXAxis3D() -> a
    geogebra.common.kernel.kernelND.GeoAxisND getYAxis3D() -> b
    geogebra.common.kernel.kernelND.GeoAxisND getZAxis3D() -> c
    geogebra.common.kernel.geos.GeoElement getClippingCube() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> c
geogebra.common.kernel.Kernel$1 -> geogebra.common.l.s:
    double val$eps -> a
    int compare(java.lang.Double,java.lang.Double) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.Kernel$2 -> geogebra.common.l.t:
    geogebra.common.kernel.Kernel this$0 -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.KernelCAS -> geogebra.common.l.u:
    geogebra.common.kernel.geos.GeoCasCell DependentCasCell(geogebra.common.kernel.geos.GeoCasCell) -> a
    geogebra.common.kernel.geos.GeoLine Tangent(geogebra.common.kernel.Construction,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.geos.GeoLine Tangent(geogebra.common.kernel.Construction,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoCurveCartesian) -> a
geogebra.common.kernel.LayerView -> geogebra.common.l.v:
    void changeLayer(geogebra.common.kernel.geos.GeoElement,int,int) -> a
geogebra.common.kernel.Locateable -> geogebra.common.l.w:
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> e_
    void removeStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> d_
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> b
    geogebra.common.kernel.kernelND.GeoPointND[] getStartPoints() -> a
    void initStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    boolean hasAbsoluteLocation() -> K_
    boolean isAlwaysFixed() -> P
    void setWaitForStartPoint() -> d
    void updateLocation() -> g
geogebra.common.kernel.LocateableList -> geogebra.common.l.x:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    void registerLocateable(geogebra.common.kernel.Locateable) -> a
    void unregisterLocateable(geogebra.common.kernel.Locateable) -> b
    void doRemove() -> a
geogebra.common.kernel.LocusEquation -> geogebra.common.l.y:
    geogebra.common.kernel.algos.EquationElementInterface eqnPolygon(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.EquationElementInterface eqnAngularBisectorLines(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> b
    geogebra.common.kernel.algos.EquationElementInterface eqnAngularBisectorPoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> c
    geogebra.common.kernel.algos.EquationElementInterface eqnCirclePointRadius(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> d
    geogebra.common.kernel.algos.EquationElementInterface eqnCircleThreePoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> e
    geogebra.common.kernel.algos.EquationElementInterface eqnCircleTwoPoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> f
    geogebra.common.kernel.algos.EquationElementInterface eqnConicFivePoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> g
    geogebra.common.kernel.algos.EquationElementInterface eqnCircleArc(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> h
    geogebra.common.kernel.algos.EquationElementInterface eqnCircumcircleArc(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> i
    geogebra.common.kernel.algos.EquationElementInterface eqnDiameterLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> j
    geogebra.common.kernel.algos.EquationElementInterface eqnEllipseFociLength(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> k
    geogebra.common.kernel.algos.EquationElementInterface eqnEllipseFociPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> l
    geogebra.common.kernel.algos.EquationElementInterface eqnHyperbolaFociLength(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> m
    geogebra.common.kernel.algos.EquationElementInterface eqnHyperbolaFociPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> n
    geogebra.common.kernel.algos.EquationElementInterface eqnIntersectConics(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> o
    geogebra.common.kernel.algos.EquationElementInterface eqnIntersectLineConic(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> p
    geogebra.common.kernel.algos.EquationElementInterface eqnIntersectLines(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> q
    geogebra.common.kernel.algos.EquationElementInterface eqnIntersectSingle(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> r
    geogebra.common.kernel.algos.EquationElementInterface eqnJoinPoints(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> s
    geogebra.common.kernel.algos.EquationElementInterface eqnJoinPointsRay(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> t
    geogebra.common.kernel.algos.EquationElementInterface eqnLineBisector(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> u
    geogebra.common.kernel.algos.EquationElementInterface eqnLineBisectorSegment(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> v
    geogebra.common.kernel.algos.EquationElementInterface eqnLinePointLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> w
    geogebra.common.kernel.algos.EquationElementInterface eqnMidpoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> x
    geogebra.common.kernel.algos.EquationElementInterface eqnMirror(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> y
    geogebra.common.kernel.algos.EquationElementInterface eqnMidpointSegment(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> z
    geogebra.common.kernel.algos.EquationElementInterface eqnJoinPointsSegment(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> A
    geogebra.common.kernel.algos.EquationElementInterface eqnOrthoLinePointLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> B
    geogebra.common.kernel.algos.EquationElementInterface eqnParabolaPointLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> C
    geogebra.common.kernel.algos.EquationElementInterface eqnPointOnPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> D
    geogebra.common.kernel.algos.EquationElementInterface eqnPolarLine(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> E
    geogebra.common.kernel.algos.EquationElementInterface eqnSemicircle(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> F
    geogebra.common.kernel.algos.EquationElementInterface eqnPolygonRegular(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> G
    geogebra.common.kernel.algos.EquationElementInterface eqnTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> H
    geogebra.common.kernel.commands.CommandProcessor newCmdEnvelope(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.commands.CommandProcessor newCmdLocusEquation(geogebra.common.kernel.Kernel) -> b
    geogebra.common.kernel.algos.EquationElementInterface eqnLine(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.algos.EquationScopeInterface) -> a
geogebra.common.kernel.Macro -> geogebra.common.l.z:
    geogebra.common.kernel.Kernel kernel -> a
    java.lang.String cmdName -> a
    java.lang.String toolName -> b
    java.lang.String toolHelp -> c
    java.lang.String iconFileName -> d
    boolean showInToolBar -> a
    geogebra.common.kernel.Construction macroCons -> a
    java.lang.StringBuilder macroConsXML -> a
    geogebra.common.kernel.geos.GeoElement[] macroInput -> a
    geogebra.common.kernel.geos.GeoElement[] macroOutput -> b
    java.lang.String[] macroInputLabels -> a
    java.lang.String[] macroOutputLabels -> b
    geogebra.common.kernel.geos.Test[] inputTypes -> a
    java.util.LinkedList usingAlgos -> a
    boolean copyCaptions -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    geogebra.common.kernel.geos.GeoElement[] getMacroInput() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    geogebra.common.kernel.geos.GeoElement[] getMacroOutput() -> b
    boolean isInMacroConstruction(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.Construction getMacroConstruction() -> a
    void initMacro(geogebra.common.kernel.Construction,java.lang.String[],java.lang.String[]) -> a
    void initInputOutput() -> b
    void initMacro(geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoElement[]) -> a
    void addDependentElement(geogebra.common.kernel.geos.GeoElement,java.util.Set,java.util.Set) -> a
    void addSpecialInputElement(geogebra.common.kernel.geos.GeoElement,java.util.Set) -> a
    java.lang.StringBuilder buildMacroXML(geogebra.common.kernel.Kernel,java.util.Set) -> a
    geogebra.common.kernel.Construction createMacroConstruction(java.lang.String) -> a
    void registerAlgorithm(geogebra.common.kernel.algos.AlgoMacroInterface) -> a
    void unregisterAlgorithm(geogebra.common.kernel.algos.AlgoMacroInterface) -> b
    boolean isUsed() -> a
    void setUnused() -> a
    geogebra.common.kernel.geos.Test[] getInputTypes() -> a
    java.lang.String getToolHelp() -> a
    java.lang.String getNeededTypesString() -> b
    void setToolHelp(java.lang.String) -> a
    java.lang.String getCommandName() -> c
    void setCommandName(java.lang.String) -> b
    java.lang.String getToolName() -> d
    java.lang.String getToolOrCommandName() -> e
    void setToolName(java.lang.String) -> c
    void setIconFileName(java.lang.String) -> d
    java.lang.String getIconFileName() -> f
    java.lang.String toString() -> toString
    void getXML(java.lang.StringBuilder) -> a
    boolean isShowInToolBar() -> b
    void setShowInToolBar(boolean) -> a
    java.util.ArrayList getUsedMacros() -> a
    java.util.ArrayList getDependentGeos() -> b
    void setCopyCaptionsAndVisibility(boolean) -> b
    boolean isCopyCaptionsAndVisibility() -> c
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.kernel.MacroConstruction -> geogebra.common.l.A:
    geogebra.common.kernel.Construction parentCons -> a
    java.util.HashSet reservedLabels -> a
    boolean globalVariableLookup -> a
    void loadXML(java.lang.String) -> h
    void addReservedLabel(java.lang.String) -> i
    geogebra.common.kernel.geos.GeoElement lookupLabel(java.lang.String,boolean) -> a
    boolean isReservedLabel(java.lang.String) -> c
    void setGlobalVariableLookup(boolean) -> g
geogebra.common.kernel.MacroKernel -> geogebra.common.l.B:
    geogebra.common.kernel.Kernel parentKernel -> a
    geogebra.common.kernel.MacroConstruction macroCons -> a
    boolean isMacroKernel() -> n
    geogebra.common.kernel.Kernel getParentKernel() -> a
    void addReservedLabel(java.lang.String) -> d
    void setGlobalVariableLookup(boolean) -> s
    void loadXML(java.lang.String) -> e
    double getXmax() -> a
    double getXmin() -> b
    double getXscale() -> c
    double getYmax() -> d
    double getYmin() -> e
    double getYscale() -> f
    void addMacro(geogebra.common.kernel.Macro) -> a
    geogebra.common.kernel.Macro getMacro(java.lang.String) -> a
    geogebra.common.io.MyXMLHandler newMyXMLHandler(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.AlgebraProcessor newAlgebraProcessor(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator newExpressionNodeEvaluator(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.geos.GeoElement createGeoElement(geogebra.common.kernel.Construction,java.lang.String) -> a
    boolean handleCoords(geogebra.common.kernel.geos.GeoElement,java.util.LinkedHashMap) -> a
    geogebra.common.kernel.GeoGebraCasInterface getGeoGebraCAS() -> a
    boolean isGeoGebraCASready() -> p
    geogebra.common.util.MaxSizeHashMap getCasCache() -> a
    boolean hasCasCache() -> r
    geogebra.common.kernel.geos.GeoElement copy3D(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement copyInternal3D(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.AlgoDispatcher newAlgoDispatcher(geogebra.common.kernel.Construction) -> a
geogebra.common.kernel.MacroManager -> geogebra.common.l.C:
    java.util.HashMap macroMap -> a
    java.util.ArrayList macroList -> a
    void addMacro(geogebra.common.kernel.Macro) -> a
    geogebra.common.kernel.Macro getMacro(java.lang.String) -> a
    void removeMacro(geogebra.common.kernel.Macro) -> b
    void removeAllMacros() -> a
    void setMacroCommandName(geogebra.common.kernel.Macro,java.lang.String) -> a
    geogebra.common.kernel.Macro getMacro(int) -> a
    int getMacroID(geogebra.common.kernel.Macro) -> a
    void setAllMacrosUnused() -> b
    int getMacroNumber() -> a
    java.util.ArrayList getAllMacros() -> a
    void notifyEuclidianViewCE() -> c
    java.lang.String getMacroXML(java.util.ArrayList) -> a
geogebra.common.kernel.Manager3DInterface -> geogebra.common.l.D:
    geogebra.common.kernel.geos.GeoElement Point3D(java.lang.String,double,double,double,boolean) -> a
    geogebra.common.kernel.geos.GeoElement DependentPoint3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> b
    geogebra.common.kernel.geos.GeoElement DependentVector3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoElement Vector3D(java.lang.String,double,double,double) -> a
    geogebra.common.kernel.geos.GeoElement Vector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> d
    geogebra.common.kernel.kernelND.GeoPointND Point3DIn(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.Matrix.Coords,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3DIn(java.lang.String,geogebra.common.kernel.Region,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3D(java.lang.String,geogebra.common.kernel.Path,double,double,double,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3D(java.lang.String,geogebra.common.kernel.Path,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point3D(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND Midpoint(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Midpoint(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.kernelND.GeoPointND Center(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND CenterQuadric(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND Segment3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> c
    geogebra.common.kernel.kernelND.GeoLineND Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoLineND Line3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.kernelND.GeoRayND Ray3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoLineND OrthogonalLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoVectorND OrthogonalVector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoVectorND OrthogonalVector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoVectorND UnitOrthogonalVector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> b
    geogebra.common.kernel.geos.GeoElement[] Polygon3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.geos.GeoElement[] RegularPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLine3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> b
    geogebra.common.kernel.geos.GeoElement[] PolyLine3D(java.lang.String[],geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement[] Prism(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> c
    geogebra.common.kernel.geos.GeoElement[] Prism(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] Prism(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] Pyramid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> d
    geogebra.common.kernel.geos.GeoElement[] Pyramid(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement[] Pyramid(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,double,double,double,double) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND DependentPlane3D(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND DependentQuadric3D(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND OrthogonalPlane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.kernel.kernelND.GeoPlaneND OrthogonalPlane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND PlaneBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND PlaneBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement Sphere(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement Sphere(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cone(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] ConeLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] ConeLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoQuadricND Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND Cylinder(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] CylinderLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.geos.GeoElement[] CylinderLimited(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoQuadricND QuadricSide(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND QuadricBottom(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.kernel.kernelND.GeoConicND QuadricTop(java.lang.String,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(java.lang.String,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.kernelND.GeoPlaneND Plane3D(geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.geos.GeoElement Intersect(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectionPoint(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.geos.GeoSurfaceFinite) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectPath(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.geos.GeoSurfaceFinite) -> b
    geogebra.common.kernel.geos.GeoElement[] IntersectPath(java.lang.String[],geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement[] IntersectPath(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectRegion(java.lang.String[],geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement,int[]) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectRegion(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectionPoint(java.lang.String[],geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.kernelND.GeoConicND Intersect(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.kernel.kernelND.GeoConicND IntersectQuadricLimited(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND IntersectQuadricLimited(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Intersect(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoQuadricND) -> b
    geogebra.common.kernel.geos.GeoElement[] IntersectAsCircle(java.lang.String[],geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectAsCircle(geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar Function2Var(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar Function2Var(java.lang.String,geogebra.common.kernel.geos.GeoFunctionNVar,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement CurveCartesian3D(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement SurfaceCartesian3D(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectLineConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectConics(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,double,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectConicsSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectLineQuadric(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,double,double,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLineQuadricSingle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoQuadricND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectPlaneConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoCoordSys2D,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement IntersectPlanes(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoElement IntersectPlanes(geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoElement ClosestPoint(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> b
    geogebra.common.kernel.geos.GeoElement ClosestPoint(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND ClosestPoint(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPlaneND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoPlaneND) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Angles3D(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoElement[] Angle(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoDirectionND,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] Angles3D(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoNumeric Length(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] ArchimedeanSolid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoElement[] ArchimedeanSolid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoElement[] ArchimedeanSolid(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.commands.Commands) -> a
    geogebra.common.kernel.geos.GeoElement[] Translate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.kernelND.Geo3DVec newGeo3DVec(double,double,double) -> a
    geogebra.common.kernel.geos.GeoElement[] Rotate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Rotate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoCoordSys2D) -> a
    geogebra.common.kernel.geos.GeoElement[] Dilate3D(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumeric Volume(java.lang.String,geogebra.common.kernel.kernelND.HasVolume) -> a
    geogebra.common.kernel.geos.GeoNumeric OrientedHeight(java.lang.String,geogebra.common.kernel.kernelND.HasHeight) -> a
    geogebra.common.kernel.geos.GeoElement[] Corner(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyhedronNet(java.lang.String[],geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircumcircleArc3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.kernelND.GeoConicPartND CircumcircleSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] AngularBisector3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement AngularBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.geos.GeoElement AngularBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircleArcSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND CircleArcSector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,int) -> a
    geogebra.common.kernel.kernelND.GeoLineND Line3D(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionValue[]) -> a
    geogebra.common.kernel.kernelND.GeoConicPartND Semicircle3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement[] Tangent3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] Tangent3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] CommonTangents3D(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement DiameterLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement DiameterLine3D(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement LineBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoElement LineBisector3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Conic3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND EllipseHyperbola3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND EllipseHyperbola3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND Parabola3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement Locus3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement Tangent3D(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCurveCartesianND) -> a
geogebra.common.kernel.Matrix.CoordMatrix -> geogebra.common.l.a.a:
    geogebra.common.kernel.Matrix.Coords[] vectors -> a
    int rows -> a
    int columns -> b
    geogebra.common.kernel.Matrix.CoordMatrix inverse -> a
    geogebra.common.kernel.Matrix.CoordMatrix$PivotSolRes pivotSolRes -> a
    geogebra.common.kernel.Matrix.CoordMatrix$PivotInverseMatrix pivotInverseMatrix -> a
    double[][] pivotMatrix -> a
    void initialise(int,int) -> a
    geogebra.common.kernel.Matrix.CoordMatrix Identity(int) -> a
    geogebra.common.kernel.Matrix.CoordMatrix DiagonalMatrix(double[]) -> a
    geogebra.common.kernel.Matrix.CoordMatrix Rotation3DMatrix(int,double) -> a
    void Rotation3x3(double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    void Rotation3x3(geogebra.common.kernel.Matrix.Coords,double,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    void get(double[]) -> a
    double get(int,int) -> a
    geogebra.common.kernel.Matrix.Coords getColumn(int) -> a
    void set(geogebra.common.kernel.Matrix.Coords,int) -> a
    void set(geogebra.common.kernel.Matrix.Coords[]) -> a
    void set(int,int,double) -> a
    void set(double) -> a
    void set(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    int getRows() -> a
    int getColumns() -> b
    geogebra.common.kernel.Matrix.CoordMatrix transposeCopy() -> a
    void transposeCopy(geogebra.common.kernel.Matrix.CoordMatrix) -> b
    java.lang.String toString() -> toString
    void mulInside(double) -> b
    geogebra.common.kernel.Matrix.Coords mul(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.CoordMatrix mul(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    void mul(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.CoordMatrix setMul(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.CoordMatrix setMulT1(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.CoordMatrix) -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mul3x3(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.CoordMatrix inverse() -> b
    geogebra.common.kernel.Matrix.Coords solve(geogebra.common.kernel.Matrix.Coords) -> b
    void solve(double[],geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[]) -> a
    void updatePivotMatrix() -> a
    void pivot(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void pivot(double[][],geogebra.common.kernel.Matrix.CoordMatrix$PivotInterface) -> a
    void pivot(double[][],geogebra.common.kernel.Matrix.CoordMatrix$PivotInterface,int,java.util.ArrayList) -> a
    geogebra.common.kernel.Matrix.Coords getOrigin() -> a
    geogebra.common.kernel.Matrix.Coords getVx() -> b
    geogebra.common.kernel.Matrix.Coords getVy() -> c
    geogebra.common.kernel.Matrix.Coords getVz() -> d
    void setOrigin(geogebra.common.kernel.Matrix.Coords) -> a
    void addToOrigin(geogebra.common.kernel.Matrix.Coords) -> b
    void subToOrigin(geogebra.common.kernel.Matrix.Coords) -> c
    void addToVx(geogebra.common.kernel.Matrix.Coords) -> d
    void addToVy(geogebra.common.kernel.Matrix.Coords) -> e
    void addToVz(geogebra.common.kernel.Matrix.Coords) -> f
    void addToColumn(geogebra.common.kernel.Matrix.Coords,int) -> b
    void subToColumn(geogebra.common.kernel.Matrix.Coords,int) -> c
    void setVx(geogebra.common.kernel.Matrix.Coords) -> g
    void setVy(geogebra.common.kernel.Matrix.Coords) -> h
    void setVz(geogebra.common.kernel.Matrix.Coords) -> i
    void getForGL(float[]) -> a
geogebra.common.kernel.Matrix.CoordMatrix$PivotInterface -> geogebra.common.l.a.a$a:
    void divideFirst(int,double) -> a
    void divideRes(int,double) -> b
    void subRes(int,int,double) -> a
    void calcSol(int,int,double[][],java.util.ArrayList) -> a
geogebra.common.kernel.Matrix.CoordMatrix$PivotInverseMatrix -> geogebra.common.l.a.a$b:
    int columns -> a
    double[] matrixRes -> a
    geogebra.common.kernel.Matrix.Coords[] inverse -> a
    void divideFirst(int,double) -> a
    void divideRes(int,double) -> b
    void subRes(int,int,double) -> a
    void calcSol(int,int,double[][],java.util.ArrayList) -> a
geogebra.common.kernel.Matrix.CoordMatrix$PivotSolRes -> geogebra.common.l.a.a$c:
    double[] sol -> a
    double[] res -> b
    void divideFirst(int,double) -> a
    void divideRes(int,double) -> b
    void subRes(int,int,double) -> a
    void calcSol(int,int,double[][],java.util.ArrayList) -> a
geogebra.common.kernel.Matrix.CoordMatrix4x4 -> geogebra.common.l.a.b:
    geogebra.common.kernel.Matrix.CoordMatrix4x4 IDENTITY -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 MIRROR_O -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 MIRROR_X -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 MIRROR_Y -> d
    geogebra.common.kernel.Matrix.CoordMatrix4x4 ROTATION_OZ_90 -> e
    geogebra.common.kernel.Matrix.CoordMatrix4x4 ROTATION_OZ_M90 -> f
    geogebra.common.kernel.Matrix.CoordMatrix4x4 Identity() -> a
    void Identity(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 RotationOz(double) -> a
    void Rotation4x4(double,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void Rotation4x4(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void Rotation4x4(geogebra.common.kernel.Matrix.Coords,double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 AxialSymetry(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 PlaneSymetry(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void completeOrtho(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void createOrthoToDirection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,int,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void createOrthoToDirection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,int,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void getOrthoVectors(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void getOrthoVectors(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mul(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void mulAllButOrigin(double) -> c
    void setDiag(double) -> d
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mirrorY() -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mirrorX() -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 mirrorO() -> d
    void mulInside3x3(double) -> e
geogebra.common.kernel.Matrix.CoordMatrixUtil -> geogebra.common.l.a.c:
    geogebra.common.kernel.Matrix.Coords[] nearestPointsFromTwoLines(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void nearestPointsFromTwoLines(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double[],double[],double[],double[]) -> a
    void sphericalCoords(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords lineEquationVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.Coords lineEquationVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords[] intersectPlanes(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.CoordMatrix) -> a
geogebra.common.kernel.Matrix.CoordNearest -> geogebra.common.l.a.d:
    geogebra.common.kernel.Matrix.Coords point -> a
    double currentDistance -> a
    geogebra.common.kernel.Matrix.Coords currentNearest -> b
    boolean check(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords get() -> a
geogebra.common.kernel.Matrix.CoordSys -> geogebra.common.l.a.e:
    geogebra.common.kernel.Matrix.CoordMatrix matrix -> a
    int dimension -> a
    int madeCoordSys -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 matrixOrthonormal -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 drawingMatrix -> b
    geogebra.common.kernel.Matrix.Coords equationVector -> a
    geogebra.common.kernel.Matrix.Coords origin -> b
    geogebra.common.kernel.Matrix.Coords[] vectors -> a
    int spaceDimension -> c
    geogebra.common.kernel.Matrix.Coords tmpCoords1 -> c
    geogebra.common.kernel.Matrix.Coords tmpCoords2 -> d
    geogebra.common.kernel.Matrix.Coords tmpCoords3 -> e
    geogebra.common.kernel.Matrix.CoordSys Identity3D -> a
    geogebra.common.kernel.Matrix.CoordMatrix tempMatrix3x3 -> b
    void set(geogebra.common.kernel.Matrix.CoordSys) -> a
    int getDimension() -> a
    void setOrigin(geogebra.common.kernel.Matrix.Coords) -> a
    void setVx(geogebra.common.kernel.Matrix.Coords) -> b
    void setVy(geogebra.common.kernel.Matrix.Coords) -> c
    void setVz(geogebra.common.kernel.Matrix.Coords) -> d
    void setV(geogebra.common.kernel.Matrix.Coords,int) -> a
    geogebra.common.kernel.Matrix.Coords getV(int) -> a
    geogebra.common.kernel.Matrix.Coords getOrigin() -> a
    geogebra.common.kernel.Matrix.Coords getVx() -> b
    geogebra.common.kernel.Matrix.Coords getVy() -> c
    geogebra.common.kernel.Matrix.Coords getVz() -> d
    geogebra.common.kernel.Matrix.Coords getPoint(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a
    geogebra.common.kernel.Matrix.Coords getPoint(double,double,double) -> a
    geogebra.common.kernel.Matrix.Coords getPointForDrawing(double,double) -> b
    geogebra.common.kernel.Matrix.Coords getPoint(double) -> a
    geogebra.common.kernel.Matrix.Coords getVector(geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords getVector(double,double) -> c
    geogebra.common.kernel.Matrix.Coords getNormal() -> e
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    void setMadeCoordSys(int) -> a
    void resetCoordSys() -> a
    int getMadeCoordSys() -> b
    void completeCoordSys2D() -> b
    boolean isMadeCoordSys() -> a
    void addPoint(geogebra.common.kernel.Matrix.Coords) -> e
    void addVector(geogebra.common.kernel.Matrix.Coords) -> f
    void addVectorWithoutCheckMadeCoordSys(geogebra.common.kernel.Matrix.Coords) -> g
    void makeEquationVector() -> c
    void checkEquationVectorHasJustOneNegativeCoeff() -> e
    void setEquationVector(double,double,double,double) -> a
    void setEquationVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void setEquationVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getEquationVector() -> f
    void makeCoordSys(double[]) -> a
    boolean makeOrthoMatrix(boolean,boolean) -> a
    boolean isDefined() -> b
    void setUndefined() -> d
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getMatrixOrthonormal() -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 getDrawingMatrix() -> b
    void translate(geogebra.common.kernel.Matrix.Coords) -> h
    void translateEquationVector(geogebra.common.kernel.Matrix.Coords) -> i
    double[] matrixTransform(geogebra.common.kernel.Matrix.CoordMatrix4x4) -> a
    void setDrawingMatrixFromMatrixOrthonormal(geogebra.common.kernel.Matrix.Coords) -> l
    void setDrawingMatrixFromMatrixOrthonormal() -> f
    void rotate(double,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void dilate(double,geogebra.common.kernel.Matrix.Coords) -> b
    void dilateEquationVector(double,geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.Matrix.Coords) -> j
    void mirrorEquationVector(geogebra.common.kernel.Matrix.Coords) -> k
    void mirror(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void mirror(geogebra.common.kernel.Matrix.CoordSys) -> b
    void updateContinuous(geogebra.common.kernel.Matrix.CoordSys) -> c
geogebra.common.kernel.Matrix.Coords -> geogebra.common.l.a.f:
    double norm -> a
    double sqNorm -> b
    boolean calcNorm -> a
    boolean calcSqNorm -> b
    geogebra.common.kernel.Matrix.Coords O -> a
    geogebra.common.kernel.Matrix.Coords VX -> b
    geogebra.common.kernel.Matrix.Coords VY -> c
    geogebra.common.kernel.Matrix.Coords VZ -> d
    geogebra.common.kernel.Matrix.Coords VZm -> e
    geogebra.common.kernel.Matrix.Coords UNDEFINED -> f
    geogebra.common.kernel.Matrix.Coords UNDEFINED3VALUE0 -> g
    double[] val -> a
    int rows -> a
    geogebra.common.kernel.Matrix.Coords createInhomCoorsInD3() -> a
    void set(int,double) -> a
    void set(double[]) -> a
    void setValues(geogebra.common.kernel.Matrix.Coords,int) -> a
    void set(geogebra.common.kernel.Matrix.Coords) -> a
    void set(double) -> a
    double get(int) -> a
    void copy(double[]) -> b
    double getX() -> a
    double getY() -> b
    double getZ() -> c
    double getW() -> d
    double getLast() -> e
    void setX(double) -> b
    void setY(double) -> c
    void setZ(double) -> d
    void setW(double) -> e
    int getLength() -> a
    geogebra.common.kernel.Matrix.Coords copyVector() -> b
    double dotproduct(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords crossProduct(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords crossProduct4(geogebra.common.kernel.Matrix.Coords) -> b
    void setCrossProduct(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    double norm() -> f
    double calcNorm() -> g
    double getNorm() -> h
    double squareNorm() -> i
    geogebra.common.kernel.Matrix.Coords normalized() -> c
    geogebra.common.kernel.Matrix.Coords normalized(boolean) -> a
    void normalized(geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords normalize() -> d
    geogebra.common.kernel.Matrix.Coords normalize(boolean) -> b
    double distance(geogebra.common.kernel.Matrix.Coords) -> b
    double squareDistance3(geogebra.common.kernel.Matrix.Coords) -> c
    geogebra.common.kernel.Matrix.Coords vectorToLine(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    double distLine(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    double squareDistLine3(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    double distPlaneOriented(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    void projectPlane(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void projectPlane(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void projectPlaneInPlaneCoords(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords) -> a
    void projectPlaneInPlaneCoords(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void projectPlane(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords) -> b
    void projectPlane(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords projectPlaneWithInverseMatrix(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    void projectPlaneNoCheck(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double[],double[]) -> a
    void projectPlaneNoCheckInPlaneCoords(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double[]) -> a
    void projectPlaneThruV(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void projectPlaneThruV(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void projectPlaneThruVInPlaneCoords(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    void projectPlaneThruVIfPossible(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void projectPlaneThruVIfPossible(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> d
    void projectPlaneThruVIfPossible(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    void projectPlaneThruVIfPossibleInPlaneCoords(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> e
    void projectPlaneThruVIfPossible(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void projectLine(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double[]) -> a
    void projectNearLine(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    double projectedParameterOnLineWithDirection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords sub(geogebra.common.kernel.Matrix.Coords) -> c
    void sub(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords setSub(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getInhomCoords() -> e
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInSameDimension() -> f
    void setInhomCoords() -> a
    geogebra.common.kernel.Matrix.Coords getCoordsLast1() -> g
    geogebra.common.kernel.Matrix.Coords projectInfDim() -> h
    boolean equalsForKernel(geogebra.common.kernel.Matrix.Coords,double) -> a
    boolean equalsForKernel(geogebra.common.kernel.Matrix.Coords) -> a
    boolean isEqual(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isZero() -> a
    boolean equalsForKernel(double,double) -> a
    geogebra.common.kernel.Matrix.Coords[] completeOrthonormal() -> a
    void completeOrthonormal(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    void completeOrthonormal(geogebra.common.kernel.Matrix.Coords) -> c
    void completeOrthonormalKeepInXOYPlaneIfPossible(geogebra.common.kernel.Matrix.Coords) -> d
    geogebra.common.kernel.Matrix.Coords add(geogebra.common.kernel.Matrix.Coords) -> d
    void add(double[],double[]) -> a
    geogebra.common.kernel.Matrix.Coords addSmaller(geogebra.common.kernel.Matrix.Coords) -> e
    void addInside(geogebra.common.kernel.Matrix.Coords) -> e
    void addInside(double) -> f
    geogebra.common.kernel.Matrix.Coords mul(double) -> a
    void mul(double,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords setMul(geogebra.common.kernel.Matrix.Coords,double) -> a
    void mul(double,double[]) -> a
    void add(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> d
    geogebra.common.kernel.Matrix.Coords setAdd(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    geogebra.common.kernel.Matrix.Coords getCoordsIn2DView() -> i
    double getGrayScale() -> j
    void convertToGrayScale() -> b
    boolean isDefined() -> b
    void setUndefined() -> c
    void setPositiveInfinity() -> d
    void setNegativeInfinity() -> e
    float[] get3ForGL() -> a
    float[] get4ForGL() -> b
    void checkReverseForFirstValuePositive() -> f
    double[] get() -> a
    void get(double[]) -> c
    geogebra.common.kernel.Matrix.Coords mulInside(double) -> b
    void mulInside3(double) -> g
    java.lang.String toString() -> toString
    geogebra.common.kernel.Matrix.Coords setMul(geogebra.common.kernel.Matrix.CoordMatrix,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords setMulPoint(geogebra.common.kernel.Matrix.CoordMatrix,double,double,double) -> a
geogebra.common.kernel.Matrix.Coords$1 -> geogebra.common.l.a.g:
geogebra.common.kernel.Matrix.Coords$2 -> geogebra.common.l.a.h:
geogebra.common.kernel.Matrix.Coords3 -> geogebra.common.l.a.i:
    geogebra.common.kernel.Matrix.Coords3 UNDEFINED -> a
    void set(float,float,float) -> a
    void set(double,double,double) -> a
    boolean isDefined() -> a
    boolean isNotFinalUndefined() -> b
    boolean isFinalUndefined() -> c
    geogebra.common.kernel.Matrix.Coords3 copyVector() -> a
    void addInside(geogebra.common.kernel.Matrix.Coords3) -> a
    void mulInside(double) -> a
    void normalizeIfPossible() -> a
    void setNormalizedIfPossible(geogebra.common.kernel.Matrix.Coords) -> a
    double getXd() -> a
    double getYd() -> b
    double getZd() -> c
    float getXf() -> a
    float getYf() -> b
    float getZf() -> c
geogebra.common.kernel.Matrix.Coords3$1 -> geogebra.common.l.a.j:
    boolean isNotFinalUndefined() -> b
    boolean isFinalUndefined() -> c
geogebra.common.kernel.Matrix.CoordsDouble3 -> geogebra.common.l.a.k:
    double x -> a
    double y -> b
    double z -> c
    boolean isDefined() -> a
    geogebra.common.kernel.Matrix.CoordsDouble3 copyVector() -> a
    void addInside(geogebra.common.kernel.Matrix.Coords3) -> a
    void mulInside(double) -> a
    void normalizeIfPossible() -> a
    void set(float,float,float) -> a
    void set(double,double,double) -> a
    double getXd() -> a
    double getYd() -> b
    double getZd() -> c
    float getXf() -> a
    float getYf() -> b
    float getZf() -> c
    geogebra.common.kernel.Matrix.Coords3 copyVector() -> a
geogebra.common.kernel.Matrix.CoordsFloat3 -> geogebra.common.l.a.l:
    float x -> a
    float y -> b
    float z -> c
    boolean isDefined() -> a
    geogebra.common.kernel.Matrix.CoordsFloat3 copyVector() -> a
    void addInside(geogebra.common.kernel.Matrix.Coords3) -> a
    void mulInside(float) -> a
    void mulInside(double) -> a
    void normalizeIfPossible() -> a
    void set(float,float,float) -> a
    void set(double,double,double) -> a
    double getXd() -> a
    double getYd() -> b
    double getZd() -> c
    float getXf() -> a
    float getYf() -> b
    float getZf() -> c
    geogebra.common.kernel.Matrix.Coords3 copyVector() -> a
geogebra.common.kernel.Matrix.Quaternion -> geogebra.common.l.a.m:
    double x -> a
    double y -> b
    double z -> c
    double w -> d
    void set(double[]) -> a
    void set(geogebra.common.kernel.Matrix.Quaternion) -> a
    geogebra.common.kernel.Matrix.Quaternion inverse() -> a
    geogebra.common.kernel.Matrix.Quaternion multiply(geogebra.common.kernel.Matrix.Quaternion) -> a
    geogebra.common.kernel.Matrix.Quaternion leftDivide(geogebra.common.kernel.Matrix.Quaternion) -> b
    java.lang.String toString() -> toString
    geogebra.common.kernel.Matrix.CoordMatrix getRotMatrix() -> a
    geogebra.common.kernel.Matrix.Coords getVector() -> a
    void setVector(geogebra.common.kernel.Matrix.Coords) -> a
    void setUndefined() -> a
geogebra.common.kernel.MatrixTransformable -> geogebra.common.l.E:
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
geogebra.common.kernel.ModeSetter -> geogebra.common.l.F:
    geogebra.common.kernel.ModeSetter DOCK_PANEL -> a
    geogebra.common.kernel.ModeSetter TOOLBAR -> b
    geogebra.common.kernel.ModeSetter CAS_VIEW -> c
    geogebra.common.kernel.ModeSetter[] ENUM$VALUES -> a
    geogebra.common.kernel.ModeSetter[] values() -> values
    geogebra.common.kernel.ModeSetter valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.MyPoint -> geogebra.common.l.G:
    double x -> b
    double y -> c
    boolean lineTo -> a
    boolean isEqual(double,double) -> a
    java.lang.String toString() -> toString
    double distance(geogebra.common.kernel.MyPoint) -> a
    boolean getLineTo() -> b
    double getX() -> a
    double getY() -> b
    double getZ() -> c
    double distance(double,double) -> a
    void setX(double) -> a
    void setY(double) -> b
    double distance(geogebra.common.awt.GPoint2D) -> a
    boolean isEqual(geogebra.common.kernel.MyPoint) -> a
    boolean isFinite() -> a
    boolean isFinite(double) -> a
    geogebra.common.kernel.MyPoint barycenter(double,geogebra.common.kernel.MyPoint) -> a
geogebra.common.kernel.NameDescriptionComparator -> geogebra.common.l.H:
    int compare(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.ParametricCurveDistanceFunction -> geogebra.common.l.I:
    double px -> a
    double py -> b
    geogebra.common.kernel.roots.RealRootFunction funX -> a
    geogebra.common.kernel.roots.RealRootFunction funY -> b
    double evaluate(double) -> a
    void setDistantPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.Path -> geogebra.common.l.J:
geogebra.common.kernel.PathAlgo -> geogebra.common.l.K:
    boolean isChangeable() -> a
geogebra.common.kernel.PathMover -> geogebra.common.l.L:
    void init(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    boolean getNext(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean hasNext() -> a
    void resetStartParameter() -> a
    boolean hasPositiveOrientation() -> b
    boolean smallerStep() -> c
    boolean biggerStep() -> d
    void stepBack() -> b
geogebra.common.kernel.PathMoverGeneric -> geogebra.common.l.M:
    int MIN_STEPS_INSTANCE -> a
    geogebra.common.kernel.Path path -> a
    double start_param -> a
    double start_paramUP -> b
    double start_paramDOWN -> c
    double curr_param -> d
    double last_param -> e
    double param_extent -> f
    double min_param -> g
    double max_param -> h
    double max_step_width -> i
    double step_width -> j
    double offset -> k
    int mode -> b
    boolean posOrientation -> a
    boolean maxBorderSet -> b
    boolean minBorderSet -> c
    boolean lastMaxBorderSet -> d
    boolean lastMinBorderSet -> e
    void init(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    void init(double) -> a
    void resetStartParameter() -> a
    boolean getNext(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void calcPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean hasNext() -> a
    boolean hasPositiveOrientation() -> b
    boolean smallerStep() -> c
    boolean biggerStep() -> d
    boolean changeStep(double) -> a
    void stepBack() -> b
geogebra.common.kernel.PathMoverLocus -> geogebra.common.l.N:
    java.util.ArrayList myPointList -> a
    boolean noLineToSet -> f
    boolean lastNoLineToSet -> g
    void init(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    void resetStartParameter() -> a
    void calcPoint(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean getNext(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void stepBack() -> b
    boolean noLineTo(double) -> a
    double borderParam(double) -> a
    boolean hasNext() -> a
geogebra.common.kernel.PathNormalizer -> geogebra.common.l.O:
    double toParentPathParameter(double,double,double) -> a
    double toNormalizedPathParameter(double,double,double) -> b
    double infFunction(double) -> a
    double inverseInfFunction(double) -> b
geogebra.common.kernel.PathOrPoint -> geogebra.common.l.P:
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean isClosedPath() -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
geogebra.common.kernel.PathParameter -> geogebra.common.l.Q:
    double t -> a
    int pathType -> a
    void set(geogebra.common.kernel.PathParameter) -> a
    int getPathType() -> a
    void setPathType(int) -> a
    double getT() -> a
    void setT(double) -> a
geogebra.common.kernel.PathRegionHandling -> geogebra.common.l.R:
    geogebra.common.kernel.PathRegionHandling OFF -> a
    geogebra.common.kernel.PathRegionHandling ON -> b
    geogebra.common.kernel.PathRegionHandling AUTO -> c
    java.lang.String xml -> a
    geogebra.common.kernel.PathRegionHandling[] ENUM$VALUES -> a
    java.lang.String getXML() -> a
    geogebra.common.kernel.PathRegionHandling parse(java.lang.String) -> a
    geogebra.common.kernel.PathRegionHandling[] values() -> values
    geogebra.common.kernel.PathRegionHandling valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.PointPair -> geogebra.common.l.S:
    int indexP -> a
    boolean isPalive -> a
    int indexQ -> b
    boolean isQonPath -> b
    double dist -> a
    geogebra.common.kernel.PointPair next -> a
geogebra.common.kernel.PointPairList -> geogebra.common.l.T:
    geogebra.common.kernel.PointPair head -> a
    int size -> a
    boolean isStrict -> a
    boolean isEmpty() -> a
    void clear() -> a
    void insertPointPair(int,boolean,int,boolean,double) -> a
    boolean smallerThan(geogebra.common.kernel.PointPair,geogebra.common.kernel.PointPair) -> a
    boolean smallerThan2(geogebra.common.kernel.PointPair,geogebra.common.kernel.PointPair) -> b
    void removeAllPairs(geogebra.common.kernel.PointPair) -> a
    geogebra.common.kernel.PointPair getHead() -> a
    int size() -> a
    int getClosestPWithindexQ(int) -> a
    int getClosestQWithindexP(int) -> b
geogebra.common.kernel.Region -> geogebra.common.l.U:
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    boolean isInRegion(double,double) -> a
geogebra.common.kernel.RegionParameters -> geogebra.common.l.V:
    double t1 -> a
    double t2 -> b
    geogebra.common.kernel.Matrix.Coords normal -> a
    boolean isOnPath -> a
    double getT1() -> a
    void setT1(double) -> a
    double getT2() -> b
    void setT2(double) -> b
    boolean isNaN(double) -> a
    void setNormal(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getNormal() -> a
    void setIsOnPath(boolean) -> a
    boolean isOnPath() -> a
geogebra.common.kernel.Relation -> geogebra.common.l.W:
    int[] $SWITCH_TABLE$geogebra$common$kernel$RelationNumerical$Report$RelationCommand -> a
    void showRelation(geogebra.common.main.App,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    java.lang.Boolean checkGenerally(geogebra.common.kernel.RelationNumerical$Report$RelationCommand,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    java.lang.String[] getNDGConditions(geogebra.common.kernel.RelationNumerical$Report$RelationCommand,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$RelationNumerical$Report$RelationCommand() -> a
geogebra.common.kernel.Relation$1 -> geogebra.common.l.X:
    geogebra.common.main.App val$app -> a
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand val$relAlgo -> a
    geogebra.common.kernel.geos.GeoElement val$ra -> a
    geogebra.common.kernel.geos.GeoElement val$rb -> b
    java.lang.String val$relInfo -> a
    void action(geogebra.common.javax.swing.RelationPane,int) -> a
geogebra.common.kernel.RelationNumerical -> geogebra.common.l.Y:
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.kernel.Construction cons -> a
    java.util.Set reports -> a
    java.util.SortedSet sortAlphabetically(java.util.Set) -> a
    void register(java.lang.Boolean,geogebra.common.kernel.RelationNumerical$Report$RelationCommand,java.lang.String) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    java.util.Set relation(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    java.util.Set relation(geogebra.common.kernel.kernelND.GeoSegmentND,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoVector,geogebra.common.kernel.geos.GeoVector) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPolygon) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.Path) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoConicPart,geogebra.common.kernel.geos.GeoConicPart) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic) -> a
    java.util.Set relation(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction) -> a
    java.lang.String equalityString(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> a
    java.lang.String equalityString(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean,geogebra.common.main.Localization) -> a
    java.lang.String linDependencyString(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> b
    java.lang.String incidenceString(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoElement,boolean) -> a
    java.lang.String incidencePerimeterString(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoElement,boolean) -> b
    java.lang.String parallelString(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine) -> a
    java.lang.String parallelString(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine,geogebra.common.main.Localization) -> a
    java.lang.String triangleNonDegenerateString(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.main.Localization) -> a
    java.lang.String perpendicularString(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine,boolean) -> a
    java.lang.String perpendicularString(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine,boolean,geogebra.common.main.Localization) -> a
    java.lang.String intersectString(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean) -> c
    java.lang.String intersectString(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,boolean,geogebra.common.main.Localization) -> b
    java.lang.String lineConicString(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic,int) -> a
geogebra.common.kernel.RelationNumerical$1 -> geogebra.common.l.Z:
    int compare(geogebra.common.kernel.RelationNumerical$Report,geogebra.common.kernel.RelationNumerical$Report) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.RelationNumerical$Report -> geogebra.common.l.Y$a:
    java.lang.Boolean boolResult -> a
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand symbolicCheck -> a
    java.lang.String stringResult -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
geogebra.common.kernel.RelationNumerical$Report$RelationCommand -> geogebra.common.l.Y$a$a:
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand AreEqual -> a
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand AreParallel -> b
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand ArePerpendicular -> c
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand IsOnPath -> d
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand[] ENUM$VALUES -> a
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand[] values() -> values
    geogebra.common.kernel.RelationNumerical$Report$RelationCommand valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.RestrictionAlgoForLocusEquation -> geogebra.common.l.aa:
geogebra.common.kernel.SetRandomValue -> geogebra.common.l.ab:
    void setRandomValue(double) -> a
geogebra.common.kernel.SliderMover -> geogebra.common.l.ac:
    geogebra.common.kernel.geos.GeoNumeric slider -> a
    void init(geogebra.common.kernel.geos.GeoNumeric) -> a
    void init(double) -> a
    boolean getNext(geogebra.common.kernel.geos.GeoNumeric) -> a
    void calcPoint(geogebra.common.kernel.geos.GeoNumeric) -> b
geogebra.common.kernel.StringTemplate -> geogebra.common.l.ad:
    java.lang.String name -> a
    boolean hideLHS -> a
    geogebra.common.kernel.StringTemplate noLocalDefault -> a
    geogebra.common.kernel.StringTemplate prefixedDefault -> b
    geogebra.common.kernel.StringTemplate defaultTemplate -> c
    geogebra.common.kernel.StringTemplate defaultTemplateLocal -> d
    geogebra.common.kernel.StringTemplate realTemplate -> e
    geogebra.common.kernel.StringTemplate latexTemplate -> f
    geogebra.common.kernel.StringTemplate latexTemplateMQ -> g
    geogebra.common.kernel.StringTemplate mathmlTemplate -> h
    geogebra.common.kernel.StringTemplate libreofficeTemplate -> i
    geogebra.common.kernel.StringTemplate giacTemplate -> j
    geogebra.common.kernel.StringTemplate xmlTemplate -> k
    geogebra.common.kernel.StringTemplate editTemplate -> l
    geogebra.common.kernel.StringTemplate regression -> m
    geogebra.common.kernel.StringTemplate ogpTemplate -> n
    geogebra.common.kernel.StringTemplate maxPrecision -> o
    geogebra.common.kernel.StringTemplate numericDefault -> p
    geogebra.common.kernel.StringTemplate numericNoLocal -> q
    geogebra.common.kernel.StringTemplate numericLatex -> r
    geogebra.common.kernel.StringTemplate testTemplate -> s
    geogebra.common.kernel.StringTemplate testTemplateJSON -> t
    geogebra.common.kernel.StringTemplate testNumeric -> u
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType stringType -> a
    boolean internationalizeDigits -> b
    java.lang.String casPrintFormPI -> b
    geogebra.common.util.ScientificFormatAdapter sf -> a
    geogebra.common.util.NumberFormatAdapter nf -> a
    boolean forceSF -> c
    boolean forceNF -> d
    boolean allowMoreDigits -> e
    boolean useRealLabels -> f
    boolean localizeCmds -> g
    boolean usePrefix -> h
    double[] precisions -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> b
    boolean isInsertLineBreaks() -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType getStringType() -> a
    boolean internationalizeDigits() -> b
    java.lang.String getPi() -> a
    geogebra.common.kernel.StringTemplate get(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType) -> a
    void setType(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType) -> a
    boolean useScientific(boolean) -> a
    boolean hasType(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType) -> a
    geogebra.common.kernel.StringTemplate printDecimals(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType,int,boolean) -> a
    geogebra.common.kernel.StringTemplate printFigures(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType,int,boolean) -> b
    geogebra.common.kernel.StringTemplate fullFigures(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType) -> b
    geogebra.common.kernel.StringTemplate printScientific(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType,int,boolean) -> c
    geogebra.common.util.ScientificFormatAdapter getSF(geogebra.common.util.ScientificFormatAdapter) -> a
    geogebra.common.util.NumberFormatAdapter getNF(geogebra.common.util.NumberFormatAdapter) -> a
    boolean isPrintLocalizedCommandNames() -> c
    int getCoordStyle(int) -> a
    boolean isUseTempVariablePrefix() -> d
    double getRoundHalfUpFactor(double,geogebra.common.util.NumberFormatAdapter,geogebra.common.util.ScientificFormatAdapter,boolean) -> a
    boolean allowMoreDigits() -> e
    double getPrecision(geogebra.common.util.NumberFormatAdapter) -> a
    boolean isUseRealLabels() -> f
    geogebra.common.kernel.StringTemplate deriveReal() -> a
    geogebra.common.kernel.StringTemplate copy() -> b
    java.lang.String toString() -> toString
    java.lang.String printVariableName(java.lang.String) -> a
    java.lang.String printVariableName(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType,java.lang.String) -> a
    java.lang.String addTempVariablePrefix(java.lang.String) -> d
    boolean hasCASType() -> g
    boolean isNDvector(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String plusString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean) -> a
    java.lang.String leftBracket() -> b
    java.lang.String rightBracket() -> c
    java.lang.String leftSquareBracket() -> d
    java.lang.String rightSquareBracket() -> e
    java.lang.String right() -> r
    java.lang.String left() -> s
    java.lang.String minusString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean,geogebra.common.main.Localization) -> a
    java.lang.String multiplyString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean,geogebra.common.main.Localization) -> b
    java.lang.String expToString(geogebra.common.kernel.arithmetic.ExpressionValue,boolean) -> a
    java.lang.String op(geogebra.common.kernel.arithmetic.ExpressionNode,boolean) -> b
    java.lang.String multiplicationSign() -> f
    java.lang.String multiplicationSpace() -> g
    void append(java.lang.StringBuilder,java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation) -> a
    java.lang.String divideString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean) -> b
    java.lang.String notString(geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> a
    java.lang.String orString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String) -> a
    java.lang.String geqSign() -> h
    java.lang.String leqSign() -> i
    java.lang.String greaterSign() -> j
    java.lang.String lessSign() -> k
    java.lang.String strictSubsetSign() -> l
    java.lang.String subsetSign() -> m
    java.lang.String notEqualSign() -> n
    java.lang.String equalSign() -> o
    java.lang.String perpSign() -> p
    java.lang.String parallelSign() -> q
    void infixBinary(java.lang.StringBuilder,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation,java.lang.String,java.lang.String,geogebra.common.kernel.StringTemplate,java.lang.String) -> a
    java.lang.String andIntervalString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean) -> c
    java.lang.String andString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String) -> b
    java.lang.String powerString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean) -> d
    java.lang.String convertScientificNotation(java.lang.String) -> b
    java.lang.String convertScientificNotationGiac(java.lang.String) -> c
    boolean isHideLHS() -> h
    java.lang.String access$0(geogebra.common.kernel.arithmetic.ExpressionNode,boolean) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> b
geogebra.common.kernel.StringTemplate$1 -> geogebra.common.l.ae:
    double getRoundHalfUpFactor(double,geogebra.common.util.NumberFormatAdapter,geogebra.common.util.ScientificFormatAdapter,boolean) -> a
geogebra.common.kernel.StringTemplate$2 -> geogebra.common.l.af:
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    java.lang.String multiplyString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String,boolean,geogebra.common.main.Localization) -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> c
geogebra.common.kernel.StringTemplate$3 -> geogebra.common.l.ag:
    int getCoordStyle(int) -> a
geogebra.common.kernel.SystemOfEquationsSolver -> geogebra.common.l.ah:
    double epsilon -> a
    geogebra.common.kernel.EquationSolverInterface eqnSolver -> a
    int solveSystemOfQuadraticEquations(double[],double[],double[][],double) -> a
geogebra.common.kernel.Transform -> geogebra.common.l.ai:
    geogebra.common.kernel.Construction cons -> a
    java.lang.String transformedGeoLabel(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement doTransform(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] transform(geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] transformPoly(java.lang.String,geogebra.common.kernel.geos.GeoPoly,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] transformPoints(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoConicND getTransformedConic(geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement getTransformedLine(geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean isAffine() -> a
    boolean isSimilar() -> b
    boolean changesOrientation() -> c
    void setVisualStyleForTransformations(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.TransformDilate -> geogebra.common.l.aj:
    geogebra.common.kernel.arithmetic.NumberValue ratio -> a
    geogebra.common.kernel.kernelND.GeoPointND center -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.TransformMirror -> geogebra.common.l.ak:
    geogebra.common.kernel.geos.GeoElement mirror -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isAffine() -> a
    boolean changesOrientation() -> c
geogebra.common.kernel.TransformRotate -> geogebra.common.l.al:
    geogebra.common.kernel.kernelND.GeoPointND center -> a
    geogebra.common.kernel.geos.GeoNumberValue angle -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.TransformShearOrStretch -> geogebra.common.l.am:
    boolean shear -> a
    geogebra.common.kernel.geos.GeoVec3D line -> a
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isSimilar() -> b
    boolean changesOrientation() -> c
geogebra.common.kernel.TransformTranslate -> geogebra.common.l.an:
    geogebra.common.kernel.geos.GeoVec3D transVec -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.UndoManager -> geogebra.common.l.ao:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Construction construction -> a
    java.util.LinkedList undoInfoList -> a
    java.util.ListIterator iterator -> a
    void processXML(java.lang.String) -> a
    void undo() -> a
    void redo() -> b
    void updateUndoActions() -> c
    geogebra.common.kernel.UndoManager$AppState getCurrentUndoInfo() -> a
    void storeUndoInfo() -> d
    void restoreCurrentUndoInfo() -> e
    void initUndoInfo() -> f
    boolean undoPossible() -> a
    boolean redoPossible() -> b
    void storeUndoInfoAfterPasteOrAdd() -> g
    void storeUndoInfo(boolean) -> a
    void loadUndoInfo(geogebra.common.kernel.UndoManager$AppState) -> a
    void clearUndoInfo() -> h
    void pruneStateList() -> i
geogebra.common.kernel.UndoManager$AppState -> geogebra.common.l.ao$a:
    void delete() -> a
geogebra.common.kernel.UpdateLocationView -> geogebra.common.l.ap:
    void updateLocation(geogebra.common.kernel.geos.GeoElement) -> g
geogebra.common.kernel.UserAwarenessListener -> geogebra.common.l.aq:
    void addMacro(geogebra.common.kernel.Macro) -> a
    void removeMacro(geogebra.common.kernel.Macro) -> b
    void removeAllMacros() -> a
    void setMacroCommandName(geogebra.common.kernel.Macro,java.lang.String) -> a
    void fileLoading(java.lang.String) -> a
    void fileLoadComplete(boolean) -> a
    void perspectiveChanged(java.lang.String) -> b
geogebra.common.kernel.VarString -> geogebra.common.l.ar:
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
geogebra.common.kernel.View -> geogebra.common.l.as:
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void reset() -> j
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int getViewID() -> a
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
geogebra.common.kernel.advanced.AlgoAffineRatio -> geogebra.common.l.b.a:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoPoint C -> c
    geogebra.common.kernel.geos.GeoNumeric M -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoApplyMatrix -> geogebra.common.l.b.b:
    geogebra.common.kernel.MatrixTransformable out -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.geos.GeoList matrix -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    boolean swapOrientation(geogebra.common.kernel.geos.GeoConicPart) -> a
    void transformLimitedPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAsymptote -> geogebra.common.l.b.c:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoLine[] asymptotes -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    double[] halfAxes -> a
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine[] getAsymptotes() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAxisFirst -> geogebra.common.l.b.d:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoLine axis -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getAxis() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAxisFirstLength -> geogebra.common.l.b.e:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAxisSecond -> geogebra.common.l.b.f:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoLine axis -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getAxis() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAxisSecondLength -> geogebra.common.l.b.g:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAxisStepX -> geogebra.common.l.b.h:
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    boolean euclidianViewUpdate() -> f
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoAxisStepY -> geogebra.common.l.b.i:
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    boolean euclidianViewUpdate() -> f
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCentroidPolygon -> geogebra.common.l.b.j:
    geogebra.common.kernel.geos.GeoPolygon p -> a
    geogebra.common.kernel.kernelND.GeoPointND centroid -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoClosestPointLines -> geogebra.common.l.b.k:
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.kernel.advanced.AlgoCommonDenominator -> geogebra.common.l.b.l:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCompleteSquare -> geogebra.common.l.b.m:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction square -> b
    geogebra.common.kernel.arithmetic.FunctionVariable fv -> a
    geogebra.common.kernel.arithmetic.MyDouble a -> a
    geogebra.common.kernel.arithmetic.MyDouble h -> b
    geogebra.common.kernel.arithmetic.MyDouble k -> c
    int lastDeg -> a
    geogebra.common.kernel.cas.AlgoCoefficients algoCoef -> a
    void compute() -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoComplexRootsPolynomial -> geogebra.common.l.b.n:
    double[] curComplexRoots -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void computeComplexRoots() -> l
    void calcComplexRoots(geogebra.common.kernel.arithmetic.Function) -> a
    void addToCurrentRoots(double[],double[],int) -> a
    void setRootPoints(double[],double[],int) -> b
geogebra.common.kernel.advanced.AlgoConstructionStep -> geogebra.common.l.b.o:
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    boolean wantsConstructionProtocolUpdate() -> u_
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoContinuedFraction -> geogebra.common.l.b.p:
    geogebra.common.kernel.geos.GeoNumberValue num -> a
    geogebra.common.kernel.geos.GeoNumberValue level -> b
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoBoolean shorthand -> a
    long[] denominators -> a
    java.lang.StringBuilder sb -> b
    boolean dotsNeeded -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    void appendLongLatex(int,geogebra.common.kernel.StringTemplate) -> a
    int DecimalToFraction(double,double,long[],int) -> a
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.advanced.AlgoCrossRatio -> geogebra.common.l.b.q:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoPoint C -> c
    geogebra.common.kernel.geos.GeoPoint D -> d
    geogebra.common.kernel.geos.GeoNumeric M -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvature -> geogebra.common.l.b.r:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoNumeric K -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvatureCurve -> geogebra.common.l.b.s:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND f -> a
    geogebra.common.kernel.geos.GeoNumeric K -> a
    geogebra.common.kernel.kernelND.GeoConicND gc -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvatureSurface -> geogebra.common.l.b.t:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.geos.GeoFunctionNVar f -> a
    geogebra.common.kernel.geos.GeoFunctionNVar fx -> b
    geogebra.common.kernel.geos.GeoFunctionNVar fxx -> c
    geogebra.common.kernel.geos.GeoFunctionNVar fy -> d
    geogebra.common.kernel.geos.GeoFunctionNVar fyy -> e
    geogebra.common.kernel.geos.GeoFunctionNVar fxy -> f
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCASfx -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCASfxx -> b
    geogebra.common.kernel.cas.AlgoDerivative algoCASfy -> c
    geogebra.common.kernel.cas.AlgoDerivative algoCASfyy -> d
    geogebra.common.kernel.cas.AlgoDerivative algoCASfxy -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvatureSurfaceParametric -> geogebra.common.l.b.u:
    geogebra.common.kernel.geos.GeoNumberValue param1 -> a
    geogebra.common.kernel.geos.GeoNumberValue param2 -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoSurfaceCartesian3D surface -> a
    geogebra.common.kernel.geos.GeoFunctionNVar e -> a
    geogebra.common.kernel.geos.GeoFunctionNVar f -> b
    geogebra.common.kernel.geos.GeoFunctionNVar g -> c
    geogebra.common.kernel.geos.GeoFunctionNVar eu -> d
    geogebra.common.kernel.geos.GeoFunctionNVar ev -> e
    geogebra.common.kernel.geos.GeoFunctionNVar fu -> f
    geogebra.common.kernel.geos.GeoFunctionNVar fv -> g
    geogebra.common.kernel.geos.GeoFunctionNVar gu -> h
    geogebra.common.kernel.geos.GeoFunctionNVar gv -> i
    geogebra.common.kernel.geos.GeoFunctionNVar evv -> j
    geogebra.common.kernel.geos.GeoFunctionNVar fuv -> k
    geogebra.common.kernel.geos.GeoFunctionNVar guu -> l
    geogebra.common.kernel.geos.GeoNumeric n -> a
    org.apache.commons.math.linear.Array2DRowRealMatrix matrix1 -> a
    org.apache.commons.math.linear.Array2DRowRealMatrix matrix2 -> b
    geogebra.common.kernel.cas.AlgoDerivative algoCASeu -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCASev -> b
    geogebra.common.kernel.cas.AlgoDerivative algoCASevv -> c
    geogebra.common.kernel.cas.AlgoDerivative algoCASfu -> d
    geogebra.common.kernel.cas.AlgoDerivative algoCASfv -> e
    geogebra.common.kernel.cas.AlgoDerivative algoCASfuv -> f
    geogebra.common.kernel.cas.AlgoDerivative algoCASgu -> g
    geogebra.common.kernel.cas.AlgoDerivative algoCASgv -> h
    geogebra.common.kernel.cas.AlgoDerivative algoCASguu -> i
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvatureVector -> geogebra.common.l.b.v:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction f1 -> b
    geogebra.common.kernel.geos.GeoFunction f2 -> c
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCAS -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCAS2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvatureVectorCurve -> geogebra.common.l.b.w:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoCurveCartesian f -> a
    geogebra.common.kernel.geos.GeoCurveCartesian f1 -> b
    geogebra.common.kernel.geos.GeoCurveCartesian f2 -> c
    geogebra.common.kernel.geos.GeoVector v -> a
    double[] f1eval -> a
    double[] f2eval -> b
    geogebra.common.kernel.cas.AlgoDerivative algoCAS -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCAS2 -> b
    geogebra.common.kernel.geos.GeoConic gc -> a
    void cas() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoCurvatureVectorCurve3D -> geogebra.common.l.b.x:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D f -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D f1 -> b
    geogebra.common.geogebra3D.kernel3D.geos.GeoCurveCartesian3D f2 -> c
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D v -> a
    double[] f1eval -> a
    double[] f2eval -> b
    geogebra.common.kernel.cas.AlgoDerivative algoCAS -> a
    geogebra.common.kernel.cas.AlgoDerivative algoCAS2 -> b
    geogebra.common.kernel.geos.GeoConic gc -> a
    void cas() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.geogebra3D.kernel3D.geos.GeoVector3D getVector() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDeterminant -> geogebra.common.l.b.y:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDimension -> geogebra.common.l.b.z:
    geogebra.common.kernel.geos.GeoList matrixDimension -> a
    geogebra.common.kernel.geos.GeoNumeric firstDimension -> a
    geogebra.common.kernel.geos.GeoNumeric secondDimension -> b
    boolean matrix -> a
    geogebra.common.kernel.geos.GeoList list -> b
    geogebra.common.kernel.geos.GeoElement point -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDirectrix -> geogebra.common.l.b.A:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoLine directrix -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getDirectrix() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDivision -> geogebra.common.l.b.B:
    geogebra.common.kernel.geos.GeoNumberValue a -> a
    geogebra.common.kernel.geos.GeoNumberValue b -> b
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.geos.GeoNumeric mod -> b
    geogebra.common.kernel.geos.GeoList result -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDivisorsList -> geogebra.common.l.b.C:
    geogebra.common.kernel.geos.GeoList result -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    geogebra.common.kernel.cas.AlgoPrimeFactorization factors -> a
    geogebra.common.kernel.geos.GeoList factorList -> b
    java.util.List factList -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoList getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDivisorsSum -> geogebra.common.l.b.D:
    geogebra.common.kernel.geos.GeoNumeric result -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    geogebra.common.kernel.cas.AlgoPrimeFactorization factors -> a
    geogebra.common.kernel.geos.GeoList factorList -> a
    boolean sum -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoDynamicCoordinates -> geogebra.common.l.b.E:
    geogebra.common.kernel.geos.GeoNumberValue x -> a
    geogebra.common.kernel.geos.GeoNumberValue y -> b
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoPoint M -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    geogebra.common.kernel.geos.GeoPoint getParentPoint() -> b
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoEccentricity -> geogebra.common.l.b.F:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getEccentricity() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoExcentricity -> geogebra.common.l.b.G:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLinearEccentricity() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoFinancial -> geogebra.common.l.b.H:
    geogebra.common.kernel.geos.GeoNumeric geoRate -> a
    geogebra.common.kernel.geos.GeoNumeric geoNper -> b
    geogebra.common.kernel.geos.GeoNumeric geoPmt -> c
    geogebra.common.kernel.geos.GeoNumeric geoPV -> d
    geogebra.common.kernel.geos.GeoNumeric geoFV -> e
    geogebra.common.kernel.geos.GeoNumeric geoPmtType -> f
    geogebra.common.kernel.geos.GeoNumeric geoGuess -> g
    geogebra.common.kernel.geos.GeoNumeric result -> h
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType calcType -> a
    double rate -> a
    double nper -> b
    double pmt -> c
    double pv -> d
    double fv -> e
    double pmtType -> f
    double guess -> g
    int[] $SWITCH_TABLE$geogebra$common$kernel$advanced$AlgoFinancial$CalculationType -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    double pmtFactor() -> a
    boolean computeRate() -> e
    double f(double) -> a
    double df(double) -> b
    boolean setRate() -> o
    boolean setNper() -> p
    boolean setPmt() -> q
    boolean setPV() -> r
    boolean setFV() -> s
    boolean setPmtType() -> t
    boolean setGuess() -> u
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$advanced$AlgoFinancial$CalculationType() -> a
geogebra.common.kernel.advanced.AlgoFinancial$CalculationType -> geogebra.common.l.b.H$a:
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType RATE -> a
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType NPER -> b
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType PMT -> c
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType PV -> d
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType FV -> e
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType[] ENUM$VALUES -> a
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType[] values() -> values
    geogebra.common.kernel.advanced.AlgoFinancial$CalculationType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.advanced.AlgoFlatten -> geogebra.common.l.b.I:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void flatten(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoFromBase -> geogebra.common.l.b.J:
    geogebra.common.kernel.geos.GeoNumberValue base -> a
    geogebra.common.kernel.geos.GeoText number -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoFunctionInvert -> geogebra.common.l.b.K:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction g -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.plugin.Operation inverse(geogebra.common.plugin.Operation) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.advanced.AlgoIdentity -> geogebra.common.l.b.L:
    geogebra.common.kernel.geos.GeoNumberValue n -> a
    geogebra.common.kernel.geos.GeoList result -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoList getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoIncircle -> geogebra.common.l.b.M:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    geogebra.common.kernel.kernelND.GeoConicND circle -> a
    geogebra.common.kernel.geos.GeoLine bisectorC -> a
    geogebra.common.kernel.geos.GeoLine bisectorB -> b
    geogebra.common.kernel.geos.GeoLine sideBC -> c
    geogebra.common.kernel.geos.GeoLine heightBC -> d
    geogebra.common.kernel.geos.GeoPoint heightFoot -> a
    geogebra.common.kernel.geos.GeoPoint incenter -> b
    geogebra.common.kernel.geos.GeoPoint A1 -> c
    geogebra.common.kernel.geos.GeoPoint B1 -> d
    geogebra.common.kernel.geos.GeoPoint C1 -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoConicND getCircle() -> a
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getC() -> c
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoIndexOf -> geogebra.common.l.b.N:
    geogebra.common.kernel.geos.GeoElement hayStack -> a
    geogebra.common.kernel.geos.GeoElement needle -> b
    geogebra.common.kernel.geos.GeoNumeric index -> a
    geogebra.common.kernel.geos.GeoNumberValue start -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoInsert -> geogebra.common.l.b.O:
    geogebra.common.kernel.geos.GeoElement inputGeo -> a
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    int insertPoint -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoInvert -> geogebra.common.l.b.P:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoIsInRegion -> geogebra.common.l.b.Q:
    geogebra.common.kernel.kernelND.GeoPointND pi -> a
    geogebra.common.kernel.Region region -> a
    geogebra.common.kernel.geos.GeoBoolean result -> a
    void compute() -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoIsPrime -> geogebra.common.l.b.R:
    geogebra.common.kernel.geos.GeoBoolean result -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoLeftRightSide -> geogebra.common.l.b.S:
    geogebra.common.kernel.geos.GeoElement equation -> a
    geogebra.common.kernel.geos.GeoFunctionNVar side -> a
    boolean left -> a
    geogebra.common.kernel.arithmetic.FunctionVariable[] fv -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoFunctionNVar getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoMatrixRank -> geogebra.common.l.b.T:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric rank -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoMaximize -> geogebra.common.l.b.U:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoMinimize -> geogebra.common.l.b.V:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoOptimize -> geogebra.common.l.b.W:
    geogebra.common.kernel.Construction optCons -> b
    geogebra.common.kernel.optimization.ExtremumFinder extrFinder -> a
    geogebra.common.kernel.optimization.RealRootFunctionVariable i_am_not_a_real_function -> a
    geogebra.common.kernel.geos.GeoElement dep -> a
    geogebra.common.kernel.geos.GeoNumeric indep -> a
    geogebra.common.kernel.geos.GeoNumeric result -> b
    geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType type -> a
    boolean isrunning -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getResult() -> a
geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType -> geogebra.common.l.b.W$a:
    geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType MINIMIZE -> a
    geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType MAXIMIZE -> b
    geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType[] ENUM$VALUES -> a
    geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType[] values() -> values
    geogebra.common.kernel.advanced.AlgoOptimize$OptimizationType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.advanced.AlgoOrdinal -> geogebra.common.l.b.X:
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoOsculatingCircle -> geogebra.common.l.b.Y:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint R -> b
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoNumeric curv -> a
    geogebra.common.kernel.geos.GeoConic circle -> a
    geogebra.common.kernel.advanced.AlgoCurvature algo -> a
    geogebra.common.kernel.advanced.AlgoCurvatureVector cv -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoConic getCircle() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoOsculatingCircleCurve -> geogebra.common.l.b.Z:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint R -> b
    geogebra.common.kernel.geos.GeoCurveCartesian f -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoNumeric curv -> a
    geogebra.common.kernel.geos.GeoConic circle -> a
    geogebra.common.kernel.geos.GeoConic gc -> b
    geogebra.common.kernel.advanced.AlgoCurvatureCurve algo -> a
    geogebra.common.kernel.advanced.AlgoCurvatureVectorCurve cv -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoConic getCircle() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoParabolaParameter -> geogebra.common.l.b.aa:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getParameter() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoPathParameter -> geogebra.common.l.b.ab:
    geogebra.common.kernel.geos.GeoPoint point -> a
    geogebra.common.kernel.geos.GeoNumeric value -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoPrimeFactors -> geogebra.common.l.b.ac:
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    geogebra.common.kernel.geos.GeoList outputList -> a
    double LARGEST_INTEGER -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void setListElement(int,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoReducedRowEchelonForm -> geogebra.common.l.b.ad:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoRotateText -> geogebra.common.l.b.ae:
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoText args -> b
    geogebra.common.kernel.geos.GeoNumeric angle -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    void appendRotatedText(java.lang.StringBuilder,geogebra.common.kernel.geos.GeoText,double) -> a
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoScientificText -> geogebra.common.l.b.af:
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.arithmetic.NumberValue precision -> a
    geogebra.common.kernel.geos.GeoText text -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoSelectedElement -> geogebra.common.l.b.ag:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoElement element -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getElement() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoSelectedIndex -> geogebra.common.l.b.ah:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric index -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getElement() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoSlopeField -> geogebra.common.l.b.ai:
    geogebra.common.kernel.arithmetic.FunctionalNVar func -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoNumeric lengthRatio -> b
    geogebra.common.kernel.geos.GeoNumeric minX -> c
    geogebra.common.kernel.geos.GeoNumeric minY -> d
    geogebra.common.kernel.geos.GeoNumeric maxX -> e
    geogebra.common.kernel.geos.GeoNumeric maxY -> f
    geogebra.common.kernel.geos.GeoLocus locus -> a
    java.util.ArrayList al -> a
    geogebra.common.kernel.algos.AlgoNumerator numAlgo -> a
    geogebra.common.kernel.algos.AlgoDenominator denAlgo -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar num -> b
    geogebra.common.kernel.arithmetic.FunctionalNVar den -> c
    boolean quotient -> a
    geogebra.common.euclidian.EuclidianView mainView -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    void compute() -> b
    void drawLine(double,double,double,double,double) -> a
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoStepObject -> geogebra.common.l.b.aj:
    geogebra.common.kernel.geos.GeoElement inputGeo -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    boolean wantsConstructionProtocolUpdate() -> u_
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoTaylorSeries -> geogebra.common.l.b.ak:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue n -> b
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement ngeo -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getPolynomial() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoToBase -> geogebra.common.l.b.al:
    geogebra.common.kernel.arithmetic.NumberValue base -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> b
    geogebra.common.kernel.geos.GeoText result -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoToComplexPolar -> geogebra.common.l.b.am:
    int coordStyle -> a
    geogebra.common.kernel.geos.GeoPoint inPoint -> a
    geogebra.common.kernel.geos.GeoVector inVector -> a
    geogebra.common.kernel.geos.GeoPoint outPoint -> b
    geogebra.common.kernel.geos.GeoList inList -> a
    geogebra.common.kernel.geos.GeoVector outVector -> b
    void init(int,geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoTranspose -> geogebra.common.l.b.an:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoUnion -> geogebra.common.l.b.ao:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList inputList2 -> b
    geogebra.common.kernel.geos.GeoList outputList -> c
    int size -> a
    int size2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void addToOutputList(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoUnique -> geogebra.common.l.b.ap:
    geogebra.common.kernel.geos.GeoList dataList -> a
    geogebra.common.kernel.geos.GeoList uniqueList -> b
    org.apache.commons.math.stat.Frequency f -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoVerticalText -> geogebra.common.l.b.aq:
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoText args -> b
    geogebra.common.kernel.geos.GeoPoint startPoint -> a
    geogebra.common.kernel.geos.GeoPoint startPointCopy -> b
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.AlgoZip -> geogebra.common.l.b.ar:
    geogebra.common.kernel.geos.GeoElement expression -> a
    geogebra.common.kernel.geos.GeoElement[] vars -> b
    int varCount -> a
    int listCount -> b
    geogebra.common.kernel.geos.GeoList[] over -> a
    geogebra.common.kernel.geos.GeoList list -> a
    int last_length -> c
    boolean expIsFunctionOrCurve -> a
    boolean isEmpty -> b
    geogebra.common.kernel.algos.AlgoElement expressionParentAlgo -> a
    boolean updateRunning -> f
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement[] getInputForUpdateSetPropagation() -> a_
    void compute() -> b
    void createNewList() -> e
    void addElement(int) -> a
    geogebra.common.kernel.geos.GeoElement createNewListElement() -> a
    void updateListItems() -> g
    int minOverSize() -> e
    void updateLocalVar(int) -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.advanced.CmdAffineRatio -> geogebra.common.l.b.as:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdApplyMatrix -> geogebra.common.l.b.at:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] ApplyMatrix(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.advanced.CmdAreCollinear -> geogebra.common.l.b.au:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAreConcurrent -> geogebra.common.l.b.av:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAreConcyclic -> geogebra.common.l.b.aw:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAreEqual -> geogebra.common.l.b.ax:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAreParallel -> geogebra.common.l.b.ay:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdArePerpendicular -> geogebra.common.l.b.az:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAsymptote -> geogebra.common.l.b.aA:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAttachCopyToView -> geogebra.common.l.b.aB:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAxes -> geogebra.common.l.b.aC:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.algos.AlgoAxesQuadricND axesConic(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.kernelND.GeoQuadricND) -> a
geogebra.common.kernel.advanced.CmdAxisStepX -> geogebra.common.l.b.aD:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdAxisStepY -> geogebra.common.l.b.aE:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdCentroid -> geogebra.common.l.b.aF:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdClosestPoint -> geogebra.common.l.b.aG:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoPoint ClosestPoint(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.advanced.CmdCommonDenominator -> geogebra.common.l.b.aH:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdCompleteSquare -> geogebra.common.l.b.aI:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdComplexRoot -> geogebra.common.l.b.aJ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdConstructionStep -> geogebra.common.l.b.aK:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdContinuedFraction -> geogebra.common.l.b.aL:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText ContinuedFraction(java.lang.String,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.geos.GeoBoolean) -> a
geogebra.common.kernel.advanced.CmdCrossRatio -> geogebra.common.l.b.aM:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdCurvature -> geogebra.common.l.b.aN:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdCurvatureVector -> geogebra.common.l.b.aO:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdDenominator -> geogebra.common.l.b.aP:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdDeterminant -> geogebra.common.l.b.aQ:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.advanced.CmdDimension -> geogebra.common.l.b.aR:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdDirection -> geogebra.common.l.b.aS:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoVector Direction(java.lang.String,geogebra.common.kernel.geos.GeoLine) -> a
geogebra.common.kernel.advanced.CmdDirectrix -> geogebra.common.l.b.aT:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdDivision -> geogebra.common.l.b.aU:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdDivisorsList -> geogebra.common.l.b.aV:
    geogebra.common.kernel.geos.GeoElement getResult(geogebra.common.kernel.geos.GeoNumberValue,java.lang.String) -> a
geogebra.common.kernel.advanced.CmdDivisorsOrDivisorsSum -> geogebra.common.l.b.aW:
    boolean sum -> a
    geogebra.common.kernel.geos.GeoElement getResult(geogebra.common.kernel.geos.GeoNumberValue,java.lang.String) -> a
geogebra.common.kernel.advanced.CmdDynamicCoordinates -> geogebra.common.l.b.aX:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdEccentricity -> geogebra.common.l.b.aY:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdExcentricity -> geogebra.common.l.b.aZ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFactors -> geogebra.common.l.b.ba:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFinancialFV -> geogebra.common.l.b.bb:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFinancialNper -> geogebra.common.l.b.bc:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFinancialPV -> geogebra.common.l.b.bd:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFinancialPmt -> geogebra.common.l.b.be:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFinancialRate -> geogebra.common.l.b.bf:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFirstAxis -> geogebra.common.l.b.bg:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFirstAxisLength -> geogebra.common.l.b.bh:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFlatten -> geogebra.common.l.b.bi:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdFromBase -> geogebra.common.l.b.bj:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIdentity -> geogebra.common.l.b.bk:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdImplicitPoly -> geogebra.common.l.b.bl:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIncircle -> geogebra.common.l.b.bm:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIndexOf -> geogebra.common.l.b.bn:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdInsert -> geogebra.common.l.b.bo:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIntersectPath -> geogebra.common.l.b.bp:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] intersectPathLinePolygon(java.lang.String[],geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoPolygon) -> a
geogebra.common.kernel.advanced.CmdIntersection -> geogebra.common.l.b.bq:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdInvert -> geogebra.common.l.b.br:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIsInRegion -> geogebra.common.l.b.bs:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIsPrime -> geogebra.common.l.b.bt:
    geogebra.common.kernel.geos.GeoElement getResult(geogebra.common.kernel.geos.GeoNumberValue,java.lang.String) -> a
geogebra.common.kernel.advanced.CmdIteration -> geogebra.common.l.b.bu:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdIterationList -> geogebra.common.l.b.bv:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdLeftRightSide -> geogebra.common.l.b.bw:
    boolean left -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdMatrixRank -> geogebra.common.l.b.bx:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdMaximize -> geogebra.common.l.b.by:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdMinimize -> geogebra.common.l.b.bz:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdNSolveODE -> geogebra.common.l.b.bA:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdNumerator -> geogebra.common.l.b.bB:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdOrdinal -> geogebra.common.l.b.bC:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdOsculatingCircle -> geogebra.common.l.b.bD:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdParameter -> geogebra.common.l.b.bE:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdPathParameter -> geogebra.common.l.b.bF:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdPolar -> geogebra.common.l.b.bG:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement PolarLine(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement PolarPoint(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.kernel.advanced.CmdPrimeFactors -> geogebra.common.l.b.bH:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdProve -> geogebra.common.l.b.bI:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdProveDetails -> geogebra.common.l.b.bJ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdReducedRowEchelonForm -> geogebra.common.l.b.bK:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.advanced.CmdRootList -> geogebra.common.l.b.bL:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.advanced.CmdRoots -> geogebra.common.l.b.bM:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdRotateText -> geogebra.common.l.b.bN:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdScientificText -> geogebra.common.l.b.bO:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText ScientificText(java.lang.String,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.advanced.CmdSecondAxis -> geogebra.common.l.b.bP:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdSecondAxisLength -> geogebra.common.l.b.bQ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdSelectedElement -> geogebra.common.l.b.bR:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdSelectedIndex -> geogebra.common.l.b.bS:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdSlopeField -> geogebra.common.l.b.bT:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoLocus SlopeField(java.lang.String,geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.advanced.CmdTaylorSeries -> geogebra.common.l.b.bU:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdToBase -> geogebra.common.l.b.bV:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdToComplexPolar -> geogebra.common.l.b.bW:
    int coordStyle -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdTranspose -> geogebra.common.l.b.bX:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.advanced.CmdUnion -> geogebra.common.l.b.bY:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdUnique -> geogebra.common.l.b.bZ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdVerticalText -> geogebra.common.l.b.ca:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.CmdZip -> geogebra.common.l.b.cb:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.advanced.TransformApplyMatrix -> geogebra.common.l.b.cc:
    geogebra.common.kernel.geos.GeoList matrix -> a
    geogebra.common.kernel.algos.AlgoTransformation getTransformAlgo(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isSimilar() -> b
    boolean changesOrientation() -> c
geogebra.common.kernel.algos.AlgoAngle -> geogebra.common.l.c.a:
    void initCoords() -> c
    geogebra.common.kernel.geos.GeoAngle newGeoAngle(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.Matrix.Coords getVn() -> c
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
    boolean centerIsNotDrawable(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAngleConic -> geogebra.common.l.c.b:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoAngle angle -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.kernel.algos.AlgoAngleLines -> geogebra.common.l.c.c:
    geogebra.common.kernel.algos.AlgoAngleLines copy() -> a
    void compute() -> b
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.algos.AlgoAngleLinesND -> geogebra.common.l.c.d:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.kernelND.GeoLineND h -> b
    geogebra.common.kernel.geos.GeoAngle angle -> a
    void setInput(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    geogebra.common.kernel.kernelND.GeoLineND getg() -> a
    geogebra.common.kernel.kernelND.GeoLineND geth() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.kernel.algos.AlgoAngleNumeric -> geogebra.common.l.c.e:
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.geos.GeoAngle angle -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAnglePoints -> geogebra.common.l.c.f:
    geogebra.common.kernel.algos.AlgoAnglePoints copy() -> a
    void compute() -> b
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.algos.AlgoAnglePointsND -> geogebra.common.l.c.g:
    geogebra.common.kernel.kernelND.GeoPointND An -> a
    geogebra.common.kernel.kernelND.GeoPointND Bn -> b
    geogebra.common.kernel.kernelND.GeoPointND Cn -> c
    geogebra.common.kernel.geos.GeoAngle angle -> a
    geogebra.common.kernel.algos.AlgoAnglePolygon algoAnglePoly -> a
    double bx -> a
    double by -> b
    double vx -> c
    double vy -> d
    double wx -> e
    double wy -> f
    void setInput(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void setABC(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setInputOutput() -> a_
    void remove() -> a
    int getConstructionIndex() -> d
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    geogebra.common.kernel.kernelND.GeoPointND getA() -> a
    geogebra.common.kernel.kernelND.GeoPointND getB() -> b
    geogebra.common.kernel.kernelND.GeoPointND getC() -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.kernel.algos.AlgoAnglePolygon -> geogebra.common.l.c.h:
    geogebra.common.kernel.algos.AlgoAnglePointsND newAlgoAnglePoints(geogebra.common.kernel.Construction) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
geogebra.common.kernel.algos.AlgoAnglePolygonND -> geogebra.common.l.c.i:
    geogebra.common.kernel.geos.GeoPolygon poly -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputAngles -> a
    geogebra.common.kernel.algos.AlgoAnglePointsND algoAngle -> a
    void setPolyAndOrientation(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.algos.AlgoAnglePointsND newAlgoAnglePoints(geogebra.common.kernel.Construction) -> a
    void setLabels(java.lang.String[]) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement[] getAngles() -> b
    geogebra.common.kernel.geos.GeoPolygon getPolygon() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.kernel.algos.AlgoAnglePolygonND$1 -> geogebra.common.l.c.j:
    geogebra.common.kernel.algos.AlgoAnglePolygonND this$0 -> a
    geogebra.common.kernel.geos.GeoAngle newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoAngleVector -> geogebra.common.l.c.k:
    double[] coords -> b
    geogebra.common.kernel.geos.GeoVec3D getVec3D() -> a
    void compute() -> b
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.kernel.algos.AlgoAngleVectorND -> geogebra.common.l.c.l:
    geogebra.common.kernel.geos.GeoElement vec -> a
    geogebra.common.kernel.geos.GeoAngle angle -> a
    double[] coords -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
geogebra.common.kernel.algos.AlgoAngleVectors -> geogebra.common.l.c.m:
    void setInputOutput() -> a_
    void compute() -> b
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
geogebra.common.kernel.algos.AlgoAngleVectorsND -> geogebra.common.l.c.n:
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.kernelND.GeoVectorND w -> b
    geogebra.common.kernel.geos.GeoAngle angle -> a
    void setInputOutput() -> a_
    void setInput(geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.geos.GeoAngle getAngle() -> a
    geogebra.common.kernel.kernelND.GeoVectorND getv() -> a
    geogebra.common.kernel.kernelND.GeoVectorND getw() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean updateDrawInfo(double[],double[],geogebra.common.euclidian.draw.DrawAngle) -> a
    boolean getCoordsInD3(geogebra.common.kernel.Matrix.Coords[]) -> a
geogebra.common.kernel.algos.AlgoAngularBisectorLines -> geogebra.common.l.c.o:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoLine h -> b
    geogebra.common.kernel.geos.GeoLine[] bisector -> a
    double gx -> a
    double gy -> b
    double hx -> c
    double hy -> d
    double wx -> e
    double wy -> f
    double bx -> g
    double by -> h
    double lenH -> i
    double lenG -> j
    double length -> k
    double ip -> l
    geogebra.common.kernel.geos.GeoVector[] wv -> a
    geogebra.common.kernel.geos.GeoPoint B -> a
    boolean infiniteB -> a
    int index -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine[] getLines() -> a
    geogebra.common.kernel.geos.GeoLine getg() -> a
    geogebra.common.kernel.geos.GeoLine geth() -> b
    geogebra.common.kernel.geos.GeoPoint getB() -> a
    boolean isNearToAlgorithm() -> s_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAngularBisectorPoints -> geogebra.common.l.c.p:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoPoint C -> c
    geogebra.common.kernel.geos.GeoLine bisector -> a
    geogebra.common.kernel.geos.GeoLine g -> b
    geogebra.common.kernel.geos.GeoLine h -> c
    geogebra.common.kernel.geos.GeoVector wv -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getC() -> c
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAppend -> geogebra.common.l.c.q:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    int order -> b
    int ADD_OBJECT_AT_START -> c
    int ADD_OBJECT_AT_END -> d
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoArcLength -> geogebra.common.l.c.r:
    geogebra.common.kernel.kernelND.GeoConicPartND arc -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getArcLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAreaConic -> geogebra.common.l.c.s:
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    geogebra.common.kernel.geos.GeoNumeric area -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getArea() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAreaPoints -> geogebra.common.l.c.t:
    geogebra.common.kernel.kernelND.GeoPointND[] P -> a
    geogebra.common.kernel.geos.GeoNumeric area -> a
    void initCoords() -> c
    void createOutput(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getArea() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAreaPolygon -> geogebra.common.l.c.u:
    geogebra.common.kernel.geos.GeoPolygon polygon -> a
    geogebra.common.kernel.geos.GeoNumeric area -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getArea() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAttachCopyToView -> geogebra.common.l.c.v:
    geogebra.common.kernel.MatrixTransformable out -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.arithmetic.NumberValue viewID -> a
    geogebra.common.kernel.kernelND.GeoPointND corner1 -> a
    geogebra.common.kernel.kernelND.GeoPointND corner3 -> b
    geogebra.common.kernel.kernelND.GeoPointND screenCorner1 -> c
    geogebra.common.kernel.kernelND.GeoPointND screenCorner3 -> d
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void transformFunction(double,double,double,double) -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    void transformLimitedPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    void setEV(int) -> a
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoAxes -> geogebra.common.l.c.w:
    geogebra.common.kernel.geos.GeoPoint P -> a
    void createInput() -> c
    void compute() -> b
    void setAxisCoords(int) -> a
geogebra.common.kernel.algos.AlgoAxesQuadricND -> geogebra.common.l.c.x:
    geogebra.common.kernel.kernelND.GeoQuadricND c -> a
    geogebra.common.kernel.kernelND.GeoLineND[] axes -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void createInput() -> c
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoLineND[] getAxes() -> a
    void compute() -> b
    void setAxisCoords(int) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoBarChart -> geogebra.common.l.c.y:
    java.util.Map tags -> a
    geogebra.common.kernel.geos.GeoNumeric sum -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.NumberValue p1 -> c
    geogebra.common.kernel.arithmetic.NumberValue p2 -> d
    geogebra.common.kernel.arithmetic.NumberValue p3 -> e
    geogebra.common.kernel.geos.GeoList list1 -> a
    geogebra.common.kernel.geos.GeoList list2 -> b
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement bgeo -> b
    geogebra.common.kernel.geos.GeoElement ngeo -> c
    geogebra.common.kernel.geos.GeoElement widthGeo -> d
    geogebra.common.kernel.geos.GeoElement isCumulative -> e
    geogebra.common.kernel.geos.GeoElement isHorizontal -> f
    geogebra.common.kernel.geos.GeoElement p1geo -> g
    geogebra.common.kernel.geos.GeoElement p2geo -> h
    geogebra.common.kernel.geos.GeoElement p3geo -> i
    geogebra.common.kernel.geos.GeoElement hasJoin -> j
    geogebra.common.kernel.geos.GeoElement pointType -> k
    int type -> a
    int N -> b
    double[] yval -> a
    double[] leftBorder -> b
    java.lang.String[] value -> a
    double barWidth -> a
    double freqMax -> b
    double dataSize -> c
    java.lang.String toolTipText -> a
    boolean isAreaSum -> a
    geogebra.common.kernel.geos.GeoNumeric scale -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoNumeric getSum() -> a
    geogebra.common.kernel.geos.GeoElement getIsCumulative() -> a
    double getFreqMax() -> a
    double[] getYValue() -> a
    double[] getLeftBorder() -> b
    java.lang.String[] getValue() -> a
    int getType() -> e
    geogebra.common.kernel.arithmetic.NumberValue getA() -> a
    geogebra.common.kernel.arithmetic.NumberValue getB() -> b
    double[] getValues() -> c
    geogebra.common.kernel.geos.GeoNumeric getN() -> b
    int getIntervals() -> f
    double getWidth() -> b
    geogebra.common.kernel.arithmetic.NumberValue getP1() -> c
    geogebra.common.kernel.arithmetic.NumberValue getP2() -> d
    geogebra.common.kernel.arithmetic.NumberValue getP3() -> e
    geogebra.common.euclidian.draw.DrawBarGraph$DrawType getDrawType() -> a
    boolean hasPoints() -> e
    int getPointType() -> g
    void compute() -> b
    void computeWithExp() -> e
    void computeWithRawData() -> g
    void computeWithFrequency() -> i
    void computeFromValueFrequencyLists(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    void computeFromPointList(geogebra.common.kernel.geos.GeoList) -> b
    boolean prepareDistributionLists() -> o
    void loadDistributionLists(int,int,org.apache.commons.math.distribution.IntegerDistribution) -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    void remove() -> a
    void setBarColor(geogebra.common.awt.GColor,int) -> a
    geogebra.common.awt.GColor getBarColor(int) -> a
    void setBarAlpha(float,int) -> a
    float getBarAlpha(int) -> a
    void setBarFillType(geogebra.common.kernel.geos.GeoElement$FillType,int) -> a
    geogebra.common.kernel.geos.GeoElement$FillType getBarFillType(int) -> a
    void setBarSymbol(java.lang.String,int) -> a
    java.lang.String getBarSymbol(int) -> a
    void setBarImage(java.lang.String,int) -> b
    java.lang.String getBarImage(int) -> b
    void setBarHatchDistance(int,int) -> a
    int getBarHatchDistance(int) -> a
    void setBarHatchAngle(int,int) -> b
    int getBarHatchAngle(int) -> b
    void barXml(java.lang.StringBuilder) -> b
    void setToolTipText(int) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    java.lang.String access$1(geogebra.common.kernel.algos.AlgoBarChart) -> a
geogebra.common.kernel.algos.AlgoBarChart$1 -> geogebra.common.l.c.z:
    geogebra.common.kernel.algos.AlgoBarChart this$0 -> a
    java.lang.String getTooltipText(boolean,boolean) -> a
geogebra.common.kernel.algos.AlgoBarChart$2 -> geogebra.common.l.c.A:
    geogebra.common.kernel.algos.AlgoBarChart this$0 -> a
    java.lang.String getTooltipText(boolean,boolean) -> a
geogebra.common.kernel.algos.AlgoBarChart$3 -> geogebra.common.l.c.B:
    geogebra.common.kernel.algos.AlgoBarChart this$0 -> a
    java.lang.String getTooltipText(boolean,boolean) -> a
geogebra.common.kernel.algos.AlgoBinomial -> geogebra.common.l.c.C:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoBoxPlot -> geogebra.common.l.c.D:
    int type -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement bgeo -> b
    geogebra.common.kernel.geos.GeoElement minGeo -> c
    geogebra.common.kernel.geos.GeoElement Q1geo -> d
    geogebra.common.kernel.geos.GeoElement medianGeo -> e
    geogebra.common.kernel.geos.GeoElement Q3geo -> f
    geogebra.common.kernel.geos.GeoElement maxGeo -> g
    geogebra.common.kernel.geos.GeoNumeric sum -> a
    geogebra.common.kernel.geos.GeoBoolean useOutliersGeo -> a
    geogebra.common.kernel.geos.GeoList list1 -> a
    geogebra.common.kernel.geos.GeoList freqList -> b
    java.util.ArrayList tempList -> a
    int N -> b
    double[] yval -> a
    double[] leftBorder -> b
    java.util.ArrayList outliers -> b
    geogebra.common.kernel.arithmetic.NumberValue getB() -> a
    geogebra.common.kernel.arithmetic.NumberValue getA() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.AlgoBoxPlot copy() -> a
    void compute() -> b
    void calcBoxPlot() -> e
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getSum() -> a
    double[] getLeftBorders() -> a
    java.util.ArrayList getOutliers() -> a
    void addOutlier(double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.algos.AlgoCasBase -> geogebra.common.l.c.E:
    geogebra.common.kernel.geos.CasEvaluableFunction f -> a
    geogebra.common.kernel.geos.CasEvaluableFunction g -> b
    geogebra.common.kernel.commands.Commands cmd -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
    void clearCasEvalMap(java.lang.String) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCenterConic -> geogebra.common.l.c.F:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    void setCoords() -> c
    void setCoords(double,double) -> a
geogebra.common.kernel.algos.AlgoCenterQuadricND -> geogebra.common.l.c.G:
    geogebra.common.kernel.kernelND.GeoQuadricND c -> a
    geogebra.common.kernel.kernelND.GeoPointND midpoint -> a
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    void compute() -> b
    void setCoords() -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCirclePointRadius -> geogebra.common.l.c.H:
    geogebra.common.kernel.kernelND.GeoQuadricND createSphereND(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoConic getCircle() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCirclePointRadiusInterface -> geogebra.common.l.c.I:
geogebra.common.kernel.algos.AlgoCircleThreePoints -> geogebra.common.l.c.J:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    geogebra.common.kernel.kernelND.GeoConicND circle -> a
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> a
    geogebra.common.kernel.geos.GeoLine s0 -> a
    geogebra.common.kernel.geos.GeoLine s1 -> b
    geogebra.common.kernel.geos.GeoPoint center -> a
    double[] det -> a
    double ax -> a
    double ay -> b
    double bx -> c
    double by -> d
    double cx -> e
    double cy -> f
    double ABx -> g
    double ABy -> h
    double ACx -> i
    double ACy -> j
    double BCx -> k
    double BCy -> l
    double maxDet -> m
    int casenr -> a
    void setIncidence() -> g
    void setPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void createCircle() -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void setInput() -> d
    void setOutput() -> e
    geogebra.common.kernel.kernelND.GeoConicND getCircle() -> a
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getC() -> c
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCircleTwoPoints -> geogebra.common.l.c.K:
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    void setIncidence() -> e
    geogebra.common.kernel.kernelND.GeoQuadricND createSphereND(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoConic getCircle() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCircumferenceConic -> geogebra.common.l.c.L:
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    geogebra.common.kernel.geos.GeoNumeric circum -> a
    geogebra.common.kernel.integration.EllipticArcLength ellipticArcLength -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoNumeric getCircumference() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoClosestPoint -> geogebra.common.l.c.M:
    geogebra.common.kernel.Path path -> a
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.kernelND.GeoPointND P -> b
    void createOutputPoint(geogebra.common.kernel.Construction,geogebra.common.kernel.Path) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void addIncidence() -> d
    geogebra.common.kernel.kernelND.GeoPointND getP() -> a
    void setCoords() -> c
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isChangeable() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCommonTangents -> geogebra.common.l.c.N:
    void createPoints(geogebra.common.kernel.Construction) -> a
    void setCoordsAsPoint(int,double,double) -> a
    void setCoordsAsVector(int,double,double) -> b
    void initTangents() -> c
    geogebra.common.kernel.kernelND.AlgoIntersectND createAlgo(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.kernelND.GeoConicND) -> a
    void initForNearToRelationship() -> p_
    void updatePolarLines() -> e
    boolean isIntersectionPointIncident(int,geogebra.common.kernel.kernelND.GeoConicND) -> a
    void updateTangents(geogebra.common.kernel.kernelND.GeoPointND[],int) -> a
    void setTangentFromPolar(int,geogebra.common.kernel.geos.GeoLine) -> a
    double getMidpointX(int,int) -> a
    double getMidpointY(int,int) -> b
geogebra.common.kernel.algos.AlgoCommonTangentsND -> geogebra.common.l.c.O:
    geogebra.common.kernel.kernelND.GeoPointND[] P -> a
    geogebra.common.kernel.kernelND.GeoConicND[] c -> a
    geogebra.common.kernel.kernelND.GeoLineND[] tangents -> a
    geogebra.common.kernel.geos.GeoLine polar -> a
    geogebra.common.kernel.geos.GeoLine polar2 -> b
    geogebra.common.kernel.kernelND.AlgoIntersectND algoIntersect -> a
    geogebra.common.kernel.kernelND.AlgoIntersectND algoIntersect2 -> b
    geogebra.common.kernel.kernelND.GeoPointND[] tangentPoints -> b
    geogebra.common.kernel.kernelND.GeoPointND[] tangentPoints2 -> c
    boolean equalLines -> a
    boolean equalLines2 -> b
    void createPoints(geogebra.common.kernel.Construction) -> a
    void setCoordsAsPoint(int,double,double) -> a
    void setCoordsAsVector(int,double,double) -> b
    void initTangents() -> c
    geogebra.common.kernel.kernelND.AlgoIntersectND createAlgo(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    boolean checkUndefined() -> a
    double getMidpointX(int,int) -> a
    double getMidpointY(int,int) -> b
    void compute() -> b
    void updatePolarLines() -> e
    void updateTangents(geogebra.common.kernel.kernelND.GeoPointND[],int) -> a
    void setTangentFromPolar(int,geogebra.common.kernel.geos.GeoLine) -> a
    boolean isIntersectionPointIncident(int,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoConicFivePoints -> geogebra.common.l.c.P:
    geogebra.common.kernel.geos.GeoPoint[] P -> a
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    boolean criticalCase -> a
    double[][] A -> a
    double[][] B -> b
    double[][] C -> c
    double e1 -> a
    double e2 -> b
    geogebra.common.kernel.geos.GeoVec3D[] line -> a
    int i -> a
    int j -> b
    void setInputPoints() -> c
    geogebra.common.kernel.geos.GeoPoint[] createPoints2D(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void initCoords() -> e
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void checkCriticalCase() -> g
    void addIncidence() -> i
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> a
    geogebra.common.kernel.geos.GeoPoint[] getPoints() -> a
    geogebra.common.kernel.geos.GeoPoint[] getAllPoints() -> b
    void compute() -> b
    boolean shouldInvert(double) -> a
    void degCone(geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoVec3D,double[][]) -> a
    double evalMatrix(double[][],geogebra.common.kernel.geos.GeoPoint) -> a
    void linComb(double[][],double[][],double,double,double[][]) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoConicFociLength -> geogebra.common.l.c.Q:
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void setInput() -> c
    geogebra.common.kernel.geos.GeoPoint getA2d() -> a
    geogebra.common.kernel.geos.GeoPoint getB2d() -> b
geogebra.common.kernel.algos.AlgoConicFociLengthND -> geogebra.common.l.c.R:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    void initCoords() -> e
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void setInput() -> c
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> a
    geogebra.common.kernel.kernelND.GeoPointND getFocus1() -> a
    geogebra.common.kernel.kernelND.GeoPointND getFocus2() -> b
    geogebra.common.kernel.arithmetic.NumberValue getLength() -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoPoint getA2d() -> a
    geogebra.common.kernel.geos.GeoPoint getB2d() -> b
geogebra.common.kernel.algos.AlgoConicFromCoeffList -> geogebra.common.l.c.S:
    geogebra.common.kernel.geos.GeoList L -> a
    geogebra.common.kernel.geos.GeoConic conic -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoConic getConic() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoConicPart -> geogebra.common.l.c.T:
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    geogebra.common.kernel.arithmetic.NumberValue startParam -> a
    geogebra.common.kernel.arithmetic.NumberValue endParam -> b
    geogebra.common.kernel.kernelND.GeoConicND conicPart -> b
    int type -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoConicPartCircle -> geogebra.common.l.c.U:
    geogebra.common.kernel.geos.GeoPoint center -> a
    geogebra.common.kernel.geos.GeoPoint startPoint -> b
    geogebra.common.kernel.geos.GeoPoint endPoint -> c
    geogebra.common.kernel.geos.GeoPoint P -> d
    geogebra.common.kernel.geos.GeoPoint Q -> e
    void setIncidence() -> e
    geogebra.common.kernel.geos.GeoPoint getStartPoint() -> a
    geogebra.common.kernel.geos.GeoPoint getEndPoint() -> b
    geogebra.common.kernel.geos.GeoPoint getCenter() -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.geos.GeoConicPart getConicPart() -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
geogebra.common.kernel.algos.AlgoConicPartCircumcircle -> geogebra.common.l.c.V:
    geogebra.common.kernel.algos.AlgoCircleThreePoints getAlgo() -> a
    geogebra.common.kernel.geos.GeoConicPart createConicPart(geogebra.common.kernel.Construction,int) -> a
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getC() -> c
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.geos.GeoConicPart getConicPart() -> a
    void computeSinglePoint() -> c
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
    geogebra.common.kernel.kernelND.GeoConicND createConicPart(geogebra.common.kernel.Construction,int) -> a
geogebra.common.kernel.algos.AlgoConicPartCircumcircleND -> geogebra.common.l.c.W:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    geogebra.common.kernel.geos.GeoLine line -> a
    geogebra.common.kernel.kernelND.GeoConicND createConicPart(geogebra.common.kernel.Construction,int) -> a
    geogebra.common.kernel.algos.AlgoCircleThreePoints getAlgo() -> a
    void setIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void compute() -> b
    void computeDegenerate() -> g
    void computeCircle() -> i
    void computeSinglePoint() -> c
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getC() -> c
    double getAx() -> a
    double getAy() -> b
    double getBx() -> c
    double getBy() -> d
    double getCx() -> e
    double getCy() -> f
geogebra.common.kernel.algos.AlgoConicPartConicParameters -> geogebra.common.l.c.X:
    geogebra.common.kernel.kernelND.GeoConicND newGeoConicPart(geogebra.common.kernel.Construction,int) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
geogebra.common.kernel.algos.AlgoConicPartConicPoints -> geogebra.common.l.c.Y:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoPoint Q -> b
    void setTempValues() -> c
    geogebra.common.kernel.kernelND.GeoConicND newGeoConicPart(geogebra.common.kernel.Construction,int) -> a
    void computeParemeters() -> e
    double getStartParameter() -> a
    double getEndParameter() -> b
    geogebra.common.kernel.geos.GeoConicPart getConicPart() -> a
    geogebra.common.kernel.kernelND.GeoConicND getConicPart() -> a
geogebra.common.kernel.algos.AlgoConicPartConicPointsND -> geogebra.common.l.c.Z:
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    geogebra.common.kernel.kernelND.GeoPointND endPoint -> b
    void initCoords() -> f
    void setTempValues() -> c
    geogebra.common.kernel.kernelND.GeoConicND newGeoConicPart(geogebra.common.kernel.Construction,int) -> a
    void setIncidence() -> g
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND getEndPoint() -> b
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> b
    void setInputOutput() -> a_
    void compute() -> b
    void computeParemeters() -> e
    double getStartParameter() -> a
    double getEndParameter() -> b
geogebra.common.kernel.algos.AlgoCountIf -> geogebra.common.l.c.aa:
    geogebra.common.kernel.geos.GeoFunction boolFun -> a
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCountIf3 -> geogebra.common.l.c.ab:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    geogebra.common.kernel.geos.GeoBoolean bool -> a
    geogebra.common.kernel.geos.GeoElement var -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoCurveCartesian -> geogebra.common.l.c.ac:
    geogebra.common.kernel.arithmetic.NumberValue[] coords -> a
    geogebra.common.kernel.arithmetic.NumberValue from -> a
    geogebra.common.kernel.arithmetic.NumberValue to -> b
    geogebra.common.kernel.geos.GeoNumeric localVar -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND curve -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND createCurve(geogebra.common.kernel.Construction,geogebra.common.kernel.arithmetic.Function[]) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoCurveCartesianND getCurve() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDefined -> geogebra.common.l.c.ad:
    geogebra.common.kernel.geos.GeoElement inputGeo -> a
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDenominator -> geogebra.common.l.c.ae:
    geogebra.common.kernel.arithmetic.ExpressionValue getPart(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentBoolean -> geogebra.common.l.c.af:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.kernel.geos.GeoBoolean bool -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getGeoBoolean() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getExpression() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentConic -> geogebra.common.l.c.ag:
    geogebra.common.kernel.arithmetic.Equation equation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[] ev -> a
    geogebra.common.kernel.geos.GeoConic conic -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoConic getConic() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentFunction -> geogebra.common.l.c.ah:
    geogebra.common.kernel.arithmetic.Function fun -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.Function expandedFun -> b
    geogebra.common.kernel.arithmetic.ExpressionNode expression -> a
    boolean expContainsFunctions -> a
    java.util.HashSet unconditionalInput -> a
    java.lang.StringBuilder sb -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFunction() -> a
    void compute() -> b
    boolean inputDefined() -> e
    geogebra.common.kernel.arithmetic.ExpressionValue expandFunctionDerivativeNodes(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean containsFunctions(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getDerivativeLabel(geogebra.common.kernel.arithmetic.Function) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.algos.AlgoDependentFunctionNVar -> geogebra.common.l.c.ai:
    geogebra.common.kernel.arithmetic.FunctionNVar fun -> a
    geogebra.common.kernel.geos.GeoFunctionNVar f -> a
    geogebra.common.kernel.arithmetic.ExpressionNode expression -> a
    geogebra.common.kernel.arithmetic.FunctionNVar expandedFun -> b
    boolean expContainsFunctions -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunctionNVar getFunction() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentGeoCopy -> geogebra.common.l.c.aj:
    geogebra.common.kernel.arithmetic.ExpressionNode origGeoNode -> a
    geogebra.common.kernel.geos.GeoElement origGeo -> a
    geogebra.common.kernel.geos.GeoElement copyGeo -> b
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getGeo() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentInterval -> geogebra.common.l.c.ak:
    geogebra.common.kernel.algos.Algos getClassName() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoDependentLine -> geogebra.common.l.c.al:
    geogebra.common.kernel.arithmetic.Equation equation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[] ev -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentList -> geogebra.common.l.c.am:
    java.util.ArrayList listItems -> a
    geogebra.common.kernel.geos.GeoList geoList -> a
    boolean isCellRange -> a
    java.lang.String cellRangeString -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    void remove() -> a
    geogebra.common.kernel.geos.GeoList getGeoList() -> a
    int getRelatedModeID() -> f_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentListExpression -> geogebra.common.l.c.an:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getList() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentNumber -> geogebra.common.l.c.ao:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.kernel.geos.GeoNumeric number -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getNumber() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getExpression() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentPoint -> geogebra.common.l.c.ap:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoVec2D temp -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getExpressionNode() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentText -> geogebra.common.l.c.aq:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.StringTemplate oldTpl -> a
    geogebra.common.kernel.arithmetic.ExpressionValue numToTrace -> a
    boolean numToTraceSet -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.arithmetic.ExpressionNode getRoot() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    void compute() -> b
    void nodeToGeoText(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setSpreadsheetTraceableText() -> e
    geogebra.common.kernel.arithmetic.ExpressionNode getSpecialCopy(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue copy(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void setNumToTrace(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDependentVector -> geogebra.common.l.c.ar:
    geogebra.common.kernel.arithmetic.ExpressionNode root -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoVec2D temp -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getExpression() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDiameterLine -> geogebra.common.l.c.as:
    geogebra.common.kernel.geos.GeoVector v -> a
    void createOutput(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
geogebra.common.kernel.algos.AlgoDiameterLineND -> geogebra.common.l.c.at:
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.kernelND.GeoLineND diameter -> b
    void createOutput(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoLineND getLine() -> a
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> a
    geogebra.common.kernel.kernelND.GeoLineND getDiameter() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDiameterVector -> geogebra.common.l.c.au:
    void createOutput(geogebra.common.kernel.Construction) -> a
    void compute() -> b
geogebra.common.kernel.algos.AlgoDiameterVectorND -> geogebra.common.l.c.av:
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.kernelND.GeoLineND diameter -> a
    void createOutput(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoLineND getDiameter() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDilate -> geogebra.common.l.c.aw:
    geogebra.common.kernel.kernelND.GeoPointND S -> a
    geogebra.common.kernel.geos.Dilateable out -> a
    geogebra.common.kernel.arithmetic.NumberValue r -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.geos.GeoElement rgeo -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    void compute() -> b
    void setOutGeo() -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.Matrix.Coords getPointCoords() -> a
    void transformLimitedPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDirection -> geogebra.common.l.c.ax:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDispatcher -> geogebra.common.l.c.ay:
    geogebra.common.kernel.Construction cons -> a
    java.util.ArrayList intersectionAlgos -> a
    int DETACH_OFFSET -> a
    void removeIntersectionAlgorithm(geogebra.common.kernel.algos.AlgoIntersectAbstract) -> a
    void addIntersectionAlgorithm(geogebra.common.kernel.algos.AlgoIntersectAbstract) -> b
    geogebra.common.kernel.geos.GeoPoint Point(java.lang.String,double,double,boolean) -> a
    geogebra.common.kernel.geos.GeoVector Vector(java.lang.String,double,double) -> a
    geogebra.common.kernel.kernelND.GeoVectorND Vector(java.lang.String) -> b
    geogebra.common.kernel.kernelND.GeoVectorND Vector() -> b
    geogebra.common.kernel.geos.GeoVector Vector(double,double) -> a
    geogebra.common.kernel.geos.GeoPoint Point(java.lang.String,geogebra.common.kernel.Path,double,double,boolean,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND Point(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.Matrix.Coords,boolean,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoPoint Point(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoLine Line(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoRay Ray(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoRay Ray(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoVector) -> a
    geogebra.common.kernel.geos.GeoLine Line(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.geos.GeoLine OrthogonalLine(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoVector) -> a
    geogebra.common.kernel.geos.GeoLine OrthogonalLine(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoLine) -> b
    geogebra.common.kernel.geos.GeoLine LineBisector(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> b
    geogebra.common.kernel.geos.GeoLine LineBisector(java.lang.String,geogebra.common.kernel.geos.GeoSegment) -> a
    geogebra.common.kernel.geos.GeoLine AngularBisector(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoLine[] AngularBisector(java.lang.String[],geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.geos.GeoVector Vector(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.kernelND.GeoVectorND Vector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> b
    geogebra.common.kernel.kernelND.GeoVectorND createVector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumeric Slope(java.lang.String,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.geos.GeoSegment Segment(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoList List(java.lang.String,java.util.ArrayList,boolean) -> a
    geogebra.common.kernel.geos.GeoFunction DependentFunction(java.lang.String,geogebra.common.kernel.arithmetic.Function) -> a
    geogebra.common.kernel.geos.GeoTextField textfield(java.lang.String,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoLine Line(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoVector) -> b
    geogebra.common.kernel.geos.GeoElement[] Segment(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] SegmentFixed(java.lang.String,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] Angle(java.lang.String[],geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoNumberValue,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] Rotate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoAngle Angle(java.lang.String,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.geos.GeoAngle Angle(java.lang.String,geogebra.common.kernel.geos.GeoVector,geogebra.common.kernel.geos.GeoVector) -> a
    geogebra.common.kernel.geos.GeoAngle Angle(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] Angles(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoNumeric getDefaultNumber(boolean) -> a
    geogebra.common.kernel.geos.GeoConic Circle(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoConicPart CircumcircleArc(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoConicPart CircumcircleSector(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> b
    geogebra.common.kernel.geos.GeoConicPart CircleArcSector(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,int) -> a
    geogebra.common.kernel.kernelND.GeoPointND Center(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoConic Circle(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoConicPart Semicircle(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.kernelND.GeoConicND Parabola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoConicND Ellipse(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.kernelND.GeoConicND EllipseHyperbola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    geogebra.common.kernel.kernelND.GeoConicND Hyperbola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.kernelND.GeoConicND Conic(java.lang.String,geogebra.common.kernel.geos.GeoPoint[]) -> a
    geogebra.common.kernel.geos.GeoElement DiameterLine(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement DiameterLine(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] RegularPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoNumeric Area(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoNumeric Perimeter(java.lang.String,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoNumeric Circumference(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> b
    geogebra.common.kernel.geos.GeoElement[] Dilate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly ImplicitPoly(java.lang.String,geogebra.common.kernel.geos.GeoFunctionNVar) -> a
    geogebra.common.kernel.geos.GeoPoint PointIn(java.lang.String,geogebra.common.kernel.Region,double,double,boolean,boolean,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND PointIn(java.lang.String,geogebra.common.kernel.Region,geogebra.common.kernel.Matrix.Coords,boolean,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoPoint Midpoint(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoPoint Midpoint(java.lang.String,geogebra.common.kernel.geos.GeoSegment) -> a
    geogebra.common.kernel.geos.GeoNumeric Length(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoNumeric Length(java.lang.String,geogebra.common.kernel.geos.GeoLocus) -> a
    geogebra.common.kernel.geos.GeoElement[] Polygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.geos.GeoElement[] Polygon(java.lang.String[],geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLine(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectPolygons(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoElement[] Union(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.geos.GeoPolygon) -> b
    geogebra.common.kernel.geos.GeoElement Locus(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean LocusCheck(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoLocus Locus(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoNumeric Distance(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.kernelND.GeoPointND IntersectLines(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoLocus[] NSolveODE(java.lang.String[],geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectLinePolyLine(java.lang.String[],geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoPolyLine) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectLineCurve(java.lang.String[],geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectCurveCurve(java.lang.String[],geogebra.common.kernel.geos.GeoCurveCartesian,geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectCurveCurveSingle(java.lang.String[],geogebra.common.kernel.geos.GeoCurveCartesian,geogebra.common.kernel.geos.GeoCurveCartesian,double,double) -> a
    geogebra.common.kernel.geos.GeoElement[] IntersectLinePolygon(java.lang.String[],geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectFunctions(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectFunctionLine(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectLineConic(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] IntersectConics(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectPolynomials(java.lang.String[],geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectPolynomialsSingle(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectPolynomialLine(java.lang.String[],geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectConicsSingle(java.lang.String,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectPolynomialConic(java.lang.String[],geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectImplicitpolyLine(java.lang.String[],geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectImplicitpolyPolynomial(java.lang.String[],geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectImplicitpolys(java.lang.String[],geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectImplicitpolyConic(java.lang.String[],geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.algos.AlgoIntersectPolynomialConic getIntersectionAlgorithm(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.algos.AlgoIntersectLineConic getIntersectionAlgorithm(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.algos.AlgoIntersectConics getIntersectionAlgorithm(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.algos.AlgoIntersectPolynomials getIntersectionAlgorithm(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.algos.AlgoIntersectPolynomialLine getIntersectionAlgorithm(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.implicit.AlgoIntersectImplicitpolyParametric getIntersectionAlgorithm(geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.implicit.AlgoIntersectImplicitpolyParametric getIntersectionAlgorithm(geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.implicit.AlgoIntersectImplicitpolys getIntersectionAlgorithm(geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    geogebra.common.kernel.implicit.AlgoIntersectImplicitpolys getIntersectionAlgorithm(geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.algos.AlgoElement findExistingIntersectionAlgorithm(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] Tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] CommonTangents(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] Tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoLine Tangent(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.geos.GeoLine[] Tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    geogebra.common.kernel.geos.GeoElement[] Translate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoVec3D) -> a
    geogebra.common.kernel.geos.GeoElement[] TranslateND(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoConic) -> a
    geogebra.common.kernel.geos.GeoElement[] Mirror(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.kernelND.GeoPointND attach(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.Path,geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.kernelND.GeoPointND attach(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.Region,geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.kernelND.GeoPointND detach(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> b
    geogebra.common.kernel.kernelND.GeoPointND copyFreePoint(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> a
    boolean detach(geogebra.common.kernel.kernelND.GeoPointND,double,double,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectPolynomialLineSingle(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoLine,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectPolynomialConicSingle(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoConic,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolyLineSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoLine,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolyPolynomialSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolyConicSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoConic,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolysSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.implicit.GeoImplicitPoly,double,double) -> a
    geogebra.common.kernel.algos.AlgoClosestPoint getNewAlgoClosestPoint(geogebra.common.kernel.Construction,geogebra.common.kernel.Path,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoAngle createLineAngle(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.algos.AlgoVertexPolygon newAlgoVertexPolygon(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.geos.GeoPoly) -> a
geogebra.common.kernel.algos.AlgoDistanceLineLine -> geogebra.common.l.c.az:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoLine h -> b
    geogebra.common.kernel.geos.GeoNumeric dist -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getDistance() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDistancePointObject -> geogebra.common.l.c.aA:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.geos.GeoElement g -> a
    geogebra.common.kernel.geos.GeoNumeric dist -> a
    geogebra.common.kernel.algos.AlgoClosestPoint closePt -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getDistance() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    double getClosestFunctionValueToPoint(geogebra.common.kernel.arithmetic.Function,double,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDistancePoints -> geogebra.common.l.c.aB:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoPointND Q -> b
    geogebra.common.kernel.geos.GeoNumeric dist -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getDistance() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDiv -> geogebra.common.l.c.aC:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDrawingPadCorner -> geogebra.common.l.c.aD:
    geogebra.common.kernel.kernelND.GeoPointND corner -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    geogebra.common.kernel.arithmetic.NumberValue evNum -> b
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getCorner() -> a
    void compute() -> b
    boolean euclidianViewUpdate() -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoDynamicCoordinatesInterface -> geogebra.common.l.c.aE:
    geogebra.common.kernel.geos.GeoPoint getParentPoint() -> b
geogebra.common.kernel.algos.AlgoElement -> geogebra.common.l.c.aF:
    geogebra.common.kernel.geos.GeoElement[] input -> a
    geogebra.common.kernel.geos.GeoElement[] output -> b
    geogebra.common.kernel.geos.GeoElement[] efficientInput -> c
    boolean isPrintedInXML -> a
    boolean stopUpdateCascade -> c
    java.util.List outputHandler -> a
    boolean mayHaveRandomAncestors -> b
    java.util.TreeSet tempSet -> a
    boolean removed -> d
    boolean protectedInput -> e
    java.util.ArrayList freeInputPoints -> a
    java.util.ArrayList inputPoints -> b
    java.lang.StringBuilder sbAE -> a
    geogebra.common.kernel.algos.AlgoElement updateAfterAlgo -> a
    void addToConstructionList() -> n
    void setOutputLength(int) -> e
    void setOnlyOutput(geogebra.common.kernel.geos.ToGeoElement) -> a
    void setOutput(int,geogebra.common.kernel.geos.GeoElement) -> a
    void setOutput(geogebra.common.kernel.geos.GeoElement[]) -> a
    geogebra.common.kernel.geos.GeoElement getOutput(int) -> a
    int getOutputLength() -> h
    void refreshOutput() -> o
    java.lang.String getCommandString(geogebra.common.kernel.algos.GetCommand) -> a
    void setInputOutput() -> a_
    void compute() -> b
    void initForNearToRelationship() -> p_
    boolean isNearToAlgorithm() -> s_
    void update() -> q_
    boolean updateUnlabeledRandomGeos() -> g
    void updateDependentGeos() -> h
    void updateCascadeAlgos(java.util.ArrayList) -> a
    java.util.TreeSet getTempSet() -> b
    geogebra.common.kernel.geos.GeoElement[] getOutput() -> c
    geogebra.common.kernel.geos.GeoElement[] getInput() -> d
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    geogebra.common.kernel.geos.GeoElement[] getInputForUpdateSetPropagation() -> a_
    void setDependencies() -> p
    void setDependenciesOutputOnly() -> q
    void doSetDependencies() -> r
    void setEfficientDependencies(geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoElement[]) -> b
    void setOutputDependencies() -> g
    void setOutputDependencies(geogebra.common.kernel.geos.GeoElement) -> c
    boolean euclidianViewUpdate() -> f
    void removeOutput() -> s
    void remove() -> a
    void setProtectedInput(boolean) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void removeOutputExcept(geogebra.common.kernel.geos.GeoElement) -> a
    void notifyAdd() -> t
    void notifyRemove() -> u
    geogebra.common.kernel.geos.GeoElement[] getGeoElements() -> e
    boolean hasSingleOutputType() -> h
    boolean isAlgoElement() -> i
    boolean isGeoElement() -> j
    boolean isConsProtocolBreakpoint() -> k
    int compareTo(geogebra.common.kernel.algos.ConstructionElement) -> a
    int getConstructionIndex() -> d
    int getMinConstructionIndex() -> i
    int getMaxConstructionIndex() -> j
    java.util.TreeSet getAllIndependentPredecessors() -> a
    void addPredecessorsToSet(java.util.TreeSet,boolean) -> a
    java.util.ArrayList getFreeInputPoints() -> b
    java.util.ArrayList getInputPoints() -> c
    boolean isIndependent() -> f_
    java.lang.String getNameDescription() -> a_
    java.lang.String getAlgebraDescriptionRegrOut(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String getCommandDescription(geogebra.common.kernel.StringTemplate) -> c
    void appendCheckVector(java.lang.StringBuilder,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString() -> toString
    java.lang.String getCommandName(geogebra.common.kernel.StringTemplate) -> d
    void getXML(boolean,java.lang.StringBuilder) -> a
    void getXML_OGP(java.lang.StringBuilder) -> c
    java.lang.String getXML() -> c
    void getXML(java.lang.StringBuilder,boolean) -> a
    void getXML_OGP(java.lang.StringBuilder,boolean) -> b
    void getOutputXML(java.lang.StringBuilder) -> a
    java.lang.String getExpXML(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String getCmdXML(java.lang.String,geogebra.common.kernel.StringTemplate) -> a
    int getInputLength() -> k
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    int getInputLengthForXMLMayNeedXOYPlane() -> l
    int getInputLengthForCommandDescriptionMayNeedXOYPlane() -> m
    geogebra.common.kernel.geos.GeoElement getInputMaybeXOYPlane(int) -> c
    void getCmdOutputXML(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    void setPrintedInXML(boolean) -> d
    boolean isPrintedInXML() -> m
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toExpString(geogebra.common.kernel.StringTemplate) -> f
    boolean doStopUpdateCascade() -> n
    void setStopUpdateCascade(boolean) -> e
    boolean wantsConstructionProtocolUpdate() -> u_
    void setUpdateAfterAlgo(geogebra.common.kernel.algos.AlgoElement) -> a
    geogebra.common.kernel.algos.AlgoElement getUpdateAfterAlgo() -> a
    void removeOutputFromAlgebraView() -> m_
    void removeOutputFromPicking() -> b_
    java.util.List getOutputHandler() -> a
    void setOutputHandler(java.util.List) -> a
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    boolean isLocusEquable() -> t_
geogebra.common.kernel.algos.AlgoElement$OutputHandler -> geogebra.common.l.c.aF$a:
    geogebra.common.kernel.algos.AlgoElement$elementFactory fac -> a
    java.util.ArrayList outputList -> a
    java.lang.String[] labels -> a
    java.lang.String indexLabel -> a
    boolean setLabels -> a
    int labelsSetLength -> a
    geogebra.common.kernel.algos.AlgoElement this$0 -> a
    void removeFromHandler() -> a
    void adjustOutputSize(int) -> a
    void adjustOutputSize(int,boolean) -> a
    void augmentOutputSize(int) -> b
    void augmentOutputSize(int,boolean) -> b
    void addOutput(geogebra.common.kernel.geos.GeoElement[],boolean,boolean) -> a
    void addOutput(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setLabels(java.lang.String[]) -> a
    void setIndexLabels(java.lang.String) -> a
    void updateLabels() -> b
    void setUndefined() -> c
    void update() -> d
    void updateParentAlgorithm() -> e
    geogebra.common.kernel.geos.GeoElement getElement(int) -> a
    geogebra.common.kernel.geos.GeoElement[] getOutput(geogebra.common.kernel.geos.GeoElement[]) -> a
    int size() -> a
geogebra.common.kernel.algos.AlgoElement$elementFactory -> geogebra.common.l.c.aF$b:
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoEllipseFociLength -> geogebra.common.l.c.aG:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoEllipseHyperbolaFociPoint -> geogebra.common.l.c.aH:
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoPoint getA2d() -> a
    geogebra.common.kernel.geos.GeoPoint getB2d() -> b
    geogebra.common.kernel.geos.GeoPoint getC2d() -> c
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
geogebra.common.kernel.algos.AlgoEllipseHyperbolaFociPointND -> geogebra.common.l.c.aI:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.kernelND.GeoPointND C -> c
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    int type -> a
    void initCoords() -> c
    void setOrientation(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void addIncidence() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInput() -> e
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> a
    geogebra.common.kernel.kernelND.GeoPointND getFocus1() -> a
    geogebra.common.kernel.kernelND.GeoPointND getFocus2() -> b
    geogebra.common.kernel.kernelND.GeoPointND getExternalPoint() -> c
    void compute() -> b
    geogebra.common.kernel.geos.GeoPoint getA2d() -> a
    geogebra.common.kernel.geos.GeoPoint getB2d() -> b
    geogebra.common.kernel.geos.GeoPoint getC2d() -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoExtremumMulti -> geogebra.common.l.c.aJ:
    geogebra.common.kernel.geos.GeoFunction f1 -> b
    geogebra.common.kernel.arithmetic.NumberValue left -> a
    geogebra.common.kernel.geos.GeoElement geoleft -> a
    geogebra.common.kernel.arithmetic.NumberValue right -> b
    geogebra.common.kernel.geos.GeoElement georight -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoPoint[] getExtremumPoints() -> a
    void setInputOutput() -> a_
    void compute() -> b
    double[] findExtremums(geogebra.common.kernel.roots.RealRootFunction,double,double,int) -> a
    int findNumberOfSamples(double,double) -> a
    double gradient(geogebra.common.kernel.roots.RealRootFunction,double,double,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoExtremumPolynomial -> geogebra.common.l.c.aK:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoExtremumPolynomialInterval -> geogebra.common.l.c.aL:
    geogebra.common.kernel.arithmetic.Function interval -> b
    void compute() -> b
geogebra.common.kernel.algos.AlgoFirst -> geogebra.common.l.c.aM:
    geogebra.common.kernel.geos.GeoElement inputList -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoList outputList -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoFirstLocus -> geogebra.common.l.c.aN:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
geogebra.common.kernel.algos.AlgoFirstString -> geogebra.common.l.c.aO:
    geogebra.common.kernel.geos.GeoText inputText -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoText outputText -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoFocus -> geogebra.common.l.c.aP:
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoPointND[] focus -> a
    double temp1 -> a
    double temp2 -> b
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    void createFocus(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND[] getFocus() -> a
    void compute() -> b
    void setCoords(int,double,double) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoFractionText -> geogebra.common.l.c.aQ:
    geogebra.common.kernel.geos.GeoNumberValue num -> a
    geogebra.common.kernel.geos.GeoText text -> a
    double[] frac -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    double[] DecimalToFraction(double,double) -> a
    boolean isLaTeXTextCommand() -> v_
    void appendFormula(java.lang.StringBuilder,double[],geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoFractionTextPoint -> geogebra.common.l.c.aR:
    geogebra.common.kernel.kernelND.GeoPointND p -> a
    geogebra.common.kernel.geos.GeoText text -> a
    double[] xCoord -> a
    double[] yCoord -> b
    double[] zCoord -> c
    java.lang.StringBuilder sb -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.algos.AlgoFunctionAreaSums -> geogebra.common.l.c.aS:
    double CHECKPOINTS -> a
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType type -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.NumberValue n -> c
    geogebra.common.kernel.arithmetic.NumberValue width -> d
    geogebra.common.kernel.arithmetic.NumberValue density -> e
    geogebra.common.kernel.arithmetic.NumberValue p1 -> f
    geogebra.common.kernel.arithmetic.NumberValue p2 -> g
    geogebra.common.kernel.arithmetic.NumberValue p3 -> h
    geogebra.common.kernel.arithmetic.NumberValue d -> i
    geogebra.common.kernel.geos.GeoList list1 -> a
    geogebra.common.kernel.geos.GeoList list2 -> b
    geogebra.common.kernel.geos.GeoList list3 -> c
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement bgeo -> b
    geogebra.common.kernel.geos.GeoElement ngeo -> c
    geogebra.common.kernel.geos.GeoElement dgeo -> d
    geogebra.common.kernel.geos.GeoElement widthGeo -> e
    geogebra.common.kernel.geos.GeoElement densityGeo -> f
    geogebra.common.kernel.geos.GeoElement useDensityGeo -> g
    geogebra.common.kernel.geos.GeoElement isCumulative -> h
    geogebra.common.kernel.geos.GeoElement p1geo -> i
    geogebra.common.kernel.geos.GeoElement p2geo -> j
    geogebra.common.kernel.geos.GeoElement p3geo -> k
    geogebra.common.kernel.geos.GeoNumeric sum -> a
    int N -> a
    double STEP -> b
    double[] yval -> a
    double[] leftBorder -> b
    geogebra.common.kernel.optimization.ExtremumFinder extrFinder -> a
    double freqMax -> c
    boolean histogramRight -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$algos$AlgoFunctionAreaSums$SumType -> a
    geogebra.common.kernel.arithmetic.NumberValue getP1() -> a
    geogebra.common.kernel.geos.GeoElement getDensityGeo() -> a
    geogebra.common.kernel.geos.GeoElement getUseDensityGeo() -> b
    geogebra.common.kernel.geos.GeoElement getIsCumulative() -> c
    double getFreqMax() -> a
    double[] getYValue() -> a
    double[] getLeftBorder() -> b
    boolean isRight() -> e
    boolean euclidianViewUpdate() -> f
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getF() -> a
    int getIntervals() -> e
    double getStep() -> b
    double[] getValues() -> c
    geogebra.common.kernel.geos.GeoNumeric getSum() -> a
    geogebra.common.kernel.arithmetic.NumberValue getA() -> b
    geogebra.common.kernel.arithmetic.NumberValue getB() -> c
    geogebra.common.kernel.geos.GeoNumeric getN() -> b
    geogebra.common.kernel.geos.GeoNumeric getD() -> c
    void compute() -> b
    void compute(boolean) -> a
    boolean functionDefined(double,double) -> a
    boolean useTrapeziums() -> o
    boolean isHistogram() -> p
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType getType() -> a
    boolean prepareDistributionLists() -> q
    void loadDistributionLists(int,int,org.apache.commons.math.distribution.IntegerDistribution) -> a
    void update() -> q_
    int[] $SWITCH_TABLE$geogebra$common$kernel$algos$AlgoFunctionAreaSums$SumType() -> a
geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType -> geogebra.common.l.c.aS$a:
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType UPPERSUM -> a
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType LOWERSUM -> b
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType LEFTSUM -> c
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType RECTANGLESUM -> d
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType TRAPEZOIDALSUM -> e
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART -> f
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_RAWDATA -> g
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_FREQUENCY_TABLE -> h
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_FREQUENCY_TABLE_WIDTH -> i
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType HISTOGRAM -> j
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType HISTOGRAM_DENSITY -> k
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_BINOMIAL -> l
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_PASCAL -> m
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_POISSON -> n
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_HYPERGEOMETRIC -> o
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_BERNOULLI -> p
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType BARCHART_ZIPF -> q
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType[] ENUM$VALUES -> a
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType[] values() -> values
    geogebra.common.kernel.algos.AlgoFunctionAreaSums$SumType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.algos.AlgoFunctionFreehand -> geogebra.common.l.c.aT:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoFunction g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFunction() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoList getList() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoFunctionInterval -> geogebra.common.l.c.aU:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement bgeo -> b
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.arithmetic.ExpressionNode exp -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFunction() -> a
    void compute() -> b
    boolean hasEqualExpressions(geogebra.common.kernel.geos.GeoFunction) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoFunctionMinMax -> geogebra.common.l.c.aV:
    geogebra.common.kernel.geos.GeoFunctionable function -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue left -> a
    geogebra.common.kernel.geos.GeoElement geoleft -> a
    geogebra.common.kernel.arithmetic.NumberValue right -> b
    geogebra.common.kernel.geos.GeoElement georight -> b
    geogebra.common.kernel.geos.GeoPoint E -> a
    geogebra.common.kernel.optimization.ExtremumFinder extrFinder -> a
    boolean isMin -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoGCD -> geogebra.common.l.c.aW:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoGeoPointsFunction -> geogebra.common.l.c.aX:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoPoint[] points -> a
    java.lang.String[] labels -> a
    boolean initLabels -> b
    boolean setLabels -> a
    geogebra.common.kernel.geos.GeoPoint[] getPoints() -> b
    void showOneRootInAlgebraView() -> e
    void removeDuplicates(double[]) -> a
    void setPoints(double[],int) -> a
    double yAt(double) -> a
    void updateLabels(int) -> a
    void noUndefinedPointsInAlgebraView(geogebra.common.kernel.geos.GeoPoint[]) -> a
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void initPoints(int) -> b
    void removePoint(int) -> c
geogebra.common.kernel.algos.AlgoHyperbolaFociLength -> geogebra.common.l.c.aY:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIf -> geogebra.common.l.c.aZ:
    geogebra.common.kernel.geos.GeoElement result -> a
    java.util.ArrayList alternatives -> a
    java.util.ArrayList conditions -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode toExpression() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoImageCorner -> geogebra.common.l.c.ba:
    geogebra.common.kernel.geos.GeoImage img -> a
    geogebra.common.kernel.geos.GeoPoint corner -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getCorner() -> a
    void compute() -> b
    boolean euclidianViewUpdate() -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntegralFunctions -> geogebra.common.l.c.bb:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoBoolean evaluate -> a
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement bgeo -> b
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoNumeric intF -> b
    geogebra.common.kernel.geos.GeoNumeric intG -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.AlgoIntegralFunctions copy() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getIntegral() -> a
    geogebra.common.kernel.geos.GeoFunction getF() -> a
    geogebra.common.kernel.geos.GeoFunction getG() -> b
    geogebra.common.kernel.arithmetic.NumberValue getA() -> a
    geogebra.common.kernel.arithmetic.NumberValue getB() -> b
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.algos.AlgoIntegralODE -> geogebra.common.l.c.bc:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoPoint p -> a
    geogebra.common.kernel.geos.GeoLocus locus -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar f0 -> a
    geogebra.common.kernel.algos.AlgoNumerator numAlgo -> a
    geogebra.common.kernel.algos.AlgoDenominator denAlgo -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar num -> b
    geogebra.common.kernel.arithmetic.FunctionalNVar den -> c
    boolean quotient -> a
    java.util.ArrayList al -> a
    org.apache.commons.math.ode.sampling.StepHandler stepHandler -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntegralODE$1 -> geogebra.common.l.c.bd:
    geogebra.common.kernel.algos.AlgoIntegralODE this$0 -> a
    void reset() -> a
    boolean requiresDenseOutput() -> a
    void handleStep(org.apache.commons.math.ode.sampling.StepInterpolator,boolean) -> a
geogebra.common.kernel.algos.AlgoIntegralODE$ODE -> geogebra.common.l.c.bc$a:
    geogebra.common.kernel.arithmetic.FunctionalNVar f -> a
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
geogebra.common.kernel.algos.AlgoIntegralODE$ODE2 -> geogebra.common.l.c.bc$b:
    geogebra.common.kernel.arithmetic.FunctionalNVar y0 -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar y1 -> b
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
geogebra.common.kernel.algos.AlgoIntersect -> geogebra.common.l.c.be:
    void avoidDoubleTangentPoint() -> e
    int getClosestPointIndex(double,double) -> a
    int getClosestPointIndex(geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.geos.GeoPoint[] getCopyOfIntersectionPoints() -> b
    geogebra.common.kernel.geos.GeoPoint[] getLastDefinedIntersectionPoints() -> c
    void setCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getIntersectionPoints() -> b
    geogebra.common.kernel.kernelND.GeoPointND[] getLastDefinedIntersectionPoints() -> a
geogebra.common.kernel.algos.AlgoIntersectAbstract -> geogebra.common.l.c.bf:
geogebra.common.kernel.algos.AlgoIntersectConics -> geogebra.common.l.c.bg:
    geogebra.common.kernel.geos.GeoConic A -> a
    geogebra.common.kernel.geos.GeoConic B -> b
    geogebra.common.kernel.geos.GeoPoint[] P -> a
    geogebra.common.kernel.geos.GeoPoint[] D -> b
    geogebra.common.kernel.geos.GeoPoint[] Q -> c
    java.util.ArrayList preexistPoints -> a
    java.util.ArrayList newPoints -> b
    java.util.HashMap botanaPolynomials -> a
    java.util.HashMap botanaVars -> b
    geogebra.common.kernel.geos.GeoConic degConic -> c
    geogebra.common.kernel.geos.GeoLine tempLine -> a
    int[] age -> a
    int[] permutation -> b
    double[][] distTable -> a
    boolean[] isQonPath -> a
    boolean[] isPalive -> b
    boolean firstIntersection -> a
    boolean isLimitedPathSituation -> b
    boolean isPermutationNeeded -> f
    boolean possibleSpecialCase -> g
    int specialCasePointOnCircleIndex -> a
    geogebra.common.kernel.PointPairList pointList -> a
    geogebra.common.kernel.EquationSolverInterface eqnSolver -> a
    geogebra.common.kernel.SystemOfEquationsSolver sysSolver -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void addIncidence() -> g
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.geos.GeoConic getA() -> a
    geogebra.common.kernel.geos.GeoConic getB() -> b
    geogebra.common.kernel.geos.GeoPoint[] getLastDefinedIntersectionPoints() -> c
    boolean isNearToAlgorithm() -> s_
    void initForNearToRelationship() -> p_
    void compute() -> b
    void matchExistingIntersections() -> l
    boolean handleSpecialCase() -> e
    geogebra.common.kernel.kernelND.GeoPointND getPointFrom1on2(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic) -> a
    void computeNonContinous() -> m
    void computeContinuous() -> v
    void handleLimitedPaths() -> w
    void updateQonPath() -> x
    boolean pointLiesOnBothPaths(geogebra.common.kernel.geos.GeoPoint) -> a
    boolean isSingularitySituation() -> o
    void intersectConics(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[]) -> a
    void moveDefinedPointsToFront(geogebra.common.kernel.geos.GeoPoint[]) -> a
    void intersectWithDegenerate(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[],double) -> a
    boolean testPoints(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[],double) -> a
    double absCrossProduct(double,double,double,double) -> a
    boolean calcIntersectionPoints(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[],double) -> b
    boolean intersectConicsWithEqualSubmatrixS(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[],double) -> c
    void normalizeArray(double[]) -> a
    void distanceTable(geogebra.common.kernel.geos.GeoPoint[],int[],geogebra.common.kernel.geos.GeoPoint[],double[][]) -> a
    void setNearTo(geogebra.common.kernel.geos.GeoPoint[],boolean[],geogebra.common.kernel.geos.GeoPoint[],boolean[],double[][],geogebra.common.kernel.PointPairList,int[],boolean,double) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectCurveCurve -> geogebra.common.l.c.bh:
    geogebra.common.kernel.geos.GeoCurveCartesian curve2 -> b
    geogebra.common.kernel.geos.GeoNumberValue t1 -> a
    geogebra.common.kernel.geos.GeoNumberValue t2 -> b
    boolean numeric -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    void checkPointInRange(double,double,geogebra.common.kernel.geos.GeoPoint) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoIntersectCurveCurve$1 -> geogebra.common.l.c.bi:
    geogebra.common.kernel.algos.AlgoIntersectCurveCurve this$0 -> a
    geogebra.common.kernel.geos.GeoPoint newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoIntersectFunctionLineNewton -> geogebra.common.l.c.bj:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoLine line -> a
    geogebra.common.kernel.geos.GeoPoint startPoint -> a
    geogebra.common.kernel.geos.GeoPoint rootPoint -> b
    geogebra.common.kernel.kernelND.GeoPointND tangentPoint -> a
    geogebra.common.kernel.arithmetic.Function diffFunction -> a
    boolean isDefinedAsTangent -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoPoint getIntersectionPoint() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoIntersectFunctions -> geogebra.common.l.c.bk:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectFunctionsNewton -> geogebra.common.l.c.bl:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.geos.GeoPoint startPoint -> a
    geogebra.common.kernel.geos.GeoPoint rootPoint -> b
    geogebra.common.kernel.arithmetic.Function diffFunction -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void compute() -> b
    void computeRootBoolean(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.geos.GeoPoint getIntersectionPoint() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoIntersectLineConic -> geogebra.common.l.c.bm:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoPoint[] D -> c
    geogebra.common.kernel.geos.GeoPoint[] P -> a
    geogebra.common.kernel.geos.GeoPoint[] Q -> b
    int intersectionType -> a
    java.util.HashMap botanaPolynomials -> a
    java.util.HashMap botanaVars -> b
    int[] age -> a
    int[] permutation -> b
    double[][] distTable -> a
    boolean[] isQonPath -> a
    boolean[] isPalive -> b
    boolean isDefinedAsTangent -> b
    boolean firstIntersection -> f
    boolean isPermutationNeeded -> g
    geogebra.common.kernel.kernelND.GeoPointND tangentPoint -> a
    geogebra.common.kernel.PointPairList pointList -> a
    boolean isLimitedPathSituation -> h
    boolean possibleSpecialCase -> a
    int specialCasePointOnCircleIndex -> b
    double[] xyz -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void addIncidence() -> l
    void initElements() -> g
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoConic getConic() -> a
    geogebra.common.kernel.geos.GeoPoint[] getLastDefinedIntersectionPoints() -> c
    boolean isNearToAlgorithm() -> s_
    void initForNearToRelationship() -> p_
    void compute() -> b
    boolean handleSpecialCase() -> e
    boolean handleSpecialCasePoint(geogebra.common.kernel.geos.GeoPoint) -> a
    void computeNonContinous() -> m
    void computeContinous() -> v
    void handleLimitedPaths() -> w
    void updateQonPath() -> x
    boolean pointLiesOnBothPaths(geogebra.common.kernel.geos.GeoPoint) -> b
    int intersect(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[]) -> a
    int intersectLineConic(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.geos.GeoPoint[],double) -> a
    boolean testPoints(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint[],double) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectLineCurve -> geogebra.common.l.c.bn:
    geogebra.common.kernel.geos.GeoLine line -> a
    geogebra.common.kernel.geos.GeoCurveCartesian curve -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectLineCurve$1 -> geogebra.common.l.c.bo:
    geogebra.common.kernel.algos.AlgoIntersectLineCurve this$0 -> a
    geogebra.common.kernel.geos.GeoPoint newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoIntersectLinePolyLine -> geogebra.common.l.c.bp:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.geos.GeoPolyLine p -> a
    geogebra.common.kernel.geos.GeoPoly pi -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> a
    java.util.TreeMap newCoords -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void intersectionsCoords(geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.geos.GeoPolyLine,java.util.TreeMap) -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectLinePolyLine$1 -> geogebra.common.l.c.bq:
    geogebra.common.kernel.algos.AlgoIntersectLinePolyLine this$0 -> a
    geogebra.common.kernel.geos.GeoPoint newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoIntersectLines -> geogebra.common.l.c.br:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoLine h -> b
    geogebra.common.kernel.geos.GeoPoint S -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    geogebra.common.kernel.geos.GeoLine geth() -> a
    geogebra.common.kernel.geos.GeoLine getg() -> b
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectPathLinePolygon -> geogebra.common.l.c.bs:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.geos.GeoPolygon p -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegments -> b
    java.util.TreeMap newCoords -> a
    boolean hasLabels -> a
    geogebra.common.kernel.Matrix.Coords o1 -> a
    geogebra.common.kernel.Matrix.Coords d1 -> b
    geogebra.common.kernel.Matrix.Coords project1 -> c
    geogebra.common.kernel.Matrix.Coords project2 -> d
    double[] lineCoords -> a
    double[] tmp -> b
    geogebra.common.kernel.Matrix.Coords project -> e
    double[] parameters -> c
    void setFirstInput(geogebra.common.kernel.geos.GeoElement) -> b_
    geogebra.common.kernel.geos.GeoElement getFirstInput() -> a
    void setSecondInput(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement getSecondInput() -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputSegments() -> a
    void setSegmentVisualProperties(geogebra.common.kernel.geos.GeoElement) -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void setIntersectionLine() -> f
    boolean checkParameter(double) -> a
    void intersectionsCoords(geogebra.common.kernel.geos.GeoPolygon) -> a
    boolean onSegment(double) -> b
    boolean checkMidpoint(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void addStartEndPoints() -> e
    void addPolygonPoints() -> i
    void addCoords(double,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.kernelND.GeoElementND) -> a
    void setNewCoords() -> g
    void compute() -> b
    void setSegment(geogebra.common.kernel.kernelND.GeoSegmentND,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersectPathLinePolygon$1 -> geogebra.common.l.c.bt:
    geogebra.common.kernel.algos.AlgoIntersectPathLinePolygon this$0 -> a
    geogebra.common.kernel.geos.GeoSegment newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoIntersectPolynomialConic -> geogebra.common.l.c.bu:
    geogebra.common.kernel.geos.GeoFunction h -> a
    geogebra.common.kernel.geos.GeoConic c -> a
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    double getYValue(double) -> a
geogebra.common.kernel.algos.AlgoIntersectPolynomialLine -> geogebra.common.l.c.bv:
    void addIncidence() -> l
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoIntersectPolynomials -> geogebra.common.l.c.bw:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoIntersectSingle -> geogebra.common.l.c.bx:
    geogebra.common.kernel.algos.AlgoIntersect algo -> a
    geogebra.common.kernel.geos.GeoNumberValue index -> a
    geogebra.common.kernel.geos.GeoPoint refPoint -> a
    geogebra.common.kernel.geos.GeoPoint point -> b
    geogebra.common.kernel.geos.GeoPoint[] parentOutput -> a
    int idx -> a
    void addIncidence() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.algos.AlgoIntersect getAlgo() -> a
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.geos.GeoPoint[] getLastDefinedIntersectionPoints() -> c
    boolean isNearToAlgorithm() -> s_
    void initForNearToRelationship() -> p_
    void compute() -> b
    void remove() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntersection -> geogebra.common.l.c.by:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList inputList2 -> b
    geogebra.common.kernel.geos.GeoList outputList -> c
    int size -> a
    int size2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntervalAbstract -> geogebra.common.l.c.bz:
    geogebra.common.kernel.geos.GeoInterval interval -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
geogebra.common.kernel.algos.AlgoIntervalMax -> geogebra.common.l.c.bA:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntervalMidpoint -> geogebra.common.l.c.bB:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIntervalMin -> geogebra.common.l.c.bC:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIsInteger -> geogebra.common.l.c.bD:
    geogebra.common.kernel.geos.GeoNumeric inputGeo -> a
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIteration -> geogebra.common.l.c.bE:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoNumberValue startValue -> a
    geogebra.common.kernel.geos.GeoNumberValue n -> b
    geogebra.common.kernel.geos.GeoElement startValueGeo -> a
    geogebra.common.kernel.geos.GeoElement nGeo -> b
    geogebra.common.kernel.geos.GeoNumeric result -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoIterationList -> geogebra.common.l.c.bF:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoNumberValue startValue -> a
    geogebra.common.kernel.geos.GeoNumberValue n -> b
    geogebra.common.kernel.geos.GeoElement startValueGeo -> a
    geogebra.common.kernel.geos.GeoElement nGeo -> b
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void setListElement(int,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoJoin -> geogebra.common.l.c.bG:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    int size2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoJoinPoints -> geogebra.common.l.c.bH:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoPoint Q -> b
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    geogebra.common.kernel.geos.GeoPoint getQ() -> b
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoJoinPointsRay -> geogebra.common.l.c.bI:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoPoint Q -> b
    geogebra.common.kernel.geos.GeoRay ray -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoRay getRay() -> a
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    geogebra.common.kernel.geos.GeoPoint getQ() -> b
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoJoinPointsSegment -> geogebra.common.l.c.bJ:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoPoint Q -> b
    geogebra.common.kernel.geos.GeoSegment s -> a
    geogebra.common.kernel.geos.GeoPolygon poly -> a
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    void setIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoSegment getSegment() -> a
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    geogebra.common.kernel.geos.GeoPoint getQ() -> b
    geogebra.common.kernel.geos.GeoPolygon getPoly() -> a
    void compute() -> b
    void remove() -> a
    int getConstructionIndex() -> d
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.geos.GeoElement getPoly() -> a
geogebra.common.kernel.algos.AlgoJoinPointsSegmentInterface -> geogebra.common.l.c.bK:
    geogebra.common.kernel.geos.GeoElement getPoly() -> a
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void compute() -> b
geogebra.common.kernel.algos.AlgoKeepIf -> geogebra.common.l.c.bL:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.geos.GeoFunction boolFun -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoKeepIf3 -> geogebra.common.l.c.bM:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.geos.GeoBoolean bool -> a
    geogebra.common.kernel.geos.GeoElement var -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLCM -> geogebra.common.l.c.bN:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLaTeX -> geogebra.common.l.c.bO:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoBoolean substituteVars -> a
    geogebra.common.kernel.geos.GeoBoolean showName -> b
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    void compute() -> b
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLast -> geogebra.common.l.c.bP:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLastString -> geogebra.common.l.c.bQ:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
geogebra.common.kernel.algos.AlgoLengthLocus -> geogebra.common.l.c.bR:
    geogebra.common.kernel.geos.GeoLocus locus -> a
    geogebra.common.kernel.geos.GeoNumeric length -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLengthSegment -> geogebra.common.l.c.bS:
    geogebra.common.kernel.kernelND.GeoSegmentND seg -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLengthVector -> geogebra.common.l.c.bT:
    geogebra.common.kernel.geos.GeoVec3D v -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    double[] coords -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLetterToUnicode -> geogebra.common.l.c.bU:
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLineBisector -> geogebra.common.l.c.bV:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoPoint midPoint -> c
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoPoint getMidPoint() -> c
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLineBisectorSegment -> geogebra.common.l.c.bW:
    geogebra.common.kernel.geos.GeoSegment s -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoPoint midPoint -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoSegment getSegment() -> a
    geogebra.common.kernel.geos.GeoPoint getMidPoint() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLinePointLine -> geogebra.common.l.c.bX:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoLine l -> a
    geogebra.common.kernel.geos.GeoLine g -> b
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    geogebra.common.kernel.geos.GeoLine getl() -> b
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLinePointVector -> geogebra.common.l.c.bY:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoListElement -> geogebra.common.l.c.bZ:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    geogebra.common.kernel.arithmetic.NumberValue[] num2 -> a
    geogebra.common.kernel.geos.GeoElement numGeo -> a
    geogebra.common.kernel.geos.GeoElement element -> b
    geogebra.common.kernel.geos.GeoElement getGenericElement(geogebra.common.kernel.geos.GeoList,int) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getElement() -> a
    void compute() -> b
    void setElement(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoListGCD -> geogebra.common.l.c.ca:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getGCD() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoListLCM -> geogebra.common.l.c.cb:
    java.math.BigInteger bigZero -> a
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLCM() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoListLength -> geogebra.common.l.c.cc:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric length -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoListMax -> geogebra.common.l.c.cd:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoList freqList -> b
    geogebra.common.kernel.geos.GeoNumeric max -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getMax() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoListMin -> geogebra.common.l.c.ce:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoList freqList -> b
    geogebra.common.kernel.geos.GeoNumeric min -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getMin() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLocus -> geogebra.common.l.c.cf:
    void createStartPos(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoLocus newGeoLocus(geogebra.common.kernel.Construction) -> a
    boolean isFarAway(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    boolean distanceOK(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.awt.GRectangle2D) -> a
    boolean distanceSmall(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    void insertPoint(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    void insertPoint(double,double,boolean) -> a
    boolean isFarAway(double,double,int) -> a
    boolean differentFromLast(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean areEqual(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.MyPoint[] createQCopyCache() -> a
    void setQCopyCache(geogebra.common.kernel.MyPoint,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.MyPoint newCache() -> a
    geogebra.common.kernel.geos.GeoLocusND newGeoLocus(geogebra.common.kernel.Construction) -> a
geogebra.common.kernel.algos.AlgoLocusList -> geogebra.common.l.c.cg:
    int MIN_STEPS_REALLY -> a
    java.util.ArrayList arrLocus -> a
    geogebra.common.kernel.geos.GeoPoint movingPoint -> a
    geogebra.common.kernel.geos.GeoPoint locusPoint -> b
    geogebra.common.kernel.geos.GeoLocus locus -> a
    geogebra.common.kernel.geos.GeoElement[] efficientInput -> b
    geogebra.common.kernel.geos.GeoElement[] standardInput -> c
    geogebra.common.kernel.Path path -> a
    boolean foundDefined -> a
    java.util.TreeSet Qin -> a
    boolean shouldUpdateScreenBorders -> b
    void fillLocusArray(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoPoint getMovingPoint() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getLocus() -> a
    void compute() -> b
    boolean isPathIterable(geogebra.common.kernel.geos.GeoElement) -> a
    void insertPoint(double,double,boolean) -> a
    boolean euclidianViewUpdate() -> f
    void updateScreenBorders() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLocusND -> geogebra.common.l.c.ch:
    int MAX_TIME_FOR_ONE_STEP -> a
    int MIN_STEPS_INSTANCE -> b
    int MAX_X_PIXEL_DIST -> c
    int MAX_Y_PIXEL_DIST -> e
    geogebra.common.kernel.kernelND.GeoPointND movingPoint -> a
    geogebra.common.kernel.kernelND.GeoPointND locusPoint -> b
    geogebra.common.kernel.geos.GeoLocusND locus -> a
    geogebra.common.kernel.geos.GeoElement[] efficientInput -> b
    geogebra.common.kernel.geos.GeoElement[] standardInput -> c
    geogebra.common.kernel.Path path -> a
    geogebra.common.kernel.PathMover pathMover -> a
    int pointCount -> d
    geogebra.common.kernel.kernelND.GeoPointND Pcopy -> c
    geogebra.common.kernel.kernelND.GeoPointND Qcopy -> d
    geogebra.common.kernel.kernelND.GeoPointND PstartPos -> e
    geogebra.common.kernel.kernelND.GeoPointND QstartPos -> f
    double lastX -> a
    double lastY -> b
    double[] maxXdist -> d
    double[] maxYdist -> e
    double[] xmin -> f
    double[] xmax -> g
    double[] ymin -> h
    double[] ymax -> i
    double[] farXmin -> j
    double[] farXmax -> k
    double[] farYmin -> l
    double[] farYmax -> m
    geogebra.common.awt.GRectangle2D[] nearToScreenRect -> a
    boolean continuous -> a
    boolean[] lastFarAway -> a
    boolean foundDefined -> b
    boolean maxTimeExceeded -> f
    geogebra.common.kernel.Construction macroCons -> b
    geogebra.common.kernel.MacroKernel macroKernel -> a
    java.util.TreeSet locusConsOrigElements -> a
    java.util.TreeSet Qin -> b
    int views -> f
    double[] paramCache -> n
    geogebra.common.kernel.MyPoint[] qcopyCache -> a
    int cacheIndex -> g
    boolean[] visibleEV -> b
    void createMaxDistances() -> e
    void createStartPos(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoLocusND newGeoLocus(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.kernelND.GeoPointND getLocusPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND getMovingPoint() -> b
    void init() -> j
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocusND getLocus() -> a
    void buildLocusMacroConstruction(java.util.TreeSet) -> a
    void resetMacroConstruction() -> k
    void compute() -> b
    boolean differentFromLast(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean areEqual(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isPathIterable(geogebra.common.kernel.geos.GeoElement) -> a
    void pcopyUpdateCascade() -> l
    void clearCache() -> m
    geogebra.common.awt.GPoint2D getCachedPoint(double) -> a
    void putCachedPoint(double,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.MyPoint[] createQCopyCache() -> a
    void setQCopyCache(geogebra.common.kernel.MyPoint,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.MyPoint newCache() -> a
    void insertPoint(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    boolean isFarAway(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    boolean distanceOK(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.awt.GRectangle2D) -> a
    boolean distanceOK(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean distanceSmall(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    boolean isVisibleInEV(int) -> b
    void updateScreenBordersIfNecessary() -> g
    void updateScreenBorders(int) -> b
    void setMaxDistances(int) -> a
    void updateScreenBorders() -> i
    boolean euclidianViewUpdate() -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLocusSlider -> geogebra.common.l.c.ci:
    int MAX_TIME_FOR_ONE_STEP -> a
    int MAX_X_PIXEL_DIST -> b
    int MAX_Y_PIXEL_DIST -> c
    geogebra.common.kernel.geos.GeoPoint locusPoint -> a
    geogebra.common.kernel.geos.GeoNumeric movingSlider -> a
    geogebra.common.kernel.geos.GeoLocus locus -> a
    geogebra.common.kernel.geos.GeoElement[] efficientInput -> b
    geogebra.common.kernel.geos.GeoElement[] standardInput -> c
    geogebra.common.kernel.SliderMover sliderMover -> a
    int pointCount -> d
    geogebra.common.kernel.geos.GeoPoint Qcopy -> b
    geogebra.common.kernel.geos.GeoPoint QstartPos -> c
    geogebra.common.kernel.geos.GeoNumeric Pcopy -> b
    geogebra.common.kernel.geos.GeoNumeric PstartPos -> c
    double lastX -> a
    double lastY -> b
    double maxXdist -> c
    double maxYdist -> d
    double xmin -> e
    double xmax -> f
    double ymin -> g
    double ymax -> h
    double farXmin -> i
    double farXmax -> j
    double farYmin -> k
    double farYmax -> l
    double maxXdist2 -> m
    double maxYdist2 -> n
    double xmin2 -> o
    double xmax2 -> p
    double ymin2 -> q
    double ymax2 -> r
    double farXmin2 -> s
    double farXmax2 -> t
    double farYmin2 -> u
    double farYmax2 -> v
    geogebra.common.awt.GRectangle2D nearToScreenRect -> a
    geogebra.common.awt.GRectangle2D nearToScreenRect2 -> b
    boolean continuous -> f
    boolean lastFarAway -> g
    boolean lastFarAway2 -> h
    boolean foundDefined -> i
    boolean maxTimeExceeded -> j
    geogebra.common.kernel.Construction macroCons -> b
    geogebra.common.kernel.MacroKernel macroKernel -> a
    java.util.TreeSet locusConsOrigElements -> a
    java.util.TreeSet Qin -> b
    int views -> e
    double[] paramCache -> a
    geogebra.common.awt.GPoint2D[] qcopyCache -> a
    int cacheIndex -> f
    boolean visibleEV1 -> a
    boolean visibleEV2 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void init() -> g
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getLocus() -> a
    void buildLocusMacroConstruction(java.util.TreeSet) -> a
    void resetMacroConstruction() -> i
    void compute() -> b
    void pcopyUpdateCascade() -> j
    void clearCache() -> k
    geogebra.common.awt.GPoint2D getCachedPoint(double) -> a
    void putCachedPoint(double,geogebra.common.kernel.geos.GeoPoint) -> a
    void insertPoint(double,double,boolean) -> a
    boolean isFarAway(double,double) -> a
    boolean isFarAway2(double,double) -> b
    boolean distanceOK(geogebra.common.kernel.geos.GeoPoint) -> a
    boolean distanceSmall(geogebra.common.kernel.geos.GeoPoint,boolean) -> a
    boolean isVisibleInEV1() -> e
    boolean isVisibleInEV2() -> o
    void updateScreenBordersIfNecessary() -> e
    void updateScreenBorders() -> l
    boolean euclidianViewUpdate() -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoLocusSliderInterface -> geogebra.common.l.c.cj:
geogebra.common.kernel.algos.AlgoMacro -> geogebra.common.l.c.ck:
    geogebra.common.kernel.Macro macro -> a
    geogebra.common.kernel.geos.GeoElement[] macroInput -> b
    geogebra.common.kernel.geos.GeoElement[] macroOutput -> c
    java.util.HashMap macroToAlgoMap -> a
    java.util.ArrayList macroOutputAndReferencedGeos -> a
    java.util.ArrayList algoOutputAndReferencedGeos -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void remove() -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    java.lang.String getCommandName(geogebra.common.kernel.StringTemplate) -> d
    void setInputOutput() -> a_
    geogebra.common.kernel.Macro getMacro() -> a
    void compute() -> b
    boolean isMacroInputObject(geogebra.common.kernel.geos.GeoElement) -> a
    void setMacroConstructionState() -> e
    void getMacroConstructionState() -> g
    void createOutputObjects() -> i
    void initMap() -> j
    void map(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getAlgoGeo(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement createAlgoCopy(geogebra.common.kernel.geos.GeoElement) -> b
    void initSpecialReferences(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    void initLine(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoLine) -> a
    void initConic(geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic) -> a
    void initLocateable(geogebra.common.kernel.Locateable,geogebra.common.kernel.Locateable) -> a
    void initPolygon(geogebra.common.kernel.geos.GeoPolygon,geogebra.common.kernel.geos.GeoPolygon) -> a
    void initList(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    void initFunction(geogebra.common.kernel.arithmetic.FunctionNVar) -> a
    void replaceReferencedMacroObjects(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    boolean drawBefore(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.kernel.algos.AlgoMacroInterface -> geogebra.common.l.c.cl:
    void initFunction(geogebra.common.kernel.arithmetic.FunctionNVar) -> a
    void initList(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    boolean drawBefore(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.algos.AlgoMax -> geogebra.common.l.c.cm:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoMedian -> geogebra.common.l.c.cn:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList freqList -> b
    geogebra.common.kernel.geos.GeoNumeric median -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getMedian() -> a
    void compute() -> b
    java.lang.Double getValueAt(int,java.lang.Double[],java.lang.Integer[]) -> a
    java.lang.Object[] convertValueFreqListToArrays(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoMidpoint -> geogebra.common.l.c.co:
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    void copyCoords(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoPoint getP() -> b
    geogebra.common.kernel.geos.GeoPoint getQ() -> c
    void computeMidCoords() -> e
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.kernelND.GeoPointND getP() -> b
    geogebra.common.kernel.kernelND.GeoPointND getQ() -> c
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
geogebra.common.kernel.algos.AlgoMidpointSegment -> geogebra.common.l.c.cp:
    geogebra.common.kernel.geos.GeoSegment segment -> a
    geogebra.common.kernel.geos.GeoPoint M -> a
    geogebra.common.kernel.geos.GeoPoint P -> b
    geogebra.common.kernel.geos.GeoPoint Q -> c
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    geogebra.common.kernel.geos.GeoPoint getQ() -> b
    geogebra.common.kernel.geos.GeoPoint getPoint() -> c
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoMin -> geogebra.common.l.c.cq:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoMirror -> geogebra.common.l.c.cr:
    geogebra.common.kernel.geos.Mirrorable out -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.kernelND.GeoLineND mirrorLine -> a
    geogebra.common.kernel.kernelND.GeoPointND mirrorPoint -> a
    geogebra.common.kernel.geos.GeoConic mirrorConic -> a
    geogebra.common.kernel.geos.GeoElement mirror -> c
    geogebra.common.kernel.geos.GeoPoint transformedPoint -> a
    void endOfConstruction(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void computeRegardingMirror() -> e
    void setOutGeo() -> f
    geogebra.common.kernel.Matrix.Coords getMirrorCoords() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    void transformLimitedPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    boolean swapOrientation(geogebra.common.kernel.geos.GeoConicPart) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoMod -> geogebra.common.l.c.cs:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoNSolveODE -> geogebra.common.l.c.ct:
    geogebra.common.kernel.geos.GeoList fun -> a
    geogebra.common.kernel.geos.GeoList startY -> b
    geogebra.common.kernel.geos.GeoNumeric startX -> a
    geogebra.common.kernel.geos.GeoNumeric endX -> b
    geogebra.common.kernel.geos.GeoLocus[] out -> a
    java.util.ArrayList[] al -> a
    double t0 -> a
    double[] y0 -> a
    int dim -> a
    org.apache.commons.math.ode.sampling.StepHandler stepHandler -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoLocus[] getResult() -> a
    void setInputOutput() -> a_
    void compute() -> b
    void setUndefined() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoNSolveODE$1 -> geogebra.common.l.c.cu:
    geogebra.common.kernel.algos.AlgoNSolveODE this$0 -> a
    void reset() -> a
    boolean requiresDenseOutput() -> a
    void handleStep(org.apache.commons.math.ode.sampling.StepInterpolator,boolean) -> a
geogebra.common.kernel.algos.AlgoNSolveODE$ODEN -> geogebra.common.l.c.ct$a:
    geogebra.common.kernel.geos.GeoList fun1 -> a
    geogebra.common.kernel.algos.AlgoNSolveODE this$0 -> a
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
geogebra.common.kernel.algos.AlgoName -> geogebra.common.l.c.cv:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoNumerator -> geogebra.common.l.c.cw:
    geogebra.common.kernel.arithmetic.FunctionalNVar f -> a
    geogebra.common.kernel.geos.GeoElement g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    geogebra.common.kernel.arithmetic.ExpressionValue getPart(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoObject -> geogebra.common.l.c.cx:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoText text -> a
    java.lang.String currentLabel -> a
    geogebra.common.kernel.geos.GeoElement refObject -> b
    geogebra.common.kernel.geos.GeoElement[] inputForUpdateSetPropagation -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void updateReferencedObject() -> e
    geogebra.common.kernel.geos.GeoElement[] getInputForUpdateSetPropagation() -> a_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoOrthoLinePointConic -> geogebra.common.l.c.cy:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoConic l -> a
    geogebra.common.kernel.geos.GeoLine[] g -> a
    geogebra.common.kernel.geos.GeoNumeric[] n -> a
    geogebra.common.kernel.algos.AlgoPointOnPath[] algoPoint -> a
    geogebra.common.kernel.algos.AlgoClosestPoint closestPoint -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void addIncidence() -> e
    void setInputOutput() -> a_
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoOrthoLinePointLine -> geogebra.common.l.c.cz:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoLine l -> a
    geogebra.common.kernel.geos.GeoLine g -> b
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    void addIncidence() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInput() -> e
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    geogebra.common.kernel.geos.GeoLine getl() -> b
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoOrthoLinePointVector -> geogebra.common.l.c.cA:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    void addIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getLine() -> a
    void compute() -> b
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoOrthoVectorLine -> geogebra.common.l.c.cB:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoVector n -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoOrthoVectorVector -> geogebra.common.l.c.cC:
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoVector n -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoParabolaPointLine -> geogebra.common.l.c.cD:
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
geogebra.common.kernel.algos.AlgoParabolaPointLineND -> geogebra.common.l.c.cE:
    geogebra.common.kernel.kernelND.GeoPointND F -> a
    geogebra.common.kernel.kernelND.GeoLineND l -> a
    geogebra.common.kernel.kernelND.GeoConicND parabola -> a
    geogebra.common.kernel.kernelND.GeoConicND newGeoConic(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoConicND getParabola() -> a
    geogebra.common.kernel.kernelND.GeoPointND getFocus() -> a
    geogebra.common.kernel.kernelND.GeoLineND getLine() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPerimeterLocus -> geogebra.common.l.c.cF:
    geogebra.common.kernel.geos.GeoLocus locus -> a
    geogebra.common.kernel.geos.GeoNumeric circum -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPerimeterPoly -> geogebra.common.l.c.cG:
    geogebra.common.kernel.geos.GeoPolygon polygon -> a
    geogebra.common.kernel.geos.GeoNumeric circum -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.geos.GeoNumeric getCircumference() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPointInRegion -> geogebra.common.l.c.cH:
    geogebra.common.kernel.Region region -> a
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getP() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPointList -> geogebra.common.l.c.cI:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPointOnPath -> geogebra.common.l.c.cJ:
    geogebra.common.kernel.Path path -> a
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.arithmetic.NumberValue param -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomials -> b
    geogebra.common.kernel.prover.polynomial.Variable variable -> a
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    void addIncidence() -> e
    void createPoint(geogebra.common.kernel.Path,double,double,double) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getP() -> a
    geogebra.common.kernel.Path getPath() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isChangeable() -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPointVector -> geogebra.common.l.c.cK:
    void compute() -> b
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
geogebra.common.kernel.algos.AlgoPointVectorND -> geogebra.common.l.c.cL:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.kernelND.GeoPointND Q -> b
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getQ() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPointsFromList -> geogebra.common.l.c.cM:
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoPoint[] points -> a
    java.lang.String[] labels -> a
    boolean initLabels -> a
    boolean setLabels -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint[] getPoints() -> a
    void compute() -> b
    void setPoints(double[],double[],int) -> a
    void updateLabels(int) -> a
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void initPoints(int) -> b
    void removeRootPoint(int) -> c
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolarLine -> geogebra.common.l.c.cN:
    geogebra.common.kernel.kernelND.GeoLineND newGeoLine(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
geogebra.common.kernel.algos.AlgoPolarLineND -> geogebra.common.l.c.cO:
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoLineND polar -> a
    geogebra.common.kernel.kernelND.GeoLineND newGeoLine(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    geogebra.common.kernel.kernelND.GeoConicND getConic() -> a
    geogebra.common.kernel.kernelND.GeoLineND getLine() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolarPoint -> geogebra.common.l.c.cP:
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
geogebra.common.kernel.algos.AlgoPolarPointND -> geogebra.common.l.c.cQ:
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoLineND line -> a
    geogebra.common.kernel.kernelND.GeoPointND polar -> a
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolyLine -> geogebra.common.l.c.cR:
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoPolyLine poly -> a
    boolean penStroke -> a
    java.lang.StringBuilder sb -> b
    void createPolyLine() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void updatePointArray(geogebra.common.kernel.geos.GeoList) -> a
    void setInputOutput() -> a_
    void update() -> q_
    geogebra.common.kernel.geos.GeoPoint[] getPoints() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.geos.GeoElement[] getPoints() -> b
geogebra.common.kernel.algos.AlgoPolygon -> geogebra.common.l.c.cS:
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoPolygon poly -> a
    geogebra.common.kernel.Matrix.CoordSys cs2D -> a
    geogebra.common.kernel.geos.GeoElement polyhedron -> a
    geogebra.common.kernel.kernelND.GeoDirectionND direction -> a
    java.lang.StringBuilder sb -> b
    double[] tmp3 -> a
    void createPolygon(boolean) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void updatePointArray(geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement[] createEfficientInput() -> b
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void setInputOutput() -> a_
    void setOutput() -> g
    void removeOutput() -> s
    void update() -> q_
    geogebra.common.kernel.geos.GeoPolygon getPoly() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getPoints() -> a
    geogebra.common.kernel.geos.GeoElement getPolyhedron() -> a
    void remove() -> a
    void compute() -> b
    double calcAreaWithSign(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void calcCentroid(double[],double,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    double pointsClosedX(int,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    double pointsClosedY(int,geogebra.common.kernel.kernelND.GeoPointND[]) -> b
    void createStringBuilder(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    void calcArea() -> e
    void calcCentroid(geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolygonIntersection -> geogebra.common.l.c.cT:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolygonOperation -> geogebra.common.l.c.cU:
    geogebra.common.kernel.geos.GeoPolygon inPoly0 -> a
    geogebra.common.kernel.geos.GeoPolygon inPoly1 -> b
    geogebra.common.kernel.geos.GeoPolygon poly -> c
    geogebra.common.kernel.geos.GeoPoint[] points -> a
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation operationType -> a
    boolean labelPointsAndSegments -> a
    boolean labelsNeedIniting -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$algos$AlgoPolygonOperation$PolyOperation -> a
    void setInputOutput() -> a_
    void setOutput() -> e
    void compute() -> b
    void updateSegmentsAndPointsLabels() -> g
    void updatePointsArray(int) -> a
    void removePoint(geogebra.common.kernel.geos.GeoPoint) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$algos$AlgoPolygonOperation$PolyOperation() -> a
geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation -> geogebra.common.l.c.cU$a:
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation INTERSECTION -> a
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation UNION -> b
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation DIFFERENCE -> c
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation[] ENUM$VALUES -> a
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation[] values() -> values
    geogebra.common.kernel.algos.AlgoPolygonOperation$PolyOperation valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.algos.AlgoPolygonRegular -> geogebra.common.l.c.cV:
    geogebra.common.kernel.Matrix.Coords centerPointCoords -> a
    geogebra.common.kernel.geos.GeoPolygon newGeoPolygon(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement newGeoPoint(geogebra.common.kernel.Construction) -> a
    void setCenterPoint(int,double) -> a
    void rotate(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setInputOutput() -> a_
    void setDirection(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void calcCentroid(geogebra.common.kernel.geos.GeoPoint) -> a
geogebra.common.kernel.algos.AlgoPolygonRegularND -> geogebra.common.l.c.cW:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoPointND B -> b
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    int numOld -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPolygon -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputSegments -> c
    geogebra.common.kernel.kernelND.GeoPointND centerPoint -> c
    geogebra.common.kernel.arithmetic.MyDouble rotAngle -> a
    boolean labelPointsAndSegments -> a
    boolean showNewSegmentsLabels -> b
    boolean showNewPointsLabels -> f
    boolean labelsNeedIniting -> g
    double alpha -> a
    int n -> b
    geogebra.common.kernel.geos.GeoPolygon newGeoPolygon(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement newGeoPoint(geogebra.common.kernel.Construction) -> a
    void setDirection(geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoPolygon getPoly() -> a
    void compute() -> b
    void setCenterPoint(int,double) -> a
    void rotatePoints(int,double) -> b
    void rotate(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean checkUnDefined(int) -> a
    void compute(int) -> a
    int getCurrentPointsLength() -> e
    void updateOutput(int) -> b
    void removePoint(geogebra.common.kernel.geos.GeoElement) -> b
    void removeOutputExcept(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    void calcArea() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolygonRegularND$1 -> geogebra.common.l.c.cX:
    geogebra.common.kernel.algos.AlgoPolygonRegularND this$0 -> a
    geogebra.common.kernel.geos.GeoPolygon newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoPolygonRegularND$2 -> geogebra.common.l.c.cY:
    geogebra.common.kernel.algos.AlgoPolygonRegularND this$0 -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoPolygonRegularND$3 -> geogebra.common.l.c.cZ:
    geogebra.common.kernel.algos.AlgoPolygonRegularND this$0 -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoPolygonUnion -> geogebra.common.l.c.da:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolynomialFromCoordinates -> geogebra.common.l.c.db:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoFunction g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getPolynomial() -> a
    void compute() -> b
    geogebra.common.kernel.arithmetic.Function buildPolyFunctionExpression(geogebra.common.kernel.Kernel,double[]) -> a
    void polcoe(double[],double[],int,double[]) -> a
    void polcoeBig(double[],double[],int,double[]) -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoPolynomialFromFunction -> geogebra.common.l.c.dc:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.parser.Parser parser -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getPolynomial() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoProduct -> geogebra.common.l.c.dd:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoProductMatrices -> geogebra.common.l.c.de:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoList result -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoQ1 -> geogebra.common.l.c.df:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList freqList -> b
    geogebra.common.kernel.geos.GeoNumeric Q1 -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getQ1() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoQ3 -> geogebra.common.l.c.dg:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList freqList -> b
    geogebra.common.kernel.geos.GeoNumeric Q3 -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getQ3() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRadius -> geogebra.common.l.c.dh:
    geogebra.common.kernel.kernelND.GeoQuadricND c -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getRadius() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRandom -> geogebra.common.l.c.di:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    void setRandomValue(double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRandomFixed -> geogebra.common.l.c.dj:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoNumeric num -> a
    double random -> a
    double aLast -> b
    double bLast -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRayPointVector -> geogebra.common.l.c.dk:
    geogebra.common.kernel.geos.GeoPoint P -> a
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoRay ray -> a
    void setIncidence() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoRay getRay() -> a
    geogebra.common.kernel.geos.GeoVector getv() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRemove -> geogebra.common.l.c.dl:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList inputList2 -> b
    geogebra.common.kernel.geos.GeoList outputList -> c
    int size -> a
    java.util.ArrayList geosToRemove -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRemoveUndefined -> geogebra.common.l.c.dm:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    boolean isDefined(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoReverse -> geogebra.common.l.c.dn:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRootInterval -> geogebra.common.l.c.do:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoPoint rootPoint -> a
    geogebra.common.kernel.geos.GeoElement aGeo -> a
    geogebra.common.kernel.geos.GeoElement bGeo -> b
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver rootFinder -> b
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver rootPolisher -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getRootPoint() -> a
    void compute() -> b
    double calcRoot() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRootList -> geogebra.common.l.c.dp:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRootNewton -> geogebra.common.l.c.dq:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue start -> a
    geogebra.common.kernel.geos.GeoPoint rootPoint -> a
    geogebra.common.kernel.geos.GeoElement startGeo -> a
    org.apache.commons.math.analysis.solvers.NewtonSolver rootFinderNewton -> a
    org.apache.commons.math.analysis.solvers.BrentSolver rootFinderBrent -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getRootPoint() -> b
    void compute() -> b
    double calcRoot(geogebra.common.kernel.arithmetic.Function,double) -> a
    boolean checkRoot(geogebra.common.kernel.arithmetic.Function,double) -> a
    double[] getDomain(geogebra.common.kernel.arithmetic.Function,double) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRoots -> geogebra.common.l.c.dr:
    geogebra.common.kernel.geos.GeoFunction f0 -> b
    geogebra.common.kernel.geos.GeoFunction f1 -> c
    geogebra.common.kernel.geos.GeoFunction f2 -> d
    geogebra.common.kernel.geos.GeoFunction diff -> e
    geogebra.common.kernel.arithmetic.NumberValue left -> a
    geogebra.common.kernel.geos.GeoElement geoleft -> a
    geogebra.common.kernel.arithmetic.NumberValue right -> b
    geogebra.common.kernel.geos.GeoElement georight -> b
    int type -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.geos.GeoPoint[] getRootPoints() -> c
    void setInputOutput() -> a_
    void compute() -> b
    double yAt(double) -> a
    void compute2(geogebra.common.kernel.geos.GeoFunction) -> a
    double[] findRoots(geogebra.common.kernel.geos.GeoFunction,double,double,int) -> a
    double calcSingleRoot(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    int findNumberOfSamples(double,double) -> a
    boolean signChanged(geogebra.common.kernel.geos.GeoFunction,double) -> a
geogebra.common.kernel.algos.AlgoRootsPolynomial -> geogebra.common.l.c.ds:
    int mode -> b
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoFunction g -> b
    geogebra.common.kernel.geos.GeoLine line -> a
    geogebra.common.kernel.geos.GeoPoint[] rootPoints -> a
    java.lang.String[] labels -> a
    boolean initLabels -> b
    boolean setLabels -> a
    geogebra.common.kernel.EquationSolverInterface eqnSolver -> a
    double[] curRoots -> b
    int curRealRoots -> a
    geogebra.common.kernel.arithmetic.Function yValFunction -> a
    geogebra.common.kernel.arithmetic.Function diffFunction -> b
    geogebra.common.kernel.geos.GeoPoint tempPoint -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint[] getRootPoints() -> d
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.geos.GeoPoint[] getLastDefinedIntersectionPoints() -> c
    void compute() -> b
    void computeRoots() -> g
    void computePolynomialIntersection() -> l
    void computePolyLineIntersection() -> m
    void calcRoots(geogebra.common.kernel.arithmetic.Function,int) -> a
    geogebra.common.kernel.roots.RealRootFunction calcRootsMultiple(geogebra.common.kernel.arithmetic.Function,int) -> a
    void ensureSignChanged(geogebra.common.kernel.roots.RealRootFunction) -> a
    void addToCurrentRoots(double[],int) -> b
    void removeRoot(int) -> c
    void setRootPoints(double[],int) -> a
    void updateLabels(int) -> a
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void initRootPoints(int) -> b
    void removeRootPoint(int) -> d
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRootsPolynomialInterval -> geogebra.common.l.c.dt:
    geogebra.common.kernel.arithmetic.Function intervalFun -> b
    geogebra.common.kernel.arithmetic.Function interval -> c
    void compute() -> b
    void computeRoots() -> g
geogebra.common.kernel.algos.AlgoRotate -> geogebra.common.l.c.du:
    geogebra.common.kernel.geos.Rotateable out -> a
    geogebra.common.kernel.arithmetic.NumberValue angle -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.geos.GeoElement angleGeo -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoRotatePoint -> geogebra.common.l.c.dv:
    geogebra.common.kernel.kernelND.GeoPointND Q -> a
    geogebra.common.kernel.geos.PointRotateable out -> a
    geogebra.common.kernel.arithmetic.NumberValue angle -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.geos.GeoElement angleGeo -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSemicircle -> geogebra.common.l.c.dw:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoConicPart conicPart -> a
    geogebra.common.kernel.geos.GeoPoint M -> c
    geogebra.common.kernel.geos.GeoConic conic -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoConicPart getSemicircle() -> a
    geogebra.common.kernel.geos.GeoPoint getA() -> a
    geogebra.common.kernel.geos.GeoPoint getB() -> b
    geogebra.common.kernel.geos.GeoConic getConic() -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    int getInputLengthForXML() -> b
    int getInputLengthForCommandDescription() -> c
    geogebra.common.kernel.geos.GeoElement getInput(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSequence -> geogebra.common.l.c.dx:
    geogebra.common.kernel.geos.GeoElement expression -> a
    geogebra.common.kernel.geos.GeoNumeric var -> a
    geogebra.common.kernel.arithmetic.NumberValue var_from -> a
    geogebra.common.kernel.arithmetic.NumberValue var_to -> b
    geogebra.common.kernel.arithmetic.NumberValue var_step -> c
    geogebra.common.kernel.geos.GeoElement var_from_geo -> b
    geogebra.common.kernel.geos.GeoElement var_to_geo -> c
    geogebra.common.kernel.geos.GeoElement var_step_geo -> d
    geogebra.common.kernel.geos.GeoList list -> a
    boolean isSimple -> a
    double last_from -> a
    double last_to -> b
    double last_step -> c
    boolean expIsFunctionOrCurve -> b
    boolean isEmpty -> f
    geogebra.common.kernel.algos.AlgoElement expressionParentAlgo -> a
    boolean updateRunning -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement[] getInputForUpdateSetPropagation() -> a_
    void compute() -> b
    void computeSimple() -> e
    void createNewList(double,double,double) -> a
    void addElement(int) -> a
    geogebra.common.kernel.geos.GeoElement createNewListElement() -> a
    void updateListItems(double,double,double) -> b
    void updateLocalVar(double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoShearOrStretch -> geogebra.common.l.c.dy:
    geogebra.common.kernel.MatrixTransformable out -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.geos.GeoVec3D line -> a
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    boolean shear -> a
    double n -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    void transformLimitedPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    boolean swapOrientation(geogebra.common.kernel.geos.GeoConicPart) -> a
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSimpleRootsPolynomial -> geogebra.common.l.c.dz:
    boolean setLabels -> a
    geogebra.common.kernel.EquationSolverInterface eqnSolver -> a
    geogebra.common.kernel.geos.GeoElement[] geos -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler points -> a
    void setRootsPolynomial(org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> a
    void setRootsPolynomialWithinRange(org.apache.commons.math.analysis.polynomials.PolynomialFunction,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint[] getIntersectionPoints() -> a
    geogebra.common.kernel.geos.GeoPoint[] getLastDefinedIntersectionPoints() -> c
    void setInputOutput() -> a_
    int getRoots(double[],geogebra.common.kernel.EquationSolverInterface) -> a
    void doCalc(org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> b
    void doCalc(org.apache.commons.math.analysis.polynomials.PolynomialFunction,double,double) -> b
    double distancePairSq(double[],double[]) -> a
    void makePoints(double[],int) -> a
    void setLabels(java.lang.String[]) -> a
    void setPoints(java.util.List) -> b
    int getNrPoints(double) -> a
    double getYValue(double,int) -> a
    double getYValue(double) -> a
    double getXValue(double) -> b
    double getXValue(double,int) -> b
    double[] getXYPair(double,int) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSimpleRootsPolynomial$1 -> geogebra.common.l.c.dA:
    geogebra.common.kernel.algos.AlgoSimpleRootsPolynomial this$0 -> a
    geogebra.common.kernel.geos.GeoPoint newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoSlope -> geogebra.common.l.c.dB:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoNumeric slope -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getSlope() -> a
    geogebra.common.kernel.geos.GeoLine getg() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSort -> geogebra.common.l.c.dC:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.geos.GeoList valueList -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSphereNDPointRadius -> geogebra.common.l.c.dD:
    geogebra.common.kernel.kernelND.GeoPointND M -> a
    geogebra.common.kernel.arithmetic.NumberValue r -> a
    geogebra.common.kernel.geos.GeoElement rgeo -> a
    geogebra.common.kernel.kernelND.GeoQuadricND sphereND -> a
    int type -> a
    geogebra.common.kernel.kernelND.GeoQuadricND createSphereND(geogebra.common.kernel.Construction) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoQuadricND getSphereND() -> a
    geogebra.common.kernel.kernelND.GeoPointND getM() -> a
    geogebra.common.kernel.kernelND.GeoPointND getCenter() -> b
    geogebra.common.kernel.geos.GeoElement getRGeo() -> a
    geogebra.common.kernel.geos.GeoElement getRadiusGeo() -> b
    void compute() -> b
    int getType() -> e
geogebra.common.kernel.algos.AlgoSphereNDTwoPoints -> geogebra.common.l.c.dE:
    geogebra.common.kernel.kernelND.GeoPointND M -> a
    geogebra.common.kernel.kernelND.GeoPointND P -> b
    geogebra.common.kernel.kernelND.GeoQuadricND sphereND -> a
    geogebra.common.kernel.kernelND.GeoQuadricND createSphereND(geogebra.common.kernel.Construction) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoQuadricND getSphereND() -> a
    geogebra.common.kernel.kernelND.GeoPointND getCenter() -> a
    geogebra.common.kernel.kernelND.GeoPointND getM() -> b
    geogebra.common.kernel.kernelND.GeoPointND getExternalPoint() -> c
    geogebra.common.kernel.kernelND.GeoPointND getP() -> d
    void compute() -> b
geogebra.common.kernel.algos.AlgoSpline -> geogebra.common.l.c.dF:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND spline -> a
    geogebra.common.kernel.geos.GeoNumberValue degree -> a
    float[][] floatPoints -> a
    float[][] parameters -> b
    int length -> a
    float[] cumulativeValueOfParameter -> a
    int degreeValue -> b
    float[] parametersValues -> b
    float[] parameterIntervalLimits -> c
    int dimension -> c
    void setInputOutput() -> a_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND getSpline() -> a
    void calculateParameterValues() -> e
    float calculate(float,float[]) -> a
    float[] getParameterIntervalLimits() -> a
    void compute() -> b
    float[] getSystemSolution(float[][]) -> a
    float[][] getLinearSystemParametric(int) -> a
    float fact(int) -> a
    void calcDerivative(float[],int,int,float) -> a
    void calcExtremesDerivative(float[],int,int) -> a
    float calcCoeff(int,int,float) -> a
    float evalForPoint(float[][],int,int,float) -> a
geogebra.common.kernel.algos.AlgoStats1D -> geogebra.common.l.c.dG:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoList geoList2 -> b
    geogebra.common.kernel.geos.GeoNumeric Truncate -> a
    geogebra.common.kernel.geos.GeoNumeric result -> b
    int stat -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
geogebra.common.kernel.algos.AlgoStepGraph -> geogebra.common.l.c.dH:
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.kernel.algos.AlgoStickGraph -> geogebra.common.l.c.dI:
    geogebra.common.kernel.commands.Commands getClassName() -> a
geogebra.common.kernel.algos.AlgoSum -> geogebra.common.l.c.dJ:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumFunctions -> geogebra.common.l.c.dK:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric truncate -> a
    geogebra.common.kernel.geos.GeoFunction resultFun -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumLeft -> geogebra.common.l.c.dL:
    geogebra.common.kernel.algos.AlgoSumLeft copy() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumLower -> geogebra.common.l.c.dM:
    geogebra.common.kernel.algos.AlgoSumLower copy() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumPoints -> geogebra.common.l.c.dN:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric Truncate -> a
    geogebra.common.kernel.geos.GeoElement result -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumRectangle -> geogebra.common.l.c.dO:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.AlgoSumRectangle copy() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumText -> geogebra.common.l.c.dP:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric Truncate -> a
    geogebra.common.kernel.geos.GeoText result -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumTrapezoidal -> geogebra.common.l.c.dQ:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.AlgoSumTrapezoidal copy() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoSumUpper -> geogebra.common.l.c.dR:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.AlgoSumUpper copy() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTableText -> geogebra.common.l.c.dS:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoText args -> b
    geogebra.common.kernel.geos.GeoList[] geoLists -> a
    java.lang.StringBuffer sb -> a
    geogebra.common.kernel.algos.AlgoTableText$Alignment alignment -> a
    boolean verticalLines -> a
    boolean horizontalLines -> b
    java.lang.StringBuilder verticalLinesArray -> b
    java.lang.StringBuilder horizontalLinesArray -> c
    boolean verticalLinesJustEdges -> f
    boolean horizontalLinesJustEdges -> g
    java.lang.String justification -> a
    java.lang.String openBracket -> b
    java.lang.String closeBracket -> c
    java.lang.String openString -> d
    java.lang.String closeString -> e
    int columns -> a
    int rows -> b
    com.google.gwt.regexp.shared.RegExp matchLRC -> a
    boolean isVerticalLines() -> e
    boolean isHorizontalLines() -> o
    java.lang.String getJustification() -> a
    java.lang.String getOpenSymbol() -> d
    java.lang.String getCloseSymbol() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void parseArgs() -> e
    char charAt(java.lang.Object,int) -> a
    void compute() -> b
    void mathml(geogebra.common.kernel.StringTemplate) -> a
    void latex(geogebra.common.kernel.StringTemplate) -> b
    char getJustification(int) -> a
    void latexMQ(geogebra.common.kernel.StringTemplate) -> c
    void addCellLaTeX(int,int,boolean,geogebra.common.kernel.StringTemplate) -> a
    void addCellMathML(int,int,geogebra.common.kernel.StringTemplate) -> a
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTableText$Alignment -> geogebra.common.l.c.dS$a:
    geogebra.common.kernel.algos.AlgoTableText$Alignment VERTICAL -> a
    geogebra.common.kernel.algos.AlgoTableText$Alignment HORIZONTAL -> b
    geogebra.common.kernel.algos.AlgoTableText$Alignment[] ENUM$VALUES -> a
    geogebra.common.kernel.algos.AlgoTableText$Alignment[] values() -> values
    geogebra.common.kernel.algos.AlgoTableText$Alignment valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.algos.AlgoTake -> geogebra.common.l.c.dT:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric m -> a
    geogebra.common.kernel.geos.GeoNumeric n -> b
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTakeString -> geogebra.common.l.c.dU:
    geogebra.common.kernel.geos.GeoText inputText -> a
    geogebra.common.kernel.geos.GeoNumeric n -> a
    geogebra.common.kernel.geos.GeoNumeric m -> b
    geogebra.common.kernel.geos.GeoText outputText -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTangentLine -> geogebra.common.l.c.dV:
    geogebra.common.kernel.geos.GeoVector direction -> a
    void initDiameterAndDirection() -> e
    void setTangents() -> g
    void initForNearToRelationship() -> p_
    void updateDiameterLine() -> i
    void updateTangent(int) -> a
geogebra.common.kernel.algos.AlgoTangentLineND -> geogebra.common.l.c.dW:
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoLineND[] tangents -> a
    geogebra.common.kernel.geos.GeoLine diameter -> a
    geogebra.common.kernel.kernelND.AlgoIntersectND algoIntersect -> a
    geogebra.common.kernel.kernelND.GeoPointND[] tangentPoints -> a
    int i -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void initDiameterAndDirection() -> e
    void setTangents() -> g
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    boolean checkUndefined() -> c
    void compute() -> b
    void updateDiameterLine() -> i
    void updateTangent(int) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTangentPoint -> geogebra.common.l.c.dX:
    boolean isIntersectionPointIncident() -> d
    void setPolar() -> e
    void setTangentFromPolar(int) -> a
    void setTangents() -> g
    geogebra.common.kernel.geos.GeoPoint getPoint() -> a
    geogebra.common.kernel.geos.GeoConic getConic() -> a
    void initForNearToRelationship() -> p_
    void initForNearToRelationship(geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.AlgoIntersectND) -> a
    void updatePolarLine() -> i
    void updateTangents() -> j
geogebra.common.kernel.algos.AlgoTangentPointND -> geogebra.common.l.c.dY:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoLineND[] tangents -> a
    geogebra.common.kernel.geos.GeoLine polar -> a
    geogebra.common.kernel.kernelND.AlgoIntersectND algoIntersect -> a
    geogebra.common.kernel.kernelND.GeoPointND[] tangentPoints -> a
    boolean equalLines -> a
    void setPolar() -> e
    void setTangents() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    boolean checkUndefined() -> c
    void compute() -> b
    void setTangentFromPolar(int) -> a
    boolean isIntersectionPointIncident() -> d
    void updatePolarLine() -> i
    void updateTangents() -> j
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElementForGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.algos.EquationScopeInterface) -> a
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoText -> geogebra.common.l.c.dZ:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoBoolean substituteVars -> a
    geogebra.common.kernel.geos.GeoBoolean latex -> b
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    geogebra.common.kernel.kernelND.GeoPointND startPointCopy -> b
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTextCorner -> geogebra.common.l.c.ea:
    geogebra.common.kernel.geos.GeoText txt -> a
    geogebra.common.kernel.geos.GeoPoint corner -> a
    geogebra.common.kernel.arithmetic.NumberValue number -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getCorner() -> a
    void compute() -> b
    boolean euclidianViewUpdate() -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTextLength -> geogebra.common.l.c.eb:
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoNumeric length -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTextToUnicode -> geogebra.common.l.c.ec:
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTextfield -> geogebra.common.l.c.ed:
    geogebra.common.kernel.geos.GeoElement inputGeo -> a
    geogebra.common.kernel.geos.GeoTextField textfield -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoTextField getResult() -> a
    void compute() -> b
    int getRelatedModeID() -> f_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTransferFunction -> geogebra.common.l.c.ee:
    geogebra.common.kernel.geos.GeoTransferFunction gcf -> a
    geogebra.common.kernel.geos.GeoNumberValue omegaStart -> a
    geogebra.common.kernel.geos.GeoList num -> a
    geogebra.common.kernel.geos.GeoList den -> b
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTransformation -> geogebra.common.l.c.ef:
    geogebra.common.kernel.algos.AlgoClosestPoint pt -> a
    geogebra.common.kernel.geos.GeoPoint transformedPoint -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    void transformList(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement getResultTemplate(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.geos.GeoElement copy(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    void transformLimitedPath(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> b
    boolean swapOrientation(geogebra.common.kernel.geos.GeoConicPart) -> a
    void transformLimitedConic(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> c
    double getAreaScaleFactor() -> a
geogebra.common.kernel.algos.AlgoTranslate -> geogebra.common.l.c.eg:
    geogebra.common.kernel.geos.Translateable out -> a
    geogebra.common.kernel.geos.GeoElement inGeo -> a
    geogebra.common.kernel.geos.GeoElement outGeo -> b
    geogebra.common.kernel.geos.GeoElement v -> c
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void setOutGeo() -> e
    geogebra.common.kernel.Matrix.Coords getVectorCoords() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void setTransformedObject(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    double getAreaScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTranslateVector -> geogebra.common.l.c.eh:
    geogebra.common.kernel.kernelND.GeoPointND A -> a
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.kernelND.GeoVectorND w -> b
    geogebra.common.kernel.kernelND.GeoVectorND newGeoVector(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoVectorND getTranslatedVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoTurningPointPolynomial -> geogebra.common.l.c.ei:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.algos.AlgoTurningPointPolynomialInterval -> geogebra.common.l.c.ej:
    geogebra.common.kernel.arithmetic.Function interval -> b
    void compute() -> b
geogebra.common.kernel.algos.AlgoTwoNumFunction -> geogebra.common.l.c.ek:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoNumeric num -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
geogebra.common.kernel.algos.AlgoUnicodeToLetter -> geogebra.common.l.c.el:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoUnicodeToText -> geogebra.common.l.c.em:
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoUnitOrthoVectorLine -> geogebra.common.l.c.en:
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.geos.GeoVector n -> a
    double length -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoUnitOrthoVectorVector -> geogebra.common.l.c.eo:
    geogebra.common.kernel.geos.GeoVector v -> a
    geogebra.common.kernel.geos.GeoVector n -> b
    double length -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoVector getVector() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoUnitVector -> geogebra.common.l.c.ep:
    geogebra.common.kernel.geos.GeoElement inputGeo -> a
    geogebra.common.kernel.kernelND.GeoVectorND u -> a
    double length -> a
    geogebra.common.kernel.kernelND.GeoVectorND createVector(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.kernelND.GeoPointND getInputStartPoint() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.kernelND.GeoVectorND getVector() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoUnitVector2D -> geogebra.common.l.c.eq:
    double x -> b
    double y -> c
    geogebra.common.kernel.kernelND.GeoVectorND createVector(geogebra.common.kernel.Construction) -> a
    void compute() -> b
    void setXY() -> e
geogebra.common.kernel.algos.AlgoUnitVectorLine -> geogebra.common.l.c.er:
    void setXY() -> e
    geogebra.common.kernel.kernelND.GeoPointND getInputStartPoint() -> a
geogebra.common.kernel.algos.AlgoUnitVectorVector -> geogebra.common.l.c.es:
    void setXY() -> e
    geogebra.common.kernel.kernelND.GeoPointND getInputStartPoint() -> a
geogebra.common.kernel.algos.AlgoVector -> geogebra.common.l.c.et:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoPointND Q -> b
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.kernelND.GeoVectorND createNewVector() -> a
    geogebra.common.kernel.kernelND.GeoPointND newStartPoint() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoVectorND getVector() -> b
    geogebra.common.kernel.kernelND.GeoPointND getP() -> b
    geogebra.common.kernel.kernelND.GeoPointND getQ() -> c
    void compute() -> b
    void setCoords() -> e
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoVectorPoint -> geogebra.common.l.c.eu:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoVectorND v -> a
    geogebra.common.kernel.kernelND.GeoVectorND createNewVector() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoVectorND getVector() -> b
    geogebra.common.kernel.kernelND.GeoPointND getP() -> a
    void compute() -> b
    void setCoords() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoVertexConic -> geogebra.common.l.c.ev:
    geogebra.common.kernel.kernelND.GeoConicND c -> a
    geogebra.common.kernel.kernelND.GeoPointND[] vertex -> a
    double temp1 -> a
    double temp2 -> b
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    void createVertex(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.kernelND.GeoPointND[] getVertex() -> a
    void setCoords(int,double,double) -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoVertexIneq -> geogebra.common.l.c.ew:
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> a
    geogebra.common.kernel.geos.GeoFunctionNVar p -> a
    java.util.List vertices -> a
    geogebra.common.kernel.algos.AlgoElement[][] helpers -> a
    int validVertices -> a
    geogebra.common.kernel.geos.GeoLine helperLine -> a
    geogebra.common.kernel.geos.GeoFunction helperFunction -> a
    double[] co -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType -> a
    void setLabels(java.lang.String[]) -> a
    void setInputOutput() -> a_
    void compute() -> b
    void typeSwitch(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int) -> a
    void intParamOneVar(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int,boolean) -> a
    void intParamYX(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> a
    void intParamYLinear(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int) -> b
    void intParamParam(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int,boolean) -> b
    void intParamXY(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> b
    void intParamConic(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int,boolean) -> c
    void intParamXLinear(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int) -> c
    void intParamXParamY(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int) -> d
    void intXY(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> c
    void intConicY(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> d
    void intConicX(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> e
    void intConicConic(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int) -> e
    void intLinearY(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> f
    void intLinearX(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> g
    void intLinearConic(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality,int,int) -> f
    void setHelper(int,int,geogebra.common.kernel.algos.AlgoElement) -> a
    void addVertices(geogebra.common.kernel.algos.AlgoElement,boolean,boolean) -> a
    void addVertices(geogebra.common.kernel.algos.AlgoElement,boolean) -> a
    void intLinearLinear(geogebra.common.kernel.arithmetic.Inequality,geogebra.common.kernel.arithmetic.Inequality) -> h
    void initHelpers() -> e
    void ensurePoint() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoElement[] getVertex() -> b
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType() -> a
geogebra.common.kernel.algos.AlgoVertexIneq$1 -> geogebra.common.l.c.ex:
    geogebra.common.kernel.algos.AlgoVertexIneq this$0 -> a
    geogebra.common.kernel.geos.GeoPoint newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgoVertexPolygon -> geogebra.common.l.c.ey:
    geogebra.common.kernel.geos.GeoPoly p -> a
    geogebra.common.kernel.arithmetic.NumberValue index -> a
    geogebra.common.kernel.kernelND.GeoPointND oneVertex -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler outputPoints -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    int getOutputLength() -> h
    void compute() -> b
    void setPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoElement[] getVertex() -> b
    geogebra.common.kernel.geos.GeoElement getOutput(int) -> a
    geogebra.common.kernel.kernelND.GeoPointND getOneVertex() -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler createOutputPoints() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.algos.AlgoVertexPolygon$1 -> geogebra.common.l.c.ez:
    geogebra.common.kernel.algos.AlgoVertexPolygon this$0 -> a
    geogebra.common.kernel.geos.GeoPoint newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.algos.AlgorithmSet -> geogebra.common.l.c.eA:
    java.util.HashMap hashMap -> a
    geogebra.common.kernel.algos.AlgorithmSet$Link head -> a
    geogebra.common.kernel.algos.AlgorithmSet$Link tail -> b
    int size -> a
    boolean add(geogebra.common.kernel.algos.AlgoElement) -> a
    void addAll(geogebra.common.kernel.algos.AlgorithmSet) -> a
    boolean contains(geogebra.common.kernel.algos.AlgoElement) -> b
    boolean remove(geogebra.common.kernel.algos.AlgoElement) -> c
    void updateAll() -> a
    void updateAllUntil(geogebra.common.kernel.algos.AlgoElement) -> a
    void addAllToCollection(java.util.Collection) -> a
    void removeAllFromCollection(java.util.Collection) -> b
    java.lang.String toString() -> toString
    geogebra.common.kernel.algos.AlgorithmSet$AlgorithmSetIterator getIterator() -> a
    geogebra.common.kernel.algos.AlgorithmSet$Link getHead() -> a
    void setHead(geogebra.common.kernel.algos.AlgorithmSet$Link) -> a
geogebra.common.kernel.algos.AlgorithmSet$AlgorithmSetIterator -> geogebra.common.l.c.eA$a:
    geogebra.common.kernel.algos.AlgorithmSet$Link cur -> a
    geogebra.common.kernel.algos.AlgorithmSet this$0 -> a
    void remove() -> remove
    boolean hasNext() -> hasNext
    geogebra.common.kernel.algos.AlgoElement next() -> a
    java.lang.Object next() -> next
geogebra.common.kernel.algos.AlgorithmSet$Link -> geogebra.common.l.c.eA$b:
    geogebra.common.kernel.algos.AlgoElement algo -> a
    geogebra.common.kernel.algos.AlgorithmSet$Link next -> a
    geogebra.common.kernel.algos.AlgorithmSet this$0 -> a
geogebra.common.kernel.algos.Algos -> geogebra.common.l.c.eB:
    geogebra.common.kernel.algos.Algos Expression -> a
    geogebra.common.kernel.algos.Algos AlgoMacro -> b
    java.lang.String command -> a
    geogebra.common.kernel.algos.Algos[] ENUM$VALUES -> a
    java.lang.String getCommand() -> a
    geogebra.common.kernel.algos.Algos[] values() -> values
    geogebra.common.kernel.algos.Algos valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.algos.CmdUnitOrthogonalVector -> geogebra.common.l.c.eC:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.algos.CmdUnitVector -> geogebra.common.l.c.eD:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] processNotLineNotVector(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.algos.AlgoUnitVector algo(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.algos.AlgoUnitVector algo(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.kernel.algos.ConstructionElement -> geogebra.common.l.c.eE:
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.kernel.Kernel kernel -> a
    int constIndex -> a
    long ceIDcounter -> a
    long ceID -> b
    void setConstruction(geogebra.common.kernel.Construction) -> b
    geogebra.common.kernel.Construction getConstruction() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    int getMinConstructionIndex() -> i
    int getMaxConstructionIndex() -> j
    int getConstructionIndex() -> d
    void setConstructionIndex(int) -> h
    boolean isInConstructionList() -> R
    boolean isConsProtocolBreakpoint() -> k
    boolean isAvailableAtConstructionStep(int) -> a_
    boolean isIndependent() -> f_
    java.util.TreeSet getAllIndependentPredecessors() -> a
    void getXML(boolean,java.lang.StringBuilder) -> a
    void getXML_OGP(java.lang.StringBuilder) -> c
    void remove() -> a
    void update() -> q_
    void notifyRemove() -> u
    void notifyAdd() -> t
    geogebra.common.kernel.geos.GeoElement[] getGeoElements() -> e
    boolean isGeoElement() -> j
    boolean isAlgoElement() -> i
    java.lang.String getNameDescription() -> a_
    int getRelatedModeID() -> f_
    int compareTo(geogebra.common.kernel.algos.ConstructionElement) -> a
    boolean equals(java.lang.Object) -> equals
    long getID() -> a
    int hashCode() -> hashCode
    geogebra.common.main.Localization getLoc() -> a
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.algos.DependentAlgo -> geogebra.common.l.c.eF:
geogebra.common.kernel.algos.DrawInformationAlgo -> geogebra.common.l.c.eG:
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.algos.EquationElementInterface -> geogebra.common.l.c.eH:
geogebra.common.kernel.algos.EquationScopeInterface -> geogebra.common.l.c.eI:
geogebra.common.kernel.algos.GetCommand -> geogebra.common.l.c.eJ:
    java.lang.String getCommand() -> a
geogebra.common.kernel.algos.GetPointsAlgo -> geogebra.common.l.c.eK:
    geogebra.common.kernel.geos.GeoElement[] getPoints() -> b
geogebra.common.kernel.algos.PolygonAlgo -> geogebra.common.l.c.eL:
    void calcArea() -> e
    void calcCentroid(geogebra.common.kernel.geos.GeoPoint) -> a
geogebra.common.kernel.algos.SymbolicParameters -> geogebra.common.l.c.eM:
    java.util.HashSet variables -> a
    geogebra.common.kernel.algos.SymbolicParametersAlgo spa -> a
    int[] getDegrees() -> a
    int[] crossDegree(int[],int[]) -> a
    java.math.BigInteger[] crossProduct(java.math.BigInteger[],java.math.BigInteger[]) -> a
    java.util.HashSet getFreeVariables() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    java.math.BigInteger[] reduce(java.math.BigInteger[]) -> a
    void initFreeVariables() -> a
    java.math.BigInteger det4(java.math.BigInteger[][]) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] addBotanaVarsJoinPoints(geogebra.common.kernel.geos.GeoElement[]) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomialsMidpoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.prover.polynomial.Variable[]) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] botanaPolynomialsLineBisector(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable[]) -> a
geogebra.common.kernel.algos.SymbolicParametersAlgo -> geogebra.common.l.c.eN:
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
geogebra.common.kernel.algos.SymbolicParametersBotanaAlgo -> geogebra.common.l.c.eO:
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.algos.SymbolicParametersBotanaAlgoAre -> geogebra.common.l.c.eP:
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
geogebra.common.kernel.algos.TableAlgo -> geogebra.common.l.c.eQ:
geogebra.common.kernel.algos.TangentAlgo -> geogebra.common.l.c.eR:
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
geogebra.common.kernel.arithmetic.AssignmentType -> geogebra.common.l.d.a:
    geogebra.common.kernel.arithmetic.AssignmentType NONE -> a
    geogebra.common.kernel.arithmetic.AssignmentType DEFAULT -> b
    geogebra.common.kernel.arithmetic.AssignmentType DELAYED -> c
    geogebra.common.kernel.arithmetic.AssignmentType[] ENUM$VALUES -> a
    geogebra.common.kernel.arithmetic.AssignmentType[] values() -> values
    geogebra.common.kernel.arithmetic.AssignmentType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.arithmetic.BooleanValue -> geogebra.common.l.d.b:
    geogebra.common.kernel.arithmetic.MyBoolean getMyBoolean() -> a
    boolean getBoolean() -> O_
    double getDouble() -> h
geogebra.common.kernel.arithmetic.Command -> geogebra.common.l.d.c:
    java.util.ArrayList args -> a
    java.lang.String name -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    geogebra.common.kernel.geos.GeoElement[] evalGeos -> a
    geogebra.common.kernel.Macro macro -> a
    boolean allowEvaluationForTypeCheck -> a
    java.lang.StringBuilder sbToString -> a
    int[] outputSizes -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> b
    geogebra.common.kernel.Kernel getKernel() -> a
    void addArgument(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    java.lang.String getVariableName(int) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode[] getArguments() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getArgument(int) -> a
    void setArgument(int,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    int getArgumentNumber() -> a
    java.lang.String getName() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(boolean,boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.arithmetic.ExpressionValue,boolean,boolean,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoElement[] evaluateMultiple() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    void resolveVariables() -> c_
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    boolean isNumberValue() -> A_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean evaluatesToText() -> V_
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> a
    java.util.HashSet getVariables() -> a
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean evaluatesToList() -> g
    geogebra.common.kernel.Macro getMacro() -> a
    void setMacro(geogebra.common.kernel.Macro) -> a
    boolean evaluatesTo3DVector() -> d
    boolean isTopLevelCommand() -> h
    geogebra.common.kernel.arithmetic.Command getTopLevelCommand() -> a
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getItem(int) -> a
    boolean hasCoords() -> M
    void setOutputSizes(int[]) -> a
    int[] getOutputSizes() -> a
    int getLength() -> b
    int replaceVariables(java.lang.String,geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.arithmetic.Equation -> geogebra.common.l.d.d:
    geogebra.common.kernel.arithmetic.ExpressionNode lhs -> a
    geogebra.common.kernel.arithmetic.ExpressionNode rhs -> b
    geogebra.common.kernel.arithmetic.Polynomial leftPoly -> a
    geogebra.common.kernel.arithmetic.Polynomial rightPoly -> b
    geogebra.common.kernel.arithmetic.Polynomial normalForm -> c
    boolean isFunctionDependent -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean forcePlane -> b
    boolean forceLine -> c
    boolean forceConic -> d
    boolean forceImplicitPoly -> e
    boolean forceQuadric -> f
    java.util.ArrayList variableDegrees -> a
    boolean isPolynomial -> g
    geogebra.common.kernel.arithmetic.ExpressionNode getRHS() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode getLHS() -> c
    void setForceLine() -> b
    boolean isForcedLine() -> i
    void setForcePlane() -> c
    boolean isForcedPlane() -> k
    void setForceQuadric() -> d
    boolean isForcedQuadric() -> l
    boolean isForcedConic() -> m
    void setForceConic() -> e
    boolean isForcedImplicitPoly() -> n
    void setForceImplicitPoly() -> f
    void initEquation() -> g
    void setFunctionDependent(boolean) -> a
    boolean isFunctionDependent() -> o
    geogebra.common.kernel.arithmetic.Polynomial getNormalForm() -> a
    int degree() -> a
    geogebra.common.kernel.geos.GeoElement[] getGeoElementVariables() -> a
    boolean isExplicit(java.lang.String) -> a
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    java.util.HashSet getVariables() -> a
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    boolean isNumberValue() -> A_
    void resolveVariables() -> c_
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    java.lang.String getAssignmentOperator() -> a
    java.lang.String getAssignmentOperatorLaTeX() -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    boolean containsZ() -> p
    boolean containsVar(geogebra.common.kernel.arithmetic.ExpressionValue,char) -> a
    void addVariableDegree(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean hasVariableDegree() -> q
    void setIsPolynomial(boolean) -> b
    boolean isPolynomial() -> r
    boolean mayBePolynomial() -> s
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
geogebra.common.kernel.arithmetic.Evaluatable -> geogebra.common.l.d.e:
    double evaluate(double) -> a
geogebra.common.kernel.arithmetic.ExpressionNode -> geogebra.common.l.d.f:
    geogebra.common.main.Localization loc -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.arithmetic.ExpressionValue left -> a
    geogebra.common.kernel.arithmetic.ExpressionValue right -> b
    geogebra.common.plugin.Operation operation -> a
    boolean forceVector -> c
    boolean forcePoint -> d
    boolean forceFunction -> e
    boolean holdsLaTeXtext -> a
    boolean leaf -> b
    boolean brackets -> f
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> b
    geogebra.common.kernel.Kernel getKernel() -> a
    geogebra.common.plugin.Operation getOperation() -> a
    void setOperation(geogebra.common.plugin.Operation) -> a
    void setHoldsLaTeXtext(boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getLeft() -> a
    void setLeft(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getLeftTree() -> b
    geogebra.common.kernel.arithmetic.ExpressionValue getRight() -> b
    void setRight(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode getRightTree() -> c
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getCopy(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue copy(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> a
    void simplifyLeafs() -> b
    void simplifyAndEvalCommands() -> g
    void simplifyConstantIntegers() -> c
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    void resolveVariables() -> c_
    void doResolveVariables() -> h
    boolean shouldEvaluateToGeoVector() -> i
    boolean includesDivisionBy(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    boolean includesNonContinuousIntegral() -> k
    int replaceVariables(java.lang.String,geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    int replaceXYZnodes(geogebra.common.kernel.arithmetic.FunctionVariable,geogebra.common.kernel.arithmetic.FunctionVariable,geogebra.common.kernel.arithmetic.FunctionVariable,java.util.ArrayList) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> a
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean containsCasEvaluableFunction() -> l
    boolean containsGeoFunctionNVar() -> m
    geogebra.common.kernel.arithmetic.Polynomial makePolynomialTree(geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.arithmetic.Polynomial makePolyTreeFromFunction(geogebra.common.kernel.arithmetic.Function,geogebra.common.kernel.arithmetic.Equation) -> a
    boolean polynomialOperation(geogebra.common.plugin.Operation) -> b
    boolean isConstant() -> k_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean evaluatesTo3DVector() -> d
    void setForceVector() -> d
    boolean isForcedVector() -> n
    void setForcePoint() -> e
    boolean isForcedPoint() -> o
    void setForceFunction() -> f
    boolean isForcedFunction() -> p
    boolean hasOperations() -> q
    java.util.HashSet getVariables() -> a
    geogebra.common.kernel.geos.GeoElement[] getGeoElementVariables() -> a
    boolean isLeaf() -> l_
    boolean isSingleVariable() -> r
    boolean isImaginaryUnit() -> s
    boolean containsMyStringBuffer() -> t
    java.lang.String getCASstring(geogebra.common.kernel.StringTemplate,boolean) -> a
    boolean expandForOGP(geogebra.common.kernel.arithmetic.ExpressionValue) -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String checkMathml(java.lang.String,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String operationToString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation,java.lang.String,java.lang.String,boolean,geogebra.common.kernel.StringTemplate,geogebra.common.kernel.Kernel) -> a
    java.lang.String degFix(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> a
    void trig(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.StringBuilder,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,geogebra.common.kernel.StringTemplate,geogebra.common.main.Localization,boolean) -> a
    void trig(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.StringBuilder,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,geogebra.common.kernel.StringTemplate,geogebra.common.main.Localization,boolean) -> a
    void appendReduceFunction(java.lang.StringBuilder,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> a
    boolean isMultiplyOrDivide(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    int opID(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean isNumberValue() -> A_
    boolean evaluatesToList() -> g
    boolean evaluatesToText() -> V_
    boolean isExpressionNode() -> u
    boolean isEqual(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean isEqualString(geogebra.common.kernel.arithmetic.ExpressionValue,double,boolean) -> a
    boolean isTopLevelCommand() -> h
    geogebra.common.kernel.arithmetic.Command getTopLevelCommand() -> a
    java.lang.Double getCoefficient(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    boolean chainedBooleanOp(geogebra.common.plugin.Operation) -> a
    boolean isConstantDouble(geogebra.common.kernel.arithmetic.ExpressionValue,double) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode plus(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode lessThan(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode lessThan(double) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode erf() -> d
    geogebra.common.kernel.arithmetic.ExpressionNode abs() -> e
    geogebra.common.kernel.arithmetic.ExpressionNode sec() -> f
    geogebra.common.kernel.arithmetic.ExpressionNode tan() -> g
    geogebra.common.kernel.arithmetic.ExpressionNode cosech() -> h
    geogebra.common.kernel.arithmetic.ExpressionNode coth() -> i
    geogebra.common.kernel.arithmetic.ExpressionNode cosec() -> j
    geogebra.common.kernel.arithmetic.ExpressionNode cot() -> k
    geogebra.common.kernel.arithmetic.ExpressionNode factorial() -> l
    geogebra.common.kernel.arithmetic.ExpressionNode ln() -> m
    geogebra.common.kernel.arithmetic.ExpressionNode gamma() -> n
    geogebra.common.kernel.arithmetic.ExpressionNode gammaIncompleteReverseArgs(geogebra.common.kernel.arithmetic.ExpressionValue) -> c
    geogebra.common.kernel.arithmetic.ExpressionNode gammaIncomplete(geogebra.common.kernel.arithmetic.ExpressionValue) -> d
    geogebra.common.kernel.arithmetic.ExpressionNode beta(geogebra.common.kernel.arithmetic.ExpressionValue) -> e
    geogebra.common.kernel.arithmetic.ExpressionNode exp() -> o
    geogebra.common.kernel.arithmetic.ExpressionNode polygamma(double) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode sin() -> p
    geogebra.common.kernel.arithmetic.ExpressionNode sinh() -> q
    geogebra.common.kernel.arithmetic.ExpressionNode cosh() -> r
    geogebra.common.kernel.arithmetic.ExpressionNode cos() -> s
    geogebra.common.kernel.arithmetic.ExpressionNode reciprocate() -> t
    geogebra.common.kernel.arithmetic.ExpressionNode sqrt() -> u
    geogebra.common.kernel.arithmetic.ExpressionNode cbrt() -> v
    geogebra.common.kernel.arithmetic.ExpressionNode sgn() -> w
    geogebra.common.kernel.arithmetic.ExpressionNode atan() -> x
    geogebra.common.kernel.arithmetic.ExpressionNode reverseSign() -> y
    geogebra.common.kernel.arithmetic.ExpressionNode betaRegularized(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode square() -> z
    geogebra.common.kernel.arithmetic.ExpressionNode subtract(geogebra.common.kernel.arithmetic.ExpressionValue) -> f
    geogebra.common.kernel.arithmetic.ExpressionNode plus(double) -> c
    geogebra.common.kernel.arithmetic.ExpressionNode plusR(double) -> d
    geogebra.common.kernel.arithmetic.ExpressionNode multiply(double) -> e
    geogebra.common.kernel.arithmetic.ExpressionNode multiplyR(double) -> f
    geogebra.common.kernel.arithmetic.ExpressionNode power(double) -> g
    geogebra.common.kernel.arithmetic.ExpressionNode subtract(double) -> h
    geogebra.common.kernel.arithmetic.ExpressionNode subtractR(double) -> i
    geogebra.common.kernel.arithmetic.ExpressionNode multiply(geogebra.common.kernel.arithmetic.ExpressionValue) -> g
    geogebra.common.kernel.arithmetic.ExpressionNode multiplyR(geogebra.common.kernel.arithmetic.ExpressionValue) -> h
    geogebra.common.kernel.arithmetic.ExpressionNode power(geogebra.common.kernel.arithmetic.ExpressionValue) -> i
    geogebra.common.kernel.arithmetic.ExpressionNode powerR(double) -> j
    geogebra.common.kernel.arithmetic.ExpressionNode divide(geogebra.common.kernel.arithmetic.ExpressionValue) -> j
    geogebra.common.kernel.arithmetic.ExpressionNode divide(double) -> k
    geogebra.common.kernel.arithmetic.ExpressionNode and(geogebra.common.kernel.arithmetic.ExpressionValue) -> k
    geogebra.common.kernel.arithmetic.ExpressionNode negation() -> A
    boolean replacePowersRoots(boolean,int) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue replace(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.geos.GeoFunction buildFunction(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue unwrap() -> c
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    boolean hasCoords() -> M
    geogebra.common.kernel.arithmetic.ExpressionNode derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap(geogebra.common.kernel.arithmetic.ExpressionValue) -> m
    geogebra.common.kernel.arithmetic.ExpressionNode integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode nroot(geogebra.common.kernel.arithmetic.ExpressionValue) -> l
    geogebra.common.kernel.arithmetic.ExpressionNode linearIntegral(int,geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    double getLinearCoefficient(geogebra.common.kernel.arithmetic.FunctionVariable,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    double getLinearCoefficientDiv(geogebra.common.kernel.arithmetic.FunctionVariable,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode wrap(double) -> l
    boolean isConditional() -> v
    boolean isConditionalDeep() -> w
    geogebra.common.kernel.arithmetic.ExpressionNode ifElse(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    double evaluateDouble() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode replaceCasCommands() -> B
    boolean hasBrackets() -> x
    void setBrackets(boolean) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode apply(geogebra.common.plugin.Operation) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode apply(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean containsFreeFunctionVariable() -> y
    boolean checkForFreeVars(geogebra.common.kernel.arithmetic.ExpressionValue) -> d
    boolean evaluatesToNumber(boolean) -> a
    java.util.HashSet getUnconditionalVars() -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.arithmetic.ExpressionNodeConstants -> geogebra.common.l.d.g:
geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType -> geogebra.common.l.d.g$a:
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType GEOGEBRA_XML -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType GEOGEBRA -> b
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType GIAC -> c
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType LATEX -> d
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType LIBRE_OFFICE -> e
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType PSTRICKS -> f
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType PGF -> g
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType MATHML -> h
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType OGP -> i
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType[] ENUM$VALUES -> a
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType[] values() -> values
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator -> geogebra.common.l.d.h:
    geogebra.common.kernel.StringTemplate errorTemplate -> a
    geogebra.common.main.Localization l10n -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleOp(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue multiply(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue multiply2D(geogebra.common.kernel.arithmetic.MyList,int,int,geogebra.common.kernel.arithmetic.VectorValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue multiply2D(geogebra.common.kernel.arithmetic.MyList,int,int,geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.geos.GeoVec2D) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleSpecial(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.MyBoolean evalEquals(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleXcoord(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleYcoord(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue handleMult(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue multiply(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue complexMult(geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.Kernel) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue innerProduct(geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handlePlus(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue handleDivide(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleMinus(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handlePower(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    double negPower(double,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleFunction(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue handleFunctionNVar(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue illegalBoolean(geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue illegalArgument(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue illegalArgument(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue illegalBinary(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue illegalComparison(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue illegalListOp(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue polynomialOrDie(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue polynomialOrDie(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.plugin.Operation,java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handleVectorProduct(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue vectorProduct(geogebra.common.kernel.arithmetic.VectorNDValue,geogebra.common.kernel.arithmetic.VectorNDValue) -> a
    geogebra.common.kernel.Kernel getKernel() -> a
geogebra.common.kernel.arithmetic.ExpressionValue -> geogebra.common.l.d.i:
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    boolean isNumberValue() -> A_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean evaluatesTo3DVector() -> d
    boolean evaluatesToList() -> g
    boolean evaluatesToText() -> V_
    boolean isExpressionNode() -> u
    boolean isGeoElement() -> j
    boolean isVariable() -> p_
    void setInTree(boolean) -> e
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    double evaluateDouble() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    java.util.HashSet getVariables() -> a
    java.lang.String toString() -> toString
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    void resolveVariables() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue unwrap() -> c
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    boolean hasCoords() -> M
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    boolean evaluatesToNumber(boolean) -> a
geogebra.common.kernel.arithmetic.Function -> geogebra.common.l.d.j:
    geogebra.common.kernel.arithmetic.Function derivative -> a
    geogebra.common.kernel.arithmetic.ExpressionNode factorParentExp -> b
    java.util.LinkedList symbolicPolyFactorList -> a
    java.util.LinkedList numericPolyFactorList -> b
    boolean symbolicPolyFactorListDefined -> c
    geogebra.common.kernel.arithmetic.ExpressionNode zeroExpr -> c
    geogebra.common.kernel.geos.GeoFunction geoDeriv -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void setExpression(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.arithmetic.Function getFunction() -> a
    geogebra.common.kernel.arithmetic.FunctionVariable getFunctionVariable() -> a
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    boolean initFunction() -> i
    double evaluate(double) -> a
    boolean evaluateBoolean(double) -> a
    void translate(double,double) -> a
    void translateX(geogebra.common.kernel.arithmetic.ExpressionNode,double) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode shiftXnode(double) -> a
    void translateY(double) -> a
    void addNumber(double) -> b
    java.util.LinkedList getPolynomialFactors(boolean) -> a
    java.util.LinkedList getSymbolicPolynomialDerivativeFactors(int,boolean) -> a
    geogebra.common.kernel.arithmetic.PolyFunction getNumericPolynomialDerivative(int,boolean) -> a
    geogebra.common.kernel.arithmetic.PolyFunction getNumericPolynomialIntegral() -> a
    java.util.LinkedList getSymbolicPolynomialFactors(boolean,boolean) -> a
    java.util.LinkedList getNumericPolynomialFactors(boolean) -> b
    boolean addPolynomialFactors(geogebra.common.kernel.arithmetic.ExpressionValue,java.util.List,boolean,boolean,boolean) -> a
    geogebra.common.kernel.arithmetic.PolyFunction expandToPolyFunction(geogebra.common.kernel.arithmetic.ExpressionValue,boolean,boolean) -> a
    geogebra.common.kernel.arithmetic.PolyFunction expandToPolyFunctionNoCas(geogebra.common.kernel.arithmetic.ExpressionValue,boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode evaluateToExpressionNode(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoFunction getGeoDerivative(int) -> a
    geogebra.common.kernel.arithmetic.Function getDerivative(int,boolean) -> a
    geogebra.common.kernel.arithmetic.Function getDerivativeNoFractions(int,boolean) -> b
    geogebra.common.kernel.arithmetic.Function getDerivative(int,boolean,boolean) -> a
    geogebra.common.kernel.arithmetic.Function getDerivativeQuotient(geogebra.common.kernel.arithmetic.Function,geogebra.common.kernel.arithmetic.Function) -> a
    void difference(geogebra.common.kernel.arithmetic.Function,geogebra.common.kernel.arithmetic.Function,geogebra.common.kernel.arithmetic.Function) -> a
    void difference(geogebra.common.kernel.arithmetic.Function,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.arithmetic.Function) -> a
    geogebra.common.kernel.roots.RealRootDerivFunction getRealRootDerivFunction() -> a
    boolean includesDivisionByVariable() -> k
    boolean includesNonContinuousIntegral() -> l
    geogebra.common.kernel.geos.GeoFunction getGeoFunction() -> a
    geogebra.common.kernel.arithmetic.Function getDerivativeNoCAS(int) -> a
    geogebra.common.kernel.arithmetic.Function getIntegralNoCAS() -> b
    double evaluateDerivative(double) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar getFunction() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.arithmetic.Function$1 -> geogebra.common.l.d.k:
    geogebra.common.kernel.arithmetic.Function this$0 -> a
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Function$DerivFunction -> geogebra.common.l.d.j$a:
    geogebra.common.kernel.arithmetic.Function fun -> b
    geogebra.common.kernel.arithmetic.Function derivative -> c
    double[] ret -> a
    geogebra.common.kernel.arithmetic.Function this$0 -> a
    double evaluate(double) -> a
    double evaluateDerivative(double) -> b
geogebra.common.kernel.arithmetic.FunctionNVar -> geogebra.common.l.d.l:
    geogebra.common.kernel.arithmetic.ExpressionNode expression -> a
    geogebra.common.kernel.arithmetic.FunctionVariable[] fVars -> a
    geogebra.common.kernel.arithmetic.IneqTree ineqs -> a
    boolean isBooleanFunction -> a
    boolean isConstantFunction -> b
    geogebra.common.kernel.Kernel kernel -> a
    java.util.ArrayList undecided -> a
    geogebra.common.kernel.arithmetic.ExpressionNode casEvalExpression -> b
    java.lang.String casEvalStringSymbolic -> a
    geogebra.common.util.MaxSizeHashMap casEvalMap -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    boolean isFunctionVariable(java.lang.String) -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getExpression() -> b
    void resolveVariables() -> c_
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> a
    void setExpression(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    void setExpression(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.FunctionVariable[]) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar getFunction() -> a
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    java.lang.String getVarString(int,geogebra.common.kernel.StringTemplate) -> a
    int getVarNumber() -> a
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    java.lang.StringBuilder appendVarString(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    boolean initFunction() -> i
    void fixStructure() -> b
    boolean initType(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    boolean isBooleanFunction() -> U_
    boolean isConstantFunction() -> n
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    double evaluate(double[]) -> a
    boolean evaluateBoolean(double[]) -> a
    java.util.HashSet getVariables() -> a
    geogebra.common.kernel.geos.GeoElement[] getGeoElementVariables() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar evalCasCommand(java.lang.String,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    geogebra.common.util.MaxSizeHashMap getCasEvalMap() -> a
    geogebra.common.kernel.arithmetic.FunctionNVar lookupCasEvalMap(java.lang.String) -> a
    void clearCasEvalMap(java.lang.String) -> a
    boolean isNumberValue() -> A_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String getLabelForAssignment() -> c
    geogebra.common.kernel.arithmetic.IneqTree getIneqs() -> a
    boolean initIneqs(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.FunctionalNVar) -> a
    boolean initIneqs(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.IneqTree,boolean) -> a
    geogebra.common.plugin.Operation adjustOp(geogebra.common.plugin.Operation,boolean) -> a
    boolean updateIneqs() -> o
    double evaluate(geogebra.common.kernel.geos.GeoPoint) -> a
    boolean evaluateBoolean(geogebra.common.kernel.geos.GeoPoint) -> a
    void translate(double,double) -> a
    void translateX(geogebra.common.kernel.arithmetic.ExpressionNode,double,int) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode shiftXnode(double,int) -> a
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getFunctionExpression() -> c
    boolean isDefined() -> a_
    geogebra.common.kernel.arithmetic.FunctionNVar getDerivativeNoCAS(geogebra.common.kernel.arithmetic.FunctionVariable,int) -> a
    void fillVariables(geogebra.common.kernel.arithmetic.FunctionVariable[]) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> b
geogebra.common.kernel.arithmetic.FunctionVariable -> geogebra.common.l.d.m:
    java.lang.String varStr -> a
    boolean isConstant() -> k_
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void setVarString(java.lang.String) -> a
    java.lang.String getSetVarString() -> d
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
geogebra.common.kernel.arithmetic.Functional -> geogebra.common.l.d.n:
    geogebra.common.kernel.arithmetic.Function getFunction() -> a
    geogebra.common.kernel.geos.GeoFunction getGeoFunction() -> a
    geogebra.common.kernel.geos.GeoFunction getGeoDerivative(int) -> a
geogebra.common.kernel.arithmetic.Functional2Var -> geogebra.common.l.d.o:
    geogebra.common.kernel.Matrix.Coords evaluatePoint(double,double) -> a
    geogebra.common.kernel.Matrix.Coords evaluateNormal(double,double) -> b
geogebra.common.kernel.arithmetic.FunctionalNVar -> geogebra.common.l.d.p:
    double evaluate(double[]) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar getFunction() -> a
    geogebra.common.kernel.arithmetic.IneqTree getIneqs() -> a
    boolean isBooleanFunction() -> U_
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    geogebra.common.kernel.arithmetic.ExpressionNode getFunctionExpression() -> c
    boolean isDefined() -> a_
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
geogebra.common.kernel.arithmetic.GetItem -> geogebra.common.l.d.q:
    geogebra.common.kernel.arithmetic.ExpressionValue getItem(int) -> a
    int getLength() -> b
geogebra.common.kernel.arithmetic.IneqTree -> geogebra.common.l.d.r:
    geogebra.common.kernel.arithmetic.IneqTree left -> a
    geogebra.common.kernel.arithmetic.IneqTree right -> b
    geogebra.common.kernel.arithmetic.Inequality ineq -> a
    geogebra.common.plugin.Operation operation -> a
    int size -> a
    void setRight(geogebra.common.kernel.arithmetic.IneqTree) -> a
    geogebra.common.kernel.arithmetic.IneqTree getRight() -> a
    void setLeft(geogebra.common.kernel.arithmetic.IneqTree) -> b
    geogebra.common.kernel.arithmetic.IneqTree getLeft() -> b
    void setOperation(geogebra.common.plugin.Operation) -> a
    geogebra.common.plugin.Operation getOperation() -> a
    void setIneq(geogebra.common.kernel.arithmetic.Inequality) -> a
    geogebra.common.kernel.arithmetic.Inequality getIneq() -> a
    boolean updateCoef() -> a
    int getSize() -> a
    geogebra.common.kernel.arithmetic.Inequality get(int) -> a
    void recomputeSize() -> a
    void getZeros(java.util.Set) -> a
geogebra.common.kernel.arithmetic.Inequality -> geogebra.common.l.d.s:
    geogebra.common.plugin.Operation op -> a
    geogebra.common.kernel.arithmetic.Inequality$IneqType type -> a
    geogebra.common.kernel.geos.GeoConic conicBorder -> a
    geogebra.common.kernel.geos.GeoLine lineBorder -> a
    geogebra.common.kernel.geos.GeoFunction funBorder -> a
    geogebra.common.kernel.geos.GeoElement border -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean isAboveBorder -> a
    geogebra.common.kernel.arithmetic.ExpressionNode normal -> a
    geogebra.common.kernel.arithmetic.FunctionVariable[] fv -> a
    geogebra.common.kernel.arithmetic.MyDouble coef -> a
    geogebra.common.kernel.geos.GeoPoint[] zeros -> a
    geogebra.common.kernel.arithmetic.MyDouble zeroDummy0 -> b
    geogebra.common.kernel.arithmetic.MyDouble zeroDummy1 -> c
    void update() -> b
    void setAboveBorderFromConic() -> c
    void init1varFunction(int) -> a
    geogebra.common.kernel.geos.GeoPoint[] RootMultiple(geogebra.common.kernel.geos.GeoFunction) -> a
    void updateCoef() -> a
    java.lang.String toString() -> toString
    boolean isStrict() -> a
    geogebra.common.kernel.geos.GeoFunction getFunBorder() -> a
    boolean isAboveBorder() -> b
    geogebra.common.kernel.geos.GeoElement getBorder() -> a
    geogebra.common.kernel.arithmetic.Inequality$IneqType getType() -> a
    geogebra.common.kernel.geos.GeoConic getConicBorder() -> a
    geogebra.common.kernel.geos.GeoLine getLineBorder() -> a
    geogebra.common.kernel.geos.GeoPoint[] getZeros() -> a
geogebra.common.kernel.arithmetic.Inequality$IneqType -> geogebra.common.l.d.s$a:
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_INVALID -> a
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_PARAMETRIC_X -> b
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_PARAMETRIC_Y -> c
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_LINEAR -> d
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_CONIC -> e
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_IMPLICIT -> f
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_1VAR_X -> g
    geogebra.common.kernel.arithmetic.Inequality$IneqType INEQUALITY_1VAR_Y -> h
    geogebra.common.kernel.arithmetic.Inequality$IneqType[] ENUM$VALUES -> a
    geogebra.common.kernel.arithmetic.Inequality$IneqType[] values() -> values
    geogebra.common.kernel.arithmetic.Inequality$IneqType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.arithmetic.Inspecting -> geogebra.common.l.d.t:
    geogebra.common.kernel.arithmetic.Inspecting dynamicGeosFinder -> a
    geogebra.common.kernel.arithmetic.Inspecting textFinder -> b
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Inspecting$1 -> geogebra.common.l.d.u:
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Inspecting$2 -> geogebra.common.l.d.v:
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Inspecting$CommandFinder -> geogebra.common.l.d.t$a:
    geogebra.common.kernel.arithmetic.Inspecting$CommandFinder INSTANCE -> a
    geogebra.common.kernel.arithmetic.Inspecting$CommandFinder[] ENUM$VALUES -> a
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Inspecting$CommandFinder[] values() -> values
    geogebra.common.kernel.arithmetic.Inspecting$CommandFinder valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.arithmetic.Inspecting$IneqFinder -> geogebra.common.l.d.t$b:
    geogebra.common.kernel.arithmetic.Inspecting$IneqFinder INSTANCE -> a
    geogebra.common.kernel.arithmetic.Inspecting$IneqFinder[] ENUM$VALUES -> a
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Inspecting$IneqFinder[] values() -> values
    geogebra.common.kernel.arithmetic.Inspecting$IneqFinder valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.arithmetic.Inspecting$UnplottableChecker -> geogebra.common.l.d.t$c:
    int type -> a
    int dim -> b
    geogebra.common.kernel.arithmetic.Inspecting$UnplottableChecker checker -> a
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean setType(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.Inspecting$UnplottableChecker getChecker(int) -> a
geogebra.common.kernel.arithmetic.ListValue -> geogebra.common.l.d.w:
    geogebra.common.kernel.arithmetic.MyList getMyList() -> a
    double[] toDouble() -> a
    int size() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getListElement(int) -> b
    boolean isMatrix() -> r_
geogebra.common.kernel.arithmetic.MyArbitraryConstant -> geogebra.common.l.d.x:
    java.util.ArrayList consts -> a
    java.util.ArrayList ints -> b
    java.util.ArrayList complexNumbers -> c
    geogebra.common.kernel.algos.ConstructionElement ce -> a
    int position -> a
    geogebra.common.kernel.arithmetic.ExpressionValue nextConst(geogebra.common.kernel.arithmetic.MyDouble) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue nextInt(geogebra.common.kernel.arithmetic.MyDouble) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue nextComplex(geogebra.common.kernel.arithmetic.MyDouble) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue nextConst(java.util.ArrayList,java.util.Map,java.lang.String,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void reset() -> a
    geogebra.common.kernel.geos.GeoNumeric getConst(int) -> a
    int getTotalNumberOfConsts() -> a
geogebra.common.kernel.arithmetic.MyArbitraryConstant$AlgoDependentArbconst -> geogebra.common.l.d.x$a:
    geogebra.common.kernel.geos.GeoElement constant -> a
    geogebra.common.kernel.algos.ConstructionElement outCE -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant this$0 -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.algos.Algos getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.arithmetic.MyBoolean -> geogebra.common.l.d.y:
    boolean value -> a
    geogebra.common.kernel.Kernel kernel -> a
    void setValue(boolean) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    void resolveVariables() -> c_
    boolean isNumberValue() -> A_
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    java.util.HashSet getVariables() -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.MyBoolean getMyBoolean() -> a
    boolean getBoolean() -> O_
    double getDouble() -> h
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    boolean isAngle() -> q_
    boolean isDefined() -> a_
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
geogebra.common.kernel.arithmetic.MyDouble -> geogebra.common.l.d.z:
    double val -> b
    boolean isAngle -> a
    geogebra.common.kernel.Kernel kernel -> a
    double LARGEST_INTEGER -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void set(double) -> a
    void resolveVariables() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    void setAngle() -> b
    boolean isAngle() -> q_
    void add(geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void sub(geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.MyDouble) -> b
    void mult(geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.MyDouble) -> c
    void mult(geogebra.common.kernel.arithmetic.MyDouble,double,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void div(geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void pow(geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.MyDouble) -> b
    double pow(double,double) -> a
    void powDoubleSgnChange(geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.MyDouble,geogebra.common.kernel.arithmetic.MyDouble) -> c
    geogebra.common.kernel.arithmetic.MyDouble cos() -> b
    geogebra.common.kernel.arithmetic.MyDouble sin() -> c
    void checkZero() -> c
    geogebra.common.kernel.arithmetic.MyDouble tan() -> d
    geogebra.common.kernel.arithmetic.MyDouble acos() -> e
    geogebra.common.kernel.arithmetic.MyDouble asin() -> f
    geogebra.common.kernel.arithmetic.MyDouble atan() -> g
    geogebra.common.kernel.arithmetic.MyDouble atan2(geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.arithmetic.MyDouble log() -> h
    geogebra.common.kernel.arithmetic.MyDouble log(geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.arithmetic.MyDouble erf() -> i
    geogebra.common.kernel.arithmetic.MyDouble polygamma(geogebra.common.kernel.arithmetic.NumberValue) -> c
    geogebra.common.kernel.arithmetic.MyDouble psi() -> j
    geogebra.common.kernel.arithmetic.MyDouble log10() -> k
    geogebra.common.kernel.arithmetic.MyDouble log2() -> l
    geogebra.common.kernel.arithmetic.MyDouble exp() -> m
    geogebra.common.kernel.arithmetic.MyDouble sqrt() -> n
    geogebra.common.kernel.arithmetic.MyDouble cbrt() -> o
    geogebra.common.kernel.arithmetic.MyDouble abs() -> p
    geogebra.common.kernel.arithmetic.MyDouble floor() -> q
    geogebra.common.kernel.arithmetic.MyDouble ceil() -> r
    geogebra.common.kernel.arithmetic.MyDouble round() -> s
    geogebra.common.kernel.arithmetic.MyDouble round(double) -> a
    double doRound(double) -> a
    geogebra.common.kernel.arithmetic.MyDouble sgn() -> t
    geogebra.common.kernel.arithmetic.MyDouble cosh() -> u
    geogebra.common.kernel.arithmetic.MyDouble sinh() -> v
    geogebra.common.kernel.arithmetic.MyDouble tanh() -> w
    geogebra.common.kernel.arithmetic.MyDouble acosh() -> x
    geogebra.common.kernel.arithmetic.MyDouble asinh() -> y
    geogebra.common.kernel.arithmetic.MyDouble csc() -> z
    geogebra.common.kernel.arithmetic.MyDouble sec() -> A
    geogebra.common.kernel.arithmetic.MyDouble cot() -> B
    geogebra.common.kernel.arithmetic.MyDouble csch() -> C
    geogebra.common.kernel.arithmetic.MyDouble sech() -> D
    geogebra.common.kernel.arithmetic.MyDouble coth() -> E
    geogebra.common.kernel.arithmetic.MyDouble atanh() -> F
    geogebra.common.kernel.arithmetic.MyDouble cosineIntegral() -> G
    geogebra.common.kernel.arithmetic.MyDouble sineIntegral() -> H
    geogebra.common.kernel.arithmetic.MyDouble expIntegral() -> I
    geogebra.common.kernel.arithmetic.MyDouble factorial() -> J
    geogebra.common.kernel.arithmetic.MyDouble gamma() -> K
    geogebra.common.kernel.arithmetic.MyDouble apply(geogebra.common.kernel.arithmetic.Evaluatable) -> a
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    boolean isConstant() -> k_
    java.util.HashSet getVariables() -> a
    boolean isLeaf() -> l_
    double getDouble() -> h
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
    boolean isNumberValue() -> A_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    double parsePercentage(geogebra.common.main.Localization,java.lang.String) -> a
    double parseDouble(geogebra.common.main.Localization,java.lang.String) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue gammaIncompleteRegularized(geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue gammaIncomplete(geogebra.common.kernel.arithmetic.NumberValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue beta(geogebra.common.kernel.arithmetic.NumberValue) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue betaIncomplete(geogebra.common.kernel.arithmetic.VectorValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue betaIncompleteRegularized(geogebra.common.kernel.arithmetic.VectorValue) -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.Kernel getKernel() -> a
    int compareTo(java.lang.Object) -> compareTo
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    boolean isDefined() -> a_
    geogebra.common.kernel.arithmetic.ExpressionValue fractionalPart() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue zeta() -> b
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    boolean isFinite(double) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.arithmetic.MyList -> geogebra.common.l.d.A:
    geogebra.common.kernel.Kernel kernel -> a
    int matrixRows -> a
    int matrixCols -> b
    java.util.ArrayList listElements -> a
    boolean isDefined -> a
    void addListElement(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    double[] toDouble() -> a
    int replaceVariables(java.lang.String,geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    void applyRight(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate) -> a
    void applyLeft(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate) -> b
    void matrixMultiply(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.MyList) -> a
    void apply(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue,boolean,geogebra.common.kernel.StringTemplate) -> a
    void setIdentityMatrix() -> c
    int getMatrixRows() -> c
    int getMatrixCols() -> d
    geogebra.common.kernel.arithmetic.MyList invert() -> b
    boolean isMatrix() -> r_
    void clear() -> b
    boolean isEquation(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    boolean isMatrix(geogebra.common.kernel.arithmetic.MyList) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getCell(geogebra.common.kernel.arithmetic.MyList,int,int) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate,boolean) -> a
    int size() -> a
    void resolveVariables() -> c_
    geogebra.common.kernel.arithmetic.ExpressionValue getListElement(int) -> b
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    boolean isNumberValue() -> A_
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    java.util.HashSet getVariables() -> a
    boolean evaluatesToList() -> g
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.MyList getMyList() -> a
    boolean isElementOf(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.MyList) -> a
    boolean listContains(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.StringTemplate) -> a
    boolean listContainsStrict(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.MyList setDifference(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.MyList) -> a
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    void vectorProduct(geogebra.common.kernel.arithmetic.MyList) -> a
    boolean isDefined() -> k
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.arithmetic.MyList getCopy(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getItem(int) -> a
    int getLength() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
geogebra.common.kernel.arithmetic.MyNumberPair -> geogebra.common.l.d.B:
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    void setX(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void setY(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.arithmetic.MySpecialDouble -> geogebra.common.l.d.C:
    java.lang.String strToString -> a
    java.lang.String originalString -> b
    boolean keepOriginalString -> a
    boolean isLetterConstant -> b
    boolean scientificNotation -> c
    boolean setFromOutside -> d
    geogebra.common.kernel.arithmetic.MySpecialDouble eulerConstant -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.MySpecialDouble getEulerConstant(geogebra.common.kernel.Kernel) -> a
    boolean isEulerConstant() -> k
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void set(double) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.arithmetic.MyStringBuffer -> geogebra.common.l.d.D:
    java.lang.StringBuilder sb -> a
    geogebra.common.kernel.Kernel kernel -> a
    void append(java.lang.String) -> a
    void insert(int,java.lang.String) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void resolveVariables() -> c_
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    boolean isNumberValue() -> A_
    boolean evaluatesToText() -> V_
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    java.util.HashSet getVariables() -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.MyStringBuffer getText() -> a
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
geogebra.common.kernel.arithmetic.MyVecNDNode -> geogebra.common.l.d.E:
    boolean isCASVector() -> P_
    int getDimension() -> b
geogebra.common.kernel.arithmetic.MyVecNode -> geogebra.common.l.d.F:
    geogebra.common.kernel.arithmetic.ExpressionValue x -> a
    geogebra.common.kernel.arithmetic.ExpressionValue y -> b
    int mode -> a
    geogebra.common.kernel.Kernel kernel -> a
    boolean isCASVector -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void resolveVariables() -> c_
    geogebra.common.kernel.arithmetic.ExpressionValue getX() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getY() -> b
    void setPolarCoords(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean hasPolarCoords() -> i
    void setCoords(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    double[] getCoords() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate,boolean) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoVec2D getVector() -> a
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    int getMode() -> a
    java.util.HashSet getVariables() -> a
    void setMode(int) -> g
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean isNumberValue() -> A_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    boolean hasCoords() -> M
    void setCASVector() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    boolean isCASVector() -> P_
    int getDimension() -> b
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.arithmetic.NumberValue -> geogebra.common.l.d.G:
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    boolean isAngle() -> q_
    double getDouble() -> h
    boolean isDefined() -> a_
geogebra.common.kernel.arithmetic.PolyFunction -> geogebra.common.l.d.H:
    double[] coeffs -> a
    int degree -> a
    geogebra.common.kernel.arithmetic.PolyFunction derivative -> a
    geogebra.common.kernel.arithmetic.PolyFunction integral -> b
    double[] getCoeffs() -> a
    double[] getCoeffsCopy() -> b
    boolean updateCoeffValues() -> a
    int getDegree() -> a
    geogebra.common.kernel.arithmetic.PolyFunction getDerivative() -> a
    geogebra.common.kernel.arithmetic.PolyFunction getIntegral() -> b
    geogebra.common.kernel.arithmetic.PolyFunction buildDerivative() -> c
    geogebra.common.kernel.arithmetic.PolyFunction buildIntegral() -> d
    double[] evaluateDerivFunc(double) -> a
    double evaluateDerivative(double) -> b
    double evaluate(double) -> a
    geogebra.common.kernel.arithmetic.Function getFunction(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    boolean isEqual(geogebra.common.kernel.arithmetic.PolyFunction) -> a
geogebra.common.kernel.arithmetic.Polynomial -> geogebra.common.l.d.I:
    java.util.ArrayList terms -> a
    geogebra.common.kernel.Kernel kernel -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    geogebra.common.kernel.arithmetic.Term getTerm(int) -> a
    int length() -> a
    void append(geogebra.common.kernel.arithmetic.Term) -> a
    void add(geogebra.common.kernel.arithmetic.Polynomial,geogebra.common.kernel.arithmetic.Equation) -> a
    void sub(geogebra.common.kernel.arithmetic.Polynomial,geogebra.common.kernel.arithmetic.Equation) -> b
    void add(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.Equation) -> a
    void sub(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.Equation) -> b
    void multiply(geogebra.common.kernel.arithmetic.Polynomial,geogebra.common.kernel.arithmetic.Equation) -> c
    void multiply(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void divide(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    void multiply(double) -> a
    void power(int,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getConstantCoefficient() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getCoefficient(java.lang.String) -> a
    double getCoeffValue(java.lang.String) -> a
    void simplify(geogebra.common.kernel.arithmetic.Equation) -> a
    boolean contains(java.lang.String) -> a
    int degree() -> b
    boolean isFreeOf(char) -> a
    java.lang.String toString() -> toString
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[][] getCoeff() -> a
    java.util.HashSet getVariables() -> a
    boolean isConstant() -> a
    geogebra.common.kernel.arithmetic.Polynomial fromNode(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.arithmetic.Polynomial apply(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.Polynomial,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.arithmetic.Polynomial apply(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.Equation) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.arithmetic.ReplaceChildrenByValues -> geogebra.common.l.d.J:
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.arithmetic.SymbolicPolyFunction -> geogebra.common.l.d.K:
    geogebra.common.kernel.arithmetic.ExpressionNode[] symbCoeffs -> a
    geogebra.common.kernel.arithmetic.ExpressionNode[] getSymbolicCoeffs() -> a
    boolean updateCoeffValues() -> a
geogebra.common.kernel.arithmetic.Term -> geogebra.common.l.d.L:
    geogebra.common.kernel.arithmetic.ExpressionValue coefficient -> a
    java.lang.StringBuilder variables -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    boolean $assertionsDisabled -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getCoefficient() -> a
    void setCoefficient(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String getVars() -> a
    int degree() -> a
    int degree(char) -> a
    void addToCoefficient(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue add(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue sub(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> b
    void multiply(geogebra.common.kernel.arithmetic.Term,geogebra.common.kernel.Kernel) -> a
    void multiply(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue multiply(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> c
    void divide(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue divide(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> d
    void sort(java.lang.StringBuilder) -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    boolean contains(java.lang.String) -> a
    int compareTo(java.lang.Object) -> compareTo
    java.lang.String toString() -> toString
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String coeffString(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String variableString(geogebra.common.kernel.StringTemplate) -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.arithmetic.TextValue -> geogebra.common.l.d.M:
    geogebra.common.kernel.arithmetic.MyStringBuffer getText() -> a
geogebra.common.kernel.arithmetic.Traversing -> geogebra.common.l.d.N:
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$ArbconstReplacer -> geogebra.common.l.d.N$a:
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.arithmetic.Traversing$ArbconstReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$ArbconstReplacer getReplacer(geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
geogebra.common.kernel.arithmetic.Traversing$CASCommandReplacer -> geogebra.common.l.d.N$b:
    geogebra.common.kernel.arithmetic.Traversing$CASCommandReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$CollectFunctionVariables -> geogebra.common.l.d.N$c:
    java.util.ArrayList al -> a
    java.util.ArrayList getResult() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$CollectUndefinedVariables -> geogebra.common.l.d.N$d:
    java.util.TreeSet tree -> a
    java.util.TreeSet localTree -> b
    java.util.TreeSet getResult() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$CommandCollector -> geogebra.common.l.d.N$e:
    java.util.Set commands -> a
    geogebra.common.kernel.arithmetic.Traversing$CommandCollector collector -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$CommandCollector getCollector(java.util.Set) -> a
geogebra.common.kernel.arithmetic.Traversing$CommandRemover -> geogebra.common.l.d.N$f:
    geogebra.common.kernel.arithmetic.Traversing$CommandRemover remover -> a
    java.lang.String[] commands -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$CommandRemover getRemover(java.lang.String[]) -> a
geogebra.common.kernel.arithmetic.Traversing$CommandReplacer -> geogebra.common.l.d.N$g:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.arithmetic.Traversing$CommandReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$CommandReplacer getReplacer(geogebra.common.main.App) -> a
geogebra.common.kernel.arithmetic.Traversing$DiffReplacer -> geogebra.common.l.d.N$h:
    geogebra.common.kernel.arithmetic.Traversing$DiffReplacer INSTANCE -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$DummyVariableCollector -> geogebra.common.l.d.N$i:
    java.util.Set commands -> a
    geogebra.common.kernel.arithmetic.Traversing$DummyVariableCollector collector -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void add(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$DummyVariableCollector getCollector(java.util.Set) -> a
geogebra.common.kernel.arithmetic.Traversing$FVarCollector -> geogebra.common.l.d.N$j:
    java.util.Set commands -> a
    geogebra.common.kernel.arithmetic.Traversing$FVarCollector collector -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$FVarCollector getCollector(java.util.Set) -> a
geogebra.common.kernel.arithmetic.Traversing$FunctionCreator -> geogebra.common.l.d.N$k:
    geogebra.common.kernel.arithmetic.Traversing$FunctionCreator creator -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$FunctionCreator getCreator() -> a
geogebra.common.kernel.arithmetic.Traversing$FunctionExpander -> geogebra.common.l.d.N$l:
    geogebra.common.kernel.arithmetic.Traversing$FunctionExpander collector -> a
    geogebra.common.kernel.arithmetic.FunctionVariable[] variables -> a
    geogebra.common.kernel.arithmetic.ExpressionValue expand(geogebra.common.kernel.geos.GeoElement) -> a
    boolean contains(geogebra.common.kernel.geos.GeoDummyVariable) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$FunctionExpander getCollector() -> a
geogebra.common.kernel.arithmetic.Traversing$GeoDummyReplacer -> geogebra.common.l.d.N$m:
    java.lang.String var -> a
    geogebra.common.kernel.arithmetic.ExpressionValue newObj -> a
    boolean didReplacement -> a
    boolean replaceFVs -> b
    geogebra.common.kernel.arithmetic.Traversing$GeoDummyReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$GeoDummyReplacer getReplacer(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue,boolean) -> a
    boolean didReplacement() -> a
geogebra.common.kernel.arithmetic.Traversing$GgbVectRemover -> geogebra.common.l.d.N$n:
    geogebra.common.kernel.arithmetic.Traversing$GgbVectRemover remover -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$GgbVectRemover getInstance() -> a
geogebra.common.kernel.arithmetic.Traversing$NonFunctionCollector -> geogebra.common.l.d.N$o:
    java.util.Set commands -> a
    geogebra.common.kernel.arithmetic.Traversing$NonFunctionCollector collector -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void add(geogebra.common.kernel.geos.GeoDummyVariable) -> a
    geogebra.common.kernel.arithmetic.Traversing$NonFunctionCollector getCollector(java.util.Set) -> a
geogebra.common.kernel.arithmetic.Traversing$NonFunctionReplacer -> geogebra.common.l.d.N$p:
    java.util.Set commands -> a
    geogebra.common.kernel.arithmetic.Traversing$NonFunctionReplacer collector -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$NonFunctionReplacer getCollector(java.util.Set) -> a
geogebra.common.kernel.arithmetic.Traversing$PowerRootReplacer -> geogebra.common.l.d.N$q:
    boolean toRoot -> a
    int MAX_ROOT -> a
    geogebra.common.kernel.arithmetic.Traversing$PowerRootReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$PowerRootReplacer getReplacer(boolean) -> a
geogebra.common.kernel.arithmetic.Traversing$PrefixRemover -> geogebra.common.l.d.N$r:
    geogebra.common.kernel.arithmetic.Traversing$PrefixRemover collector -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$PrefixRemover getCollector() -> a
geogebra.common.kernel.arithmetic.Traversing$ReplaceUndefinedVariables -> geogebra.common.l.d.N$s:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$Replacer -> geogebra.common.l.d.N$t:
    geogebra.common.kernel.arithmetic.ExpressionValue oldObj -> a
    geogebra.common.kernel.arithmetic.ExpressionValue newObj -> b
    geogebra.common.kernel.arithmetic.Traversing$Replacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$Replacer getReplacer(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$SpreadsheetVariableRenamer -> geogebra.common.l.d.N$u:
    int dx -> a
    int dy -> b
    java.util.ArrayList variables -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Traversing$VariablePolyReplacer -> geogebra.common.l.d.N$v:
    geogebra.common.kernel.arithmetic.FunctionVariable fv -> a
    int replacements -> a
    geogebra.common.kernel.arithmetic.Traversing$VariablePolyReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    int getReplacements() -> a
    geogebra.common.kernel.arithmetic.Traversing$VariablePolyReplacer getReplacer(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
geogebra.common.kernel.arithmetic.Traversing$VariableReplacer -> geogebra.common.l.d.N$w:
    java.util.List vars -> a
    java.util.List newObjs -> b
    int replacements -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.arithmetic.Traversing$VariableReplacer replacer -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue getVar(java.lang.String) -> a
    void addVars(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.Traversing$VariableReplacer getReplacer(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.Traversing$VariableReplacer getReplacer() -> a
geogebra.common.kernel.arithmetic.ValidExpression -> geogebra.common.l.d.O:
    java.util.Vector labels -> a
    boolean inTree -> a
    boolean keepInputUsed -> b
    geogebra.common.kernel.arithmetic.AssignmentType assignmentType -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$AssignmentType -> a
    void setAssignmentType(geogebra.common.kernel.arithmetic.AssignmentType) -> a
    geogebra.common.kernel.arithmetic.AssignmentType getAssignmentType() -> a
    void addLabel(java.lang.String) -> b
    void initLabels() -> b
    void addLabel(java.util.Vector) -> a
    int labelCount() -> e
    java.lang.String getLabel(int) -> b
    java.lang.String[] getLabels() -> a
    java.lang.String getLabel() -> e
    void setLabel(java.lang.String) -> c
    void setLabels(java.lang.String[]) -> a
    boolean isVariable() -> p_
    boolean isInTree() -> z
    void setInTree(boolean) -> e
    boolean isGeoElement() -> j
    boolean isTopLevelCommand() -> h
    geogebra.common.kernel.arithmetic.Command getTopLevelCommand() -> a
    java.lang.String getLabelForAssignment() -> c
    java.lang.String toAssignmentString(geogebra.common.kernel.StringTemplate) -> d
    java.lang.String toAssignmentLaTeXString(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String getAssignmentOperator() -> a
    java.lang.String getDelayedAssignmentOperator() -> f
    java.lang.String getAssignmentOperatorLaTeX() -> b
    java.lang.String getDelayedAssignmentOperatorLaTeX() -> g
    boolean isKeepInputUsed() -> A
    void setKeepInputUsed(boolean) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    double evaluateDouble() -> a
    geogebra.common.kernel.arithmetic.Function evaluateComplex() -> c
    java.lang.String toString() -> toString
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    java.lang.String debugString(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue unwrap() -> c
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    boolean hasCoords() -> M
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    boolean isExpressionNode() -> u
    boolean evaluatesToText() -> V_
    boolean evaluatesToList() -> g
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean evaluatesTo3DVector() -> d
    java.lang.String print(geogebra.common.kernel.arithmetic.ExpressionValue,boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean containsFunctionVariable() -> B
    boolean evaluatesToNumber(boolean) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$AssignmentType() -> c
geogebra.common.kernel.arithmetic.ValidExpression$1 -> geogebra.common.l.d.P:
    geogebra.common.kernel.arithmetic.ValidExpression this$0 -> a
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.arithmetic.Variable -> geogebra.common.l.d.Q:
    java.lang.String name -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    java.lang.String getName(geogebra.common.kernel.StringTemplate) -> f
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    geogebra.common.kernel.geos.GeoElement resolve(boolean) -> a
    geogebra.common.kernel.geos.GeoElement resolve(boolean,boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue resolveAsExpressionValue() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue replacement(geogebra.common.kernel.Kernel,java.lang.String) -> a
    java.util.HashSet getVariables() -> a
    void resolveVariables() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isNumberValue() -> A_
    boolean isVariable() -> p_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.Kernel getKernel() -> a
    boolean hasCoords() -> M
    void setName(java.lang.String) -> a
    java.lang.String getName() -> d
    boolean evaluatesToNumber(boolean) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
geogebra.common.kernel.arithmetic.VectorNDValue -> geogebra.common.l.d.R:
    int getMode() -> a
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
geogebra.common.kernel.arithmetic.VectorValue -> geogebra.common.l.d.S:
    geogebra.common.kernel.geos.GeoVec2D getVector() -> a
    int getMode() -> a
    void setMode(int) -> g
geogebra.common.kernel.arithmetic3D.MyVec3DNode -> geogebra.common.l.e.a:
    geogebra.common.kernel.arithmetic.ExpressionValue x -> a
    geogebra.common.kernel.arithmetic.ExpressionValue y -> b
    geogebra.common.kernel.arithmetic.ExpressionValue z -> c
    geogebra.common.kernel.Kernel kernel -> a
    int mode -> a
    boolean isCASVector -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void resolveVariables() -> c_
    geogebra.common.kernel.arithmetic.ExpressionValue getX() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue getY() -> b
    geogebra.common.kernel.arithmetic.ExpressionValue getZ() -> d
    void setCoords(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    double[] getCoords() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate,boolean) -> a
    void appendSeparator(java.lang.StringBuilder) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    double[] getPointAsDouble() -> a
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    java.util.HashSet getVariables() -> a
    boolean isNumberValue() -> A_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean evaluatesTo3DVector() -> d
    boolean evaluatesToVectorNotPoint() -> N
    geogebra.common.kernel.kernelND.Geo3DVec getVector() -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    boolean hasCoords() -> M
    void setSphericalPolarCoords(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    int getMode() -> a
    void setCASVector() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    boolean isCASVector() -> P_
    int getDimension() -> b
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.arithmetic3D.Vector3DValue -> geogebra.common.l.e.b:
    double[] getPointAsDouble() -> a
    geogebra.common.kernel.kernelND.Geo3DVec getVector() -> b
geogebra.common.kernel.barycentric.AlgoBarycenter -> geogebra.common.l.f.a:
    geogebra.common.kernel.geos.GeoList poly -> a
    geogebra.common.kernel.geos.GeoList list -> b
    geogebra.common.kernel.geos.GeoPoint point -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.barycentric.AlgoCubic -> geogebra.common.l.f.b:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoPoint C -> c
    geogebra.common.kernel.arithmetic.NumberValue n -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly poly -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.implicit.GeoImplicitPoly getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.barycentric.AlgoCubicSwitch -> geogebra.common.l.f.c:
    double r3 -> a
    java.lang.String getEquation(geogebra.common.main.AlgoCubicSwitchParams) -> a
    java.lang.String symetricOrAntisymetric(int,double,double,double) -> a
    double[] a(double,double,double) -> a
    double[] s(double,double,double) -> b
    double[] getCoeff(int,double,double,double) -> a
    double[] getCoeff400(int,double,double,double) -> b
    double Cos(double) -> a
    double ArcCos(double) -> b
    java.lang.String getEquation(double,double,double,double) -> a
geogebra.common.kernel.barycentric.AlgoKimberling -> geogebra.common.l.f.d:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoPoint C -> c
    geogebra.common.kernel.geos.GeoPoint M -> d
    geogebra.common.kernel.arithmetic.NumberValue n -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getResult() -> a
    void compute() -> b
    boolean isLocusEquable() -> t_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.barycentric.AlgoKimberlingWeights -> geogebra.common.l.f.e:
    double p(double,double) -> a
    double u(double) -> a
    double weight(geogebra.common.main.AlgoKimberlingWeightsParams) -> a
    double weight(int,double,double,double) -> a
    double weight0to1000(int,double,double,double) -> b
    double weight1000to1499(int,double,double,double) -> c
    double weight1500to1999(int,double,double,double) -> d
    double weight2000to2500(int,double,double,double) -> e
    double weight2500to2799(int,double,double,double) -> f
    double weight2800plus(int,double,double,double) -> g
geogebra.common.kernel.barycentric.AlgoTriangleCurve -> geogebra.common.l.f.f:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoPoint C -> c
    geogebra.common.kernel.implicit.GeoImplicitPoly n -> a
    geogebra.common.kernel.geos.GeoElement poly -> a
    geogebra.common.kernel.arithmetic.Equation eq -> a
    geogebra.common.kernel.geos.GeoNumeric[] xcoef -> a
    geogebra.common.kernel.geos.GeoNumeric[] ycoef -> b
    geogebra.common.kernel.geos.GeoNumeric[] constant -> c
    geogebra.common.kernel.implicit.AlgoDependentImplicitPoly dd -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.barycentric.AlgoTrilinear -> geogebra.common.l.f.g:
    geogebra.common.kernel.geos.GeoPoint P1 -> a
    geogebra.common.kernel.geos.GeoPoint P2 -> b
    geogebra.common.kernel.geos.GeoPoint P3 -> c
    geogebra.common.kernel.arithmetic.NumberValue v1 -> a
    geogebra.common.kernel.arithmetic.NumberValue v2 -> b
    geogebra.common.kernel.arithmetic.NumberValue v3 -> c
    geogebra.common.kernel.geos.GeoPoint point -> d
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoPoint getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.barycentric.CmdBarycenter -> geogebra.common.l.f.h:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.barycentric.CmdCubic -> geogebra.common.l.f.i:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.barycentric.CmdKimberling -> geogebra.common.l.f.j:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.barycentric.CmdTriangleCurve -> geogebra.common.l.f.k:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    void clearLocal() -> a
    geogebra.common.kernel.geos.GeoElement resArg(geogebra.common.kernel.arithmetic.Command,int) -> a
geogebra.common.kernel.barycentric.CmdTrilinear -> geogebra.common.l.f.l:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.AlgoCasBaseSingleArgument -> geogebra.common.l.g.a:
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.cas.AlgoCoefficients -> geogebra.common.l.g.b:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoList g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoConicCoefficients -> geogebra.common.l.g.c:
    geogebra.common.kernel.geos.GeoConic c -> a
    geogebra.common.kernel.geos.GeoList g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoDegree -> geogebra.common.l.g.d:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoDependentCasCell -> geogebra.common.l.g.e:
    geogebra.common.kernel.geos.GeoCasCell casCell -> a
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void initInput() -> e
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoCasCell getCasCell() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String getExpXML(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String getCommandDescription(geogebra.common.kernel.StringTemplate) -> c
    void update() -> q_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoDerivative -> geogebra.common.l.g.f:
    geogebra.common.kernel.geos.GeoNumeric var -> a
    geogebra.common.kernel.arithmetic.NumberValue order -> a
    boolean fast -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void setInputOutput() -> a_
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.cas.AlgoFactors -> geogebra.common.l.g.g:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoList g -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoImplicitDerivative -> geogebra.common.l.g.h:
    geogebra.common.kernel.geos.GeoFunctionNVar result -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar functional -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoFunctionNVar getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoIntegral -> geogebra.common.l.g.i:
    geogebra.common.kernel.geos.GeoNumeric var -> a
    boolean allowConstant -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void setInputOutput() -> a_
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.cas.AlgoIntegralDefinite -> geogebra.common.l.g.j:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.geos.GeoBoolean evaluate -> a
    geogebra.common.kernel.geos.GeoElement ageo -> a
    geogebra.common.kernel.geos.GeoElement bgeo -> b
    geogebra.common.kernel.geos.GeoNumeric n -> a
    boolean numeric -> a
    geogebra.common.kernel.geos.GeoFunction symbIntegral -> b
    boolean evaluateNumerically -> b
    org.apache.commons.math.analysis.integration.LegendreGaussIntegrator firstGauss -> a
    org.apache.commons.math.analysis.integration.LegendreGaussIntegrator secondGauss -> b
    int adaptiveGaussQuadCounter -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getIntegral() -> a
    geogebra.common.kernel.geos.GeoFunction getFunction() -> a
    geogebra.common.kernel.arithmetic.NumberValue getA() -> a
    geogebra.common.kernel.arithmetic.NumberValue getB() -> b
    void compute() -> b
    void computeSpecial() -> g
    double freehandIntegration(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    double numericIntegration(geogebra.common.kernel.roots.RealRootFunction,double,double) -> a
    double doAdaptiveGaussQuad(geogebra.common.kernel.roots.RealRootFunction,double,double) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    boolean evaluateOnly() -> e
    void refreshCASResults() -> e
geogebra.common.kernel.cas.AlgoIntegralDefiniteInterface -> geogebra.common.l.g.k:
    boolean evaluateOnly() -> e
geogebra.common.kernel.cas.AlgoLengthCurve -> geogebra.common.l.g.l:
    geogebra.common.kernel.geos.GeoNumeric t0 -> a
    geogebra.common.kernel.geos.GeoNumeric t1 -> b
    geogebra.common.kernel.geos.GeoCurveCartesian c -> a
    geogebra.common.kernel.geos.GeoNumeric length -> c
    geogebra.common.kernel.roots.RealRootFunction lengthCurve -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    void refreshCASResults() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoLengthCurve2Points -> geogebra.common.l.g.m:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoCurveCartesian c -> a
    geogebra.common.kernel.geos.GeoCurveCartesian derivative -> b
    geogebra.common.kernel.geos.GeoNumeric length -> a
    geogebra.common.kernel.roots.RealRootFunction lengthCurve -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    void refreshCASResults() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoLengthFunction -> geogebra.common.l.g.n:
    geogebra.common.kernel.geos.GeoNumeric A -> a
    geogebra.common.kernel.geos.GeoNumeric B -> b
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoNumeric length -> c
    geogebra.common.kernel.roots.RealRootFunction lengthFunction -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    void refreshCASResults() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoLengthFunction2Points -> geogebra.common.l.g.o:
    geogebra.common.kernel.geos.GeoPoint A -> a
    geogebra.common.kernel.geos.GeoPoint B -> b
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoNumeric length -> a
    geogebra.common.kernel.roots.RealRootFunction lengthFunction -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getLength() -> a
    void compute() -> b
    void refreshCASResults() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoLimit -> geogebra.common.l.g.p:
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    geogebra.common.kernel.geos.GeoNumeric outNum -> a
    java.lang.String limitString -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void init(java.lang.String) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    int getDirection() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoLimitAbove -> geogebra.common.l.g.q:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getDirection() -> e
geogebra.common.kernel.cas.AlgoLimitBelow -> geogebra.common.l.g.r:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getDirection() -> e
geogebra.common.kernel.cas.AlgoNextPreviousPrime -> geogebra.common.l.g.s:
    geogebra.common.kernel.arithmetic.NumberValue init -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    boolean next -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoParametricDerivative -> geogebra.common.l.g.t:
    geogebra.common.kernel.geos.GeoCurveCartesian curve -> a
    geogebra.common.kernel.geos.GeoCurveCartesian paramDeriv -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoCurveCartesian getParametricDerivative() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoPartialFractions -> geogebra.common.l.g.u:
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.cas.AlgoPolynomialCD -> geogebra.common.l.g.v:
    geogebra.common.kernel.geos.GeoFunction f1 -> a
    geogebra.common.kernel.geos.GeoFunction f2 -> b
    geogebra.common.kernel.geos.GeoFunction g -> c
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoPolynomialDiv -> geogebra.common.l.g.w:
    geogebra.common.kernel.geos.GeoFunction f1 -> a
    geogebra.common.kernel.geos.GeoFunction f2 -> b
    geogebra.common.kernel.geos.GeoFunction g -> c
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoPolynomialDivision -> geogebra.common.l.g.x:
    geogebra.common.kernel.geos.GeoFunction f1 -> a
    geogebra.common.kernel.geos.GeoFunction f2 -> b
    geogebra.common.kernel.geos.GeoFunction g -> c
    geogebra.common.kernel.geos.GeoFunction h -> d
    geogebra.common.kernel.geos.GeoList result -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoPolynomialMod -> geogebra.common.l.g.y:
    geogebra.common.kernel.geos.GeoFunction f1 -> a
    geogebra.common.kernel.geos.GeoFunction f2 -> b
    geogebra.common.kernel.geos.GeoFunction g -> c
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoPrimeFactorization -> geogebra.common.l.g.z:
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    geogebra.common.kernel.geos.GeoList outputList -> a
    double LARGEST_INTEGER -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void setListElement(int,double,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoSimplifyText -> geogebra.common.l.g.A:
    geogebra.common.kernel.geos.GeoText textIn -> a
    geogebra.common.kernel.geos.GeoText text -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoSolveODE -> geogebra.common.l.g.B:
    geogebra.common.kernel.arithmetic.FunctionalNVar f0 -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar f1 -> b
    geogebra.common.kernel.geos.GeoNumeric x -> a
    geogebra.common.kernel.geos.GeoNumeric y -> b
    geogebra.common.kernel.geos.GeoNumeric end -> c
    geogebra.common.kernel.geos.GeoNumeric step -> d
    geogebra.common.kernel.geos.GeoLocus locus -> a
    java.util.ArrayList al -> a
    geogebra.common.kernel.algos.AlgoNumerator numAlgo -> a
    geogebra.common.kernel.algos.AlgoDenominator denAlgo -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar num -> c
    geogebra.common.kernel.arithmetic.FunctionalNVar den -> d
    boolean quotient -> a
    org.apache.commons.math.ode.sampling.StepHandler stepHandler -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    void compute() -> b
    void remove() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoSolveODE$1 -> geogebra.common.l.g.C:
    geogebra.common.kernel.cas.AlgoSolveODE this$0 -> a
    void reset() -> a
    boolean requiresDenseOutput() -> a
    void handleStep(org.apache.commons.math.ode.sampling.StepInterpolator,boolean) -> a
geogebra.common.kernel.cas.AlgoSolveODE$ODE -> geogebra.common.l.g.B$a:
    geogebra.common.kernel.arithmetic.FunctionalNVar f -> a
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
geogebra.common.kernel.cas.AlgoSolveODE$ODE2 -> geogebra.common.l.g.B$b:
    geogebra.common.kernel.arithmetic.FunctionalNVar y0 -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar y1 -> b
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
geogebra.common.kernel.cas.AlgoSolveODE2 -> geogebra.common.l.g.D:
    geogebra.common.kernel.geos.GeoFunction b -> a
    geogebra.common.kernel.geos.GeoFunction c -> b
    geogebra.common.kernel.geos.GeoFunction f -> c
    geogebra.common.kernel.geos.GeoNumeric x -> a
    geogebra.common.kernel.geos.GeoNumeric y -> b
    geogebra.common.kernel.geos.GeoNumeric yDot -> c
    geogebra.common.kernel.geos.GeoNumeric end -> d
    geogebra.common.kernel.geos.GeoNumeric step -> e
    geogebra.common.kernel.geos.GeoLocus locus -> a
    java.util.ArrayList al -> a
    org.apache.commons.math.ode.sampling.StepHandler stepHandler -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoSolveODE2$1 -> geogebra.common.l.g.E:
    geogebra.common.kernel.Construction cons1 -> a
    geogebra.common.kernel.cas.AlgoSolveODE2 this$0 -> a
    void reset() -> a
    boolean requiresDenseOutput() -> a
    void handleStep(org.apache.commons.math.ode.sampling.StepInterpolator,boolean) -> a
geogebra.common.kernel.cas.AlgoSolveODE2$ODE2 -> geogebra.common.l.g.D$a:
    geogebra.common.kernel.geos.GeoFunction b -> a
    geogebra.common.kernel.geos.GeoFunction c -> b
    geogebra.common.kernel.geos.GeoFunction f -> c
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
geogebra.common.kernel.cas.AlgoSolveODECas -> geogebra.common.l.g.F:
    geogebra.common.kernel.geos.CasEvaluableFunction f -> a
    geogebra.common.kernel.geos.GeoElement g -> a
    geogebra.common.kernel.kernelND.GeoPointND pt -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    java.lang.String oldCASstring -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    void findPathThroughPoint() -> e
    void updateG(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoSurdText -> geogebra.common.l.g.G:
    int fullScale -> a
    int lessScale -> b
    geogebra.common.kernel.geos.GeoNumberValue num -> a
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoText text -> a
    java.lang.StringBuilder sb -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    void Fractionappend(java.lang.StringBuilder,int,int,geogebra.common.kernel.StringTemplate) -> a
    void PSLQappendGeneral(java.lang.StringBuilder,double,geogebra.common.kernel.StringTemplate) -> a
    boolean fitLinearComb(double,java.lang.String[],double[],int,java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.ValidExpression sbToCAS(java.lang.StringBuilder) -> a
    double evaluateCombination(int,double[],int[],int,int) -> a
    void appendCombination(java.lang.StringBuilder,int,java.lang.String[],int[],int,int,geogebra.common.kernel.StringTemplate) -> a
    void appendUndefined(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate,double) -> a
    void PSLQappendQuadratic(java.lang.StringBuilder,double,geogebra.common.kernel.StringTemplate) -> b
    int[][] mPSLQ(int,double[],double,int) -> a
    int[] PSLQ(double[],double,int) -> a
    int[] PSLQ(int,double[],double,int,int[][],double[],int[]) -> a
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFit -> geogebra.common.l.g.G$a:
    double num1 -> a
    int numOfConsts -> a
    int numOfRadicals -> b
    double[] constValues -> a
    java.lang.String[] constStrings -> a
    int coeffBound -> c
    double err -> b
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType aft -> a
    geogebra.common.kernel.StringTemplate tpl -> a
    double[] numList -> b
    int[][] coeffs -> a
    int s -> d
    int numOfPenalties -> e
    int[][] penalties -> b
    int numOfConstsUsed -> f
    int maxCoeff -> g
    int sumCoeffs -> h
    boolean isOneUsed -> a
    int bestIndex -> i
    int[] bestRelation -> a
    java.lang.StringBuilder formalSolution -> a
    geogebra.common.kernel.cas.AlgoSurdText this$0 -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$cas$AlgoSurdText$AlgebraicFittingType -> b
    void compute(double) -> a
    void computeQuadratic(double) -> c
    void computeRationalNumber(double) -> d
    void computeConstant(double) -> b
    int leastPenaltyIndex() -> a
    void setCoeffBound(int) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$cas$AlgoSurdText$AlgebraicFittingType() -> a
geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType -> geogebra.common.l.g.G$b:
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType RATIONAL_NUMBER -> a
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType LINEAR_COMBINATION -> b
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType RATIONAL_COMBINATION -> c
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType POWER_PRODUCT -> d
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType QUADRATIC_RADICAL -> e
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType FUNCTION_OF_RATIONAL_NUMBER -> f
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType FUNCTION_OF_LINEAR_COMBINATION -> g
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType FUNCTION_OF_POWER_PRODUCT -> h
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType FUNCTION_OF_QUADRATIC_RADICAL -> i
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType[] ENUM$VALUES -> a
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType[] values() -> values
    geogebra.common.kernel.cas.AlgoSurdText$AlgebraicFittingType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.cas.AlgoSurdText$IntRelationFinder -> geogebra.common.l.g.G$c:
    geogebra.common.util.MyMathExact$MyDecimal ZERO -> b
    geogebra.common.util.MyMathExact$MyDecimal ZERO_LESS -> a
    geogebra.common.util.MyMathExact$MyDecimal ONE_LESS -> c
    double tau -> b
    double rho -> c
    double gamma -> d
    double err -> a
    double M -> e
    int n -> a
    double[] x -> a
    geogebra.common.util.MyMathExact$MyDecimal[] x_full -> a
    geogebra.common.util.MyMathExact$MyDecimal[] x_double -> b
    int fullScale1 -> b
    int lessScale1 -> c
    geogebra.common.util.MyMathExact$MyDecimal xNorm -> d
    geogebra.common.util.MyMathExact$MyDecimalMatrix H_full -> b
    geogebra.common.util.MyMathExact$MyDecimalMatrix H -> c
    geogebra.common.util.MyMathExact$MyDecimalMatrix I -> a
    geogebra.common.util.MyMathExact$MyDecimalMatrix A -> d
    geogebra.common.util.MyMathExact$MyDecimalMatrix B -> e
    geogebra.common.util.MyMathExact$MyDecimalMatrix D -> f
    geogebra.common.util.MyMathExact$MyDecimalMatrix xB -> g
    geogebra.common.util.MyMathExact$MyDecimal b -> e
    geogebra.common.util.MyMathExact$MyDecimal l -> f
    geogebra.common.util.MyMathExact$MyDecimal d -> g
    int r -> d
    java.util.ArrayList result -> a
    geogebra.common.kernel.cas.AlgoSurdText this$0 -> a
    void initialize_full() -> a
    void hermiteReduction() -> b
geogebra.common.kernel.cas.AlgoSurdText$IntRelationFinder$IntRelation -> geogebra.common.l.g.G$c$a:
    int size -> a
    double sig -> a
    int nilDim -> b
    geogebra.common.util.MyMathExact$MyDecimalMatrix B1 -> b
    geogebra.common.util.MyMathExact$MyDecimalMatrix B_sol -> c
    geogebra.common.util.MyMathExact$MyDecimalMatrix B_rest -> d
    geogebra.common.util.MyMathExact$MyDecimalMatrix xB1 -> a
    int[] orthoIndices -> a
    geogebra.common.kernel.cas.AlgoSurdText$IntRelationFinder this$1 -> a
    geogebra.common.util.MyMathExact$MyDecimalMatrix getBMatrix() -> a
    geogebra.common.util.MyMathExact$MyDecimalMatrix getBSolMatrix() -> b
    geogebra.common.util.MyMathExact$MyDecimalMatrix getBRestMatrix() -> c
    int compareTo(geogebra.common.kernel.cas.AlgoSurdText$IntRelationFinder$IntRelation) -> a
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.cas.AlgoSurdTextPoint -> geogebra.common.l.g.H:
    geogebra.common.kernel.geos.GeoPoint p -> a
    geogebra.common.kernel.geos.GeoText text -> a
    java.lang.StringBuilder sbp -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void compute() -> b
    boolean isLaTeXTextCommand() -> v_
geogebra.common.kernel.cas.AlgoTangentCurve -> geogebra.common.l.g.I:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.geos.GeoCurveCartesian f -> a
    geogebra.common.kernel.geos.GeoCurveCartesian df -> b
    geogebra.common.kernel.geos.GeoLine tangent -> a
    geogebra.common.kernel.geos.GeoPoint T -> a
    boolean pointOnCurve -> a
    boolean pointOnCurveSpecial -> b
    geogebra.common.kernel.arithmetic.ExpressionValue pointOnCurveSpecialParam -> a
    geogebra.common.kernel.cas.AlgoDerivative algo -> a
    double[] feval -> a
    double[] dfeval -> b
    void initialize(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getTangent() -> a
    geogebra.common.kernel.geos.GeoPoint getTangentPoint() -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoPoint getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoTangentFunctionNumber -> geogebra.common.l.g.J:
    geogebra.common.kernel.arithmetic.NumberValue n -> a
    geogebra.common.kernel.geos.GeoElement ngeo -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoLine tangent -> a
    geogebra.common.kernel.geos.GeoPoint T -> a
    geogebra.common.kernel.geos.GeoFunction deriv -> b
    geogebra.common.kernel.cas.AlgoDerivative algo -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getTangent() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoPoint getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoTangentFunctionPoint -> geogebra.common.l.g.K:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.geos.GeoLine tangent -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoPoint T -> a
    boolean pointOnFunction -> a
    geogebra.common.kernel.geos.GeoFunction deriv -> b
    geogebra.common.kernel.cas.AlgoDerivative algo -> a
    boolean freehand -> b
    geogebra.common.kernel.algos.AlgoFunctionFreehand freehandAlgo -> a
    geogebra.common.kernel.geos.GeoList freehandList -> a
    geogebra.common.kernel.statistics.AlgoFitPoly algoFitPoly -> a
    geogebra.common.kernel.geos.GeoPoint[] points -> a
    geogebra.common.kernel.geos.GeoList geoList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getTangent() -> a
    geogebra.common.kernel.geos.GeoPoint getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    void compute() -> b
    geogebra.common.kernel.geos.GeoPoint newPoint(double) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.cas.AlgoTrigCombine -> geogebra.common.l.g.L:
    geogebra.common.kernel.geos.GeoFunction target -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void setInputOutput() -> a_
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.cas.AlgoTrigExpand -> geogebra.common.l.g.M:
    geogebra.common.kernel.geos.GeoFunction target -> a
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    void setInputOutput() -> a_
    void applyCasCommand(geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.cas.AlgoUsingTempCASalgo -> geogebra.common.l.g.N:
    geogebra.common.kernel.algos.AlgoElement algoCAS -> a
    void remove() -> a
    void refreshCASResults() -> e
geogebra.common.kernel.cas.CmdCASCommand1Arg -> geogebra.common.l.g.O:
    geogebra.common.kernel.commands.Commands cmd -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdCoefficients -> geogebra.common.l.g.P:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdDegree -> geogebra.common.l.g.Q:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdImplicitDerivative -> geogebra.common.l.g.R:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdIntegral -> geogebra.common.l.g.S:
    java.lang.String internalCommandName -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement Integral(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.cas.CmdLimit -> geogebra.common.l.g.T:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdLimitAbove -> geogebra.common.l.g.U:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdLimitBelow -> geogebra.common.l.g.V:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdNextPreviousPrime -> geogebra.common.l.g.W:
    boolean next -> a
    geogebra.common.kernel.geos.GeoElement getResult(geogebra.common.kernel.geos.GeoNumberValue,java.lang.String) -> a
geogebra.common.kernel.cas.CmdParametricDerivative -> geogebra.common.l.g.X:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdPartialFractions -> geogebra.common.l.g.Y:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdSimplify -> geogebra.common.l.g.Z:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdSolveODE -> geogebra.common.l.g.aa:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoLocus SolveODE(java.lang.String,geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.cas.CmdSurdText -> geogebra.common.l.g.ab:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdTrigCombine -> geogebra.common.l.g.ac:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.CmdTrigExpand -> geogebra.common.l.g.ad:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.cas.LengthCurve -> geogebra.common.l.g.ae:
    geogebra.common.kernel.geos.GeoCurveCartesian c1 -> a
    double evaluate(double) -> a
geogebra.common.kernel.cas.LengthFunction -> geogebra.common.l.g.af:
    geogebra.common.kernel.geos.GeoFunction f1 -> a
    double evaluate(double) -> a
geogebra.common.kernel.cas.UsesCAS -> geogebra.common.l.g.ag:
geogebra.common.kernel.commands.AlgebraProcessor -> geogebra.common.l.h.a:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.kernel.parser.ParserInterface parser -> a
    geogebra.common.kernel.commands.CommandDispatcher cmdDispatcher -> a
    geogebra.common.io.MathMLParser mathmlParserGGB -> a
    geogebra.common.io.MathMLParser mathmlParserLaTeX -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    java.lang.String getSubCommandSetName(int) -> a
    boolean isCommandAvailable(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement[] processCommand(geogebra.common.kernel.arithmetic.Command,boolean) -> a
    void processCasCell(geogebra.common.kernel.geos.GeoCasCell,boolean) -> a
    geogebra.common.kernel.geos.GeoElement changeGeoElement(geogebra.common.kernel.geos.GeoElement,java.lang.String,boolean,boolean) -> a
    geogebra.common.kernel.arithmetic.ValidExpression checkParametricEquationF(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.arithmetic.ValidExpression) -> a
    geogebra.common.kernel.geos.GeoElement changeGeoElementNoExceptionHandling(geogebra.common.kernel.geos.GeoElement,java.lang.String,boolean,boolean) -> b
    geogebra.common.kernel.geos.GeoElement changeGeoElementNoExceptionHandling(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.ValidExpression,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] processAlgebraCommand(java.lang.String,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] processAlgebraCommandNoExceptions(java.lang.String,boolean) -> b
    geogebra.common.kernel.geos.GeoElement[] processAlgebraCommandNoExceptionHandling(java.lang.String,boolean,boolean,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] processAlgebraCommandNoExceptionHandling(java.lang.String,boolean,boolean,boolean,boolean,geogebra.common.util.AsyncOperation) -> a
    geogebra.common.kernel.geos.GeoElement[] checkParametricEquation(geogebra.common.kernel.arithmetic.ValidExpression,java.util.TreeSet) -> a
    geogebra.common.kernel.geos.GeoElement[] tryReplacingProducts(geogebra.common.kernel.arithmetic.ValidExpression) -> c
    geogebra.common.kernel.geos.GeoElement[] parseMathml(java.lang.String,boolean,boolean,boolean,boolean,geogebra.common.util.AsyncOperation) -> b
    geogebra.common.kernel.geos.GeoElement[] processValidExpression(boolean,boolean,boolean,geogebra.common.kernel.arithmetic.ValidExpression) -> a
    void replaceUndefinedVariables(geogebra.common.kernel.arithmetic.ValidExpression) -> a
    double evaluateToDouble(java.lang.String) -> a
    double evaluateToDouble(java.lang.String,boolean) -> a
    geogebra.common.kernel.geos.GeoBoolean evaluateToBoolean(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoList evaluateToList(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoFunction evaluateToFunction(java.lang.String,boolean) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar evaluateToFunctionNVar(java.lang.String,boolean) -> a
    geogebra.common.kernel.geos.GeoNumberValue evaluateToNumeric(java.lang.String,boolean) -> a
    geogebra.common.kernel.kernelND.GeoPointND evaluateToPoint(java.lang.String,boolean,boolean) -> a
    geogebra.common.kernel.geos.GeoText evaluateToText(java.lang.String,boolean,boolean) -> a
    java.lang.String parseLabel(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement[] processValidExpression(geogebra.common.kernel.arithmetic.ValidExpression) -> a
    geogebra.common.kernel.geos.GeoElement[] processValidExpression(geogebra.common.kernel.arithmetic.ValidExpression,boolean) -> a
    boolean compatibleTypes(geogebra.common.plugin.GeoClass,geogebra.common.plugin.GeoClass) -> a
    geogebra.common.kernel.geos.GeoElement[] doProcessValidExpression(geogebra.common.kernel.arithmetic.ValidExpression) -> b
    geogebra.common.kernel.geos.GeoElement[] processFunction(geogebra.common.kernel.arithmetic.Function) -> a
    geogebra.common.kernel.geos.GeoElement[] processParametricFunction(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.FunctionVariable,java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[] arrayOfZeros(int) -> a
    int getPolyCoeffs(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode expr(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    boolean getTrigCoeffs(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue[],geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.geos.GeoElement) -> a
    void add(geogebra.common.kernel.arithmetic.ExpressionValue[],int,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode computeCoord(geogebra.common.kernel.arithmetic.ExpressionNode,int) -> a
    int getDirection(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoFunction DependentInterval(java.lang.String,geogebra.common.kernel.arithmetic.Function) -> a
    geogebra.common.kernel.geos.GeoElement DependentGeoCopy(java.lang.String,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] processFunctionNVar(geogebra.common.kernel.arithmetic.FunctionNVar) -> a
    geogebra.common.kernel.geos.GeoFunctionNVar DependentFunctionNVar(java.lang.String,geogebra.common.kernel.arithmetic.FunctionNVar) -> a
    geogebra.common.kernel.geos.GeoElement[] processEquation(geogebra.common.kernel.arithmetic.Equation) -> c
    geogebra.common.kernel.geos.GeoElement[] processEquation(geogebra.common.kernel.arithmetic.Equation,boolean) -> a
    void checkNoTermsInZ(geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.geos.GeoElement[] processLine(geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.geos.GeoLine DependentLine(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.geos.GeoElement[] processConic(geogebra.common.kernel.arithmetic.Equation) -> b
    geogebra.common.kernel.geos.GeoConic DependentConic(java.lang.String,geogebra.common.kernel.arithmetic.Equation) -> a
    geogebra.common.kernel.geos.GeoElement[] processImplicitPoly(geogebra.common.kernel.arithmetic.Equation) -> d
    geogebra.common.kernel.geos.GeoElement[] processExpressionNode(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoElement[] processNumber(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> b
    geogebra.common.kernel.geos.GeoNumeric DependentNumber(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] processList(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.MyList) -> a
    geogebra.common.kernel.geos.GeoList ListExpression(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoElement[] processText(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> c
    geogebra.common.kernel.geos.GeoText DependentText(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoText Text(java.lang.String,java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement[] processBoolean(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> d
    geogebra.common.kernel.geos.GeoElement[] processPointVector(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> e
    geogebra.common.kernel.geos.GeoPoint DependentPoint(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode,boolean) -> a
    geogebra.common.kernel.geos.GeoVector DependentVector(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoElement[] processPointVector3D(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.kernel.geos.GeoElement[] processGeoCopy(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoElement DependentGeoCopy(java.lang.String,geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    void enableCAS() -> a
    void showError(java.lang.String) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.commands.AlgebraProcessor$1 -> geogebra.common.l.h.b:
    geogebra.common.kernel.commands.AlgebraProcessor this$0 -> a
    geogebra.common.kernel.arithmetic.ValidExpression val$ve2 -> a
    boolean val$storeUndo -> a
    boolean val$allowErrorDialog -> b
    boolean val$throwMyError -> c
    geogebra.common.util.AsyncOperation val$callback0 -> a
    void callback(java.lang.Object) -> a
geogebra.common.kernel.commands.AlgebraProcessor$2 -> geogebra.common.l.h.c:
    geogebra.common.kernel.commands.AlgebraProcessor this$0 -> a
    geogebra.common.kernel.arithmetic.ExpressionValue process(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.commands.CAScmdProcessor -> geogebra.common.l.h.d:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdAngle -> geogebra.common.l.h.e:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command,int,boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement[] anglePointOrVector(java.lang.String,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] angle(java.lang.String[],geogebra.common.kernel.geos.GeoPolygon) -> a
geogebra.common.kernel.commands.CmdAngularBisector -> geogebra.common.l.h.f:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command,int,boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] angularBisector(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoLineND) -> a
    geogebra.common.kernel.geos.GeoElement angularBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdAppend -> geogebra.common.l.h.g:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdArcSector -> geogebra.common.l.h.h:
    int type -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement arcSector(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoElement arcSector(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdArea -> geogebra.common.l.h.i:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.algos.AlgoAreaPoints getAlgoAreaPoints(geogebra.common.kernel.Construction,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
geogebra.common.kernel.commands.CmdBarChart -> geogebra.common.l.h.j:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoNumeric BarChart(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.commands.CmdBinomial -> geogebra.common.l.h.k:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.commands.CmdCAStoOperation -> geogebra.common.l.h.l:
    geogebra.common.plugin.Operation op -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.commands.CmdCircle -> geogebra.common.l.h.m:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoElement circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
    geogebra.common.kernel.geos.GeoElement circle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdCircleArcSector -> geogebra.common.l.h.n:
    int type -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement circleArcSector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process4(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
geogebra.common.kernel.commands.CmdCircumcircleArc -> geogebra.common.l.h.o:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement getArc(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.commands.CmdCircumcircleSector -> geogebra.common.l.h.p:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement getSector(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.commands.CmdCircumference -> geogebra.common.l.h.q:
geogebra.common.kernel.commands.CmdConic -> geogebra.common.l.h.r:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] Conic(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement Conic(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.commands.CmdCopyFreeObject -> geogebra.common.l.h.s:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdCorner -> geogebra.common.l.h.t:
geogebra.common.kernel.commands.CmdCountIf -> geogebra.common.l.h.u:
    geogebra.common.kernel.geos.GeoElement[] getResult2(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoElement[]) -> a
    geogebra.common.kernel.geos.GeoElement[] getResult3(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoList[]) -> a
geogebra.common.kernel.commands.CmdCurveCartesian -> geogebra.common.l.h.v:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdDefined -> geogebra.common.l.h.w:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdDerivative -> geogebra.common.l.h.x:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    java.lang.String getDerivLabel(geogebra.common.kernel.geos.GeoElement,int) -> a
    geogebra.common.kernel.geos.GeoElement Derivative(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.commands.CmdDiameter -> geogebra.common.l.h.y:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement diameter(java.lang.String,geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement diameter(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND,geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.kernel.commands.CmdDilate -> geogebra.common.l.h.z:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] Dilate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement[] Dilate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.commands.CmdDistance -> geogebra.common.l.h.A:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdDiv -> geogebra.common.l.h.B:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdElement -> geogebra.common.l.h.C:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdEllipseHyperbola -> geogebra.common.l.h.D:
    int type -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement ellipse(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process4(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement ellipseHyperbola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
geogebra.common.kernel.commands.CmdExecute -> geogebra.common.l.h.E:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdExtremum -> geogebra.common.l.h.F:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoPoint[] Extremum(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoFunction) -> a
geogebra.common.kernel.commands.CmdFirst -> geogebra.common.l.h.G:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText First(java.lang.String,geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoList First(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.commands.CmdFocus -> geogebra.common.l.h.H:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.algos.AlgoFocus newAlgoFocus(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.kernel.commands.CmdFractionText -> geogebra.common.l.h.I:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdFunction -> geogebra.common.l.h.J:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.arithmetic.FunctionVariable,boolean) -> a
    geogebra.common.kernel.geos.GeoFunction Function(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.commands.CmdGCD -> geogebra.common.l.h.K:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdGetTime -> geogebra.common.l.h.L:
    int[] month_days -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    java.lang.String buildLocalizedDate(java.lang.String,java.util.Date,geogebra.common.main.Localization) -> a
    void decode(java.util.Date,char,java.lang.StringBuilder,geogebra.common.main.Localization) -> a
geogebra.common.kernel.commands.CmdIf -> geogebra.common.l.h.M:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    int replaceVariables(geogebra.common.kernel.arithmetic.ExpressionNode,java.lang.String[],geogebra.common.kernel.arithmetic.FunctionVariable[]) -> a
    int checkAdd(geogebra.common.kernel.arithmetic.Command,java.util.ArrayList,geogebra.common.kernel.geos.GeoElement,int) -> a
    geogebra.common.kernel.geos.GeoElement[] specialFunction(geogebra.common.kernel.arithmetic.Command,java.lang.String[],geogebra.common.kernel.arithmetic.FunctionVariable[]) -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar resolveFunction(geogebra.common.kernel.arithmetic.Command,int,geogebra.common.kernel.arithmetic.FunctionVariable[],int) -> a
    geogebra.common.kernel.geos.GeoElement If(java.lang.String,java.util.ArrayList,java.util.ArrayList,int) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode wrap(geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.FunctionVariable[],boolean) -> a
geogebra.common.kernel.commands.CmdIntersect -> geogebra.common.l.h.N:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolyLineSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolyConicSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolysSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectImplicitpolyPolynomialSingle(java.lang.String,geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectPolynomialConicSingle(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectConicsSingle(java.lang.String,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectConicsSingle(java.lang.String,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectLineConicSingle(java.lang.String,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoConic,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectPolynomialLineSingle(java.lang.String,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint IntersectPolynomialsSingle(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.geos.GeoPoint[] IntersectFunctions(java.lang.String[],geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.commands.CmdIsInteger -> geogebra.common.l.h.O:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdJoin -> geogebra.common.l.h.P:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoList Join(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdKeepIf -> geogebra.common.l.h.Q:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] getResult2(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoElement[]) -> a
    geogebra.common.kernel.geos.GeoElement[] getResult3(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoList[]) -> a
geogebra.common.kernel.commands.CmdLCM -> geogebra.common.l.h.R:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdLaTeX -> geogebra.common.l.h.S:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText LaTeX(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoBoolean) -> a
geogebra.common.kernel.commands.CmdLast -> geogebra.common.l.h.T:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText Last(java.lang.String,geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoList Last(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.commands.CmdLeftSum -> geogebra.common.l.h.U:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdLength -> geogebra.common.l.h.V:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement length(java.lang.String,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.geos.GeoElement length(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdLetterToUnicode -> geogebra.common.l.h.W:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdLine -> geogebra.common.l.h.X:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdLineBisector -> geogebra.common.l.h.Y:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
    geogebra.common.kernel.geos.GeoElement lineBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement lineBisector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdLocus -> geogebra.common.l.h.Z:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement locus(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdLowerSum -> geogebra.common.l.h.aa:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdMax -> geogebra.common.l.h.ab:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdMidpoint -> geogebra.common.l.h.ac:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] segment(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    geogebra.common.kernel.geos.GeoElement[] process1(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] conic(java.lang.String,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] twoPoints(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdMin -> geogebra.common.l.h.ad:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdMirror -> geogebra.common.l.h.ae:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process2(java.lang.String,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
geogebra.common.kernel.commands.CmdMod -> geogebra.common.l.h.af:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdName -> geogebra.common.l.h.ag:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdObject -> geogebra.common.l.h.ah:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdOneListFunction -> geogebra.common.l.h.ai:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean) -> a
geogebra.common.kernel.commands.CmdOneNumber -> geogebra.common.l.h.aj:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement getResult(geogebra.common.kernel.geos.GeoNumberValue,java.lang.String) -> a
geogebra.common.kernel.commands.CmdOneOrTwoListsFunction -> geogebra.common.l.h.ak:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdOrthogonalLine -> geogebra.common.l.h.al:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdOrthogonalVector -> geogebra.common.l.h.am:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdParabola -> geogebra.common.l.h.an:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement parabola(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoLineND) -> a
geogebra.common.kernel.commands.CmdPerimeter -> geogebra.common.l.h.ao:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdPoint -> geogebra.common.l.h.ap:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement point(java.lang.String,geogebra.common.kernel.Path,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.kernelND.GeoPointND point(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.kernel.commands.CmdPointIn -> geogebra.common.l.h.aq:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] pointIn(java.lang.String,geogebra.common.kernel.Region) -> a
geogebra.common.kernel.commands.CmdPointList -> geogebra.common.l.h.ar:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdPolyLine -> geogebra.common.l.h.as:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLine(java.lang.String[],geogebra.common.kernel.geos.GeoList) -> a
    boolean checkIs3D(boolean,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] PolyLine(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[],boolean,boolean) -> a
geogebra.common.kernel.commands.CmdPolygon -> geogebra.common.l.h.at:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command,int,geogebra.common.kernel.geos.GeoElement[]) -> a
    boolean checkIs3D(boolean,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement[] polygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] regularPolygon(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.geos.GeoNumberValue) -> a
geogebra.common.kernel.commands.CmdPolynomial -> geogebra.common.l.h.au:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoFunction PolynomialFunction(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdProduct -> geogebra.common.l.h.av:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdRadius -> geogebra.common.l.h.aw:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdRandom -> geogebra.common.l.h.ax:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdRay -> geogebra.common.l.h.ay:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement ray(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement ray(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoVectorND) -> a
geogebra.common.kernel.commands.CmdRectangleSum -> geogebra.common.l.h.az:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdRemove -> geogebra.common.l.h.aA:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdRemoveUndefined -> geogebra.common.l.h.aB:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdReverse -> geogebra.common.l.h.aC:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdRoot -> geogebra.common.l.h.aD:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoPoint[] Root(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoFunction) -> a
geogebra.common.kernel.commands.CmdRotate -> geogebra.common.l.h.aE:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] process2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> b
    geogebra.common.kernel.geos.GeoElement[] Rotate(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoNumberValue) -> a
geogebra.common.kernel.commands.CmdScripting -> geogebra.common.l.h.aF:
    geogebra.common.kernel.geos.GeoElement[] arg -> a
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
    void performAndClean(geogebra.common.kernel.arithmetic.Command) -> b
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdSegment -> geogebra.common.l.h.aG:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement segment(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdSemicircle -> geogebra.common.l.h.aH:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement semicircle(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoElement[] process3(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],boolean[]) -> a
geogebra.common.kernel.commands.CmdSequence -> geogebra.common.l.h.aI:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdShear -> geogebra.common.l.h.aJ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] Shear(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.commands.CmdSlope -> geogebra.common.l.h.aK:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdSort -> geogebra.common.l.h.aL:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoList Sort(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdSpline -> geogebra.common.l.h.aM:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND Spline(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    boolean arePoint(geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.commands.CmdStretch -> geogebra.common.l.h.aN:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] Stretch(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.commands.CmdSum -> geogebra.common.l.h.aO:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement Sum(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement SumFunctions(java.lang.String,geogebra.common.kernel.geos.GeoList) -> b
    geogebra.common.kernel.geos.GeoElement SumFunctions(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoElement SumPoints(java.lang.String,geogebra.common.kernel.geos.GeoList) -> c
    geogebra.common.kernel.geos.GeoElement SumPoints(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> b
    geogebra.common.kernel.geos.GeoElement SumText(java.lang.String,geogebra.common.kernel.geos.GeoList) -> d
    geogebra.common.kernel.geos.GeoElement SumText(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> c
geogebra.common.kernel.commands.CmdTableText -> geogebra.common.l.h.aP:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText TableText(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoText) -> a
geogebra.common.kernel.commands.CmdTake -> geogebra.common.l.h.aQ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText Take(java.lang.String,geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoList Take(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.commands.CmdTangent -> geogebra.common.l.h.aR:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement tangentToCurve(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoCurveCartesianND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoLineND,geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement[] tangent(java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND,geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.kernel.commands.CmdText -> geogebra.common.l.h.aS:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdTextToUnicode -> geogebra.common.l.h.aT:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdTranslate -> geogebra.common.l.h.aU:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.algos.AlgoTranslateVector getAlgoTranslateVector(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.commands.CmdTrapezoidalSum -> geogebra.common.l.h.aV:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdTurningPoint -> geogebra.common.l.h.aW:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdTwoNumFunction -> geogebra.common.l.h.aX:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement doCommand2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.commands.CmdUnicodeToLetter -> geogebra.common.l.h.aY:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdUnicodeToText -> geogebra.common.l.h.aZ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdUpperSum -> geogebra.common.l.h.ba:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.CmdVector -> geogebra.common.l.h.bb:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement vector(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.commands.CmdVertex -> geogebra.common.l.h.bc:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.kernelND.GeoPointND cornerOfDrawingPad(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.algos.AlgoVertexPolygon newAlgoVertexPolygon(geogebra.common.kernel.Construction,java.lang.String,geogebra.common.kernel.geos.GeoPoly,geogebra.common.kernel.geos.GeoNumberValue) -> a
    geogebra.common.kernel.algos.AlgoVertexConic newAlgoVertexConic(geogebra.common.kernel.Construction,java.lang.String[],geogebra.common.kernel.kernelND.GeoConicND) -> a
geogebra.common.kernel.commands.CommandDispatcher -> geogebra.common.l.h.bd:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.main.App app -> a
    boolean isCasActive -> a
    java.util.HashMap cmdTable -> a
    java.util.HashMap casTable -> b
    java.util.HashMap internalCmdTable -> c
    geogebra.common.kernel.commands.MacroProcessor macroProc -> a
    geogebra.common.kernel.commands.CommandDispatcherStats statsDispatcher -> a
    geogebra.common.kernel.commands.CommandDispatcherInterface discreteDispatcher -> a
    geogebra.common.kernel.commands.CommandDispatcherInterface casDispatcher -> b
    geogebra.common.kernel.commands.CommandDispatcherInterface scriptingDispatcher -> c
    geogebra.common.kernel.commands.CommandDispatcherInterface advancedDispatcher -> d
    geogebra.common.kernel.commands.CommandDispatcherBasic basicDispatcher -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    java.lang.String getSubCommandSetName(int) -> a
    boolean isCommandAvailable(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement[] processCommand(geogebra.common.kernel.arithmetic.Command,boolean) -> a
    void initCmdTable() -> a
    void initCASCommands() -> b
    void fillInternalCmdTable() -> c
    geogebra.common.kernel.commands.CommandProcessor commandTableSwitch(java.lang.String) -> a
    geogebra.common.kernel.commands.CommandDispatcherStats getStatsDispatcher() -> a
    geogebra.common.kernel.commands.CommandDispatcherInterface getDiscreteDispatcher() -> a
    geogebra.common.kernel.commands.CommandDispatcherInterface getCASDispatcher() -> b
    geogebra.common.kernel.commands.CommandDispatcherInterface getScriptingDispatcher() -> c
    geogebra.common.kernel.commands.CommandDispatcherInterface getAdvancedDispatcher() -> d
    geogebra.common.kernel.commands.CommandDispatcherBasic getBasicDispatcher() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> b
geogebra.common.kernel.commands.CommandDispatcherAdvanced -> geogebra.common.l.h.be:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.CommandDispatcherBasic -> geogebra.common.l.h.bf:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.CommandDispatcherCAS -> geogebra.common.l.h.bg:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.CommandDispatcherDiscrete -> geogebra.common.l.h.bh:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.CommandDispatcherInterface -> geogebra.common.l.h.bi:
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
geogebra.common.kernel.commands.CommandDispatcherScripting -> geogebra.common.l.h.bj:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.CommandDispatcherStats -> geogebra.common.l.h.bk:
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.CommandProcessor dispatch(geogebra.common.kernel.commands.Commands,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.CommandProcessor -> geogebra.common.l.h.bl:
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    geogebra.common.kernel.Kernel kernelA -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.common.kernel.commands.AlgebraProcessor algProcessor -> a
    java.lang.StringBuilder sb -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement[] resArgs(geogebra.common.kernel.arithmetic.Command) -> b
    geogebra.common.kernel.geos.GeoElement[] resArgs(geogebra.common.kernel.arithmetic.Command,boolean) -> a
    geogebra.common.kernel.geos.GeoElement[] resArg(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.geos.GeoElement[] resArgsLocalNumVar(geogebra.common.kernel.arithmetic.Command,int,int) -> a
    void replaceZvarIfNeeded(java.lang.String,geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement resArgsForZip(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoList[]) -> a
    geogebra.common.kernel.geos.GeoElement[] resArgsLocalNumVar(geogebra.common.kernel.arithmetic.Command,int[],int[]) -> a
    geogebra.common.main.MyError argErr(geogebra.common.main.App,java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.main.MyError argErr(geogebra.common.main.Localization,java.lang.String,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    geogebra.common.main.MyError argNumErr(geogebra.common.main.App,java.lang.String,int) -> a
    void getCommandSyntax(java.lang.StringBuilder,geogebra.common.main.Localization,java.lang.String,int) -> a
    geogebra.common.kernel.geos.GeoElement getBadArg(boolean[],geogebra.common.kernel.geos.GeoElement[]) -> a
    geogebra.common.kernel.geos.GeoList wrapInList(geogebra.common.kernel.Kernel,geogebra.common.kernel.geos.GeoElement[],int,geogebra.common.plugin.GeoClass) -> a
    geogebra.common.kernel.geos.GeoList wrapFreehandFunctionArgInList(geogebra.common.kernel.Kernel,geogebra.common.kernel.algos.AlgoFunctionFreehand) -> a
    void checkDependency(geogebra.common.kernel.geos.GeoElement[],java.lang.String,int,int) -> a
    geogebra.common.kernel.algos.AlgoDispatcher getAlgoDispatcher() -> a
geogebra.common.kernel.commands.Commands -> geogebra.common.l.h.bm:
    geogebra.common.kernel.commands.Commands Mod -> a
    geogebra.common.kernel.commands.Commands Div -> b
    geogebra.common.kernel.commands.Commands Min -> c
    geogebra.common.kernel.commands.Commands Max -> d
    geogebra.common.kernel.commands.Commands LCM -> e
    geogebra.common.kernel.commands.Commands GCD -> f
    geogebra.common.kernel.commands.Commands Expand -> g
    geogebra.common.kernel.commands.Commands Factor -> h
    geogebra.common.kernel.commands.Commands Simplify -> i
    geogebra.common.kernel.commands.Commands PrimeFactors -> j
    geogebra.common.kernel.commands.Commands CompleteSquare -> k
    geogebra.common.kernel.commands.Commands ToBase -> l
    geogebra.common.kernel.commands.Commands FromBase -> m
    geogebra.common.kernel.commands.Commands Division -> n
    geogebra.common.kernel.commands.Commands Divisors -> o
    geogebra.common.kernel.commands.Commands DivisorsList -> p
    geogebra.common.kernel.commands.Commands DivisorsSum -> q
    geogebra.common.kernel.commands.Commands IsPrime -> r
    geogebra.common.kernel.commands.Commands LeftSide -> s
    geogebra.common.kernel.commands.Commands NextPrime -> t
    geogebra.common.kernel.commands.Commands RightSide -> u
    geogebra.common.kernel.commands.Commands PreviousPrime -> v
    geogebra.common.kernel.commands.Commands Line -> w
    geogebra.common.kernel.commands.Commands Ray -> x
    geogebra.common.kernel.commands.Commands AngularBisector -> y
    geogebra.common.kernel.commands.Commands OrthogonalLine -> z
    geogebra.common.kernel.commands.Commands Tangent -> A
    geogebra.common.kernel.commands.Commands Segment -> B
    geogebra.common.kernel.commands.Commands Slope -> C
    geogebra.common.kernel.commands.Commands Angle -> D
    geogebra.common.kernel.commands.Commands Direction -> E
    geogebra.common.kernel.commands.Commands Point -> F
    geogebra.common.kernel.commands.Commands Midpoint -> G
    geogebra.common.kernel.commands.Commands LineBisector -> H
    geogebra.common.kernel.commands.Commands Intersect -> I
    geogebra.common.kernel.commands.Commands IntersectPath -> J
    geogebra.common.kernel.commands.Commands IntersectRegion -> K
    geogebra.common.kernel.commands.Commands Distance -> L
    geogebra.common.kernel.commands.Commands Length -> M
    geogebra.common.kernel.commands.Commands Radius -> N
    geogebra.common.kernel.commands.Commands CircleArc -> O
    geogebra.common.kernel.commands.Commands Arc -> P
    geogebra.common.kernel.commands.Commands Sector -> Q
    geogebra.common.kernel.commands.Commands CircleSector -> R
    geogebra.common.kernel.commands.Commands CircumcircleSector -> S
    geogebra.common.kernel.commands.Commands CircumcircleArc -> T
    geogebra.common.kernel.commands.Commands Polygon -> U
    geogebra.common.kernel.commands.Commands RigidPolygon -> V
    geogebra.common.kernel.commands.Commands Area -> W
    geogebra.common.kernel.commands.Commands Circumference -> X
    geogebra.common.kernel.commands.Commands Perimeter -> Y
    geogebra.common.kernel.commands.Commands Locus -> Z
    geogebra.common.kernel.commands.Commands Centroid -> aa
    geogebra.common.kernel.commands.Commands TriangleCenter -> ab
    geogebra.common.kernel.commands.Commands Barycenter -> ac
    geogebra.common.kernel.commands.Commands Trilinear -> ad
    geogebra.common.kernel.commands.Commands Cubic -> ae
    geogebra.common.kernel.commands.Commands TriangleCurve -> af
    geogebra.common.kernel.commands.Commands Vertex -> ag
    geogebra.common.kernel.commands.Commands PolyLine -> ah
    geogebra.common.kernel.commands.Commands PointIn -> ai
    geogebra.common.kernel.commands.Commands AffineRatio -> aj
    geogebra.common.kernel.commands.Commands CrossRatio -> ak
    geogebra.common.kernel.commands.Commands ClosestPoint -> al
    geogebra.common.kernel.commands.Commands ClosestPointRegion -> am
    geogebra.common.kernel.commands.Commands Prove -> an
    geogebra.common.kernel.commands.Commands ProveDetails -> ao
    geogebra.common.kernel.commands.Commands AreCollinear -> ap
    geogebra.common.kernel.commands.Commands AreParallel -> aq
    geogebra.common.kernel.commands.Commands AreConcyclic -> ar
    geogebra.common.kernel.commands.Commands ArePerpendicular -> as
    geogebra.common.kernel.commands.Commands AreEqual -> at
    geogebra.common.kernel.commands.Commands AreConcurrent -> au
    geogebra.common.kernel.commands.Commands LocusEquation -> av
    geogebra.common.kernel.commands.Commands Envelope -> aw
    geogebra.common.kernel.commands.Commands Volume -> ax
    geogebra.common.kernel.commands.Commands Text -> ay
    geogebra.common.kernel.commands.Commands LaTeX -> az
    geogebra.common.kernel.commands.Commands LetterToUnicode -> aA
    geogebra.common.kernel.commands.Commands TextToUnicode -> aB
    geogebra.common.kernel.commands.Commands UnicodeToText -> aC
    geogebra.common.kernel.commands.Commands UnicodeToLetter -> aD
    geogebra.common.kernel.commands.Commands FractionText -> aE
    geogebra.common.kernel.commands.Commands SurdText -> aF
    geogebra.common.kernel.commands.Commands ScientificText -> aG
    geogebra.common.kernel.commands.Commands TableText -> aH
    geogebra.common.kernel.commands.Commands VerticalText -> aI
    geogebra.common.kernel.commands.Commands RotateText -> aJ
    geogebra.common.kernel.commands.Commands Ordinal -> aK
    geogebra.common.kernel.commands.Commands ContinuedFraction -> aL
    geogebra.common.kernel.commands.Commands If -> aM
    geogebra.common.kernel.commands.Commands CountIf -> aN
    geogebra.common.kernel.commands.Commands IsInteger -> aO
    geogebra.common.kernel.commands.Commands KeepIf -> aP
    geogebra.common.kernel.commands.Commands Relation -> aQ
    geogebra.common.kernel.commands.Commands Defined -> aR
    geogebra.common.kernel.commands.Commands IsInRegion -> aS
    geogebra.common.kernel.commands.Commands Root -> aT
    geogebra.common.kernel.commands.Commands Roots -> aU
    geogebra.common.kernel.commands.Commands TurningPoint -> aV
    geogebra.common.kernel.commands.Commands Polynomial -> aW
    geogebra.common.kernel.commands.Commands Function -> aX
    geogebra.common.kernel.commands.Commands Extremum -> aY
    geogebra.common.kernel.commands.Commands CurveCartesian -> aZ
    geogebra.common.kernel.commands.Commands ParametricDerivative -> ba
    geogebra.common.kernel.commands.Commands Derivative -> bb
    geogebra.common.kernel.commands.Commands Integral -> bc
    geogebra.common.kernel.commands.Commands IntegralBetween -> bd
    geogebra.common.kernel.commands.Commands LowerSum -> be
    geogebra.common.kernel.commands.Commands LeftSum -> bf
    geogebra.common.kernel.commands.Commands RectangleSum -> bg
    geogebra.common.kernel.commands.Commands TaylorSeries -> bh
    geogebra.common.kernel.commands.Commands UpperSum -> bi
    geogebra.common.kernel.commands.Commands TrapezoidalSum -> bj
    geogebra.common.kernel.commands.Commands Limit -> bk
    geogebra.common.kernel.commands.Commands LimitBelow -> bl
    geogebra.common.kernel.commands.Commands LimitAbove -> bm
    geogebra.common.kernel.commands.Commands Factors -> bn
    geogebra.common.kernel.commands.Commands Degree -> bo
    geogebra.common.kernel.commands.Commands Coefficients -> bp
    geogebra.common.kernel.commands.Commands PartialFractions -> bq
    geogebra.common.kernel.commands.Commands Numerator -> br
    geogebra.common.kernel.commands.Commands Denominator -> bs
    geogebra.common.kernel.commands.Commands ComplexRoot -> bt
    geogebra.common.kernel.commands.Commands SolveODE -> bu
    geogebra.common.kernel.commands.Commands SlopeField -> bv
    geogebra.common.kernel.commands.Commands Iteration -> bw
    geogebra.common.kernel.commands.Commands PathParameter -> bx
    geogebra.common.kernel.commands.Commands Asymptote -> by
    geogebra.common.kernel.commands.Commands CurvatureVector -> bz
    geogebra.common.kernel.commands.Commands Curvature -> bA
    geogebra.common.kernel.commands.Commands OsculatingCircle -> bB
    geogebra.common.kernel.commands.Commands IterationList -> bC
    geogebra.common.kernel.commands.Commands RootList -> bD
    geogebra.common.kernel.commands.Commands ImplicitCurve -> bE
    geogebra.common.kernel.commands.Commands ImplicitDerivative -> bF
    geogebra.common.kernel.commands.Commands NSolveODE -> bG
    geogebra.common.kernel.commands.Commands Spline -> bH
    geogebra.common.kernel.commands.Commands Ellipse -> bI
    geogebra.common.kernel.commands.Commands Hyperbola -> bJ
    geogebra.common.kernel.commands.Commands SecondAxisLength -> bK
    geogebra.common.kernel.commands.Commands SecondAxis -> bL
    geogebra.common.kernel.commands.Commands Directrix -> bM
    geogebra.common.kernel.commands.Commands Diameter -> bN
    geogebra.common.kernel.commands.Commands Conic -> bO
    geogebra.common.kernel.commands.Commands FirstAxis -> bP
    geogebra.common.kernel.commands.Commands Circle -> bQ
    geogebra.common.kernel.commands.Commands Incircle -> bR
    geogebra.common.kernel.commands.Commands Semicircle -> bS
    geogebra.common.kernel.commands.Commands FirstAxisLength -> bT
    geogebra.common.kernel.commands.Commands Parabola -> bU
    geogebra.common.kernel.commands.Commands Focus -> bV
    geogebra.common.kernel.commands.Commands Parameter -> bW
    geogebra.common.kernel.commands.Commands Center -> bX
    geogebra.common.kernel.commands.Commands Polar -> bY
    geogebra.common.kernel.commands.Commands Excentricity -> bZ
    geogebra.common.kernel.commands.Commands Eccentricity -> ca
    geogebra.common.kernel.commands.Commands Axes -> cb
    geogebra.common.kernel.commands.Commands Sort -> cc
    geogebra.common.kernel.commands.Commands First -> cd
    geogebra.common.kernel.commands.Commands Last -> ce
    geogebra.common.kernel.commands.Commands Take -> cf
    geogebra.common.kernel.commands.Commands RemoveUndefined -> cg
    geogebra.common.kernel.commands.Commands Reverse -> ch
    geogebra.common.kernel.commands.Commands Element -> ci
    geogebra.common.kernel.commands.Commands IndexOf -> cj
    geogebra.common.kernel.commands.Commands Append -> ck
    geogebra.common.kernel.commands.Commands Join -> cl
    geogebra.common.kernel.commands.Commands Flatten -> cm
    geogebra.common.kernel.commands.Commands Insert -> cn
    geogebra.common.kernel.commands.Commands Sequence -> co
    geogebra.common.kernel.commands.Commands SelectedElement -> cp
    geogebra.common.kernel.commands.Commands SelectedIndex -> cq
    geogebra.common.kernel.commands.Commands RandomElement -> cr
    geogebra.common.kernel.commands.Commands Product -> cs
    geogebra.common.kernel.commands.Commands Frequency -> ct
    geogebra.common.kernel.commands.Commands Unique -> cu
    geogebra.common.kernel.commands.Commands Classes -> cv
    geogebra.common.kernel.commands.Commands Zip -> cw
    geogebra.common.kernel.commands.Commands Intersection -> cx
    geogebra.common.kernel.commands.Commands PointList -> cy
    geogebra.common.kernel.commands.Commands OrdinalRank -> cz
    geogebra.common.kernel.commands.Commands TiedRank -> cA
    geogebra.common.kernel.commands.Commands Union -> cB
    geogebra.common.kernel.commands.Commands Remove -> cC
    geogebra.common.kernel.commands.Commands BarChart -> cD
    geogebra.common.kernel.commands.Commands BoxPlot -> cE
    geogebra.common.kernel.commands.Commands Histogram -> cF
    geogebra.common.kernel.commands.Commands HistogramRight -> cG
    geogebra.common.kernel.commands.Commands DotPlot -> cH
    geogebra.common.kernel.commands.Commands StemPlot -> cI
    geogebra.common.kernel.commands.Commands ResidualPlot -> cJ
    geogebra.common.kernel.commands.Commands FrequencyPolygon -> cK
    geogebra.common.kernel.commands.Commands NormalQuantilePlot -> cL
    geogebra.common.kernel.commands.Commands FrequencyTable -> cM
    geogebra.common.kernel.commands.Commands StickGraph -> cN
    geogebra.common.kernel.commands.Commands StepGraph -> cO
    geogebra.common.kernel.commands.Commands ContingencyTable -> cP
    geogebra.common.kernel.commands.Commands Sum -> cQ
    geogebra.common.kernel.commands.Commands Mean -> cR
    geogebra.common.kernel.commands.Commands Variance -> cS
    geogebra.common.kernel.commands.Commands SD -> cT
    geogebra.common.kernel.commands.Commands SampleVariance -> cU
    geogebra.common.kernel.commands.Commands SampleSD -> cV
    geogebra.common.kernel.commands.Commands Median -> cW
    geogebra.common.kernel.commands.Commands Q1 -> cX
    geogebra.common.kernel.commands.Commands Q3 -> cY
    geogebra.common.kernel.commands.Commands Mode -> cZ
    geogebra.common.kernel.commands.Commands SigmaXX -> da
    geogebra.common.kernel.commands.Commands SigmaXY -> db
    geogebra.common.kernel.commands.Commands SigmaYY -> dc
    geogebra.common.kernel.commands.Commands Covariance -> dd
    geogebra.common.kernel.commands.Commands SXY -> de
    geogebra.common.kernel.commands.Commands SXX -> df
    geogebra.common.kernel.commands.Commands SYY -> dg
    geogebra.common.kernel.commands.Commands MeanX -> dh
    geogebra.common.kernel.commands.Commands MeanY -> di
    geogebra.common.kernel.commands.Commands PMCC -> dj
    geogebra.common.kernel.commands.Commands SampleSDX -> dk
    geogebra.common.kernel.commands.Commands SampleSDY -> dl
    geogebra.common.kernel.commands.Commands SDX -> dm
    geogebra.common.kernel.commands.Commands SDY -> dn
    geogebra.common.kernel.commands.Commands FitLineY -> do
    geogebra.common.kernel.commands.Commands FitLineX -> dp
    geogebra.common.kernel.commands.Commands FitPoly -> dq
    geogebra.common.kernel.commands.Commands FitExp -> dr
    geogebra.common.kernel.commands.Commands FitLog -> ds
    geogebra.common.kernel.commands.Commands FitPow -> dt
    geogebra.common.kernel.commands.Commands Fit -> du
    geogebra.common.kernel.commands.Commands FitGrowth -> dv
    geogebra.common.kernel.commands.Commands FitSin -> dw
    geogebra.common.kernel.commands.Commands FitLogistic -> dx
    geogebra.common.kernel.commands.Commands SumSquaredErrors -> dy
    geogebra.common.kernel.commands.Commands RSquare -> dz
    geogebra.common.kernel.commands.Commands Sample -> dA
    geogebra.common.kernel.commands.Commands Shuffle -> dB
    geogebra.common.kernel.commands.Commands FitImplicit -> dC
    geogebra.common.kernel.commands.Commands Spearman -> dD
    geogebra.common.kernel.commands.Commands TTest -> dE
    geogebra.common.kernel.commands.Commands ZProportionTest -> dF
    geogebra.common.kernel.commands.Commands ZProportion2Test -> dG
    geogebra.common.kernel.commands.Commands ZProportionEstimate -> dH
    geogebra.common.kernel.commands.Commands ZProportion2Estimate -> dI
    geogebra.common.kernel.commands.Commands ZMeanEstimate -> dJ
    geogebra.common.kernel.commands.Commands ZMean2Estimate -> dK
    geogebra.common.kernel.commands.Commands ZMeanTest -> dL
    geogebra.common.kernel.commands.Commands ZMean2Test -> dM
    geogebra.common.kernel.commands.Commands TTestPaired -> dN
    geogebra.common.kernel.commands.Commands TTest2 -> dO
    geogebra.common.kernel.commands.Commands TMeanEstimate -> dP
    geogebra.common.kernel.commands.Commands TMean2Estimate -> dQ
    geogebra.common.kernel.commands.Commands ChiSquaredTest -> dR
    geogebra.common.kernel.commands.Commands ANOVA -> dS
    geogebra.common.kernel.commands.Commands Percentile -> dT
    geogebra.common.kernel.commands.Commands GeometricMean -> dU
    geogebra.common.kernel.commands.Commands HarmonicMean -> dV
    geogebra.common.kernel.commands.Commands RootMeanSquare -> dW
    geogebra.common.kernel.commands.Commands Random -> dX
    geogebra.common.kernel.commands.Commands RandomNormal -> dY
    geogebra.common.kernel.commands.Commands RandomUniform -> dZ
    geogebra.common.kernel.commands.Commands RandomBinomial -> ea
    geogebra.common.kernel.commands.Commands RandomPoisson -> eb
    geogebra.common.kernel.commands.Commands Normal -> ec
    geogebra.common.kernel.commands.Commands LogNormal -> ed
    geogebra.common.kernel.commands.Commands Logistic -> ee
    geogebra.common.kernel.commands.Commands InverseLogistic -> ef
    geogebra.common.kernel.commands.Commands InverseNormal -> eg
    geogebra.common.kernel.commands.Commands Binomial -> eh
    geogebra.common.kernel.commands.Commands BinomialDist -> ei
    geogebra.common.kernel.commands.Commands Bernoulli -> ej
    geogebra.common.kernel.commands.Commands InverseBinomial -> ek
    geogebra.common.kernel.commands.Commands TDistribution -> el
    geogebra.common.kernel.commands.Commands InverseTDistribution -> em
    geogebra.common.kernel.commands.Commands FDistribution -> en
    geogebra.common.kernel.commands.Commands InverseFDistribution -> eo
    geogebra.common.kernel.commands.Commands Gamma -> ep
    geogebra.common.kernel.commands.Commands InverseGamma -> eq
    geogebra.common.kernel.commands.Commands Cauchy -> er
    geogebra.common.kernel.commands.Commands InverseCauchy -> es
    geogebra.common.kernel.commands.Commands ChiSquared -> et
    geogebra.common.kernel.commands.Commands InverseChiSquared -> eu
    geogebra.common.kernel.commands.Commands Exponential -> ev
    geogebra.common.kernel.commands.Commands InverseExponential -> ew
    geogebra.common.kernel.commands.Commands HyperGeometric -> ex
    geogebra.common.kernel.commands.Commands InverseHyperGeometric -> ey
    geogebra.common.kernel.commands.Commands Pascal -> ez
    geogebra.common.kernel.commands.Commands InversePascal -> eA
    geogebra.common.kernel.commands.Commands Poisson -> eB
    geogebra.common.kernel.commands.Commands InversePoisson -> eC
    geogebra.common.kernel.commands.Commands Weibull -> eD
    geogebra.common.kernel.commands.Commands InverseWeibull -> eE
    geogebra.common.kernel.commands.Commands Zipf -> eF
    geogebra.common.kernel.commands.Commands InverseZipf -> eG
    geogebra.common.kernel.commands.Commands Triangular -> eH
    geogebra.common.kernel.commands.Commands Uniform -> eI
    geogebra.common.kernel.commands.Commands Erlang -> eJ
    geogebra.common.kernel.commands.Commands InverseLogNormal -> eK
    geogebra.common.kernel.commands.Commands RandomPolynomial -> eL
    geogebra.common.kernel.commands.Commands nPr -> eM
    geogebra.common.kernel.commands.Commands ApplyMatrix -> eN
    geogebra.common.kernel.commands.Commands UnitVector -> eO
    geogebra.common.kernel.commands.Commands Vector -> eP
    geogebra.common.kernel.commands.Commands UnitOrthogonalVector -> eQ
    geogebra.common.kernel.commands.Commands OrthogonalVector -> eR
    geogebra.common.kernel.commands.Commands Invert -> eS
    geogebra.common.kernel.commands.Commands Transpose -> eT
    geogebra.common.kernel.commands.Commands ReducedRowEchelonForm -> eU
    geogebra.common.kernel.commands.Commands Determinant -> eV
    geogebra.common.kernel.commands.Commands Identity -> eW
    geogebra.common.kernel.commands.Commands Dimension -> eX
    geogebra.common.kernel.commands.Commands MatrixRank -> eY
    geogebra.common.kernel.commands.Commands Mirror -> eZ
    geogebra.common.kernel.commands.Commands Dilate -> fa
    geogebra.common.kernel.commands.Commands Rotate -> fb
    geogebra.common.kernel.commands.Commands Translate -> fc
    geogebra.common.kernel.commands.Commands Shear -> fd
    geogebra.common.kernel.commands.Commands Stretch -> fe
    geogebra.common.kernel.commands.Commands CellRange -> ff
    geogebra.common.kernel.commands.Commands Row -> fg
    geogebra.common.kernel.commands.Commands Column -> fh
    geogebra.common.kernel.commands.Commands ColumnName -> fi
    geogebra.common.kernel.commands.Commands FillRow -> fj
    geogebra.common.kernel.commands.Commands FillColumn -> fk
    geogebra.common.kernel.commands.Commands FillCells -> fl
    geogebra.common.kernel.commands.Commands Cell -> fm
    geogebra.common.kernel.commands.Commands Rate -> fn
    geogebra.common.kernel.commands.Commands Periods -> fo
    geogebra.common.kernel.commands.Commands Payment -> fp
    geogebra.common.kernel.commands.Commands FutureValue -> fq
    geogebra.common.kernel.commands.Commands PresentValue -> fr
    geogebra.common.kernel.commands.Commands CopyFreeObject -> fs
    geogebra.common.kernel.commands.Commands SetColor -> ft
    geogebra.common.kernel.commands.Commands SetBackgroundColor -> fu
    geogebra.common.kernel.commands.Commands SetDynamicColor -> fv
    geogebra.common.kernel.commands.Commands SetConditionToShowObject -> fw
    geogebra.common.kernel.commands.Commands SetFilling -> fx
    geogebra.common.kernel.commands.Commands SetLineThickness -> fy
    geogebra.common.kernel.commands.Commands SetLineStyle -> fz
    geogebra.common.kernel.commands.Commands SetPointStyle -> fA
    geogebra.common.kernel.commands.Commands SetPointSize -> fB
    geogebra.common.kernel.commands.Commands SetFixed -> fC
    geogebra.common.kernel.commands.Commands SetTrace -> fD
    geogebra.common.kernel.commands.Commands Rename -> fE
    geogebra.common.kernel.commands.Commands HideLayer -> fF
    geogebra.common.kernel.commands.Commands ShowLayer -> fG
    geogebra.common.kernel.commands.Commands SetCoords -> fH
    geogebra.common.kernel.commands.Commands Pan -> fI
    geogebra.common.kernel.commands.Commands CenterView -> fJ
    geogebra.common.kernel.commands.Commands ZoomIn -> fK
    geogebra.common.kernel.commands.Commands SetSeed -> fL
    geogebra.common.kernel.commands.Commands ZoomOut -> fM
    geogebra.common.kernel.commands.Commands SetActiveView -> fN
    geogebra.common.kernel.commands.Commands SelectObjects -> fO
    geogebra.common.kernel.commands.Commands SetLayer -> fP
    geogebra.common.kernel.commands.Commands SetCaption -> fQ
    geogebra.common.kernel.commands.Commands SetLabelMode -> fR
    geogebra.common.kernel.commands.Commands SetTooltipMode -> fS
    geogebra.common.kernel.commands.Commands UpdateConstruction -> fT
    geogebra.common.kernel.commands.Commands SetValue -> fU
    geogebra.common.kernel.commands.Commands PlaySound -> fV
    geogebra.common.kernel.commands.Commands ParseToNumber -> fW
    geogebra.common.kernel.commands.Commands ParseToFunction -> fX
    geogebra.common.kernel.commands.Commands StartAnimation -> fY
    geogebra.common.kernel.commands.Commands Delete -> fZ
    geogebra.common.kernel.commands.Commands Slider -> ga
    geogebra.common.kernel.commands.Commands Checkbox -> gb
    geogebra.common.kernel.commands.Commands Textfield -> gc
    geogebra.common.kernel.commands.Commands Button -> gd
    geogebra.common.kernel.commands.Commands Execute -> ge
    geogebra.common.kernel.commands.Commands GetTime -> gf
    geogebra.common.kernel.commands.Commands ShowLabel -> gg
    geogebra.common.kernel.commands.Commands SetAxesRatio -> gh
    geogebra.common.kernel.commands.Commands SetVisibleInView -> gi
    geogebra.common.kernel.commands.Commands ShowAxes -> gj
    geogebra.common.kernel.commands.Commands ShowGrid -> gk
    geogebra.common.kernel.commands.Commands AttachCopyToView -> gl
    geogebra.common.kernel.commands.Commands RunClickScript -> gm
    geogebra.common.kernel.commands.Commands RunUpdateScript -> gn
    geogebra.common.kernel.commands.Commands SetPerspective -> go
    geogebra.common.kernel.commands.Commands StartLogging -> gp
    geogebra.common.kernel.commands.Commands StopLogging -> gq
    geogebra.common.kernel.commands.Commands StartRecord -> gr
    geogebra.common.kernel.commands.Commands Repeat -> gs
    geogebra.common.kernel.commands.Commands Voronoi -> gt
    geogebra.common.kernel.commands.Commands Hull -> gu
    geogebra.common.kernel.commands.Commands ConvexHull -> gv
    geogebra.common.kernel.commands.Commands MinimumSpanningTree -> gw
    geogebra.common.kernel.commands.Commands DelauneyTriangulation -> gx
    geogebra.common.kernel.commands.Commands TravelingSalesman -> gy
    geogebra.common.kernel.commands.Commands ShortestDistance -> gz
    geogebra.common.kernel.commands.Commands Corner -> gA
    geogebra.common.kernel.commands.Commands AxisStepX -> gB
    geogebra.common.kernel.commands.Commands AxisStepY -> gC
    geogebra.common.kernel.commands.Commands ConstructionStep -> gD
    geogebra.common.kernel.commands.Commands Object -> gE
    geogebra.common.kernel.commands.Commands Name -> gF
    geogebra.common.kernel.commands.Commands SlowPlot -> gG
    geogebra.common.kernel.commands.Commands ToolImage -> gH
    geogebra.common.kernel.commands.Commands DynamicCoordinates -> gI
    geogebra.common.kernel.commands.Commands Maximize -> gJ
    geogebra.common.kernel.commands.Commands Minimize -> gK
    geogebra.common.kernel.commands.Commands Curve -> gL
    geogebra.common.kernel.commands.Commands FormulaText -> gM
    geogebra.common.kernel.commands.Commands IsDefined -> gN
    geogebra.common.kernel.commands.Commands ConjugateDiameter -> gO
    geogebra.common.kernel.commands.Commands LinearEccentricity -> gP
    geogebra.common.kernel.commands.Commands MajorAxis -> gQ
    geogebra.common.kernel.commands.Commands SemiMajorAxisLength -> gR
    geogebra.common.kernel.commands.Commands PerpendicularBisector -> gS
    geogebra.common.kernel.commands.Commands PerpendicularLine -> gT
    geogebra.common.kernel.commands.Commands PerpendicularVector -> gU
    geogebra.common.kernel.commands.Commands MinorAxis -> gV
    geogebra.common.kernel.commands.Commands SemiMinorAxisLength -> gW
    geogebra.common.kernel.commands.Commands UnitPerpendicularVector -> gX
    geogebra.common.kernel.commands.Commands CorrelationCoefficient -> gY
    geogebra.common.kernel.commands.Commands FitLine -> gZ
    geogebra.common.kernel.commands.Commands BinomialCoefficient -> ha
    geogebra.common.kernel.commands.Commands RandomBetween -> hb
    geogebra.common.kernel.commands.Commands TaylorPolynomial -> hc
    geogebra.common.kernel.commands.Commands AngleBisector -> hd
    geogebra.common.kernel.commands.Commands CircumcircularSector -> he
    geogebra.common.kernel.commands.Commands CircumcircularArc -> hf
    geogebra.common.kernel.commands.Commands CircularSector -> hg
    geogebra.common.kernel.commands.Commands CircularArc -> hh
    geogebra.common.kernel.commands.Commands Bottom -> hi
    geogebra.common.kernel.commands.Commands Cone -> hj
    geogebra.common.kernel.commands.Commands Cube -> hk
    geogebra.common.kernel.commands.Commands Cylinder -> hl
    geogebra.common.kernel.commands.Commands Dodecahedron -> hm
    geogebra.common.kernel.commands.Commands Ends -> hn
    geogebra.common.kernel.commands.Commands Icosahedron -> ho
    geogebra.common.kernel.commands.Commands InfiniteCone -> hp
    geogebra.common.kernel.commands.Commands InfiniteCylinder -> hq
    geogebra.common.kernel.commands.Commands Octahedron -> hr
    geogebra.common.kernel.commands.Commands Plane -> hs
    geogebra.common.kernel.commands.Commands QuadricSide -> ht
    geogebra.common.kernel.commands.Commands Surface -> hu
    geogebra.common.kernel.commands.Commands Tetrahedron -> hv
    geogebra.common.kernel.commands.Commands Top -> hw
    geogebra.common.kernel.commands.Commands CylinderInfinite -> hx
    geogebra.common.kernel.commands.Commands Sphere -> hy
    geogebra.common.kernel.commands.Commands OrthogonalPlane -> hz
    geogebra.common.kernel.commands.Commands PerpendicularPlane -> hA
    geogebra.common.kernel.commands.Commands Prism -> hB
    geogebra.common.kernel.commands.Commands Pyramid -> hC
    geogebra.common.kernel.commands.Commands PlaneBisector -> hD
    geogebra.common.kernel.commands.Commands IntersectionPaths -> hE
    geogebra.common.kernel.commands.Commands ConeInfinite -> hF
    geogebra.common.kernel.commands.Commands IntersectCircle -> hG
    geogebra.common.kernel.commands.Commands IntersectConic -> hH
    geogebra.common.kernel.commands.Commands Height -> hI
    geogebra.common.kernel.commands.Commands CornerThreeD -> hJ
    geogebra.common.kernel.commands.Commands Net -> hK
    geogebra.common.kernel.commands.Commands SetViewDirection -> hL
    geogebra.common.kernel.commands.Commands SetSpinSpeed -> hM
    geogebra.common.kernel.commands.Commands Turtle -> hN
    geogebra.common.kernel.commands.Commands TurtleForward -> hO
    geogebra.common.kernel.commands.Commands TurtleBack -> hP
    geogebra.common.kernel.commands.Commands TurtleLeft -> hQ
    geogebra.common.kernel.commands.Commands TurtleRight -> hR
    geogebra.common.kernel.commands.Commands TurtleUp -> hS
    geogebra.common.kernel.commands.Commands TurtleDown -> hT
    geogebra.common.kernel.commands.Commands MatrixPlot -> hU
    geogebra.common.kernel.commands.Commands DensityPlot -> hV
    geogebra.common.kernel.commands.Commands ContourPlot -> hW
    geogebra.common.kernel.commands.Commands Nyquist -> hX
    geogebra.common.kernel.commands.Commands Polyhedron -> hY
    geogebra.common.kernel.commands.Commands Reflect -> hZ
    geogebra.common.kernel.commands.Commands CFactor -> ia
    geogebra.common.kernel.commands.Commands CIFactor -> ib
    geogebra.common.kernel.commands.Commands IFactor -> ic
    geogebra.common.kernel.commands.Commands CommonDenominator -> id
    geogebra.common.kernel.commands.Commands Cross -> ie
    geogebra.common.kernel.commands.Commands CSolutions -> if
    geogebra.common.kernel.commands.Commands CSolve -> ig
    geogebra.common.kernel.commands.Commands Dot -> ih
    geogebra.common.kernel.commands.Commands Eliminate -> ii
    geogebra.common.kernel.commands.Commands GroebnerLex -> ij
    geogebra.common.kernel.commands.Commands GroebnerDegRevLex -> ik
    geogebra.common.kernel.commands.Commands GroebnerLexDeg -> il
    geogebra.common.kernel.commands.Commands NIntegral -> im
    geogebra.common.kernel.commands.Commands NSolve -> in
    geogebra.common.kernel.commands.Commands NSolutions -> io
    geogebra.common.kernel.commands.Commands Numeric -> ip
    geogebra.common.kernel.commands.Commands Evaluate -> iq
    geogebra.common.kernel.commands.Commands MixedNumber -> ir
    geogebra.common.kernel.commands.Commands Rationalize -> is
    geogebra.common.kernel.commands.Commands Solutions -> it
    geogebra.common.kernel.commands.Commands Solve -> iu
    geogebra.common.kernel.commands.Commands SolveCubic -> iv
    geogebra.common.kernel.commands.Commands Laplace -> iw
    geogebra.common.kernel.commands.Commands InverseLaplace -> ix
    geogebra.common.kernel.commands.Commands Substitute -> iy
    geogebra.common.kernel.commands.Commands TangentThroughPoint -> iz
    geogebra.common.kernel.commands.Commands ToComplex -> iA
    geogebra.common.kernel.commands.Commands ToExponential -> iB
    geogebra.common.kernel.commands.Commands InputBox -> iC
    geogebra.common.kernel.commands.Commands ToPolar -> iD
    geogebra.common.kernel.commands.Commands ToPoint -> iE
    geogebra.common.kernel.commands.Commands TrigExpand -> iF
    geogebra.common.kernel.commands.Commands TrigSimplify -> iG
    geogebra.common.kernel.commands.Commands TrigCombine -> iH
    int table -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands -> a
    geogebra.common.kernel.commands.Commands[] ENUM$VALUES -> a
    int getTable() -> a
    geogebra.common.kernel.commands.Commands englishToInternal(geogebra.common.kernel.commands.Commands) -> a
    java.lang.String getCommand() -> a
    geogebra.common.kernel.commands.Commands[] values() -> values
    geogebra.common.kernel.commands.Commands valueOf(java.lang.String) -> valueOf
    int[] $SWITCH_TABLE$geogebra$common$kernel$commands$Commands() -> a
geogebra.common.kernel.commands.MacroProcessor -> geogebra.common.l.h.bn:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.commands.MyException -> geogebra.common.l.h.bo:
    int errorType -> a
    int getErrorType() -> a
geogebra.common.kernel.discrete.AlgoConvexHull -> geogebra.common.l.i.a:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoLocus locus -> a
    java.util.ArrayList al -> a
    java.util.ArrayList vl -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    void compute() -> b
    boolean contains(java.util.ArrayList,double,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.discrete.AlgoDelauneyTriangulation -> geogebra.common.l.i.b:
    java.util.Comparator lineComparator -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.util.Comparator getComparator() -> a
geogebra.common.kernel.discrete.AlgoDelauneyTriangulation$1 -> geogebra.common.l.i.c:
    int compare(geogebra.common.kernel.discrete.MyLine,geogebra.common.kernel.discrete.MyLine) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.AlgoHull -> geogebra.common.l.i.d:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric percentage -> a
    geogebra.common.kernel.geos.GeoLocus locus -> a
    java.util.ArrayList al -> a
    java.util.ArrayList vl -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    geogebra.common.kernel.geos.GeoNumeric access$1(geogebra.common.kernel.discrete.AlgoHull) -> a
geogebra.common.kernel.discrete.AlgoHull$1 -> geogebra.common.l.i.e:
    geogebra.common.kernel.discrete.AlgoHull this$0 -> a
    int calculateCutOff(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.TriangulationRepresentation) -> a
geogebra.common.kernel.discrete.AlgoHull$TestRepresentationWrapper -> geogebra.common.l.i.d$a:
    java.util.ArrayList circleevents -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.RepresentationInterface innerrepresentation -> a
    geogebra.common.kernel.discrete.AlgoHull this$0 -> a
    void beginAlgorithm(java.util.Collection) -> a
    void siteEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    void circleEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,int,int) -> a
    void endAlgorithm(java.util.Collection,double,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
geogebra.common.kernel.discrete.AlgoMinimumSpanningTree -> geogebra.common.l.i.f:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
geogebra.common.kernel.discrete.AlgoShortestDistance -> geogebra.common.l.i.g:
    geogebra.common.kernel.kernelND.GeoPointND start -> a
    geogebra.common.kernel.kernelND.GeoPointND end -> b
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoLocus locus -> a
    geogebra.common.kernel.geos.GeoBoolean weighted -> a
    java.util.ArrayList al -> a
    int edgeCount -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLocus getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.discrete.AlgoShortestDistance$1 -> geogebra.common.l.i.h:
    geogebra.common.kernel.discrete.AlgoShortestDistance this$0 -> a
    java.lang.Double transform(geogebra.common.kernel.discrete.AlgoShortestDistance$MyLink) -> a
    java.lang.Object transform(java.lang.Object) -> a
geogebra.common.kernel.discrete.AlgoShortestDistance$MyLink -> geogebra.common.l.i.g$a:
    geogebra.common.kernel.discrete.MyNode n1 -> a
    geogebra.common.kernel.discrete.MyNode n2 -> b
    double capacity -> a
    double weight -> b
    int id -> a
    geogebra.common.kernel.discrete.AlgoShortestDistance this$0 -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.AlgoTravelingSalesman -> geogebra.common.l.i.i:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
geogebra.common.kernel.discrete.AlgoVoronoi -> geogebra.common.l.i.j:
    java.util.Comparator pointComparator -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    java.util.Comparator getPointComparator() -> a
geogebra.common.kernel.discrete.AlgoVoronoi$1 -> geogebra.common.l.i.k:
    int compare(geogebra.common.awt.GPoint2D,geogebra.common.awt.GPoint2D) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.CmdConvexHull -> geogebra.common.l.i.l:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.discrete.CmdDelauneyTriangulation -> geogebra.common.l.i.m:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.discrete.CmdHull -> geogebra.common.l.i.n:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.discrete.CmdMinimumSpanningTree -> geogebra.common.l.i.o:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.discrete.CmdShortestDistance -> geogebra.common.l.i.p:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.discrete.CmdTravelingSalesman -> geogebra.common.l.i.q:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.discrete.CmdVoronoi -> geogebra.common.l.i.r:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.discrete.JarvisMarch2D -> geogebra.common.l.i.s:
    java.util.ArrayList convexHull(java.util.Collection) -> a
    geogebra.common.awt.GPoint2D$Double findNextPoint(geogebra.common.awt.GPoint2D$Double,double,java.util.Collection) -> a
    double horizontalAngle(geogebra.common.awt.GPoint2D$Double,geogebra.common.awt.GPoint2D$Double) -> a
    double formatAngle(double) -> a
geogebra.common.kernel.discrete.MyLine -> geogebra.common.l.i.t:
    geogebra.common.awt.GPoint2D p1 -> a
    geogebra.common.awt.GPoint2D p2 -> b
    double lengthSquared() -> a
geogebra.common.kernel.discrete.MyNode -> geogebra.common.l.i.u:
    geogebra.common.kernel.kernelND.GeoPointND id -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.alds.SortableObject -> geogebra.common.l.i.a.a:
    java.lang.Object object -> a
    int value -> a
    java.lang.Object getObject() -> a
    int getValue() -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.alds.al.graphs.PrimMinimumSpanningTree -> geogebra.common.l.i.a.a.a.a:
    java.util.Map keyMap -> a
    java.util.Map predecessorMap -> b
    geogebra.common.kernel.discrete.alds.ds.graphs.WeightedGraph graph -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex root -> a
    geogebra.common.kernel.discrete.alds.al.graphs.PrimMinimumSpanningTree compute() -> a
    geogebra.common.kernel.discrete.alds.ds.heaps.Heap createMinPriorityQueue(geogebra.common.kernel.discrete.alds.ds.graphs.WeightedGraph,java.util.Set) -> a
    void initialize(geogebra.common.kernel.discrete.alds.ds.graphs.WeightedGraph,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    java.util.Map getPredecessorMap() -> a
geogebra.common.kernel.discrete.alds.ds.graphs.Graph -> geogebra.common.l.i.a.b.a.a:
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[][] adjacencyList -> a
    int[][] adjacencyMatrix -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type type -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph addVertex(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    boolean containsVertex(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph addEdge(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    boolean containsEdge(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[] addVertexToAdjacentVerticies(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[],geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[] increaseSize(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[]) -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[][] increaseVertices() -> a
    int numberOfVertices() -> a
    void buildAdjacencyMatrix() -> a
    int[][] getAdjacencyMatrix() -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[] getAllAdjacentVertices(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    int getVertexIndex(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    java.lang.String toString() -> toString
    java.util.Set getVertices() -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type getType() -> a
geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type -> geogebra.common.l.i.a.b.a.a$a:
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type DIRECTED -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type UNDIRECTED -> b
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type[] ENUM$VALUES -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type[] values() -> values
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph$Type valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.discrete.alds.ds.graphs.Vertex -> geogebra.common.l.i.a.b.a.b:
    java.lang.String name -> a
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    java.lang.String getName() -> a
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
geogebra.common.kernel.discrete.alds.ds.graphs.WeightedGraph -> geogebra.common.l.i.a.b.a.c:
    geogebra.common.kernel.discrete.alds.ds.graphs.Graph graph -> a
    java.util.Map edgeWeights -> a
    java.util.Comparator vertexComparator -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.WeightedGraph addEdge(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,int) -> a
    int getEdgeWeight(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    void addEdgeWeight(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,int) -> a
    int numberOfVertices() -> a
    geogebra.common.kernel.discrete.alds.ds.graphs.Vertex[] getAllAdjacentVertices(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    java.lang.String toString() -> toString
    java.util.Set getVertices() -> a
geogebra.common.kernel.discrete.alds.ds.graphs.WeightedGraph$1 -> geogebra.common.l.i.a.b.a.d:
    int compare(geogebra.common.kernel.discrete.alds.ds.graphs.Vertex,geogebra.common.kernel.discrete.alds.ds.graphs.Vertex) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.alds.ds.heaps.AbstractHeap -> geogebra.common.l.i.a.b.b.a:
    java.util.List list -> a
    geogebra.common.kernel.discrete.alds.SortableObject extract() -> a
    void heapdown(int) -> a
    void insert(geogebra.common.kernel.discrete.alds.SortableObject) -> a
    void heapup(int) -> b
    int size() -> a
    void swap(int,int) -> a
    int parent(int) -> a
    int left(int) -> b
    int right(int) -> c
geogebra.common.kernel.discrete.alds.ds.heaps.Heap -> geogebra.common.l.i.a.b.b.b:
    void insert(geogebra.common.kernel.discrete.alds.SortableObject) -> a
    geogebra.common.kernel.discrete.alds.SortableObject extract() -> a
    int size() -> a
geogebra.common.kernel.discrete.alds.ds.heaps.HeapFactory -> geogebra.common.l.i.a.b.b.c:
    geogebra.common.kernel.discrete.alds.ds.heaps.Heap minHeap() -> a
geogebra.common.kernel.discrete.alds.ds.heaps.MinHeapImpl -> geogebra.common.l.i.a.b.b.d:
    void heapdown(int) -> a
    void heapup(int) -> b
geogebra.common.kernel.discrete.delaunay.Circle_dt -> geogebra.common.l.i.b.a:
    geogebra.common.kernel.discrete.delaunay.Point_dt c -> a
    double r -> a
    java.lang.String toString() -> toString
    geogebra.common.kernel.discrete.delaunay.Point_dt Center() -> a
    double Radius() -> a
geogebra.common.kernel.discrete.delaunay.Compare -> geogebra.common.l.i.b.b:
    int _flag -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
    boolean equals(java.lang.Object) -> equals
geogebra.common.kernel.discrete.delaunay.Delaunay_Triangulation -> geogebra.common.l.i.b.c:
    geogebra.common.kernel.discrete.delaunay.Point_dt firstP -> a
    geogebra.common.kernel.discrete.delaunay.Point_dt lastP -> b
    boolean allCollinear -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt firstT -> b
    geogebra.common.kernel.discrete.delaunay.Triangle_dt lastT -> c
    geogebra.common.kernel.discrete.delaunay.Triangle_dt currT -> d
    geogebra.common.kernel.discrete.delaunay.Triangle_dt startTriangle -> e
    geogebra.common.kernel.discrete.delaunay.Triangle_dt startTriangleHull -> a
    int nPoints -> a
    java.util.Set _vertices -> a
    java.util.Vector _triangles -> a
    java.util.Vector deletedTriangles -> b
    java.util.Vector addedTriangles -> c
    int _modCount -> b
    int _modCount2 -> c
    geogebra.common.kernel.discrete.delaunay.Point_dt _bb_min -> c
    geogebra.common.kernel.discrete.delaunay.Point_dt _bb_max -> d
    int size() -> a
    void insertPoint(geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Point_dt[] calcVoronoiCell(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt insertPointSimple(geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    void insertCollinear(geogebra.common.kernel.discrete.delaunay.Point_dt,int) -> a
    void startTriangulation(geogebra.common.kernel.discrete.delaunay.Point_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt extendInside(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt treatDegeneracyInside(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> b
    geogebra.common.kernel.discrete.delaunay.Triangle_dt extendOutside(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> c
    geogebra.common.kernel.discrete.delaunay.Triangle_dt extendcounterclock(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> d
    geogebra.common.kernel.discrete.delaunay.Triangle_dt extendclock(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> e
    void flip(geogebra.common.kernel.discrete.delaunay.Triangle_dt,int) -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt find(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> f
    geogebra.common.kernel.discrete.delaunay.Triangle_dt findnext1(geogebra.common.kernel.discrete.delaunay.Point_dt,geogebra.common.kernel.discrete.delaunay.Triangle_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt findnext2(geogebra.common.kernel.discrete.delaunay.Point_dt,geogebra.common.kernel.discrete.delaunay.Triangle_dt) -> b
    java.util.Vector findTriangleNeighborhood(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    void updateBoundingBox(geogebra.common.kernel.discrete.delaunay.Point_dt) -> b
    java.util.Iterator trianglesIterator() -> a
    void initTriangles() -> a
geogebra.common.kernel.discrete.delaunay.Point_dt -> geogebra.common.l.i.b.d:
    double x -> a
    double y -> b
    double z -> c
    double x() -> a
    double y() -> b
    double z() -> c
    double distance2(geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    boolean isLess(geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    boolean isGreater(geogebra.common.kernel.discrete.delaunay.Point_dt) -> b
    boolean equals(geogebra.common.kernel.discrete.delaunay.Point_dt) -> c
    java.lang.String toString() -> toString
    int pointLineTest(geogebra.common.kernel.discrete.delaunay.Point_dt,geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    java.util.Comparator getComparator() -> a
geogebra.common.kernel.discrete.delaunay.Triangle_dt -> geogebra.common.l.i.b.e:
    geogebra.common.kernel.discrete.delaunay.Point_dt a -> a
    geogebra.common.kernel.discrete.delaunay.Point_dt b -> b
    geogebra.common.kernel.discrete.delaunay.Point_dt c -> c
    geogebra.common.kernel.discrete.delaunay.Triangle_dt abnext -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt bcnext -> b
    geogebra.common.kernel.discrete.delaunay.Triangle_dt canext -> c
    geogebra.common.kernel.discrete.delaunay.Circle_dt circum -> a
    int _mc -> a
    boolean halfplane -> a
    boolean _mark -> b
    int _counter -> b
    int _c2 -> c
    boolean isHalfplane() -> a
    geogebra.common.kernel.discrete.delaunay.Point_dt p1() -> a
    geogebra.common.kernel.discrete.delaunay.Point_dt p2() -> b
    geogebra.common.kernel.discrete.delaunay.Point_dt p3() -> c
    geogebra.common.kernel.discrete.delaunay.Triangle_dt next_12() -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt next_23() -> b
    geogebra.common.kernel.discrete.delaunay.Triangle_dt next_31() -> c
    void switchneighbors(geogebra.common.kernel.discrete.delaunay.Triangle_dt,geogebra.common.kernel.discrete.delaunay.Triangle_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Triangle_dt nextNeighbor(geogebra.common.kernel.discrete.delaunay.Point_dt,geogebra.common.kernel.discrete.delaunay.Triangle_dt) -> a
    geogebra.common.kernel.discrete.delaunay.Circle_dt circumcircle() -> a
    boolean circumcircle_contains(geogebra.common.kernel.discrete.delaunay.Point_dt) -> a
    java.lang.String toString() -> toString
    geogebra.common.kernel.discrete.delaunay.Point_dt getCorner(int) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.VPoint -> geogebra.common.l.i.c.a.a:
    double x -> a
    double y -> b
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.signalprocessor.voronoi.VoronoiAlgorithm -> geogebra.common.l.i.c.a.b:
    void generateVoronoi(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.RepresentationInterface,java.util.Collection) -> a
    void generateVoronoi(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.RepresentationInterface,java.util.Collection,java.lang.Object,geogebra.common.kernel.discrete.signalprocessor.voronoi.VPoint,int) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.VoronoiShared -> geogebra.common.l.i.c.a.c:
    double[] solveQuadratic(double,double,double) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VCircleEvent calculateCenter(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent,geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent,geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.EventQueue -> geogebra.common.l.i.c.a.a.a:
    java.util.Comparator PRIORITY_COMPARATOR -> a
    java.util.TreeMap queue -> a
    void addEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent) -> a
    boolean removeEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent getFirstEvent() -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent getAndRemoveFirstEvent() -> b
    boolean isEventQueueEmpty() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.EventQueue$1 -> geogebra.common.l.i.c.a.a.b:
    int compare(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent,geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VCircleEvent -> geogebra.common.l.i.c.a.a.c:
    int x -> c
    int y -> d
    int center_y -> e
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode leafnode -> a
    double getX() -> a
    void setX(int) -> a
    double getY() -> b
    void setY(int) -> b
    int getCenterY() -> a
    void setCenterY(int) -> c
    boolean isSiteEvent() -> a
    boolean isCircleEvent() -> b
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VEvent -> geogebra.common.l.i.c.a.a.d:
    int uniqueid -> a
    int id -> b
    double getX() -> a
    double getY() -> b
    boolean isSiteEvent() -> a
    boolean isCircleEvent() -> b
    java.lang.String getID() -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent -> geogebra.common.l.i.c.a.a.e:
    geogebra.common.kernel.discrete.signalprocessor.voronoi.VPoint point -> a
    double a -> a
    double b -> b
    double c -> c
    void calcParabolaConstants(double) -> a
    double getX() -> a
    double getY() -> b
    geogebra.common.kernel.discrete.signalprocessor.voronoi.VPoint getPoint() -> a
    boolean isSiteEvent() -> a
    boolean isCircleEvent() -> b
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.AbstractRepresentation -> geogebra.common.l.i.c.a.b.a:
    geogebra.common.kernel.discrete.signalprocessor.voronoi.VPoint createPoint(double,double) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.RepresentationFactory -> geogebra.common.l.i.c.a.b.b:
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.AbstractRepresentation createTriangulationRepresentation() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.RepresentationInterface -> geogebra.common.l.i.c.a.b.c:
    void beginAlgorithm(java.util.Collection) -> a
    void siteEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    void circleEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,int,int) -> a
    void endAlgorithm(java.util.Collection,double,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedEdgeRemoval -> geogebra.common.l.i.c.a.b.a.a:
    java.util.Comparator EDGELENGTH_COMPARATOR -> a
    void removeEdgesInOrderFromOuterBoundary(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge,int) -> a
    void removeSingleOuterEdge(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge,geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedEdgeRemoval$OrderedEdgeList) -> a
    java.util.Comparator access$0() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedEdgeRemoval$1 -> geogebra.common.l.i.c.a.b.a.b:
    int compare(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge,geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedEdgeRemoval$OrderedEdgeList -> geogebra.common.l.i.c.a.b.a.a$a:
    void addOuterEdges(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> a
    void addEdge(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> b
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedMinimumSpanningTree -> geogebra.common.l.i.c.a.b.a.c:
    java.util.Comparator VERTEX_COMPARATOR -> a
    java.util.Comparator PATH_COMPARATOR -> b
    int determineMSTUsingPrimsAlgorithm(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
    int determineMSTUsingPrimsAlgorithm(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex,double,java.util.ArrayList) -> a
    int determineClusterCutOffByGradient(java.util.TreeMap,int) -> a
    java.util.Comparator access$0() -> a
    java.util.Comparator access$1() -> b
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedMinimumSpanningTree$1 -> geogebra.common.l.i.c.a.b.a.d:
    int compare(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex,geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedMinimumSpanningTree$2 -> geogebra.common.l.i.c.a.b.a.e:
    int compare(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge,geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedMinimumSpanningTree$FuturePathList -> geogebra.common.l.i.c.a.b.a.c$a:
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge popBestNextPath() -> a
    void addPath(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.SharedMinimumSpanningTree$VertexList -> geogebra.common.l.i.c.a.b.a.c$b:
    boolean hasVertexBeenConsidered(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
    void addVertex(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.TriangulationRepresentation -> geogebra.common.l.i.c.a.b.a.f:
    boolean SHOW_INTERNAL_TRIANGLES -> a
    boolean SHOW_EDGE_LENGTHS -> b
    boolean SHOW_DEBUG_INFO -> c
    int MAX_EDGES_TO_REMOVE -> a
    int MODE_REDUCE_OUTER_BOUNDARIES -> b
    int MODE_GETSTATS_EXCLUDINGMSTSTATS -> c
    int MODE_DETERMINE_MINSPANNINGTREE -> d
    int MODE_DETERMINE_CLUSTERS -> e
    int mode -> f
    int vertexnumber -> g
    java.util.Collection vertexpoints -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.TriangulationRepresentation$CalcCutOff calccutoff -> a
    int length_cutoff -> h
    double gradient_diff_before_cluster_cutoff -> a
    java.util.ArrayList clusters -> a
    boolean update_statistics -> d
    int max_length -> i
    int min_length -> j
    int max_length_of_smallesttriangleedge -> k
    int max_length_from_minimumspanningtree -> l
    void setReduceOuterBoundariesMode() -> a
    int calculateLengthCutoff() -> a
    void setCalcCutOff(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.TriangulationRepresentation$CalcCutOff) -> a
    int getMaxLength() -> b
    int getMinLength() -> c
    geogebra.common.kernel.discrete.signalprocessor.voronoi.VPoint createPoint(double,double) -> a
    void beginAlgorithm(java.util.Collection) -> a
    void siteEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    void circleEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,int,int) -> a
    void endAlgorithm(java.util.Collection,double,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge createOuterEdge() -> b
    java.util.ArrayList getPointsFormingOutterBoundary() -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge findOuterEdge() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.TriangulationRepresentation$CalcCutOff -> geogebra.common.l.i.c.a.b.a.f$a:
    int calculateCutOff(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.TriangulationRepresentation) -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VCluster -> geogebra.common.l.i.c.a.b.a.g:
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge -> geogebra.common.l.i.c.a.b.a.h:
    int vertexnumber -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge next -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex vertex -> a
    int length -> b
    boolean shownonminimumspanningtree -> a
    boolean isOuterEdge() -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex getConnectedVertex() -> a
    int getLength() -> a
    double getX() -> a
    double getY() -> b
geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex -> geogebra.common.l.i.c.a.b.a.i:
    int uniqueid -> a
    int id -> b
    java.util.ArrayList edges -> a
    boolean hasEdges() -> a
    void clearEdges() -> a
    void addEdge(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> a
    java.util.ArrayList getEdges() -> a
    boolean removeEdge(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge) -> a
    double distanceTo(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge getEdge(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VHalfEdge getEdge(int) -> a
    boolean isConnectedTo(geogebra.common.kernel.discrete.signalprocessor.voronoi.representation.triangulation.VVertex) -> a
    java.lang.String toString() -> toString
    java.lang.String getConnectedVertexString() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.AbstractStatusStructure -> geogebra.common.l.i.c.a.c.a:
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.AbstractStatusStructure createDefaultStatusStructure() -> a
    boolean isStatusStructureEmpty() -> a
    void setRootNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode insertNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent) -> a
    void removeNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.EventQueue,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getNodeAboveSiteEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent,double) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getNodeAboveSiteEvent(double,double) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getHeadNode() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode -> geogebra.common.l.i.c.a.c.b:
    geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent siteevent -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode prev -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode next -> b
    java.util.ArrayList circleevents -> a
    void removeCircleEvents(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.EventQueue) -> a
    void addCircleEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.EventQueue) -> b
    void addCircleEvent(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VCircleEvent) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getPrev() -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getNext() -> b
    void setNext(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    boolean isLeafNode() -> a
geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.BSTStatusStructure -> geogebra.common.l.i.c.a.c.a.a:
    int uniqueid -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode rootnode -> a
    boolean isStatusStructureEmpty() -> a
    void setRootNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent) -> a
    void setRootNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode insertNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode,geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent) -> a
    void removeNode(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.EventQueue,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode getSuccessor(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode getPredecessor(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode) -> b
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getNodeAboveSiteEvent(double,double) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.VLinkedNode getHeadNode() -> a
    java.lang.String toString() -> toString
    java.lang.String strDoublyLinkedList(int) -> a
    java.lang.String strTreeStructure(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode,int) -> a
    java.lang.String printGap(int) -> b
geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode -> geogebra.common.l.i.c.a.c.a.b:
    int id -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode parent -> a
    int depth -> b
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode left -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode right -> b
    geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent v1 -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent v2 -> b
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode getParent() -> a
    void setParent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode) -> a
    boolean isLeafNode() -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode getLeft() -> a
    void setLeft(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode) -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode getRight() -> b
    void setRight(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode) -> b
    void setDepthForRootNode() -> a
    void correctDepthValues(int,geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode) -> a
    void setSiteEvents(geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent,geogebra.common.kernel.discrete.signalprocessor.voronoi.eventqueue.VSiteEvent) -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VLeafNode -> geogebra.common.l.i.c.a.c.a.c:
    int id -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode parent -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode getParent() -> a
    void setParent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode) -> a
    boolean isLeafNode() -> a
    geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VLeafNode cloneLeafNode() -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VNode -> geogebra.common.l.i.c.a.c.a.d:
    void setParent(geogebra.common.kernel.discrete.signalprocessor.voronoi.statusstructure.binarysearchtreeimpl.VInternalNode) -> a
    boolean isLeafNode() -> a
geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound -> geogebra.common.l.i.d.a.a.a:
    int limit -> a
    geogebra.common.kernel.discrete.tsp.method.tsp.TspImprovement opt -> a
    geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound$Circuit branch(java.lang.Object,double[][],double[],boolean[][],boolean[][],boolean[][],double,int,double) -> a
    int[] compressTableToArray(boolean[][]) -> a
    void copy(boolean[][],boolean[][]) -> a
    double[][] createTable(geogebra.common.kernel.discrete.tsp.model.Node[]) -> a
    double getCost(int[],double[][]) -> a
    double getLowerCost(double[][],double[],boolean[][]) -> a
    void getOneTree(boolean[][],double[][],double[],boolean[][],boolean[][]) -> a
    boolean hasCircuitPossibility(boolean[][],boolean[][]) -> a
    int[] method(geogebra.common.kernel.discrete.tsp.model.Node[]) -> a
    java.lang.String toString() -> toString
    void updateConstraint(boolean[][],boolean[][]) -> b
    boolean updateMulipliers(double,boolean[][],double[]) -> a
geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound$Circuit -> geogebra.common.l.i.d.a.a.a$a:
    double cost -> a
    int[] route -> a
    geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound this$0 -> a
    double getCost() -> a
    int[] getRoute() -> a
geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound$Entry -> geogebra.common.l.i.d.a.a.a$b:
    double cost -> a
    int s -> a
    int t -> b
    geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound this$0 -> a
    int compareTo(geogebra.common.kernel.discrete.tsp.method.tsp.BranchBound$Entry) -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.discrete.tsp.method.tsp.Opt3 -> geogebra.common.l.i.d.a.a.b:
    boolean method(int[],double[][]) -> a
    void reverse(int[],int,int) -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.tsp.method.tsp.TspImprovement -> geogebra.common.l.i.d.a.a.c:
    boolean method(int[],double[][]) -> a
geogebra.common.kernel.discrete.tsp.model.Node -> geogebra.common.l.i.d.b.a:
    double x -> a
    double y -> b
    boolean equals(java.lang.Object) -> equals
    double getDistance(geogebra.common.kernel.discrete.tsp.model.Node) -> a
    double getX() -> a
    double getY() -> b
    java.lang.String toString() -> toString
geogebra.common.kernel.discrete.tsp.util.Heap -> geogebra.common.l.i.d.c.a:
    java.lang.Object[] entries -> a
    int size -> a
    java.util.Map table -> a
    java.util.Comparator comparator -> a
    boolean add(java.lang.Object) -> a
    void swap(int,int) -> a
    java.lang.Object poll() -> a
    void clear() -> a
    void fixDown(int) -> a
    void fixUp(int) -> b
    void grow(int) -> c
    java.lang.String toString() -> toString
    int size() -> a
geogebra.common.kernel.discrete.tsp.util.IntegerSet -> geogebra.common.l.i.d.c.b:
    int[] bitset -> a
    int[] list -> b
    int size -> a
    int[] index -> c
    int size() -> a
    boolean add(int) -> a
    int get(int) -> a
    boolean remove(int) -> b
    void swap(int,int) -> a
geogebra.common.kernel.geos.AbsoluteScreenLocateable -> geogebra.common.l.j.a:
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setRealWorldLoc(double,double) -> a
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    void setAbsoluteScreenLocActive(boolean) -> c
    boolean isAbsoluteScreenLocActive() -> n
    boolean isAbsoluteScreenLocateable() -> o
geogebra.common.kernel.geos.AngleProperties -> geogebra.common.l.j.b:
    geogebra.common.kernel.geos.GeoAngle$AngleStyle getAngleStyle() -> a
    boolean hasOrientation() -> w_
    void setAngleStyle(geogebra.common.kernel.geos.GeoAngle$AngleStyle) -> a
    void setAllowReflexAngle(boolean) -> d
    void setEmphasizeRightAngle(boolean) -> f
    void setForceReflexAngle(boolean) -> g
    void setArcSize(int) -> e
    int getArcSize() -> g
    boolean isDrawable() -> q
    int getDecorationType() -> h
    void setDecorationType(int) -> f
    boolean isEmphasizeRightAngle() -> r
    void setAngleStyle(int) -> g
geogebra.common.kernel.geos.Animatable -> geogebra.common.l.j.c:
    boolean doAnimationStep(double) -> a
    boolean isAnimating() -> m
geogebra.common.kernel.geos.CasEvaluableFunction -> geogebra.common.l.j.d:
    void setUsingCasCommand(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    void clearCasEvalMap(java.lang.String) -> a
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> c
geogebra.common.kernel.geos.ChangeableCoordParent -> geogebra.common.l.j.e:
    geogebra.common.kernel.geos.GeoNumeric changeableCoordNumber -> a
    geogebra.common.kernel.geos.GeoElement changeableCoordDirector -> a
    double startValue -> a
    geogebra.common.kernel.Matrix.Coords direction -> a
    geogebra.common.kernel.geos.GeoElement child -> b
    geogebra.common.kernel.geos.GeoNumeric getNumber() -> a
    double getValue() -> a
    geogebra.common.kernel.geos.GeoElement getDirector() -> a
    void record() -> a
    double getStartValue() -> b
    boolean move(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView) -> a
geogebra.common.kernel.geos.ConicMirrorable -> geogebra.common.l.j.f:
    void mirror(geogebra.common.kernel.geos.GeoConic) -> a
geogebra.common.kernel.geos.Dilateable -> geogebra.common.l.j.g:
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.kernel.geos.FromMeta -> geogebra.common.l.j.h:
    geogebra.common.kernel.geos.GeoElement[] getMetas() -> a
geogebra.common.kernel.geos.Furniture -> geogebra.common.l.j.i:
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setAbsoluteScreenLoc(int,int) -> a
    boolean isFurniture() -> s
geogebra.common.kernel.geos.GeoAngle -> geogebra.common.l.j.j:
    int arcSize -> m
    boolean emphasizeRightAngle -> j
    double rawValue -> f
    geogebra.common.kernel.geos.GeoAngle$AngleStyle angleStyle -> a
    java.lang.String[] INTERVAL_MIN -> a
    java.lang.String[] INTERVAL_MAX -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle -> a
    java.lang.Integer[] getDecoTypes() -> a
    void setAllVisualPropertiesExceptEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isGeoAngle() -> E_
    boolean isAngle() -> q_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void setValue(double,boolean) -> a
    double calcAngleValue(double) -> a
    geogebra.common.kernel.geos.GeoNumeric copy() -> a
    void setAllowReflexAngle(boolean) -> d
    void setForceReflexAngle(boolean) -> g
    void setAngleStyle(int) -> g
    void setAngleStyle(geogebra.common.kernel.geos.GeoAngle$AngleStyle) -> a
    geogebra.common.kernel.geos.GeoAngle$AngleStyle getAngleStyle() -> a
    boolean hasOrientation() -> w_
    double getRawAngle() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    int getArcSize() -> g
    void setArcSize(int) -> e
    void getXMLtags(java.lang.StringBuilder) -> a_
    void getXMLtagsMinimal(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    void getXMLAngleStyleTag(java.lang.StringBuilder) -> p
    void getXMLEmphasizeRightAngleTag(java.lang.StringBuilder) -> q
    void setDecorationType(int) -> f
    boolean isEmphasizeRightAngle() -> r
    void setEmphasizeRightAngle(boolean) -> f
    void setZero() -> d_
    boolean isDrawable() -> q
    boolean hasDrawable3D() -> p
    boolean canHaveClickScript() -> O
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle() -> a
geogebra.common.kernel.geos.GeoAngle$AngleStyle -> geogebra.common.l.j.j$a:
    geogebra.common.kernel.geos.GeoAngle$AngleStyle ANTICLOCKWISE -> a
    geogebra.common.kernel.geos.GeoAngle$AngleStyle NOTREFLEX -> b
    geogebra.common.kernel.geos.GeoAngle$AngleStyle ISREFLEX -> c
    geogebra.common.kernel.geos.GeoAngle$AngleStyle UNBOUNDED -> d
    int xmlVal -> a
    geogebra.common.kernel.geos.GeoAngle$AngleStyle[] ENUM$VALUES -> a
    int getXmlVal() -> a
    geogebra.common.kernel.geos.GeoAngle$AngleStyle getStyle(int) -> a
    geogebra.common.kernel.geos.GeoAngle$AngleStyle[] values() -> values
    geogebra.common.kernel.geos.GeoAngle$AngleStyle valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.geos.GeoAxis -> geogebra.common.l.j.k:
    geogebra.common.kernel.geos.GeoPoint origin -> c
    int type -> a
    int ticksize -> b
    int getType() -> b
    boolean isAvailableAtConstructionStep(int) -> a_
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    java.lang.String getTypeString() -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    int getTickSize() -> b_
    boolean isLabelSet() -> j_
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    boolean isAxis() -> m_
    boolean isRenameable() -> i_
geogebra.common.kernel.geos.GeoBoolean -> geogebra.common.l.j.l:
    boolean value -> a
    boolean isDefined -> b
    boolean checkboxFixed -> j
    java.util.ArrayList condListenersShowObject -> a
    boolean showExtendedAV -> k
    int getRelatedModeID() -> f_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void setValue(boolean) -> a
    boolean getBoolean() -> O_
    geogebra.common.kernel.arithmetic.MyBoolean getMyBoolean() -> a
    geogebra.common.kernel.geos.GeoBoolean copy() -> a
    void registerConditionListener(geogebra.common.kernel.geos.GeoElement) -> d
    void unregisterConditionListener(geogebra.common.kernel.geos.GeoElement) -> e
    void update() -> q_
    void doRemove() -> e
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    boolean isFixable() -> L_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setUndefined() -> b
    void setDefined() -> d
    boolean isDefined() -> a_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isGeoBoolean() -> S
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    boolean isAbsoluteScreenLocActive() -> n
    boolean isAbsoluteScreenLocateable() -> o
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setAbsoluteScreenLocActive(boolean) -> c
    void setRealWorldLoc(double,double) -> a
    boolean isCheckboxFixed() -> T
    void setCheckboxFixed(boolean) -> d
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isNumberValue() -> A_
    double getDouble() -> h
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    boolean isLabelValueShowable() -> U
    boolean canHaveClickScript() -> O
    boolean isCasEvaluableObject() -> J
    void moveDependencies(geogebra.common.kernel.geos.GeoElement) -> f
    void setEuclidianVisible(boolean) -> b
    void initScreenLocation() -> h
    int countCheckboxes() -> b
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
geogebra.common.kernel.geos.GeoButton -> geogebra.common.l.j.m:
    double fontSizeD -> a
    int fontStyle -> a
    boolean serifFont -> a
    boolean fixedSize -> b
    int width -> b
    int height -> m
    geogebra.common.kernel.geos.GeoButton$Observer observer -> a
    int getRelatedModeID() -> f_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isGeoButton() -> Q_
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    boolean isFixable() -> L_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setUndefined() -> b
    boolean isDefined() -> a_
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    boolean isAbsoluteScreenLocActive() -> n
    boolean isAbsoluteScreenLocateable() -> o
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setAbsoluteScreenLocActive(boolean) -> c
    void setRealWorldLoc(double,double) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLabelValueShowable() -> U
    double getFontSizeMultiplier() -> b
    void setFontSizeMultiplier(double) -> a
    int getFontStyle() -> b
    void setFontStyle(int) -> c
    int getPrintDecimals() -> i_
    int getPrintFigures() -> k
    void setPrintDecimals(int,boolean) -> a
    void setPrintFigures(int,boolean) -> b
    boolean isSerifFont() -> R_
    void setSerifFont(boolean) -> a
    boolean useSignificantFigures() -> S_
    boolean justFontSize() -> X
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean hasBackgroundColor() -> Y
    boolean isFillable() -> v
    geogebra.common.kernel.geos.GeoElement$FillType getFillType() -> a
    boolean isFurniture() -> s
    boolean isPinnable() -> Z
    boolean isFixedSize() -> aa
    void setFixedSize(boolean) -> d
    int getWidth() -> l
    void setWidth(int) -> g
    int getHeight() -> m
    void setHeight(int) -> i
    void setObserver(geogebra.common.kernel.geos.GeoButton$Observer) -> a
    boolean isLaTeXTextCommand() -> ab
    geogebra.common.kernel.geos.GeoButton getNewButton(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.kernel.geos.GeoButton$Observer -> geogebra.common.l.j.m$a:
    void notifySizeChanged() -> a
geogebra.common.kernel.geos.GeoCasCell -> geogebra.common.l.j.n:
    geogebra.common.kernel.arithmetic.ValidExpression inputVE -> a
    geogebra.common.kernel.arithmetic.ValidExpression evalVE -> b
    geogebra.common.kernel.arithmetic.ValidExpression outputVE -> c
    java.lang.String input -> c
    java.lang.String prefix -> d
    java.lang.String postfix -> e
    java.lang.String error -> f
    java.lang.String latex -> g
    java.lang.String localizedInput -> h
    java.lang.String currentLanguage -> i
    boolean suppressOutput -> a
    java.util.TreeSet invars -> a
    java.util.TreeSet functionvars -> b
    java.util.TreeSet inGeos -> c
    boolean isCircularDefinition -> b
    geogebra.common.kernel.geos.GeoElement twinGeo -> a
    geogebra.common.kernel.geos.GeoElement lastOutputEvaluationGeo -> b
    boolean firstComputeOutput -> j
    boolean ignoreTwinGeoUpdate -> k
    java.util.HashSet commands -> a
    java.lang.String assignmentVar -> j
    boolean includesRowReferences -> l
    boolean includesNumericCommand -> m
    boolean useGeoGebraFallback -> n
    java.lang.String evalCmd -> k
    java.lang.String evalComment -> l
    int row -> a
    boolean useAsText -> o
    geogebra.common.kernel.geos.GeoText commentText -> a
    boolean nativeOutput -> p
    boolean ignoreSetAssignment -> q
    geogebra.common.kernel.arithmetic.MyArbitraryConstant arbconst -> a
    geogebra.common.kernel.arithmetic.ValidExpression expandedEvalVE -> d
    boolean pointList -> r
    java.lang.String tooltip -> m
    int SCREEN_WIDTH -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$AssignmentType -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    java.lang.String getInput(geogebra.common.kernel.StringTemplate) -> g
    java.lang.String getOutput(geogebra.common.kernel.StringTemplate) -> h
    java.lang.String getOutputRHS(geogebra.common.kernel.StringTemplate) -> i
    java.lang.String getPrefix() -> c
    java.lang.String getEvalText() -> e
    geogebra.common.kernel.arithmetic.ValidExpression getEvalVE() -> a
    geogebra.common.kernel.arithmetic.ValidExpression getInputVE() -> b
    java.lang.String getPostfix() -> f
    java.lang.String getLaTeXOutput() -> g
    boolean isUseAsText() -> aa
    void setUseAsText(boolean) -> c
    void setFontStyle(int) -> c
    geogebra.common.awt.GColor getFontColor() -> a
    void setFontColor(geogebra.common.awt.GColor) -> b
    int getFontStyle() -> b
    void setFontSizeMultiplier(double) -> a
    double getFontSizeMultiplier() -> b
    void setGeoText(geogebra.common.kernel.geos.GeoText) -> a
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    boolean isEmpty() -> ac
    boolean isInputEmpty() -> ad
    boolean isOutputEmpty() -> ae
    boolean showOutput() -> af
    boolean suppressOutput() -> bB
    boolean hasTwinGeo() -> ag
    void setInputFromTwinGeo(boolean) -> d
    boolean setInput(java.lang.String) -> a
    boolean setInput(java.lang.String,boolean) -> a
    void updateLocalizedInput(geogebra.common.kernel.StringTemplate,java.lang.String) -> a
    void setRowNumber(int) -> g
    int getRowNumber() -> e
    void updateInputStringWithRowReferences() -> d
    void updateInputStringWithRowReferences(boolean) -> f
    void setProcessingInformation(java.lang.String,java.lang.String,java.lang.String) -> a
    boolean isStructurallyEqualToLocalizedInput(java.lang.String) -> b
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraCASInputAndResolveDummyVars(java.lang.String) -> a
    void updateInputVariables(geogebra.common.kernel.arithmetic.ValidExpression) -> a
    java.lang.String getFunctionVariable(geogebra.common.kernel.arithmetic.ValidExpression,geogebra.common.kernel.Kernel) -> a
    void internalizeInput() -> j
    java.lang.String localizeInput(java.lang.String,geogebra.common.kernel.StringTemplate) -> a
    void setAssignmentVar(java.lang.String) -> o
    void changeAssignmentVar(java.lang.String,java.lang.String) -> a
    java.util.TreeSet getInVars() -> f
    java.util.TreeSet getFunctionVars() -> g
    void clearInVars() -> m
    java.util.TreeSet getGeoElementVariables() -> b
    java.util.TreeSet updateInputGeoElements(java.util.TreeSet) -> a
    geogebra.common.kernel.arithmetic.ValidExpression resolveInputReferences(geogebra.common.kernel.arithmetic.ValidExpression,java.util.TreeSet) -> a
    void resolveFunctionVariableReferences(geogebra.common.kernel.arithmetic.ValidExpression) -> b
    void resolveGeoElementReferences(geogebra.common.kernel.arithmetic.ValidExpression) -> c
    boolean includesOnlyDefinedVariables(boolean) -> b
    boolean includesNumericCommand() -> ah
    java.lang.String getAssignmentVariable() -> h
    boolean isAssignmentVariableDefined() -> ai
    void setEvalCommand(java.lang.String) -> a
    void setKeepInputUsed(boolean) -> g
    void setEvalComment(java.lang.String) -> b
    void setOutput(java.lang.String,boolean) -> a
    void updateTwinGeo(boolean) -> h
    void createTwinGeo(boolean) -> H
    void setEquationMode() -> o
    boolean setLabelOfTwinGeo() -> aj
    void simpleUpdateTwinGeo(boolean) -> I
    void updateCascade() -> s_
    void update() -> q_
    geogebra.common.kernel.geos.GeoElement silentEvalInGeoGebra(geogebra.common.kernel.arithmetic.ValidExpression,boolean) -> a
    void computeOutput() -> h
    void computeOutput(boolean,boolean) -> a
    geogebra.common.kernel.arithmetic.ValidExpression wrapPointList(geogebra.common.kernel.arithmetic.ValidExpression) -> a
    geogebra.common.kernel.arithmetic.ValidExpression wrapEvaluate(geogebra.common.kernel.arithmetic.ValidExpression,boolean) -> a
    geogebra.common.kernel.arithmetic.ValidExpression processSolveCommand(geogebra.common.kernel.arithmetic.ValidExpression) -> b
    java.lang.String lhs(geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String) -> a
    void finalizeComputation(boolean,java.lang.String,geogebra.common.kernel.CASException,boolean,boolean) -> a
    void setError(java.lang.String) -> c
    boolean isError() -> ak
    boolean isCircularDefinition() -> al
    void getElementOpenTagXML(java.lang.StringBuilder) -> b
    void getElementCloseTagXML(java.lang.StringBuilder) -> d
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean isGeoCasCell() -> am
    void doRemove() -> e
    void setTwinGeo(geogebra.common.kernel.geos.GeoElement) -> d
    boolean dependsOnDummy(geogebra.common.kernel.geos.GeoElement) -> e
    geogebra.common.kernel.geos.GeoElement getTwinGeo() -> c
    boolean addToUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> a
    boolean removeFromUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> b
    geogebra.common.kernel.arithmetic.ValidExpression getOutputValidExpression() -> c
    boolean isLaTeXDrawableGeo() -> Q
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    void setInputVE(geogebra.common.kernel.arithmetic.ValidExpression) -> d
    geogebra.common.awt.GColor getAlgebraColor() -> b
    void setNative(boolean) -> i
    boolean isNative() -> an
    void toggleTwinGeoEuclidianVisible() -> i
    boolean plot() -> ao
    boolean inequalityInEvalVE() -> bC
    void clearStrings() -> p
    java.lang.String getPlotVar() -> D
    void setPointList(boolean) -> j
    boolean hasCoords() -> M
    java.lang.String getTooltipText(boolean,boolean) -> a
    java.lang.String getCommandAndComment() -> i
    java.lang.String getOutputPrefix() -> E
    boolean hasVariablesOrCommands() -> ap
    void adjustPointList(boolean) -> k
    void updateDependentCellInput() -> q
    int getPrintDecimals() -> i_
    int getPrintFigures() -> k
    void setPrintDecimals(int,boolean) -> a
    void setPrintFigures(int,boolean) -> b
    boolean isSerifFont() -> R_
    void setSerifFont(boolean) -> a
    boolean useSignificantFigures() -> S_
    boolean justFontSize() -> X
    boolean isLaTeXTextCommand() -> ab
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$AssignmentType() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.geos.GeoCasCell$1 -> geogebra.common.l.j.o:
    geogebra.common.kernel.geos.GeoCasCell this$0 -> a
    boolean check(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
geogebra.common.kernel.geos.GeoCasCell$2 -> geogebra.common.l.j.p:
    geogebra.common.kernel.geos.GeoCasCell this$0 -> a
    int compare(java.lang.String,java.lang.String) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.geos.GeoConic -> geogebra.common.l.j.q:
    geogebra.common.kernel.Matrix.CoordSys coordSys -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void mirror(geogebra.common.kernel.geos.GeoConic) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(double) -> f
    geogebra.common.kernel.Matrix.Coords getEigenvec3D(int) -> a
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.Matrix.Coords getDirection3D(int) -> b
    geogebra.common.kernel.Matrix.Coords getOrigin3D(int) -> c
    boolean isCasEvaluableObject() -> J
    char getLabelDelimiter() -> a
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    void setCoeffs(geogebra.common.kernel.arithmetic.ExpressionValue[][]) -> a
    double evalCoeff(geogebra.common.kernel.arithmetic.ExpressionValue[][],int,int) -> a
    void fromLine(geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    boolean hasLineOpacity() -> W
    void setSinglePoint(geogebra.common.kernel.geos.GeoConic,double,double) -> a
geogebra.common.kernel.geos.GeoConicPart -> geogebra.common.l.j.r:
    geogebra.common.kernel.kernelND.GeoConicPartParameters parameters -> a
    java.lang.StringBuilder sbToString -> a
    geogebra.common.kernel.PathParameter tempPP -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> b
    double[] tmpParameters -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String getTypeString() -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    int getConicPartType() -> b
    double getParameterStart() -> c
    double getParameterEnd() -> e
    double getParameterExtent() -> d
    boolean positiveOrientation() -> n
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setParameters(double,double,boolean) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    double getValue() -> i
    double getArcLength() -> f
    double getArea() -> g
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean allowOutlyingIntersections() -> C
    void setAllowOutlyingIntersections(boolean) -> c
    boolean keepsTypeOnGeometricTransform() -> F
    void setKeepTypeOnGeometricTransform(boolean) -> d
    boolean isLimitedPath() -> D_
    boolean isIntersectionPointIncident(geogebra.common.kernel.geos.GeoPoint,double) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    geogebra.common.kernel.PathParameter getTempPathParameter() -> a
    boolean isClosedPath() -> b
    void superPointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> c
    void pointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> a
    void pathChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> b
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean isNumberValue() -> A_
    boolean isGeoConicPart() -> n_
    geogebra.common.kernel.geos.GeoElement[] createTransformedObject(geogebra.common.kernel.Transform,java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    boolean isInRegion(double,double) -> a
    void moveBackToRegion(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.RegionParameters) -> a
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    boolean hasDrawable3D() -> p
    boolean isAllEndpointsLabelsSet() -> G
    geogebra.common.kernel.geos.GeoPoint getPointParam(double) -> a
    geogebra.common.kernel.kernelND.GeoConicPartParameters getParameters() -> a
    geogebra.common.kernel.Matrix.Coords getOrigin3D(int) -> c
    geogebra.common.kernel.Matrix.Coords getSegmentEnd3D() -> d
    void setParametersToSinglePoint() -> g
geogebra.common.kernel.geos.GeoCurveCartesian -> geogebra.common.l.j.s:
    boolean isClosedPath -> b
    boolean trace -> j
    double CURVATURE_COLOR -> a
    java.lang.String translatedTypeString() -> b_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void setFunctionX(geogebra.common.kernel.arithmetic.Function) -> a
    void setFunctionY(geogebra.common.kernel.arithmetic.Function) -> b
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> c
    void setInterval(double,double) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setParametricDerivative(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    java.lang.String getFunX(geogebra.common.kernel.StringTemplate) -> g
    java.lang.String getFunY(geogebra.common.kernel.StringTemplate) -> h
    geogebra.common.kernel.roots.RealRootFunction getRealRootFunctionX() -> a
    geogebra.common.kernel.roots.RealRootFunction getRealRootFunctionY() -> b
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    boolean isMatrixTransformable() -> y_
    void translate(double,double) -> b
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void mirror(geogebra.common.kernel.arithmetic.NumberValue) -> d
    void matrixTransform(double,double,double,double) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    double getClosestParameter(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double adjustRange(double) -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
    boolean isClosedPath() -> b
    boolean isNumberValue() -> A_
    boolean isTraceable() -> h
    boolean getTrace() -> a
    void setTrace(boolean) -> e_
    void evaluateCurve(double,double[]) -> a
    geogebra.common.kernel.geos.GeoVec2D evaluateCurve(double) -> a
    double evaluateCurvature(double) -> a
    boolean isCasEvaluableObject() -> J
    boolean isFunctionInX() -> c
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    void mirror(geogebra.common.kernel.geos.GeoConic) -> a
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void setFromPolyLine(geogebra.common.kernel.kernelND.GeoPointND[],boolean) -> a
    boolean isLaTeXDrawableGeo() -> Q
    geogebra.common.kernel.arithmetic.Function getFunX() -> a
    geogebra.common.kernel.arithmetic.Function getFunY() -> b
    boolean hasDrawable3D() -> p
    double[] newDoubleArray() -> a
    double[] getDefinedInterval(double,double) -> a
    double distanceMax(double[],double[]) -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND newGeoCurveCartesian(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluateCurve(double) -> a
geogebra.common.kernel.geos.GeoCurveCartesian3DInterface -> geogebra.common.l.j.t:
geogebra.common.kernel.geos.GeoDummyVariable -> geogebra.common.l.j.u:
    java.lang.String varName -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.geos.GeoElement getElementWithSameName() -> c
    boolean hasCoords() -> M
    boolean evaluatesToNumber(boolean) -> a
geogebra.common.kernel.geos.GeoElement -> geogebra.common.l.j.v:
    java.util.ArrayList spreadsheetColumnHeadings -> d
    char[] pointLabels -> a
    char[] functionLabels -> b
    char[] lineLabels -> c
    char[] vectorLabels -> d
    char[] conicLabels -> e
    char[] lowerCaseLabels -> f
    char[] integerLabels -> g
    char[] greekLowerCase -> h
    char[] arabic -> i
    char[] yiddish -> j
    char[] greekUpperCase -> k
    int tooltipMode -> a
    java.lang.String label -> a
    java.lang.String realLabel -> c
    java.lang.String oldLabel -> d
    java.lang.String caption -> e
    boolean labelWanted -> c
    boolean labelSet -> d
    boolean localVarLabelSet -> a
    boolean euclidianVisible -> b
    boolean forceEuclidianVisible -> j
    boolean algebraVisible -> k
    boolean labelVisible -> l
    boolean isConsProtBreakpoint -> m
    boolean isAlgoMacroOutput -> n
    boolean fixed -> e
    int labelMode -> c
    int toStringMode -> d
    geogebra.common.awt.GColor objColor -> a
    geogebra.common.awt.GColor bgColor -> b
    geogebra.common.awt.GColor selColor -> c
    geogebra.common.awt.GColor labelColor -> d
    geogebra.common.awt.GColor fillColor -> e
    int layer -> b
    geogebra.common.kernel.arithmetic.NumberValue animationIncrement -> a
    geogebra.common.kernel.arithmetic.NumberValue animationSpeedObj -> b
    geogebra.common.kernel.geos.GeoCasCell correspondingCasCell -> a
    boolean animating -> o
    int animationType -> m
    int animationDirection -> n
    float alphaValue -> a
    int hatchingAngle -> e
    int hatchingDistance -> f
    boolean inverseFill -> p
    java.lang.String fillSymbol -> f
    geogebra.common.kernel.geos.GeoElementGraphicsAdapter graphicsadapter -> a
    geogebra.common.kernel.geos.GeoElement$FillType fillType -> a
    int colorSpace -> o
    java.util.List viewFlags -> a
    int defaultGeoType -> p
    int labelOffsetX -> g
    int labelOffsetY -> h
    boolean auxiliaryObject -> q
    boolean selectionAllowed -> r
    geogebra.common.awt.GPoint spreadsheetCoords -> a
    geogebra.common.awt.GPoint oldSpreadsheetCoords -> b
    int cellRangeUsers -> q
    geogebra.common.kernel.geos.GeoBoolean condShowObject -> a
    boolean sendValueToCas -> f
    geogebra.common.kernel.geos.GeoList colFunction -> a
    boolean useVisualDefaults -> s
    boolean isColorSet -> g
    boolean highlighted -> h
    boolean selected -> t
    java.lang.String strAlgebraDescription -> g
    java.lang.String strAlgebraDescTextOrHTML -> h
    java.lang.String strAlgebraDescriptionHTML -> i
    java.lang.String strLabelTextOrHTML -> j
    java.lang.String strLaTeX -> b
    boolean strAlgebraDescriptionNeedsUpdate -> u
    boolean strAlgebraDescTextOrHTMLneedsUpdate -> v
    boolean strAlgebraDescriptionHTMLneedsUpdate -> w
    boolean strLabelTextOrHTMLUpdate -> x
    boolean strLaTeXneedsUpdate -> i
    int lineThickness -> i
    int lineType -> j
    int lineTypeHidden -> k
    int lineOpacity -> r
    int decorationType -> l
    geogebra.common.kernel.algos.AlgoElement algoParent -> a
    geogebra.common.kernel.algos.AlgoElement algoDraw -> b
    java.util.ArrayList algorithmList -> a
    geogebra.common.kernel.algos.AlgorithmSet algoUpdateSet -> a
    geogebra.common.euclidian.EuclidianViewInterfaceSlim viewForValueString -> a
    boolean isEmptySpreadsheetCell -> y
    geogebra.common.util.LaTeXCache latexCache -> a
    java.lang.String subBegin -> k
    java.lang.String subEnd -> l
    java.lang.String strHasIndexLabel -> m
    boolean hasIndexLabel -> z
    java.util.ArrayList moveObjectsUpdateList -> b
    java.util.TreeSet tempSet -> a
    java.util.Comparator algoComparator -> a
    java.util.ArrayList tempMoveObjectList -> c
    boolean spreadsheetTrace -> A
    geogebra.common.util.SpreadsheetTraceSettings traceSettings -> a
    boolean inTree -> B
    geogebra.common.plugin.script.Script[] scripts -> a
    boolean showTrimmedIntersectionLines -> C
    boolean isRandomGeo -> D
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D visibleInView3D -> a
    boolean isPickable -> E
    boolean needsReplacingInExpressionNode -> F
    boolean cloneInUse -> G
    geogebra.common.kernel.arithmetic.MyStringBuffer xBracket -> a
    geogebra.common.kernel.arithmetic.MyStringBuffer yBracket -> b
    geogebra.common.kernel.arithmetic.MyStringBuffer zBracket -> c
    geogebra.common.kernel.arithmetic.MyStringBuffer closeBracket -> d
    boolean canBeRemovedAsInput -> H
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$VisibleInView3D -> b
    int getColorSpace() -> n
    void setColorSpace(int) -> j
    int getDefaultGeoType() -> o
    void setDefaultGeoType(int) -> k
    java.lang.String getLabelSimple() -> j
    void setLabelSimple(java.lang.String) -> d
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    void copyLabel(geogebra.common.kernel.geos.GeoElement) -> g
    void setLabelMode(int) -> l
    int getLabelMode() -> p
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.geos.GeoElement deepCopyGeo() -> f
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoPoint[] copyPoints(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] copyPointsND(geogebra.common.kernel.Construction,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void resolveVariables() -> c_
    boolean isInfinite() -> I
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.euclidian.EuclidianViewInterfaceSlim getViewForValueString() -> a
    java.lang.String getRedefineString(boolean,boolean) -> b
    char getLabelDelimiter() -> a
    java.lang.String getDefinitionForInputBar() -> k
    java.lang.String getValueForInputBar() -> l
    void setZero() -> d_
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    void setConstructionDefaults() -> s
    void setConstructionDefaults(boolean) -> l
    void setObjColor(geogebra.common.awt.GColor) -> a
    boolean isColorSet() -> aq
    geogebra.common.awt.GColor getRGBFromList(float) -> a
    geogebra.common.awt.GColor getRGBFromList(int) -> a
    geogebra.common.awt.GColor getSelColor() -> c
    geogebra.common.awt.GColor getFillColor() -> d
    geogebra.common.awt.GColor getAlgebraColor() -> b
    geogebra.common.awt.GColor getLabelColor() -> e
    void setLabelColor(geogebra.common.awt.GColor) -> c
    geogebra.common.awt.GColor getBackgroundColor() -> f
    void setBackgroundColor(geogebra.common.awt.GColor) -> d
    geogebra.common.awt.GColor getObjectColor() -> g
    void setLayer(int) -> d
    int getLayer() -> q
    int typePriority() -> b
    boolean drawBefore(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setAlphaValue(float) -> a
    float getAlphaValue() -> b
    boolean isLimitedPath() -> D_
    boolean isPath() -> d_
    boolean isRegion() -> x_
    boolean isGeoList() -> ar
    void setAllVisualProperties(geogebra.common.kernel.geos.GeoElement,boolean) -> b
    void setAllVisualPropertiesExceptEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> a_
    void setVisualStyleForTransformations(geogebra.common.kernel.geos.GeoElement) -> h
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void setColorVisualStyle(geogebra.common.kernel.geos.GeoElement) -> c_
    void setAdvancedVisualStyle(geogebra.common.kernel.geos.GeoElement) -> i
    void setAdvancedVisualStyleCopy(geogebra.common.kernel.geos.GeoElement) -> j
    geogebra.common.kernel.geos.GeoElementGraphicsAdapter getGraphicsAdapter() -> a
    void setLabelOffset(int,int) -> b
    boolean isVisible() -> as
    boolean isEuclidianVisible() -> at
    void setEuclidianVisible(boolean) -> b
    void setEuclidianVisibleIfNoConditionToShowObject(boolean) -> m
    void forceEuclidianVisible(boolean) -> n
    boolean isSetEuclidianVisible() -> au
    boolean isConsProtocolBreakpoint() -> k
    void setConsProtocolBreakpoint(boolean) -> o
    boolean isDrawable() -> q
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    boolean isTraceable() -> h
    boolean isFixed() -> av
    void setFixed(boolean) -> p
    boolean isFixable() -> L_
    void removeOrSetUndefinedIfHasFixedDescendent() -> v
    boolean isAuxiliaryObject() -> aw
    boolean isAuxiliaryObjectByDefault() -> ax
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
    void setAuxiliaryObject(boolean) -> q
    void setLabelVisible(boolean) -> r
    boolean isLabelVisible() -> ay
    boolean getLabelVisible() -> az
    boolean isLabelShowable() -> aA
    boolean isLabelValueShowable() -> U
    boolean isAlgebraVisible() -> aB
    boolean showToolTipText() -> aC
    java.lang.String getTooltipText(boolean,boolean) -> a
    int getTooltipMode() -> r
    void setTooltipMode(int) -> m
    void setAlgebraVisible(boolean) -> s
    boolean isSetAlgebraVisible() -> aD
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isAlgebraViewEditable() -> aE
    boolean isEuclidianShowable() -> aF
    boolean isAlgebraShowable() -> aG
    void setParentAlgorithm(geogebra.common.kernel.algos.AlgoElement) -> a
    geogebra.common.kernel.algos.AlgoElement getParentAlgorithm() -> a
    void setDrawAlgorithm(geogebra.common.kernel.algos.DrawInformationAlgo) -> a
    geogebra.common.kernel.algos.AlgoElement getDrawAlgorithm() -> b
    java.util.ArrayList getAlgorithmList() -> b
    boolean isIndependent() -> f_
    boolean isChangeable() -> y
    boolean isPointOnPath() -> g_
    boolean isRedefineable() -> aH
    boolean isMoveable() -> w
    boolean isMoveable(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> a
    boolean hasMoveableInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> b
    java.util.ArrayList getFreeInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> a
    boolean hasOnlyFreeInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> c
    boolean containsOnlyMoveableGeos(java.util.ArrayList) -> a
    boolean isTranslateable() -> h_
    boolean isRotateMoveable() -> aI
    boolean hasProperties() -> aJ
    void setAnimationStep(double) -> d
    void setAnimationStep(geogebra.common.kernel.arithmetic.NumberValue) -> b
    double getAnimationStep() -> m
    geogebra.common.kernel.geos.GeoElement getAnimationStepObject() -> g
    geogebra.common.kernel.geos.GeoElement getAnimationSpeedObject() -> h
    double getAnimationSpeed() -> n
    void setAnimationSpeedObject(geogebra.common.kernel.arithmetic.NumberValue) -> c
    void setAnimationSpeed(double) -> e
    void initAnimationSpeedObject() -> h
    int getAnimationType() -> s
    void setAnimationType(int) -> n
    int getAnimationDirection() -> t
    void changeAnimationDirection() -> w
    void setAnimating(boolean) -> t
    boolean isAnimating() -> m
    boolean isAnimatable() -> K
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toCasAssignment(geogebra.common.kernel.StringTemplate) -> j
    java.lang.String getAssignmentLHS(geogebra.common.kernel.StringTemplate) -> k
    java.lang.String getCASString(geogebra.common.kernel.StringTemplate,boolean) -> a
    void removeCellRangeUser() -> x
    boolean isRenameable() -> i_
    boolean rename(java.lang.String) -> c
    boolean isLabelSet() -> j_
    void setLabel(java.lang.String) -> e
    void setLoadedLabel(java.lang.String) -> f
    boolean setCaption(java.lang.String) -> d
    java.lang.String getCaptionSimple() -> m
    java.lang.String getCaption(geogebra.common.kernel.StringTemplate) -> l
    java.lang.String getRawCaption() -> n
    java.lang.String getCaptionDescription(geogebra.common.kernel.StringTemplate) -> m
    void setLocalVariableLabel(java.lang.String) -> g
    void undoLocalVariableLabel() -> y
    boolean isLocalVariable() -> aK
    void doSetLabel(java.lang.String) -> b
    void updateSpreadsheetCoordinates() -> i
    java.lang.String getSpreadsheetLabelWithDollars(boolean,boolean) -> c
    int compareLabels(java.lang.String,java.lang.String) -> a
    void doRenameLabel(java.lang.String) -> c
    java.lang.String getOldLabel() -> o
    void setLabels(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
    void setLabels(java.lang.String[],geogebra.common.kernel.geos.GeoElement[]) -> a
    void setLabels(java.lang.String[],geogebra.common.kernel.geos.GeoElement[],boolean) -> a
    java.lang.String getFreeLabel(java.lang.String) -> a
    java.lang.String getDefaultLabel(boolean) -> a
    java.lang.String getDefaultLabel() -> b
    java.lang.String getDefaultLabel(char[],boolean) -> a
    java.lang.String defaultNumberedLabel(java.lang.String) -> c
    java.lang.String getIndexLabel(java.lang.String) -> b
    boolean isGeoTextField() -> aL
    void setEmptySpreadsheetCell(boolean) -> u
    boolean isEmptySpreadsheetCell() -> aM
    void remove() -> a
    void doRemove() -> e
    geogebra.common.util.LaTeXCache getLaTeXCache() -> a
    void notifyAdd() -> t
    void notifyRemove() -> u
    void notifyUpdate() -> z
    void notifyUpdateAuxiliaryObject() -> A
    void addAlgorithm(geogebra.common.kernel.algos.AlgoElement) -> b
    void addToAlgorithmListOnly(geogebra.common.kernel.algos.AlgoElement) -> c
    void addToUpdateSetOnly(geogebra.common.kernel.algos.AlgoElement) -> d
    void removeAlgorithm(geogebra.common.kernel.algos.AlgoElement) -> e
    geogebra.common.kernel.algos.AlgorithmSet getAlgoUpdateSet() -> a
    boolean addToUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> a
    boolean removeFromUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> b
    void update() -> q_
    void updateGeo() -> B
    void algebraStringsNeedUpdate() -> j
    void updateCascade() -> s_
    void updateDependentObjects() -> r
    void updateAlgoUpdateSetWith(geogebra.common.kernel.geos.GeoElement) -> k
    boolean hasAlgoUpdateSet() -> aN
    void updateCascade(java.util.ArrayList,java.util.TreeSet,boolean) -> a
    void updateCascadeLocation(java.util.ArrayList,geogebra.common.kernel.Construction) -> a
    void updateRepaint() -> C
    void updateVisualStyle() -> u_
    void updateVisualStyleRepaint() -> D
    java.lang.String toString() -> toString
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    double evaluateDouble() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    java.util.HashSet getVariables() -> a
    java.util.TreeSet getAllPredecessors() -> c
    java.util.TreeSet getAllIndependentPredecessors() -> a
    void addPredecessorsToSet(java.util.TreeSet,boolean) -> a
    boolean isParentOf(geogebra.common.kernel.kernelND.GeoElementND) -> a
    boolean hasChildren() -> aO
    boolean isChildOf(geogebra.common.kernel.geos.GeoElement) -> b
    boolean isChildOrEqual(geogebra.common.kernel.geos.GeoElement) -> c
    java.util.TreeSet getAllChildren() -> d
    geogebra.common.kernel.geos.GeoElement[] getGeoElements() -> e
    boolean isAlgoElement() -> i
    boolean isGeoElement() -> j
    int getConstructionIndex() -> d
    int getMinConstructionIndex() -> i
    int getMaxConstructionIndex() -> j
    java.lang.String getDefinitionDescription(geogebra.common.kernel.StringTemplate) -> n
    java.lang.String getDefinitionDescriptionHTML(boolean) -> b
    java.lang.String getCommandDescription(geogebra.common.kernel.StringTemplate) -> o
    java.lang.String getCommandDescriptionHTML(boolean) -> c
    int getRelatedModeID() -> f_
    void convertIndicesToHTML(java.lang.String,geogebra.common.util.IndexHTMLBuilder) -> a
    void addLabelTextOrHTML(java.lang.String,geogebra.common.util.IndexHTMLBuilder) -> b
    java.lang.String getCaptionDescriptionHTML(boolean,geogebra.common.kernel.StringTemplate) -> b
    java.lang.String getXMLtypeString() -> p
    java.lang.String getTypeString() -> a
    java.lang.String getTypeStringForAlgebraView() -> q
    java.lang.String translatedTypeString() -> b_
    java.lang.String translatedTypeStringForAlgebraView() -> r
    java.lang.String getLongDescription() -> s
    java.lang.String getLongDescriptionHTML(boolean,boolean) -> d
    java.lang.String getColoredLabel() -> t
    java.lang.String getToolTipDescriptionHTML(java.util.ArrayList,boolean,boolean,boolean) -> a
    java.lang.String getLabelDescription() -> u
    java.lang.String toDefinedValueString(geogebra.common.kernel.StringTemplate) -> p
    java.lang.String getAlgebraDescriptionTextOrHTMLDefault(geogebra.common.util.IndexHTMLBuilder) -> a
    java.lang.String getAlgebraDescriptionHTMLDefault() -> v
    java.lang.String getLabelTextOrHTML() -> w
    java.lang.String getLabelTextOrHTML(boolean) -> d
    java.lang.String getAlgebraDescription(geogebra.common.kernel.StringTemplate) -> q
    java.lang.String getAlgebraDescriptionDefault() -> x
    java.lang.String getAlgebraDescriptionRegrOut(geogebra.common.kernel.StringTemplate) -> r
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String getLaTeXdescription() -> y
    java.lang.String getLaTeXAlgebraDescription(boolean,geogebra.common.kernel.StringTemplate) -> c
    java.lang.String getLaTeXAlgebraDescription(geogebra.common.kernel.geos.GeoElement,boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String indicesToHTML(java.lang.String,boolean) -> a
    void indicesToHTML(java.lang.String,geogebra.common.util.IndexHTMLBuilder) -> c
    java.lang.String getNameDescription() -> a_
    java.lang.String getNameDescriptionTextOrHTML() -> z
    boolean hasIndexLabel() -> aP
    java.lang.String getNameDescriptionHTML(boolean,boolean) -> e
    boolean isAxis() -> m_
    java.lang.String getXML() -> A
    void getXML(boolean,java.lang.StringBuilder) -> a
    void getListenerTagsXML(java.lang.StringBuilder) -> e
    void getListenerTagXML(java.lang.StringBuilder,java.util.HashMap,java.lang.String) -> a
    void getElementOpenTagXML(java.lang.StringBuilder) -> b
    void getElementCloseTagXML(java.lang.StringBuilder) -> d
    void getScriptTags(java.lang.StringBuilder) -> f
    void getCaptionXML(java.lang.StringBuilder) -> g
    void getAuxiliaryXML(java.lang.StringBuilder) -> h
    void getXMLvisualTags(java.lang.StringBuilder) -> i
    void getXMLvisualTags(java.lang.StringBuilder,boolean) -> a
    void appendObjectColorXML(java.lang.StringBuilder) -> j
    void getXMLanimationTags(java.lang.StringBuilder) -> k
    void getXMLfixedTag(java.lang.StringBuilder) -> l
    void getXMLtags(java.lang.StringBuilder) -> a_
    void getExtraTagsXML(java.lang.StringBuilder) -> o
    void getXMLtagsMinimal(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueStringMinimal(geogebra.common.kernel.StringTemplate) -> s
    java.lang.String regrFormat(double) -> a
    void getLineStyleXML(java.lang.StringBuilder) -> m
    void getBreakpointXML(java.lang.StringBuilder) -> n
    java.lang.String getShowObjectConditionXML() -> e
    int getLineThickness() -> u
    int getMinimumLineThickness() -> v
    int getLineType() -> w
    int getLineTypeHidden() -> x
    void setLineThickness(int) -> a
    void setLineThicknessOrVisibility(int) -> a_
    void setLineType(int) -> b
    void setLineTypeHidden(int) -> b_
    void setDecorationType(int) -> f
    boolean isGeoElement3D() -> l
    boolean hasDrawable3D() -> p
    boolean hasLevelOfDetail() -> J_
    boolean isGeoAngle() -> E_
    boolean isGeoBoolean() -> S
    boolean isGeoPolyLine() -> aQ
    boolean isGeoImplicitPoly() -> aR
    boolean isGeoConic() -> aS
    boolean isGeoConicPart() -> n_
    boolean isGeoFunction() -> aT
    boolean isGeoFunctionNVar() -> aU
    boolean isGeoFunctionBoolean() -> aV
    boolean isGeoFunctionConditional() -> aW
    boolean isGeoFunctionable() -> aX
    boolean isGeoImage() -> aY
    boolean isGeoTurtle() -> aZ
    boolean isGeoLine() -> T_
    boolean isGeoPlane() -> x
    boolean isGeoQuadric() -> o_
    boolean isGeoLocus() -> ba
    boolean isGeoNumeric() -> bb
    boolean isGeoPoint() -> D
    boolean isGeoCasCell() -> am
    boolean isGeoPolygon() -> bc
    boolean isGeoPolyhedron() -> F_
    boolean isGeoRay() -> G_
    boolean isGeoSegment() -> L
    boolean isGeoText() -> bd
    boolean isGeoVector() -> H_
    boolean isGeoCurveCartesian() -> be
    boolean isGeoSurfaceCartesian() -> bf
    boolean isCasEvaluableObject() -> J
    boolean isExpressionNode() -> u
    boolean isVariable() -> p_
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void setSelected(boolean) -> v
    void setHighlighted(boolean) -> w
    boolean doHighlighting() -> bg
    boolean isSelected() -> bh
    boolean isNumberValue() -> A_
    boolean isAngle() -> q_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean evaluatesToText() -> V_
    boolean evaluatesToList() -> g
    boolean isGeoButton() -> Q_
    void setUseVisualDefaults(boolean) -> x
    boolean isAbsoluteScreenLocateable() -> o
    geogebra.common.kernel.geos.GeoBoolean getShowObjectCondition() -> b
    void setShowObjectCondition(geogebra.common.kernel.geos.GeoBoolean) -> a
    void removeCondition(geogebra.common.kernel.geos.GeoBoolean) -> b
    geogebra.common.kernel.geos.GeoList getColorFunction() -> a
    void setColorFunction(geogebra.common.kernel.geos.GeoList) -> a
    void removeColorFunction() -> v_
    boolean moveObjects(java.util.ArrayList,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.euclidian.EuclidianView) -> a
    java.util.TreeSet getTempSet() -> e
    boolean movePoint(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    boolean moveVector(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> b
    boolean moveObject(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,java.util.ArrayList,geogebra.common.euclidian.EuclidianView) -> a
    boolean moveFromChangeableCoordParentNumbers(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView) -> a
    boolean hasChangeableCoordParentNumbers() -> E
    void recordChangeableCoordParentNumbers() -> E
    void addChangeableCoordParentNumberToUpdateList(geogebra.common.kernel.geos.GeoElement,java.util.ArrayList,java.util.ArrayList) -> a
    void addParentToUpdateList(geogebra.common.kernel.geos.GeoElement,java.util.ArrayList,java.util.ArrayList) -> b
    geogebra.common.awt.GPoint getSpreadsheetCoords() -> a
    geogebra.common.awt.GPoint getOldSpreadsheetCoords() -> b
    boolean isAlgoMacroOutput() -> bi
    void setAlgoMacroOutput(boolean) -> y
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDifferenceZeroInCAS(geogebra.common.kernel.geos.GeoElement) -> d
    java.lang.String getFormulaString(geogebra.common.kernel.StringTemplate,boolean) -> b
    boolean getSpreadsheetTrace() -> bj
    void setSpreadsheetTrace(boolean) -> z
    void resetTraceColumns() -> F
    boolean isSpreadsheetTraceable() -> bk
    boolean hasSpreadsheetTraceModeTraceable() -> bl
    geogebra.common.util.SpreadsheetTraceSettings getTraceSettings() -> a
    void setTraceSettings(geogebra.common.util.SpreadsheetTraceSettings) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElementForPropertiesDialog() -> i
    boolean isTextCommand() -> bm
    void setInTree(boolean) -> e
    void setClickScript(geogebra.common.plugin.script.Script) -> a
    void setUpdateScript(geogebra.common.plugin.script.Script) -> b
    void setScript(geogebra.common.plugin.script.Script,geogebra.common.plugin.EventType) -> a
    boolean canHaveUpdateScript() -> bn
    geogebra.common.plugin.script.Script getScript(geogebra.common.plugin.EventType) -> a
    void runClickScripts(java.lang.String) -> h
    void setShowTrimmedIntersectionLines(boolean) -> A
    boolean getShowTrimmedIntersectionLines() -> bo
    boolean isPointInRegion() -> A
    void setRandomGeo(boolean) -> B
    boolean isRandomGeo() -> bp
    void updateRandomGeo() -> G
    boolean isMatrixTransformable() -> y_
    void setVisibility(int,boolean) -> c
    boolean isVisibleInView(int) -> b
    void addView(int) -> o
    void removeView(int) -> p
    void setViewFlags(java.util.List) -> a
    java.util.List getViewSet() -> a
    boolean isVisibleInView3D() -> bq
    void setVisibleInView3D(geogebra.common.kernel.geos.GeoElement) -> l
    void setSelectionAllowed(boolean) -> C
    boolean isSelectionAllowed() -> br
    void setRealLabel(java.lang.String) -> i
    boolean isHatchingEnabled() -> bs
    void setHatchingAngle(int) -> q
    double getHatchingAngle() -> o
    void setHatchingDistance(int) -> r
    int getHatchingDistance() -> y
    geogebra.common.awt.MyImage getFillImage() -> a
    void setFillImage(java.lang.String) -> j
    geogebra.common.kernel.geos.GeoElement$FillType getFillType() -> a
    void setFillType(geogebra.common.kernel.geos.GeoElement$FillType) -> a
    void setImageFileName(java.lang.String) -> k
    java.lang.String getImageFileName() -> B
    void setInverseFill(boolean) -> D
    boolean isInverseFill() -> bt
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean canHaveClickScript() -> O
    void setIsPickable(boolean) -> E
    boolean isPickable() -> bu
    boolean needsReplacingInExpressionNode() -> bv
    boolean isGeoInterval() -> bw
    void moveDependencies(geogebra.common.kernel.geos.GeoElement) -> f
    geogebra.common.kernel.geos.GeoCasCell getCorrespondingCasCell() -> a
    void setCorrespondingCasCell(geogebra.common.kernel.geos.GeoCasCell) -> a
    boolean isLaTeXDrawableGeo() -> Q
    boolean hasBackgroundColor() -> Y
    boolean algoUpdateSetContains(geogebra.common.kernel.algos.AlgoElement) -> c
    void resetSpreadsheetColumnHeadings() -> H
    java.util.ArrayList getColumnHeadings() -> c
    void updateColumnHeadingsForTraceValues() -> l
    java.lang.String getTraceDialogAsValues() -> d
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    void updateColumnHeadingsForTraceGeoCopy() -> I
    geogebra.common.kernel.geos.GeoText getNameGeo() -> b
    geogebra.common.kernel.geos.GeoText getColumnHeadingText(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    geogebra.common.kernel.arithmetic.MyStringBuffer getXBracket() -> b
    geogebra.common.kernel.arithmetic.MyStringBuffer getYBracket() -> c
    geogebra.common.kernel.arithmetic.MyStringBuffer getZBracket() -> d
    geogebra.common.kernel.arithmetic.MyStringBuffer getCloseBracket() -> e
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue traverse(geogebra.common.kernel.arithmetic.Traversing) -> a
    boolean inspect(geogebra.common.kernel.arithmetic.Inspecting) -> a
    int getMetasLength() -> g_
    geogebra.common.kernel.geos.GeoElement unwrap() -> j
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    boolean isPinnable() -> Z
    boolean isPinned() -> bx
    boolean hasCoords() -> M
    void setScripting(geogebra.common.kernel.geos.GeoElement) -> m
    geogebra.common.kernel.arithmetic.ExpressionValue derivative(geogebra.common.kernel.arithmetic.FunctionVariable) -> b
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    boolean isMatrix() -> r_
    java.lang.String getFillSymbol() -> C
    void setFillSymbol(java.lang.String) -> l
    int getDecorationType() -> h
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElement(geogebra.common.kernel.locusequ.EquationScope) -> a
    void setSendValueToCas(boolean) -> F
    boolean getSendValueToCas() -> by
    void setCaptionBotanaVars(java.lang.String) -> m
    void addCaptionBotanaPolynomial(java.lang.String) -> n
    boolean showLineProperties() -> bz
    boolean evaluatesTo3DVector() -> d
    void setCanBeRemovedAsInput(boolean) -> G
    boolean canBeRemovedAsInput() -> bA
    boolean hasLineOpacity() -> W
    int getLineOpacity() -> z
    void setLineOpacity(int) -> s
    boolean evaluatesToNumber(boolean) -> a
    boolean getTrace() -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue unwrap() -> c
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> c
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$VisibleInView3D() -> d
geogebra.common.kernel.geos.GeoElement$1 -> geogebra.common.l.j.w:
    int compare(geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.algos.AlgoElement) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.geos.GeoElement$FillType -> geogebra.common.l.j.v$a:
    geogebra.common.kernel.geos.GeoElement$FillType STANDARD -> a
    geogebra.common.kernel.geos.GeoElement$FillType HATCH -> b
    geogebra.common.kernel.geos.GeoElement$FillType CROSSHATCHED -> c
    geogebra.common.kernel.geos.GeoElement$FillType CHESSBOARD -> d
    geogebra.common.kernel.geos.GeoElement$FillType DOTTED -> e
    geogebra.common.kernel.geos.GeoElement$FillType HONEYCOMB -> f
    geogebra.common.kernel.geos.GeoElement$FillType BRICK -> g
    geogebra.common.kernel.geos.GeoElement$FillType SYMBOLS -> h
    geogebra.common.kernel.geos.GeoElement$FillType IMAGE -> i
    int value -> a
    boolean hatch -> a
    geogebra.common.kernel.geos.GeoElement$FillType[] ENUM$VALUES -> a
    boolean isHatch() -> a
    geogebra.common.kernel.geos.GeoElement$FillType[] values() -> values
    geogebra.common.kernel.geos.GeoElement$FillType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.geos.GeoElement$HitType -> geogebra.common.l.j.v$b:
    geogebra.common.kernel.geos.GeoElement$HitType NONE -> a
    geogebra.common.kernel.geos.GeoElement$HitType ON_BOUNDARY -> b
    geogebra.common.kernel.geos.GeoElement$HitType ON_FILLING -> c
    geogebra.common.kernel.geos.GeoElement$HitType[] ENUM$VALUES -> a
    geogebra.common.kernel.geos.GeoElement$HitType[] values() -> values
    geogebra.common.kernel.geos.GeoElement$HitType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.geos.GeoElement$TraceModesEnum -> geogebra.common.l.j.v$c:
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum ONLY_COPY -> a
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum ONE_VALUE_OR_COPY -> b
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum ONE_VALUE_ONLY -> c
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum SEVERAL_VALUES_OR_COPY -> d
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum SEVERAL_VALUES_ONLY -> e
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum NOT_TRACEABLE -> f
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum[] ENUM$VALUES -> a
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum[] values() -> values
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.geos.GeoElement$VisibleInView3D -> geogebra.common.l.j.v$d:
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D NOT_SET -> a
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D TRUE -> b
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D FALSE -> c
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D[] ENUM$VALUES -> a
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D[] values() -> values
    geogebra.common.kernel.geos.GeoElement$VisibleInView3D valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.geos.GeoElementGraphicsAdapter -> geogebra.common.l.j.x:
    java.lang.String imageFileName -> a
    geogebra.common.awt.MyImage image -> a
    geogebra.common.awt.MyImage getImageOnly() -> a
    void setImageOnly(geogebra.common.awt.MyImage) -> a
    void setImageFileNameOnly(java.lang.String) -> a
    java.lang.String getImageFileName() -> a
    geogebra.common.awt.MyImage getFillImage() -> b
    void setImageFileName(java.lang.String) -> b
    void setFillImage(java.lang.String) -> c
geogebra.common.kernel.geos.GeoElementSpreadsheet -> geogebra.common.l.j.y:
    com.google.gwt.regexp.shared.RegExp spreadsheetPattern -> a
    java.lang.StringBuilder sb -> a
    java.lang.String getSpreadsheetColumnName(int) -> a
    java.lang.String getSpreadsheetColumnName(java.lang.String) -> a
    java.lang.String getSpreadsheetCellName(int,int) -> a
    geogebra.common.awt.GPoint spreadsheetIndices(java.lang.String) -> a
    boolean hasSpreadsheetLabel(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isSpreadsheetLabel(java.lang.String) -> a
    int getSpreadsheetColumn(com.google.gwt.regexp.shared.MatchResult) -> a
    int getSpreadsheetRow(com.google.gwt.regexp.shared.MatchResult) -> b
    geogebra.common.awt.GPoint getSpreadsheetCoordsForLabel(java.lang.String) -> b
    void setSpreadsheetCell(geogebra.common.main.App,int,int,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement autoCreate(java.lang.String,geogebra.common.kernel.Construction) -> a
geogebra.common.kernel.geos.GeoFunction -> geogebra.common.l.j.z:
    geogebra.common.kernel.arithmetic.Function fun -> a
    boolean isDefined -> a
    boolean trace -> j
    boolean includesDivisionByVar -> k
    boolean includesNonContinuousIntegral -> l
    boolean interval -> b
    double intervalMin -> a
    double intervalMax -> b
    boolean evalSwapped -> m
    java.lang.Boolean isInequality -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly iPoly -> a
    geogebra.common.kernel.geos.GeoFunction[] substituteFunctions -> a
    int FUNCTION_DIRECT -> a
    int FUNCTION_COMPOSITE_IPOLY_FUNCS -> b
    int geoFunctionType -> m
    java.util.TreeSet surfaceEvaluables -> a
    geogebra.common.kernel.geos.GeoFunction derivGeoFun -> a
    geogebra.common.kernel.arithmetic.Function includesNonContinuousIntegralFun -> b
    geogebra.common.kernel.arithmetic.Function includesDivisionByVarFun -> c
    java.lang.StringBuilder sbToString -> a
    boolean showOnAxis -> n
    java.lang.String[] dummy1 -> a
    char[] dummy2 -> a
    double[] bounds -> a
    java.lang.StringBuilder sb -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    java.lang.String getTypeString() -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setFunction(geogebra.common.kernel.arithmetic.Function) -> a
    boolean addToUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> a
    boolean removeFromUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> b
    void initFunction() -> d
    geogebra.common.kernel.arithmetic.Function getFunction() -> a
    boolean setInterval(double,double) -> b
    geogebra.common.kernel.arithmetic.ExpressionNode getFunctionExpression() -> c
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> c
    geogebra.common.kernel.arithmetic.Function getFunction(double) -> a
    void setDerivative(geogebra.common.kernel.geos.CasEvaluableFunction,int,boolean) -> a
    void checkDefined() -> j
    void setUsingCasCommand(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    double evaluate(double) -> a
    double evaluate(double[]) -> a
    double getIntervalMin() -> c
    double getIntervalMax() -> d
    boolean hasInterval() -> X
    boolean evaluateBoolean(double) -> a
    geogebra.common.kernel.geos.GeoFunction getGeoDerivative(int) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void translate(double,double) -> a
    boolean isPolynomialFunction(boolean,boolean) -> a
    boolean isPolynomialFunction(boolean) -> b
    boolean includesDivisionByVar() -> aa
    boolean includesNonContinuousIntegral() -> ab
    boolean isDefined() -> a_
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    void setDefined(boolean) -> c
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void initStringBuilder(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate,java.lang.String,java.lang.String,boolean,boolean) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    void getXML(boolean,java.lang.StringBuilder) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    void pointChanged(geogebra.common.kernel.Matrix.Coords) -> c
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pointChangedBoolean(boolean,geogebra.common.kernel.Matrix.Coords) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isPath() -> d_
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    boolean isClosedPath() -> b
    boolean isCasEvaluableObject() -> J
    boolean isNumberValue() -> A_
    boolean isTraceable() -> h
    boolean getTrace() -> a
    void setTrace(boolean) -> e_
    geogebra.common.kernel.geos.GeoFunction getGeoFunction() -> a
    boolean isGeoFunction() -> aT
    java.lang.String getAssignmentLHS(geogebra.common.kernel.StringTemplate) -> k
    boolean isGeoFunctionable() -> aX
    boolean isBooleanFunction() -> U_
    void swapEval() -> h
    void evaluateCurve(double,double[]) -> a
    double evaluateCurvature(double) -> b
    geogebra.common.kernel.roots.RealRootFunction getRealRootFunctionX() -> a
    geogebra.common.kernel.roots.RealRootFunction getRealRootFunctionY() -> b
    geogebra.common.kernel.geos.GeoVec2D evaluateCurve(double) -> a
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    boolean isFunctionInX() -> c
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoFunction add(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar operationSymb(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.FunctionalNVar) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar fromExpr(geogebra.common.kernel.arithmetic.ExpressionNode,java.util.HashMap,java.util.TreeSet) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode toExpr(geogebra.common.kernel.arithmetic.FunctionalNVar,java.util.HashMap,geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar applyNumberSymb(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.ExpressionValue,boolean) -> a
    geogebra.common.kernel.geos.GeoFunction subtract(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction) -> b
    geogebra.common.kernel.geos.GeoFunction mult(geogebra.common.kernel.geos.GeoFunction,double,geogebra.common.kernel.geos.GeoFunction) -> a
    boolean evaluateCondition(double) -> b
    java.lang.String getLimit(double,int) -> a
    void getVerticalAsymptotes(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,boolean) -> a
    void getHorizontalPositiveAsymptote(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder) -> a
    void getHorizontalNegativeAsymptote(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder) -> b
    void getDiagonalPositiveAsymptote(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder) -> c
    void getDiagonalNegativeAsymptote(geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder) -> d
    void getDiagonalAsymptoteStatic(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,boolean) -> a
    void getHorizontalAsymptoteStatic(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,boolean) -> b
    char getLabelDelimiter() -> a
    void getVerticalAsymptotesStatic(geogebra.common.kernel.geos.GeoFunction,geogebra.common.kernel.geos.GeoFunction,java.lang.StringBuilder,boolean) -> c
    boolean CASError(java.lang.String,boolean) -> a
    java.lang.String getCASString(geogebra.common.kernel.StringTemplate,boolean) -> a
    java.lang.String[] getTempVarCASString(boolean) -> a
    void toGeoCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.geos.GeoFunction threadSafeCopy() -> b
    void mirror(geogebra.common.kernel.Matrix.Coords) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    boolean isInRegion(double,double) -> a
    boolean isFunctionOfY() -> ac
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    boolean isRegion() -> x_
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    void resetIneqs() -> i
    geogebra.common.kernel.arithmetic.IneqTree getIneqs() -> a
    boolean showOnAxis() -> ad
    void setShowOnAxis(boolean) -> f_
    void update() -> q_
    boolean isGeoFunctionBoolean() -> aV
    boolean isLaTeXDrawableGeo() -> Q
    java.lang.String getFormulaString(geogebra.common.kernel.StringTemplate,boolean) -> b
    int getMinimumLineThickness() -> v
    boolean isInequality() -> ae
    boolean isFreehandFunction() -> af
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    void clearCasEvalMap(java.lang.String) -> a
    java.lang.String conditionalLaTeX(boolean,geogebra.common.kernel.StringTemplate) -> d
    java.lang.String conditionalMathML(boolean,geogebra.common.kernel.StringTemplate) -> e
    boolean collectCases(geogebra.common.kernel.arithmetic.ExpressionNode,java.util.ArrayList,java.util.ArrayList,geogebra.common.kernel.geos.GeoFunction$Bounds) -> a
    boolean hasDrawable3D() -> p
    boolean hasLineOpacity() -> W
    double[] newDoubleArray() -> a
    double[] getDefinedInterval(double,double) -> a
    double distanceMax(double[],double[]) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.arithmetic.FunctionNVar getFunction() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.kernel.geos.GeoFunction$1 -> geogebra.common.l.j.A:
    geogebra.common.kernel.geos.GeoFunction this$0 -> a
    double evaluate(double) -> a
geogebra.common.kernel.geos.GeoFunction$2 -> geogebra.common.l.j.B:
    geogebra.common.kernel.geos.GeoFunction this$0 -> a
    double evaluate(double) -> a
geogebra.common.kernel.geos.GeoFunction$3 -> geogebra.common.l.j.C:
    geogebra.common.kernel.geos.GeoFunction this$0 -> a
    double evaluate(double) -> a
geogebra.common.kernel.geos.GeoFunction$4 -> geogebra.common.l.j.D:
    geogebra.common.kernel.geos.GeoFunction this$0 -> a
    double evaluate(double) -> a
geogebra.common.kernel.geos.GeoFunction$5 -> geogebra.common.l.j.E:
    geogebra.common.kernel.geos.GeoFunction this$0 -> a
    double evaluate(double) -> a
geogebra.common.kernel.geos.GeoFunction$Bounds -> geogebra.common.l.j.z$a:
    boolean lowerSharp -> a
    boolean upperSharp -> b
    java.lang.Double lower -> a
    java.lang.Double upper -> b
    geogebra.common.kernel.arithmetic.ExpressionNode condition -> a
    geogebra.common.kernel.geos.GeoFunction this$0 -> a
    geogebra.common.kernel.geos.GeoFunction$Bounds addRestriction(geogebra.common.kernel.arithmetic.ExpressionNode) -> a
    java.lang.String toLaTeXString(boolean,java.lang.String,geogebra.common.kernel.StringTemplate) -> a
geogebra.common.kernel.geos.GeoFunctionNVar -> geogebra.common.l.j.F:
    geogebra.common.kernel.arithmetic.FunctionNVar fun -> a
    geogebra.common.kernel.arithmetic.FunctionNVar[] fun1 -> a
    java.lang.Boolean isInequality -> a
    boolean isDefined -> a
    double[] from -> a
    double[] to -> b
    geogebra.common.kernel.arithmetic.Traversing$FunctionExpander functionExpander -> a
    java.lang.StringBuilder sbToString -> a
    double[] tmp -> c
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail levelOfDetail -> a
    geogebra.common.kernel.Matrix.Coords der1 -> a
    geogebra.common.kernel.Matrix.Coords der2 -> b
    geogebra.common.kernel.Matrix.Coords normal -> c
    geogebra.common.kernel.Matrix.CoordsDouble3 p1 -> a
    geogebra.common.kernel.Matrix.CoordsDouble3 p2 -> b
    java.lang.String getTypeString() -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setFunction(geogebra.common.kernel.arithmetic.FunctionNVar) -> a
    void setDerivatives() -> d
    void resetDerivatives() -> h
    geogebra.common.kernel.arithmetic.FunctionNVar getFunction() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode getFunctionExpression() -> c
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> c
    double evaluate(double[]) -> a
    void checkDefined() -> j
    void setUsingCasCommand(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    boolean isDefined() -> a_
    void setDefined(boolean) -> a
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    java.lang.String toXMLString(geogebra.common.kernel.StringTemplate) -> g
    java.lang.String getAssignmentLHS(geogebra.common.kernel.StringTemplate) -> k
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    char getLabelDelimiter() -> a
    void getXML(boolean,java.lang.StringBuilder) -> a
    boolean isCasEvaluableObject() -> J
    boolean isNumberValue() -> A_
    boolean isBooleanFunction() -> U_
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    java.lang.String getCASString(geogebra.common.kernel.StringTemplate,boolean) -> a
    double getMinParameter(int) -> a
    double getMaxParameter(int) -> b
    void setInterval(double[],double[]) -> a
    void evaluatePoint(double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    int getVarNumber() -> b
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    void resetIneqs() -> i
    geogebra.common.kernel.arithmetic.IneqTree getIneqs() -> a
    void update() -> q_
    boolean isRegion() -> x_
    boolean isInRegion(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isInRegion(double,double) -> a
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    void tryLocateInEV(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    boolean isInequality() -> X
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void matrixTransform(double,double,double,double) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void mirror(geogebra.common.kernel.arithmetic.NumberValue) -> d
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    boolean isGeoFunctionNVar() -> aU
    boolean isLaTeXDrawableGeo() -> Q
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail getLevelOfDetail() -> a
    void setLevelOfDetail(geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail) -> a
    boolean hasLevelOfDetail() -> J_
    int getMinimumLineThickness() -> v
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    void clearCasEvalMap(java.lang.String) -> a
    java.lang.String getFormulaString(geogebra.common.kernel.StringTemplate,boolean) -> b
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    boolean setNormalFromNeighbours(geogebra.common.kernel.Matrix.Coords3,double,double,geogebra.common.kernel.Matrix.Coords3) -> b
    boolean evaluateNormal(geogebra.common.kernel.Matrix.Coords3,double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    void setAllVisualPropertiesExceptEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> a_
geogebra.common.kernel.geos.GeoFunctionable -> geogebra.common.l.j.G:
    geogebra.common.kernel.geos.GeoFunction getGeoFunction() -> a
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
geogebra.common.kernel.geos.GeoImage -> geogebra.common.l.j.H:
    geogebra.common.kernel.geos.GeoPoint[] corners -> a
    int pixelWidth -> a
    int pixelHeight -> b
    boolean inBackground -> a
    boolean defined -> b
    boolean hasAbsoluteLocation -> j
    boolean interpolate -> k
    int screenX -> m
    int screenY -> n
    boolean hasAbsoluteScreenLocation -> l
    geogebra.common.kernel.geos.GeoPoint[] tempPoints -> b
    java.util.Vector instances -> a
    double[] tempCoords -> a
    java.util.ArrayList al -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    int getRelatedModeID() -> f_
    void initTempPoints() -> j
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void updateInstances() -> h
    boolean showToolTipText() -> aC
    boolean isInBackground() -> X
    void setInBackground(boolean) -> a
    void setImageFileName(java.lang.String,int,int) -> a
    void setImageFileName(java.lang.String) -> k
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> e_
    void removeStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> d_
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> b
    void initStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    void setCorner(geogebra.common.kernel.geos.GeoPoint,int) -> a
    void updateHasAbsoluteLocation() -> m
    void doRemove() -> e
    geogebra.common.kernel.geos.GeoPoint getStartPoint() -> a
    geogebra.common.kernel.geos.GeoPoint[] getStartPoints() -> a
    geogebra.common.kernel.geos.GeoPoint getCorner(int) -> a
    boolean hasAbsoluteLocation() -> K_
    boolean isInterpolate() -> aa
    void setInterpolate(boolean) -> d
    void setWaitForStartPoint() -> d
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isMoveable() -> w
    boolean isRotateMoveable() -> aI
    boolean isFillable() -> v
    boolean isNumberValue() -> A_
    boolean isGeoImage() -> aY
    void getXMLtags(java.lang.StringBuilder) -> a_
    java.lang.String getXMLabsScreenLoc() -> e
    java.lang.String getCornerPointXML(int) -> a
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setRealWorldLoc(double,double) -> a
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    void setAbsoluteScreenLocActive(boolean) -> c
    boolean isAbsoluteScreenLocActive() -> n
    boolean isAbsoluteScreenLocateable() -> o
    void calculateCornerPoint(geogebra.common.kernel.geos.GeoPoint,int) -> b
    void getInternalCornerPointCoords(double[],int) -> a
    boolean initTransformPoints() -> ab
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void matrixTransform(double,double,double,double) -> a
    boolean isMatrixTransformable() -> y_
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isAlwaysFixed() -> P
    boolean hasMoveableInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> b
    java.util.ArrayList getFreeInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> a
    boolean isAuxiliaryObjectByDefault() -> ax
    boolean isAlgebraViewEditable() -> aE
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void clearFillImage() -> i
    boolean isPinnable() -> Z
    void updateLocation() -> g
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getStartPoints() -> a
geogebra.common.kernel.geos.GeoInterval -> geogebra.common.l.j.I:
    java.lang.StringBuilder sbToString2 -> b
    double[] leftRightBoundsField -> a
    java.lang.String[] leftRightStrField -> b
    char[] leftRightInequalityField -> b
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toString(boolean,geogebra.common.kernel.StringTemplate) -> f
    void updateBoundaries() -> j
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void updateBoundaries(geogebra.common.kernel.arithmetic.ExpressionNode,double[],java.lang.String[],char[]) -> a
    double setLeftBound(geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String[]) -> a
    double setRightBound(geogebra.common.kernel.arithmetic.ExpressionValue,java.lang.String[]) -> b
    double getMin() -> e
    double getMax() -> f
    double getMidPoint() -> g
    boolean isGeoInterval() -> bw
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    int getMinimumLineThickness() -> v
geogebra.common.kernel.geos.GeoLine -> geogebra.common.l.j.J:
    boolean showUndefinedInAlgebraView -> a
    java.lang.String parameter -> c
    geogebra.common.kernel.geos.GeoPoint startPoint -> a
    geogebra.common.kernel.geos.GeoPoint endPoint -> b
    boolean KEEP_LEADING_SIGN -> j
    java.lang.String[] vars -> a
    geogebra.common.kernel.PathParameter tempPP -> a
    java.lang.StringBuilder sbToString -> a
    java.lang.StringBuilder sbBuildValueString -> b
    java.lang.StringBuilder sbToStringLHS -> c
    java.util.ArrayList pointsOnLine -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoLine copy() -> a
    void setCoords(double,double,double) -> a
    void setLineThrough(double,double) -> a
    void setCoords(geogebra.common.kernel.geos.GeoVec3D) -> a
    boolean isIntersectionPointIncident(geogebra.common.kernel.geos.GeoPoint,double) -> a
    boolean isOnFullLine(geogebra.common.kernel.geos.GeoPoint,double) -> b
    boolean isOnFullLine(geogebra.common.kernel.Matrix.Coords,double) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    boolean isOnPath(geogebra.common.kernel.Matrix.Coords,double) -> b
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    double getPossibleParameter(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.PathParameter getTempPathParameter() -> a
    boolean isParallel(geogebra.common.kernel.geos.GeoLine) -> a
    boolean isSameDirection(geogebra.common.kernel.geos.GeoLine) -> b
    boolean isPerpendicular(geogebra.common.kernel.geos.GeoLine) -> c
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    double distance(double,double) -> a
    double distanceHom(geogebra.common.kernel.Matrix.Coords) -> b
    double distance(geogebra.common.kernel.geos.GeoLine) -> a
    void getDirection(geogebra.common.kernel.geos.GeoVec3D) -> b
    void getDirection(double[]) -> b
    void getInhomPointOnLine(double[]) -> c
    void getPointOnLine(geogebra.common.kernel.geos.GeoPoint) -> a
    void setStandardStartPoint() -> g
    void setStartPoint(geogebra.common.kernel.geos.GeoPoint) -> b
    void setEndPoint(geogebra.common.kernel.geos.GeoPoint) -> c
    geogebra.common.kernel.geos.GeoPoint getStartPoint() -> a
    geogebra.common.kernel.geos.GeoPoint getEndPoint() -> b
    boolean isDefined() -> a_
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefinedTangent(geogebra.common.kernel.geos.GeoConic) -> a
    boolean isDefinedAsymptote(geogebra.common.kernel.geos.GeoConic) -> b
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void setToParametric(java.lang.String) -> a
    void setToExplicit() -> d
    void setToImplicit() -> c
    void setMode(int) -> g
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.StringBuilder getSbToString() -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.StringBuilder getSbBuildValueString() -> b
    void toStringLHS(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> b
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isClosedPath() -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void doPointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> d
    void doPointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pathChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> b
    boolean isPath() -> d_
    boolean isGeoLine() -> T_
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    void setZero() -> d_
    void matrixTransform(double,double,double,double) -> a
    geogebra.common.kernel.geos.GeoFunction getGeoFunction() -> a
    boolean isGeoFunctionable() -> aX
    boolean isMatrixTransformable() -> y_
    void toGeoConic(geogebra.common.kernel.geos.GeoConic) -> a
    double evaluate(double) -> a
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.Matrix.Coords getPointInD(int,double) -> a
    geogebra.common.kernel.Matrix.Coords getStartCoordsInD(int) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionInD(int) -> b
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    geogebra.common.kernel.Matrix.Coords getDirectionForEquation() -> c
    geogebra.common.kernel.Matrix.Coords getCartesianEquationVector(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.Coords getStartInhomCoords() -> d
    geogebra.common.kernel.Matrix.Coords getEndInhomCoords() -> e
    boolean isCasEvaluableObject() -> J
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    java.util.ArrayList getPointsOnLine() -> a
    void addPointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void removePointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> e
    void doRemove() -> e
    geogebra.common.kernel.arithmetic.Function getFunction() -> a
    geogebra.common.kernel.geos.GeoFunction getGeoDerivative(int) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    double distance(geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean respectLimitedPath(double) -> a
    double[] getnormalizedCoefficients(double[]) -> a
    geogebra.common.kernel.algos.EquationElementInterface buildEquationElement(geogebra.common.kernel.locusequ.EquationScope) -> a
    boolean hasLineOpacity() -> W
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    geogebra.common.kernel.kernelND.GeoLineND copy() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.kernelND.GeoPointND getEndPoint() -> b
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> b
geogebra.common.kernel.geos.GeoLine$PathMoverLine -> geogebra.common.l.j.J$a:
    geogebra.common.kernel.geos.GeoLine this$0 -> a
geogebra.common.kernel.geos.GeoList -> geogebra.common.l.j.K:
    geogebra.common.plugin.GeoClass ELEMENT_TYPE_MIXED -> a
    boolean trace -> a
    java.util.ArrayList geoList -> a
    java.util.ArrayList cacheList -> b
    boolean isDefined -> b
    boolean isDrawable -> j
    boolean drawAsComboBox -> k
    geogebra.common.plugin.GeoClass elementType -> b
    boolean showAllProperties -> l
    java.util.ArrayList colorFunctionListener -> c
    java.lang.StringBuilder sbBuildValueString -> a
    java.lang.String typeStringForXML -> c
    int pointSize -> a
    int pointStyle -> b
    boolean serifFont -> m
    int fontStyle -> m
    double fontSizeD -> a
    int printDecimals -> n
    int printFigures -> o
    boolean useSignificantFigures -> n
    int selectedIndex -> p
    int closestPointIndex -> q
    geogebra.common.javax.swing.AbstractJComboBox comboBox -> a
    geogebra.common.javax.swing.AbstractJComboBox comboBox2 -> b
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum traceModes -> a
    boolean showOnAxis -> o
    boolean[] directionInfoArray -> a
    int[] directionInfoOrdering -> a
    boolean shouldUseAlgoLocusList -> p
    boolean locusCalledAlgoLocusList -> q
    geogebra.common.kernel.geos.GeoAngle$AngleStyle angleStyle -> a
    boolean emphasizeRightAngle -> r
    int arcSize -> r
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$TraceModesEnum -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle -> c
    void setParentAlgorithm(geogebra.common.kernel.algos.AlgoElement) -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.plugin.GeoClass getElementType() -> b
    geogebra.common.kernel.geos.GeoList copy() -> b
    geogebra.common.kernel.geos.GeoList deepCopyGeo() -> c
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setShowAllProperties(boolean) -> h
    void copyListElements(geogebra.common.kernel.geos.GeoList) -> b
    geogebra.common.kernel.geos.GeoElement getCopyForList(geogebra.common.kernel.geos.GeoElement) -> a
    void applyVisualStyle(geogebra.common.kernel.geos.GeoElement) -> r
    void removeColorFunction() -> v_
    void setColorFunction(geogebra.common.kernel.geos.GeoList) -> a
    void setColorSpace(int) -> j
    void setShowObjectCondition(geogebra.common.kernel.geos.GeoBoolean) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void setObjColor(geogebra.common.awt.GColor) -> a
    void setBackgroundColor(geogebra.common.awt.GColor) -> d
    void setEuclidianVisible(boolean) -> b
    void setElementEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> c
    void setVisibility(int,boolean) -> c
    geogebra.common.kernel.arithmetic.MyList getMyList() -> a
    boolean isDefined() -> a_
    void setDefined(boolean) -> i
    void setUndefined() -> b
    boolean showInEuclidianView() -> c_
    boolean isDrawable() -> q
    boolean showInAlgebraView() -> b_
    void clear() -> d
    void clearCache() -> h
    void add(geogebra.common.kernel.geos.GeoElement) -> d
    void remove(geogebra.common.kernel.geos.GeoElement) -> e
    void addQueue(geogebra.common.kernel.geos.GeoElement) -> n
    void remove(int) -> i
    geogebra.common.kernel.geos.GeoElement get(int) -> a
    geogebra.common.kernel.geos.GeoElement get(int,int) -> a
    double[] toDouble() -> a
    void ensureCapacity(int) -> t
    int size() -> a
    int getCacheSize() -> l
    geogebra.common.kernel.geos.GeoElement getCached(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    boolean isGeoList() -> ar
    boolean evaluatesToList() -> g
    void getXML(boolean,java.lang.StringBuilder) -> a
    java.lang.String getTypeStringForXML() -> e
    void setTypeStringForXML(java.lang.String) -> a
    void registerColorFunctionListener(geogebra.common.kernel.geos.GeoElement) -> o
    void unregisterColorFunctionListener(geogebra.common.kernel.geos.GeoElement) -> p
    void update() -> q_
    void doRemove() -> e
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setZero() -> d_
    void setLineThickness(int) -> a
    int getMinimumLineThickness() -> v
    void setLineType(int) -> b
    void setPointSize(int) -> e_
    int getPointSize() -> h_
    void setPointStyle(int) -> c_
    float getAlphaValue() -> b
    void setAlphaValue(float) -> a
    int getPointStyle() -> d_
    boolean isFillable() -> v
    geogebra.common.kernel.geos.GeoElement getGeoElementForPropertiesDialog() -> i
    boolean isMatrix() -> r_
    double getFontSizeMultiplier() -> b
    void setFontSizeMultiplier(double) -> a
    int getFontStyle() -> b
    void setFontStyle(int) -> c
    int getPrintDecimals() -> i_
    int getPrintFigures() -> k
    void setPrintDecimals(int,boolean) -> a
    void setPrintFigures(int,boolean) -> b
    boolean useSignificantFigures() -> S_
    boolean isSerifFont() -> R_
    void setSerifFont(boolean) -> a
    void setHatchingAngle(int) -> q
    void setHatchingDistance(int) -> r
    void setFillType(geogebra.common.kernel.geos.GeoElement$FillType) -> a
    void setFillImage(java.lang.String) -> j
    void setImageFileName(java.lang.String) -> k
    boolean showLineProperties() -> bz
    boolean showPointProperties() -> aa
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    int getSelectedIndex() -> m
    void setSelectedIndex(int,boolean) -> d
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.geos.GeoElement getSelectedElement() -> c
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    boolean isTraceable() -> h
    boolean isLimitedPath() -> D_
    boolean isPath() -> d_
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void getNearestPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean isClosedPath() -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
    boolean justFontSize() -> X
    boolean hasMoveableInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> b
    java.util.ArrayList getFreeInputPoints(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> a
    boolean isCasEvaluableObject() -> J
    java.lang.String getCASString(geogebra.common.kernel.StringTemplate,boolean) -> a
    boolean listContains(geogebra.common.kernel.geos.GeoElement) -> e
    boolean isLaTeXDrawableGeo() -> Q
    void updateColumnHeadingsForTraceValues() -> l
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes(java.util.ArrayList) -> a
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    boolean hasSpreadsheetTraceModeTraceable() -> bl
    java.lang.String getTraceDialogAsValues() -> d
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    int performScriptActions() -> A
    int find(geogebra.common.kernel.geos.GeoElement) -> a
    boolean drawAsComboBox() -> ac
    void setDrawAsComboBox(boolean) -> j
    geogebra.common.javax.swing.AbstractJComboBox getComboBox(int) -> a
    geogebra.common.javax.swing.AbstractJComboBox buildComboBox(geogebra.common.javax.swing.AbstractJComboBox) -> a
    geogebra.common.javax.swing.AbstractJComboBox buildComboBox(int) -> b
    void rebuildComboxBoxIfNecessary(geogebra.common.javax.swing.AbstractJComboBox) -> a
    void rebuildComboBoxes() -> i
    boolean isAbsoluteScreenLocateable() -> o
    boolean isMoveable() -> w
    boolean isAbsoluteScreenLocActive() -> n
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setAbsoluteScreenLocActive(boolean) -> c
    void setRealWorldLoc(double,double) -> a
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    boolean isFurniture() -> s
    geogebra.common.kernel.arithmetic.ExpressionValue getListElement(int) -> b
    double mean() -> e
    boolean shouldUseAlgoLocusList(boolean) -> b
    boolean showOnAxis() -> ad
    void setShowOnAxis(boolean) -> f_
    boolean containsGeoElement3D() -> ae
    geogebra.common.kernel.Matrix.Coords getMainDirection() -> b
    boolean isLaTeXTextCommand() -> ab
    void setAngleStyle(int) -> g
    void setAngleStyle(geogebra.common.kernel.geos.GeoAngle$AngleStyle) -> a
    geogebra.common.kernel.geos.GeoAngle$AngleStyle getAngleStyle() -> a
    boolean hasOrientation() -> w_
    void setAllowReflexAngle(boolean) -> d
    void setEmphasizeRightAngle(boolean) -> f
    void setForceReflexAngle(boolean) -> g
    void setDecorationType(int) -> f
    void setArcSize(int) -> e
    int getArcSize() -> g
    boolean isEmphasizeRightAngle() -> r
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> q
    java.lang.String getLabelDescription() -> u
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.geos.GeoElement deepCopyGeo() -> f
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$TraceModesEnum() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoAngle$AngleStyle() -> b
geogebra.common.kernel.geos.GeoListForCellRange -> geogebra.common.l.j.L:
    geogebra.common.kernel.statistics.AlgoCellRange algo -> a
    boolean addToUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> a
geogebra.common.kernel.geos.GeoLocus -> geogebra.common.l.j.M:
    geogebra.common.kernel.Matrix.Coords changingPoint -> a
    geogebra.common.kernel.geos.GeoLocus newGeoLocus() -> a
    void insertPoint(double,double,boolean) -> a
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND newGeoSegment() -> a
    void setChangingPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    double changingPointDistance(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    double getChangingPointParameter(geogebra.common.kernel.kernelND.GeoSegmentND) -> b
    boolean hasLineOpacity() -> W
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.geos.GeoLocusND newGeoLocus() -> a
geogebra.common.kernel.geos.GeoLocusND -> geogebra.common.l.j.N:
    boolean defined -> a
    java.util.ArrayList myPointList -> a
    java.lang.StringBuilder sbToString -> a
    double closestPointDist -> b
    int closestPointIndex -> a
    double closestPointParameter -> a
    boolean trace -> b
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.geos.GeoLocusND newGeoLocus() -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    int getPointLength() -> b
    void clearPoints() -> d
    java.util.ArrayList getPoints() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean showInAlgebraView() -> b_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isDefined() -> a_
    void setDefined(boolean) -> c
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean showInEuclidianView() -> c_
    boolean isGeoLocus() -> ba
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void setChangingPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    double getChangingPointParameter(geogebra.common.kernel.kernelND.GeoSegmentND) -> b
    geogebra.common.kernel.MyPoint getClosestPoint() -> a
    geogebra.common.kernel.kernelND.GeoSegmentND newGeoSegment() -> a
    double changingPointDistance(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void getClosestLine() -> h
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isPath() -> d_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isLabelValueShowable() -> U
    boolean isLabelShowable() -> aA
    void setPoints(java.util.ArrayList) -> b
    boolean isAuxiliaryObjectByDefault() -> ax
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    boolean isTraceable() -> h
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    geogebra.common.kernel.PathMover createPathMover() -> a
    boolean hasDrawable3D() -> p
geogebra.common.kernel.geos.GeoNumberValue -> geogebra.common.l.j.O:
geogebra.common.kernel.geos.GeoNumeric -> geogebra.common.l.j.P:
    int DEFAULT_SLIDER_WIDTH_RW -> m
    int DEFAULT_SLIDER_WIDTH_PIXEL -> a
    int DEFAULT_SLIDER_WIDTH_PIXEL_ANGLE -> b
    double DEFAULT_SLIDER_MIN -> a
    double DEFAULT_SLIDER_MAX -> b
    double DEFAULT_SLIDER_INCREMENT -> c
    double DEFAULT_SLIDER_SPEED -> d
    double value -> e
    boolean isDrawable -> a
    int slopeTriangleSize -> n
    boolean intervalMinActive -> j
    boolean intervalMaxActive -> k
    geogebra.common.kernel.arithmetic.NumberValue intervalMin -> a
    geogebra.common.kernel.arithmetic.NumberValue intervalMax -> b
    double sliderWidth -> f
    double sliderX -> g
    double sliderY -> h
    boolean sliderFixed -> l
    boolean sliderHorizontal -> m
    double animationValue -> i
    boolean hasAbsoluteScreenLocation -> b
    java.lang.StringBuilder sbToString -> a
    java.util.ArrayList minMaxListeners -> a
    boolean randomSlider -> n
    java.util.Comparator comparator -> a
    java.util.ArrayList evListeners -> b
    boolean showExtendedAV -> o
    int getRelatedModeID() -> f_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoNumeric copy() -> a
    void setZero() -> d_
    boolean isDrawable() -> q
    boolean isFillable() -> v
    void setDrawable(boolean) -> h
    void setDrawable(boolean,boolean) -> a
    void setEuclidianVisible(boolean) -> b
    void initScreenLocation() -> i
    int countSliders() -> g
    boolean isSlider() -> X
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setUndefined() -> b
    boolean isDefined() -> a_
    boolean isInfinite() -> I
    java.lang.String getLaTeXdescription() -> y
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    double getAnimationStep() -> m
    double getAnimationSpeed() -> n
    void setValue(double) -> a
    void setValue(double,boolean) -> a
    double getValue() -> e
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    void setAllVisualPropertiesExceptEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> a_
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isSliderable() -> aa
    boolean isFixable() -> L_
    void getXMLsliderTag(java.lang.StringBuilder) -> o
    boolean isNumberValue() -> A_
    boolean isGeoNumeric() -> bb
    int getSlopeTriangleSize() -> b
    void setSlopeTriangleSize(int) -> c
    void setIntervalMax(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void setIntervalMin(geogebra.common.kernel.arithmetic.NumberValue) -> d
    void setSliderWidth(double) -> b
    void setSliderLocation(double,double,boolean) -> a
    double getIntervalMax() -> f
    double getIntervalMin() -> g
    double getSliderWidth() -> i
    double getSliderX() -> j
    double getSliderY() -> k
    boolean isIntervalMaxActive() -> ab
    boolean isIntervalMinActive() -> ac
    boolean isSliderFixed() -> ad
    void setSliderFixed(boolean) -> i
    boolean isSliderHorizontal() -> ae
    void setSliderHorizontal(boolean) -> j
    void setAbsoluteScreenLoc(int,int,boolean) -> a
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    void setRealWorldLoc(double,double) -> a
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    void setAbsoluteScreenLocActive(boolean) -> c
    boolean isAbsoluteScreenLocActive() -> n
    boolean isAbsoluteScreenLocateable() -> o
    geogebra.common.kernel.geos.GeoFunction getGeoFunction() -> a
    boolean isGeoFunctionable() -> aX
    void doRemove() -> e
    void registerMinMaxListener(geogebra.common.kernel.geos.GeoNumeric) -> a
    void unregisterMinMaxListener(geogebra.common.kernel.geos.GeoNumeric) -> b
    java.util.List getMinMaxListeners() -> b
    void setRandom(boolean) -> k
    boolean isRandom() -> af
    void updateRandom() -> d
    void updateRandomNoCascade() -> h
    double getRandom() -> b
    void update() -> q_
    void resolveMinMax() -> j
    boolean isAnimatable() -> K
    void setAnimating(boolean) -> t
    boolean doAnimationStep(double) -> a
    java.util.Comparator getComparator() -> a
    void updateRandomGeo() -> G
    int getMinimumLineThickness() -> v
    void setIntervalMin(double) -> c
    void setIntervalMax(double) -> f
    geogebra.common.kernel.geos.GeoElement getIntervalMinObject() -> d
    geogebra.common.kernel.geos.GeoElement getIntervalMaxObject() -> e
    boolean canHaveClickScript() -> O
    boolean isCasEvaluableObject() -> J
    void addEVSizeListener(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> a
    void removeEVSizeListener(geogebra.common.euclidian.EuclidianViewInterfaceSlim) -> b
    void moveDependencies(geogebra.common.kernel.geos.GeoElement) -> f
    boolean isLaTeXDrawableGeo() -> Q
    boolean hasLineOpacity() -> W
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    void setIntervalMinActive(boolean) -> a
    void setIntervalMaxActive(boolean) -> d
    boolean isPinnable() -> Z
    geogebra.common.kernel.arithmetic.ExpressionValue integral(geogebra.common.kernel.arithmetic.FunctionVariable) -> a
    geogebra.common.kernel.geos.GeoNumeric setSliderFromDefault(geogebra.common.kernel.geos.GeoNumeric,boolean) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
geogebra.common.kernel.geos.GeoNumeric$1 -> geogebra.common.l.j.Q:
    int compare(geogebra.common.kernel.geos.GeoNumberValue,geogebra.common.kernel.geos.GeoNumberValue) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.geos.GeoPenStroke -> geogebra.common.l.j.R:
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    boolean isPinnable() -> Z
    boolean isLabelVisible() -> ay
    boolean isLabelShowable() -> aA
geogebra.common.kernel.geos.GeoPoint -> geogebra.common.l.j.S:
    int pointSize -> a
    int pointStyle -> b
    double animationValue -> c
    geogebra.common.kernel.Path path -> a
    geogebra.common.kernel.PathParameter pathParameter -> a
    geogebra.common.kernel.Region region -> a
    geogebra.common.kernel.RegionParameters regionParameters -> a
    double x2D -> d
    double y2D -> e
    double inhomX -> a
    double inhomY -> b
    boolean isInfinite -> a
    boolean isDefined -> j
    boolean showUndefinedInAlgebraView -> k
    geogebra.common.kernel.prover.polynomial.Variable variableCoordinate1 -> a
    geogebra.common.kernel.prover.polynomial.Variable variableCoordinate2 -> b
    geogebra.common.kernel.prover.polynomial.Variable[] botanaVars -> a
    geogebra.common.kernel.LocateableList locateableList -> a
    java.util.ArrayList changeableCoordNumbers -> a
    boolean hasPolarParentNumbers -> l
    geogebra.common.kernel.PathParameter tempPathParameter -> b
    java.lang.StringBuilder sbToString -> a
    java.lang.StringBuilder sbBuildValueString -> b
    java.util.Comparator comparatorX -> a
    geogebra.common.kernel.Matrix.Coords coords2D -> a
    geogebra.common.kernel.Matrix.Coords inhomCoords3D -> b
    geogebra.common.kernel.Matrix.Coords inhomCoords2D -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix4x4 -> a
    geogebra.common.kernel.Matrix.Coords tmpCoords -> d
    java.util.ArrayList incidenceList -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    void setZero() -> d_
    geogebra.common.kernel.PathParameter getPathParameter() -> a
    geogebra.common.kernel.RegionParameters getRegionParameters() -> a
    int getRelatedModeID() -> f_
    java.lang.String getTypeString() -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void set(geogebra.common.kernel.kernelND.GeoPointND) -> d
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoPoint copy() -> a
    void setPointSize(int) -> e_
    int getPointSize() -> h_
    int getPointStyle() -> d_
    void setPointStyle(int) -> c_
    boolean isChangeable() -> y
    boolean isPointChangeable(geogebra.common.kernel.geos.GeoElement) -> e
    boolean moveFromChangeableCoordParentNumbers(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView) -> a
    boolean hasChangeableCoordParentNumbers() -> E
    java.util.ArrayList getCoordParentNumbers() -> d
    boolean hasPolarParentNumbers() -> X
    geogebra.common.kernel.arithmetic.NumberValue getCoordNumber(geogebra.common.kernel.arithmetic.ExpressionValue,boolean) -> a
    boolean isPointOnPath() -> g_
    boolean isAnimatable() -> K
    boolean hasPath() -> t
    geogebra.common.kernel.Path getPath() -> a
    void setPath(geogebra.common.kernel.Path) -> a
    void addToPathParameter(double) -> b
    boolean isInfinite() -> I
    boolean isFinite() -> H
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    boolean isDefined() -> a_
    void setUndefined() -> b
    boolean isFixable() -> L_
    void setCoords2D(double,double,double) -> b
    void setCoords(double,double,double) -> a
    void setUndefinedCoords() -> w_
    void setCoords(geogebra.common.kernel.Matrix.Coords,boolean) -> a
    geogebra.common.kernel.PathParameter getTempPathparameter() -> b
    void updateCoords() -> c
    void setCoords(geogebra.common.kernel.geos.GeoVec3D) -> a
    void setCoords(geogebra.common.kernel.geos.GeoVec2D) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement,double) -> a
    boolean isEqualPointND(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isEqualPoint2D(geogebra.common.kernel.geos.GeoPoint) -> a
    void getInhomCoords(double[]) -> a
    double getInhomX() -> f
    double getInhomY() -> g
    double getInhomZ() -> h
    double[] vectorTo(geogebra.common.kernel.kernelND.GeoPointND) -> a
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    double distance(double,double) -> a
    boolean samePosition(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    double distanceSqr(geogebra.common.kernel.geos.GeoPoint) -> b
    boolean collinear(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    double det(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    double affineRatio(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void dilate(double) -> c
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> b
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.geos.GeoConic) -> a
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void addEqualSignToString(java.lang.StringBuilder,int,int) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toValueStringMinimal(geogebra.common.kernel.StringTemplate) -> s
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    void buildValueStringCoordCartesian3D(geogebra.common.kernel.Kernel,geogebra.common.kernel.StringTemplate,double,double,double,java.lang.StringBuilder) -> a
    java.lang.String buildValueStringSeparator(geogebra.common.kernel.Kernel,geogebra.common.kernel.StringTemplate) -> a
    void buildValueStringCoordSpherical(geogebra.common.kernel.Kernel,geogebra.common.kernel.StringTemplate,double,double,double,java.lang.StringBuilder) -> b
    void buildValueString(geogebra.common.kernel.Kernel,geogebra.common.kernel.StringTemplate,int,double,double,java.lang.StringBuilder) -> a
    geogebra.common.kernel.geos.GeoVec2D getVector() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    java.lang.String getStartPointXML() -> c
    boolean isAbsoluteStartPoint() -> F
    boolean isNumberValue() -> A_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    void update() -> q_
    geogebra.common.kernel.LocateableList getLocateableList() -> a
    void doRemove() -> e
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    boolean isGeoPoint() -> D
    void showUndefinedInAlgebraView(boolean) -> c
    java.util.Comparator getComparatorX() -> a
    boolean isPointInRegion() -> A
    boolean hasRegion() -> z
    geogebra.common.kernel.Region getRegion() -> a
    void setRegion(geogebra.common.kernel.Region) -> a
    void updateCoords2D() -> h
    double getX2D() -> i
    double getY2D() -> j
    void updateCoordsFrom2D(boolean,geogebra.common.kernel.Matrix.CoordSys) -> a
    void updateCoordsFrom2D(boolean) -> d_
    geogebra.common.kernel.Matrix.Coords getInhomCoords() -> c
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD(int) -> a
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD3() -> e
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD2() -> d
    geogebra.common.kernel.Matrix.Coords getCoordsInD2(geogebra.common.kernel.Matrix.CoordSys) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInD2() -> f
    geogebra.common.kernel.Matrix.Coords getCoordsInD3() -> g
    geogebra.common.kernel.Matrix.Coords getCoordsInD(int) -> b
    boolean isMatrixTransformable() -> y_
    void matrixTransform(double,double,double,double) -> a
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND,double,double,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean isClosedPath() -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
    double getAnimationValue() -> k
    void setAnimationValue(double) -> a
    boolean doAnimationStep(double,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.Path) -> a
    boolean doAnimationStep(double) -> a
    int getMoveMode() -> e_
    boolean isCasEvaluableObject() -> J
    boolean isFixed() -> av
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void removePath() -> i
    void setCoords(double,double,double,double) -> b
    void moveDependencies(geogebra.common.kernel.geos.GeoElement) -> f
    java.util.ArrayList getIncidenceList() -> a
    void setIncidenceList(java.util.ArrayList) -> b
    void createIncidenceList() -> j
    void addIncidence(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void removeIncidence(geogebra.common.kernel.geos.GeoElement) -> c
    void setParentAlgorithm(geogebra.common.kernel.algos.AlgoElement) -> a
    boolean movePoint(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void setX(double) -> f
    void setY(double) -> g
    void updateColumnHeadingsForTraceValues() -> l
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    java.lang.String getTraceDialogAsValues() -> d
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    int getDimension() -> f
    double distanceToPath(geogebra.common.kernel.PathOrPoint) -> a
    boolean hasLocateableList() -> G
    void setLocateableList(geogebra.common.kernel.LocateableList) -> a
    void setCoordsFromPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void set(double,double,geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.kernelND.GeoPointND copy() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.geos.GeoPoint$1 -> geogebra.common.l.j.T:
    int compare(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.geos.GeoPoly -> geogebra.common.l.j.U:
    boolean isAllVertexLabelsSet() -> t
    boolean isVertexCountFixed() -> e_
    geogebra.common.kernel.kernelND.GeoPointND[] getPoints() -> a
    geogebra.common.kernel.geos.GeoPoint getPoint(int) -> a
    void toGeoCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.Path getBoundary() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getPointsND() -> b
geogebra.common.kernel.geos.GeoPolyLine -> geogebra.common.l.j.V:
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    double length -> a
    boolean defined -> a
    java.lang.StringBuilder sbToString -> a
    geogebra.common.kernel.geos.GeoSegment seg -> a
    boolean trace -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    int getNumPoints() -> b
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isFillable() -> v
    boolean isDefined() -> a_
    void setDefined() -> d
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getLength() -> c
    double getDouble() -> h
    boolean showInEuclidianView() -> c_
    boolean isNumberValue() -> A_
    boolean isGeoPolygon() -> bc
    boolean isGeoPolyLine() -> aQ
    boolean isPath() -> d_
    geogebra.common.kernel.PathMover createPathMover() -> a
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setSegmentPoints(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.kernelND.GeoPointND[] getPoints() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getPointsND() -> b
    geogebra.common.kernel.kernelND.GeoPointND getPointND(int) -> a
    void calcLength() -> c
    void setPoints(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void matrixTransform(double,double,double,double) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean isAllVertexLabelsSet() -> t
    boolean isVertexCountFixed() -> e_
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    boolean hasLineOpacity() -> W
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    geogebra.common.kernel.geos.GeoPoint getPoint(int) -> a
    void toGeoCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    geogebra.common.kernel.Path getBoundary() -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.kernel.geos.GeoPolygon -> geogebra.common.l.j.W:
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.kernelND.GeoSegmentND[] segments -> a
    geogebra.common.kernel.geos.GeoPoint p0 -> a
    geogebra.common.kernel.geos.GeoPoint p1 -> b
    geogebra.common.kernel.geos.GeoPoint p2 -> c
    int numCS -> a
    double area -> a
    boolean defined -> j
    boolean initLabelsCalled -> a
    boolean createSegments -> k
    boolean isIntersection -> b
    boolean notFixedPointsLength -> l
    java.util.ArrayList segmentsArray -> a
    java.util.ArrayList pointsArray -> b
    java.lang.StringBuilder sbToString -> a
    boolean asBoundary -> m
    boolean trace -> n
    int convexOrientation -> b
    geogebra.common.kernel.Matrix.Coords labelPosition -> a
    geogebra.common.kernel.geos.ChangeableCoordParent changeableCoordParent -> a
    double[] tmp3 -> a
    java.util.TreeSet metas -> a
    boolean reverseNormalForDrawing -> o
    void setCoordSys(geogebra.common.kernel.Matrix.CoordSys) -> a
    void setCoordSys(geogebra.common.kernel.geos.GeoPolygon) -> a
    void setCoordSysAndPoints3D(geogebra.common.kernel.geos.GeoPolygon) -> b
    void setNotFixedPointsLength(boolean) -> f
    java.lang.String getTypeString() -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void setPoints(geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    void setPoints(geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.Matrix.CoordSys,boolean) -> a
    int getPointsLength() -> b
    double getPointX(int) -> a
    double getPointY(int) -> b
    void initLabels(java.lang.String[]) -> a
    boolean wasInitLabelsCalled() -> X
    void defaultSegmentLabels() -> d
    void setLabel(geogebra.common.kernel.kernelND.GeoSegmentND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void updateSegments() -> j
    geogebra.common.kernel.kernelND.GeoSegmentND createSegment(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND createSegment(geogebra.common.kernel.kernelND.GeoSegmentND,boolean) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void copyInternal(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoPolygon) -> a
    geogebra.common.kernel.geos.GeoPolygon newGeoPolygon(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setPointsAndSegments(geogebra.common.kernel.kernelND.GeoPointND[]) -> b
    void setPointsAndSegmentsLength(int) -> c
    void setPointsLength(int,geogebra.common.kernel.kernelND.GeoPointND[]) -> a
    geogebra.common.kernel.geos.GeoPoint getPoint(int) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getPoints() -> a
    void setPoints2D(geogebra.common.kernel.geos.GeoPoint[]) -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getPointsND() -> b
    geogebra.common.kernel.kernelND.GeoPointND getPointND(int) -> a
    geogebra.common.kernel.kernelND.GeoSegmentND[] getSegments() -> a
    void setSegments(geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    boolean isFillable() -> v
    boolean isInverseFillable() -> V
    void setArea(double) -> a
    double getArea() -> c
    geogebra.common.kernel.Path getBoundary() -> a
    double getAreaWithSign() -> d
    boolean isDefined() -> a_
    void setDefined() -> m
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean hasLineOpacity() -> W
    void setLineOpacity(int) -> s
    void setLineOpacity(int,boolean) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setEuclidianVisible(boolean) -> b
    void setEuclidianVisible(boolean,boolean) -> a
    void setObjColor(geogebra.common.awt.GColor) -> a
    void setLineType(int) -> b
    void setLineType(int,boolean) -> b
    void setLineTypeHidden(int) -> b_
    void setLineTypeHidden(int,boolean) -> d
    void setLineThickness(int) -> a
    void setLineThickness(int,boolean) -> e
    void setLineThicknessOrVisibility(int) -> a_
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean showInEuclidianView() -> c_
    boolean isNumberValue() -> A_
    boolean isGeoPolygon() -> bc
    boolean isPath() -> d_
    geogebra.common.kernel.PathMover createPathMover() -> a
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isRegion() -> x_
    boolean isInRegion(geogebra.common.kernel.kernelND.GeoPointND,boolean) -> a
    boolean isInRegion(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isInRegion(double,double) -> a
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    void setRegionChanged(geogebra.common.kernel.kernelND.GeoPointND,double,double) -> a
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    void updateRegionCS(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void updateRegionCSWithFirstPoints() -> o
    void updateRegionCS() -> p
    int intersectOx(double,double,double,double) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    int getMinimumLineThickness() -> v
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    geogebra.common.kernel.Matrix.Coords getPoint3D(int) -> a
    boolean isPartOfClosedSurface() -> I_
    boolean isConvex() -> aa
    boolean isConvexInverseDirection() -> F
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a_
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    void setChangeableCoordParent(geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoElement) -> a
    boolean hasChangeableCoordParentNumbers() -> E
    void recordChangeableCoordParentNumbers() -> E
    boolean moveFromChangeableCoordParentNumbers(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void matrixTransform(double,double,double,double) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void updatePathRegion() -> h
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    boolean isAllVertexLabelsSet() -> t
    boolean isVertexCountFixed() -> e_
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void calcArea() -> q
    void calcCentroid(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void toGeoCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    java.lang.String getDefaultLabel(char[],boolean) -> a
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND[]) -> c
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    int getMetasLength() -> g_
    geogebra.common.kernel.geos.GeoElement[] getMetas() -> a
    void addMeta(geogebra.common.kernel.geos.GeoElement) -> d
    void removeMeta(geogebra.common.kernel.geos.GeoElement) -> e
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    void setReverseNormalForDrawing(boolean) -> g
    boolean getReverseNormalForDrawing() -> ab
    void setPointSizeOrVisibility(int) -> g
    void setPointSize(int) -> i
    void setPointNotVisibile() -> i
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
geogebra.common.kernel.geos.GeoRay -> geogebra.common.l.j.X:
    boolean allowOutlyingIntersections -> a
    boolean keepTypeOnGeometricTransform -> j
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean allowOutlyingIntersections() -> C
    void setAllowOutlyingIntersections(boolean) -> c
    boolean keepsTypeOnGeometricTransform() -> F
    void setKeepTypeOnGeometricTransform(boolean) -> d
    boolean isLimitedPath() -> D_
    boolean isIntersectionPointIncident(geogebra.common.kernel.geos.GeoPoint,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.geos.GeoElement[] createTransformedObject(geogebra.common.kernel.Transform,java.lang.String) -> a
    boolean isGeoRay() -> G_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isOnPath(geogebra.common.kernel.Matrix.Coords,double) -> b
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    boolean isAllEndpointsLabelsSet() -> G
    boolean respectLimitedPath(double) -> a
    geogebra.common.kernel.geos.GeoElement copyFreeRay() -> c
geogebra.common.kernel.geos.GeoScriptAction -> geogebra.common.l.j.Y:
    geogebra.common.kernel.commands.CmdScripting action -> a
    geogebra.common.kernel.arithmetic.Command command -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void perform() -> d
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.kernel.geos.GeoSegment -> geogebra.common.l.j.Z:
    double length -> a
    boolean defined -> a
    boolean allowOutlyingIntersections -> j
    boolean keepTypeOnGeometricTransform -> k
    java.lang.StringBuilder sbToString -> a
    boolean forceSimpleTransform -> l
    geogebra.common.kernel.geos.GeoElement meta -> a
    java.lang.Integer[] getDecoTypes() -> a
    void setDecorationType(int) -> f
    void setPoints(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void setTwoPointsInhomCoords(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void calcLength() -> h
    double getLength() -> d
    boolean isDefined() -> a_
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEqual(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.arithmetic.MyDouble getNumber() -> a
    double getDouble() -> h
    boolean isConstant() -> k_
    boolean isNumberValue() -> A_
    boolean allowOutlyingIntersections() -> C
    void setAllowOutlyingIntersections(boolean) -> c
    boolean keepsTypeOnGeometricTransform() -> F
    void setKeepTypeOnGeometricTransform(boolean) -> d
    boolean isLimitedPath() -> D_
    boolean isIntersectionPointIncident(geogebra.common.kernel.geos.GeoPoint,double) -> a
    geogebra.common.kernel.geos.GeoElement getStartPointAsGeoElement() -> c
    geogebra.common.kernel.geos.GeoElement getEndPointAsGeoElement() -> d
    double getPointX(double) -> a_
    double getPointY(double) -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.geos.GeoElement[] createTransformedObject(geogebra.common.kernel.Transform,java.lang.String) -> a
    boolean isGeoSegment() -> L
    void setZero() -> d_
    boolean hasDrawable3D() -> p
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    double getParameter(double,double) -> b
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    double distance(double,double) -> a
    boolean isOnPath(geogebra.common.kernel.Matrix.Coords,double) -> b
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    boolean checkOnPath(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,boolean,double) -> a
    boolean isAllEndpointsLabelsSet() -> G
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    int getMetasLength() -> g_
    geogebra.common.kernel.geos.GeoElement[] getMetas() -> a
    void setFromMeta(geogebra.common.kernel.geos.GeoElement) -> d
    boolean respectLimitedPath(double) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void matrixTransform(double,double,double,double) -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    void setCoords(geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint) -> a
    geogebra.common.kernel.geos.GeoElement copyFreeSegment() -> e
geogebra.common.kernel.geos.GeoSurfaceFinite -> geogebra.common.l.j.aa:
geogebra.common.kernel.geos.GeoText -> geogebra.common.l.j.ab:
    java.lang.String str -> c
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    boolean isLaTeXorMathML -> j
    boolean isMathML -> k
    geogebra.common.awt.GRectangle2D boundingBox -> a
    boolean needsUpdatedBoundingBox -> l
    boolean serifFont -> m
    int fontStyle -> a
    double fontSizeD -> a
    int printDecimals -> b
    int printFigures -> m
    boolean useSignificantFigures -> n
    boolean hasAbsoluteScreenLocation -> o
    java.lang.StringBuilder sbToString -> a
    boolean isTextCommand -> a
    boolean alwaysFixed -> b
    geogebra.common.kernel.StringTemplate tpl -> a
    geogebra.common.kernel.geos.GeoText linkedText -> a
    java.util.Comparator comparator -> a
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase spreadsheetTraceableCase -> a
    geogebra.common.kernel.arithmetic.ExpressionValue spreadsheetTraceableValue -> a
    geogebra.common.kernel.arithmetic.ExpressionNode spreadsheetTraceableLeftTree -> a
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum traceModes -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoText$SpreadsheetTraceableCase -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void setTextString(java.lang.String) -> a
    java.lang.String getTextString() -> e
    void initStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> b
    void removeStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> d_
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> e_
    void doRemove() -> e
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getStartPoints() -> a
    boolean hasAbsoluteLocation() -> K_
    void setWaitForStartPoint() -> d
    void update() -> q_
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    int getRelatedModeID() -> f_
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isMoveable() -> w
    void setIsTextCommand(boolean) -> d
    boolean isTextCommand() -> bm
    boolean isLaTeXTextCommand() -> ab
    void setAlgoMacroOutput(boolean) -> y
    void addTextDescendant(geogebra.common.kernel.geos.GeoText) -> a
    void setAlwaysFixed(boolean) -> f
    boolean isFixable() -> L_
    boolean isNumberValue() -> A_
    boolean evaluatesToText() -> V_
    boolean isGeoText() -> bd
    geogebra.common.kernel.arithmetic.MyStringBuffer getText() -> a
    void getXML(boolean,java.lang.StringBuilder) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    java.lang.String getXMLlocation() -> f
    void setAllVisualPropertiesExceptEuclidianVisible(geogebra.common.kernel.geos.GeoElement,boolean) -> a_
    void setSameLocation(geogebra.common.kernel.geos.GeoText) -> b
    boolean isLaTeX() -> aa
    void setLaTeX(boolean,boolean) -> a
    void setFormulaType(geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType) -> a
    void setAbsoluteScreenLoc(int,int) -> a
    int getAbsoluteScreenLocX() -> e
    int getAbsoluteScreenLocY() -> f
    double getRealWorldLocX() -> c
    double getRealWorldLocY() -> d
    void setRealWorldLoc(double,double) -> a
    void setAbsoluteScreenLocActive(boolean) -> c
    boolean isAbsoluteScreenLocActive() -> n
    boolean isAbsoluteScreenLocateable() -> o
    double getFontSizeMultiplier() -> b
    double getRelativeFontSize(int) -> a
    int getFontSizeIndex(double) -> a
    void setFontSizeMultiplier(double) -> a
    int getFontStyle() -> b
    void setFontStyle(int) -> c
    int getPrintDecimals() -> i_
    int getPrintFigures() -> k
    void setPrintDecimals(int,boolean) -> a
    void setPrintFigures(int,boolean) -> b
    void updateTemplateAlgos(geogebra.common.kernel.algos.AlgoElement) -> f
    boolean useSignificantFigures() -> S_
    boolean isSerifFont() -> R_
    void setSerifFont(boolean) -> a
    void calculateCornerPoint(geogebra.common.kernel.geos.GeoPoint,int) -> a
    geogebra.common.awt.GRectangle2D getBoundingBox() -> a
    void setBoundingBox(double,double,double,double) -> a
    boolean isNeedsUpdatedBoundingBox() -> ac
    void setNeedsUpdatedBoundingBox(boolean) -> g
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setZero() -> d_
    java.util.Comparator getComparator() -> a
    void updateTemplate() -> i
    boolean isAlwaysFixed() -> P
    boolean isAuxiliaryObjectByDefault() -> ax
    boolean justFontSize() -> X
    boolean isRedefineable() -> aH
    boolean isLaTeXDrawableGeo() -> Q
    boolean hasDrawable3D() -> p
    boolean hasBackgroundColor() -> Y
    geogebra.common.kernel.StringTemplate getStringTemplate() -> a
    void setSpreadsheetTraceable(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void initSpreadsheetTraceableCase() -> h
    boolean isSpreadsheetTraceable() -> bk
    void updateColumnHeadingsForTraceValues() -> l
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    void appendFontTag(java.lang.StringBuilder,boolean,double,int,boolean,geogebra.common.main.App) -> a
    boolean isPinnable() -> Z
    void updateLocation() -> g
    void updateVisualStyle() -> u_
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoText$SpreadsheetTraceableCase() -> a
geogebra.common.kernel.geos.GeoText$1 -> geogebra.common.l.j.ac:
    int compare(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.geos.GeoText) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase -> geogebra.common.l.j.ab$a:
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase SPREADSHEET_TRACEABLE_NOT_TESTED -> a
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase SPREADSHEET_TRACEABLE_TRUE -> b
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase SPREADSHEET_TRACEABLE_FALSE -> c
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase[] ENUM$VALUES -> a
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase[] values() -> values
    geogebra.common.kernel.geos.GeoText$SpreadsheetTraceableCase valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.geos.GeoTextField -> geogebra.common.l.j.ad:
    int defaultLength -> a
    int length -> b
    geogebra.common.kernel.geos.GeoElement linkedGeo -> a
    java.lang.String text -> c
    geogebra.common.gui.inputfield.AutoCompleteTextField textField -> a
    geogebra.common.gui.inputfield.AutoCompleteTextField textField2 -> b
    int printDecimals -> m
    int printFigures -> n
    boolean useSignificantFigures -> a
    geogebra.common.kernel.StringTemplate tpl -> a
    boolean isChangeable() -> y
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void setLinkedGeo(geogebra.common.kernel.geos.GeoElement) -> d
    geogebra.common.kernel.geos.GeoElement getLinkedGeo() -> c
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    void setText(java.lang.String) -> a
    java.lang.String getText() -> e
    boolean isGeoTextField() -> aL
    void setLength(int) -> t
    int getLength() -> A
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void updateLinkedGeo(java.lang.String) -> b
    void updateText(geogebra.common.util.TextObject) -> a
    void textObjectUpdated(geogebra.common.util.TextObject) -> b
    void textSubmitted() -> d
    geogebra.common.gui.inputfield.AutoCompleteTextField getTextField(int,geogebra.common.euclidian.draw.DrawTextField) -> a
    void setSelected(boolean) -> v
    void updateTemplate() -> h
    int getPrintDecimals() -> i_
    int getPrintFigures() -> k
    void setPrintDecimals(int,boolean) -> a
    void setPrintFigures(int,boolean) -> b
    boolean useSignificantFigures() -> S_
    void setBackgroundColor(geogebra.common.awt.GColor) -> d
    boolean isFixed() -> av
geogebra.common.kernel.geos.GeoTransferFunction -> geogebra.common.l.j.ae:
    boolean isDefined -> a
    geogebra.common.kernel.arithmetic.Function originalFunction -> a
    geogebra.common.kernel.arithmetic.Function currentFunction -> b
    geogebra.common.kernel.arithmetic.Traversing t -> a
    geogebra.common.kernel.arithmetic.ExpressionNode exp -> a
    int omegaStart -> a
    java.util.List coordsList -> a
    geogebra.common.kernel.geos.GeoVec2D v -> a
    double step -> a
    void evaluate() -> d
    java.util.List getCoordsList() -> b
    int getOmega() -> b
    geogebra.common.kernel.arithmetic.Function getFunction() -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.Matrix.Coords evaluate(double) -> a
    java.lang.String getLaTeXAlgebraDescription(boolean,geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isLaTeXDrawableGeo() -> Q
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.kernel.geos.GeoTurtle -> geogebra.common.l.j.af:
    boolean defined -> j
    java.util.ArrayList turtleImageList -> a
    java.util.ArrayList cmdList -> b
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    double[] position -> a
    geogebra.common.awt.GColor penColor -> f
    int penThickness -> a
    boolean penDown -> a
    double turnAngle -> c
    double sinAngle -> d
    double cosAngle -> e
    int turtleImageIndex -> b
    int nCompletedCommands -> m
    double currentCommandProgress -> i
    double speed -> j
    boolean autoUpdate -> k
    geogebra.common.awt.MyImage turtleImage -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    geogebra.common.kernel.geos.GeoPoint copy() -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    java.util.ArrayList getTurtleCommandList() -> e
    geogebra.common.awt.GColor getPenColor() -> a
    boolean getPenDown() -> aa
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> b
    double getSpeed() -> c
    int getNumberOfCompletedCommands() -> e
    double getCurrentCommandProgress() -> d
    boolean doStepTurtle(double) -> b
    void forward(double) -> h
    void setCoords(double,double) -> a
    void turn(double) -> i
    void setPenDown(boolean) -> d
    void doUpdate() -> J
    boolean isGeoTurtle() -> aZ
    boolean isDefined() -> a_
    void setUndefined() -> b
    boolean isAnimatable() -> K
    boolean doAnimationStep(double) -> a
    void addCommand(geogebra.common.kernel.geos.GeoTurtle$Command) -> a
    boolean isFillable() -> v
    geogebra.common.kernel.geos.GeoElement$FillType getFillType() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    geogebra.common.kernel.kernelND.GeoPointND copy() -> a
geogebra.common.kernel.geos.GeoTurtle$CmdForward -> geogebra.common.l.j.af$a:
    double length -> a
    double time -> b
    geogebra.common.kernel.geos.GeoPoint destination -> a
    geogebra.common.kernel.geos.GeoTurtle this$0 -> a
    double getTime() -> a
    void perform() -> a
    void draw(geogebra.common.kernel.geos.GeoTurtle$DrawState) -> a
    void partialDraw(geogebra.common.kernel.geos.GeoTurtle$DrawState,double) -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.geos.GeoTurtle$CmdSetCoords -> geogebra.common.l.j.af$b:
    double destX -> a
    double destY -> b
    geogebra.common.kernel.geos.GeoPoint destination -> a
    geogebra.common.kernel.geos.GeoTurtle this$0 -> a
    double getTime() -> a
    void perform() -> a
    void draw(geogebra.common.kernel.geos.GeoTurtle$DrawState) -> a
    void partialDraw(geogebra.common.kernel.geos.GeoTurtle$DrawState,double) -> a
geogebra.common.kernel.geos.GeoTurtle$CmdSetPen -> geogebra.common.l.j.af$c:
    boolean down -> a
    geogebra.common.kernel.geos.GeoTurtle this$0 -> a
    double getTime() -> a
    void perform() -> a
    void draw(geogebra.common.kernel.geos.GeoTurtle$DrawState) -> a
    void partialDraw(geogebra.common.kernel.geos.GeoTurtle$DrawState,double) -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.geos.GeoTurtle$CmdTurn -> geogebra.common.l.j.af$d:
    double degAngle -> a
    double angle -> b
    double time -> c
    geogebra.common.kernel.geos.GeoTurtle this$0 -> a
    double getTime() -> a
    void perform() -> a
    void draw(geogebra.common.kernel.geos.GeoTurtle$DrawState) -> a
    void partialDraw(geogebra.common.kernel.geos.GeoTurtle$DrawState,double) -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.geos.GeoTurtle$Command -> geogebra.common.l.j.af$e:
    double getTime() -> a
    void perform() -> a
    void draw(geogebra.common.kernel.geos.GeoTurtle$DrawState) -> a
    void partialDraw(geogebra.common.kernel.geos.GeoTurtle$DrawState,double) -> a
geogebra.common.kernel.geos.GeoTurtle$DrawState -> geogebra.common.l.j.af$f:
    void setPen(boolean) -> a
    void move(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void turn(double) -> a
    void partialMove(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void partialTurn(double,double) -> a
geogebra.common.kernel.geos.GeoUserInputElement -> geogebra.common.l.j.ag:
    geogebra.common.kernel.arithmetic.ValidExpression userInput -> a
    boolean inputForm -> a
    boolean validInputForm -> b
    void setInputForm() -> d
    void setExtendedForm() -> h
    boolean isInputForm() -> X
    void setUserInput(geogebra.common.kernel.arithmetic.ValidExpression) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    java.lang.String toRawValueString(geogebra.common.kernel.StringTemplate) -> f
    void setValidInputForm(boolean) -> c
    boolean isValidInputForm() -> aa
geogebra.common.kernel.geos.GeoVec2D -> geogebra.common.l.j.ah:
    double x -> a
    double y -> b
    int mode -> a
    geogebra.common.kernel.Kernel kernel -> a
    java.lang.StringBuilder sbToString -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    boolean isImaginaryUnit() -> i
    geogebra.common.kernel.arithmetic.ExpressionValue deepCopy(geogebra.common.kernel.Kernel) -> a
    void resolveVariables() -> c_
    void setX(double) -> a
    void setY(double) -> b
    void setCoords(double,double) -> a
    void setCoords(geogebra.common.kernel.geos.GeoVec2D) -> a
    double getX() -> g_
    double getY() -> b
    double[] getCoords() -> a
    double length() -> d
    void makeUnitVector() -> b
    double inner(geogebra.common.kernel.geos.GeoVec2D) -> a
    boolean isEqual(geogebra.common.kernel.geos.GeoVec2D) -> a
    void rotate(double) -> c
    void mirror(geogebra.common.kernel.Matrix.Coords) -> a
    void mirror(double) -> d
    void add(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> a
    void add(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoVec2D) -> a
    void add(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.arithmetic.ListValue,geogebra.common.kernel.geos.GeoVec2D) -> a
    void sub(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.arithmetic.ListValue,geogebra.common.kernel.geos.GeoVec2D,boolean) -> a
    void sub(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> a
    void sub(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoVec2D) -> b
    void sub(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> b
    void mult(double) -> e
    void mult(geogebra.common.kernel.geos.GeoVec2D,double,geogebra.common.kernel.geos.GeoVec2D) -> a
    void complexDivide(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> c
    void complexDivide(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> b
    void complexMultiply(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> d
    void complexPower(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoVec2D) -> c
    void complexSqrt(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> a
    void complexSin(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> b
    void complexCos(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> c
    void complexTan(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> d
    void complexSinh(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> e
    void complexCosh(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> f
    void complexTanh(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> g
    void complexSec(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> h
    void complexCsc(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> i
    void complexCot(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> j
    void complexSech(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> k
    void complexCsch(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> l
    void complexCoth(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> m
    void complexZeta(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> n
    void complexCbrt(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> o
    void complexConjugate(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> p
    double arg(geogebra.common.kernel.geos.GeoVec2D) -> b
    void complexPower(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> c
    void complexExp(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> q
    void complexLog(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> r
    double complexAbs(geogebra.common.kernel.geos.GeoVec2D) -> c
    void complexPower(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D) -> e
    void vectorProduct(geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void inner(geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.geos.GeoVec2D,geogebra.common.kernel.arithmetic.MyDouble) -> a
    void div(geogebra.common.kernel.geos.GeoVec2D,double,geogebra.common.kernel.geos.GeoVec2D) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoVec2D getVector() -> a
    boolean isConstant() -> k_
    boolean isLeaf() -> l_
    int getMode() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluate(geogebra.common.kernel.StringTemplate) -> a
    java.util.HashSet getVariables() -> a
    void setMode(int) -> g
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isNumberValue() -> A_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean contains(geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void multiplyMatrix(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.kernelND.GeoVecInterface,geogebra.common.kernel.geos.GeoVec2D) -> a
    void multiplyMatrixLeft(geogebra.common.kernel.arithmetic.MyList) -> a
    void matrixTransform(double,double,double,double) -> a
    void multiplyMatrixAffine(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    java.lang.String toOutputValueString(geogebra.common.kernel.StringTemplate) -> c
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    boolean hasCoords() -> M
    double getZ() -> c
    geogebra.common.kernel.geos.GeoVec2D round() -> b
    geogebra.common.kernel.geos.GeoVec2D floor() -> c
    geogebra.common.kernel.geos.GeoVec2D ceil() -> d
    geogebra.common.kernel.arithmetic.ExpressionNode wrap() -> a
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.geos.GeoVec3D -> geogebra.common.l.j.ai:
    double x -> f
    double y -> g
    double z -> h
    boolean trace -> a
    boolean hasUpdatePrevilege -> b
    java.lang.StringBuilder sbToString -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    void setUndefinedCoords() -> w_
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setCoords(double,double,double) -> a
    double getX() -> e
    double getY() -> l
    double getZ() -> p
    void getCoords(double[]) -> d
    geogebra.common.kernel.Matrix.Coords getCoords() -> k
    void getInhomCoords(double[]) -> a
    boolean isPolar() -> ab
    int getMode() -> a
    void setMode(int) -> g
    void setPolar() -> p
    void setCartesian() -> m
    void setComplex() -> q
    void setCartesian3D() -> n
    void setSpherical() -> o
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    boolean linDep(geogebra.common.kernel.geos.GeoVec3D) -> a
    boolean isZero() -> ac
    void cross(geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoVec3D) -> a
    geogebra.common.kernel.Matrix.Coords cross(geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoVec3D) -> a
    void lineThroughPoints(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoLine) -> a
    void lineThroughPointVector(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoVec3D,geogebra.common.kernel.geos.GeoLine) -> a
    void cross(geogebra.common.kernel.geos.GeoVec3D,double,double,double,geogebra.common.kernel.geos.GeoVec3D) -> a
    void cross(double,double,double,double,double,double,geogebra.common.kernel.geos.GeoVec3D) -> a
    void cross(double[],double[],double[]) -> a
    void changeSign() -> r
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    void getXMLtagsMinimal(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> a
    boolean isNumberValue() -> A_
    void setZero() -> d_
    void rotateXY(geogebra.common.kernel.arithmetic.NumberValue) -> d
    void mirrorXY(double) -> j
    boolean hasCoords() -> M
geogebra.common.kernel.geos.GeoVector -> geogebra.common.l.j.aj:
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    geogebra.common.kernel.geos.GeoSegment pathSegment -> a
    geogebra.common.kernel.geos.GeoPoint pathStartPoint -> a
    geogebra.common.kernel.geos.GeoPoint pathEndPoint -> b
    boolean waitingForStartPoint -> a
    java.util.HashSet waitingPointSet -> a
    java.lang.StringBuilder sbToString -> a
    java.lang.StringBuilder sbBuildValueString -> b
    java.lang.StringBuilder sb -> c
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    boolean isCasEvaluableObject() -> J
    void setCoords(double,double,double) -> a
    void setCoords(double[]) -> b
    void setCoords(geogebra.common.kernel.geos.GeoVec3D) -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.kernel.geos.GeoVec2D getInhomVec() -> b
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND[] getStartPoints() -> a
    boolean hasAbsoluteLocation() -> K_
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> b
    void initStartPoint(geogebra.common.kernel.kernelND.GeoPointND,int) -> a
    void removeStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> d_
    void setStartPoint(geogebra.common.kernel.kernelND.GeoPointND) -> e_
    void setWaitForStartPoint() -> d
    void doRemove() -> e
    boolean isFinite() -> F
    boolean isInfinite() -> I
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    void matrixTransform(double,double,double,double) -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.geos.GeoVec2D getVector() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isNumberValue() -> A_
    boolean evaluatesToNonComplex2DVector() -> e
    boolean evaluatesToVectorNotPoint() -> N
    boolean isClosedPath() -> b
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    boolean isPath() -> d_
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    geogebra.common.kernel.PathMover createPathMover() -> a
    void initPathSegment() -> h
    void updatePathSegment() -> i
    boolean isGeoVector() -> H_
    boolean isAlwaysFixed() -> P
    boolean isMatrixTransformable() -> y_
    void buildLatexValueStringCoordCartesian3D(geogebra.common.kernel.Kernel,geogebra.common.kernel.StringTemplate,double,double,double,java.lang.StringBuilder,geogebra.common.kernel.kernelND.GeoVectorND,boolean) -> a
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String buildLatexString(geogebra.common.kernel.Kernel,java.lang.StringBuilder,boolean,geogebra.common.kernel.StringTemplate,int,double,double,geogebra.common.kernel.kernelND.GeoVectorND) -> a
    geogebra.common.kernel.Matrix.Coords getCoordsInD3() -> c
    boolean hasDrawable3D() -> p
    void updateStartPointPosition() -> c
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
    void matrixTransform(double,double,double,double,double,double,double,double,double) -> a
    boolean isLaTeXDrawableGeo() -> Q
    void updateColumnHeadingsForTraceValues() -> l
    geogebra.common.kernel.geos.GeoElement$TraceModesEnum getTraceModes() -> a
    java.lang.String getTraceDialogAsValues() -> d
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Variable[] getBotanaVars(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getBotanaPolynomials(geogebra.common.kernel.geos.GeoElement) -> a
    void updateLocation() -> g
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    geogebra.common.kernel.kernelND.GeoVecInterface getVector() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.geos.InequalityProperties -> geogebra.common.l.j.ak:
    void setShowOnAxis(boolean) -> f_
    boolean showOnAxis() -> ad
geogebra.common.kernel.geos.LabelManager -> geogebra.common.l.j.al:
    boolean checkName(geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    boolean validVar(java.lang.String) -> a
geogebra.common.kernel.geos.LimitedPath -> geogebra.common.l.j.am:
    boolean allowOutlyingIntersections() -> C
    void setAllowOutlyingIntersections(boolean) -> c
    boolean keepsTypeOnGeometricTransform() -> F
    void setKeepTypeOnGeometricTransform(boolean) -> d
    geogebra.common.kernel.geos.GeoElement[] createTransformedObject(geogebra.common.kernel.Transform,java.lang.String) -> a
    boolean isAllEndpointsLabelsSet() -> G
geogebra.common.kernel.geos.Mirrorable -> geogebra.common.l.j.an:
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
geogebra.common.kernel.geos.ParametricCurve -> geogebra.common.l.j.ao:
    geogebra.common.kernel.roots.RealRootFunction getRealRootFunctionX() -> a
    geogebra.common.kernel.roots.RealRootFunction getRealRootFunctionY() -> b
    geogebra.common.kernel.geos.GeoVec2D evaluateCurve(double) -> a
geogebra.common.kernel.geos.PointProperties -> geogebra.common.l.j.ap:
    void setPointSize(int) -> e_
    int getPointSize() -> h_
    void setPointStyle(int) -> c_
    int getPointStyle() -> d_
    void updateRepaint() -> C
geogebra.common.kernel.geos.PointRotateable -> geogebra.common.l.j.aq:
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
geogebra.common.kernel.geos.Rotateable -> geogebra.common.l.j.ar:
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.geos.SpreadsheetTraceable -> geogebra.common.l.j.as:
    void addToSpreadsheetTraceList(java.util.ArrayList) -> a
    java.util.ArrayList getColumnHeadings() -> c
geogebra.common.kernel.geos.Test -> geogebra.common.l.j.at:
    geogebra.common.kernel.geos.Test GEOANGLE -> a
    geogebra.common.kernel.geos.Test GEODUMMYVARIABLE -> b
    geogebra.common.kernel.geos.Test GEONUMERIC -> c
    geogebra.common.kernel.geos.Test GEOAXIS -> d
    geogebra.common.kernel.geos.Test GEOSEGMENT -> e
    geogebra.common.kernel.geos.Test GEOSEGMENTND -> f
    geogebra.common.kernel.geos.Test GEORAY -> g
    geogebra.common.kernel.geos.Test GEOLINE -> h
    geogebra.common.kernel.geos.Test GEOLINEND -> i
    geogebra.common.kernel.geos.Test GEOVECTOR -> j
    geogebra.common.kernel.geos.Test GEOVECTORND -> k
    geogebra.common.kernel.geos.Test GEOBOOLEAN -> l
    geogebra.common.kernel.geos.Test GEOTEXTFIELD -> m
    geogebra.common.kernel.geos.Test GEOBUTTON -> n
    geogebra.common.kernel.geos.Test GEOCASCELL -> o
    geogebra.common.kernel.geos.Test GEOCONICPART -> p
    geogebra.common.kernel.geos.Test GEOCONIC -> q
    geogebra.common.kernel.geos.Test GEOCONICND -> r
    geogebra.common.kernel.geos.Test GEOQUADRIC3D -> s
    geogebra.common.kernel.geos.Test GEOQUADRIC3DLIMITED -> t
    geogebra.common.kernel.geos.Test GEOQUADRICND -> u
    geogebra.common.kernel.geos.Test GEOPOLYHEDRON -> v
    geogebra.common.kernel.geos.Test GEOCURVECARTESIAN -> w
    geogebra.common.kernel.geos.Test GEOCURVECARTESIAN3D -> x
    geogebra.common.kernel.geos.Test GEOCURVECARTESIANND -> y
    geogebra.common.kernel.geos.Test GEOINTERVAL -> z
    geogebra.common.kernel.geos.Test GEOFUNCTION -> A
    geogebra.common.kernel.geos.Test GEOFUNCTIONNVAR -> B
    geogebra.common.kernel.geos.Test GEOIMAGE -> C
    geogebra.common.kernel.geos.Test GEOLIST -> D
    geogebra.common.kernel.geos.Test GEOLOCUS -> E
    geogebra.common.kernel.geos.Test GEOPOINT -> F
    geogebra.common.kernel.geos.Test GEOPOINTND -> G
    geogebra.common.kernel.geos.Test GEOPOLYGON -> H
    geogebra.common.kernel.geos.Test GEOPOLYGON3D -> I
    geogebra.common.kernel.geos.Test GEOPOLYLINE -> J
    geogebra.common.kernel.geos.Test GEOSCRIPTACTION -> K
    geogebra.common.kernel.geos.Test GEOTEXT -> L
    geogebra.common.kernel.geos.Test GEOIMPLICITPOLY -> M
    geogebra.common.kernel.geos.Test GEOUSERINPUTELEMENT -> N
    geogebra.common.kernel.geos.Test GEOCOORDSYS2DNOTPLANE -> O
    geogebra.common.kernel.geos.Test GEOPLANEND -> P
    geogebra.common.kernel.geos.Test GEOCOORDSYS2D -> Q
    geogebra.common.kernel.geos.Test GEODIRECTIONND -> R
    geogebra.common.kernel.geos.Test GEOCOORDSYS1D -> S
    geogebra.common.kernel.geos.Test NUMBERVALUE -> T
    geogebra.common.kernel.geos.Test PATH -> U
    geogebra.common.kernel.geos.Test REGION3D -> V
    geogebra.common.kernel.geos.Test DILATEABLE -> W
    geogebra.common.kernel.geos.Test TRANSLATEABLE -> X
    geogebra.common.kernel.geos.Test MOVEABLE -> Y
    geogebra.common.kernel.geos.Test ROTATEMOVEABLE -> Z
    geogebra.common.kernel.geos.Test TRANSFORMABLE -> aa
    geogebra.common.kernel.geos.Test ROTATEABLE -> ab
    geogebra.common.kernel.geos.Test GEOELEMENT -> ac
    geogebra.common.kernel.geos.Test OBJECT -> ad
    geogebra.common.kernel.geos.Test PATH_NO_FILL_HIT -> ae
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$Test -> a
    geogebra.common.kernel.geos.Test[] ENUM$VALUES -> a
    boolean check(java.lang.Object) -> a
    geogebra.common.kernel.geos.Test getSpecificTest(java.lang.Object) -> a
    boolean canSet(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    boolean gen(geogebra.common.kernel.geos.Test,geogebra.common.kernel.geos.Test) -> a
    geogebra.common.kernel.geos.Test[] values() -> values
    geogebra.common.kernel.geos.Test valueOf(java.lang.String) -> valueOf
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$Test() -> a
geogebra.common.kernel.geos.Test$1 -> geogebra.common.l.j.au:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$10 -> geogebra.common.l.j.av:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$11 -> geogebra.common.l.j.aw:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$12 -> geogebra.common.l.j.ax:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$13 -> geogebra.common.l.j.ay:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$14 -> geogebra.common.l.j.az:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$15 -> geogebra.common.l.j.aA:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$16 -> geogebra.common.l.j.aB:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$17 -> geogebra.common.l.j.aC:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$18 -> geogebra.common.l.j.aD:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$19 -> geogebra.common.l.j.aE:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$2 -> geogebra.common.l.j.aF:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$20 -> geogebra.common.l.j.aG:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$21 -> geogebra.common.l.j.aH:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$22 -> geogebra.common.l.j.aI:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$23 -> geogebra.common.l.j.aJ:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$24 -> geogebra.common.l.j.aK:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$25 -> geogebra.common.l.j.aL:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$26 -> geogebra.common.l.j.aM:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$27 -> geogebra.common.l.j.aN:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$28 -> geogebra.common.l.j.aO:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$29 -> geogebra.common.l.j.aP:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$3 -> geogebra.common.l.j.aQ:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$30 -> geogebra.common.l.j.aR:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$31 -> geogebra.common.l.j.aS:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$32 -> geogebra.common.l.j.aT:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$33 -> geogebra.common.l.j.aU:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$34 -> geogebra.common.l.j.aV:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$35 -> geogebra.common.l.j.aW:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$36 -> geogebra.common.l.j.aX:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$37 -> geogebra.common.l.j.aY:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$38 -> geogebra.common.l.j.aZ:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$39 -> geogebra.common.l.j.ba:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$4 -> geogebra.common.l.j.bb:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$40 -> geogebra.common.l.j.bc:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$41 -> geogebra.common.l.j.bd:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$42 -> geogebra.common.l.j.be:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$43 -> geogebra.common.l.j.bf:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$44 -> geogebra.common.l.j.bg:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$45 -> geogebra.common.l.j.bh:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$46 -> geogebra.common.l.j.bi:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$47 -> geogebra.common.l.j.bj:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$48 -> geogebra.common.l.j.bk:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$49 -> geogebra.common.l.j.bl:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$5 -> geogebra.common.l.j.bm:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$50 -> geogebra.common.l.j.bn:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$51 -> geogebra.common.l.j.bo:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$52 -> geogebra.common.l.j.bp:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$53 -> geogebra.common.l.j.bq:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$54 -> geogebra.common.l.j.br:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$55 -> geogebra.common.l.j.bs:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$56 -> geogebra.common.l.j.bt:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$57 -> geogebra.common.l.j.bu:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$6 -> geogebra.common.l.j.bv:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$7 -> geogebra.common.l.j.bw:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$8 -> geogebra.common.l.j.bx:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.Test$9 -> geogebra.common.l.j.by:
    boolean check(java.lang.Object) -> a
geogebra.common.kernel.geos.TextProperties -> geogebra.common.l.j.bz:
    double getFontSizeMultiplier() -> b
    void setFontSizeMultiplier(double) -> a
    int getFontStyle() -> b
    void setFontStyle(int) -> c
    int getPrintDecimals() -> i_
    int getPrintFigures() -> k
    void setPrintDecimals(int,boolean) -> a
    void setPrintFigures(int,boolean) -> b
    boolean isSerifFont() -> R_
    void setSerifFont(boolean) -> a
    boolean useSignificantFigures() -> S_
    boolean justFontSize() -> X
    boolean isLaTeXTextCommand() -> ab
geogebra.common.kernel.geos.ToGeoElement -> geogebra.common.l.j.bA:
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
geogebra.common.kernel.geos.Traceable -> geogebra.common.l.j.bB:
    boolean getTrace() -> a
    void setTrace(boolean) -> e_
    void updateRepaint() -> C
geogebra.common.kernel.geos.Transformable -> geogebra.common.l.j.bC:
geogebra.common.kernel.geos.Translateable -> geogebra.common.l.j.bD:
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
geogebra.common.kernel.implicit.AlgoAsymptoteImplicitPoly -> geogebra.common.l.k.a:
    geogebra.common.kernel.implicit.GeoImplicitPoly ip -> a
    geogebra.common.kernel.geos.GeoList g -> a
    geogebra.common.kernel.EquationSolverInterface solver -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void makeLines(java.util.ArrayList,double,double) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.implicit.AlgoDependentImplicitPoly -> geogebra.common.l.k.b:
    geogebra.common.kernel.arithmetic.Equation equation -> a
    geogebra.common.kernel.arithmetic.ExpressionValue[][] coeff -> a
    geogebra.common.kernel.geos.GeoElement geoElement -> a
    java.util.Set dependentFromFunctions -> a
    void compute() -> b
    void replaceGeoElement(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.arithmetic.Equation getEquation() -> a
    void compute(boolean) -> a
    void setLine() -> e
    void setConic() -> g
    void addAllFunctionalDescendents(geogebra.common.kernel.algos.AlgoElement,java.util.Set,java.util.Set) -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.algos.Algos getClassName() -> a
    geogebra.common.kernel.geos.GeoElement getGeo() -> a
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toExpString(geogebra.common.kernel.StringTemplate) -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.implicit.AlgoImplicitPolyFunction -> geogebra.common.l.k.c:
    geogebra.common.kernel.geos.GeoFunctionNVar function -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly implicitPoly -> a
    void compute() -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly getImplicitPoly() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.implicit.AlgoImplicitPolyTangentCurve -> geogebra.common.l.k.d:
    geogebra.common.kernel.implicit.GeoImplicitPoly poly -> a
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly tangentPoly -> b
    void compute() -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly getTangentCurve() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.implicit.AlgoImplicitPolyThroughPoints -> geogebra.common.l.k.e:
    geogebra.common.kernel.geos.GeoList P -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly implicitPoly -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly getImplicitPoly() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.implicit.AlgoIntersectImplicitpolyParametric -> geogebra.common.l.k.f:
    org.apache.commons.math.analysis.polynomials.PolynomialFunction tx -> a
    org.apache.commons.math.analysis.polynomials.PolynomialFunction ty -> b
    geogebra.common.kernel.implicit.GeoImplicitPoly p -> a
    geogebra.common.kernel.geos.GeoLine l -> a
    geogebra.common.kernel.geos.GeoFunction f -> a
    geogebra.common.kernel.geos.GeoPoint[] tangentPoints -> a
    double getYValue(double) -> a
    double getXValue(double) -> b
    void compute() -> b
    void mergeWithTangentPoints() -> g
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
geogebra.common.kernel.implicit.AlgoIntersectImplicitpolys -> geogebra.common.l.k.g:
    geogebra.common.kernel.implicit.GeoImplicitPoly p1 -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly p2 -> b
    geogebra.common.kernel.geos.GeoConic c1 -> a
    java.util.List valPairs -> a
    int univarType -> a
    java.util.List hints -> b
    double getYValue(double) -> a
    void compute() -> b
    int getNearRoots(double[],geogebra.common.kernel.EquationSolverInterface,double) -> a
    void insert(double[]) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
geogebra.common.kernel.implicit.AlgoTangentImplicitpoly -> geogebra.common.l.k.h:
    geogebra.common.kernel.implicit.GeoImplicitPoly p -> a
    geogebra.common.kernel.kernelND.GeoPointND R -> a
    geogebra.common.kernel.kernelND.GeoLineND g -> a
    geogebra.common.kernel.geos.GeoPoint[] ip -> a
    geogebra.common.kernel.algos.AlgoElement$OutputHandler tangents -> a
    boolean pointOnPath -> a
    geogebra.common.kernel.implicit.AlgoIntersectImplicitpolys algoIntersect -> a
    java.lang.String[] labels -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    geogebra.common.kernel.geos.GeoLine[] getTangents() -> a
    void setLabels(java.lang.String[]) -> a
    geogebra.common.kernel.geos.GeoPoint[] getTangentPoints() -> a
    geogebra.common.kernel.kernelND.GeoPointND getTangentPoint(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoLine) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.implicit.AlgoTangentImplicitpoly$1 -> geogebra.common.l.k.i:
    geogebra.common.kernel.implicit.AlgoTangentImplicitpoly this$0 -> a
    geogebra.common.kernel.geos.GeoLine newElement() -> a
    geogebra.common.kernel.geos.GeoElement newElement() -> a
geogebra.common.kernel.implicit.GeoImplicitCurve -> geogebra.common.l.k.j:
    geogebra.common.kernel.arithmetic.FunctionNVar expression -> a
    geogebra.common.kernel.geos.GeoLocus locus -> a
    int gridWidth -> a
    int gridHeight -> b
    double[][] grid -> a
    boolean[][] evald -> a
    double rectX -> a
    double rectY -> b
    double rectW -> c
    double rectH -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$implicit$GeoImplicitCurve$GridTypeEnum -> a
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    double evaluateImplicitCurve(double[]) -> a
    geogebra.common.kernel.geos.GeoLocus getLocus() -> a
    void updatePath() -> d
    void updatePath(double,double,double,double,double,double) -> a
    geogebra.common.kernel.MyPoint[] getPointsForGrid(int,int) -> a
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum getGridType(int,int) -> a
    int mySignFun(double) -> a
    double getRealWorldY(int) -> a
    double getRealWorldX(int) -> b
    double[] getRealWorldCoordinates(int,int) -> a
    boolean euclidianViewUpdate() -> f
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$implicit$GeoImplicitCurve$GridTypeEnum() -> a
geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum -> geogebra.common.l.k.j$a:
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T0000 -> a
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T1000 -> b
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T0100 -> c
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T0010 -> d
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T0001 -> e
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T1001 -> f
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T1100 -> g
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T1010 -> h
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum T0101 -> i
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum[] ENUM$VALUES -> a
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum[] values() -> values
    geogebra.common.kernel.implicit.GeoImplicitCurve$GridTypeEnum valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.implicit.GeoImplicitPoly -> geogebra.common.l.k.k:
    double[][] coeff -> a
    double[][] coeffSquarefree -> b
    int degX -> a
    int degY -> b
    boolean defined -> a
    boolean isConstant -> b
    boolean calcPath -> j
    boolean trace -> k
    geogebra.common.kernel.geos.GeoLocus locus -> a
    java.util.List singularitiesCollection -> a
    java.util.List boundaryIntersectCollection -> b
    boolean[][] remember -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly$GridRect[][] grid -> a
    int gridWidth -> m
    int gridHeight -> n
    double scaleX -> a
    double scaleY -> b
    double minGap -> c
    void preventPathCreation() -> i
    double[][] coeffFromConic(geogebra.common.kernel.kernelND.GeoConicND) -> a
    geogebra.common.kernel.geos.GeoElement copy() -> b
    geogebra.common.plugin.GeoClass getGeoClassType() -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isDefined() -> a_
    boolean isOnScreen() -> ab
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isGeoImplicitPoly() -> aR
    boolean isPath() -> d_
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setUndefined() -> b
    void setDefined() -> j
    boolean showInAlgebraView() -> b_
    boolean showInEuclidianView() -> c_
    void addPow(java.lang.StringBuilder,int,geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toRawValueString(geogebra.common.kernel.StringTemplate) -> f
    void appendMultiply(java.lang.StringBuilder) -> o
    void setCoeff(double[][]) -> a
    void setCoeff(double[][],boolean) -> a
    void setCoeff(geogebra.common.kernel.arithmetic.ExpressionValue[][]) -> a
    void setCoeff(geogebra.common.kernel.arithmetic.ExpressionValue[][],boolean) -> a
    double[][] getCoeff(boolean) -> a
    double[][] getCoeff() -> a
    double evalPolyAt(double,double) -> a
    double evalPolyAt(double,double,boolean) -> a
    double evalPolyCoeffAt(double,double,double[][]) -> a
    double evalDiffXPolyAt(double,double) -> b
    double evalDiffXPolyAt(double,double,boolean) -> b
    double evalDiffYPolyAt(double,double) -> c
    double evalDiffYPolyAt(double,double,boolean) -> c
    void plugInRatPoly(double[][],double[][],double[][],double[][]) -> a
    void plugInPoly(double[][],double[][]) -> a
    void polyMult(double[][],double[][],int,int,int,int) -> a
    boolean isConstant() -> k_
    int getDegX() -> b
    int getDegY() -> e
    void getFactors() -> o
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    void throughPoints(geogebra.common.kernel.geos.GeoList) -> b
    void throughPoints(java.util.ArrayList) -> b
    void polishPointOnPath(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean isClosedPath() -> b
    geogebra.common.kernel.PathMover createPathMover() -> a
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    int getDeg() -> f
    void mirror(geogebra.common.kernel.geos.GeoConic) -> a
    void mirror(geogebra.common.kernel.Matrix.Coords) -> c
    void mirror(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    void translate(double,double) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void dilate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> a
    boolean isTranslateable() -> h_
    char getLabelDelimiter() -> a
    boolean euclidianViewUpdate() -> f
    int epsSignum(double) -> a
    void updatePath() -> m
    void updatePath(double,double,double,double,double) -> a
    double scaledNormSquared(double,double) -> d
    void startPath(int,int,double,double,geogebra.common.kernel.geos.GeoLocus) -> a
    double bisec(double,double,double,double) -> a
    geogebra.common.kernel.geos.GeoLocus getLocus() -> a
    boolean isCasEvaluableObject() -> J
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
geogebra.common.kernel.implicit.GeoImplicitPoly$GridRect -> geogebra.common.l.k.k$a:
    double x -> a
    double y -> b
    double width -> c
    double height -> d
    int[] eval -> a
geogebra.common.kernel.implicit.PolynomialUtils -> geogebra.common.l.k.l:
    double[] polynomialDivision(double[],double[]) -> a
    org.apache.commons.math.analysis.polynomials.PolynomialFunction polynomialDivision(org.apache.commons.math.analysis.polynomials.PolynomialFunction,org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> a
    int getDegree(double[]) -> a
    double getLeadingCoeff(double[]) -> a
    double getLeadingCoeff(org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> a
    double eval(double[],double) -> a
    double[][] coeffMinDeg(double[][]) -> a
    boolean rootPolishing(double[],geogebra.common.kernel.implicit.GeoImplicitPoly,double[]) -> a
    boolean rootPolishing(double[],geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    boolean rootPolishing(double[],geogebra.common.kernel.implicit.GeoImplicitPoly,geogebra.common.kernel.implicit.GeoImplicitPoly,double[]) -> a
geogebra.common.kernel.integration.EllipticArcLength -> geogebra.common.l.l.a:
    double[] halfAxes -> a
    geogebra.common.kernel.roots.RealRootFunction arcLengthFunction -> a
    double compute(double,double) -> a
geogebra.common.kernel.integration.EllipticArcLength$EllipticArcLengthFunction -> geogebra.common.l.l.a$a:
    geogebra.common.kernel.integration.EllipticArcLength this$0 -> a
    double evaluate(double) -> a
geogebra.common.kernel.kernelND.AlgoIntersectND -> geogebra.common.l.m.a:
    int numberOfUsers -> a
    boolean[] didSetIntersectionPointArray -> a
    void avoidDoubleTangentPoint() -> e
    void noUndefinedPointsInAlgebraView() -> i
    void addUser() -> j
    void removeUser() -> k
    geogebra.common.kernel.kernelND.GeoPointND[] getIntersectionPoints() -> b
    geogebra.common.kernel.kernelND.GeoPointND[] getLastDefinedIntersectionPoints() -> a
    void setIntersectionPoint(int,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setCoords(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean didSetIntersectionPoint(int) -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    void remove() -> a
geogebra.common.kernel.kernelND.AlgoMidpointND -> geogebra.common.l.m.b:
    geogebra.common.kernel.kernelND.GeoPointND P -> a
    geogebra.common.kernel.kernelND.GeoPointND Q -> b
    geogebra.common.kernel.kernelND.GeoPointND M -> c
    geogebra.common.kernel.kernelND.GeoPointND newGeoPoint(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    void compute() -> b
    void copyCoords(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void computeMidCoords() -> e
    geogebra.common.kernel.kernelND.GeoPointND getPoint() -> a
    geogebra.common.kernel.kernelND.GeoPointND getP() -> b
    geogebra.common.kernel.kernelND.GeoPointND getQ() -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.kernelND.AlgoTransformable -> geogebra.common.l.m.c:
    geogebra.common.kernel.geos.GeoElement[] getTransformedOutput(geogebra.common.kernel.Transform) -> a
geogebra.common.kernel.kernelND.CoordStyle -> geogebra.common.l.m.d:
    void setCartesian() -> m
    void setPolar() -> p
    void setComplex() -> q
    void setCartesian3D() -> n
    void setSpherical() -> o
    int getMode() -> a
    void setMode(int) -> g
geogebra.common.kernel.kernelND.CurveEvaluable -> geogebra.common.l.m.e:
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    double[] newDoubleArray() -> a
    double distanceMax(double[],double[]) -> a
    void evaluateCurve(double,double[]) -> a
    double[] getDefinedInterval(double,double) -> a
    boolean getTrace() -> a
    boolean isClosedPath() -> b
    boolean isFunctionInX() -> c
    geogebra.common.kernel.geos.GeoElement toGeoElement() -> a
geogebra.common.kernel.kernelND.Geo3DVec -> geogebra.common.l.m.f:
    boolean isEqual(geogebra.common.kernel.kernelND.Geo3DVec) -> a
    double length() -> d
    geogebra.common.kernel.kernelND.Geo3DVec round() -> d
    geogebra.common.kernel.kernelND.Geo3DVec floor() -> c
    geogebra.common.kernel.kernelND.Geo3DVec ceil() -> a
geogebra.common.kernel.kernelND.GeoAxisND -> geogebra.common.l.m.g:
    int getTickSize() -> b_
    int getType() -> b
geogebra.common.kernel.kernelND.GeoConicND -> geogebra.common.l.m.h:
    java.lang.String[] vars -> a
    java.lang.String[] varsLateX -> b
    java.lang.String[] varsCAS -> c
    boolean KEEP_LEADING_SIGN -> a
    geogebra.common.kernel.geos.GeoPoint singlePoint -> a
    geogebra.common.kernel.geos.GeoLine[] lines -> a
    geogebra.common.kernel.geos.GeoVec2D[] eigenvec -> a
    double eigenvecX -> a
    double eigenvecY -> b
    geogebra.common.awt.GAffineTransform transform -> a
    geogebra.common.awt.GAffineTransform oldTransform -> b
    geogebra.common.kernel.geos.GeoVec2D b -> a
    geogebra.common.kernel.geos.GeoPoint[] startPoints -> a
    java.util.ArrayList pointsOnConic -> a
    double detS -> g
    double length -> h
    double temp -> i
    double temp1 -> j
    double temp2 -> k
    double nx -> l
    double ny -> m
    double lambda -> n
    int index -> m
    geogebra.common.kernel.geos.GeoVec2D c -> b
    double errDetS -> c
    double[] coeffs -> a
    boolean eigenvectorsSetOnLoad -> k
    geogebra.common.util.GgbMat polarMatrix -> a
    double area -> o
    boolean isEndOfQuadric -> l
    geogebra.common.kernel.geos.GeoElement$HitType lastHitType -> a
    geogebra.common.kernel.Matrix.Coords labelPosition -> b
    geogebra.common.kernel.PathParameter labelParameter -> a
    java.util.TreeSet metas -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    geogebra.common.kernel.Matrix.Coords getEigenvec(int) -> d
    geogebra.common.kernel.Matrix.Coords getEigenvec3D(int) -> a
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
    geogebra.common.kernel.Matrix.Coords getDirection3D(int) -> b
    geogebra.common.kernel.Matrix.Coords getOrigin3D(int) -> c
    geogebra.common.kernel.Matrix.CoordMatrix getSymetricMatrix(double[]) -> a
    void setCircle(geogebra.common.kernel.geos.GeoPoint,double) -> a
    void setCircle(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    boolean isPath() -> d_
    void pointChanged(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void pointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> a
    void pointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> a
    double[] getPerpendicularParams(double,double) -> a
    void pathChanged(geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean compatibleType(int) -> c
    void pathChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> b
    void pathChangedWithoutCheckEllipse(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> b
    void pathChangedWithoutCheckParabola(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> c
    void pathChangedWithoutCheckHyperbola(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> d
    void pathChangedWithoutCheck(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter,boolean) -> e
    double getMaxParameter() -> j_
    double getMinParameter() -> a_
    boolean isClosedPath() -> b
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    boolean isOnFullConic(geogebra.common.kernel.kernelND.GeoPointND,double) -> b
    boolean isOnFullConic(geogebra.common.kernel.Matrix.Coords,double) -> a
    geogebra.common.kernel.PathMover createPathMover() -> a
    void coordsEVtoRW(geogebra.common.kernel.Matrix.Coords) -> d
    void coordsRWtoEV(geogebra.common.kernel.Matrix.Coords) -> e
    void translateByCenter(geogebra.common.kernel.Matrix.Coords) -> f
    boolean isFillable() -> v
    void setMatrix(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    java.util.ArrayList getPointsOnConic() -> a
    void setPointsOnConic(java.util.ArrayList) -> b
    void addPointOnConic(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void removePointOnConic(geogebra.common.kernel.kernelND.GeoPointND) -> d
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    void setLines(geogebra.common.kernel.kernelND.GeoConicND) -> a
    void update() -> q_
    void setToStringMode(int) -> c
    int getToStringMode() -> e
    boolean isCircle() -> X
    void setToSpecific() -> h
    void setToImplicit() -> i
    void setToExplicit() -> j
    boolean isSpecificPossible() -> aa
    boolean isExplicitPossible() -> ab
    boolean checkDefined() -> ah
    boolean showInEuclidianView() -> c_
    boolean showInAlgebraView() -> b_
    boolean isLineConic() -> ac
    boolean isDegenerate() -> ad
    void setCoeffs(double[]) -> a
    void setCoeffs(double,double,double,double,double,double) -> a
    java.lang.String toValueStringMinimal(geogebra.common.kernel.StringTemplate) -> s
    java.lang.String toStringMinimal(geogebra.common.kernel.StringTemplate) -> e
    java.lang.String getXMLtagsMinimal() -> e
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate,double[]) -> a
    double[] getHalfAxes() -> b
    geogebra.common.kernel.geos.GeoLine[] getLines() -> a
    geogebra.common.kernel.geos.GeoPoint getSinglePoint() -> a
    geogebra.common.awt.GAffineTransform getAffineTransform() -> a
    void setAffineTransform() -> m
    geogebra.common.kernel.geos.GeoVec2D getTranslationVector() -> a
    double getCircleRadius() -> j
    double[] getMatrix() -> c
    void setMatrix(double[]) -> b
    void setDegenerateMatrixFromArray(double[]) -> c
    void setMatrix(double[][]) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setCircle(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoSegment) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setCircleMatrix(geogebra.common.kernel.geos.GeoPoint,double) -> b
    void setParabola(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoLine) -> a
    void setParabola(double) -> a
    void setEllipseHyperbola(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,double) -> a
    void translate(geogebra.common.kernel.Matrix.Coords) -> b
    boolean isTranslateable() -> h_
    void translate(double,double) -> a
    void doTranslate(geogebra.common.kernel.Matrix.Coords) -> a
    void doTranslate(double,double) -> b
    void translateMatrix(double[],double,double) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isMatrixTransformable() -> y_
    void matrixTransform(double,double,double,double) -> a
    void rotate(double) -> f
    void rotateMatrix(double[],double) -> a
    void dilate(double) -> b
    void doDilate(double) -> c
    void updateDegenerates() -> o
    void setEigenvectors(double,double,double,double,double,double) -> b
    void setFirstEigenvector(double[]) -> d
    void setEigenvectors() -> p
    void setParabolicEigenvectors() -> N
    void makePathParametersInvalid() -> O
    void classifyConic() -> q
    void classifyConic(boolean) -> f
    boolean isDetSzero() -> ai
    void classifyMidpointConic(boolean) -> c
    void singlePoint() -> t_
    void intersectingLines(double[]) -> g
    void ellipse(double[]) -> h
    void hyperbola(double[]) -> i
    void classifyParabolicConic(boolean) -> d
    void doubleLine() -> P
    void enforceDoubleLine() -> r
    void handleSzero() -> Q
    void parallelLines(double[]) -> e
    void setStartPointsForLines() -> R
    void setStartPointsForDoubleLine() -> S
    void parabola() -> T
    boolean hasPositiveEigenvectorOrientation() -> ae
    void setPositiveEigenvectorOrientation(boolean) -> g
    boolean isIntersectionPointIncident(geogebra.common.kernel.geos.GeoPoint,double) -> a
    boolean isIntersectionPointIncident(geogebra.common.kernel.Matrix.Coords,double) -> b
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    double evaluate(double,double) -> a
    void polarLine(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoLine) -> b
    void polarPoint(geogebra.common.kernel.geos.GeoLine,geogebra.common.kernel.geos.GeoPoint) -> a
    void polarPoint(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.geos.GeoPoint) -> a
    void polarPoint(double,double,double,geogebra.common.kernel.geos.GeoPoint) -> a
    void polarLine(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.geos.GeoLine) -> a
    void diameterLine(geogebra.common.kernel.geos.GeoVector,geogebra.common.kernel.geos.GeoLine) -> a
    void diameterLine(double,double,geogebra.common.kernel.geos.GeoLine) -> a
    void getXMLtags(java.lang.StringBuilder) -> a_
    java.lang.String getSpecificEquation() -> f
    boolean isNumberValue() -> A_
    boolean isGeoConic() -> aS
    void setZero() -> d_
    void setMidpoint(double[]) -> f
    void setMidpoint(double,double) -> c
    boolean isRegion() -> x_
    boolean isInRegion(geogebra.common.kernel.kernelND.GeoPointND) -> a
    boolean isInRegion(double,double) -> a
    double evaluateInSignificantPoint() -> k
    void pointChangedForRegion(geogebra.common.kernel.kernelND.GeoPointND) -> b_
    void moveBackToRegion(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.RegionParameters) -> a
    void regionChanged(geogebra.common.kernel.kernelND.GeoPointND) -> c_
    void toGeoCurveCartesian(geogebra.common.kernel.geos.GeoCurveCartesian) -> a
    void toGeoImplicitPoly(geogebra.common.kernel.implicit.GeoImplicitPoly) -> a
    boolean keepsType() -> af
    double distance(geogebra.common.kernel.geos.GeoPoint) -> a
    java.lang.String getTypeString() -> a
    void calcArea() -> J
    double getArea() -> g
    void setIsEndOfQuadric(boolean) -> h
    boolean isEndOfQuadric() -> ag
    void doRemove() -> e
    void setLastHitType(geogebra.common.kernel.geos.GeoElement$HitType) -> a
    geogebra.common.kernel.geos.GeoElement$HitType getLastHitType() -> a
    java.lang.String getTypeStringForAlgebraView() -> q
    geogebra.common.kernel.Matrix.Coords getLabelPosition() -> a_
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a_
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
    int getMetasLength() -> g_
    geogebra.common.kernel.geos.GeoElement[] getMetas() -> a
    void addMeta(geogebra.common.kernel.geos.GeoElement) -> d
    void removeMeta(geogebra.common.kernel.geos.GeoElement) -> e
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> a
geogebra.common.kernel.kernelND.GeoConicPartND -> geogebra.common.l.m.i:
    void setParameters(double,double,boolean) -> a
    int getConicPartType() -> b
    double getParameterStart() -> c
    double getParameterExtent() -> d
    boolean positiveOrientation() -> n
    void superPointChanged(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> c
    geogebra.common.kernel.kernelND.GeoConicPartParameters getParameters() -> a
    geogebra.common.kernel.Matrix.Coords getSegmentEnd3D() -> d
    double getArcLength() -> f
    double getArea() -> g
    void setParametersToSinglePoint() -> g
geogebra.common.kernel.kernelND.GeoConicPartParameters -> geogebra.common.l.m.j:
    geogebra.common.kernel.kernelND.GeoConicND conic -> a
    double paramStart -> a
    double paramEnd -> b
    double paramExtent -> c
    boolean posOrientation -> a
    int conic_part_type -> a
    double value -> d
    double area -> e
    double arcLength -> f
    boolean value_defined -> b
    geogebra.common.kernel.integration.EllipticArcLength ellipticArcLength -> a
    boolean allowOutlyingIntersections -> c
    boolean keepTypeOnGeometricTransform -> d
    void set(geogebra.common.kernel.kernelND.GeoConicPartParameters) -> a
    boolean isEqual(geogebra.common.kernel.kernelND.GeoConicPartParameters) -> a
    void setParameters(boolean,double,double,boolean) -> a
    double getValue() -> a
    double getArcLength() -> b
    double getArea() -> c
    void setEllipseParameter(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> a
    void clipEllipseParameter(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.PathParameter) -> b
    void getXMLtags(java.lang.StringBuilder) -> a
    boolean isInRegion(double,double) -> a
    double computeArg(double,double) -> a
geogebra.common.kernel.kernelND.GeoConicSectionInterface -> geogebra.common.l.m.k:
    double getParameterStart(int) -> a_
    double getParameterExtent(int) -> c
    double getParameterEnd(int) -> b
geogebra.common.kernel.kernelND.GeoCoordSys -> geogebra.common.l.m.l:
    geogebra.common.kernel.Matrix.CoordSys getCoordSys() -> a
geogebra.common.kernel.kernelND.GeoCoordSys1DInterface -> geogebra.common.l.m.m:
geogebra.common.kernel.kernelND.GeoCoordSys2D -> geogebra.common.l.m.n:
geogebra.common.kernel.kernelND.GeoCurveCartesianND -> geogebra.common.l.m.o:
    geogebra.common.kernel.arithmetic.Function[] fun -> a
    geogebra.common.kernel.arithmetic.Function[] funExpanded -> b
    boolean[] containsFunctions -> a
    geogebra.common.kernel.arithmetic.Function[] funD1 -> c
    geogebra.common.kernel.arithmetic.Function[] funD2 -> d
    double startParam -> b
    double endParam -> c
    boolean isDefined -> a
    geogebra.common.kernel.DistanceFunction distFun -> a
    boolean hideRangeInFormula -> b
    geogebra.common.kernel.kernelND.GeoCurveCartesianND derivGeoFun -> a
    void setFun(geogebra.common.kernel.arithmetic.Function[]) -> a
    boolean isGeoCurveCartesian() -> be
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> c
    void setInterval(double,double) -> a
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isPath() -> d_
    boolean isDefined() -> a_
    void setDefined(boolean) -> c
    void setUndefined() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    geogebra.common.kernel.arithmetic.Function getFun(int) -> a
    void update() -> q_
    geogebra.common.kernel.arithmetic.FunctionVariable[] getFunctionVariables() -> a
    java.lang.String getVarString(geogebra.common.kernel.StringTemplate) -> f
    void setUsingCasCommand(java.lang.String,geogebra.common.kernel.geos.CasEvaluableFunction,boolean,geogebra.common.kernel.arithmetic.MyArbitraryConstant) -> a
    void clearCasEvalMap(java.lang.String) -> a
    void setFun(int,geogebra.common.kernel.arithmetic.Function) -> a
    geogebra.common.kernel.arithmetic.Function getFunExpanded(int) -> b
    void setDerivative(geogebra.common.kernel.kernelND.GeoCurveCartesianND,int) -> a
    int getDimension() -> b
    java.lang.String getVariable(int) -> a
    double getClosestParameter(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    double evaluateCurvature(double) -> a
    void setHideRangeInFormula(boolean) -> d
    boolean isLaTeXDrawableGeo() -> Q
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND getGeoDerivative(int) -> a
    geogebra.common.kernel.kernelND.GeoCurveCartesianND newGeoCurveCartesian(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue evaluateCurve(double) -> a
geogebra.common.kernel.kernelND.GeoDirectionND -> geogebra.common.l.m.p:
    geogebra.common.kernel.Matrix.Coords getDirectionInD3() -> a
geogebra.common.kernel.kernelND.GeoElementND -> geogebra.common.l.m.q:
    void setLabel(java.lang.String) -> e
    void update() -> q_
    void setObjColor(geogebra.common.awt.GColor) -> a
    void setEuclidianVisible(boolean) -> b
    boolean isEuclidianVisible() -> at
    boolean isLabelVisible() -> ay
    boolean isLabelSet() -> j_
    java.lang.String getLabel(geogebra.common.kernel.StringTemplate) -> d
    boolean isInfinite() -> I
    void updateVisualStyle() -> u_
    void remove() -> a
    geogebra.common.kernel.geos.GeoElement copyInternal(geogebra.common.kernel.Construction) -> a
    boolean isIndependent() -> f_
    geogebra.common.kernel.algos.AlgoElement getParentAlgorithm() -> a
    boolean isDefined() -> a_
    void setUndefined() -> b
    void setLineType(int) -> b
    void setLineThickness(int) -> a
    void setLineOpacity(int) -> s
    void setLabelVisible(boolean) -> r
    boolean isPointOnPath() -> g_
    boolean isPointInRegion() -> A
    double distance(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void updateCascade() -> s_
    void updateRepaint() -> C
    int getLineType() -> w
    int getLineThickness() -> u
    boolean isInverseFill() -> bt
    double getAnimationStep() -> m
    int getConstructionIndex() -> d
    geogebra.common.kernel.algos.AlgorithmSet getAlgoUpdateSet() -> a
    boolean hasAlgoUpdateSet() -> aN
    boolean isGeoElement3D() -> l
    boolean isGeoText() -> bd
    int getLabelMode() -> p
    void setLabelMode(int) -> l
geogebra.common.kernel.kernelND.GeoLineND -> geogebra.common.l.m.r:
    geogebra.common.kernel.Matrix.Coords getPointInD(int,double) -> a
    boolean getTrace() -> a
    geogebra.common.kernel.Matrix.Coords getCartesianEquationVector(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    geogebra.common.kernel.Matrix.Coords getStartInhomCoords() -> d
    geogebra.common.kernel.Matrix.Coords getEndInhomCoords() -> e
    double getMinParameter() -> a_
    double getMaxParameter() -> j_
    boolean isOnPath(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    boolean respectLimitedPath(geogebra.common.kernel.Matrix.Coords,double) -> c
    boolean respectLimitedPath(double) -> a
    geogebra.common.kernel.kernelND.GeoPointND getEndPoint() -> b
    geogebra.common.kernel.kernelND.GeoPointND getStartPoint() -> a
    void removePointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> e
    void addPointOnLine(geogebra.common.kernel.kernelND.GeoPointND) -> c
    double distance(geogebra.common.kernel.kernelND.GeoLineND) -> a
    void setToImplicit() -> c
    void setToExplicit() -> d
    void setToParametric(java.lang.String) -> a
    geogebra.common.kernel.kernelND.GeoLineND copy() -> a
    void setLineThrough(double,double) -> a
    geogebra.common.kernel.Matrix.Coords getDirectionForEquation() -> c
    boolean isEqual(geogebra.common.kernel.geos.GeoElement) -> a
    void setStandardStartPoint() -> g
geogebra.common.kernel.kernelND.GeoPlaneND -> geogebra.common.l.m.s:
    void setFading(float) -> b
    float getFading() -> a
geogebra.common.kernel.kernelND.GeoPointND -> geogebra.common.l.m.t:
    boolean hasChangeableCoordParentNumbers() -> E
    geogebra.common.kernel.RegionParameters getRegionParameters() -> a
    void updateCoords2D() -> h
    double getInhomX() -> f
    double getInhomY() -> g
    double getInhomZ() -> h
    double getX2D() -> i
    double getY2D() -> j
    void updateCoordsFrom2D(boolean,geogebra.common.kernel.Matrix.CoordSys) -> a
    void updateCoordsFrom2D(boolean) -> d_
    int getMode() -> a
    boolean isFinite() -> H
    void set(geogebra.common.kernel.kernelND.GeoPointND) -> d
    java.lang.String getStartPointXML() -> c
    geogebra.common.kernel.LocateableList getLocateableList() -> a
    double[] vectorTo(geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.Matrix.Coords getInhomCoords() -> c
    void getInhomCoords(double[]) -> a
    boolean hasPath() -> t
    geogebra.common.kernel.PathParameter getPathParameter() -> a
    boolean hasRegion() -> z
    void setCoords(double,double,double) -> a
    void setCoords(double,double,double,double) -> b
    void setCoords(geogebra.common.kernel.Matrix.Coords,boolean) -> a
    void setCoords2D(double,double,double) -> b
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD(int) -> a
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD3() -> e
    geogebra.common.kernel.Matrix.Coords getInhomCoordsInD2() -> d
    geogebra.common.kernel.Matrix.Coords getCoordsInD2() -> f
    geogebra.common.kernel.Matrix.Coords getCoordsInD3() -> g
    geogebra.common.kernel.Matrix.Coords getCoordsInD2(geogebra.common.kernel.Matrix.CoordSys) -> a
    geogebra.common.kernel.Path getPath() -> a
    geogebra.common.kernel.Region getRegion() -> a
    int getMoveMode() -> e_
    void updateCoords() -> c
    void showUndefinedInAlgebraView(boolean) -> c
    geogebra.common.kernel.kernelND.GeoPointND copy() -> a
    boolean isAbsoluteStartPoint() -> F
    boolean showInEuclidianView() -> c_
    boolean getTrace() -> a
    int getDimension() -> f
    void setCartesian() -> m
    void setCartesian3D() -> n
    double distanceToPath(geogebra.common.kernel.PathOrPoint) -> a
    void addIncidence(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setPath(geogebra.common.kernel.Path) -> a
    geogebra.common.kernel.Matrix.Coords getCoords() -> k
    boolean hasLocateableList() -> G
    void setLocateableList(geogebra.common.kernel.LocateableList) -> a
    void setCoordsFromPoint(geogebra.common.kernel.kernelND.GeoPointND) -> c
    void removeIncidence(geogebra.common.kernel.geos.GeoElement) -> c
    java.util.ArrayList getIncidenceList() -> a
    boolean isEqualPointND(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void set(double,double,geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.Matrix.Coords) -> b
    void setRegion(geogebra.common.kernel.Region) -> a
    double getAnimationValue() -> k
    void setAnimationValue(double) -> a
geogebra.common.kernel.kernelND.GeoPolygon3DInterface -> geogebra.common.l.m.u:
geogebra.common.kernel.kernelND.GeoPolyhedronInterface -> geogebra.common.l.m.v:
    void setPointSizeOrVisibility(int) -> g
geogebra.common.kernel.kernelND.GeoQuadric3DInterface -> geogebra.common.l.m.w:
geogebra.common.kernel.kernelND.GeoQuadric3DLimitedInterface -> geogebra.common.l.m.x:
geogebra.common.kernel.kernelND.GeoQuadric3DPartInterface -> geogebra.common.l.m.y:
geogebra.common.kernel.kernelND.GeoQuadricND -> geogebra.common.l.m.z:
    int dimension -> m
    int matrixDim -> a
    int type -> b
    double[] matrix -> c
    double[] halfAxes -> d
    double linearEccentricity -> d
    double eccentricity -> e
    double p -> f
    boolean defined -> b
    geogebra.common.kernel.Matrix.Coords midpoint -> a
    geogebra.common.kernel.Matrix.Coords[] eigenvecND -> a
    double[] diagonal -> e
    char[] VAR_STRING -> a
    double[] eigenval -> f
    double[] mu -> g
    boolean isIntersection -> j
    geogebra.common.kernel.Matrix.CoordMatrix symetricMatrix -> a
    geogebra.common.kernel.Matrix.CoordMatrix tmpEigenMatrix -> b
    geogebra.common.kernel.geos.ChangeableCoordParent changeableCoordParent -> a
    boolean trace -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType -> a
    double[] getFlatMatrix() -> a
    void set(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.Matrix.Coords getEigenvec3D(int) -> a
    geogebra.common.kernel.Matrix.CoordMatrix getSymetricMatrix(double[]) -> a
    geogebra.common.kernel.Matrix.CoordMatrix getSymetricMatrix() -> a
    void setMatrixFromEigen() -> K
    void setMatrix(geogebra.common.kernel.Matrix.CoordMatrix) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,double) -> a
    void setSphereND(geogebra.common.kernel.Matrix.Coords,double) -> b
    void setSphereND(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void setSphereNDMatrix(geogebra.common.kernel.Matrix.Coords,double) -> a
    void empty() -> L
    void setUndefined() -> b
    void setDefined() -> M
    void setMidpoint(double,double) -> c
    void setMidpoint(double[]) -> f
    geogebra.common.kernel.Matrix.Coords getMidpoint2D() -> f
    geogebra.common.kernel.Matrix.Coords getMidpoint() -> g
    geogebra.common.kernel.Matrix.Coords getMidpoint3D() -> c
    double getHalfAxis(int) -> a
    boolean isDefined() -> a_
    int getType() -> f
    void setType(int) -> g
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.StringBuilder buildValueString(geogebra.common.kernel.StringTemplate) -> a
    void buildSphereNDString(java.lang.StringBuilder,geogebra.common.kernel.StringTemplate) -> b
    void setFirstEigenvector(double[]) -> d
    void setEigenvectors() -> p
    void singlePoint() -> t_
    void setAffineTransform() -> m
    void setChangeableCoordParent(geogebra.common.kernel.geos.GeoNumeric,geogebra.common.kernel.geos.GeoElement) -> a
    boolean hasChangeableCoordParentNumbers() -> E
    void recordChangeableCoordParentNumbers() -> E
    boolean moveFromChangeableCoordParentNumbers(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView) -> a
    int getDimension() -> c_
    boolean isTraceable() -> h
    void setTrace(boolean) -> e_
    boolean getTrace() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$ExpressionNodeConstants$StringType() -> b
geogebra.common.kernel.kernelND.GeoRayND -> geogebra.common.l.m.A:
    boolean keepsTypeOnGeometricTransform() -> F
    geogebra.common.kernel.geos.GeoElement copyFreeRay() -> c
geogebra.common.kernel.kernelND.GeoSegmentND -> geogebra.common.l.m.B:
    void setTwoPointsInhomCoords(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> c
    double getLength() -> d
    geogebra.common.kernel.geos.GeoElement getStartPointAsGeoElement() -> c
    geogebra.common.kernel.geos.GeoElement getEndPointAsGeoElement() -> d
    double getPointX(double) -> a_
    double getPointY(double) -> b
    void modifyInputPoints(geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    boolean isEqual(geogebra.common.kernel.kernelND.GeoSegmentND) -> a
    void setCoords(geogebra.common.kernel.MyPoint,geogebra.common.kernel.MyPoint) -> a
    geogebra.common.kernel.geos.GeoElement copyFreeSegment() -> e
geogebra.common.kernel.kernelND.GeoSurfaceCartesianND -> geogebra.common.l.m.C:
    geogebra.common.kernel.arithmetic.FunctionNVar[] fun -> a
    geogebra.common.kernel.arithmetic.FunctionNVar[][] fun1 -> a
    double[] startParam -> a
    double[] endParam -> b
    boolean isDefined -> a
    geogebra.common.kernel.arithmetic.Traversing$FunctionExpander functionExpander -> a
    void setDerivatives() -> d
    void resetDerivatives() -> h
    void replaceChildrenByValues(geogebra.common.kernel.geos.GeoElement) -> c
    void setIntervals(double[],double[]) -> a
    double getMinParameter(int) -> a
    double getMaxParameter(int) -> b
    void getXMLtags(java.lang.StringBuilder) -> a_
    boolean isDefined() -> a_
    void setUndefined() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    java.lang.String toValueString(geogebra.common.kernel.StringTemplate) -> b
    java.lang.String toSymbolicString(geogebra.common.kernel.StringTemplate) -> a_
    java.lang.String toLaTeXString(boolean,geogebra.common.kernel.StringTemplate) -> a
    boolean isGeoSurfaceCartesian() -> bf
geogebra.common.kernel.kernelND.GeoVecInterface -> geogebra.common.l.m.D:
    double getX() -> g_
    double getY() -> b
    double getZ() -> c
geogebra.common.kernel.kernelND.GeoVectorND -> geogebra.common.l.m.E:
    void setLabel(java.lang.String) -> e
    void setUndefined() -> b
    void setCoords(double[]) -> b
    geogebra.common.kernel.Matrix.Coords getCoordsInD3() -> c
    void updateStartPointPosition() -> c
    boolean isFinite() -> F
    void getInhomCoords(double[]) -> a
    boolean getTrace() -> a
    void setCoords(double,double,double) -> a
geogebra.common.kernel.kernelND.HasHeight -> geogebra.common.l.m.F:
    double getOrientedHeight() -> e
geogebra.common.kernel.kernelND.HasSegments -> geogebra.common.l.m.G:
    geogebra.common.kernel.kernelND.GeoSegmentND[] getSegments() -> a
geogebra.common.kernel.kernelND.HasVolume -> geogebra.common.l.m.H:
    double getVolume() -> c
    boolean hasFiniteVolume() -> B
geogebra.common.kernel.kernelND.Region3D -> geogebra.common.l.m.I:
    geogebra.common.kernel.Matrix.Coords getPoint(double,double) -> a_
    geogebra.common.kernel.Matrix.Coords[] getNormalProjection(geogebra.common.kernel.Matrix.Coords) -> a
    geogebra.common.kernel.Matrix.Coords[] getProjection(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords) -> a
geogebra.common.kernel.kernelND.RotateableND -> geogebra.common.l.m.J:
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void rotate(geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoLineND) -> a
geogebra.common.kernel.kernelND.SurfaceEvaluable -> geogebra.common.l.m.K:
    void evaluatePoint(double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    boolean evaluateNormal(geogebra.common.kernel.Matrix.Coords3,double,double,geogebra.common.kernel.Matrix.Coords3) -> a
    double getMinParameter(int) -> a
    double getMaxParameter(int) -> b
    void setDerivatives() -> d
    void resetDerivatives() -> h
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail getLevelOfDetail() -> a
    void setLevelOfDetail(geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail) -> a
geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail -> geogebra.common.l.m.K$a:
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail SPEED -> a
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail QUALITY -> b
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail[] ENUM$VALUES -> a
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail[] values() -> values
    geogebra.common.kernel.kernelND.SurfaceEvaluable$LevelOfDetail valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.kernelND.ViewCreator -> geogebra.common.l.m.L:
    void setEuclidianViewForPlane(geogebra.common.euclidian.EuclidianViewCompanion) -> a
    void setView2DVisible(boolean) -> b_
geogebra.common.kernel.locusequ.AlgoEnvelope -> geogebra.common.l.n.a:
    geogebra.common.kernel.geos.GeoPoint movingPoint -> a
    geogebra.common.kernel.geos.GeoElement path -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly geoPoly -> a
    geogebra.common.kernel.geos.GeoElement[] efficientInput -> b
    geogebra.common.kernel.geos.GeoElement[] standardInput -> c
    void setInputOutput() -> a_
    geogebra.common.kernel.implicit.GeoImplicitPoly getPoly() -> a
    void compute() -> b
    java.lang.String getImplicitPoly() -> a
    void addAlgoIfNotVisited(geogebra.common.kernel.locusequ.EquationList,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.locusequ.EquationScope,java.util.Set) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.locusequ.AlgoLocusEquation -> geogebra.common.l.n.b:
    geogebra.common.kernel.geos.GeoPoint movingPoint -> a
    geogebra.common.kernel.geos.GeoPoint locusPoint -> b
    geogebra.common.kernel.implicit.GeoImplicitPoly geoPoly -> a
    geogebra.common.kernel.geos.GeoElement[] efficientInput -> b
    geogebra.common.kernel.geos.GeoElement[] standardInput -> c
    geogebra.common.kernel.locusequ.EquationSystem old_system -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.implicit.GeoImplicitPoly getPoly() -> a
    void compute() -> b
    geogebra.common.kernel.locusequ.EquationSystem getOriginalIdeal() -> a
    void addAlgoIfNotVisited(geogebra.common.kernel.locusequ.EquationList,geogebra.common.kernel.algos.AlgoElement,geogebra.common.kernel.locusequ.EquationScope,java.util.Set) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.locusequ.CASTranslator -> geogebra.common.l.n.c:
    java.util.Set varsToEliminate -> a
    geogebra.common.kernel.Kernel kernel -> a
    java.lang.String getVarsToEliminate() -> a
    java.lang.String getVars() -> b
    java.util.Collection translate(geogebra.common.kernel.locusequ.EquationSystem) -> a
    java.lang.StringBuilder sum(java.lang.StringBuilder,java.lang.StringBuilder) -> a
    java.lang.StringBuilder diff(java.lang.StringBuilder,java.lang.StringBuilder) -> b
    java.lang.StringBuilder product(java.lang.StringBuilder,java.lang.StringBuilder) -> c
    java.lang.StringBuilder div(java.lang.StringBuilder,java.lang.StringBuilder) -> d
    java.lang.StringBuilder exp(java.lang.StringBuilder,long) -> a
    java.lang.StringBuilder number(double) -> a
    java.lang.StringBuilder auxiliarSymbolic(int) -> a
    java.lang.StringBuilder specialSymbolic(int) -> b
    java.lang.StringBuilder symbolic(int) -> c
    java.lang.StringBuilder opposite(java.lang.StringBuilder) -> a
    java.lang.StringBuilder sqrt(java.lang.StringBuilder) -> b
    double[][] eliminate(java.util.Collection) -> a
    double[][] getBivarPolyCoefficientsSingular(java.lang.String) -> a
    java.lang.String createSingularScript(java.util.Collection) -> a
    java.lang.String constructRestrictions(java.util.Collection) -> b
    java.lang.String convertFloatsToRationals(java.lang.String) -> a
    java.lang.Object auxiliarSymbolic(int) -> a
    java.lang.Object exp(java.lang.Object,long) -> a
    java.lang.Object specialSymbolic(int) -> b
    java.lang.Object symbolic(int) -> c
    java.lang.Object opposite(java.lang.Object) -> a
    java.lang.Object sqrt(java.lang.Object) -> b
    java.lang.Object number(double) -> a
    java.lang.Object diff(java.lang.Object,java.lang.Object) -> a
    java.lang.Object product(java.lang.Object,java.lang.Object) -> b
    java.lang.Object div(java.lang.Object,java.lang.Object) -> c
    java.lang.Object sum(java.lang.Object,java.lang.Object) -> d
geogebra.common.kernel.locusequ.CmdEnvelope -> geogebra.common.l.n.d:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly Envelope(java.lang.String,geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoPoint) -> a
geogebra.common.kernel.locusequ.CmdLocusEquation -> geogebra.common.l.n.e:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly LocusEquation(java.lang.String,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
geogebra.common.kernel.locusequ.EquationAuxiliarSymbolicPoint -> geogebra.common.l.n.f:
    java.util.List incidences -> a
    boolean addIncidence(geogebra.common.kernel.locusequ.EquationElement) -> a
    geogebra.common.kernel.locusequ.EquationList getRestrictions() -> a
geogebra.common.kernel.locusequ.EquationDependentPoint -> geogebra.common.l.n.g:
    geogebra.common.kernel.geos.GeoPoint p -> a
geogebra.common.kernel.locusequ.EquationElement -> geogebra.common.l.n.h:
    geogebra.common.kernel.geos.GeoElement result -> a
    geogebra.common.kernel.locusequ.EquationScope scope -> a
    geogebra.common.kernel.locusequ.EquationAuxiliarSymbolicPoint getNewIncidentPoint() -> a
    geogebra.common.kernel.locusequ.EquationScope getScope() -> a
    void setScope(geogebra.common.kernel.locusequ.EquationScope) -> a
    geogebra.common.kernel.locusequ.EquationList forPoint(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.locusequ.EquationScope) -> a
    geogebra.common.kernel.locusequ.EquationList forPoint(geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    boolean isAlgebraic() -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void setResult(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.locusequ.EquationElementMap -> geogebra.common.l.n.i:
    java.util.Map container -> a
    geogebra.common.kernel.locusequ.EquationScope scope -> a
    geogebra.common.kernel.locusequ.EquationElement get(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.locusequ.EquationElement put(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.locusequ.EquationElement) -> a
    geogebra.common.kernel.locusequ.EquationElement getOrCreate(geogebra.common.kernel.geos.GeoElement) -> b
    geogebra.common.kernel.algos.EquationElementInterface createEquationElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.locusequ.EquationFreePoint -> geogebra.common.l.n.j:
    geogebra.common.kernel.locusequ.arith.EquationNumericValue x -> a
    geogebra.common.kernel.locusequ.arith.EquationNumericValue y -> b
    geogebra.common.kernel.locusequ.arith.EquationNumericValue z -> c
    geogebra.common.kernel.geos.GeoPoint p -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
    boolean isIndependent() -> a
geogebra.common.kernel.locusequ.EquationHelpers -> geogebra.common.l.n.k:
    geogebra.common.kernel.geos.GeoPoint[] getDependentPredecessorPointsForElement(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.common.kernel.locusequ.EquationList -> geogebra.common.l.n.l:
    geogebra.common.kernel.locusequ.EquationList emptyList -> a
    boolean isAlgebraic -> a
    geogebra.common.kernel.locusequ.arith.Equation set(int,geogebra.common.kernel.locusequ.arith.Equation) -> a
    boolean add(geogebra.common.kernel.locusequ.arith.Equation) -> a
    void add(int,geogebra.common.kernel.locusequ.arith.Equation) -> a
    geogebra.common.kernel.locusequ.arith.Equation remove(int) -> a
    boolean remove(java.lang.Object) -> remove
    boolean addAll(java.util.Collection) -> addAll
    boolean addAll(int,java.util.Collection) -> addAll
    void updateAlgebraic() -> a
    geogebra.common.kernel.locusequ.EquationList getEmptyList() -> a
    void setAlgebraic(boolean) -> a
    void add(int,java.lang.Object) -> add
    boolean add(java.lang.Object) -> add
    java.lang.Object set(int,java.lang.Object) -> set
    java.lang.Object remove(int) -> remove
geogebra.common.kernel.locusequ.EquationList$EmptyEquationList -> geogebra.common.l.n.l$a:
    geogebra.common.kernel.locusequ.arith.Equation set(int,geogebra.common.kernel.locusequ.arith.Equation) -> a
    boolean add(geogebra.common.kernel.locusequ.arith.Equation) -> a
    void add(int,geogebra.common.kernel.locusequ.arith.Equation) -> a
    geogebra.common.kernel.locusequ.arith.Equation remove(int) -> a
    boolean remove(java.lang.Object) -> remove
    boolean addAll(java.util.Collection) -> addAll
    boolean addAll(int,java.util.Collection) -> addAll
geogebra.common.kernel.locusequ.EquationMidpoint -> geogebra.common.l.n.m:
    geogebra.common.kernel.locusequ.EquationPoint a -> a
    geogebra.common.kernel.locusequ.EquationPoint b -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
    boolean isIndependent() -> a
geogebra.common.kernel.locusequ.EquationNormalPoint -> geogebra.common.l.n.n:
    geogebra.common.kernel.locusequ.EquationPoint point -> a
    boolean isIndependent() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
geogebra.common.kernel.locusequ.EquationPoint -> geogebra.common.l.n.o:
    geogebra.common.kernel.locusequ.arith.EquationExpression xExpr -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression yExpr -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression zExpr -> c
    geogebra.common.kernel.locusequ.EquationPoint ORIGIN -> b
    geogebra.common.kernel.locusequ.EquationPoint fromCoordinates(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.EquationPoint fromCoordinates(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    boolean isIndependent() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getX() -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getY() -> e
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression getZ() -> f
    java.util.Collection getVariables() -> a
geogebra.common.kernel.locusequ.EquationPoint$1 -> geogebra.common.l.n.p:
    boolean isIndependent() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
geogebra.common.kernel.locusequ.EquationPoint$2 -> geogebra.common.l.n.q:
    geogebra.common.kernel.locusequ.arith.EquationExpression val$x -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression val$y -> e
    geogebra.common.kernel.locusequ.arith.EquationExpression val$z -> f
    boolean isIndependent() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
geogebra.common.kernel.locusequ.EquationPointMap -> geogebra.common.l.n.r:
    geogebra.common.kernel.geos.GeoPoint locusPoint -> a
    geogebra.common.kernel.geos.GeoPoint movingPoint -> b
    int curInd -> a
    java.util.Map container -> a
    java.util.Map identifications -> b
    geogebra.common.kernel.locusequ.EquationPoint get(geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.locusequ.EquationPoint getOrCreate(geogebra.common.kernel.geos.GeoPoint) -> b
    geogebra.common.kernel.locusequ.EquationPoint constructEquationPoint(geogebra.common.kernel.geos.GeoPoint) -> c
    boolean mustTakeNumericCoordinates(geogebra.common.kernel.geos.GeoPoint) -> a
    boolean isAuxiliarPointOnAPolygon(geogebra.common.kernel.geos.GeoPoint) -> e
    boolean isIntersectionOfAxis(geogebra.common.kernel.geos.GeoPoint) -> b
    boolean isPointOnPath(geogebra.common.kernel.geos.GeoPoint) -> c
    boolean hasMovingPointAsPredecessor(geogebra.common.kernel.geos.GeoPoint) -> d
    java.util.Collection getAllPoints() -> a
    void put(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.locusequ.EquationPoint) -> a
geogebra.common.kernel.locusequ.EquationRestriction -> geogebra.common.l.n.s:
    geogebra.common.kernel.algos.AlgoElement algo -> a
    geogebra.common.kernel.locusequ.EquationList equationList -> a
    geogebra.common.kernel.algos.AlgoElement getAlgo() -> a
    void setEquationList(geogebra.common.kernel.locusequ.EquationList) -> a
    geogebra.common.kernel.locusequ.EquationList getEquationList() -> a
    void computeEquationList() -> a
    geogebra.common.kernel.geos.GeoPoint getResult() -> a
    geogebra.common.kernel.locusequ.EquationElement getEmptyRestriction() -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
geogebra.common.kernel.locusequ.EquationRestriction$1 -> geogebra.common.l.n.t:
    boolean isAlgebraic() -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    void computeEquationList() -> a
geogebra.common.kernel.locusequ.EquationScope -> geogebra.common.l.n.u:
    geogebra.common.kernel.locusequ.EquationPointMap pointMap -> a
    geogebra.common.kernel.locusequ.EquationElementMap elementsMap -> a
    java.util.Set auxiliarPoints -> a
    int auxPointIndex -> a
    void initAuxiliarPoints() -> a
    java.util.Collection getAllPoints() -> a
    java.util.Collection getAllVariables() -> b
    geogebra.common.kernel.locusequ.EquationPoint getPoint(geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.locusequ.EquationElement getElement(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.locusequ.EquationList getRestrictionsFromAlgo(geogebra.common.kernel.algos.AlgoElement) -> a
    void addPoint(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.EquationAuxiliarSymbolicPoint getNewAuxiliarPoint() -> a
    void registerAuxiliarPoint(geogebra.common.kernel.locusequ.EquationAuxiliarSymbolicPoint) -> a
    java.util.Set getAuxiliarSymbolicPoints() -> a
geogebra.common.kernel.locusequ.EquationSpecialSymbolicPoint -> geogebra.common.l.n.v:
    geogebra.common.kernel.geos.GeoPoint p -> a
geogebra.common.kernel.locusequ.EquationSymbolicPoint -> geogebra.common.l.n.w:
    java.lang.String DEPENDENT_POINT_ID -> a
    java.lang.String SPECIAL_SYMBOLIC_ID -> b
    java.lang.String AUXILIAR_SYMBOLIC_ID -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression x -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression y -> e
    geogebra.common.kernel.locusequ.arith.EquationExpression z -> f
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
geogebra.common.kernel.locusequ.EquationSystem -> geogebra.common.l.n.x:
    geogebra.common.kernel.locusequ.EquationList el -> a
    geogebra.common.kernel.locusequ.EquationScope scope -> a
    geogebra.common.kernel.locusequ.EquationList getEquations() -> a
    boolean looksSame(geogebra.common.kernel.locusequ.EquationSystem) -> a
geogebra.common.kernel.locusequ.EquationTranslator -> geogebra.common.l.n.y:
    java.util.Map container -> a
    geogebra.common.kernel.locusequ.EquationSystem system -> a
    void setSystem(geogebra.common.kernel.locusequ.EquationSystem) -> a
    java.util.Collection translate(geogebra.common.kernel.locusequ.EquationSystem) -> a
    geogebra.common.kernel.locusequ.EquationSystem getSystem() -> a
    java.lang.Object sum(java.lang.Object,java.lang.Object) -> d
    java.lang.Object diff(java.lang.Object,java.lang.Object) -> a
    java.lang.Object product(java.lang.Object,java.lang.Object) -> b
    java.lang.Object div(java.lang.Object,java.lang.Object) -> c
    java.lang.Object exp(java.lang.Object,long) -> a
    java.lang.Object number(double) -> a
    java.lang.Object auxiliarSymbolic(int) -> a
    java.lang.Object specialSymbolic(int) -> b
    java.lang.Object symbolic(int) -> c
    java.lang.Object opposite(java.lang.Object) -> a
    java.lang.Object sqrt(java.lang.Object) -> b
    double[][] eliminateSystem(geogebra.common.kernel.locusequ.EquationSystem) -> a
    double[][] eliminate(java.util.Collection) -> a
geogebra.common.kernel.locusequ.EquationUnitaryPoint -> geogebra.common.l.n.z:
    geogebra.common.kernel.locusequ.EquationPoint point -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression module -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
geogebra.common.kernel.locusequ.SumVector -> geogebra.common.l.n.A:
    geogebra.common.kernel.locusequ.SymbolicVector vector1 -> a
    geogebra.common.kernel.locusequ.SymbolicVector vector2 -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
geogebra.common.kernel.locusequ.SymbolicVector -> geogebra.common.l.n.B:
    geogebra.common.kernel.locusequ.EquationPoint a -> a
    geogebra.common.kernel.locusequ.EquationPoint b -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression module -> d
    geogebra.common.kernel.locusequ.SymbolicVector normal -> a
    geogebra.common.kernel.locusequ.SymbolicVector unitary -> b
    geogebra.common.kernel.locusequ.SymbolicVector normal() -> a
    geogebra.common.kernel.locusequ.SymbolicVector getNormal() -> b
    boolean isFirstCoordinateZero() -> b
    boolean isSecondCoordinateZero() -> c
    boolean isIndependent() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getXExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getYExpression() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getZExpression() -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression getModule() -> g
    geogebra.common.kernel.locusequ.SymbolicVector getUnitary() -> c
    geogebra.common.kernel.locusequ.SymbolicVector getBisector(geogebra.common.kernel.locusequ.SymbolicVector) -> a
    geogebra.common.kernel.locusequ.SymbolicVector sum(geogebra.common.kernel.locusequ.SymbolicVector) -> b
geogebra.common.kernel.locusequ.arith.Equation -> geogebra.common.l.n.a.a:
    geogebra.common.kernel.locusequ.arith.EquationExpression equ -> a
    boolean algebraic -> a
    boolean isAlgebraic() -> a
    geogebra.common.kernel.locusequ.EquationList toList() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getExpression() -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.locusequ.arith.EquationArithHelper -> geogebra.common.l.n.a.b:
    geogebra.common.kernel.locusequ.arith.Equation equation(geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression sqr(geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression dbl(geogebra.common.kernel.locusequ.arith.EquationExpression) -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression sqrt(geogebra.common.kernel.locusequ.arith.EquationExpression) -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression pow(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression half(geogebra.common.kernel.locusequ.arith.EquationExpression) -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression mid(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression middle(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression det3(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression det4(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression det5(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression sum(geogebra.common.kernel.locusequ.arith.EquationExpression[]) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression sumRaw(geogebra.common.kernel.locusequ.arith.EquationExpression[]) -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression diff(geogebra.common.kernel.locusequ.arith.EquationExpression[]) -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression times(geogebra.common.kernel.locusequ.arith.EquationExpression[]) -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression timesRaw(geogebra.common.kernel.locusequ.arith.EquationExpression[]) -> e
    geogebra.common.kernel.locusequ.arith.EquationExpression div(geogebra.common.kernel.locusequ.arith.EquationExpression,geogebra.common.kernel.locusequ.arith.EquationExpression) -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression dist(geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression dist2(geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.EquationPoint) -> b
geogebra.common.kernel.locusequ.arith.EquationAuxiliarSymbolicValue -> geogebra.common.l.n.a.c:
    boolean isAuxiliarSymbolicValue() -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.locusequ.arith.EquationBinaryOperator -> geogebra.common.l.n.a.d:
    geogebra.common.kernel.locusequ.arith.EquationExpression getFirstExpression() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getSecondExpression() -> b
    double operation(double,double) -> a
    double computeValueImpl() -> a
geogebra.common.kernel.locusequ.arith.EquationCoordinateValue -> geogebra.common.l.n.a.e:
    geogebra.common.kernel.locusequ.EquationPoint point -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getOriginalExpression() -> a
    geogebra.common.kernel.locusequ.EquationPoint getPoint() -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
    boolean isNumericValue() -> b
    boolean isSymbolicValue() -> c
    boolean isSpecialSymbolicValue() -> d
    boolean containsSymbolicValuesImpl() -> e
    double computeValueImpl() -> a
geogebra.common.kernel.locusequ.arith.EquationDiffOperator -> geogebra.common.l.n.a.f:
    long toLong() -> a
    java.lang.String toString() -> toString
    double operation(double,double) -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationDivOperator -> geogebra.common.l.n.a.g:
    geogebra.common.kernel.locusequ.arith.EquationExpression getNumerator() -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression getDenominator() -> d
    long toLong() -> a
    java.lang.String toString() -> toString
    double operation(double,double) -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationExpOperator -> geogebra.common.l.n.a.h:
    geogebra.common.kernel.locusequ.arith.EquationExpression getBase() -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression getExp() -> d
    long toLong() -> a
    java.lang.String toString() -> toString
    double operation(double,double) -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationExpression -> geogebra.common.l.n.a.i:
    geogebra.common.kernel.locusequ.arith.EquationExpression opposite -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression inverse -> b
    java.lang.Boolean containsSymbolicValues -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getOpposite() -> e
    boolean isNumericValue() -> b
    boolean isAuxiliarSymbolicValue() -> a
    boolean isSymbolicValue() -> c
    boolean isSpecialSymbolicValue() -> d
    boolean isAnySymbolicValue() -> f
    boolean containsSymbolicValues() -> g
    boolean containsSymbolicValuesImpl() -> e
    double computeValue() -> b
    double computeValueImpl() -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
    java.lang.Object translate(geogebra.common.kernel.locusequ.EquationTranslator) -> b
    long toLong() -> a
    boolean isSimplifiable() -> h
    java.lang.String toString() -> toString
geogebra.common.kernel.locusequ.arith.EquationFirstCoordinateValue -> geogebra.common.l.n.a.j:
    geogebra.common.kernel.locusequ.arith.EquationExpression getOriginalExpression() -> a
geogebra.common.kernel.locusequ.arith.EquationNumericValue -> geogebra.common.l.n.a.k:
    double value -> a
    geogebra.common.kernel.locusequ.arith.EquationNumericValue ZERO -> a
    geogebra.common.kernel.locusequ.arith.EquationNumericValue ONE -> b
    geogebra.common.kernel.locusequ.arith.EquationNumericValue TWO -> c
    geogebra.common.kernel.locusequ.arith.EquationNumericValue from(double) -> a
    double getValue() -> c
    boolean isNumericValue() -> b
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
    boolean containsSymbolicValuesImpl() -> e
    double computeValueImpl() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getOpposite() -> e
geogebra.common.kernel.locusequ.arith.EquationOperator -> geogebra.common.l.n.a.l:
    geogebra.common.kernel.locusequ.arith.EquationExpression[] exprs -> a
    boolean containsSymbolicValuesImpl() -> e
geogebra.common.kernel.locusequ.arith.EquationOppositeOperator -> geogebra.common.l.n.a.m:
    geogebra.common.kernel.locusequ.arith.EquationExpression getOpposite() -> e
    double operation(double) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationProductOperator -> geogebra.common.l.n.a.n:
    long toLong() -> a
    java.lang.String toString() -> toString
    double operation(double,double) -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationSecondCoordinateValue -> geogebra.common.l.n.a.o:
    geogebra.common.kernel.locusequ.arith.EquationExpression getOriginalExpression() -> a
geogebra.common.kernel.locusequ.arith.EquationSpecialSymbolicValue -> geogebra.common.l.n.a.p:
    boolean isSpecialSymbolicValue() -> d
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
geogebra.common.kernel.locusequ.arith.EquationSqrtOperator -> geogebra.common.l.n.a.q:
    double operation(double) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationSumOperator -> geogebra.common.l.n.a.r:
    long toLong() -> a
    java.lang.String toString() -> toString
    double operation(double,double) -> a
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
geogebra.common.kernel.locusequ.arith.EquationSymbolicValue -> geogebra.common.l.n.a.s:
    int id -> a
    int getId() -> a
    boolean isSymbolicValue() -> c
    java.lang.Object translateImpl(geogebra.common.kernel.locusequ.EquationTranslator) -> a
    long toLong() -> a
    java.lang.String toString() -> toString
    boolean containsSymbolicValuesImpl() -> e
    double computeValueImpl() -> a
geogebra.common.kernel.locusequ.arith.EquationThirdCoordinateValue -> geogebra.common.l.n.a.t:
    geogebra.common.kernel.locusequ.arith.EquationExpression getOriginalExpression() -> a
geogebra.common.kernel.locusequ.arith.EquationUnaryOperator -> geogebra.common.l.n.a.u:
    geogebra.common.kernel.locusequ.arith.EquationExpression getOriginalExpression() -> a
    boolean containsSymbolicValuesImpl() -> e
    double operation(double) -> a
    double computeValueImpl() -> a
geogebra.common.kernel.locusequ.arith.EquationValue -> geogebra.common.l.n.a.v:
geogebra.common.kernel.locusequ.elements.EquationAngularBisectorLines -> geogebra.common.l.n.b.a:
geogebra.common.kernel.locusequ.elements.EquationAngularBisectorPoints -> geogebra.common.l.n.b.b:
geogebra.common.kernel.locusequ.elements.EquationCirclePointRadius -> geogebra.common.l.n.b.c:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationCircleThreePoints -> geogebra.common.l.n.b.d:
    geogebra.common.kernel.geos.GeoPoint p -> a
    geogebra.common.kernel.geos.GeoPoint q -> b
    geogebra.common.kernel.geos.GeoPoint r -> c
    geogebra.common.kernel.locusequ.EquationPoint pequ -> a
    geogebra.common.kernel.locusequ.EquationPoint qequ -> b
    geogebra.common.kernel.locusequ.EquationPoint requ -> c
    boolean isAlgebraic() -> a
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationCircleTwoPoints -> geogebra.common.l.n.b.e:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationConicFivePoints -> geogebra.common.l.n.b.f:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationConicPartCircle -> geogebra.common.l.n.b.g:
    void computeMatrix() -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
geogebra.common.kernel.locusequ.elements.EquationConicPartCircumcircle -> geogebra.common.l.n.b.h:
    void computeMatrix() -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
geogebra.common.kernel.locusequ.elements.EquationDiameterLine -> geogebra.common.l.n.b.i:
geogebra.common.kernel.locusequ.elements.EquationEllipseFociLength -> geogebra.common.l.n.b.j:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationEllipseFociPoint -> geogebra.common.l.n.b.k:
    geogebra.common.kernel.geos.GeoPoint f1 -> a
    geogebra.common.kernel.geos.GeoPoint f2 -> b
    geogebra.common.kernel.geos.GeoPoint ep -> c
    geogebra.common.kernel.locusequ.EquationPoint ef1 -> a
    geogebra.common.kernel.locusequ.EquationPoint ef2 -> b
    geogebra.common.kernel.locusequ.EquationPoint eep -> c
    geogebra.common.kernel.locusequ.EquationPoint center -> d
    geogebra.common.kernel.locusequ.arith.EquationExpression distance -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression a2 -> b
    geogebra.common.kernel.locusequ.SymbolicVector ev1 -> a
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationFreeLine -> geogebra.common.l.n.b.l:
    geogebra.common.kernel.geos.GeoPoint q -> a
    geogebra.common.kernel.locusequ.EquationPoint qequ -> a
geogebra.common.kernel.locusequ.elements.EquationGenericAngularBisector -> geogebra.common.l.n.b.m:
    void setVectors(geogebra.common.kernel.locusequ.SymbolicVector,geogebra.common.kernel.locusequ.SymbolicVector) -> a
geogebra.common.kernel.locusequ.elements.EquationGenericBisector -> geogebra.common.l.n.b.n:
    void setExtremePoints(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void setExtremePoints(geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.EquationPoint) -> a
geogebra.common.kernel.locusequ.elements.EquationGenericConic -> geogebra.common.l.n.b.o:
    geogebra.common.kernel.locusequ.arith.EquationExpression[] matrix -> a
    java.util.Map polarLines -> a
    void computeMatrix() -> a
    void setMatrix(geogebra.common.kernel.locusequ.arith.EquationExpression[]) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression[] getMatrix() -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    boolean isAlgebraic() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression[] getPolarLineCoefficientsFor(geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.elements.EquationPolarLine getPolarLine(geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression[] matrixForCircle(geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression[] matrixForCircle(geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression ssqr(geogebra.common.kernel.locusequ.EquationPoint) -> a
    void setEllipseHyperbola(geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.EquationPoint,geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
geogebra.common.kernel.locusequ.elements.EquationGenericConicPart -> geogebra.common.l.n.b.p:
    boolean isAlgebraic() -> a
    boolean isSector() -> b
    geogebra.common.kernel.locusequ.EquationList orAllExpressions(geogebra.common.kernel.locusequ.EquationList) -> a
geogebra.common.kernel.locusequ.elements.EquationGenericLine -> geogebra.common.l.n.b.q:
    geogebra.common.kernel.locusequ.SymbolicVector vector -> a
    geogebra.common.kernel.locusequ.EquationPoint pequ -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression a -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression b -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression c -> c
    void setPoint(geogebra.common.kernel.geos.GeoPoint) -> a
    void setPoint(geogebra.common.kernel.locusequ.EquationPoint) -> a
    geogebra.common.kernel.locusequ.EquationPoint getEquationPoint() -> a
    geogebra.common.kernel.locusequ.SymbolicVector getVector() -> a
    void setVector(geogebra.common.kernel.locusequ.SymbolicVector) -> a
    boolean isHorizonta() -> b
    boolean isVertical() -> c
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    boolean isAlgebraic() -> a
    void setA(geogebra.common.kernel.locusequ.arith.EquationExpression) -> a
    void setB(geogebra.common.kernel.locusequ.arith.EquationExpression) -> b
    void setC(geogebra.common.kernel.locusequ.arith.EquationExpression) -> c
    geogebra.common.kernel.locusequ.arith.EquationExpression getA() -> a
    geogebra.common.kernel.locusequ.arith.EquationExpression getB() -> b
    geogebra.common.kernel.locusequ.arith.EquationExpression getC() -> c
    geogebra.common.kernel.locusequ.SymbolicVector getVectorFromABC() -> b
geogebra.common.kernel.locusequ.elements.EquationGenericMidpointRestriction -> geogebra.common.l.n.b.r:
    geogebra.common.kernel.geos.GeoPoint firstEnd -> a
    geogebra.common.kernel.geos.GeoPoint secondEnd -> b
    geogebra.common.kernel.geos.GeoPoint midpoint -> c
    void setEnds(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint) -> a
    void setMidpoint(geogebra.common.kernel.geos.GeoPoint) -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    boolean isAlgebraic() -> a
    geogebra.common.kernel.geos.GeoPoint getFirstEnd() -> b
    geogebra.common.kernel.geos.GeoPoint getSecondEnd() -> c
    geogebra.common.kernel.geos.GeoPoint getMidpoint() -> d
geogebra.common.kernel.locusequ.elements.EquationGenericPolygon -> geogebra.common.l.n.b.s:
    geogebra.common.kernel.geos.GeoSegment[] segments -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    geogebra.common.kernel.geos.GeoSegment[] getSegments() -> a
    void setSegments(geogebra.common.kernel.kernelND.GeoSegmentND[]) -> a
    boolean isAlgebraic() -> a
geogebra.common.kernel.locusequ.elements.EquationGenericRay -> geogebra.common.l.n.b.t:
    boolean isAlgebraic() -> a
geogebra.common.kernel.locusequ.elements.EquationGenericSegment -> geogebra.common.l.n.b.u:
    boolean isAlgebraic() -> a
geogebra.common.kernel.locusequ.elements.EquationHyperbolaFociLength -> geogebra.common.l.n.b.v:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationHyperbolaFociPoint -> geogebra.common.l.n.b.w:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationIntersectConicsRestriction -> geogebra.common.l.n.b.x:
    geogebra.common.kernel.locusequ.EquationElement firstConic -> a
    geogebra.common.kernel.locusequ.EquationElement secondConic -> b
    geogebra.common.kernel.algos.AlgoIntersectConics getAlgo() -> a
    geogebra.common.kernel.locusequ.EquationElement getFirstConic() -> b
    geogebra.common.kernel.locusequ.EquationElement getSecondConic() -> c
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    geogebra.common.kernel.algos.AlgoIntersect getAlgo() -> a
geogebra.common.kernel.locusequ.elements.EquationIntersectLineConicRestriction -> geogebra.common.l.n.b.y:
    geogebra.common.kernel.locusequ.EquationElement line -> a
    geogebra.common.kernel.locusequ.EquationElement conic -> b
    geogebra.common.kernel.algos.AlgoIntersectLineConic getAlgo() -> a
    geogebra.common.kernel.locusequ.EquationElement getLine() -> b
    geogebra.common.kernel.locusequ.EquationElement getConic() -> c
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    geogebra.common.kernel.algos.AlgoIntersect getAlgo() -> a
geogebra.common.kernel.locusequ.elements.EquationIntersectLinesRestriction -> geogebra.common.l.n.b.z:
    geogebra.common.kernel.algos.AlgoIntersectLines getAlgo() -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    boolean isAlgebraic() -> a
    geogebra.common.kernel.algos.AlgoElement getAlgo() -> a
geogebra.common.kernel.locusequ.elements.EquationIntersectRestriction -> geogebra.common.l.n.b.A:
    geogebra.common.kernel.algos.AlgoIntersect getAlgo() -> a
    void computeEquationList() -> a
    boolean isAlgebraic() -> a
    geogebra.common.kernel.algos.AlgoElement getAlgo() -> a
geogebra.common.kernel.locusequ.elements.EquationIntersectSingleRestriction -> geogebra.common.l.n.b.B:
    geogebra.common.kernel.locusequ.EquationRestriction internalRestriction -> a
    void computeEquationList() -> a
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
geogebra.common.kernel.locusequ.elements.EquationJoinPoints -> geogebra.common.l.n.b.C:
    geogebra.common.kernel.geos.GeoPoint q -> a
    geogebra.common.kernel.locusequ.EquationPoint qequ -> a
geogebra.common.kernel.locusequ.elements.EquationJoinPointsRay -> geogebra.common.l.n.b.D:
geogebra.common.kernel.locusequ.elements.EquationJoinPointsSegment -> geogebra.common.l.n.b.E:
    geogebra.common.kernel.geos.GeoPoint q -> a
    geogebra.common.kernel.locusequ.EquationPoint qequ -> a
geogebra.common.kernel.locusequ.elements.EquationLineBisector -> geogebra.common.l.n.b.F:
geogebra.common.kernel.locusequ.elements.EquationLineBisectorSegment -> geogebra.common.l.n.b.G:
    boolean isAlgebraic() -> a
geogebra.common.kernel.locusequ.elements.EquationLinePointLine -> geogebra.common.l.n.b.H:
    geogebra.common.kernel.geos.GeoLine l -> a
    geogebra.common.kernel.locusequ.elements.EquationGenericLine lequ -> a
geogebra.common.kernel.locusequ.elements.EquationMidpointRestriction -> geogebra.common.l.n.b.I:
geogebra.common.kernel.locusequ.elements.EquationMidpointSegmentRestriction -> geogebra.common.l.n.b.J:
geogebra.common.kernel.locusequ.elements.EquationMirrorRestriction -> geogebra.common.l.n.b.K:
geogebra.common.kernel.locusequ.elements.EquationOrthoLinePointLine -> geogebra.common.l.n.b.L:
    geogebra.common.kernel.geos.GeoLine lParam -> a
    geogebra.common.kernel.locusequ.elements.EquationGenericLine lParamEqu -> a
geogebra.common.kernel.locusequ.elements.EquationParabolaPointLine -> geogebra.common.l.n.b.M:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationPointOnPathRestriction -> geogebra.common.l.n.b.N:
    geogebra.common.kernel.locusequ.EquationList forPointImpl(geogebra.common.kernel.locusequ.EquationPoint) -> b
    boolean isAlgebraic() -> a
geogebra.common.kernel.locusequ.elements.EquationPolarLine -> geogebra.common.l.n.b.O:
    void getCoefficientsFromConic(geogebra.common.kernel.locusequ.elements.EquationGenericConic,geogebra.common.kernel.locusequ.EquationPoint) -> a
geogebra.common.kernel.locusequ.elements.EquationPolygon -> geogebra.common.l.n.b.P:
geogebra.common.kernel.locusequ.elements.EquationPolygonRegular -> geogebra.common.l.n.b.Q:
geogebra.common.kernel.locusequ.elements.EquationSemicircle -> geogebra.common.l.n.b.R:
    void computeMatrix() -> a
geogebra.common.kernel.locusequ.elements.EquationTangentPoint -> geogebra.common.l.n.b.S:
geogebra.common.kernel.optimization.ExtremumFinder -> geogebra.common.l.o.a:
    int MAX_ITERATIONS -> a
    double findMaximum(double,double,geogebra.common.kernel.roots.RealRootFunction,double) -> a
    double findMinimum(double,double,geogebra.common.kernel.roots.RealRootFunction,double) -> b
geogebra.common.kernel.optimization.FitRealFunction -> geogebra.common.l.o.b:
    geogebra.common.kernel.Kernel kernel -> a
    int numberOfParameters -> a
    java.lang.Object[] gliders -> a
    geogebra.common.kernel.arithmetic.Function newf -> a
    double lastvalue -> a
    geogebra.common.kernel.arithmetic.MyDouble[] mydoubles -> a
    boolean parametersOK -> a
    double value(double,double[]) -> a
    double[] gradient(double,double[]) -> a
    void setFunction(geogebra.common.kernel.arithmetic.Function) -> a
    double[] getStartValues() -> a
    geogebra.common.kernel.arithmetic.Function getFunction() -> a
    geogebra.common.kernel.arithmetic.MyDouble[] getCoeffs() -> a
geogebra.common.kernel.optimization.NegativeRealRootFunction -> geogebra.common.l.o.c:
    geogebra.common.kernel.roots.RealRootFunction f -> a
    double evaluate(double) -> a
geogebra.common.kernel.optimization.RealRootFunctionVariable -> geogebra.common.l.o.d:
    geogebra.common.kernel.arithmetic.NumberValue geodep -> a
    geogebra.common.kernel.geos.GeoNumeric geoindep -> a
    double evaluate(double) -> a
geogebra.common.kernel.parser.ParseException -> geogebra.common.l.p.a:
    geogebra.common.kernel.parser.Token currentToken -> a
    int[][] expectedTokenSequences -> a
    java.lang.String[] tokenImage -> a
    java.lang.String eol -> a
    java.lang.String initialise(geogebra.common.kernel.parser.Token,int[][],java.lang.String[]) -> a
    java.lang.String add_escapes(java.lang.String) -> a
geogebra.common.kernel.parser.Parser -> geogebra.common.l.p.b:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    geogebra.common.main.Localization loc -> a
    boolean GeoGebraCASParsing -> a
    boolean ExternalCASParsing -> b
    boolean GiacParsing -> c
    java.util.ArrayList undecided -> a
    geogebra.common.kernel.parser.ParserTokenManager token_source -> a
    geogebra.common.kernel.parser.SimpleCharStream jj_input_stream -> a
    geogebra.common.kernel.parser.Token token -> a
    geogebra.common.kernel.parser.Token jj_nt -> b
    int jj_ntk -> a
    geogebra.common.kernel.parser.Token jj_scanpos -> c
    geogebra.common.kernel.parser.Token jj_lastpos -> d
    int jj_la -> b
    boolean jj_lookingAhead -> d
    boolean jj_semLA -> e
    int jj_gen -> c
    int[] jj_la1 -> a
    int[] jj_la1_0 -> b
    int[] jj_la1_1 -> c
    int[] jj_la1_2 -> d
    geogebra.common.kernel.parser.Parser$JJCalls[] jj_2_rtns -> a
    boolean jj_rescan -> f
    int jj_gc -> d
    geogebra.common.kernel.parser.Parser$LookaheadSuccess jj_ls -> a
    java.util.List jj_expentries -> a
    int[] jj_expentry -> e
    int jj_kind -> e
    int[] jj_lasttokens -> f
    int jj_endpos -> f
    void myReInit(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraExpression(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraCAS(java.lang.String) -> b
    geogebra.common.kernel.arithmetic.ValidExpression parseGiac(java.lang.String) -> c
    geogebra.common.kernel.arithmetic.Function parseFunction(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.FunctionNVar parseFunctionNVar(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode parseCmdExpression(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode parseExpression(java.lang.String) -> b
    java.lang.String parseLabel(java.lang.String) -> a
    geogebra.common.kernel.arithmetic.ExpressionNode makePower(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue) -> a
    void processUndecided() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode buildOpNode(geogebra.common.plugin.Operation,geogebra.common.kernel.arithmetic.MyList) -> a
    geogebra.common.kernel.arithmetic.ValidExpression buildValidExpression() -> a
    geogebra.common.kernel.arithmetic.ValidExpression buildCASExpression() -> b
    geogebra.common.kernel.arithmetic.ValidExpression buildGiacExpression() -> d
    geogebra.common.kernel.parser.Token label() -> a
    geogebra.common.kernel.parser.Token casVar() -> b
    geogebra.common.kernel.arithmetic.ValidExpression command() -> c
    java.util.Vector labellist() -> a
    geogebra.common.kernel.arithmetic.Equation equation() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode expression() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode cmdexpression() -> b
    geogebra.common.kernel.arithmetic.Function function() -> a
    geogebra.common.kernel.arithmetic.FunctionNVar functionNVar() -> a
    geogebra.common.kernel.arithmetic.ExpressionNode functionExpressionnode() -> c
    geogebra.common.kernel.arithmetic.FunctionNVar casFunction() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode expressionnode() -> d
    geogebra.common.kernel.arithmetic.ExpressionNode expressionOrEquation() -> e
    geogebra.common.kernel.arithmetic.ExpressionValue ANDterm() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue ORterm() -> b
    geogebra.common.kernel.arithmetic.ExpressionValue COMPAREterm() -> c
    geogebra.common.kernel.arithmetic.ExpressionValue plusminusnode() -> d
    geogebra.common.kernel.arithmetic.ExpressionValue setdifferencenode() -> e
    geogebra.common.kernel.arithmetic.ExpressionValue listopnode() -> f
    geogebra.common.kernel.arithmetic.ExpressionValue multterm() -> g
    geogebra.common.kernel.arithmetic.ExpressionValue divterm() -> h
    geogebra.common.kernel.arithmetic.ExpressionValue powerdivterm() -> i
    geogebra.common.kernel.arithmetic.ExpressionValue enunary() -> j
    geogebra.common.kernel.arithmetic.ExpressionValue enpower() -> k
    geogebra.common.kernel.arithmetic.ExpressionValue enfactorial() -> l
    geogebra.common.kernel.arithmetic.ExpressionValue ensqrt() -> m
    geogebra.common.kernel.arithmetic.ExpressionValue NOTterm() -> n
    geogebra.common.kernel.arithmetic.ExpressionValue enelement() -> o
    geogebra.common.kernel.arithmetic.ExpressionValue list() -> p
    geogebra.common.kernel.arithmetic.ExpressionValue numVecVariable() -> q
    geogebra.common.kernel.arithmetic.Command spreadsheetRange() -> a
    geogebra.common.kernel.arithmetic.ExpressionValue myDouble() -> r
    geogebra.common.kernel.arithmetic.ExpressionNode numberFunction() -> f
    geogebra.common.kernel.arithmetic.VectorValue cartesianvector() -> a
    geogebra.common.kernel.arithmetic3D.Vector3DValue cartesianvector3D() -> a
    geogebra.common.kernel.arithmetic.VectorValue polarvector() -> b
    geogebra.common.kernel.arithmetic3D.Vector3DValue sphericalvector() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode cartesianvector_special() -> g
    geogebra.common.kernel.arithmetic.ExpressionNode cartesianvector3D_special() -> h
    geogebra.common.kernel.arithmetic.ExpressionNode polarvector_special() -> i
    boolean jj_2_1(int) -> a
    boolean jj_2_2(int) -> b
    boolean jj_2_3(int) -> c
    boolean jj_2_4(int) -> d
    boolean jj_2_5(int) -> e
    boolean jj_2_6(int) -> f
    boolean jj_2_7(int) -> g
    boolean jj_2_8(int) -> h
    boolean jj_2_9(int) -> i
    boolean jj_2_10(int) -> j
    boolean jj_2_11(int) -> k
    boolean jj_2_12(int) -> l
    boolean jj_2_13(int) -> m
    boolean jj_2_14(int) -> n
    boolean jj_2_15(int) -> o
    boolean jj_2_16(int) -> p
    boolean jj_2_17(int) -> q
    boolean jj_2_18(int) -> r
    boolean jj_2_19(int) -> s
    boolean jj_2_20(int) -> t
    boolean jj_2_21(int) -> u
    boolean jj_2_22(int) -> v
    boolean jj_2_23(int) -> w
    boolean jj_2_24(int) -> x
    boolean jj_2_25(int) -> y
    boolean jj_2_26(int) -> z
    boolean jj_2_27(int) -> A
    boolean jj_2_28(int) -> B
    boolean jj_2_29(int) -> C
    boolean jj_2_30(int) -> D
    boolean jj_2_31(int) -> E
    boolean jj_3R_85() -> a
    boolean jj_3R_84() -> b
    boolean jj_3R_83() -> c
    boolean jj_3R_79() -> d
    boolean jj_3R_92() -> e
    boolean jj_3R_54() -> f
    boolean jj_3R_82() -> g
    boolean jj_3R_78() -> h
    boolean jj_3_17() -> i
    boolean jj_3R_74() -> j
    boolean jj_3R_70() -> k
    boolean jj_3R_53() -> l
    boolean jj_3R_33() -> m
    boolean jj_3R_126() -> n
    boolean jj_3R_76() -> o
    boolean jj_3R_69() -> p
    boolean jj_3R_48() -> q
    boolean jj_3R_68() -> r
    boolean jj_3R_45() -> s
    boolean jj_3R_47() -> t
    boolean jj_3R_24() -> u
    boolean jj_3R_122() -> v
    boolean jj_3R_121() -> w
    boolean jj_3R_28() -> x
    boolean jj_3R_50() -> y
    boolean jj_3R_75() -> z
    boolean jj_3R_49() -> A
    boolean jj_3R_67() -> B
    boolean jj_3R_120() -> C
    boolean jj_3R_119() -> D
    boolean jj_3R_118() -> E
    boolean jj_3R_27() -> F
    boolean jj_3R_25() -> G
    boolean jj_3R_64() -> H
    boolean jj_3R_117() -> I
    boolean jj_3R_129() -> J
    boolean jj_3R_36() -> K
    boolean jj_3R_116() -> L
    boolean jj_3R_26() -> M
    boolean jj_3R_115() -> N
    boolean jj_3R_128() -> O
    boolean jj_3R_30() -> P
    boolean jj_3R_20() -> Q
    boolean jj_3R_127() -> R
    boolean jj_3R_123() -> S
    boolean jj_3R_125() -> T
    boolean jj_3R_46() -> U
    boolean jj_3R_71() -> V
    boolean jj_3R_40() -> W
    boolean jj_3R_23() -> X
    boolean jj_3R_124() -> Y
    boolean jj_3R_112() -> Z
    boolean jj_3R_114() -> aa
    boolean jj_3R_111() -> ab
    boolean jj_3R_39() -> ac
    boolean jj_3R_110() -> ad
    boolean jj_3R_103() -> ae
    boolean jj_3R_109() -> af
    boolean jj_3R_19() -> ag
    boolean jj_3_31() -> ah
    boolean jj_3R_66() -> ai
    boolean jj_3R_38() -> aj
    boolean jj_3R_51() -> ak
    boolean jj_3R_113() -> al
    boolean jj_3R_52() -> am
    boolean jj_3_30() -> an
    boolean jj_3R_65() -> ao
    boolean jj_3R_37() -> ap
    boolean jj_3R_44() -> aq
    boolean jj_3R_29() -> ar
    boolean jj_3R_104() -> as
    boolean jj_3R_101() -> at
    boolean jj_3R_42() -> au
    boolean jj_3R_62() -> av
    boolean jj_3_15() -> aw
    boolean jj_3_29() -> ax
    boolean jj_3_14() -> ay
    boolean jj_3R_61() -> az
    boolean jj_3_13() -> aA
    boolean jj_3_12() -> aB
    boolean jj_3R_60() -> aC
    boolean jj_3R_34() -> aD
    boolean jj_3R_59() -> aE
    boolean jj_3_11() -> aF
    boolean jj_3R_43() -> aG
    boolean jj_3R_73() -> aH
    boolean jj_3R_32() -> aI
    boolean jj_3R_18() -> aJ
    boolean jj_3R_31() -> aK
    boolean jj_3_16() -> aL
    boolean jj_3R_97() -> aM
    boolean jj_3R_63() -> aN
    boolean jj_3_10() -> aO
    boolean jj_3R_35() -> aP
    boolean jj_3_28() -> aQ
    boolean jj_3_8() -> aR
    boolean jj_3_9() -> aS
    boolean jj_3_7() -> aT
    boolean jj_3_6() -> aU
    boolean jj_3R_81() -> aV
    boolean jj_3R_77() -> aW
    boolean jj_3R_108() -> aX
    boolean jj_3_27() -> aY
    boolean jj_3_26() -> aZ
    boolean jj_3R_95() -> ba
    boolean jj_3_25() -> bb
    boolean jj_3R_80() -> bc
    boolean jj_3_24() -> bd
    boolean jj_3_23() -> be
    boolean jj_3R_98() -> bf
    boolean jj_3_22() -> bg
    boolean jj_3R_94() -> bh
    boolean jj_3_21() -> bi
    boolean jj_3_5() -> bj
    boolean jj_3_20() -> bk
    boolean jj_3R_22() -> bl
    boolean jj_3R_72() -> bm
    boolean jj_3_4() -> bn
    boolean jj_3_19() -> bo
    boolean jj_3_3() -> bp
    boolean jj_3_18() -> bq
    boolean jj_3R_107() -> br
    boolean jj_3R_58() -> bs
    boolean jj_3_1() -> bt
    boolean jj_3_2() -> bu
    boolean jj_3R_106() -> bv
    boolean jj_3R_57() -> bw
    boolean jj_3R_102() -> bx
    boolean jj_3R_105() -> by
    boolean jj_3R_91() -> bz
    boolean jj_3R_41() -> bA
    boolean jj_3R_90() -> bB
    boolean jj_3R_56() -> bC
    boolean jj_3R_89() -> bD
    boolean jj_3R_100() -> bE
    boolean jj_3R_21() -> bF
    boolean jj_3R_88() -> bG
    boolean jj_3R_96() -> bH
    boolean jj_3R_99() -> bI
    boolean jj_3R_87() -> bJ
    boolean jj_3R_93() -> bK
    boolean jj_3R_86() -> bL
    boolean jj_3R_55() -> bM
    void jj_la1_init_0() -> b
    void jj_la1_init_1() -> c
    void jj_la1_init_2() -> d
    void ReInit(java.io.Reader) -> a
    geogebra.common.kernel.parser.Token jj_consume_token(int) -> b
    boolean jj_scan_token(int) -> F
    geogebra.common.kernel.parser.Token getToken(int) -> a
    int jj_ntk() -> a
    void jj_add_error_token(int,int) -> a
    geogebra.common.kernel.parser.ParseException generateParseException() -> a
    void jj_rescan_token() -> e
    void jj_save(int,int) -> b
geogebra.common.kernel.parser.Parser$JJCalls -> geogebra.common.l.p.b$a:
    int gen -> a
    geogebra.common.kernel.parser.Token first -> a
    int arg -> b
    geogebra.common.kernel.parser.Parser$JJCalls next -> a
geogebra.common.kernel.parser.Parser$LookaheadSuccess -> geogebra.common.l.p.b$b:
geogebra.common.kernel.parser.ParserConstants -> geogebra.common.l.p.c:
    java.lang.String[] tokenImage -> a
geogebra.common.kernel.parser.ParserInterface -> geogebra.common.l.p.d:
    geogebra.common.kernel.arithmetic.ExpressionNode parseExpression(java.lang.String) -> b
    geogebra.common.kernel.arithmetic.ValidExpression parseGeoGebraExpression(java.lang.String) -> a
    java.lang.String parseLabel(java.lang.String) -> a
geogebra.common.kernel.parser.ParserTokenManager -> geogebra.common.l.p.e:
    java.io.PrintStream debugStream -> a
    long[] jjbitVec0 -> a
    long[] jjbitVec1 -> b
    long[] jjbitVec2 -> c
    long[] jjbitVec3 -> d
    long[] jjbitVec4 -> e
    long[] jjbitVec5 -> f
    long[] jjbitVec6 -> g
    long[] jjbitVec7 -> h
    long[] jjbitVec8 -> i
    long[] jjbitVec9 -> j
    long[] jjbitVec10 -> k
    long[] jjbitVec11 -> l
    long[] jjbitVec12 -> m
    long[] jjbitVec13 -> n
    long[] jjbitVec14 -> o
    long[] jjbitVec15 -> p
    long[] jjbitVec16 -> q
    long[] jjbitVec17 -> r
    long[] jjbitVec18 -> s
    long[] jjbitVec19 -> t
    long[] jjbitVec20 -> u
    long[] jjbitVec21 -> v
    long[] jjbitVec22 -> w
    long[] jjbitVec23 -> x
    long[] jjbitVec24 -> y
    long[] jjbitVec25 -> z
    long[] jjbitVec27 -> A
    long[] jjbitVec28 -> B
    long[] jjbitVec29 -> C
    long[] jjbitVec30 -> D
    long[] jjbitVec31 -> E
    long[] jjbitVec32 -> F
    long[] jjbitVec33 -> G
    long[] jjbitVec34 -> H
    long[] jjbitVec35 -> I
    long[] jjbitVec36 -> J
    long[] jjbitVec37 -> K
    long[] jjbitVec38 -> L
    long[] jjbitVec39 -> M
    long[] jjbitVec40 -> N
    long[] jjbitVec41 -> O
    long[] jjbitVec42 -> P
    long[] jjbitVec43 -> Q
    long[] jjbitVec44 -> R
    long[] jjbitVec45 -> S
    long[] jjbitVec46 -> T
    long[] jjbitVec47 -> U
    long[] jjbitVec48 -> V
    long[] jjbitVec49 -> W
    long[] jjbitVec50 -> X
    long[] jjbitVec51 -> Y
    long[] jjbitVec52 -> Z
    long[] jjbitVec53 -> aa
    long[] jjbitVec54 -> ab
    long[] jjbitVec55 -> ac
    long[] jjbitVec56 -> ad
    long[] jjbitVec57 -> ae
    int[] jjnextStates -> a
    java.lang.String[] jjstrLiteralImages -> b
    java.lang.String[] lexStateNames -> c
    long[] jjtoToken -> af
    long[] jjtoSkip -> ag
    geogebra.common.kernel.parser.SimpleCharStream input_stream -> a
    int[] jjrounds -> b
    int[] jjstateSet -> c
    char curChar -> a
    int curLexState -> a
    int defaultLexState -> b
    int jjnewStateCnt -> c
    int jjround -> d
    int jjmatchedPos -> e
    int jjmatchedKind -> f
    int jjStopStringLiteralDfa_0(int,long,long) -> a
    int jjStartNfa_0(int,long,long) -> b
    int jjStopAtPos(int,int) -> a
    int jjMoveStringLiteralDfa0_0() -> a
    int jjMoveStringLiteralDfa1_0(long) -> a
    int jjMoveStringLiteralDfa2_0(long,long) -> a
    int jjMoveStringLiteralDfa3_0(long,long) -> b
    int jjMoveStringLiteralDfa4_0(long,long) -> c
    int jjMoveStringLiteralDfa5_0(long,long) -> d
    int jjMoveStringLiteralDfa6_0(long,long) -> e
    int jjMoveStringLiteralDfa7_0(long,long) -> f
    int jjStartNfaWithStates_0(int,int,int) -> a
    int jjMoveNfa_0(int,int) -> b
    boolean jjCanMove_0(int,int,int,long,long) -> a
    boolean jjCanMove_1(int,int,int,long,long) -> b
    boolean jjCanMove_2(int,int,int,long,long) -> c
    boolean jjCanMove_3(int,int,int,long,long) -> d
    boolean jjCanMove_4(int,int,int,long,long) -> e
    boolean jjCanMove_5(int,int,int,long,long) -> f
    boolean jjCanMove_6(int,int,int,long,long) -> g
    boolean jjCanMove_7(int,int,int,long,long) -> h
    boolean jjCanMove_8(int,int,int,long,long) -> i
    boolean jjCanMove_9(int,int,int,long,long) -> j
    boolean jjCanMove_10(int,int,int,long,long) -> k
    boolean jjCanMove_11(int,int,int,long,long) -> l
    boolean jjCanMove_12(int,int,int,long,long) -> m
    boolean jjCanMove_13(int,int,int,long,long) -> n
    boolean jjCanMove_14(int,int,int,long,long) -> o
    boolean jjCanMove_15(int,int,int,long,long) -> p
    boolean jjCanMove_16(int,int,int,long,long) -> q
    boolean jjCanMove_17(int,int,int,long,long) -> r
    boolean jjCanMove_18(int,int,int,long,long) -> s
    boolean jjCanMove_19(int,int,int,long,long) -> t
    boolean jjCanMove_20(int,int,int,long,long) -> u
    boolean jjCanMove_21(int,int,int,long,long) -> v
    boolean jjCanMove_22(int,int,int,long,long) -> w
    boolean jjCanMove_23(int,int,int,long,long) -> x
    boolean jjCanMove_24(int,int,int,long,long) -> y
    boolean jjCanMove_25(int,int,int,long,long) -> z
    void ReInit(geogebra.common.kernel.parser.SimpleCharStream) -> a
    void ReInitRounds() -> a
    geogebra.common.kernel.parser.Token jjFillToken() -> a
    geogebra.common.kernel.parser.Token getNextToken() -> b
    void jjCheckNAdd(int) -> a
    void jjAddStates(int,int) -> a
    void jjCheckNAddTwoStates(int,int) -> b
    void jjCheckNAddStates(int,int) -> c
geogebra.common.kernel.parser.SimpleCharStream -> geogebra.common.l.p.f:
    int bufsize -> a
    int available -> b
    int tokenBegin -> c
    int bufpos -> d
    int[] bufline -> a
    int[] bufcolumn -> b
    int column -> e
    int line -> f
    boolean prevCharIsCR -> a
    boolean prevCharIsLF -> b
    java.io.Reader inputStream -> a
    char[] buffer -> a
    int maxNextCharInd -> g
    int inBuf -> h
    int tabSize -> i
    void ExpandBuff(boolean) -> a
    void FillBuff() -> a
    char BeginToken() -> a
    void UpdateLineColumn(char) -> a
    char readChar() -> b
    int getEndColumn() -> a
    int getEndLine() -> b
    int getBeginColumn() -> c
    int getBeginLine() -> d
    void backup(int) -> a
    void ReInit(java.io.Reader,int,int,int) -> a
    void ReInit(java.io.Reader,int,int) -> a
    java.lang.String GetImage() -> a
geogebra.common.kernel.parser.Token -> geogebra.common.l.p.g:
    int kind -> a
    int beginLine -> b
    int beginColumn -> c
    int endLine -> d
    int endColumn -> e
    java.lang.String image -> a
    geogebra.common.kernel.parser.Token next -> a
    java.lang.String toString() -> toString
    geogebra.common.kernel.parser.Token newToken(int,java.lang.String) -> a
geogebra.common.kernel.parser.TokenMgrError -> geogebra.common.l.p.h:
    int errorCode -> a
    java.lang.String addEscapes(java.lang.String) -> a
    java.lang.String LexicalError(boolean,int,int,int,java.lang.String,char) -> a
    java.lang.String getMessage() -> getMessage
geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac -> geogebra.common.l.p.a.a:
    int[] $SWITCH_TABLE$geogebra$common$kernel$parser$cashandlers$CommandDispatcherGiac$commands -> a
    geogebra.common.kernel.arithmetic.ExpressionNode processCommand(java.lang.String,geogebra.common.kernel.arithmetic.GetItem,geogebra.common.kernel.Kernel) -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$parser$cashandlers$CommandDispatcherGiac$commands() -> a
geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands -> geogebra.common.l.p.a.a$a:
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands when -> a
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands igamma -> b
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands diff -> c
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands bounded_function -> d
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands integrate -> e
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands rootof -> f
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands exact -> g
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Psi -> h
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Si -> i
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Ci -> j
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Ei -> k
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Zeta -> l
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Beta -> m
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands Gamma -> n
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands fPart -> o
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands conj -> p
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands im -> q
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands re -> r
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands surd -> s
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands sqrt -> t
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands sign -> u
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands sin -> v
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands cos -> w
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands tan -> x
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands asin -> y
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands acos -> z
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands atan -> A
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands sinh -> B
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands cosh -> C
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands tanh -> D
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands sec -> E
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands csc -> F
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands cot -> G
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ln -> H
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands exp -> I
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands abs -> J
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands erf -> K
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands xcoord -> L
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ycoord -> M
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands zcoord -> N
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands xcoordsymb -> O
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ycoordsymb -> P
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands zcoordsymb -> Q
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ggbvect -> R
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands sum -> S
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands piecewise -> T
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands point -> U
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands hyperplan -> V
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands laplace -> W
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ilaplace -> X
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands invlaplace -> Y
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ggb_ang -> Z
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands poly1 -> aa
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands fsolve -> ab
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands solve -> ac
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands arbconst -> ad
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands arbint -> ae
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands floor -> af
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands ceiling -> ag
    geogebra.common.plugin.Operation op -> a
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands[] ENUM$VALUES -> a
    geogebra.common.plugin.Operation getOperation() -> a
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands[] values() -> values
    geogebra.common.kernel.parser.cashandlers.CommandDispatcherGiac$commands valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.parser.cashandlers.ParserFunctions -> geogebra.common.l.p.a.b:
    java.util.List stringToOp -> a
    java.util.TreeSet RESERVED_FUNCTION_NAMES -> a
    java.util.TreeSet syntaxes -> b
    boolean localeLoaded -> a
    void reset() -> a
    void updateLocale(geogebra.common.main.App) -> a
    geogebra.common.plugin.Operation get(java.lang.String,int) -> a
    void put(int,java.lang.String,geogebra.common.plugin.Operation) -> a
    void put(int,java.lang.String,geogebra.common.plugin.Operation,java.lang.String) -> a
    boolean isReserved(java.lang.String) -> a
    java.util.ArrayList getCompletions(java.lang.String) -> a
geogebra.common.kernel.prover.AbstractProverReciosMethod -> geogebra.common.l.q.a:
    geogebra.common.kernel.geos.GeoElement[] fixedPoints -> a
    geogebra.common.util.Prover$ProofResult prove(geogebra.common.util.Prover) -> a
    geogebra.common.util.Prover$ProofResult compute0d(java.util.HashMap,geogebra.common.kernel.algos.SymbolicParameters) -> a
    geogebra.common.util.Prover$ProofResult compute1d(java.util.HashSet,java.util.HashMap,int,geogebra.common.kernel.algos.SymbolicParameters) -> b
    geogebra.common.util.Prover$ProofResult compute2d(java.util.HashSet,java.util.HashMap,int,geogebra.common.kernel.algos.SymbolicParameters) -> c
    geogebra.common.util.Prover$ProofResult computeNd(java.util.HashSet,java.util.HashMap,int,geogebra.common.kernel.algos.SymbolicParameters) -> a
    geogebra.common.kernel.geos.GeoElement[] getFixedPoints() -> a
geogebra.common.kernel.prover.AbstractProverReciosMethod$1 -> geogebra.common.l.q.b:
    geogebra.common.kernel.prover.AbstractProverReciosMethod this$0 -> a
    int compare(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.prover.AlgoAreCollinear -> geogebra.common.l.q.c:
    geogebra.common.kernel.geos.GeoPoint inputPoint1 -> a
    geogebra.common.kernel.geos.GeoPoint inputPoint2 -> b
    geogebra.common.kernel.geos.GeoPoint inputPoint3 -> c
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoAreConcurrent -> geogebra.common.l.q.d:
    geogebra.common.kernel.geos.GeoLine inputLine1 -> a
    geogebra.common.kernel.geos.GeoLine inputLine2 -> b
    geogebra.common.kernel.geos.GeoLine inputLine3 -> c
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoAreConcyclic -> geogebra.common.l.q.e:
    geogebra.common.kernel.geos.GeoPoint inputPoint1 -> a
    geogebra.common.kernel.geos.GeoPoint inputPoint2 -> b
    geogebra.common.kernel.geos.GeoPoint inputPoint3 -> c
    geogebra.common.kernel.geos.GeoPoint inputPoint4 -> d
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoAreEqual -> geogebra.common.l.q.f:
    geogebra.common.kernel.geos.GeoElement inputElement1 -> a
    geogebra.common.kernel.geos.GeoElement inputElement2 -> b
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoAreParallel -> geogebra.common.l.q.g:
    geogebra.common.kernel.geos.GeoLine inputLine1 -> a
    geogebra.common.kernel.geos.GeoLine inputLine2 -> b
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoArePerpendicular -> geogebra.common.l.q.h:
    geogebra.common.kernel.geos.GeoLine inputLine1 -> a
    geogebra.common.kernel.geos.GeoLine inputLine2 -> b
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] polynomials -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.SymbolicParameters getSymbolicParameters() -> a
    void getFreeVariables(java.util.HashSet) -> a
    int[] getDegrees() -> a
    java.math.BigInteger[] getExactCoordinates(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] getPolynomials() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoIsOnPath -> geogebra.common.l.q.i:
    geogebra.common.kernel.geos.GeoPoint inputPoint -> a
    geogebra.common.kernel.Path inputPath -> a
    geogebra.common.kernel.geos.GeoBoolean outputBoolean -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[][] botanaPolynomials -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.prover.polynomial.Polynomial[][] getBotanaPolynomials() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoProve -> geogebra.common.l.q.j:
    geogebra.common.kernel.geos.GeoElement root -> a
    geogebra.common.kernel.geos.GeoBoolean bool -> a
    geogebra.common.util.Prover$ProofResult result -> a
    int processing -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoBoolean getGeoBoolean() -> a
    void initialCompute() -> e
    java.lang.String getCommandName(geogebra.common.kernel.StringTemplate) -> d
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.AlgoProveDetails -> geogebra.common.l.q.k:
    geogebra.common.kernel.geos.GeoElement root -> a
    geogebra.common.kernel.geos.GeoList list -> a
    java.lang.Boolean result -> a
    java.lang.Boolean unreadable -> b
    java.util.HashSet ndgresult -> a
    boolean relTool -> a
    int processing -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getGeoList() -> a
    void initialCompute() -> e
    java.lang.String getCommandName(geogebra.common.kernel.StringTemplate) -> d
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.prover.Combinations -> geogebra.common.l.q.l:
    java.util.Set set -> a
    int r -> a
    int n -> b
    int[] num -> a
    boolean done -> a
    java.lang.Object[] list -> a
    boolean hasNext() -> hasNext
    java.util.Set next() -> a
    boolean nextNum() -> a
    void remove() -> remove
    java.lang.Object next() -> next
geogebra.common.kernel.prover.NDGDetector -> geogebra.common.l.q.m:
    java.util.HashMap lookupTable -> a
    geogebra.common.util.Prover prover -> a
    java.util.HashMap substitutions -> b
    geogebra.common.util.Prover$NDGCondition detect(geogebra.common.kernel.prover.polynomial.Polynomial) -> a
geogebra.common.kernel.prover.NoSymbolicParametersException -> geogebra.common.l.q.n:
geogebra.common.kernel.prover.ProverBotanasMethod -> geogebra.common.l.q.o:
    java.util.HashMap botanaVarsInv -> a
    void updateBotanaVarsInv(geogebra.common.kernel.geos.GeoElement) -> a
    java.util.List getFreePoints(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] create3FreePointsNeverCollinearNDG(geogebra.common.util.Prover) -> a
    java.util.HashMap fixValues(geogebra.common.util.Prover,int) -> a
    geogebra.common.util.Prover$ProofResult prove(geogebra.common.util.Prover) -> a
geogebra.common.kernel.prover.ProverPureSymbolicMethod -> geogebra.common.l.q.p:
    geogebra.common.util.Prover$ProofResult prove(geogebra.common.util.Prover) -> a
geogebra.common.kernel.prover.polynomial.ParseException -> geogebra.common.l.q.a.a:
    geogebra.common.kernel.prover.polynomial.Token currentToken -> a
    int[][] expectedTokenSequences -> a
    java.lang.String[] tokenImage -> a
    java.lang.String eol -> a
    java.lang.String initialise(geogebra.common.kernel.prover.polynomial.Token,int[][],java.lang.String[]) -> a
    java.lang.String add_escapes(java.lang.String) -> a
geogebra.common.kernel.prover.polynomial.Polynomial -> geogebra.common.l.q.a.b:
    java.util.TreeMap terms -> a
    java.util.TreeMap getTerms() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial add(geogebra.common.kernel.prover.polynomial.Polynomial) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial negate() -> a
    geogebra.common.kernel.prover.polynomial.Polynomial subtract(geogebra.common.kernel.prover.polynomial.Polynomial) -> b
    geogebra.common.kernel.prover.polynomial.Polynomial multiply(geogebra.common.kernel.prover.polynomial.Polynomial) -> c
    int compareTo(geogebra.common.kernel.prover.polynomial.Polynomial) -> a
    java.lang.String toString() -> toString
    java.lang.String toTeX() -> a
    java.util.HashSet getVars() -> a
    java.util.HashSet getVars(geogebra.common.kernel.prover.polynomial.Polynomial[]) -> a
    java.lang.String getVarsAsCommaSeparatedString(geogebra.common.kernel.prover.polynomial.Polynomial[],java.util.HashSet,java.lang.Boolean) -> a
    java.lang.String getPolysAsCommaSeparatedString(geogebra.common.kernel.prover.polynomial.Polynomial[]) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial collinear(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial perpendicular(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial parallel(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable) -> b
    geogebra.common.kernel.prover.polynomial.Polynomial det4(geogebra.common.kernel.prover.polynomial.Polynomial[][]) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial[] crossProduct(geogebra.common.kernel.prover.polynomial.Polynomial[],geogebra.common.kernel.prover.polynomial.Polynomial[]) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial substitute(java.util.Map) -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    boolean isZero() -> a
    boolean isConstant() -> b
    boolean areAssociates1(geogebra.common.kernel.prover.polynomial.Polynomial,geogebra.common.kernel.prover.polynomial.Polynomial) -> a
    boolean isOne() -> c
    java.lang.String substitutionsString(java.util.HashMap) -> a
    java.lang.String addLeadingComma(java.lang.String) -> a
    java.lang.String coalesce(java.lang.String,java.lang.String) -> a
    java.lang.String createGroebnerSolvableScript(java.util.HashMap,java.lang.String,java.lang.String,java.lang.String,boolean) -> a
    java.lang.String createEliminateFactorizedScript(geogebra.common.kernel.prover.polynomial.Polynomial[],geogebra.common.kernel.prover.polynomial.Variable[],java.util.Set) -> a
    java.lang.Boolean solvable(geogebra.common.kernel.prover.polynomial.Polynomial[],java.util.HashMap,geogebra.common.kernel.Kernel,boolean) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial sqr(geogebra.common.kernel.prover.polynomial.Polynomial) -> d
    geogebra.common.kernel.prover.polynomial.Polynomial sqrDistance(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial equidistant(geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable,geogebra.common.kernel.prover.polynomial.Variable) -> b
    java.util.Set eliminate(geogebra.common.kernel.prover.polynomial.Polynomial[],java.util.HashMap,geogebra.common.kernel.Kernel,int) -> a
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.prover.polynomial.PolynomialParser -> geogebra.common.l.q.a.c:
    geogebra.common.kernel.prover.polynomial.PolynomialParserTokenManager token_source -> a
    geogebra.common.kernel.prover.polynomial.SimpleCharStream jj_input_stream -> a
    geogebra.common.kernel.prover.polynomial.Token token -> a
    geogebra.common.kernel.prover.polynomial.Token jj_nt -> b
    int jj_ntk -> a
    int jj_gen -> b
    int[] jj_la1 -> a
    int[] jj_la1_0 -> b
    java.util.List jj_expentries -> a
    int[] jj_expentry -> c
    int jj_kind -> c
    java.util.Set parseFactoredPolynomialSet(java.lang.String,java.util.Set) -> a
    java.util.Set polynomialFactoredSetStartingPoint(java.util.HashMap) -> a
    java.util.Set polynomialFactorsStartingPoint(java.util.HashMap) -> b
    geogebra.common.kernel.prover.polynomial.Polynomial polynomial(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Polynomial term(java.util.HashMap) -> b
    geogebra.common.kernel.prover.polynomial.Term power(java.util.HashMap) -> a
    geogebra.common.kernel.prover.polynomial.Variable variable(java.util.HashMap) -> a
    void jj_la1_init_0() -> a
    geogebra.common.kernel.prover.polynomial.Token jj_consume_token(int) -> a
    int jj_ntk() -> a
    geogebra.common.kernel.prover.polynomial.ParseException generateParseException() -> a
geogebra.common.kernel.prover.polynomial.PolynomialParserConstants -> geogebra.common.l.q.a.d:
    java.lang.String[] tokenImage -> a
geogebra.common.kernel.prover.polynomial.PolynomialParserTokenManager -> geogebra.common.l.q.a.e:
    java.io.PrintStream debugStream -> a
    int[] jjnextStates -> a
    java.lang.String[] jjstrLiteralImages -> b
    java.lang.String[] lexStateNames -> c
    long[] jjtoToken -> a
    long[] jjtoSkip -> b
    geogebra.common.kernel.prover.polynomial.SimpleCharStream input_stream -> a
    int[] jjrounds -> b
    int[] jjstateSet -> c
    char curChar -> a
    int curLexState -> a
    int defaultLexState -> b
    int jjnewStateCnt -> c
    int jjround -> d
    int jjmatchedPos -> e
    int jjmatchedKind -> f
    int jjStopStringLiteralDfa_0(int,long) -> a
    int jjStartNfa_0(int,long) -> b
    int jjStopAtPos(int,int) -> a
    int jjMoveStringLiteralDfa0_0() -> a
    int jjMoveStringLiteralDfa1_0(long) -> a
    int jjMoveStringLiteralDfa2_0(long,long) -> a
    int jjMoveStringLiteralDfa3_0(long,long) -> b
    int jjMoveNfa_0(int,int) -> b
    void ReInitRounds() -> a
    geogebra.common.kernel.prover.polynomial.Token jjFillToken() -> a
    geogebra.common.kernel.prover.polynomial.Token getNextToken() -> b
    void jjCheckNAdd(int) -> a
    void jjAddStates(int,int) -> a
    void jjCheckNAddTwoStates(int,int) -> b
geogebra.common.kernel.prover.polynomial.SimpleCharStream -> geogebra.common.l.q.a.f:
    int bufsize -> a
    int available -> b
    int tokenBegin -> c
    int bufpos -> d
    int[] bufline -> a
    int[] bufcolumn -> b
    int column -> e
    int line -> f
    boolean prevCharIsCR -> a
    boolean prevCharIsLF -> b
    java.io.Reader inputStream -> a
    char[] buffer -> a
    int maxNextCharInd -> g
    int inBuf -> h
    int tabSize -> i
    void ExpandBuff(boolean) -> a
    void FillBuff() -> a
    char BeginToken() -> a
    void UpdateLineColumn(char) -> a
    char readChar() -> b
    int getEndColumn() -> a
    int getEndLine() -> b
    int getBeginColumn() -> c
    int getBeginLine() -> d
    void backup(int) -> a
    java.lang.String GetImage() -> a
geogebra.common.kernel.prover.polynomial.Term -> geogebra.common.l.q.a.g:
    java.util.TreeMap variables -> a
    geogebra.common.kernel.prover.polynomial.Term times(geogebra.common.kernel.prover.polynomial.Term) -> a
    java.util.TreeMap getTerm() -> a
    int compareTo(geogebra.common.kernel.prover.polynomial.Term) -> a
    boolean equals(java.lang.Object) -> equals
    java.lang.String toString() -> toString
    java.lang.String toTeX() -> a
    java.util.HashSet getVars() -> a
    int hashCode() -> hashCode
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.prover.polynomial.Token -> geogebra.common.l.q.a.h:
    int kind -> a
    int beginLine -> b
    int beginColumn -> c
    int endLine -> d
    int endColumn -> e
    java.lang.String image -> a
    geogebra.common.kernel.prover.polynomial.Token next -> a
    java.lang.String toString() -> toString
    geogebra.common.kernel.prover.polynomial.Token newToken(int,java.lang.String) -> a
geogebra.common.kernel.prover.polynomial.TokenMgrError -> geogebra.common.l.q.a.i:
    int errorCode -> a
    java.lang.String addEscapes(java.lang.String) -> a
    java.lang.String LexicalError(boolean,int,int,int,java.lang.String,char) -> a
    java.lang.String getMessage() -> getMessage
geogebra.common.kernel.prover.polynomial.Variable -> geogebra.common.l.q.a.j:
    int n -> a
    java.util.HashMap twins -> a
    boolean isFree -> a
    geogebra.common.kernel.geos.GeoElement parent -> a
    int id -> b
    int getId() -> a
    java.lang.String toString() -> toString
    int compareTo(geogebra.common.kernel.prover.polynomial.Variable) -> a
    boolean equals(java.lang.Object) -> equals
    java.lang.String getName() -> a
    java.lang.String toTeX() -> b
    int hashCode() -> hashCode
    geogebra.common.kernel.prover.polynomial.Variable getTwin() -> a
    void setTwin(geogebra.common.kernel.prover.polynomial.Variable) -> a
    geogebra.common.kernel.geos.GeoElement getParent() -> a
    boolean isFree() -> a
    int compareTo(java.lang.Object) -> compareTo
geogebra.common.kernel.roots.RealRootAdapter -> geogebra.common.l.r.a:
    geogebra.common.kernel.roots.RealRootFunction fun -> a
    double value(double) -> a
geogebra.common.kernel.roots.RealRootDerivAdapter -> geogebra.common.l.r.b:
    geogebra.common.kernel.roots.RealRootDerivFunction derivFun -> a
    org.apache.commons.math.analysis.UnivariateRealFunction derivative() -> a
    double value(double) -> a
geogebra.common.kernel.roots.RealRootDerivAdapter$1 -> geogebra.common.l.r.c:
    geogebra.common.kernel.roots.RealRootDerivAdapter this$0 -> a
    double value(double) -> a
geogebra.common.kernel.roots.RealRootDerivFunction -> geogebra.common.l.r.d:
    double evaluateDerivative(double) -> b
geogebra.common.kernel.roots.RealRootFunction -> geogebra.common.l.r.e:
    double evaluate(double) -> a
geogebra.common.kernel.roots.RealRootUtil -> geogebra.common.l.r.f:
    int ITER_MAX -> a
    double[] getDefinedInterval(geogebra.common.kernel.roots.RealRootFunction,double,double) -> a
    double getDefinitionBorder(geogebra.common.kernel.roots.RealRootFunction,double,double) -> a
    void updateDefinedIntervalIntersecting(geogebra.common.kernel.roots.RealRootFunction,double,double,double[]) -> a
geogebra.common.kernel.scripting.AlgoTurtle -> geogebra.common.l.s.a:
    geogebra.common.kernel.geos.GeoTurtle turtle -> a
    java.lang.StringBuilder sb -> b
    void createTurtle() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void update() -> q_
    geogebra.common.kernel.geos.GeoTurtle getTurtle() -> a
    void compute() -> b
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.scripting.CmdButton -> geogebra.common.l.s.b:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdCenterView -> geogebra.common.l.s.c:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdCheckbox -> geogebra.common.l.s.d:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdDelete -> geogebra.common.l.s.e:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdHideLayer -> geogebra.common.l.s.f:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdLineStyle -> geogebra.common.l.s.g:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdPan -> geogebra.common.l.s.h:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdParseToFunction -> geogebra.common.l.s.i:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdParseToNumber -> geogebra.common.l.s.j:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdPerspective -> geogebra.common.l.s.k:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdPlaySound -> geogebra.common.l.s.l:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdRelation -> geogebra.common.l.s.m:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdRename -> geogebra.common.l.s.n:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdRepeat -> geogebra.common.l.s.o:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdRigidPolygon -> geogebra.common.l.s.p:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdRunClickScript -> geogebra.common.l.s.q:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdRunUpdateScript -> geogebra.common.l.s.r:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSelectObjects -> geogebra.common.l.s.s:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetActiveView -> geogebra.common.l.s.t:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetAxesRatio -> geogebra.common.l.s.u:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetBackgroundColor -> geogebra.common.l.s.v:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetCaption -> geogebra.common.l.s.w:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetColor -> geogebra.common.l.s.x:
    boolean background -> a
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetConditionToShowObject -> geogebra.common.l.s.y:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetCoords -> geogebra.common.l.s.z:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetDynamicColor -> geogebra.common.l.s.A:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetFilling -> geogebra.common.l.s.B:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetFixed -> geogebra.common.l.s.C:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetLabelMode -> geogebra.common.l.s.D:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetLayer -> geogebra.common.l.s.E:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetLineThickness -> geogebra.common.l.s.F:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetPointSize -> geogebra.common.l.s.G:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetPointStyle -> geogebra.common.l.s.H:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetSeed -> geogebra.common.l.s.I:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetTooltipMode -> geogebra.common.l.s.J:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetTrace -> geogebra.common.l.s.K:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSetValue -> geogebra.common.l.s.L:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
    boolean setValue3(geogebra.common.kernel.Kernel,geogebra.common.kernel.geos.GeoList,int,geogebra.common.kernel.geos.GeoElement) -> a
    void setValue2(geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdSetVisibleInView -> geogebra.common.l.s.M:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdShowAxes -> geogebra.common.l.s.N:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdShowGrid -> geogebra.common.l.s.O:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdShowLabel -> geogebra.common.l.s.P:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdShowLayer -> geogebra.common.l.s.Q:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSlider -> geogebra.common.l.s.R:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdSlowPlot -> geogebra.common.l.s.S:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdStartAnimation -> geogebra.common.l.s.T:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdStartLogging -> geogebra.common.l.s.U:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdStartRecord -> geogebra.common.l.s.V:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdStopLogging -> geogebra.common.l.s.W:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdTextfield -> geogebra.common.l.s.X:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdToolImage -> geogebra.common.l.s.Y:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdTurtle -> geogebra.common.l.s.Z:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdTurtleBack -> geogebra.common.l.s.aa:
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdTurtleCommand -> geogebra.common.l.s.ab:
    geogebra.common.kernel.geos.GeoTurtle getTurtle(geogebra.common.kernel.geos.GeoElement[]) -> a
    double getNumArg(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdTurtleDown -> geogebra.common.l.s.ac:
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdTurtleForward -> geogebra.common.l.s.ad:
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdTurtleLeft -> geogebra.common.l.s.ae:
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdTurtleRight -> geogebra.common.l.s.af:
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdTurtleUp -> geogebra.common.l.s.ag:
    void performTurtleCommand(java.lang.String,geogebra.common.kernel.geos.GeoElement[]) -> a
geogebra.common.kernel.scripting.CmdUpdateConstruction -> geogebra.common.l.s.ah:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdZoomIn -> geogebra.common.l.s.ai:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.scripting.CmdZoomOut -> geogebra.common.l.s.aj:
    void perform(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.AlgoANOVA -> geogebra.common.l.t.a:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoList result -> b
    java.util.ArrayList categoryData -> a
    double p -> a
    double testStat -> b
    org.apache.commons.math.stat.inference.OneWayAnovaImpl anovaImpl -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoBernoulliBarChart -> geogebra.common.l.t.b:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoBinomialDist -> geogebra.common.l.t.c:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoBinomialDistBarChart -> geogebra.common.l.t.d:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.statistics.AlgoCauchy -> geogebra.common.l.t.e:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoCauchyDF -> geogebra.common.l.t.f:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoCell -> geogebra.common.l.t.g:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    java.lang.String currentLabel -> a
    geogebra.common.kernel.geos.GeoElement refObject -> b
    geogebra.common.kernel.geos.GeoElement[] inputForUpdateSetPropagation -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void compute() -> b
    void updateReferencedObject() -> e
    geogebra.common.kernel.geos.GeoElement[] getInputForUpdateSetPropagation() -> a_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoCellRange -> geogebra.common.l.t.h:
    geogebra.common.kernel.geos.GeoListForCellRange geoList -> a
    java.lang.String startCell -> a
    java.lang.String endCell -> b
    java.lang.String toStringOutput -> c
    geogebra.common.gui.view.spreadsheet.CellRange cellRange -> a
    java.util.ArrayList listItems -> a
    geogebra.common.awt.GPoint startCoords -> a
    geogebra.common.awt.GPoint endCoords -> b
    int maxExistingCol -> a
    int maxExistingRow -> b
    geogebra.common.kernel.algos.Algos getClassName() -> a
    void remove() -> a
    void clearGeoList() -> e
    void updateList(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void updateList() -> g
    void add(geogebra.common.kernel.geos.GeoElement) -> b
    void addToList(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GPoint) -> a
    void addToList(geogebra.common.kernel.geos.GeoElement) -> e
    void setInputOutput() -> a_
    java.util.ArrayList initCellRangeList(geogebra.common.awt.GPoint,geogebra.common.awt.GPoint) -> a
    geogebra.common.kernel.geos.GeoList getList() -> a
    geogebra.common.gui.view.spreadsheet.CellRange getCellRange() -> a
    void compute() -> b
    java.lang.String getCommandDescription(geogebra.common.kernel.StringTemplate) -> c
    java.lang.String toString(geogebra.common.kernel.StringTemplate) -> a
    geogebra.common.awt.GPoint[] getRectangle() -> a
    void addToItemsAlgoUpdateSets(geogebra.common.kernel.algos.AlgoElement) -> b
    java.lang.String getStart() -> a
    java.lang.String getEnd() -> d
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoChiSquared -> geogebra.common.l.t.i:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoChiSquaredDF -> geogebra.common.l.t.j:
    geogebra.common.kernel.arithmetic.NumberValue k -> a
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoChiSquaredTest -> geogebra.common.l.t.k:
    geogebra.common.kernel.geos.GeoList geoList1 -> a
    geogebra.common.kernel.geos.GeoList geoList2 -> b
    geogebra.common.kernel.geos.GeoList result -> c
    double p -> a
    double testStat -> b
    org.apache.commons.math.distribution.ChiSquaredDistribution chisquared -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    org.apache.commons.math.distribution.ChiSquaredDistribution getChiSquaredDistribution(double) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoClasses -> geogebra.common.l.t.l:
    geogebra.common.kernel.geos.GeoList dataList -> a
    geogebra.common.kernel.geos.GeoNumeric start -> a
    geogebra.common.kernel.geos.GeoNumeric width -> b
    geogebra.common.kernel.geos.GeoNumeric numClasses -> c
    geogebra.common.kernel.geos.GeoList classList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoColumn -> geogebra.common.l.t.m:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoColumnName -> geogebra.common.l.t.n:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoText text -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getGeoText() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoContingencyTable -> geogebra.common.l.t.o:
    geogebra.common.kernel.geos.GeoList list1 -> a
    geogebra.common.kernel.geos.GeoList list2 -> b
    geogebra.common.kernel.geos.GeoList rowList -> c
    geogebra.common.kernel.geos.GeoList colList -> d
    geogebra.common.kernel.geos.GeoList freqMatrix -> e
    geogebra.common.kernel.geos.GeoText args -> a
    geogebra.common.kernel.geos.GeoText table -> b
    geogebra.common.kernel.statistics.AlgoFrequency freq -> a
    java.lang.StringBuilder tableSb -> b
    boolean isRawData -> a
    java.lang.String[] rowValues -> a
    java.lang.String[] colValues -> b
    int[][] freqValues -> a
    double[][] expected -> a
    double[][] chiCont -> b
    int[] rowSum -> a
    int[] colSum -> b
    int totalSum -> a
    boolean showRowPercent -> b
    boolean showColPercent -> f
    boolean showTotalPercent -> g
    boolean showChi -> h
    boolean showExpected -> i
    boolean showTest -> j
    int rowCount -> b
    int colCount -> c
    int lastRow -> d
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    void parseArgs() -> e
    boolean loadRawDataValues() -> e
    boolean loadPreparedDataValues() -> o
    void computeChiTestValues() -> g
    void compute() -> b
    void endTable(java.lang.StringBuilder) -> b
    void addChiTest(java.lang.StringBuilder) -> d
    void beginTable() -> i
    void addTableRow(java.lang.StringBuilder,int,java.lang.String,java.lang.String,boolean) -> a
    void startRow(java.lang.StringBuilder,boolean,boolean) -> a
    void endRow(java.lang.StringBuilder,boolean) -> c
    void endCell(java.lang.StringBuilder) -> e
    java.lang.String handleSpecialChar(java.lang.String) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoDistribution -> geogebra.common.l.t.p:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.NumberValue c -> c
    geogebra.common.kernel.arithmetic.NumberValue d -> d
    geogebra.common.kernel.geos.GeoBoolean isCumulative -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    org.apache.commons.math.distribution.TDistribution t -> a
    org.apache.commons.math.distribution.ChiSquaredDistribution chisquared -> a
    org.apache.commons.math.distribution.FDistribution f -> a
    org.apache.commons.math.distribution.GammaDistribution gamma -> a
    org.apache.commons.math.distribution.CauchyDistribution cauchy -> a
    org.apache.commons.math.distribution.ExponentialDistribution exponential -> a
    org.apache.commons.math.distribution.HypergeometricDistribution hypergeometric -> a
    org.apache.commons.math.distribution.PascalDistribution pascal -> a
    org.apache.commons.math.distribution.BinomialDistribution binomial -> a
    org.apache.commons.math.distribution.WeibullDistribution weibull -> a
    org.apache.commons.math.distribution.ZipfDistribution zipf -> a
    org.apache.commons.math.distribution.NormalDistribution normal -> a
    org.apache.commons.math.distribution.PoissonDistribution poisson -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    org.apache.commons.math.distribution.TDistribution getTDistribution(double) -> a
    org.apache.commons.math.distribution.FDistribution getFDistribution(double,double) -> a
    org.apache.commons.math.distribution.GammaDistribution getGammaDistribution(double,double) -> a
    org.apache.commons.math.distribution.CauchyDistribution getCauchyDistribution(double,double) -> a
    org.apache.commons.math.distribution.ChiSquaredDistribution getChiSquaredDistribution(double) -> a
    org.apache.commons.math.distribution.ExponentialDistribution getExponentialDistribution(double) -> a
    org.apache.commons.math.distribution.HypergeometricDistribution getHypergeometricDistribution(int,int,int) -> a
    org.apache.commons.math.distribution.PascalDistribution getPascalDistribution(int,double) -> a
    org.apache.commons.math.distribution.PoissonDistribution getPoissonDistribution(double) -> a
    org.apache.commons.math.distribution.BinomialDistribution getBinomialDistribution(int,double) -> a
    org.apache.commons.math.distribution.WeibullDistribution getWeibullDistribution(double,double) -> a
    org.apache.commons.math.distribution.NormalDistribution getNormalDistribution(double,double) -> a
    org.apache.commons.math.distribution.ZipfDistribution getZipfDistribution(int,double) -> a
geogebra.common.kernel.statistics.AlgoDistributionDF -> geogebra.common.l.t.q:
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
geogebra.common.kernel.statistics.AlgoDotPlot -> geogebra.common.l.t.r:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoBoolean stackAdjacentDots -> a
    geogebra.common.kernel.geos.GeoNumeric scale -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    int oldListSize -> b
    java.lang.String toolTipText -> a
    double scaleFactor -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInput() -> e
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    double getScaledY(int) -> a
    geogebra.common.kernel.geos.GeoList getUniqueXList() -> b
    geogebra.common.kernel.geos.GeoList getFrequencyList() -> c
    java.lang.String getTooltipText() -> a
    void setToolTipPointText(java.lang.String) -> a
    boolean stackAdjacentDots() -> e
    double getScaleFactor() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoDotPlot$1 -> geogebra.common.l.t.s:
    geogebra.common.kernel.statistics.AlgoDotPlot this$0 -> a
    java.lang.String getTooltipText(boolean,boolean) -> a
geogebra.common.kernel.statistics.AlgoDoubleListCovariance -> geogebra.common.l.t.t:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoDoubleListPMCC -> geogebra.common.l.t.u:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoDoubleListSXX -> geogebra.common.l.t.v:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoDoubleListSXY -> geogebra.common.l.t.w:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoDoubleListSigmaXY -> geogebra.common.l.t.x:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoErlang -> geogebra.common.l.t.y:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoErlangDF -> geogebra.common.l.t.z:
    geogebra.common.kernel.arithmetic.NumberValue k -> a
    geogebra.common.kernel.arithmetic.NumberValue l -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoExponential -> geogebra.common.l.t.A:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoExponentialDF -> geogebra.common.l.t.B:
    geogebra.common.kernel.arithmetic.NumberValue lambda -> a
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFDistribution -> geogebra.common.l.t.C:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFDistributionDF -> geogebra.common.l.t.D:
    geogebra.common.kernel.arithmetic.NumberValue d1 -> a
    geogebra.common.kernel.arithmetic.NumberValue d2 -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFit -> geogebra.common.l.t.E:
    geogebra.common.kernel.geos.GeoList pointlist -> a
    geogebra.common.kernel.geos.GeoList functionlist -> b
    geogebra.common.kernel.geos.GeoFunction fitfunction -> a
    int datasize -> a
    int functionsize -> b
    geogebra.common.kernel.geos.GeoFunctionable[] functionarray -> a
    org.apache.commons.math.linear.RealMatrix M -> a
    org.apache.commons.math.linear.RealMatrix Y -> b
    org.apache.commons.math.linear.RealMatrix P -> c
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFit() -> a
    void compute() -> b
    boolean makeMatrixes() -> e
    geogebra.common.kernel.geos.GeoFunction makeFunction() -> b
    double[] getCoeffs() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitExp -> geogebra.common.l.t.F:
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    geogebra.common.kernel.statistics.RegressionMath regMath -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitExp() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitGrowth -> geogebra.common.l.t.G:
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    geogebra.common.kernel.statistics.RegressionMath regMath -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitGrowth() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitImplicit -> geogebra.common.l.t.H:
    geogebra.common.kernel.geos.GeoList pointlist -> a
    geogebra.common.kernel.geos.GeoElement orderGeo -> a
    geogebra.common.kernel.implicit.GeoImplicitPoly fitfunction -> a
    int datasize -> a
    org.apache.commons.math.linear.RealMatrix M -> a
    org.apache.commons.math.linear.RealMatrix V -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.implicit.GeoImplicitPoly getFit() -> a
    void compute() -> b
    boolean makeMatrixes() -> e
    double power(double,int) -> a
    void makeFunction() -> e
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitLineX -> geogebra.common.l.t.I:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getFitLineX() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitLineY -> geogebra.common.l.t.J:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoLine g -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    int getRelatedModeID() -> f_
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoLine getFitLineY() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitLog -> geogebra.common.l.t.K:
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitLog() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitLogistic -> geogebra.common.l.t.L:
    double a -> a
    double b -> b
    double c -> c
    double[] xd -> a
    double[] yd -> b
    int size -> a
    int iterations -> b
    boolean error -> a
    boolean allplus -> b
    boolean allneg -> f
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    double x1 -> d
    double y1 -> e
    double x2 -> f
    double y2 -> g
    double ymult -> h
    double e1 -> i
    double e2 -> j
    double emult -> k
    double ydiff -> l
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitLogistic() -> a
    void compute() -> b
    void doReg() -> e
    void findParameters() -> g
    void Logistic_Reg() -> i
    double f(double,double,double,double) -> a
    double f(double,double) -> a
    double df_c(double,double,double) -> a
    double df_a(double,double,double,double) -> b
    double df_b(double,double,double,double) -> c
    double beta(double,double,double,double,double) -> a
    double beta(double,double,double) -> b
    double beta2(double[],double[],double,double,double) -> a
    double beta2(double) -> a
    double c(double,double,double,double,double) -> b
    double a(double,double,double,double,double) -> c
    void getPoints() -> j
    void errorMsg(java.lang.String) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitNL -> geogebra.common.l.t.M:
    geogebra.common.kernel.geos.GeoList pointlist -> a
    geogebra.common.kernel.geos.GeoFunction inputfunction -> a
    geogebra.common.kernel.geos.GeoFunction outputfunction -> b
    int datasize -> a
    double[] xdata -> a
    double[] ydata -> b
    geogebra.common.kernel.optimization.FitRealFunction prfunction -> a
    org.apache.commons.math.optimization.general.LevenbergMarquardtOptimizer LMO -> a
    org.apache.commons.math.optimization.fitting.CurveFitter curvefitter -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitNL() -> a
    void compute() -> b
    boolean makeDataArrays() -> e
    double[] getCoeffs() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitPoly -> geogebra.common.l.t.N:
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.arithmetic.NumberValue degree -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    geogebra.common.kernel.geos.GeoElement geodegree -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitPoly() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitPow -> geogebra.common.l.t.O:
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitPow() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFitSin -> geogebra.common.l.t.P:
    double a -> a
    double b -> b
    double c -> c
    double d -> d
    double[] xd -> a
    double[] yd -> b
    int size -> a
    int iterations -> b
    boolean error -> a
    geogebra.common.kernel.geos.GeoList geolist -> a
    geogebra.common.kernel.geos.GeoFunction geofunction -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getFitSin() -> a
    void compute() -> b
    void doReg() -> e
    void findParameters() -> g
    void sinus_Reg() -> i
    double sin(double,double,double) -> a
    double cos(double,double,double) -> b
    double f(double,double,double,double,double) -> a
    double df_a() -> a
    double df_b(double,double,double) -> c
    double df_c(double,double,double,double) -> a
    double df_d(double,double,double,double) -> b
    double beta(double,double,double,double,double,double) -> a
    double beta2(double[],double[],double,double,double,double) -> a
    double beta(double[],double[],double,double,double,double) -> b
    int direction(double,double,double) -> a
    void getPoints() -> j
    boolean nearmaxmin(double,double,int,int,double,double) -> a
    void errorMsg(java.lang.String) -> a
    int findNumberOfHalfPeriods(int,int,int) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFrequency -> geogebra.common.l.t.Q:
    geogebra.common.kernel.geos.GeoList dataList -> a
    geogebra.common.kernel.geos.GeoList classList -> b
    geogebra.common.kernel.geos.GeoBoolean isCumulative -> a
    geogebra.common.kernel.geos.GeoBoolean useDensity -> b
    geogebra.common.kernel.geos.GeoNumeric density -> a
    geogebra.common.kernel.geos.GeoList frequency -> c
    geogebra.common.kernel.geos.GeoList value -> d
    java.lang.String[] contingencyRowValues -> a
    java.lang.String[] contingencyColumnValues -> b
    java.lang.Boolean isContingencyTable -> a
    double scaleFactor -> a
    geogebra.common.kernel.geos.GeoNumeric scale -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    geogebra.common.kernel.geos.GeoList getValue() -> b
    java.lang.String[] getContingencyRowValues() -> a
    java.lang.String[] getContingencyColumnValues() -> b
    void compute() -> b
    void addValue(double) -> a
    void computeContingencyTable() -> e
    java.lang.String[] getUniqueValues(geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFrequencyPolygon -> geogebra.common.l.t.R:
    geogebra.common.kernel.geos.GeoList list1 -> a
    geogebra.common.kernel.geos.GeoList list2 -> b
    geogebra.common.kernel.geos.GeoList list3 -> c
    geogebra.common.kernel.geos.GeoBoolean isCumulative -> a
    geogebra.common.kernel.geos.GeoBoolean useDensity -> b
    geogebra.common.kernel.geos.GeoNumeric density -> a
    geogebra.common.kernel.geos.GeoPolyLine outputPolyLine -> a
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.statistics.AlgoHistogram algoHistogram -> a
    boolean right -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void setOutput() -> e
    geogebra.common.kernel.geos.GeoPolyLine getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoFrequencyTable -> geogebra.common.l.t.S:
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType type -> a
    geogebra.common.kernel.geos.GeoList dataList -> a
    geogebra.common.kernel.geos.GeoList classList -> b
    geogebra.common.kernel.geos.GeoBoolean isCumulative -> a
    geogebra.common.kernel.geos.GeoBoolean useDensity -> b
    geogebra.common.kernel.geos.GeoNumeric density -> a
    geogebra.common.kernel.geos.GeoNumeric scale -> b
    geogebra.common.kernel.geos.GeoNumeric chart -> c
    geogebra.common.kernel.geos.GeoText table -> a
    geogebra.common.kernel.statistics.AlgoFrequency freq -> a
    java.lang.String[] strHeader -> a
    java.lang.String[] strValue -> b
    java.lang.String[] strFrequency -> c
    java.lang.StringBuilder sb -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$statistics$AlgoFrequencyTable$inputType -> a
    void createTable() -> e
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    java.lang.String[] getValueString() -> a
    java.lang.String[] getFrequencyString() -> b
    java.lang.String[] getHeaderString() -> c
    void compute() -> b
    void createLaTeXTable(boolean) -> a
    void createLaTeXTableD(boolean) -> b
    void createLaTeXTableMQ(boolean) -> f
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$statistics$AlgoFrequencyTable$inputType() -> a
geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType -> geogebra.common.l.t.S$a:
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType STANDARD -> a
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType HISTOGRAM -> b
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType BARCHART -> c
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType[] ENUM$VALUES -> a
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType[] values() -> values
    geogebra.common.kernel.statistics.AlgoFrequencyTable$inputType valueOf(java.lang.String) -> valueOf
geogebra.common.kernel.statistics.AlgoGamma -> geogebra.common.l.t.T:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoGammaDF -> geogebra.common.l.t.U:
    geogebra.common.kernel.arithmetic.NumberValue mean -> a
    geogebra.common.kernel.arithmetic.NumberValue sd -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoGeometricMean -> geogebra.common.l.t.V:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoHarmonicMean -> geogebra.common.l.t.W:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    int size -> a
    double sum -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoHistogram -> geogebra.common.l.t.X:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.statistics.AlgoHistogram copy() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoHyperGeometric -> geogebra.common.l.t.Y:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoHyperGeometricBarChart -> geogebra.common.l.t.Z:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.statistics.AlgoInverseBinomial -> geogebra.common.l.t.aa:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseCauchy -> geogebra.common.l.t.ab:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseChiSquared -> geogebra.common.l.t.ac:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseExponential -> geogebra.common.l.t.ad:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseFDistribution -> geogebra.common.l.t.ae:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseGamma -> geogebra.common.l.t.af:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseHyperGeometric -> geogebra.common.l.t.ag:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseLogNormal -> geogebra.common.l.t.ah:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseLogistic -> geogebra.common.l.t.ai:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseNormal -> geogebra.common.l.t.aj:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInversePascal -> geogebra.common.l.t.ak:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInversePoisson -> geogebra.common.l.t.al:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseTDistribution -> geogebra.common.l.t.am:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseWeibull -> geogebra.common.l.t.an:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoInverseZipf -> geogebra.common.l.t.ao:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListCovariance -> geogebra.common.l.t.ap:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListMeanX -> geogebra.common.l.t.aq:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListMeanY -> geogebra.common.l.t.ar:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListPMCC -> geogebra.common.l.t.as:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSDX -> geogebra.common.l.t.at:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSDY -> geogebra.common.l.t.au:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSXX -> geogebra.common.l.t.av:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSXY -> geogebra.common.l.t.aw:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSYY -> geogebra.common.l.t.ax:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSampleSDX -> geogebra.common.l.t.ay:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSampleSDY -> geogebra.common.l.t.az:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSigmaXX -> geogebra.common.l.t.aA:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSigmaXY -> geogebra.common.l.t.aB:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoListSigmaYY -> geogebra.common.l.t.aC:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoLogNormal -> geogebra.common.l.t.aD:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoLogNormalDF -> geogebra.common.l.t.aE:
    geogebra.common.kernel.arithmetic.NumberValue mean -> a
    geogebra.common.kernel.arithmetic.NumberValue sd -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoLogistic -> geogebra.common.l.t.aF:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoLogisticDF -> geogebra.common.l.t.aG:
    geogebra.common.kernel.arithmetic.NumberValue mean -> a
    geogebra.common.kernel.arithmetic.NumberValue scale -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoMean -> geogebra.common.l.t.aH:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoMode -> geogebra.common.l.t.aI:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void setListElement(int,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoNormal -> geogebra.common.l.t.aJ:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoNormalDF -> geogebra.common.l.t.aK:
    geogebra.common.kernel.arithmetic.NumberValue mean -> a
    geogebra.common.kernel.arithmetic.NumberValue sd -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoNormalQuantilePlot -> geogebra.common.l.t.aL:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    double[] zValues -> a
    double[] sortedData -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void calculateZValues(int) -> a
    geogebra.common.kernel.geos.GeoSegment getQQLineSegment() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoNpR -> geogebra.common.l.t.aM:
    geogebra.common.kernel.geos.GeoNumeric result -> a
    geogebra.common.kernel.arithmetic.NumberValue num1 -> a
    geogebra.common.kernel.arithmetic.NumberValue num2 -> b
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    double NpR(double,double) -> a
    double NpRBig(double,double) -> b
    double NpRLog(double,double) -> c
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoOrdinalRank -> geogebra.common.l.t.aN:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    java.util.Comparator comparator -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    java.util.Comparator getComparator() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoOrdinalRank$1 -> geogebra.common.l.t.aO:
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.kernel.statistics.AlgoOrdinalRank$OrderedPair -> geogebra.common.l.t.aN$a:
    double x -> a
    int y -> a
    geogebra.common.kernel.statistics.AlgoOrdinalRank this$0 -> a
geogebra.common.kernel.statistics.AlgoPascal -> geogebra.common.l.t.aP:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoPascalBarChart -> geogebra.common.l.t.aQ:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.statistics.AlgoPercentile -> geogebra.common.l.t.aR:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric value -> a
    geogebra.common.kernel.geos.GeoNumeric result -> b
    int size -> a
    org.apache.commons.math.stat.descriptive.rank.Percentile percentile -> a
    double[] inputArray -> a
    double val -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoPoisson -> geogebra.common.l.t.aS:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoPoissonBarChart -> geogebra.common.l.t.aT:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.statistics.AlgoRSquare -> geogebra.common.l.t.aU:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoFunctionable function -> a
    geogebra.common.kernel.geos.GeoNumeric r2 -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getRSquare() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomBinomial -> geogebra.common.l.t.aV:
    double halflog2pi -> a
    double[] logtable -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    void setRandomValue(double) -> a
    int randomBinomial(double,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomElement -> geogebra.common.l.t.aW:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoElement element -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoElement getElement() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomNormal -> geogebra.common.l.t.aX:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    double randomNormal(double,double) -> a
    void setRandomValue(double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomPoisson -> geogebra.common.l.t.aY:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    double halflog2pi -> a
    double[] logtable -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    int randomPoisson(double) -> a
    int randomPoissonTRS(double) -> b
    double logOfKFactorial(int) -> a
    void setRandomValue(double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomPolynomial -> geogebra.common.l.t.aZ:
    geogebra.common.kernel.arithmetic.NumberValue degree -> a
    geogebra.common.kernel.arithmetic.NumberValue min -> b
    geogebra.common.kernel.arithmetic.NumberValue max -> c
    geogebra.common.kernel.geos.GeoFunction polynomial -> a
    geogebra.common.kernel.arithmetic.Function f -> a
    geogebra.common.kernel.arithmetic.FunctionVariable fv -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.arithmetic.ExpressionNode randomCoef(boolean) -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomUniform -> geogebra.common.l.t.ba:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    void setRandomValue(double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRandomUniformList -> geogebra.common.l.t.bb:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.NumberValue length -> c
    geogebra.common.kernel.geos.GeoList list -> a
    double[] parms -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void ensureListSize(int) -> a
    void compute() -> b
    void setRandomValue(double) -> a
geogebra.common.kernel.statistics.AlgoResidualPlot -> geogebra.common.l.t.bc:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoFunctionable function -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    double min -> a
    double max -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double[] getResidualBounds() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRootMeanSquare -> geogebra.common.l.t.bd:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoNumeric result -> a
    int size -> a
    double sum -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoRow -> geogebra.common.l.t.be:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.kernel.geos.GeoNumeric num -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSXX -> geogebra.common.l.t.bf:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSample -> geogebra.common.l.t.bg:
    int SAMPLE_MAXSIZE -> a
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoBoolean replacement -> a
    geogebra.common.kernel.arithmetic.NumberValue num -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    void setListElement(int,double) -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSampleStandardDeviation -> geogebra.common.l.t.bh:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSampleVariance -> geogebra.common.l.t.bi:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoShuffle -> geogebra.common.l.t.bj:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSigmaXX -> geogebra.common.l.t.bk:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSpearman -> geogebra.common.l.t.bl:
    geogebra.common.kernel.geos.GeoList geoListPts -> a
    geogebra.common.kernel.geos.GeoList geoListX -> b
    geogebra.common.kernel.geos.GeoList geoListY -> c
    geogebra.common.kernel.geos.GeoNumeric result -> a
    org.apache.commons.math.stat.correlation.SpearmansCorrelation sp -> a
    double[] valX -> a
    double[] valY -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoStandardDeviation -> geogebra.common.l.t.bm:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoStats2D -> geogebra.common.l.t.bn:
    geogebra.common.kernel.geos.GeoList geoListx -> a
    geogebra.common.kernel.geos.GeoList geoListy -> b
    geogebra.common.kernel.geos.GeoNumeric result -> a
    int mode -> a
    int stat -> b
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getResult() -> a
    void compute() -> b
geogebra.common.kernel.statistics.AlgoStemPlot -> geogebra.common.l.t.bo:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric scaleAdjustment -> a
    geogebra.common.kernel.geos.GeoText text -> a
    java.lang.StringBuilder low -> b
    java.lang.StringBuilder high -> c
    java.lang.StringBuilder sb -> d
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoText getResult() -> a
    int[] getOutlierIndex(double[]) -> a
    java.util.ArrayList createStemPlotArray(double[],double,int[]) -> a
    void compute() -> b
    void stemPlot(double[],int[],double,java.util.ArrayList) -> a
    void stemPlotMQ(double[],int[],double,java.util.ArrayList) -> b
    boolean isLaTeXTextCommand() -> v_
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoSumSquaredErrors -> geogebra.common.l.t.bp:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoFunctionable function -> a
    geogebra.common.kernel.geos.GeoNumeric sse -> a
    int size -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoNumeric getsse() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTDistribution -> geogebra.common.l.t.bq:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTDistributionDF -> geogebra.common.l.t.br:
    geogebra.common.kernel.arithmetic.NumberValue v -> a
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTMean2Estimate -> geogebra.common.l.t.bs:
    geogebra.common.kernel.geos.GeoList geoList1 -> a
    geogebra.common.kernel.geos.GeoList geoList2 -> b
    geogebra.common.kernel.geos.GeoNumeric geoLevel -> a
    geogebra.common.kernel.geos.GeoNumeric geoMean1 -> b
    geogebra.common.kernel.geos.GeoNumeric geoSD1 -> c
    geogebra.common.kernel.geos.GeoNumeric geoN1 -> d
    geogebra.common.kernel.geos.GeoNumeric geoMean2 -> e
    geogebra.common.kernel.geos.GeoNumeric geoSD2 -> f
    geogebra.common.kernel.geos.GeoNumeric geoN2 -> g
    geogebra.common.kernel.geos.GeoBoolean geoPooled -> a
    geogebra.common.kernel.geos.GeoList result -> c
    double[] val1 -> a
    double[] val2 -> b
    int size1 -> a
    int size2 -> b
    double level -> a
    double mean1 -> b
    double var1 -> c
    double n1 -> d
    double mean2 -> e
    double var2 -> f
    double n2 -> g
    double me -> h
    boolean pooled -> a
    org.apache.commons.math.stat.descriptive.SummaryStatistics stats -> a
    org.apache.commons.math.distribution.TDistributionImpl tDist -> a
    double difference -> i
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getDegreeOfFreedom(double,double,double,double,boolean) -> a
    double getMarginOfError(double,double,double,double,double,boolean) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTMeanEstimate -> geogebra.common.l.t.bt:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric geoLevel -> a
    geogebra.common.kernel.geos.GeoNumeric geoMean -> b
    geogebra.common.kernel.geos.GeoNumeric geoSD -> c
    geogebra.common.kernel.geos.GeoNumeric geoN -> d
    geogebra.common.kernel.geos.GeoList result -> b
    double[] val -> a
    double level -> a
    double mean -> b
    double sd -> c
    double n -> d
    double me -> e
    org.apache.commons.math.stat.descriptive.SummaryStatistics stats -> a
    org.apache.commons.math.distribution.TDistributionImpl tDist -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getME() -> a
    double getMarginOfError(double,double,double) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTTest -> geogebra.common.l.t.bu:
    geogebra.common.kernel.geos.GeoList geoList -> a
    geogebra.common.kernel.geos.GeoNumeric hypMean -> a
    geogebra.common.kernel.geos.GeoNumeric mean -> b
    geogebra.common.kernel.geos.GeoNumeric sd -> c
    geogebra.common.kernel.geos.GeoNumeric n -> d
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoList result -> b
    org.apache.commons.math.stat.inference.TTestImpl tTestImpl -> a
    double[] val -> a
    double p -> a
    double testStat -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double adjustedPValue(double,double) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTTest2 -> geogebra.common.l.t.bv:
    geogebra.common.kernel.geos.GeoList geoList0 -> a
    geogebra.common.kernel.geos.GeoList geoList1 -> b
    geogebra.common.kernel.geos.GeoNumeric mean0 -> a
    geogebra.common.kernel.geos.GeoNumeric mean1 -> b
    geogebra.common.kernel.geos.GeoNumeric sd0 -> c
    geogebra.common.kernel.geos.GeoNumeric sd1 -> d
    geogebra.common.kernel.geos.GeoNumeric n0 -> e
    geogebra.common.kernel.geos.GeoNumeric n1 -> f
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoBoolean pooled -> a
    geogebra.common.kernel.geos.GeoList result -> c
    org.apache.commons.math.stat.inference.TTestImpl tTestImpl -> a
    double[] val0 -> a
    double[] val1 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double adjustedPValue(double,double) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTTestPaired -> geogebra.common.l.t.bw:
    geogebra.common.kernel.geos.GeoList geoList0 -> a
    geogebra.common.kernel.geos.GeoList geoList1 -> b
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoList result -> c
    org.apache.commons.math.stat.inference.TTestImpl tTestImpl -> a
    double[] val0 -> a
    double[] val1 -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double adjustedPValue(double,double) -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTiedRank -> geogebra.common.l.t.bx:
    geogebra.common.kernel.geos.GeoList inputList -> a
    geogebra.common.kernel.geos.GeoList outputList -> b
    int size -> a
    org.apache.commons.math.stat.ranking.NaturalRanking rankingAlgorithm -> a
    double[] inputArray -> a
    double[] outputArray -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTriangular -> geogebra.common.l.t.by:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoTriangularDF -> geogebra.common.l.t.bz:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.NumberValue mode -> c
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoUniform -> geogebra.common.l.t.bA:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoUniformDF -> geogebra.common.l.t.bB:
    geogebra.common.kernel.arithmetic.NumberValue a -> a
    geogebra.common.kernel.arithmetic.NumberValue b -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoUsingUniqueAndFrequency -> geogebra.common.l.t.bC:
    geogebra.common.kernel.statistics.AlgoFrequency algoFreq -> a
    void createHelperAlgos(geogebra.common.kernel.geos.GeoList) -> a
    void createHelperAlgos(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
    void removeHelperAlgos() -> j
geogebra.common.kernel.statistics.AlgoVariance -> geogebra.common.l.t.bD:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoWeibull -> geogebra.common.l.t.bE:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoWeibullDF -> geogebra.common.l.t.bF:
    geogebra.common.kernel.arithmetic.NumberValue k -> a
    geogebra.common.kernel.arithmetic.NumberValue l -> b
    geogebra.common.kernel.arithmetic.BooleanValue cumulative -> a
    geogebra.common.kernel.geos.GeoFunction ret -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoFunction getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZMean2Estimate -> geogebra.common.l.t.bG:
    geogebra.common.kernel.geos.GeoNumeric mean -> a
    geogebra.common.kernel.geos.GeoNumeric sd -> b
    geogebra.common.kernel.geos.GeoNumeric n -> c
    geogebra.common.kernel.geos.GeoNumeric mean_2 -> d
    geogebra.common.kernel.geos.GeoNumeric sd_2 -> e
    geogebra.common.kernel.geos.GeoNumeric n_2 -> f
    geogebra.common.kernel.geos.GeoNumeric level -> g
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoList list2 -> b
    geogebra.common.kernel.geos.GeoList result -> c
    double me -> a
    double se -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getME() -> a
    double getSE() -> b
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZMean2Test -> geogebra.common.l.t.bH:
    geogebra.common.kernel.geos.GeoNumeric mean -> a
    geogebra.common.kernel.geos.GeoNumeric sd -> b
    geogebra.common.kernel.geos.GeoNumeric n -> c
    geogebra.common.kernel.geos.GeoNumeric mean_2 -> d
    geogebra.common.kernel.geos.GeoNumeric sd_2 -> e
    geogebra.common.kernel.geos.GeoNumeric n_2 -> f
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoList list2 -> b
    geogebra.common.kernel.geos.GeoList result -> c
    double se -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getSE() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZMeanEstimate -> geogebra.common.l.t.bI:
    geogebra.common.kernel.geos.GeoNumeric mean -> a
    geogebra.common.kernel.geos.GeoNumeric sd -> b
    geogebra.common.kernel.geos.GeoNumeric n -> c
    geogebra.common.kernel.geos.GeoNumeric level -> d
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoList result -> b
    double me -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    double getME() -> a
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZMeanTest -> geogebra.common.l.t.bJ:
    geogebra.common.kernel.geos.GeoNumeric hypMean -> a
    geogebra.common.kernel.geos.GeoNumeric mean -> b
    geogebra.common.kernel.geos.GeoNumeric sd -> c
    geogebra.common.kernel.geos.GeoNumeric n -> d
    geogebra.common.kernel.geos.GeoList list -> a
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoList result -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZProportion2Estimate -> geogebra.common.l.t.bK:
    geogebra.common.kernel.geos.GeoNumeric proportion -> a
    geogebra.common.kernel.geos.GeoNumeric n -> b
    geogebra.common.kernel.geos.GeoNumeric proportion2 -> c
    geogebra.common.kernel.geos.GeoNumeric n_2 -> d
    geogebra.common.kernel.geos.GeoNumeric level -> e
    geogebra.common.kernel.geos.GeoList result -> a
    double se -> a
    double me -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getME() -> a
    double getSE() -> b
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZProportion2Test -> geogebra.common.l.t.bL:
    geogebra.common.kernel.geos.GeoNumeric proportion -> a
    geogebra.common.kernel.geos.GeoNumeric n -> b
    geogebra.common.kernel.geos.GeoNumeric proportion2 -> c
    geogebra.common.kernel.geos.GeoNumeric n_2 -> d
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoList result -> a
    double se -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getSE() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZProportionEstimate -> geogebra.common.l.t.bM:
    geogebra.common.kernel.geos.GeoNumeric proportion -> a
    geogebra.common.kernel.geos.GeoNumeric n -> b
    geogebra.common.kernel.geos.GeoNumeric level -> c
    geogebra.common.kernel.geos.GeoList result -> a
    double se -> a
    double me -> b
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getME() -> a
    double getSE() -> b
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZProportionTest -> geogebra.common.l.t.bN:
    geogebra.common.kernel.geos.GeoNumeric hypPropertion -> a
    geogebra.common.kernel.geos.GeoNumeric proportion -> b
    geogebra.common.kernel.geos.GeoNumeric n -> c
    geogebra.common.kernel.geos.GeoText tail -> a
    geogebra.common.kernel.geos.GeoList result -> a
    double se -> a
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void setInputOutput() -> a_
    geogebra.common.kernel.geos.GeoList getResult() -> a
    double getSE() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZipf -> geogebra.common.l.t.bO:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    void compute() -> b
    geogebra.common.kernel.algos.GetCommand getClassName() -> a
geogebra.common.kernel.statistics.AlgoZipfBarChart -> geogebra.common.l.t.bP:
    geogebra.common.kernel.commands.Commands getClassName() -> a
    geogebra.common.kernel.algos.DrawInformationAlgo copy() -> a
geogebra.common.kernel.statistics.CmdANOVA -> geogebra.common.l.t.bQ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoList ANOVATest(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdBernoulli -> geogebra.common.l.t.bR:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdBinomialDist -> geogebra.common.l.t.bS:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdBoxPlot -> geogebra.common.l.t.bT:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdCauchy -> geogebra.common.l.t.bU:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdCell -> geogebra.common.l.t.bV:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdCellRange -> geogebra.common.l.t.bW:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdChiSquared -> geogebra.common.l.t.bX:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdChiSquaredTest -> geogebra.common.l.t.bY:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdClasses -> geogebra.common.l.t.bZ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdColumn -> geogebra.common.l.t.ca:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdColumnName -> geogebra.common.l.t.cb:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdContingencyTable -> geogebra.common.l.t.cc:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdCovariance -> geogebra.common.l.t.cd:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdDotPlot -> geogebra.common.l.t.ce:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdErlang -> geogebra.common.l.t.cf:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdExponential -> geogebra.common.l.t.cg:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdFDistribution -> geogebra.common.l.t.ch:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdFillCells -> geogebra.common.l.t.ci:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    void removePossibleGeo(java.lang.String) -> a
geogebra.common.kernel.statistics.CmdFillColumn -> geogebra.common.l.t.cj:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdFillRow -> geogebra.common.l.t.ck:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdFit -> geogebra.common.l.t.cl:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdFitExp -> geogebra.common.l.t.cm:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitGrowth -> geogebra.common.l.t.cn:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitImplicit -> geogebra.common.l.t.co:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdFitLineX -> geogebra.common.l.t.cp:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitLineY -> geogebra.common.l.t.cq:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitLog -> geogebra.common.l.t.cr:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitLogistic -> geogebra.common.l.t.cs:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitPoly -> geogebra.common.l.t.ct:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoFunction FitPoly(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.statistics.CmdFitPow -> geogebra.common.l.t.cu:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFitSin -> geogebra.common.l.t.cv:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdFrequency -> geogebra.common.l.t.cw:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean) -> a
    geogebra.common.kernel.geos.GeoList Frequency(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.statistics.CmdFrequencyPolygon -> geogebra.common.l.t.cx:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoPolyLine FrequencyPolygon(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.statistics.CmdFrequencyTable -> geogebra.common.l.t.cy:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric) -> a
    geogebra.common.kernel.geos.GeoText FrequencyTable(java.lang.String,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.statistics.CmdGamma -> geogebra.common.l.t.cz:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdGeometricMean -> geogebra.common.l.t.cA:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdHarmonicMean -> geogebra.common.l.t.cB:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdHistogram -> geogebra.common.l.t.cC:
    boolean right -> a
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoNumeric Histogram(java.lang.String,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric,boolean) -> a
    geogebra.common.kernel.geos.GeoNumeric Histogram(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean,geogebra.common.kernel.geos.GeoNumeric,boolean) -> a
geogebra.common.kernel.statistics.CmdHistogramRight -> geogebra.common.l.t.cD:
geogebra.common.kernel.statistics.CmdHyperGeometric -> geogebra.common.l.t.cE:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseBinomial -> geogebra.common.l.t.cF:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseCauchy -> geogebra.common.l.t.cG:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseChiSquared -> geogebra.common.l.t.cH:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseExponential -> geogebra.common.l.t.cI:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseFDistribution -> geogebra.common.l.t.cJ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseGamma -> geogebra.common.l.t.cK:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseHyperGeometric -> geogebra.common.l.t.cL:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseLogNormal -> geogebra.common.l.t.cM:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseLogistic -> geogebra.common.l.t.cN:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseNormal -> geogebra.common.l.t.cO:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInversePascal -> geogebra.common.l.t.cP:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInversePoisson -> geogebra.common.l.t.cQ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseTDistribution -> geogebra.common.l.t.cR:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseWeibull -> geogebra.common.l.t.cS:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdInverseZipf -> geogebra.common.l.t.cT:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdLogNormal -> geogebra.common.l.t.cU:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdLogistic -> geogebra.common.l.t.cV:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdMean -> geogebra.common.l.t.cW:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdMeanX -> geogebra.common.l.t.cX:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdMeanY -> geogebra.common.l.t.cY:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdMedian -> geogebra.common.l.t.cZ:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdMode -> geogebra.common.l.t.da:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdNormal -> geogebra.common.l.t.db:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdNormalQuantilePlot -> geogebra.common.l.t.dc:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdNpR -> geogebra.common.l.t.dd:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdOrdinalRank -> geogebra.common.l.t.de:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdPMCC -> geogebra.common.l.t.df:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdPascal -> geogebra.common.l.t.dg:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdPercentile -> geogebra.common.l.t.dh:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdPoisson -> geogebra.common.l.t.di:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdQ1 -> geogebra.common.l.t.dj:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdQ3 -> geogebra.common.l.t.dk:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdRSquare -> geogebra.common.l.t.dl:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdRandomBinomial -> geogebra.common.l.t.dm:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.statistics.CmdRandomElement -> geogebra.common.l.t.dn:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdRandomNormal -> geogebra.common.l.t.do:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.statistics.CmdRandomPoisson -> geogebra.common.l.t.dp:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdRandomPolynomial -> geogebra.common.l.t.dq:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdRandomUniform -> geogebra.common.l.t.dr:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
    geogebra.common.kernel.geos.GeoElement doCommand2(geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.common.kernel.statistics.CmdResidualPlot -> geogebra.common.l.t.ds:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdRootMeanSquare -> geogebra.common.l.t.dt:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdRow -> geogebra.common.l.t.du:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdSD -> geogebra.common.l.t.dv:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSDX -> geogebra.common.l.t.dw:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSDY -> geogebra.common.l.t.dx:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSXX -> geogebra.common.l.t.dy:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSXY -> geogebra.common.l.t.dz:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSYY -> geogebra.common.l.t.dA:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSample -> geogebra.common.l.t.dB:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoElement Sample(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.geos.GeoBoolean) -> a
geogebra.common.kernel.statistics.CmdSampleSD -> geogebra.common.l.t.dC:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSampleSDX -> geogebra.common.l.t.dD:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSampleSDY -> geogebra.common.l.t.dE:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSampleVariance -> geogebra.common.l.t.dF:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdShuffle -> geogebra.common.l.t.dG:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSigmaXX -> geogebra.common.l.t.dH:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoBoolean) -> a
geogebra.common.kernel.statistics.CmdSigmaXY -> geogebra.common.l.t.dI:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSigmaYY -> geogebra.common.l.t.dJ:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdSpearman -> geogebra.common.l.t.dK:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdStemPlot -> geogebra.common.l.t.dL:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
    geogebra.common.kernel.geos.GeoText StemPlot(java.lang.String,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoNumeric) -> a
geogebra.common.kernel.statistics.CmdStepGraph -> geogebra.common.l.t.dM:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdStickGraph -> geogebra.common.l.t.dN:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdSumSquaredErrors -> geogebra.common.l.t.dO:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTDistribution -> geogebra.common.l.t.dP:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTMean2Estimate -> geogebra.common.l.t.dQ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTMeanEstimate -> geogebra.common.l.t.dR:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTTest -> geogebra.common.l.t.dS:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTTest2 -> geogebra.common.l.t.dT:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTTestPaired -> geogebra.common.l.t.dU:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdTiedRank -> geogebra.common.l.t.dV:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdTriangular -> geogebra.common.l.t.dW:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdUniform -> geogebra.common.l.t.dX:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdVariance -> geogebra.common.l.t.dY:
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    geogebra.common.kernel.geos.GeoElement doCommand(java.lang.String,geogebra.common.kernel.arithmetic.Command,geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.geos.GeoList) -> a
geogebra.common.kernel.statistics.CmdWeibull -> geogebra.common.l.t.dZ:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZMean2Estimate -> geogebra.common.l.t.ea:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZMean2Test -> geogebra.common.l.t.eb:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZMeanEstimate -> geogebra.common.l.t.ec:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZMeanTest -> geogebra.common.l.t.ed:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZProportion2Estimate -> geogebra.common.l.t.ee:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZProportion2Test -> geogebra.common.l.t.ef:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZProportionEstimate -> geogebra.common.l.t.eg:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZProportionTest -> geogebra.common.l.t.eh:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.CmdZipf -> geogebra.common.l.t.ei:
    geogebra.common.kernel.geos.GeoElement[] process(geogebra.common.kernel.arithmetic.Command) -> a
geogebra.common.kernel.statistics.DistributionFunctionFactory -> geogebra.common.l.t.ej:
    geogebra.common.kernel.geos.GeoFunction zeroWhenNegative(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoFunction zeroWhenLessThan(geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.Construction) -> a
geogebra.common.kernel.statistics.FitAlgo -> geogebra.common.l.t.ek:
    double[] getCoeffs() -> a
geogebra.common.kernel.statistics.FrequencyGgb -> geogebra.common.l.t.el:
    void addValue(java.lang.Comparable) -> a
geogebra.common.kernel.statistics.RegressionMath -> geogebra.common.l.t.em:
    boolean error -> a
    double p1 -> a
    double p2 -> b
    double p3 -> c
    double p4 -> d
    double p5 -> e
    double sigmax -> f
    double sigmax2 -> g
    double sigmax3 -> h
    double sigmax4 -> i
    double sigmax5 -> j
    double sigmax6 -> k
    double sigmax7 -> l
    double sigmax8 -> m
    double sigmay -> n
    double sigmay2 -> o
    double sigmaxy -> p
    double sigmax2y -> q
    double sigmax3y -> r
    double sigmax4y -> s
    geogebra.common.kernel.geos.GeoList geolist -> a
    double[] xlist -> a
    double[] ylist -> b
    int size -> a
    double[][] marray -> a
    double[][] yarray -> b
    double[] pararray -> c
    double getP1() -> a
    double getP2() -> b
    double getP3() -> c
    double getP4() -> d
    double getP5() -> e
    double[] getPar() -> a
    boolean doPolyN(geogebra.common.kernel.geos.GeoList,int) -> a
    boolean doLinear(geogebra.common.kernel.geos.GeoList) -> a
    boolean doQuad(geogebra.common.kernel.geos.GeoList) -> b
    boolean doCubic(geogebra.common.kernel.geos.GeoList) -> c
    boolean doQuart(geogebra.common.kernel.geos.GeoList) -> d
    boolean doExp(geogebra.common.kernel.geos.GeoList) -> e
    boolean doLog(geogebra.common.kernel.geos.GeoList) -> f
    boolean doPow(geogebra.common.kernel.geos.GeoList) -> g
    double det22(double,double,double,double) -> a
    double det33(double,double,double,double,double,double,double,double,double) -> a
    double det44(double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double) -> a
    double det55(double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double) -> a
    void doSums(int) -> a
    void getPoints() -> a
    void makeMatrixArrays(int) -> b
geogebra.common.main.AlgoCellRangeManager -> geogebra.common.m.a:
    java.util.HashMap algos -> a
    void unregisterCellRangeListenerAlgo(geogebra.common.kernel.statistics.AlgoCellRange) -> a
    void updateCellRangeAlgos(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GPoint,boolean) -> a
    void addToCellRangeAlgos(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GPoint) -> a
    void removeAll() -> a
    geogebra.common.kernel.statistics.AlgoCellRange getAlgoCellRange(geogebra.common.kernel.Construction,java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getKey(java.lang.String,java.lang.String) -> a
geogebra.common.main.AlgoCubicSwitchInterface -> geogebra.common.m.b:
    java.lang.String getEquation(geogebra.common.main.AlgoCubicSwitchParams) -> a
geogebra.common.main.AlgoCubicSwitchParams -> geogebra.common.m.c:
    double n -> a
    double a -> b
    double b -> c
    double c -> d
geogebra.common.main.AlgoKimberlingWeightsInterface -> geogebra.common.m.d:
    double weight(geogebra.common.main.AlgoKimberlingWeightsParams) -> a
geogebra.common.main.AlgoKimberlingWeightsParams -> geogebra.common.m.e:
    int k -> a
    double a -> a
    double b -> b
    double c -> c
geogebra.common.main.App -> geogebra.common.m.f:
    geogebra.common.plugin.ScriptManager scriptManager -> a
    boolean hasFullPermissions -> a
    boolean isSaved -> b
    boolean showResetIcon -> y
    boolean runningInFrame -> c
    geogebra.common.kernel.parser.cashandlers.ParserFunctions pf -> a
    geogebra.common.main.SpreadsheetTraceManager traceManager -> a
    int capturingThreshold -> h
    int capturingThresholdTouch -> i
    geogebra.common.main.App$InputPositon showInputTop -> a
    boolean showAlgebraInput -> d
    boolean showToolBarTop -> e
    boolean showToolBarHelp -> f
    int toolbarPosition -> a
    boolean showInputHelpToggle -> g
    boolean showAuxiliaryObjects -> h
    boolean rightClickEnabled -> i
    boolean exporting -> j
    java.lang.String CASVersionString -> a
    geogebra.common.move.ggtapi.operations.LogInOperation loginOperation -> a
    geogebra.common.io.MyXMLio myXMLio -> a
    int guiFontSize -> b
    int appFontSize -> j
    int maxLayerUsed -> k
    int booleanSize -> l
    int rightAngleStyle -> c
    boolean useJavaFontsForLaTeX -> k
    geogebra.common.kernel.Kernel kernel -> a
    boolean isOnTheFlyPointCreationActive -> l
    geogebra.common.main.settings.Settings settings -> a
    geogebra.common.main.SelectionManager selection -> a
    boolean antialiasing -> m
    boolean[] showAxes -> a
    boolean showGrid -> n
    boolean initing -> o
    boolean labelDragsEnabled -> z
    java.util.HashMap translateCommandTable -> a
    geogebra.common.util.LowerCaseDictionary commandDict -> a
    geogebra.common.util.LowerCaseDictionary commandDictCAS -> b
    geogebra.common.euclidian.EuclidianView euclidianView -> a
    geogebra.common.euclidian.EuclidianController euclidianController -> a
    geogebra.common.main.GeoElementSelectionListener currentSelectionListener -> a
    boolean showMenuBar -> p
    geogebra.common.util.LowerCaseDictionary[] subCommandDict -> a
    java.lang.String scriptingLanguage -> b
    geogebra.common.main.AlgoKimberlingWeightsInterface kimberlingw -> a
    geogebra.common.main.AlgoCubicSwitchInterface cubicw -> a
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem storeUndoInfoForSetCoordSystem -> a
    boolean blockUpdateScripts -> A
    boolean useBrowserForJavaScript -> B
    geogebra.common.plugin.EventDispatcher eventDispatcher -> a
    int[] roundingMenuLookup -> a
    int[] decimalsLookup -> b
    int[] figuresLookup -> c
    java.lang.String[] strDecimalSpacesAC -> a
    geogebra.common.cas.singularws.SingularWebService singularWS -> a
    int[] version -> d
    java.util.List savedListeners -> a
    geogebra.common.kernel.Macro macro -> a
    int labelingStyle -> m
    boolean scriptingDisabled -> C
    boolean reverseMouseWheel -> D
    java.util.ArrayList tmpPerspectives -> a
    boolean showToolBar -> q
    geogebra.common.gui.view.properties.PropertiesView propertiesView -> a
    boolean shiftDragZoomEnabled -> r
    boolean useTransparentCursorWhenDragging -> s
    int appletWidth -> d
    int appletHeight -> e
    boolean useFullGui -> t
    java.lang.StringBuilder sbPlain -> a
    boolean useFullAppGui -> u
    int appCanvasHeight -> f
    int appCanvasWidth -> g
    java.util.Random random -> a
    geogebra.common.plugin.GeoScriptRunner geoScriptRunner -> a
    geogebra.common.kernel.geos.GeoElement geoForCopyStyle -> a
    geogebra.common.gui.menubar.OptionsMenu optionsMenu -> a
    boolean needsSpreadsheetTableModel -> v
    boolean showConstProtNavigationNeedsUpdate -> w
    boolean showConsProtNavigation -> x
    boolean isErrorDialogsActive -> E
    geogebra.common.main.AppCompanion companion -> a
    boolean allowPopUps -> F
    boolean CASViewEnabled -> G
    boolean _3DViewEnabled -> H
    int tubeID -> n
    void setCASVersionString(java.lang.String) -> a
    java.lang.String getCASVersionString() -> a
    void setCheckboxSize(int) -> a
    int getCheckboxSize() -> a
    boolean useJavaFontsForLaTeX() -> a
    int getCapturingThreshold(geogebra.common.euclidian.event.PointerEventType) -> a
    void setCapturingThreshold(int) -> b
    geogebra.common.util.LowerCaseDictionary newLowerCaseDictionary() -> a
    void fillCasCommandDict() -> a
    geogebra.common.util.LowerCaseDictionary getCommandDictionaryCAS() -> b
    geogebra.common.util.LowerCaseDictionary[] getSubCommandDictionary() -> a
    void initTranslatedCommands() -> b
    geogebra.common.util.LowerCaseDictionary getCommandDictionary() -> c
    void fillCommandDict() -> c
    void putInTranslateCommandTable(geogebra.common.kernel.commands.Commands,java.lang.String) -> a
    java.lang.String getReverseCommand(java.lang.String) -> a
    void updateCommandDictionary() -> d
    void addMacroCommands() -> e
    void removeMacroCommands() -> f
    boolean isApplet() -> b
    void storeUndoInfo() -> g
    void storeUndoInfoIfSetCoordSystemOccured() -> h
    void setCoordSystemOccured() -> i
    void maySetCoordSystem() -> j
    boolean isUsingFullGui() -> c
    boolean showView(int) -> a
    boolean letRename() -> d
    boolean letDelete() -> e
    boolean letRedefine() -> f
    boolean isBlockUpdateScripts() -> g
    void setBlockUpdateScripts(boolean) -> a
    java.lang.String getInternalCommand(java.lang.String) -> b
    void showError(java.lang.String) -> b
    void showErrorDialog(java.lang.String) -> c
    void setUseBrowserForJavaScript(boolean) -> b
    boolean useBrowserForJavaScript() -> h
    geogebra.common.plugin.ScriptManager getScriptManager() -> a
    geogebra.common.plugin.EventDispatcher getEventDispatcher() -> a
    java.lang.String getTraceXML(geogebra.common.kernel.geos.GeoElement) -> a
    void resetTraceColumn(geogebra.common.kernel.geos.GeoElement) -> a
    void updateMaxLayerUsed(int) -> c
    boolean is3D() -> i
    geogebra.common.kernel.geos.GeoElement getLastCreatedGeoElement() -> a
    void deleteSelectedObjects() -> k
    boolean showAuxiliaryObjects() -> j
    void getKeyboardXML(java.lang.StringBuilder) -> a
    boolean freeMemoryIsCritical() -> k
    long freeMemory() -> a
    void updateRightAngleStyle() -> l
    void setRightAngleStyle(int) -> d
    void setRightAngleStyleLocalDefault() -> m
    int getMaxLayerUsed() -> b
    double countPixels(double,double) -> a
    geogebra.common.gui.view.algebra.AlgebraView getAlgebraView() -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView1() -> a
    void resetMaxLayerUsed() -> n
    geogebra.common.euclidian.EuclidianViewInterfaceCommon getActiveEuclidianView() -> a
    boolean hasEuclidianView3D() -> l
    boolean isEuclidianView3Dinited() -> m
    geogebra.common.euclidian3D.EuclidianView3DInterface getEuclidianView3D() -> a
    boolean hasEuclidianView2EitherShowingOrNot(int) -> b
    geogebra.common.util.ImageManager getImageManager() -> a
    geogebra.common.main.GuiManagerInterface getGuiManager() -> a
    geogebra.common.main.DialogManager getDialogManager() -> a
    void initGuiManager() -> o
    void printStacktrace(java.lang.Object) -> a
    void initializeSingularWS() -> p
    void debug(java.lang.String) -> d
    void error(java.lang.String) -> e
    void trace(java.lang.String) -> f
    boolean isMacOS() -> n
    boolean isWindows() -> o
    java.lang.String getScriptingLanguage() -> b
    void setScriptingLanguage(java.lang.String) -> g
    void evalJavaScript(geogebra.common.main.App,java.lang.String,java.lang.String) -> a
    void setFileVersion(java.lang.String) -> h
    int[] getSubValues(java.lang.String) -> a
    geogebra.common.euclidian.EuclidianView createEuclidianView() -> b
    int getMode() -> c
    int getCurrentLabelingStyle() -> d
    int getMD5folderLength(java.lang.String) -> a
    geogebra.common.awt.MyImage getExternalImageAdapter(java.lang.String,int,int) -> a
    boolean isLabelDragsEnabled() -> p
    void setLabelDragsEnabled(boolean) -> c
    void setScrollToShow(boolean) -> d
    void setSaved() -> q
    void setUnsaved() -> r
    boolean isSaved() -> q
    void setActiveView(int) -> e
    void refreshViews() -> s
    void openMacro(geogebra.common.kernel.Macro) -> a
    geogebra.common.kernel.Macro getMacro() -> a
    java.lang.String getMacroXML() -> c
    boolean hasEuclidianView2(int) -> c
    void showError(geogebra.common.main.MyError) -> a
    void showError(java.lang.Exception,geogebra.common.util.CommandInputField) -> a
    void showCommandError(java.lang.String,java.lang.String) -> a
    java.lang.String getXML() -> d
    void showError(java.lang.String,java.lang.String) -> b
    geogebra.common.kernel.View getView(int) -> a
    java.lang.String getCompleteUserInterfaceXML(boolean) -> a
    void getScriptingXML(java.lang.StringBuilder,boolean) -> c
    geogebra.common.main.settings.Settings getSettings() -> a
    java.lang.String getUniqueId() -> e
    void setUniqueId(java.lang.String) -> i
    void setShowAuxiliaryObjects(boolean) -> e
    void setLabelingStyle(int) -> f
    int getLabelingStyle() -> e
    boolean isScriptingDisabled() -> r
    void setScriptingDisabled(boolean) -> f
    boolean isMouseWheelReversed() -> s
    void reverseMouseWheel(boolean) -> g
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    int getTooltipTimeout() -> f
    void setTooltipLanguage(java.lang.String) -> j
    geogebra.common.euclidian.DrawEquation getDrawEquation() -> a
    void setTmpPerspectives(java.util.ArrayList) -> a
    java.util.ArrayList getTmpPerspectives() -> a
    void setTooltipTimeout(int) -> g
    geogebra.common.euclidian.EuclidianView getEuclidianView2(int) -> a
    double getWidth() -> a
    double getHeight() -> b
    geogebra.common.awt.GFont getFontCommon(boolean,int,int) -> a
    geogebra.common.awt.GFont getPlainFontCommon() -> a
    void setShowToolBarNoUpdate(boolean) -> h
    void setShowToolBarHelpNoUpdate(boolean) -> i
    boolean showToolBar() -> t
    boolean showMenuBar() -> u
    void setShowMenuBar(boolean) -> j
    void setShowToolBar(boolean,boolean) -> a
    int getToolbarPosition() -> g
    void setToolbarPosition(int,boolean) -> a
    void initKernel() -> t
    void initEuclidianViews() -> u
    geogebra.common.euclidian.EuclidianView newEuclidianView(boolean[],boolean) -> a
    geogebra.common.euclidian.EuclidianController newEuclidianController(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.UndoManager getUndoManager(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.AnimationManager newAnimationManager(geogebra.common.kernel.Kernel) -> a
    geogebra.common.kernel.geos.GeoElementGraphicsAdapter newGeoElementGraphicsAdapter() -> a
    void repaintSpreadsheet() -> v
    boolean isOnTheFlyPointCreationActive() -> v
    geogebra.common.main.SpreadsheetTraceManager getTraceManager() -> a
    boolean hasTraceManager() -> w
    boolean hasGeoTraced() -> x
    void setDefaultCursor() -> w
    void setWaitCursor() -> x
    void updateStyleBars() -> y
    void setMoveMode() -> z
    geogebra.common.main.SpreadsheetTableModel getSpreadsheetTableModel() -> a
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void setMode(int) -> h
    void addToEuclidianView(geogebra.common.kernel.geos.GeoElement) -> b
    void removeFromEuclidianView(geogebra.common.kernel.geos.GeoElement) -> c
    void setXML(java.lang.String,boolean) -> a
    geogebra.common.plugin.GgbAPI getGgbApi() -> a
    geogebra.common.sound.SoundManager getSoundManager() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    boolean isRightClick(geogebra.common.euclidian.event.AbstractEvent) -> a
    boolean isControlDown(geogebra.common.euclidian.event.AbstractEvent) -> b
    boolean isMiddleClick(geogebra.common.euclidian.event.AbstractEvent) -> c
    boolean showAlgebraInput() -> y
    geogebra.common.main.GlobalKeyDispatcher getGlobalKeyDispatcher() -> a
    void callAppletJavaScript(java.lang.String,java.lang.Object[]) -> a
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setPropertiesView(geogebra.common.gui.view.properties.PropertiesView) -> a
    void setSelectionListenerMode(geogebra.common.main.GeoElementSelectionListener) -> a
    void updateSelection(boolean) -> k
    void setPropertiesViewPanel(geogebra.common.main.OptionType) -> a
    boolean isIniting() -> z
    boolean isShiftDragZoomEnabled() -> A
    void setShiftDragZoomEnabled(boolean) -> l
    void updateMenubar() -> A
    int getFontSize() -> h
    void setFontSize(int) -> i
    void setFontSize(int,boolean) -> b
    void updateUI() -> B
    void resetFonts() -> C
    int getGUIFontSize() -> i
    void setGUIFontSize(int) -> j
    geogebra.common.main.FontManager getFontManager() -> a
    geogebra.common.awt.GFont getFontCanDisplay(java.lang.String) -> a
    geogebra.common.awt.GFont getFontCanDisplay(java.lang.String,int) -> a
    geogebra.common.awt.GFont getFontCanDisplay(java.lang.String,boolean,int,int) -> a
    java.lang.String getGuiXML(boolean) -> b
    void getConsProtocolXML(java.lang.StringBuilder) -> b
    int getWindowWidth() -> j
    int getWindowHeight() -> k
    void getWindowLayoutXML(java.lang.StringBuilder,boolean) -> a
    void getLayoutXML(java.lang.StringBuilder,boolean) -> b
    void reset() -> D
    geogebra.common.main.GeoElementSelectionListener getCurrentSelectionListener() -> a
    void setCurrentSelectionListener(geogebra.common.main.GeoElementSelectionListener) -> b
    void setShowResetIcon(boolean) -> m
    boolean showResetIcon() -> B
    boolean isUndoActive() -> C
    boolean isHTML5Applet() -> D
    boolean isExam() -> E
    void setOnTheFlyPointCreationActive(boolean) -> n
    void setUseTransparentCursorWhenDragging(boolean) -> o
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType getPreferredFormulaRenderingType() -> a
    void doAfterRedefine(geogebra.common.kernel.geos.GeoElement) -> d
    void showURLinBrowser(java.lang.String) -> k
    void uploadToGeoGebraTube() -> E
    boolean getUseFullGui() -> F
    void setUndoActive(boolean) -> p
    boolean isFullAppGui() -> G
    int getAppCanvasWidth() -> l
    int getAppCanvasHeight() -> m
    geogebra.common.awt.GImage getInternalImageAdapter(java.lang.String) -> a
    boolean showInputTop() -> H
    geogebra.common.main.App$InputPositon getInputPosition() -> a
    void setShowInputTop(boolean,boolean) -> b
    boolean showInputHelpToggle() -> I
    void setShowInputHelpToggle(boolean) -> q
    void updateApplicationLayout() -> F
    java.lang.String getToolNameOrHelp(int,boolean) -> a
    java.lang.String getToolName(int) -> a
    java.lang.String getToolHelp(int) -> b
    java.lang.String getFunction(java.lang.String) -> c
    geogebra.common.kernel.parser.cashandlers.ParserFunctions getParserFunctions() -> a
    void createNewWindow() -> G
    void fileNew() -> H
    java.lang.String getCountryFromGeoIP() -> f
    double getRandomNumber() -> c
    int getRandomIntegerBetween(double,double) -> a
    void setRandomSeed(int) -> k
    boolean loadXML(java.lang.String) -> a
    void copyGraphicsViewToClipboard() -> I
    void copyBase64ToClipboard() -> J
    void setStandardView() -> K
    void exitAll() -> L
    void addMenuItem(geogebra.common.gui.menubar.MenuInterface,java.lang.String,java.lang.String,boolean,geogebra.common.gui.menubar.MenuInterface) -> a
    java.lang.String getVersionString() -> g
    geogebra.common.util.NormalizerMinimal getNormalizer() -> a
    java.lang.String getEmptyIconFileName() -> h
    void zoom(double,double,double) -> a
    void zoomAxesRatio(double) -> a
    void setViewShowAllObjects() -> M
    void setRightClickEnabled(boolean) -> r
    boolean isRightClickEnabled() -> J
    boolean letShowPopupMenu() -> K
    boolean letShowPropertiesDialog() -> L
    java.lang.String getPreferencesXML() -> i
    void runScripts(geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    geogebra.common.plugin.script.Script createScript(geogebra.common.plugin.ScriptType,java.lang.String,boolean) -> a
    void startGeoScriptRunner() -> N
    void showRelation(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.kernel.geos.GeoElement getGeoForCopyStyle() -> b
    void setGeoForCopyStyle(geogebra.common.kernel.geos.GeoElement) -> e
    geogebra.common.factories.CASFactory getCASFactory() -> a
    geogebra.common.factories.SwingFactory getSwingFactory() -> a
    geogebra.common.factories.Factory getFactory() -> a
    void dispatchEvent(geogebra.common.plugin.Event) -> a
    geogebra.common.gui.menubar.OptionsMenu getOptionsMenu(geogebra.common.gui.menubar.MenuFactory) -> a
    boolean hasOptionsMenu() -> M
    geogebra.common.io.MyXMLio getXMLio() -> a
    geogebra.common.io.MyXMLio createXMLio(geogebra.common.kernel.Construction) -> a
    void scheduleUpdateConstruction() -> O
    void setShowAlgebraInput(boolean,boolean) -> c
    void setNeedsSpreadsheetTableModel() -> P
    boolean needsSpreadsheetTableModel() -> N
    int getAppletWidth() -> n
    int getAppletHeight() -> o
    void startCollectingRepaints() -> Q
    void stopCollectingRepaints() -> R
    geogebra.common.main.Localization getLocalization() -> a
    java.lang.String getMenu(java.lang.String) -> d
    java.lang.String getPlain(java.lang.String) -> e
    geogebra.common.main.SelectionManager getSelectionManager() -> a
    void resetPen() -> S
    boolean getShowCPNavNeedsUpdate() -> O
    boolean showConsProtNavigation() -> P
    void setShowConstructionProtocolNavigation(boolean,boolean,double,boolean) -> a
    void setShowConstructionProtocolNavigation(boolean) -> s
    void updateCenterPanel(boolean) -> t
    void toggleShowConstructionProtocolNavigation() -> T
    geogebra.common.javax.swing.GImageIcon wrapGetModeIcon(int) -> a
    void updateActions() -> U
    void doRepaintViews() -> V
    geogebra.common.move.ggtapi.operations.LogInOperation getLoginOperation() -> a
    geogebra.common.main.AlgoKimberlingWeightsInterface getAlgoKimberlingWeights() -> a
    double kimberlingWeight(geogebra.common.main.AlgoKimberlingWeightsParams) -> a
    geogebra.common.main.AlgoCubicSwitchInterface getAlgoCubicSwitch() -> a
    java.lang.String cubicSwitch(geogebra.common.main.AlgoCubicSwitchParams) -> a
    geogebra.common.kernel.commands.CommandDispatcher getCommandDispatcher(geogebra.common.kernel.Kernel) -> a
    void loseFocus() -> W
    boolean isScreenshotGenerator() -> Q
    boolean isErrorDialogsActive() -> R
    void setErrorDialogsActive(boolean) -> u
    void updateViewSizes() -> X
    void persistWidthAndHeight() -> Y
    geogebra.common.main.AppCompanion newAppCompanion() -> a
    geogebra.common.main.AppCompanion getCompanion() -> b
    geogebra.common.plugin.UDPLogger getUDPLogger() -> a
    boolean isShowingMultipleEVs() -> S
    void setAllowPopups(boolean) -> v
    boolean isAllowPopups() -> T
    void showPopUps() -> Z
    void openSearch(java.lang.String) -> l
    boolean addMacroXML(java.lang.String) -> b
    void disableCASView() -> aa
    boolean supportsView(int) -> d
    void disable3DView() -> ab
    void showCustomizeToolbarGUI() -> ac
    boolean isSelectionRectangleAllowed() -> U
    java.lang.String getEnglishCommand(java.lang.String) -> f
    boolean isPrerelease() -> V
    void setTubeId(int) -> l
geogebra.common.main.App$InputPositon -> geogebra.common.m.f$a:
    geogebra.common.main.App$InputPositon algebraView -> a
    geogebra.common.main.App$InputPositon top -> b
    geogebra.common.main.App$InputPositon bottom -> c
    geogebra.common.main.App$InputPositon[] ENUM$VALUES -> a
    geogebra.common.main.App$InputPositon[] values() -> values
    geogebra.common.main.App$InputPositon valueOf(java.lang.String) -> valueOf
geogebra.common.main.App$StoreUndoInfoForSetCoordSystem -> geogebra.common.m.f$b:
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem MAY_SET_COORD_SYSTEM -> a
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem SET_COORD_SYSTEM_OCCURED -> b
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem NONE -> c
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem[] ENUM$VALUES -> a
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem[] values() -> values
    geogebra.common.main.App$StoreUndoInfoForSetCoordSystem valueOf(java.lang.String) -> valueOf
geogebra.common.main.AppCompanion -> geogebra.common.m.g:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel newKernel() -> a
    boolean tableVisible(int) -> a
    void getEuclidianViewXML(java.lang.StringBuilder,boolean) -> b
    geogebra.common.euclidian.EuclidianViewCompanion createEuclidianViewForPlane(geogebra.common.kernel.kernelND.ViewCreator,boolean) -> a
    void storeViewCreators() -> c
    void recallViewCreators() -> d
    void resetEuclidianViewForPlaneIds() -> e
    geogebra.common.gui.layout.DockPanel createEuclidianDockPanelForPlane(int,java.lang.String) -> a
    geogebra.common.main.settings.Settings newSettings() -> a
    void resetFonts() -> a
geogebra.common.main.BracketsError -> geogebra.common.m.h:
geogebra.common.main.DialogManager -> geogebra.common.m.i:
    java.lang.String defaultAngle -> a
    geogebra.common.main.App app -> a
    geogebra.common.gui.dialog.TextInputDialog textInputDialog -> a
    boolean oldVal -> a
    boolean showFunctionInspector(geogebra.common.kernel.geos.GeoFunction) -> a
    void showDataSourceDialog(int,boolean) -> a
    void showRedefineDialog(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    geogebra.common.gui.dialog.InputDialog newInputDialog(geogebra.common.main.App,java.lang.String,java.lang.String,java.lang.String,boolean,geogebra.common.gui.InputHandler,geogebra.common.kernel.geos.GeoElement) -> a
    void showNumberInputDialogSegmentFixed(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showNumberInputDialogAngleFixed(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    void doAngleFixed(geogebra.common.kernel.Kernel,geogebra.common.kernel.kernelND.GeoSegmentND[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.kernel.geos.GeoNumberValue,boolean,geogebra.common.euclidian.EuclidianController) -> a
    boolean showSliderCreationDialog(int,int) -> a
    boolean confirm(java.lang.String) -> a
    void showNumberInputDialogRotate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    void showNumberInputDialogDilate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> b
    void showNumberInputDialogRegularPolygon(java.lang.String,geogebra.common.euclidian.EuclidianController,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showBooleanCheckboxCreationDialog(geogebra.common.awt.GPoint,geogebra.common.kernel.geos.GeoBoolean) -> a
    void showNumberInputDialogCirclePointRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianView) -> a
    void showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String,boolean,java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void showAngleInputDialog(java.lang.String,java.lang.String,java.lang.String,geogebra.common.util.AsyncOperation) -> b
    boolean showButtonCreationDialog(int,int,boolean) -> a
    java.lang.String rotateObject(geogebra.common.main.App,java.lang.String,boolean,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    boolean makeRegularPolygon(geogebra.common.main.App,geogebra.common.euclidian.EuclidianController,java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.kernel.geos.GeoNumberValue getNumber(geogebra.common.kernel.Kernel,java.lang.String,java.lang.String) -> a
    java.lang.String prompt(java.lang.String,java.lang.String) -> a
    void closeAll() -> a
    void showRenameDialog(geogebra.common.kernel.geos.GeoElement,boolean,java.lang.String,boolean) -> a
    void showPropertiesDialog() -> b
    void showPropertiesDialog(java.util.ArrayList) -> a
    void showPropertiesDialog(geogebra.common.main.OptionType,java.util.ArrayList) -> a
    void showToolbarConfigDialog() -> c
    void showLogInDialog() -> d
    void showLogOutDialog() -> e
    boolean doDilate(geogebra.common.kernel.Kernel,geogebra.common.kernel.arithmetic.NumberValue,geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    void doSegmentFixed(geogebra.common.kernel.Kernel,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.arithmetic.NumberValue) -> a
    void showTextDialog(geogebra.common.kernel.geos.GeoText) -> a
    void showTextCreationDialog(geogebra.common.kernel.kernelND.GeoPointND) -> a
    void openToolHelp() -> f
    void showTextDialog(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.gui.dialog.TextInputDialog createTextDialog(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showNumberInputDialogSpherePointRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> b
    void showNumberInputDialogConeTwoPointsRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showNumberInputDialogCylinderTwoPointsRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    void showNumberInputDialogCirclePointDirectionRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void showNumberInputDialogRotate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoLineND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
geogebra.common.main.FontManager -> geogebra.common.m.j:
    void setFontSize(int) -> a
    geogebra.common.awt.GFont getFontCanDisplay(java.lang.String,boolean,int,int) -> a
geogebra.common.main.GeoElementSelectionListener -> geogebra.common.m.k:
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
geogebra.common.main.GeoGebraColorConstants -> geogebra.common.m.l:
    geogebra.common.awt.GColor TABLE_SELECTED_BACKGROUND_COLOR -> a
    geogebra.common.awt.GColor TABLE_SELECTED_BACKGROUND_COLOR_HEADER -> b
    geogebra.common.awt.GColor TABLE_BACKGROUND_COLOR_HEADER -> c
    geogebra.common.awt.GColor TABLE_GRID_COLOR -> d
    geogebra.common.awt.GColor RED -> e
    geogebra.common.awt.GColor ORANGE -> f
    geogebra.common.awt.GColor YELLOW -> g
    geogebra.common.awt.GColor GREEN -> h
    geogebra.common.awt.GColor CYAN -> i
    geogebra.common.awt.GColor BLUE -> j
    geogebra.common.awt.GColor VIOLET -> k
    geogebra.common.awt.GColor MAGENTA -> l
    geogebra.common.awt.GColor LIME -> m
    geogebra.common.awt.GColor PINK -> n
    geogebra.common.awt.GColor LIGHTORANGE -> o
    geogebra.common.awt.GColor LIGHTYELLOW -> p
    geogebra.common.awt.GColor AQUA -> q
    geogebra.common.awt.GColor LIGHTPURPLE -> r
    geogebra.common.awt.GColor LIGHTVIOLET -> s
    geogebra.common.awt.GColor TURQUOISE -> t
    geogebra.common.awt.GColor LIGHTGREEN -> u
    geogebra.common.awt.GColor MAROON -> v
    geogebra.common.awt.GColor BROWN -> w
    geogebra.common.awt.GColor DARKGREEN -> x
    geogebra.common.awt.GColor LIGHTBLUE -> y
    geogebra.common.awt.GColor GOLD -> z
    geogebra.common.awt.GColor DARKBLUE -> A
    geogebra.common.awt.GColor INDIGO -> B
    geogebra.common.awt.GColor PURPLE -> C
    geogebra.common.awt.GColor CRIMSON -> D
    geogebra.common.awt.GColor WHITE -> E
    geogebra.common.awt.GColor BLACK -> F
    geogebra.common.awt.GColor GRAY7 -> G
    geogebra.common.awt.GColor GRAY6 -> H
    geogebra.common.awt.GColor GRAY5 -> I
    geogebra.common.awt.GColor GRAY4 -> J
    geogebra.common.awt.GColor GRAY3 -> K
    geogebra.common.awt.GColor GRAY2 -> L
    geogebra.common.awt.GColor GRAY1 -> M
    geogebra.common.awt.GColor DARKGRAY -> N
    geogebra.common.awt.GColor LIGHTGRAY -> O
    geogebra.common.awt.GColor SILVER -> P
    geogebra.common.awt.GColor DEFINED_OBJECT_COLOR -> Q
    geogebra.common.awt.GColor UNDEFINED_OBJECT_COLOR -> R
    geogebra.common.awt.GColor LOCAL_OBJECT_COLOR -> S
    geogebra.common.awt.GColor UNBALANCED_BRACKET_COLOR -> T
    geogebra.common.awt.GColor BALANCED_BRACKET_COLOR -> U
    geogebra.common.awt.GColor INPUT_TEXT_COLOR -> V
    geogebra.common.awt.GColor INPUT_DEFAULT_COLOR -> W
    java.util.HashMap geogebraColor -> a
    java.util.HashMap geogebraColorReverse -> b
    geogebra.common.awt.GColor[] primaryColors -> b
    geogebra.common.awt.GColor[] lightPrimaryColors -> c
    geogebra.common.awt.GColor[] darkPrimaryColors -> d
    geogebra.common.awt.GColor[] grayColors -> e
    geogebra.common.awt.GColor[] mainColorSwatchColors -> a
    java.util.HashMap colors -> c
    java.util.HashMap getGeoGebraColors() -> a
    java.util.HashMap getGeoGebraColorReverse() -> c
    geogebra.common.awt.GColor getGeogebraColor(geogebra.common.main.App,java.lang.String) -> a
    java.lang.String getGeogebraColorName(geogebra.common.main.App,geogebra.common.awt.GColor) -> a
    geogebra.common.awt.GColor grayN(int) -> a
    geogebra.common.awt.GColor[] getPrimaryColors() -> b
    geogebra.common.awt.GColor[] getLightPrimaryColors() -> c
    geogebra.common.awt.GColor[] getDarkPrimaryColors() -> d
    geogebra.common.awt.GColor[] getGrayColors() -> e
    geogebra.common.awt.GColor[] getPopupArray(int) -> a
    geogebra.common.awt.GColor[] getPrimarySwatchColors() -> a
    java.util.HashMap htmlColorMap() -> b
geogebra.common.main.GeoGebraPreferences -> geogebra.common.m.m:
geogebra.common.main.GlobalKeyDispatcher -> geogebra.common.m.n:
    geogebra.common.main.App app -> a
    geogebra.common.main.SelectionManager selection -> a
    java.util.TreeSet tempSet -> a
    geogebra.common.kernel.Matrix.Coords tempVec -> a
    int[] $SWITCH_TABLE$geogebra$common$main$KeyCodes -> a
    void handleFunctionKeyForAlgebraInput(int,geogebra.common.kernel.geos.GeoElement) -> a
    java.util.TreeSet getTempSet() -> a
    boolean renameStarted(char) -> a
    boolean handleArrowKeyMovement(java.util.ArrayList,double,double,double) -> a
    boolean handleGeneralKeys(geogebra.common.main.KeyCodes,boolean,boolean,boolean,boolean,boolean) -> a
    void createNewWindow() -> a
    void showPrintPreview(geogebra.common.main.App) -> a
    void handleCtrlV() -> b
    boolean handleCtrlShiftN(boolean) -> a
    void handleCtrlC() -> c
    boolean handleTab(boolean,boolean) -> a
    boolean handleEnter() -> a
    boolean changeFontsAndGeoElements(geogebra.common.main.App,int,boolean,boolean) -> a
    int getPointSizeInc(int,int) -> a
    void setGeoProperties(geogebra.common.kernel.geos.GeoElement,int,int,int,boolean) -> a
    boolean handleSelectedGeosKeys(geogebra.common.main.KeyCodes,java.util.ArrayList,boolean,boolean,boolean,boolean) -> a
    void copyDefinitionsToInputBarAsList(java.util.ArrayList) -> a
    int[] $SWITCH_TABLE$geogebra$common$main$KeyCodes() -> a
geogebra.common.main.GuiManagerInterface -> geogebra.common.m.o:
    void updateMenubar() -> a
    void updateMenubarSelection() -> j
    geogebra.common.main.DialogManager getDialogManager() -> a
    void showPopupChooseGeo(java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> a
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void redo() -> g
    void undo() -> h
    void setFocusedPanel(geogebra.common.euclidian.event.AbstractEvent,boolean) -> a
    void loadImage(geogebra.common.kernel.geos.GeoPoint,java.lang.Object,boolean) -> a
    boolean hasAlgebraViewShowing() -> d
    boolean hasAlgebraView() -> a
    void updateFonts() -> k
    boolean isUsingConstructionProtocol() -> b
    void getConsProtocolXML(java.lang.StringBuilder) -> a
    boolean isInputFieldSelectionListener() -> e
    geogebra.common.javax.swing.GTextComponent getAlgebraInputTextField() -> a
    void showDrawingPadPopup(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> a
    void showDrawingPadPopup3D(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> b
    boolean hasSpreadsheetView() -> f
    void attachSpreadsheetView() -> l
    void setShowView(boolean,int) -> a
    void setShowView(boolean,int,boolean) -> a
    boolean showView(int) -> a
    geogebra.common.kernel.View getConstructionProtocolData() -> a
    geogebra.common.kernel.View getCasView() -> b
    geogebra.common.kernel.View getSpreadsheetView() -> c
    geogebra.common.kernel.View getProbabilityCalculator() -> d
    geogebra.common.kernel.View getDataAnalysisView() -> e
    geogebra.common.kernel.View getPlotPanelView(int) -> a
    geogebra.common.kernel.View getPropertiesView() -> f
    boolean hasProbabilityCalculator() -> c
    void getProbabilityCalculatorXML(java.lang.StringBuilder) -> b
    void getSpreadsheetViewXML(java.lang.StringBuilder,boolean) -> a
    void getAlgebraViewXML(java.lang.StringBuilder,boolean) -> b
    void updateActions() -> b
    void updateSpreadsheetColumnWidths() -> m
    void updateConstructionProtocol() -> c
    void updateAlgebraInput() -> n
    void setShowAuxiliaryObjects(boolean) -> b
    void mousePressedForPropertiesView() -> o
    void mouseReleasedForPropertiesView(boolean) -> c
    boolean save() -> g
    void openURL() -> p
    boolean loadURL(java.lang.String) -> a
    void updateGUIafterLoadFile(boolean,boolean) -> a
    void startEditing(geogebra.common.kernel.geos.GeoElement) -> b
    boolean noMenusOpen() -> h
    void openFile() -> q
    geogebra.common.gui.Layout getLayout() -> a
    void showGraphicExport() -> r
    void showPSTricksExport() -> s
    void showWebpageExport() -> t
    void detachPropertiesView() -> u
    boolean hasPropertiesView() -> i
    void attachPropertiesView() -> v
    void attachAlgebraView() -> w
    void attachCasView() -> x
    void attachConstructionProtocolView() -> y
    void attachProbabilityCalculatorView() -> z
    void attachAssignmentView() -> A
    void attachDataAnalysisView() -> B
    void detachDataAnalysisView() -> C
    void attachView(int) -> a
    geogebra.common.euclidian.EuclidianView getActiveEuclidianView() -> a
    void doAfterRedefine(geogebra.common.kernel.geos.GeoElement) -> a
    void detachView(int) -> b
    void detachAssignmentView() -> D
    void detachProbabilityCalculatorView() -> E
    void detachCasView() -> F
    void detachConstructionProtocolView() -> G
    void detachSpreadsheetView() -> H
    void detachAlgebraView() -> I
    void openCommandHelp(java.lang.String) -> a
    void openHelp(java.lang.String) -> b
    void setLayout(geogebra.common.gui.Layout) -> a
    void initialize() -> J
    void resetSpreadsheet() -> K
    void setScrollToShow(boolean) -> d
    void showURLinBrowser(java.lang.String) -> d
    void updateMenuWindow() -> L
    void updateMenuFile() -> M
    void exitAll() -> N
    boolean saveCurrentFile() -> j
    void updateToolbar() -> O
    boolean hasEuclidianView2(int) -> b
    void allowGUIToRefresh() -> P
    void updateFrameTitle() -> Q
    void setLabels() -> R
    void setShowToolBarHelp(boolean) -> e
    geogebra.common.kernel.View getEuclidianView2(int) -> b
    boolean hasEuclidianView2EitherShowingOrNot(int) -> c
    geogebra.common.kernel.View getAlgebraView() -> g
    void applyAlgebraViewSettings() -> S
    void clearInputbar() -> T
    java.lang.Object createFrame() -> a
    int getInputHelpPanelMinimumWidth() -> a
    int getActiveToolbarId() -> b
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView getConstructionProtocolView() -> a
    void setShowConstructionProtocolNavigation(boolean) -> a
    void setShowConstructionProtocolNavigation(boolean,boolean,double,boolean) -> a
    void updateCheckBoxesForShowConstructinProtocolNavigation() -> U
    boolean checkAutoCreateSliders(java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void applyCPsettings(geogebra.common.main.settings.ConstructionProtocolSettings) -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolNavigation getConstructionProtocolNavigation() -> a
    void logout() -> V
    void invokeLater(java.lang.Runnable) -> a
    int getEuclidianViewCount() -> c
geogebra.common.main.KeyCodes -> geogebra.common.m.p:
    geogebra.common.main.KeyCodes A -> a
    geogebra.common.main.KeyCodes B -> b
    geogebra.common.main.KeyCodes C -> c
    geogebra.common.main.KeyCodes D -> d
    geogebra.common.main.KeyCodes E -> e
    geogebra.common.main.KeyCodes F -> f
    geogebra.common.main.KeyCodes G -> g
    geogebra.common.main.KeyCodes H -> h
    geogebra.common.main.KeyCodes I -> i
    geogebra.common.main.KeyCodes J -> j
    geogebra.common.main.KeyCodes K -> k
    geogebra.common.main.KeyCodes L -> l
    geogebra.common.main.KeyCodes M -> m
    geogebra.common.main.KeyCodes N -> n
    geogebra.common.main.KeyCodes O -> o
    geogebra.common.main.KeyCodes P -> p
    geogebra.common.main.KeyCodes Q -> q
    geogebra.common.main.KeyCodes R -> r
    geogebra.common.main.KeyCodes S -> s
    geogebra.common.main.KeyCodes T -> t
    geogebra.common.main.KeyCodes U -> u
    geogebra.common.main.KeyCodes V -> v
    geogebra.common.main.KeyCodes W -> w
    geogebra.common.main.KeyCodes X -> x
    geogebra.common.main.KeyCodes Y -> y
    geogebra.common.main.KeyCodes Z -> z
    geogebra.common.main.KeyCodes F1 -> A
    geogebra.common.main.KeyCodes F2 -> B
    geogebra.common.main.KeyCodes F3 -> C
    geogebra.common.main.KeyCodes F4 -> D
    geogebra.common.main.KeyCodes F5 -> E
    geogebra.common.main.KeyCodes F6 -> F
    geogebra.common.main.KeyCodes F7 -> G
    geogebra.common.main.KeyCodes F8 -> H
    geogebra.common.main.KeyCodes F9 -> I
    geogebra.common.main.KeyCodes F10 -> J
    geogebra.common.main.KeyCodes F11 -> K
    geogebra.common.main.KeyCodes F12 -> L
    geogebra.common.main.KeyCodes K0 -> M
    geogebra.common.main.KeyCodes K1 -> N
    geogebra.common.main.KeyCodes K2 -> O
    geogebra.common.main.KeyCodes K3 -> P
    geogebra.common.main.KeyCodes K4 -> Q
    geogebra.common.main.KeyCodes K5 -> R
    geogebra.common.main.KeyCodes K6 -> S
    geogebra.common.main.KeyCodes K7 -> T
    geogebra.common.main.KeyCodes K8 -> U
    geogebra.common.main.KeyCodes K9 -> V
    geogebra.common.main.KeyCodes NUMPAD0 -> W
    geogebra.common.main.KeyCodes NUMPAD1 -> X
    geogebra.common.main.KeyCodes NUMPAD2 -> Y
    geogebra.common.main.KeyCodes NUMPAD3 -> Z
    geogebra.common.main.KeyCodes NUMPAD4 -> aa
    geogebra.common.main.KeyCodes NUMPAD5 -> ab
    geogebra.common.main.KeyCodes NUMPAD6 -> ac
    geogebra.common.main.KeyCodes NUMPAD7 -> ad
    geogebra.common.main.KeyCodes NUMPAD8 -> ae
    geogebra.common.main.KeyCodes NUMPAD9 -> af
    geogebra.common.main.KeyCodes MINUS -> ag
    geogebra.common.main.KeyCodes SUBTRACT -> ah
    geogebra.common.main.KeyCodes PLUS -> ai
    geogebra.common.main.KeyCodes ADD -> aj
    geogebra.common.main.KeyCodes EQUALS -> ak
    geogebra.common.main.KeyCodes BACK_QUOTE -> al
    geogebra.common.main.KeyCodes LEFT_SQUARE_BRACKET -> am
    geogebra.common.main.KeyCodes RIGHT_SQUARE_BRACKET -> an
    geogebra.common.main.KeyCodes ALT -> ao
    geogebra.common.main.KeyCodes BACKSPACE -> ap
    geogebra.common.main.KeyCodes CTRL -> aq
    geogebra.common.main.KeyCodes DELETE -> ar
    geogebra.common.main.KeyCodes DOWN -> as
    geogebra.common.main.KeyCodes END -> at
    geogebra.common.main.KeyCodes ENTER -> au
    geogebra.common.main.KeyCodes ESCAPE -> av
    geogebra.common.main.KeyCodes HOME -> aw
    geogebra.common.main.KeyCodes LEFT -> ax
    geogebra.common.main.KeyCodes PAGEDOWN -> ay
    geogebra.common.main.KeyCodes PAGEUP -> az
    geogebra.common.main.KeyCodes RIGHT -> aA
    geogebra.common.main.KeyCodes SHIFT -> aB
    geogebra.common.main.KeyCodes INSERT -> aC
    geogebra.common.main.KeyCodes TAB -> aD
    geogebra.common.main.KeyCodes UP -> aE
    geogebra.common.main.KeyCodes SPACE -> aF
    geogebra.common.main.KeyCodes CONTEXT_MENU -> aG
    geogebra.common.main.KeyCodes WINDOWS -> aH
    geogebra.common.main.KeyCodes BACKSLASH -> aI
    geogebra.common.main.KeyCodes SLASH -> aJ
    geogebra.common.main.KeyCodes NUMPADSLASH -> aK
    geogebra.common.main.KeyCodes COMMA -> aL
    geogebra.common.main.KeyCodes SEMICOLON -> aM
    geogebra.common.main.KeyCodes APOSTROPHE -> aN
    geogebra.common.main.KeyCodes HASH -> aO
    geogebra.common.main.KeyCodes NUMPADASTERISK -> aP
    geogebra.common.main.KeyCodes NUMLOCK -> aQ
    geogebra.common.main.KeyCodes META -> aR
    geogebra.common.main.KeyCodes CLEAR -> aS
    geogebra.common.main.KeyCodes PERIOD -> aT
    geogebra.common.main.KeyCodes DECIMALPOINT -> aU
    geogebra.common.main.KeyCodes DECIMALCOMMA -> aV
    geogebra.common.main.KeyCodes UNKNOWN -> aW
    int javaKey -> a
    int GWTKey -> b
    geogebra.common.main.KeyCodes[] ENUM$VALUES -> a
    geogebra.common.main.KeyCodes translateJavacode(int) -> a
    geogebra.common.main.KeyCodes[] values() -> values
    geogebra.common.main.KeyCodes valueOf(java.lang.String) -> valueOf
geogebra.common.main.Localization -> geogebra.common.m.q:
    boolean tooltipFlag -> a
    java.lang.String[] fontSizeStrings -> a
    int maxFigures -> a
    int dimension -> b
    boolean reverseNameDescription -> c
    boolean rightToLeftReadingOrder -> b
    char unicodeDecimalPoint -> a
    char unicodeComma -> b
    char unicodeZero -> c
    java.lang.StringBuilder sbPlain -> a
    java.lang.StringBuilder sbOrdinal -> b
    boolean isAutoCompletePossible -> d
    boolean rightToLeftDigits -> e
    boolean useLocalizedDigits -> f
    boolean useLocalizedLabels -> g
    java.lang.String[] getFontSizeStrings() -> a
    boolean isReverseNameDescriptionLanguage() -> a
    boolean isRightToLeftReadingOrder() -> b
    java.lang.String translationFixHu(java.lang.String) -> n
    java.lang.String translationFixPronouncedPrevChars(java.lang.String,int,int) -> a
    java.lang.String translationFixHuAffixChange(java.lang.String,int,java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getCommand(java.lang.String) -> a
    java.lang.String getPlain(java.lang.String) -> b
    java.lang.String getMenu(java.lang.String) -> c
    java.lang.String getError(java.lang.String) -> d
    java.lang.String getSymbol(int) -> a
    java.lang.String reverseGetColor(java.lang.String) -> e
    java.lang.String getColor(java.lang.String) -> f
    java.lang.String getPlain(java.lang.String,java.lang.String[]) -> a
    java.lang.String getPlainLabel(java.lang.String) -> g
    java.lang.String getPlain(java.lang.String,java.lang.String) -> a
    java.lang.String getPlain(java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getPlain(java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getPlain(java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getPlain(java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getLanguage() -> a
    boolean languageIs(java.lang.String) -> a
    java.lang.String translationFix(java.lang.String) -> h
    java.lang.String getOrdinalNumber(int) -> b
    java.lang.String getOrdinalNumberEn(int) -> c
    java.lang.String[] getRoundingMenu() -> b
    boolean isZeroPlural(java.lang.String) -> b
    boolean isAutoCompletePossible() -> c
    boolean isRightToLeftDigits(geogebra.common.kernel.StringTemplate) -> a
    boolean isUsingLocalizedDigits() -> d
    void updateLanguageFlags(java.lang.String) -> a
    boolean rightToLeftReadingOrder(java.lang.String) -> c
    java.lang.String getCommandSyntax(java.lang.String) -> i
    boolean isUsingLocalizedLabels() -> e
    void setUseLocalizedLabels(boolean) -> a
    void setUseLocalizedDigits(boolean,geogebra.common.main.App) -> a
    java.lang.String getSymbolTooltip(int) -> d
    java.lang.String getCommandSyntaxCAS(java.lang.String) -> j
    boolean isCASCommand(java.lang.String) -> d
    java.lang.String getMenuTooltip(java.lang.String) -> k
    java.lang.String getPlainTooltip(java.lang.String) -> l
    void initCommand() -> a
    void setTooltipFlag() -> b
    void clearTooltipFlag() -> c
    java.lang.String getTooltipLanguageString() -> b
    boolean isCommandChanged() -> f
    void setCommandChanged(boolean) -> b
    boolean isCommandNull() -> g
    java.lang.String getFunction(java.lang.String) -> m
    java.lang.String getLocaleStr() -> c
geogebra.common.main.MyError -> geogebra.common.m.r:
    geogebra.common.main.Localization l10n -> a
    java.lang.String[] strs -> a
    java.lang.String commandName -> a
    java.lang.String getcommandName() -> a
    java.lang.String getLocalizedMessage() -> getLocalizedMessage
    java.lang.String toString() -> toString
geogebra.common.main.MyParseError -> geogebra.common.m.s:
    java.lang.String getLocalizedMessage() -> getLocalizedMessage
geogebra.common.main.OptionType -> geogebra.common.m.t:
    geogebra.common.main.OptionType OBJECTS -> a
    geogebra.common.main.OptionType EUCLIDIAN -> b
    geogebra.common.main.OptionType EUCLIDIAN2 -> c
    geogebra.common.main.OptionType EUCLIDIAN3D -> d
    geogebra.common.main.OptionType CAS -> e
    geogebra.common.main.OptionType SPREADSHEET -> f
    geogebra.common.main.OptionType LAYOUT -> g
    geogebra.common.main.OptionType DEFAULTS -> h
    geogebra.common.main.OptionType ADVANCED -> i
    geogebra.common.main.OptionType[] ENUM$VALUES -> a
    geogebra.common.main.OptionType[] values() -> values
    geogebra.common.main.OptionType valueOf(java.lang.String) -> valueOf
geogebra.common.main.ProverSettings -> geogebra.common.m.u:
    java.lang.String proverEngine -> a
    int proverTimeout -> a
    int maxTerms -> b
    java.lang.String proverMethod -> b
    java.lang.Boolean freePointsNeverCollinear -> a
    int useFixCoordinatesProve -> c
    int useFixCoordinatesProveDetails -> d
    boolean transcext -> a
    boolean captionAlgebra -> b
geogebra.common.main.RandomUtil -> geogebra.common.m.v:
    java.util.Random random -> a
    double halflog2pi -> a
    double[] logtable -> a
    double getRandomNumber() -> a
    double randomUniform(double,double) -> a
geogebra.common.main.SavedStateListener -> geogebra.common.m.w:
    void stateChanged(boolean) -> a
geogebra.common.main.SelectionManager -> geogebra.common.m.x:
    java.util.ArrayList selectedGeos -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.UpdateSelection listener -> a
    java.util.ArrayList selectionListeners -> b
    void setSelectedGeos(java.util.ArrayList) -> a
    void setSelectedGeos(java.util.ArrayList,boolean) -> a
    void clearSelectedGeos() -> a
    void clearSelectedGeos(boolean) -> a
    void clearSelectedGeos(boolean,boolean) -> a
    void removeSelectedGeo(geogebra.common.kernel.geos.GeoElement,boolean,boolean) -> a
    java.util.ArrayList getSelectedGeos() -> a
    void addSelectedGeo(geogebra.common.kernel.geos.GeoElement,boolean,boolean) -> b
    int getSelectedLayer() -> a
    void selectAll(int) -> a
    void invertSelection() -> b
    void selectAllPredecessors() -> c
    void selectAllDescendants() -> d
    void showHideSelection() -> e
    void showHideSelectionLabels() -> f
    boolean containsSelectedGeo(geogebra.common.kernel.geos.GeoElement) -> a
    boolean containsSelectedGeos(java.util.ArrayList) -> a
    void removeSelectedGeo(geogebra.common.kernel.geos.GeoElement) -> a
    int selectedGeosSize() -> b
    geogebra.common.kernel.geos.GeoElement setFirstGeoSelectedForPropertiesView() -> a
    void addSelectedGeo(geogebra.common.kernel.geos.GeoElement) -> b
    void addSelectedGeos(java.util.ArrayList,boolean) -> b
    void toggleSelectedGeo(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void toggleSelectedGeo(geogebra.common.kernel.geos.GeoElement) -> c
    void selectNextGeo(geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> a
    void selectLastGeo(geogebra.common.euclidian.EuclidianViewInterfaceCommon) -> b
    void updateSelection() -> g
    void updateSelection(boolean) -> b
    void addSelectionListener(geogebra.common.main.GeoElementSelectionListener) -> a
    java.util.ArrayList getSelectionListeners() -> b
geogebra.common.main.SingularWSSettings -> geogebra.common.m.y:
    boolean useSingularWebService -> a
    java.lang.String singularWebServiceRemoteURL -> a
    int singularWebServiceTimeout -> a
    java.lang.Boolean useCaching -> a
    java.lang.String getCachingText() -> a
    void setCachingFromText(java.lang.String) -> a
geogebra.common.main.SpreadsheetTableModel -> geogebra.common.m.z:
    geogebra.common.main.App app -> a
    int highestUsedColumn -> a
    int highestUsedRow -> b
    boolean isIniting -> a
    geogebra.common.main.AlgoCellRangeManager cellRangeManager -> a
    int getRowCount() -> b
    int getColumnCount() -> c
    void setRowCount(int) -> a
    void setColumnCount(int) -> b
    java.lang.Object getValueAt(int,int) -> a
    void setValueAt(java.lang.Object,int,int) -> a
    void attachView() -> a
    int getHighestUsedColumn() -> d
    int getHighestUsedRow() -> e
    void updateHighestUsedColAndRow(int,int) -> a
    geogebra.common.main.AlgoCellRangeManager getCellRangeManager() -> a
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void addWithoutTrace(geogebra.common.kernel.geos.GeoElement) -> h
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void doRemove(geogebra.common.kernel.geos.GeoElement,int,int) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void addToCellRangeAlgos(geogebra.common.kernel.geos.GeoElement) -> i
    void updateWithoutTrace(geogebra.common.kernel.geos.GeoElement) -> j
    void updateLocation(geogebra.common.kernel.geos.GeoElement) -> g
    void clearView() -> f
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void reset() -> j
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int getViewID() -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
geogebra.common.main.SpreadsheetTraceManager -> geogebra.common.m.A:
    geogebra.common.main.App app -> a
    geogebra.common.kernel.Kernel kernel -> a
    java.util.HashMap traceGeoCollection -> a
    java.util.HashSet storedTraces -> a
    boolean collectingTraces -> a
    boolean doShiftCellsUp -> b
    double[] coords -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void addSpreadsheetTraceGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void updateTraceSettings(geogebra.common.kernel.geos.GeoElement) -> b
    void clearGeoTrace(geogebra.common.kernel.geos.GeoElement) -> c
    void removeSpreadsheetTraceGeo(geogebra.common.kernel.geos.GeoElement) -> d
    void loadTraceGeoCollection() -> a
    int getNextTraceColumn() -> a
    int getHighestTraceColumn() -> b
    boolean isTraceGeo(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isTraceColumn(int) -> a
    geogebra.common.util.SpreadsheetTraceSettings getTraceSettings(int) -> a
    java.util.ArrayList getTraceGeoList() -> a
    geogebra.common.kernel.geos.GeoElement getTraceGeo(int) -> a
    void togglePauseTraceGeo(int) -> a
    void togglePauseTraceGeo(geogebra.common.kernel.geos.GeoElement,geogebra.common.util.SpreadsheetTraceSettings) -> a
    void pauseAllTraces(boolean) -> a
    geogebra.common.kernel.geos.GeoElement getFirstTraceGeo() -> a
    void clearGeoTraceColumns(geogebra.common.kernel.geos.GeoElement) -> e
    void clearGeoTraceColumns(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void handleColumnDelete(int,int) -> a
    void handleColumnDelete(int,int,int,int) -> a
    void setNeedsColumnReset(geogebra.common.kernel.geos.GeoElement,boolean) -> b
    java.lang.String getTraceXML(geogebra.common.kernel.geos.GeoElement) -> a
    void traceToSpreadsheet(geogebra.common.kernel.geos.GeoElement) -> f
    void traceToSpreadsheet(geogebra.common.kernel.geos.GeoElement,geogebra.common.util.SpreadsheetTraceSettings) -> b
    boolean setGeoTraceRow(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.Construction,java.util.ArrayList,int) -> a
    void setTraceCellAsGeoCopy(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement,int,int) -> a
    void setTraceCell(geogebra.common.kernel.Construction,int,int,java.lang.Object,geogebra.common.plugin.GeoClass) -> a
    void createTraceListCell(geogebra.common.kernel.Construction,int,int) -> a
    void updateTraceListCell(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement,int,int,java.util.ArrayList,int) -> a
    void clearTraceListCell(int,int) -> b
    void getCurrentTrace(geogebra.common.kernel.geos.GeoElement,java.util.ArrayList) -> a
    boolean addElementTrace(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.Construction,java.util.ArrayList) -> a
    void setHeader(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.Construction) -> a
    boolean hasGeoTraced() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.common.main.UpdateSelection -> geogebra.common.m.B:
    void updateSelection(boolean) -> k
geogebra.common.main.settings.AbstractSettings -> geogebra.common.m.a.a:
    boolean isBatch -> a
    boolean settingsChanged -> b
    java.util.LinkedList listeners -> a
    void setListeners(java.util.LinkedList) -> a
    void settingChanged() -> a
    void beginBatch() -> b
    void endBatch() -> c
    void addListener(geogebra.common.main.settings.SettingListener) -> a
    void removeListener(geogebra.common.main.settings.SettingListener) -> b
    java.util.LinkedList getListeners() -> a
geogebra.common.main.settings.AlgebraSettings -> geogebra.common.m.a.b:
    int treeMode -> a
    boolean showAuxiliaryObjects -> a
    int[] collapsedNodes -> a
    void setTreeMode(int) -> a
    int getTreeMode() -> a
    void setShowAuxiliaryObjects(boolean) -> a
    boolean getShowAuxiliaryObjects() -> a
    void setCollapsedNodes(int[]) -> a
    int[] getCollapsedNodes() -> a
    void reset() -> d
geogebra.common.main.settings.ApplicationSettings -> geogebra.common.m.a.c:
geogebra.common.main.settings.CASSettings -> geogebra.common.m.a.d:
    long timeoutMillis -> a
    boolean showExpAsRoots -> a
    void init() -> d
    void setTimeoutMilliseconds(long) -> a
    void setShowExpAsRoots(boolean) -> a
    long getTimeoutMilliseconds() -> a
    boolean getShowExpAsRoots() -> a
geogebra.common.main.settings.ConstructionProtocolSettings -> geogebra.common.m.a.e:
    double playDelay -> a
    boolean showPlayButton -> a
    boolean showConsProtButton -> b
    boolean[] defaultCpColumnsVisible -> a
    boolean[] cpColumnsVisible -> b
    boolean showConsProtButton() -> a
    void setShowConsProtButton(boolean) -> a
    boolean showPlayButton() -> b
    void setShowPlayButton(boolean) -> b
    double getPlayDelay() -> a
    void setPlayDelay(double) -> a
    boolean[] getColsVisibility() -> a
    void setColsVisibility(boolean[]) -> a
geogebra.common.main.settings.EuclidianSettings -> geogebra.common.m.a.f:
    int[] DELETE_SIZES -> a
    geogebra.common.awt.GColor backgroundColor -> a
    geogebra.common.awt.GColor axesColor -> b
    geogebra.common.awt.GColor gridColor -> c
    int axesLineStyle -> a
    int gridLineStyle -> b
    double[] gridDistances -> a
    double[] axisCross -> c
    boolean[] positiveAxes -> e
    boolean[] drawBorderAxes -> f
    geogebra.common.kernel.arithmetic.NumberValue xminObject -> a
    geogebra.common.kernel.arithmetic.NumberValue xmaxObject -> b
    geogebra.common.kernel.arithmetic.NumberValue yminObject -> c
    geogebra.common.kernel.arithmetic.NumberValue ymaxObject -> d
    int tooltipsInThisView -> c
    geogebra.common.main.settings.EuclidianSettings euclidianSettings1 -> a
    boolean[] showAxes -> a
    boolean[] showAxesNumbers -> b
    java.lang.String[] axesLabels -> a
    java.lang.String[] axesUnitLabels -> b
    boolean[] piAxisUnit -> c
    int[] axesTickStyles -> b
    boolean[] automaticAxesNumberingDistances -> d
    double[] axisNumberingDistances -> b
    boolean automaticGridDistance -> a
    double xZero -> a
    double yZero -> b
    double xscale -> c
    double yscale -> d
    geogebra.common.awt.GDimension preferredSize -> a
    boolean showGrid -> b
    boolean gridIsBold -> c
    int gridType -> d
    int pointCapturingMode -> e
    boolean allowShowMouseCoords -> d
    java.lang.Double lockedAxesRatio -> a
    int deleteToolSize -> f
    void reset() -> d
    void resetNoFire() -> e
    void setBackground(geogebra.common.awt.GColor) -> a
    geogebra.common.awt.GColor getBackground() -> a
    void setAxesColor(geogebra.common.awt.GColor) -> b
    geogebra.common.awt.GColor getAxesColor() -> b
    void setGridColor(geogebra.common.awt.GColor) -> c
    geogebra.common.awt.GColor getGridColor() -> c
    void setAxesLineStyle(int) -> a
    int getAxesLineStyle() -> b
    void setGridLineStyle(int) -> b
    int getGridLineStyle() -> c
    void setGridDistances(double[]) -> a
    double[] getGridDistances() -> a
    void setAutomaticGridDistance(boolean,boolean) -> a
    boolean getAutomaticGridDistance() -> c
    boolean getAllowShowMouseCoords() -> d
    void setAllowShowMouseCoords(boolean) -> a
    boolean setShowAxis(int,boolean) -> a
    boolean getShowAxis(int) -> a
    void setAxisLabel(int,java.lang.String) -> a
    java.lang.String[] getAxesLabels() -> a
    java.lang.String[] getAxesUnitLabels() -> b
    void setAxesUnitLabels(java.lang.String[]) -> a
    void setShowAxisNumbers(int,boolean) -> a
    boolean[] getShowAxisNumbers() -> a
    double getAxisNumberingDistance(int) -> a
    void setAxisNumberingDistance(int,double) -> a
    void setAutomaticAxesNumberingDistance(boolean,int,boolean) -> a
    boolean getAutomaticAxesNumberingDistance(int) -> b
    int[] getAxesTickStyles() -> a
    void setAxisTickStyle(int,int) -> a
    double[] getAxesCross() -> b
    void setAxisCross(int,double) -> b
    boolean[] getPositiveAxes() -> b
    void setPositiveAxis(int,boolean) -> b
    geogebra.common.kernel.geos.GeoNumeric getXminObject() -> a
    void setXminObject(geogebra.common.kernel.arithmetic.NumberValue,boolean) -> a
    geogebra.common.kernel.geos.GeoNumeric getXmaxObject() -> b
    void setXmaxObject(geogebra.common.kernel.arithmetic.NumberValue,boolean) -> b
    geogebra.common.kernel.geos.GeoNumeric getYminObject() -> c
    void setYminObject(geogebra.common.kernel.arithmetic.NumberValue,boolean) -> c
    geogebra.common.kernel.geos.GeoNumeric getYmaxObject() -> d
    void setYmaxObject(geogebra.common.kernel.arithmetic.NumberValue,boolean) -> d
    double getXZero() -> a
    double getYZero() -> b
    double getXscale() -> c
    double getYscale() -> d
    boolean hasDynamicBounds() -> e
    void setCoordSystem(double,double,double,double) -> a
    void setAxesNumberingDistance(double,int) -> a
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    geogebra.common.awt.GDimension getPreferredSize() -> a
    boolean setShowAxes(boolean,boolean) -> a
    boolean setShowAxes(boolean) -> a
    boolean showGrid(boolean) -> b
    void setShowGridSetting(boolean) -> b
    boolean getShowGrid() -> f
    boolean getGridIsBold() -> g
    void setGridIsBold(boolean) -> c
    int getGridType() -> d
    void setGridType(int) -> c
    int getPointCapturingMode() -> e
    boolean setPointCapturing(int) -> c
    void setAllowToolTips(int) -> d
    int getAllowToolTips() -> f
    void setDrawBorderAxes(int,boolean) -> c
    boolean[] getDrawBorderAxes() -> c
    void setLockedAxesRatio(double) -> a
    java.lang.Double getLockedAxesRatio() -> a
    void setBoldAxes(boolean) -> d
    int getDeleteToolSize() -> g
    void setDeleteToolSize(int) -> e
    void addAxisXML(int,java.lang.StringBuilder) -> a
    java.lang.String axisLabelForXML(int) -> a
    void setXscale(double) -> b
    void setYscale(double) -> c
    boolean is3D() -> h
    boolean isViewForPlane() -> b
geogebra.common.main.settings.EuclidianSettings3D -> geogebra.common.m.a.g:
    double zscale -> e
    double zZero -> f
    double a -> g
    double b -> h
    boolean useClippingCube -> b
    boolean showClippingCube -> c
    int clippingReduction -> a
    boolean showPlate -> d
    int projection -> b
    int projectionPerspectiveEyeDistance -> c
    int eyeSep -> d
    double projectionObliqueAngle -> i
    double projectionObliqueFactor -> j
    boolean yAxisVertical -> e
    boolean useLight -> f
    void setZscale(double) -> d
    double getZscale() -> e
    void setRotXYinDegrees(double,double) -> a
    void setRotXYinDegreesFromView(double,double) -> b
    void updateRotXY(geogebra.common.geogebra3D.euclidian3D.EuclidianView3D) -> a
    void updateOrigin(double,double,double) -> a
    void updateOriginFromView(double,double,double) -> b
    void updateOrigin(geogebra.common.geogebra3D.euclidian3D.EuclidianView3D) -> b
    double getZZero() -> f
    void setUseClippingCube(boolean) -> e
    boolean useClippingCube() -> a
    void setShowClippingCube(boolean) -> f
    boolean showClippingCube() -> i
    void setClippingReduction(int) -> f
    int getClippingReduction() -> a
    void setShowPlate(boolean) -> g
    boolean getShowPlate() -> j
    void togglePlane() -> f
    void setProjection(int) -> g
    int getProjection() -> h
    int getProjectionPerspectiveEyeDistance() -> i
    void setProjectionPerspectiveEyeDistance(int) -> h
    void setEyeSep(int) -> i
    int getEyeSep() -> j
    void setProjectionObliqueAngle(double) -> e
    double getProjectionObliqueAngle() -> g
    void setProjectionObliqueFactor(double) -> f
    double getProjectionObliqueFactor() -> h
    boolean getYAxisVertical() -> k
    void setYAxisVertical(boolean) -> h
    void setUseLight(boolean) -> i
    boolean getUseLight() -> l
    boolean is3D() -> h
    void resetNoFire() -> e
    void setScaleNoCallToSettingsChanged(double) -> g
geogebra.common.main.settings.KeyboardSettings -> geogebra.common.m.a.h:
    java.util.ArrayList supportedLocales -> a
    float keyboardOpacity -> a
    int keyboardWidth -> a
    int keyboardHeight -> b
    java.lang.String keyboardLocale -> a
    boolean showKeyboardOnStart -> a
    float getKeyboardOpacity() -> a
    int getKeyboardWidth() -> a
    int getKeyboardHeight() -> b
    java.lang.String getKeyboardLocale() -> a
    void setKeyboardWidth(int) -> a
    void setKeyboardHeight(int) -> b
    void setShowKeyboardOnStart(boolean) -> a
    boolean isShowKeyboardOnStart() -> a
    void setKeyboardOpacity(float) -> a
    void keyboardResized(int,int) -> a
    void setKeyboardLocale(java.lang.String) -> a
geogebra.common.main.settings.LayoutSettings -> geogebra.common.m.a.i:
    boolean showTitleBar -> a
    boolean ignoreDocumentLayout -> b
    boolean allowStyleBar -> c
    boolean showTitleBar() -> a
    void setShowTitleBar(boolean) -> a
    boolean isIgnoringDocumentLayout() -> b
    void setIgnoreDocumentLayout(boolean) -> b
    boolean isAllowingStyleBar() -> c
    void setAllowStyleBar(boolean) -> c
geogebra.common.main.settings.ProbabilityCalculatorSettings -> geogebra.common.m.a.j:
    int distCount -> a
    double[] parameters -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST distributionType -> a
    boolean isCumulative -> a
    boolean intervalSet -> b
    int probMode -> b
    double low -> a
    double high -> b
    void setParameters(double[]) -> a
    double[] getParameters() -> a
    void setDistributionType(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST) -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST getDistributionType() -> a
    void setCumulative(boolean) -> a
    boolean isCumulative() -> a
    void setProbMode(int) -> a
    void setLow(double) -> a
    void setHigh(double) -> b
    boolean isIntervalSet() -> b
    int getProbMode() -> a
    double getLow() -> a
    double getHigh() -> b
geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST -> geogebra.common.m.a.j$a:
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST NORMAL -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST STUDENT -> b
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST CHISQUARE -> c
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST F -> d
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST CAUCHY -> e
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST EXPONENTIAL -> f
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST GAMMA -> g
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST WEIBULL -> h
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST LOGISTIC -> i
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST LOGNORMAL -> j
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST ERLANG -> k
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST BINOMIAL -> l
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST PASCAL -> m
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST HYPERGEOMETRIC -> n
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST POISSON -> o
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST[] ENUM$VALUES -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST[] values() -> values
    geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST valueOf(java.lang.String) -> valueOf
geogebra.common.main.settings.SettingListener -> geogebra.common.m.a.k:
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
geogebra.common.main.settings.Settings -> geogebra.common.m.a.l:
    geogebra.common.main.settings.EuclidianSettings[] euclidianSettings -> a
    java.util.HashMap euclidianSettingsForPlane -> a
    geogebra.common.main.settings.AlgebraSettings algebraSettings -> a
    geogebra.common.main.settings.SpreadsheetSettings spreadsheetSettings -> a
    geogebra.common.main.settings.ConstructionProtocolSettings consProtSettings -> a
    geogebra.common.main.settings.LayoutSettings layoutSettings -> a
    geogebra.common.main.settings.ApplicationSettings applicationSettings -> a
    geogebra.common.main.settings.KeyboardSettings keyboardSettings -> a
    geogebra.common.main.settings.CASSettings casSettings -> a
    geogebra.common.main.settings.ProbabilityCalculatorSettings probCalcSettings -> a
    geogebra.common.main.settings.EuclidianSettings createEuclidanSettings(int) -> b
    void resetSettings() -> a
    void beginBatch() -> b
    void endBatch() -> c
    geogebra.common.main.settings.EuclidianSettings getEuclidian(int) -> a
    geogebra.common.main.settings.EuclidianSettings getEuclidianForPlane(java.lang.String) -> a
    void setEuclidianSettingsForPlane(java.lang.String,geogebra.common.main.settings.EuclidianSettings) -> a
    void clearEuclidianSettingsForPlane() -> d
    void removeEuclidianSettingsForPlane(java.lang.String) -> a
    geogebra.common.main.settings.AlgebraSettings getAlgebra() -> a
    geogebra.common.main.settings.SpreadsheetSettings getSpreadsheet() -> a
    void restoreDefaultSpreadsheetSettings() -> e
    geogebra.common.main.settings.ProbabilityCalculatorSettings getProbCalcSettings() -> a
    geogebra.common.main.settings.ConstructionProtocolSettings getConstructionProtocol() -> a
    geogebra.common.main.settings.LayoutSettings getLayout() -> a
    geogebra.common.main.settings.KeyboardSettings getKeyboard() -> a
    geogebra.common.main.settings.CASSettings getCasSettings() -> a
geogebra.common.main.settings.SpreadsheetSettings -> geogebra.common.m.a.m:
    boolean showFormulaBar -> a
    boolean showGrid -> b
    boolean showRowHeader -> c
    boolean showColumnHeader -> d
    boolean showVScrollBar -> e
    boolean showHScrollBar -> f
    boolean isColumnSelect -> g
    boolean allowSpecialEditor -> h
    boolean allowToolTips -> i
    boolean equalsRequired -> j
    boolean enableAutoComplete -> k
    java.util.HashMap widthMap -> a
    java.util.HashMap heightMap -> b
    int preferredColumnWidth -> a
    int preferredRowHeight -> b
    java.lang.String cellFormat -> a
    geogebra.common.awt.GPoint scrollPosition -> a
    geogebra.common.awt.GPoint selectedCell -> b
    geogebra.common.awt.GDimension preferredSize -> a
    int HScrollBarValue -> c
    int VScrollBarValue -> d
    boolean hasInitialized() -> a
    java.util.HashMap getWidthMap() -> a
    void addWidth(int,int) -> a
    int preferredColumnWidth() -> a
    void setPreferredColumnWidth(int) -> a
    java.util.HashMap getHeightMap() -> b
    void addHeight(int,int) -> b
    int preferredRowHeight() -> b
    void setPreferredRowHeight(int) -> b
    boolean showFormulaBar() -> b
    void setShowFormulaBar(boolean) -> a
    boolean showGrid() -> c
    void setShowGrid(boolean) -> b
    boolean showRowHeader() -> d
    void setShowRowHeader(boolean) -> c
    boolean showColumnHeader() -> e
    void setShowColumnHeader(boolean) -> d
    boolean showVScrollBar() -> f
    void setShowVScrollBar(boolean) -> e
    boolean showHScrollBar() -> g
    void setShowHScrollBar(boolean) -> f
    boolean allowSpecialEditor() -> h
    void setAllowSpecialEditor(boolean) -> g
    boolean allowToolTips() -> i
    void setAllowToolTips(boolean) -> h
    boolean equalsRequired() -> j
    void setEqualsRequired(boolean) -> i
    boolean isColumnSelect() -> k
    java.lang.String cellFormat() -> a
    void setCellFormat(java.lang.String) -> a
    boolean hasCellFormat() -> y
    void setScrollPosition(geogebra.common.awt.GPoint) -> a
    geogebra.common.awt.GDimension preferredSize() -> a
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    void setEnableAutoComplete(boolean) -> j
    boolean isEnableAutoComplete() -> l
    void setHScrollBalValue(int) -> c
    void setVScrollBalValue(int) -> d
    boolean isSelectionDefaults() -> m
    boolean isLayoutDefaults() -> n
    boolean isDefaultToolTipsAllowed() -> o
    boolean isDefaultSpecialEditorAllowed() -> p
    boolean isDefaultColumnSelect() -> q
    boolean isDefaultVScrollBar() -> r
    boolean isDefaultHScrollBar() -> s
    boolean isDefaultShowColumnHeader() -> t
    boolean isDefaultShowRowHeader() -> u
    boolean isDefaultShowFormulaBar() -> v
    boolean isDefaultShowGrid() -> w
    boolean isDefaultPreferredSize() -> x
    void getXML(java.lang.StringBuilder,boolean) -> a
geogebra.common.move.events.BaseEvent -> geogebra.common.n.a.a:
    java.lang.String name -> a
geogebra.common.move.events.StayLoggedOutEvent -> geogebra.common.n.a.b:
geogebra.common.move.ggtapi.TubeAvailabilityCheckEvent -> geogebra.common.n.b.a:
    boolean available -> a
    boolean isAvailable() -> a
geogebra.common.move.ggtapi.events.LogOutEvent -> geogebra.common.n.b.a.a:
geogebra.common.move.ggtapi.events.LoginAttemptEvent -> geogebra.common.n.b.a.b:
    geogebra.common.move.ggtapi.models.GeoGebraTubeUser user -> a
geogebra.common.move.ggtapi.events.LoginEvent -> geogebra.common.n.b.a.c:
    geogebra.common.move.ggtapi.models.GeoGebraTubeUser user -> a
    boolean successful -> a
    boolean automatic -> b
    java.lang.String userJSON -> b
    boolean isSuccessful() -> a
    boolean isAutomatic() -> b
    geogebra.common.move.ggtapi.models.GeoGebraTubeUser getUser() -> a
    java.lang.String getJSON() -> a
geogebra.common.move.ggtapi.models.AjaxCallback -> geogebra.common.n.b.b.a:
    void onSuccess(java.lang.String) -> a
    void onError(java.lang.String) -> b
geogebra.common.move.ggtapi.models.AuthenticationModel -> geogebra.common.n.b.b.b:
    geogebra.common.move.ggtapi.models.GeoGebraTubeUser loggedInUser -> a
    boolean stayLoggedOut -> a
    java.lang.String GGB_TOKEN_KEY_NAME -> a
    void onEvent(geogebra.common.move.events.BaseEvent) -> a
    void storeLoginToken(java.lang.String) -> a
    java.lang.String getLoginToken() -> a
    void clearLoginToken() -> a
    void onLoginSuccess(geogebra.common.move.ggtapi.models.GeoGebraTubeUser,java.lang.String) -> a
    void storeLastUser(java.lang.String) -> b
    void onLoginError(geogebra.common.move.ggtapi.models.GeoGebraTubeUser) -> a
    geogebra.common.move.ggtapi.models.GeoGebraTubeUser getLoggedInUser() -> a
    boolean isLoggedIn() -> a
    void stayLoggedOut() -> b
geogebra.common.move.ggtapi.models.ClientInfo -> geogebra.common.n.b.b.c:
    geogebra.common.move.ggtapi.models.AuthenticationModel model -> a
    java.lang.String type -> a
    int width -> a
    void setModel(geogebra.common.move.ggtapi.models.AuthenticationModel) -> a
    void setType(java.lang.String) -> a
    void setWidth(int) -> a
geogebra.common.move.ggtapi.models.GeoGebraTubeAPI -> geogebra.common.n.b.b.d:
    java.lang.String test_url -> a
    java.lang.String url -> b
    java.lang.String urlBeta -> c
    java.lang.String login_url -> d
    java.lang.String login_urlBeta -> e
    boolean available -> a
    boolean availabilityCheckDone -> b
    void performRequest(java.lang.String,boolean,geogebra.common.move.ggtapi.models.AjaxCallback) -> a
    java.lang.String getLoginUrl() -> a
    java.lang.String getUrl() -> b
    geogebra.common.util.HttpRequest createHttpRequest() -> a
    boolean parseUserDataFromResponse(geogebra.common.move.ggtapi.models.GeoGebraTubeUser,java.lang.String) -> a
    void authorizeUser(geogebra.common.move.ggtapi.models.GeoGebraTubeUser,geogebra.common.move.ggtapi.operations.LogInOperation,boolean) -> a
    java.lang.String buildTokenLoginRequest(java.lang.String,java.lang.String) -> a
    boolean checkAvailable(geogebra.common.move.ggtapi.operations.LogInOperation) -> a
    boolean isAvailable() -> a
    java.lang.String getClientInfo() -> c
    boolean checkIfAvailable(geogebra.common.move.ggtapi.operations.LogInOperation,java.lang.String) -> a
    void logout(java.lang.String) -> a
geogebra.common.move.ggtapi.models.GeoGebraTubeAPI$1 -> geogebra.common.n.b.b.e:
    geogebra.common.move.ggtapi.models.GeoGebraTubeAPI this$0 -> a
    geogebra.common.move.ggtapi.models.GeoGebraTubeUser val$user -> a
    geogebra.common.move.ggtapi.operations.LogInOperation val$op -> a
    boolean val$automatic -> a
    void onSuccess(java.lang.String) -> a
    void onError(java.lang.String) -> b
geogebra.common.move.ggtapi.models.GeoGebraTubeAPI$2 -> geogebra.common.n.b.b.f:
    geogebra.common.move.ggtapi.models.GeoGebraTubeAPI this$0 -> a
    geogebra.common.move.ggtapi.operations.LogInOperation val$op -> a
    void onSuccess(java.lang.String) -> a
    void onError(java.lang.String) -> b
geogebra.common.move.ggtapi.models.GeoGebraTubeAPI$4 -> geogebra.common.n.b.b.g:
    geogebra.common.move.ggtapi.models.GeoGebraTubeAPI this$0 -> a
    void onSuccess(java.lang.String) -> a
    void onError(java.lang.String) -> b
geogebra.common.move.ggtapi.models.GeoGebraTubeUser -> geogebra.common.n.b.b.h:
    java.lang.String userName -> a
    java.lang.String token -> b
    int userId -> a
    java.lang.String identifier -> c
    java.lang.String realName -> d
    java.lang.String cookie -> e
    java.lang.String getLoginToken() -> a
    java.lang.String getUserName() -> b
    void setUserName(java.lang.String) -> a
    void setUserId(int) -> a
    void setRealName(java.lang.String) -> b
    void setIdentifier(java.lang.String) -> c
    java.lang.String getCookie() -> c
geogebra.common.move.ggtapi.operations.LogInOperation -> geogebra.common.n.b.c.a:
    geogebra.common.move.ggtapi.models.AuthenticationModel getModel() -> a
    boolean isLoggedIn() -> a
    void performTokenLogin() -> a
    void performTokenLogin(java.lang.String,boolean) -> a
    void stayLoggedOut() -> b
    void doPerformTokenLogin(geogebra.common.move.ggtapi.models.GeoGebraTubeUser,boolean) -> a
    void performLogOut() -> c
    geogebra.common.move.ggtapi.models.GeoGebraTubeAPI getGeoGebraTubeAPI() -> a
    java.lang.String getLoginURL(java.lang.String) -> a
    java.lang.String getURLLoginCaller() -> a
    java.lang.String getURLTokenExpirationMinutes() -> b
    java.lang.String getURLClientInfo() -> c
    geogebra.common.move.models.BaseModel getModel() -> a
geogebra.common.move.ggtapi.operations.OpenFromGGTOperation -> geogebra.common.n.b.c.b:
    java.lang.String GGT_URL -> a
    geogebra.common.main.App app -> a
    java.lang.String generateOpenFromGGTURL(java.lang.String) -> a
geogebra.common.move.models.BaseModel -> geogebra.common.n.c.a:
    java.util.ArrayList modelComponents -> a
    void onEvent(geogebra.common.move.events.BaseEvent) -> a
geogebra.common.move.operations.BaseOperation -> geogebra.common.n.d.a:
    geogebra.common.move.views.BaseView view -> a
    geogebra.common.move.models.BaseModel model -> a
    geogebra.common.move.views.BaseView getView() -> a
    void setView(geogebra.common.move.views.BaseView) -> a
    geogebra.common.move.models.BaseModel getModel() -> a
    void setModel(geogebra.common.move.models.BaseModel) -> a
    void onEvent(geogebra.common.move.events.BaseEvent) -> a
geogebra.common.move.views.BaseEventView -> geogebra.common.n.e.a:
    void onEvent(geogebra.common.move.events.BaseEvent) -> a
geogebra.common.move.views.BaseView -> geogebra.common.n.e.b:
    java.util.ArrayList viewComponents -> a
    void add(java.lang.Object) -> a
geogebra.common.move.views.EventRenderable -> geogebra.common.n.e.c:
    void renderEvent(geogebra.common.move.events.BaseEvent) -> a
geogebra.common.plugin.EuclidianStyleConstants -> geogebra.common.plugin.EuclidianStyleConstants:
    int LINE_TYPE_FULL -> LINE_TYPE_FULL
    int LINE_TYPE_DASHED_SHORT -> LINE_TYPE_DASHED_SHORT
    int LINE_TYPE_DASHED_LONG -> LINE_TYPE_DASHED_LONG
    int LINE_TYPE_DOTTED -> LINE_TYPE_DOTTED
    int LINE_TYPE_DASHED_DOTTED -> LINE_TYPE_DASHED_DOTTED
    int RIGHT_ANGLE_STYLE_NONE -> RIGHT_ANGLE_STYLE_NONE
    int RIGHT_ANGLE_STYLE_SQUARE -> RIGHT_ANGLE_STYLE_SQUARE
    int RIGHT_ANGLE_STYLE_DOT -> RIGHT_ANGLE_STYLE_DOT
    int RIGHT_ANGLE_STYLE_L -> RIGHT_ANGLE_STYLE_L
    int DEFAULT_POINT_SIZE -> DEFAULT_POINT_SIZE
    int DEFAULT_LINE_THICKNESS -> DEFAULT_LINE_THICKNESS
    int DEFAULT_ANGLE_SIZE -> DEFAULT_ANGLE_SIZE
    int DEFAULT_LINE_TYPE -> DEFAULT_LINE_TYPE
    int LINE_TYPE_HIDDEN_NONE -> LINE_TYPE_HIDDEN_NONE
    int LINE_TYPE_HIDDEN_DASHED -> LINE_TYPE_HIDDEN_DASHED
    int LINE_TYPE_HIDDEN_AS_NOT_HIDDEN -> LINE_TYPE_HIDDEN_AS_NOT_HIDDEN
    int DEFAULT_LINE_TYPE_HIDDEN -> DEFAULT_LINE_TYPE_HIDDEN
    float SELECTION_ADD -> SELECTION_ADD
    int AXES_TICK_STYLE_MAJOR_MINOR -> AXES_TICK_STYLE_MAJOR_MINOR
    int AXES_TICK_STYLE_MAJOR -> AXES_TICK_STYLE_MAJOR
    int AXES_TICK_STYLE_NONE -> AXES_TICK_STYLE_NONE
    int AXES_RIGHT_ARROW -> AXES_RIGHT_ARROW
    int AXES_BOLD -> AXES_BOLD
    int AXES_LEFT_ARROW -> AXES_LEFT_ARROW
    int AXES_FILL_ARROWS -> AXES_FILL_ARROWS
    int AXES_LINE_TYPE_FULL -> AXES_LINE_TYPE_FULL
    int AXES_LINE_TYPE_ARROW -> AXES_LINE_TYPE_ARROW
    int AXES_LINE_TYPE_FULL_BOLD -> AXES_LINE_TYPE_FULL_BOLD
    int AXES_LINE_TYPE_ARROW_BOLD -> AXES_LINE_TYPE_ARROW_BOLD
    int AXES_LINE_TYPE_ARROW_FILLED -> AXES_LINE_TYPE_ARROW_FILLED
    int AXES_LINE_TYPE_TWO_ARROWS -> AXES_LINE_TYPE_TWO_ARROWS
    int AXES_LINE_TYPE_TWO_ARROWS_FILLED -> AXES_LINE_TYPE_TWO_ARROWS_FILLED
    int AXES_LINE_TYPE_ARROW_FILLED_BOLD -> AXES_LINE_TYPE_ARROW_FILLED_BOLD
    int AXES_LINE_TYPE_TWO_ARROWS_BOLD -> AXES_LINE_TYPE_TWO_ARROWS_BOLD
    int AXES_LINE_TYPE_TWO_ARROWS_FILLED_BOLD -> AXES_LINE_TYPE_TWO_ARROWS_FILLED_BOLD
    java.lang.Integer[] lineStyleOptions -> lineStyleOptions
    int POINT_STYLE_DOT -> POINT_STYLE_DOT
    int POINT_STYLE_CROSS -> POINT_STYLE_CROSS
    int POINT_STYLE_CIRCLE -> POINT_STYLE_CIRCLE
    int POINT_STYLE_PLUS -> POINT_STYLE_PLUS
    int POINT_STYLE_FILLED_DIAMOND -> POINT_STYLE_FILLED_DIAMOND
    int POINT_STYLE_EMPTY_DIAMOND -> POINT_STYLE_EMPTY_DIAMOND
    int POINT_STYLE_TRIANGLE_NORTH -> POINT_STYLE_TRIANGLE_NORTH
    int POINT_STYLE_TRIANGLE_SOUTH -> POINT_STYLE_TRIANGLE_SOUTH
    int POINT_STYLE_TRIANGLE_EAST -> POINT_STYLE_TRIANGLE_EAST
    int POINT_STYLE_TRIANGLE_WEST -> POINT_STYLE_TRIANGLE_WEST
    int MAX_POINT_STYLE -> MAX_POINT_STYLE
    int MAX_LAYERS -> MAX_LAYERS
    int POINT_CAPTURING_OFF -> POINT_CAPTURING_OFF
    int POINT_CAPTURING_ON -> POINT_CAPTURING_ON
    int POINT_CAPTURING_ON_GRID -> POINT_CAPTURING_ON_GRID
    int POINT_CAPTURING_AUTOMATIC -> POINT_CAPTURING_AUTOMATIC
    int POINT_CAPTURING_STICKY_POINTS -> POINT_CAPTURING_STICKY_POINTS
    float POINT_CAPTURING_GRID -> POINT_CAPTURING_GRID
    int POINT_CAPTURING_DEFAULT -> POINT_CAPTURING_DEFAULT
    int POINT_CAPTURING_XML_MAX -> POINT_CAPTURING_XML_MAX
    int TOOLTIPS_AUTOMATIC -> TOOLTIPS_AUTOMATIC
    int TOOLTIPS_ON -> TOOLTIPS_ON
    int TOOLTIPS_OFF -> TOOLTIPS_OFF
    double DEFAULT_GRID_DIST_FACTOR -> DEFAULT_GRID_DIST_FACTOR
    double automaticGridDistanceFactor -> automaticGridDistanceFactor
geogebra.common.plugin.Event -> geogebra.common.plugin.a:
    geogebra.common.plugin.EventType type -> a
    geogebra.common.kernel.geos.GeoElement target -> a
    java.lang.String argument -> a
    java.util.ArrayList targets -> a
    boolean alwaysDispatched -> a
    boolean isAlwaysDispatched() -> a
geogebra.common.plugin.EventDispatcher -> geogebra.common.plugin.b:
    geogebra.common.main.App app -> a
    java.util.ArrayList listeners -> a
    void addEventListener(geogebra.common.plugin.EventListener) -> a
    void dispatchEvent(geogebra.common.plugin.Event) -> a
    void dispatchEvent(geogebra.common.plugin.EventType,geogebra.common.kernel.geos.GeoElement) -> a
    void dispatchBulkEvent(geogebra.common.plugin.EventType,java.util.ArrayList) -> a
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void reset() -> j
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int getViewID() -> a
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    void renameUpdatesComplete() -> a
    void addingPolygon() -> b
    void addPolygonComplete(geogebra.common.kernel.geos.GeoElement) -> g
    void movingGeos() -> d
    void movedGeos(java.util.ArrayList) -> a
    void deleteGeos(java.util.ArrayList) -> b
    void pasteElms() -> e
    void pasteElmsComplete(java.util.ArrayList) -> c
geogebra.common.plugin.EventListener -> geogebra.common.plugin.c:
    void sendEvent(geogebra.common.plugin.Event) -> a
    void reset() -> a
geogebra.common.plugin.EventType -> geogebra.common.plugin.EventType:
    geogebra.common.plugin.EventType CLICK -> CLICK
    geogebra.common.plugin.EventType UPDATE -> UPDATE
    geogebra.common.plugin.EventType ADD -> ADD
    geogebra.common.plugin.EventType STOREUNDO -> STOREUNDO
    geogebra.common.plugin.EventType REMOVE -> REMOVE
    geogebra.common.plugin.EventType RENAME -> RENAME
    geogebra.common.plugin.EventType RENAME_COMPLETE -> RENAME_COMPLETE
    geogebra.common.plugin.EventType ADD_POLYGON -> ADD_POLYGON
    geogebra.common.plugin.EventType ADD_POLYGON_COMPLETE -> ADD_POLYGON_COMPLETE
    geogebra.common.plugin.EventType MOVING_GEOS -> MOVING_GEOS
    geogebra.common.plugin.EventType MOVED_GEOS -> MOVED_GEOS
    geogebra.common.plugin.EventType PASTE_ELMS -> PASTE_ELMS
    geogebra.common.plugin.EventType PASTE_ELMS_COMPLETE -> PASTE_ELMS_COMPLETE
    geogebra.common.plugin.EventType DELETE_GEOS -> DELETE_GEOS
    geogebra.common.plugin.EventType LOGIN -> LOGIN
    java.lang.String eventName -> eventName
    geogebra.common.plugin.EventType[] ENUM$VALUES -> ENUM$VALUES
    java.lang.String getName() -> getName
    geogebra.common.plugin.EventType[] values() -> values
    geogebra.common.plugin.EventType valueOf(java.lang.String) -> valueOf
geogebra.common.plugin.GeoClass -> geogebra.common.plugin.GeoClass:
    geogebra.common.plugin.GeoClass ANGLE -> ANGLE
    geogebra.common.plugin.GeoClass AXIS -> AXIS
    geogebra.common.plugin.GeoClass BOOLEAN -> BOOLEAN
    geogebra.common.plugin.GeoClass BUTTON -> BUTTON
    geogebra.common.plugin.GeoClass TEXTFIELD -> TEXTFIELD
    geogebra.common.plugin.GeoClass CONIC -> CONIC
    geogebra.common.plugin.GeoClass CONICPART -> CONICPART
    geogebra.common.plugin.GeoClass FUNCTION -> FUNCTION
    geogebra.common.plugin.GeoClass INTERVAL -> INTERVAL
    geogebra.common.plugin.GeoClass FUNCTIONCONDITIONAL -> FUNCTIONCONDITIONAL
    geogebra.common.plugin.GeoClass IMAGE -> IMAGE
    geogebra.common.plugin.GeoClass LINE -> LINE
    geogebra.common.plugin.GeoClass LIST -> LIST
    geogebra.common.plugin.GeoClass LOCUS -> LOCUS
    geogebra.common.plugin.GeoClass NUMERIC -> NUMERIC
    geogebra.common.plugin.GeoClass POINT -> POINT
    geogebra.common.plugin.GeoClass POLYGON -> POLYGON
    geogebra.common.plugin.GeoClass RAY -> RAY
    geogebra.common.plugin.GeoClass SEGMENT -> SEGMENT
    geogebra.common.plugin.GeoClass TEXT -> TEXT
    geogebra.common.plugin.GeoClass VECTOR -> VECTOR
    geogebra.common.plugin.GeoClass CURVE_CARTESIAN -> CURVE_CARTESIAN
    geogebra.common.plugin.GeoClass CURVE_POLAR -> CURVE_POLAR
    geogebra.common.plugin.GeoClass IMPLICIT_POLY -> IMPLICIT_POLY
    geogebra.common.plugin.GeoClass IMPLICIT_CURVE -> IMPLICIT_CURVE
    geogebra.common.plugin.GeoClass FUNCTION_NVAR -> FUNCTION_NVAR
    geogebra.common.plugin.GeoClass POLYLINE -> POLYLINE
    geogebra.common.plugin.GeoClass PENSTROKE -> PENSTROKE
    geogebra.common.plugin.GeoClass SPLINE -> SPLINE
    geogebra.common.plugin.GeoClass TURTLE -> TURTLE
    geogebra.common.plugin.GeoClass CAS_CELL -> CAS_CELL
    geogebra.common.plugin.GeoClass ANGLE3D -> ANGLE3D
    geogebra.common.plugin.GeoClass POINT3D -> POINT3D
    geogebra.common.plugin.GeoClass VECTOR3D -> VECTOR3D
    geogebra.common.plugin.GeoClass SEGMENT3D -> SEGMENT3D
    geogebra.common.plugin.GeoClass LINE3D -> LINE3D
    geogebra.common.plugin.GeoClass RAY3D -> RAY3D
    geogebra.common.plugin.GeoClass CONIC3D -> CONIC3D
    geogebra.common.plugin.GeoClass CONICSECTION -> CONICSECTION
    geogebra.common.plugin.GeoClass AXIS3D -> AXIS3D
    geogebra.common.plugin.GeoClass CURVE_CARTESIAN3D -> CURVE_CARTESIAN3D
    geogebra.common.plugin.GeoClass POLYGON3D -> POLYGON3D
    geogebra.common.plugin.GeoClass PLANE3D -> PLANE3D
    geogebra.common.plugin.GeoClass QUADRIC -> QUADRIC
    geogebra.common.plugin.GeoClass QUADRIC_PART -> QUADRIC_PART
    geogebra.common.plugin.GeoClass QUADRIC_LIMITED -> QUADRIC_LIMITED
    geogebra.common.plugin.GeoClass POLYLINE3D -> POLYLINE3D
    geogebra.common.plugin.GeoClass POLYHEDRON -> POLYHEDRON
    geogebra.common.plugin.GeoClass NET -> NET
    geogebra.common.plugin.GeoClass SURFACECARTESIAN3D -> SURFACECARTESIAN3D
    geogebra.common.plugin.GeoClass CLIPPINGCUBE3D -> CLIPPINGCUBE3D
    geogebra.common.plugin.GeoClass SPACE -> SPACE
    geogebra.common.plugin.GeoClass DEFAULT -> DEFAULT
    java.lang.String name -> name
    java.lang.String xmlName -> xmlName
    boolean is3D -> is3D
    geogebra.common.plugin.GeoClass[] ENUM$VALUES -> ENUM$VALUES
    geogebra.common.plugin.GeoClass[] values() -> values
    geogebra.common.plugin.GeoClass valueOf(java.lang.String) -> valueOf
geogebra.common.plugin.GeoScriptRunner -> geogebra.common.plugin.d:
    geogebra.common.main.App app -> a
    void sendEvent(geogebra.common.plugin.Event) -> a
    void reset() -> a
geogebra.common.plugin.GgbAPI -> geogebra.common.plugin.GgbAPI:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.kernel.Construction construction -> a
    geogebra.common.kernel.commands.AlgebraProcessor algebraprocessor -> a
    geogebra.common.main.App app -> a
    java.lang.String[] objNames -> a
    int lastGeoElementsIteratorSize -> a
    geogebra.common.kernel.Construction getConstruction() -> getConstruction
    geogebra.common.kernel.Kernel getKernel() -> getKernel
    geogebra.common.kernel.commands.AlgebraProcessor getAlgebraProcessor() -> getAlgebraProcessor
    void evalXML(java.lang.String) -> evalXML
    java.lang.String evalCommandCAS(java.lang.String) -> evalCommandCAS
    boolean evalCommand(java.lang.String) -> evalCommand
    void debug(java.lang.String) -> debug
    java.lang.String getXML(java.lang.String) -> getXML
    java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML
    void setVisible(java.lang.String,boolean) -> setVisible
    boolean getVisible(java.lang.String) -> getVisible
    void setLayer(java.lang.String,int) -> setLayer
    int getLayer(java.lang.String) -> getLayer
    void setLayerVisible(int,boolean) -> setLayerVisible
    java.lang.String[] getObjNames() -> getObjNames
    java.lang.String[] getAllObjectNames() -> getAllObjectNames
    void setFixed(java.lang.String,boolean) -> setFixed
    void setTrace(java.lang.String,boolean) -> setTrace
    void setLabelVisible(java.lang.String,boolean) -> setLabelVisible
    void setLabelStyle(java.lang.String,int) -> setLabelStyle
    void setColor(java.lang.String,int,int,int) -> setColor
    void setCorner(java.lang.String,double,double) -> setCorner
    void setCorner(java.lang.String,double,double,int) -> setCorner
    void setAnimating(java.lang.String,boolean) -> setAnimating
    void setAnimationSpeed(java.lang.String,double) -> setAnimationSpeed
    java.lang.String getColor(java.lang.String) -> getColor
    int getLineThickness(java.lang.String) -> getLineThickness
    void setLineThickness(java.lang.String,int) -> setLineThickness
    int getPointStyle(java.lang.String) -> getPointStyle
    void setPointStyle(java.lang.String,int) -> setPointStyle
    int getPointSize(java.lang.String) -> getPointSize
    void setPointSize(java.lang.String,int) -> setPointSize
    double getFilling(java.lang.String) -> getFilling
    void setFilling(java.lang.String,double) -> setFilling
    void setOnTheFlyPointCreationActive(boolean) -> setOnTheFlyPointCreationActive
    void setUndoPoint() -> setUndoPoint
    void initCAS() -> initCAS
    void uploadToGeoGebraTube() -> uploadToGeoGebraTube
    void startAnimation() -> startAnimation
    void stopAnimation() -> stopAnimation
    void hideCursorWhenDragging(boolean) -> hideCursorWhenDragging
    boolean isAnimationRunning() -> isAnimationRunning
    void registerAddListener(java.lang.String) -> registerAddListener
    void unregisterAddListener(java.lang.String) -> unregisterAddListener
    void registerRemoveListener(java.lang.String) -> registerRemoveListener
    void unregisterRemoveListener(java.lang.String) -> unregisterRemoveListener
    void registerClearListener(java.lang.String) -> registerClearListener
    void unregisterClearListener(java.lang.String) -> unregisterClearListener
    void registerRenameListener(java.lang.String) -> registerRenameListener
    void unregisterRenameListener(java.lang.String) -> unregisterRenameListener
    void registerUpdateListener(java.lang.String) -> registerUpdateListener
    void unregisterUpdateListener(java.lang.String) -> unregisterUpdateListener
    void registerObjectUpdateListener(java.lang.String,java.lang.String) -> registerObjectUpdateListener
    void unregisterObjectUpdateListener(java.lang.String) -> unregisterObjectUpdateListener
    void registerClickListener(java.lang.String) -> registerClickListener
    void unregisterClickListener(java.lang.String) -> unregisterClickListener
    void registerClientListener(java.lang.String) -> registerClientListener
    void unregisterClientListener(java.lang.String) -> unregisterClientListener
    void registerObjectClickListener(java.lang.String,java.lang.String) -> registerObjectClickListener
    void unregisterObjectClickListener(java.lang.String) -> unregisterObjectClickListener
    void registerStoreUndoListener(java.lang.String) -> registerStoreUndoListener
    boolean isMoveable(java.lang.String) -> isMoveable
    java.lang.String getObjectType(java.lang.String) -> getObjectType
    void setMode(int) -> setMode
    int getLineStyle(java.lang.String) -> getLineStyle
    void setLineStyle(java.lang.String,int) -> setLineStyle
    void deleteObject(java.lang.String) -> deleteObject
    boolean renameObject(java.lang.String,java.lang.String) -> renameObject
    boolean exists(java.lang.String) -> exists
    boolean isDefined(java.lang.String) -> isDefined
    boolean isIndependent(java.lang.String) -> isIndependent
    java.lang.String getValueString(java.lang.String) -> getValueString
    java.lang.String getDefinitionString(java.lang.String) -> getDefinitionString
    java.lang.String getCommandString(java.lang.String) -> getCommandString
    double getXcoord(java.lang.String) -> getXcoord
    double getYcoord(java.lang.String) -> getYcoord
    void setCoords(java.lang.String,double,double) -> setCoords
    double getValue(java.lang.String) -> getValue
    void setValue(java.lang.String,double) -> setValue
    void setTextValue(java.lang.String,java.lang.String) -> setTextValue
    void setListValue(java.lang.String,double,double) -> setListValue
    void setRepaintingActive(boolean) -> setRepaintingActive
    void setCoordSystem(double,double,double,double) -> setCoordSystem
    void setAxesVisible(boolean,boolean) -> setAxesVisible
    void setAxesCornerCoordsVisible(boolean) -> setAxesCornerCoordsVisible
    void setGridVisible(boolean) -> setGridVisible
    java.lang.String[] getSelectedObjectNames() -> getSelectedObjectNames
    int getObjectNumber() -> getObjectNumber
    java.lang.String getObjectName(int) -> getObjectName
    void setXML(java.lang.String) -> setXML
    java.lang.String getXML() -> getXML
    geogebra.common.main.App getApplication() -> getApplication
    java.lang.String getBase64(boolean) -> getBase64
    java.lang.String getBase64() -> getBase64
    void setPenColor(int,int,int) -> setPenColor
    void setPenSize(int) -> setPenSize
    int getPenSize() -> getPenSize
    java.lang.String getPenColor() -> getPenColor
    double getListValue(java.lang.String,int) -> getListValue
    void addUserAwarenessListener(geogebra.common.kernel.UserAwarenessListener) -> addUserAwarenessListener
    void removeUserAwarenessListener(geogebra.common.kernel.UserAwarenessListener) -> removeUserAwarenessListener
    void undo(boolean) -> undo
    void redo(boolean) -> redo
    void setSaved() -> setSaved
    void newConstruction() -> newConstruction
    java.lang.String getViewProperties(int) -> getViewProperties
    void setFont(java.lang.String,int,boolean,boolean,boolean) -> setFont
    java.lang.String evalGeoGebraCAS(java.lang.String) -> evalGeoGebraCAS
    java.lang.String evalGeoGebraCAS(java.lang.String,boolean) -> evalGeoGebraCAS
    void login(java.lang.String) -> login
    void logout() -> logout
    void setPerspective(java.lang.String) -> setPerspective
    boolean getVisible(java.lang.String,int) -> getVisible
geogebra.common.plugin.JavaScriptAPI -> geogebra.common.plugin.e:
    byte[] getGGBfile() -> getGGBfile
    java.lang.String getXML() -> getXML
    java.lang.String getBase64(boolean) -> getBase64
    void uploadToGeoGebraTube() -> uploadToGeoGebraTube
    java.lang.String getXML(java.lang.String) -> getXML
    java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML
    void setXML(java.lang.String) -> setXML
    void setBase64(java.lang.String) -> setBase64
    void evalXML(java.lang.String) -> evalXML
    boolean evalCommand(java.lang.String) -> evalCommand
    java.lang.String evalCommandCAS(java.lang.String) -> evalCommandCAS
    java.lang.String evalGeoGebraCAS(java.lang.String) -> evalGeoGebraCAS
    void debug(java.lang.String) -> debug
    void setErrorDialogsActive(boolean) -> setErrorDialogsActive
    void setOnTheFlyPointCreationActive(boolean) -> setOnTheFlyPointCreationActive
    void setUndoPoint() -> setUndoPoint
    void reset() -> reset
    void refreshViews() -> refreshViews
    java.lang.String getIPAddress() -> getIPAddress
    java.lang.String getHostname() -> getHostname
    void openFile(java.lang.String) -> openFile
    void setVisible(java.lang.String,boolean) -> setVisible
    boolean getVisible(java.lang.String) -> getVisible
    boolean getVisible(java.lang.String,int) -> getVisible
    void setLayer(java.lang.String,int) -> setLayer
    int getLayer(java.lang.String) -> getLayer
    void setLayerVisible(int,boolean) -> setLayerVisible
    void setFixed(java.lang.String,boolean) -> setFixed
    void setTrace(java.lang.String,boolean) -> setTrace
    void setLabelVisible(java.lang.String,boolean) -> setLabelVisible
    void setLabelStyle(java.lang.String,int) -> setLabelStyle
    void setLineThickness(java.lang.String,int) -> setLineThickness
    int getLineThickness(java.lang.String) -> getLineThickness
    void setLineStyle(java.lang.String,int) -> setLineStyle
    int getLineStyle(java.lang.String) -> getLineStyle
    void setFilling(java.lang.String,double) -> setFilling
    java.lang.String getGraphicsViewCheckSum(java.lang.String,java.lang.String) -> getGraphicsViewCheckSum
    double getFilling(java.lang.String) -> getFilling
    int getPointStyle(java.lang.String) -> getPointStyle
    void setPointSize(java.lang.String,int) -> setPointSize
    int getPointSize(java.lang.String) -> getPointSize
    void setPointStyle(java.lang.String,int) -> setPointStyle
    void setColor(java.lang.String,int,int,int) -> setColor
    void setPenColor(int,int,int) -> setPenColor
    void setPenSize(int) -> setPenSize
    int getPenSize() -> getPenSize
    java.lang.String getPenColor() -> getPenColor
    java.lang.String getColor(java.lang.String) -> getColor
    void deleteObject(java.lang.String) -> deleteObject
    boolean exists(java.lang.String) -> exists
    boolean renameObject(java.lang.String,java.lang.String) -> renameObject
    void setAnimating(java.lang.String,boolean) -> setAnimating
    void setAnimationSpeed(java.lang.String,double) -> setAnimationSpeed
    void startAnimation() -> startAnimation
    void stopAnimation() -> stopAnimation
    void hideCursorWhenDragging(boolean) -> hideCursorWhenDragging
    boolean isAnimationRunning() -> isAnimationRunning
    boolean isDefined(java.lang.String) -> isDefined
    boolean isIndependent(java.lang.String) -> isIndependent
    boolean isMoveable(java.lang.String) -> isMoveable
    java.lang.String getValueString(java.lang.String) -> getValueString
    java.lang.String getDefinitionString(java.lang.String) -> getDefinitionString
    java.lang.String getCommandString(java.lang.String) -> getCommandString
    double getXcoord(java.lang.String) -> getXcoord
    double getYcoord(java.lang.String) -> getYcoord
    void setCoords(java.lang.String,double,double) -> setCoords
    double getValue(java.lang.String) -> getValue
    void setValue(java.lang.String,double) -> setValue
    void setTextValue(java.lang.String,java.lang.String) -> setTextValue
    void setListValue(java.lang.String,double,double) -> setListValue
    void setRepaintingActive(boolean) -> setRepaintingActive
    boolean writePNGtoFile(java.lang.String,double,boolean,double) -> writePNGtoFile
    java.lang.String getPNGBase64(double,boolean,double) -> getPNGBase64
    void setCoordSystem(double,double,double,double) -> setCoordSystem
    void setAxesVisible(boolean,boolean) -> setAxesVisible
    void setGridVisible(boolean) -> setGridVisible
    java.lang.String[] getAllObjectNames() -> getAllObjectNames
    int getObjectNumber() -> getObjectNumber
    java.lang.String getObjectName(int) -> getObjectName
    java.lang.String getObjectType(java.lang.String) -> getObjectType
    void setMode(int) -> setMode
    void registerAddListener(java.lang.String) -> registerAddListener
    void unregisterAddListener(java.lang.String) -> unregisterAddListener
    void registerRemoveListener(java.lang.String) -> registerRemoveListener
    void unregisterRemoveListener(java.lang.String) -> unregisterRemoveListener
    void registerClearListener(java.lang.String) -> registerClearListener
    void unregisterClearListener(java.lang.String) -> unregisterClearListener
    void registerRenameListener(java.lang.String) -> registerRenameListener
    void unregisterRenameListener(java.lang.String) -> unregisterRenameListener
    void registerUpdateListener(java.lang.String) -> registerUpdateListener
    void unregisterUpdateListener(java.lang.String) -> unregisterUpdateListener
    void registerObjectUpdateListener(java.lang.String,java.lang.String) -> registerObjectUpdateListener
    void unregisterObjectUpdateListener(java.lang.String) -> unregisterObjectUpdateListener
    void registerClickListener(java.lang.String) -> registerClickListener
    void unregisterClickListener(java.lang.String) -> unregisterClickListener
    void registerClientListener(java.lang.String) -> registerClientListener
    void unregisterClientListener(java.lang.String) -> unregisterClientListener
    void registerObjectClickListener(java.lang.String,java.lang.String) -> registerObjectClickListener
    void unregisterObjectClickListener(java.lang.String) -> unregisterObjectClickListener
    void registerStoreUndoListener(java.lang.String) -> registerStoreUndoListener
    void drawToImage(java.lang.String,double[],double[]) -> drawToImage
    void clearImage(java.lang.String) -> clearImage
    double getListValue(java.lang.String,int) -> getListValue
    void setCorner(java.lang.String,double,double,int) -> setCorner
    void setCorner(java.lang.String,double,double) -> setCorner
    void setPerspective(java.lang.String) -> setPerspective
geogebra.common.plugin.Operation -> geogebra.common.plugin.Operation:
    geogebra.common.plugin.Operation NO_OPERATION -> NO_OPERATION
    geogebra.common.plugin.Operation NOT_EQUAL -> NOT_EQUAL
    geogebra.common.plugin.Operation NOT -> NOT
    geogebra.common.plugin.Operation OR -> OR
    geogebra.common.plugin.Operation AND -> AND
    geogebra.common.plugin.Operation AND_INTERVAL -> AND_INTERVAL
    geogebra.common.plugin.Operation IMPLICATION -> IMPLICATION
    geogebra.common.plugin.Operation EQUAL_BOOLEAN -> EQUAL_BOOLEAN
    geogebra.common.plugin.Operation LESS -> LESS
    geogebra.common.plugin.Operation GREATER -> GREATER
    geogebra.common.plugin.Operation LESS_EQUAL -> LESS_EQUAL
    geogebra.common.plugin.Operation GREATER_EQUAL -> GREATER_EQUAL
    geogebra.common.plugin.Operation PARALLEL -> PARALLEL
    geogebra.common.plugin.Operation PERPENDICULAR -> PERPENDICULAR
    geogebra.common.plugin.Operation IS_ELEMENT_OF -> IS_ELEMENT_OF
    geogebra.common.plugin.Operation IS_SUBSET_OF -> IS_SUBSET_OF
    geogebra.common.plugin.Operation IS_SUBSET_OF_STRICT -> IS_SUBSET_OF_STRICT
    geogebra.common.plugin.Operation SET_DIFFERENCE -> SET_DIFFERENCE
    geogebra.common.plugin.Operation PLUS -> PLUS
    geogebra.common.plugin.Operation MINUS -> MINUS
    geogebra.common.plugin.Operation VECTORPRODUCT -> VECTORPRODUCT
    geogebra.common.plugin.Operation MULTIPLY -> MULTIPLY
    geogebra.common.plugin.Operation MULTIPLY_OR_FUNCTION -> MULTIPLY_OR_FUNCTION
    geogebra.common.plugin.Operation DIVIDE -> DIVIDE
    geogebra.common.plugin.Operation POWER -> POWER
    geogebra.common.plugin.Operation FREEHAND -> FREEHAND
    geogebra.common.plugin.Operation COS -> COS
    geogebra.common.plugin.Operation SIN -> SIN
    geogebra.common.plugin.Operation TAN -> TAN
    geogebra.common.plugin.Operation EXP -> EXP
    geogebra.common.plugin.Operation LOG -> LOG
    geogebra.common.plugin.Operation ARCCOS -> ARCCOS
    geogebra.common.plugin.Operation ARCSIN -> ARCSIN
    geogebra.common.plugin.Operation ARCTAN -> ARCTAN
    geogebra.common.plugin.Operation ARCTAN2 -> ARCTAN2
    geogebra.common.plugin.Operation NROOT -> NROOT
    geogebra.common.plugin.Operation SQRT -> SQRT
    geogebra.common.plugin.Operation SQRT_SHORT -> SQRT_SHORT
    geogebra.common.plugin.Operation ABS -> ABS
    geogebra.common.plugin.Operation SGN -> SGN
    geogebra.common.plugin.Operation XCOORD -> XCOORD
    geogebra.common.plugin.Operation YCOORD -> YCOORD
    geogebra.common.plugin.Operation ZCOORD -> ZCOORD
    geogebra.common.plugin.Operation IMAGINARY -> IMAGINARY
    geogebra.common.plugin.Operation REAL -> REAL
    geogebra.common.plugin.Operation FRACTIONAL_PART -> FRACTIONAL_PART
    geogebra.common.plugin.Operation COSH -> COSH
    geogebra.common.plugin.Operation SINH -> SINH
    geogebra.common.plugin.Operation TANH -> TANH
    geogebra.common.plugin.Operation ACOSH -> ACOSH
    geogebra.common.plugin.Operation ASINH -> ASINH
    geogebra.common.plugin.Operation ATANH -> ATANH
    geogebra.common.plugin.Operation CSC -> CSC
    geogebra.common.plugin.Operation SEC -> SEC
    geogebra.common.plugin.Operation COT -> COT
    geogebra.common.plugin.Operation CSCH -> CSCH
    geogebra.common.plugin.Operation SECH -> SECH
    geogebra.common.plugin.Operation COTH -> COTH
    geogebra.common.plugin.Operation FLOOR -> FLOOR
    geogebra.common.plugin.Operation CEIL -> CEIL
    geogebra.common.plugin.Operation FACTORIAL -> FACTORIAL
    geogebra.common.plugin.Operation ROUND -> ROUND
    geogebra.common.plugin.Operation GAMMA -> GAMMA
    geogebra.common.plugin.Operation GAMMA_INCOMPLETE -> GAMMA_INCOMPLETE
    geogebra.common.plugin.Operation GAMMA_INCOMPLETE_REGULARIZED -> GAMMA_INCOMPLETE_REGULARIZED
    geogebra.common.plugin.Operation BETA -> BETA
    geogebra.common.plugin.Operation BETA_INCOMPLETE -> BETA_INCOMPLETE
    geogebra.common.plugin.Operation BETA_INCOMPLETE_REGULARIZED -> BETA_INCOMPLETE_REGULARIZED
    geogebra.common.plugin.Operation ERF -> ERF
    geogebra.common.plugin.Operation PSI -> PSI
    geogebra.common.plugin.Operation POLYGAMMA -> POLYGAMMA
    geogebra.common.plugin.Operation LOG10 -> LOG10
    geogebra.common.plugin.Operation LOG2 -> LOG2
    geogebra.common.plugin.Operation LOGB -> LOGB
    geogebra.common.plugin.Operation CI -> CI
    geogebra.common.plugin.Operation SI -> SI
    geogebra.common.plugin.Operation EI -> EI
    geogebra.common.plugin.Operation CBRT -> CBRT
    geogebra.common.plugin.Operation RANDOM -> RANDOM
    geogebra.common.plugin.Operation CONJUGATE -> CONJUGATE
    geogebra.common.plugin.Operation ARG -> ARG
    geogebra.common.plugin.Operation FUNCTION -> FUNCTION
    geogebra.common.plugin.Operation FUNCTION_NVAR -> FUNCTION_NVAR
    geogebra.common.plugin.Operation VEC_FUNCTION -> VEC_FUNCTION
    geogebra.common.plugin.Operation DERIVATIVE -> DERIVATIVE
    geogebra.common.plugin.Operation ELEMENT_OF -> ELEMENT_OF
    geogebra.common.plugin.Operation SUBSTITUTION -> SUBSTITUTION
    geogebra.common.plugin.Operation INTEGRAL -> INTEGRAL
    geogebra.common.plugin.Operation IF -> IF
    geogebra.common.plugin.Operation IF_ELSE -> IF_ELSE
    geogebra.common.plugin.Operation IF_LIST -> IF_LIST
    geogebra.common.plugin.Operation $VAR_ROW -> $VAR_ROW
    geogebra.common.plugin.Operation $VAR_COL -> $VAR_COL
    geogebra.common.plugin.Operation $VAR_ROW_COL -> $VAR_ROW_COL
    geogebra.common.plugin.Operation ARBCONST -> ARBCONST
    geogebra.common.plugin.Operation ARBINT -> ARBINT
    geogebra.common.plugin.Operation ARBCOMPLEX -> ARBCOMPLEX
    geogebra.common.plugin.Operation SUM -> SUM
    geogebra.common.plugin.Operation ZETA -> ZETA
    geogebra.common.plugin.Operation DIFF -> DIFF
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation -> $SWITCH_TABLE$geogebra$common$plugin$Operation
    geogebra.common.plugin.Operation[] ENUM$VALUES -> ENUM$VALUES
    boolean isSimpleFunction(geogebra.common.plugin.Operation) -> a
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
    boolean isPlusorMinus() -> a
    boolean isInequality() -> b
    geogebra.common.plugin.Operation negate() -> a
    geogebra.common.plugin.Operation reverseLeftToRight() -> b
    boolean integralIsNonContinuous(geogebra.common.plugin.Operation) -> b
    geogebra.common.plugin.Operation[] values() -> values
    geogebra.common.plugin.Operation valueOf(java.lang.String) -> valueOf
    int[] $SWITCH_TABLE$geogebra$common$plugin$Operation() -> a
geogebra.common.plugin.Operation$1 -> geogebra.common.plugin.f:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$10 -> geogebra.common.plugin.g:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$100 -> geogebra.common.plugin.h:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$11 -> geogebra.common.plugin.i:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$12 -> geogebra.common.plugin.j:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$13 -> geogebra.common.plugin.k:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$14 -> geogebra.common.plugin.l:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$15 -> geogebra.common.plugin.m:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$16 -> geogebra.common.plugin.n:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$17 -> geogebra.common.plugin.o:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$18 -> geogebra.common.plugin.p:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$19 -> geogebra.common.plugin.q:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$2 -> geogebra.common.plugin.r:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$20 -> geogebra.common.plugin.s:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$21 -> geogebra.common.plugin.t:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$22 -> geogebra.common.plugin.u:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$23 -> geogebra.common.plugin.v:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$24 -> geogebra.common.plugin.w:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$25 -> geogebra.common.plugin.x:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$26 -> geogebra.common.plugin.y:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$27 -> geogebra.common.plugin.z:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$28 -> geogebra.common.plugin.A:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$29 -> geogebra.common.plugin.B:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$3 -> geogebra.common.plugin.C:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$30 -> geogebra.common.plugin.D:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$31 -> geogebra.common.plugin.E:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$32 -> geogebra.common.plugin.F:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$33 -> geogebra.common.plugin.G:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$34 -> geogebra.common.plugin.H:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$35 -> geogebra.common.plugin.I:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$36 -> geogebra.common.plugin.J:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$37 -> geogebra.common.plugin.K:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$38 -> geogebra.common.plugin.L:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$39 -> geogebra.common.plugin.M:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$4 -> geogebra.common.plugin.N:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$40 -> geogebra.common.plugin.O:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$41 -> geogebra.common.plugin.P:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$42 -> geogebra.common.plugin.Q:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$43 -> geogebra.common.plugin.R:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$44 -> geogebra.common.plugin.S:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$45 -> geogebra.common.plugin.T:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$46 -> geogebra.common.plugin.U:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$47 -> geogebra.common.plugin.V:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$48 -> geogebra.common.plugin.W:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$49 -> geogebra.common.plugin.X:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$5 -> geogebra.common.plugin.Y:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$50 -> geogebra.common.plugin.Z:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$51 -> geogebra.common.plugin.aa:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$52 -> geogebra.common.plugin.ab:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$53 -> geogebra.common.plugin.ac:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$54 -> geogebra.common.plugin.ad:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$55 -> geogebra.common.plugin.ae:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$56 -> geogebra.common.plugin.af:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$57 -> geogebra.common.plugin.ag:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$58 -> geogebra.common.plugin.ah:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$59 -> geogebra.common.plugin.ai:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$6 -> geogebra.common.plugin.aj:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$60 -> geogebra.common.plugin.ak:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$61 -> geogebra.common.plugin.al:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$62 -> geogebra.common.plugin.am:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$63 -> geogebra.common.plugin.an:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$64 -> geogebra.common.plugin.ao:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$65 -> geogebra.common.plugin.ap:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$66 -> geogebra.common.plugin.aq:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$67 -> geogebra.common.plugin.ar:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$68 -> geogebra.common.plugin.as:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$69 -> geogebra.common.plugin.at:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$7 -> geogebra.common.plugin.au:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$70 -> geogebra.common.plugin.av:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$71 -> geogebra.common.plugin.aw:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$72 -> geogebra.common.plugin.ax:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$73 -> geogebra.common.plugin.ay:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$74 -> geogebra.common.plugin.az:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$75 -> geogebra.common.plugin.aA:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$76 -> geogebra.common.plugin.aB:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$77 -> geogebra.common.plugin.aC:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$78 -> geogebra.common.plugin.aD:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$79 -> geogebra.common.plugin.aE:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$8 -> geogebra.common.plugin.aF:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$80 -> geogebra.common.plugin.aG:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$81 -> geogebra.common.plugin.aH:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$82 -> geogebra.common.plugin.aI:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$83 -> geogebra.common.plugin.aJ:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$84 -> geogebra.common.plugin.aK:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$85 -> geogebra.common.plugin.aL:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$86 -> geogebra.common.plugin.aM:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$87 -> geogebra.common.plugin.aN:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$88 -> geogebra.common.plugin.aO:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$89 -> geogebra.common.plugin.aP:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$9 -> geogebra.common.plugin.aQ:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$90 -> geogebra.common.plugin.aR:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$91 -> geogebra.common.plugin.aS:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$92 -> geogebra.common.plugin.aT:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$93 -> geogebra.common.plugin.aU:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$94 -> geogebra.common.plugin.aV:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$95 -> geogebra.common.plugin.aW:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$96 -> geogebra.common.plugin.aX:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$97 -> geogebra.common.plugin.aY:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$98 -> geogebra.common.plugin.aZ:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.Operation$99 -> geogebra.common.plugin.ba:
    geogebra.common.kernel.arithmetic.ExpressionValue handle(geogebra.common.kernel.arithmetic.ExpressionNodeEvaluator,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.arithmetic.ExpressionValue,geogebra.common.kernel.StringTemplate,boolean) -> a
geogebra.common.plugin.ScriptError -> geogebra.common.plugin.bb:
    java.lang.String message -> a
    java.lang.String getScriptError() -> a
geogebra.common.plugin.ScriptManager -> geogebra.common.plugin.bc:
    geogebra.common.main.App app -> a
    boolean listenersEnabled -> a
    java.util.HashMap updateListenerMap -> a
    java.util.HashMap clickListenerMap -> b
    java.util.ArrayList addListeners -> a
    java.util.ArrayList storeUndoListeners -> b
    java.util.ArrayList removeListeners -> c
    java.util.ArrayList renameListeners -> d
    java.util.ArrayList updateListeners -> e
    java.util.ArrayList clickListeners -> f
    java.util.ArrayList clearListeners -> g
    java.util.ArrayList clientListeners -> h
    int[] $SWITCH_TABLE$geogebra$common$plugin$EventType -> a
    void sendEvent(geogebra.common.plugin.Event) -> a
    java.lang.Object[] getArguments(geogebra.common.plugin.Event) -> a
    void callListeners(java.util.List,geogebra.common.plugin.Event) -> a
    void callClientListeners(java.util.List,geogebra.common.plugin.Event) -> b
    void callListener(java.lang.String,geogebra.common.plugin.Event) -> a
    void disableListeners() -> b
    void enableListeners() -> c
    void reset() -> a
    void registerAddListener(java.lang.String) -> a
    void registerStoreUndoListener(java.lang.String) -> b
    void registerGlobalListener(java.util.ArrayList,java.lang.String,java.lang.String) -> a
    void unregisterAddListener(java.lang.String) -> c
    void registerRemoveListener(java.lang.String) -> d
    void unregisterRemoveListener(java.lang.String) -> e
    void registerClearListener(java.lang.String) -> f
    void unregisterClearListener(java.lang.String) -> g
    void registerRenameListener(java.lang.String) -> h
    void unregisterRenameListener(java.lang.String) -> i
    void registerUpdateListener(java.lang.String) -> j
    void unregisterUpdateListener(java.lang.String) -> k
    void registerClickListener(java.lang.String) -> l
    void unregisterClickListener(java.lang.String) -> m
    void registerClientListener(java.lang.String) -> n
    void unregisterClientListener(java.lang.String) -> o
    java.util.HashMap registerObjectListener(java.util.HashMap,java.lang.String,java.lang.String) -> a
    void unregisterObjectListener(java.util.HashMap,java.lang.String) -> a
    void registerObjectUpdateListener(java.lang.String,java.lang.String) -> a
    void unregisterObjectUpdateListener(java.lang.String) -> p
    void registerObjectClickListener(java.lang.String,java.lang.String) -> b
    void unregisterObjectClickListener(java.lang.String) -> q
    void ggbOnInit() -> d
    void initJavaScript() -> e
    void callJavaScript(java.lang.String,java.lang.Object[]) -> a
    java.util.HashMap getUpdateListenerMap() -> a
    java.util.HashMap getClickListenerMap() -> b
    void setGlobalScript() -> f
    int[] $SWITCH_TABLE$geogebra$common$plugin$EventType() -> a
geogebra.common.plugin.ScriptType -> geogebra.common.plugin.ScriptType:
    geogebra.common.plugin.ScriptType GGBSCRIPT -> GGBSCRIPT
    geogebra.common.plugin.ScriptType JAVASCRIPT -> JAVASCRIPT
    java.lang.String name -> name
    java.lang.String xmlName -> xmlName
    java.util.HashMap xmlMap -> xmlMap
    geogebra.common.plugin.ScriptType[] ENUM$VALUES -> ENUM$VALUES
    geogebra.common.plugin.script.Script newScript(geogebra.common.main.App,java.lang.String) -> newScript
    java.lang.String getName() -> getName
    java.lang.String getXMLName() -> getXMLName
    geogebra.common.plugin.ScriptType getTypeWithXMLName(java.lang.String) -> getTypeWithXMLName
    geogebra.common.plugin.ScriptType[] values() -> values
    geogebra.common.plugin.ScriptType valueOf(java.lang.String) -> valueOf
geogebra.common.plugin.ScriptType$1 -> geogebra.common.plugin.bd:
    geogebra.common.plugin.script.Script newScript(geogebra.common.main.App,java.lang.String) -> newScript
geogebra.common.plugin.ScriptType$2 -> geogebra.common.plugin.be:
    geogebra.common.plugin.script.Script newScript(geogebra.common.main.App,java.lang.String) -> newScript
geogebra.common.plugin.UDPLogger -> geogebra.common.plugin.bf:
    void stopLogging() -> a
    boolean startLogging() -> a
    void registerGeo(java.lang.String,geogebra.common.kernel.geos.GeoNumeric) -> a
    void registerGeoList(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    void registerGeoList(java.lang.String,geogebra.common.kernel.geos.GeoList,double) -> a
geogebra.common.plugin.script.GgbScript -> geogebra.common.plugin.a.a:
    geogebra.common.kernel.commands.AlgebraProcessor proc -> a
    java.lang.String getText() -> a
    void run(geogebra.common.plugin.Event) -> a
    java.lang.String script2LocalizedScript(geogebra.common.main.App,java.lang.String) -> a
    boolean isFunction(java.lang.String[],int,geogebra.common.main.App) -> a
    java.lang.String localizedScript2Script(geogebra.common.main.App,java.lang.String) -> b
    java.lang.String[] splitScriptByCommands(java.lang.String) -> a
    boolean bracketAt(java.lang.String,int) -> a
    geogebra.common.plugin.ScriptType getType() -> a
    geogebra.common.plugin.script.Script copy() -> a
    boolean renameGeo(java.lang.String,java.lang.String) -> a
geogebra.common.plugin.script.JsScript -> geogebra.common.plugin.a.b:
    void run(geogebra.common.plugin.Event) -> a
    geogebra.common.plugin.ScriptType getType() -> a
    geogebra.common.plugin.script.Script copy() -> a
    boolean renameGeo(java.lang.String,java.lang.String) -> a
geogebra.common.plugin.script.Script -> geogebra.common.plugin.a.c:
    geogebra.common.main.App app -> a
    java.lang.String text -> a
    java.lang.String getText() -> a
    java.lang.String getInternalText() -> b
    void bind(geogebra.common.kernel.geos.GeoElement,geogebra.common.plugin.EventType) -> a
    void unbind(geogebra.common.kernel.geos.GeoElement,geogebra.common.plugin.EventType) -> b
    void run(geogebra.common.plugin.Event) -> a
    geogebra.common.plugin.ScriptType getType() -> a
    java.lang.Object getXMLName() -> a
    geogebra.common.plugin.script.Script copy() -> a
    boolean renameGeo(java.lang.String,java.lang.String) -> a
geogebra.common.sound.SoundManager -> geogebra.common.o.a:
    void pauseResumeSound(boolean) -> a
    void playSequenceNote(int,double,int,int) -> a
    void playSequenceFromString(java.lang.String,int) -> a
    void playFunction(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    void playFile(java.lang.String) -> a
    void playFunction(geogebra.common.kernel.geos.GeoFunction,double,double,int,int) -> a
geogebra.common.util.AsyncOperation -> geogebra.common.p.a:
    java.util.HashMap properties -> a
    void callback(java.lang.Object) -> a
geogebra.common.util.AutoCompleteDictionary -> geogebra.common.p.b:
    java.lang.String lookup(java.lang.String) -> a
    java.util.List getCompletions(java.lang.String) -> a
    java.util.List getCompletionsKorean(java.lang.String) -> b
geogebra.common.util.Base64 -> geogebra.common.p.c:
    java.lang.String encode(byte[],int) -> a
    byte[] decode(java.lang.String) -> a
geogebra.common.util.Cloner -> geogebra.common.p.d:
    double[] clone(double[]) -> a
    double[][] clone2(double[][]) -> a
geogebra.common.util.CommandInputField -> geogebra.common.p.e:
    java.lang.String getCommand() -> a
geogebra.common.util.Complex -> geogebra.common.p.f:
    geogebra.common.util.Complex ZERO -> a
    geogebra.common.util.Complex ONE -> b
    geogebra.common.util.Complex I -> c
    double[] ZERO_ -> a
    double[] ONE_ -> b
    double[] I_ -> c
    double[] z -> d
    double abs(double[]) -> a
    double[] add(double[],double[]) -> a
    double arg(double[]) -> b
    double[] divide(double,double[]) -> a
    double[] divide(double[],double[]) -> b
    double[] exp(double[]) -> a
    double[] gamma(double[]) -> b
    double[] ln(double[]) -> c
    double[] lnGamma(double[]) -> d
    double[] lnSin(double[]) -> e
    double[] multiply(double,double[]) -> b
    double[] multiply(double[],double[]) -> c
    double[] power(double,double[]) -> c
    double[] power(double[],double[]) -> d
    double[] sin(double[]) -> f
    double[] subtract(double[],double[]) -> e
    java.lang.String toString() -> toString
    java.lang.String toString(double[]) -> a
    java.lang.String toString(double[],java.text.DecimalFormat) -> a
geogebra.common.util.CopyPaste -> geogebra.common.p.g:
    geogebra.common.util.CopyPaste INSTANCE -> a
    java.util.HashSet copiedMacros -> a
    java.lang.StringBuilder copiedXML -> a
    java.util.ArrayList copiedXMLlabels -> a
    java.lang.StringBuilder copiedXMLforSameWindow -> b
    java.util.ArrayList copiedXMLlabelsforSameWindow -> b
    geogebra.common.euclidian.EuclidianViewInterfaceCommon copySource -> a
    java.lang.Object copyObject -> a
    java.lang.Object copyObject2 -> b
    boolean isEmpty() -> a
    void removeFixedSliders(java.util.ArrayList) -> b
    void removeDependentFromAxes(java.util.ArrayList,geogebra.common.main.App) -> a
    void removeHavingMacroPredecessors(java.util.ArrayList,boolean) -> a
    void addSubGeos(java.util.ArrayList) -> a
    java.util.ArrayList addPredecessorGeos(java.util.ArrayList) -> a
    java.util.ArrayList addAlgosDependentFromInside(java.util.ArrayList,boolean,boolean) -> a
    java.util.ArrayList removeFreeNonselectedGeoNumerics(java.util.ArrayList,java.util.ArrayList) -> a
    void beforeSavingToXML(java.util.ArrayList,java.util.ArrayList,boolean,boolean) -> a
    void afterSavingToXML(java.util.ArrayList,java.util.ArrayList,boolean) -> a
    void copyToXML(geogebra.common.main.App,java.util.ArrayList,boolean) -> a
    void handleLabels(geogebra.common.main.App,java.util.ArrayList,boolean) -> b
    boolean pasteFast(geogebra.common.main.App) -> a
    void pasteFromXML(geogebra.common.main.App,boolean) -> a
    void pastePutDownCallback(geogebra.common.main.App) -> a
geogebra.common.util.Country -> geogebra.common.p.h:
    geogebra.common.util.Country France -> a
    geogebra.common.util.Country UnitedKingdom -> b
    geogebra.common.util.Country UnitedStatesofAmerica -> c
    geogebra.common.util.Country Andorra -> d
    geogebra.common.util.Country UnitedArabEmirates -> e
    geogebra.common.util.Country Afghanistan -> f
    geogebra.common.util.Country AntiguaBarbuda -> g
    geogebra.common.util.Country Anguilla -> h
    geogebra.common.util.Country Albania -> i
    geogebra.common.util.Country Armenia -> j
    geogebra.common.util.Country NetherlandsAntilles -> k
    geogebra.common.util.Country Angola -> l
    geogebra.common.util.Country Argentina -> m
    geogebra.common.util.Country AmericanSamoa -> n
    geogebra.common.util.Country Austria -> o
    geogebra.common.util.Country Australia -> p
    geogebra.common.util.Country Aruba -> q
    geogebra.common.util.Country Azerbaijan -> r
    geogebra.common.util.Country BosniaandHerzegovina -> s
    geogebra.common.util.Country Barbados -> t
    geogebra.common.util.Country Bangladesh -> u
    geogebra.common.util.Country Belgium -> v
    geogebra.common.util.Country BurkinaFaso -> w
    geogebra.common.util.Country Bulgaria -> x
    geogebra.common.util.Country Bahrain -> y
    geogebra.common.util.Country Burundi -> z
    geogebra.common.util.Country Benin -> A
    geogebra.common.util.Country Bermuda -> B
    geogebra.common.util.Country BruneiDarussalam -> C
    geogebra.common.util.Country Bolivia -> D
    geogebra.common.util.Country Brazil -> E
    geogebra.common.util.Country Bahamas -> F
    geogebra.common.util.Country Bhutan -> G
    geogebra.common.util.Country BouvetIsland -> H
    geogebra.common.util.Country Botswana -> I
    geogebra.common.util.Country Belarus -> J
    geogebra.common.util.Country Belize -> K
    geogebra.common.util.Country Canada -> L
    geogebra.common.util.Country CentralAfricanRepublic -> M
    geogebra.common.util.Country Congo -> N
    geogebra.common.util.Country Switzerland -> O
    geogebra.common.util.Country CoteDivoire -> P
    geogebra.common.util.Country CookIslands -> Q
    geogebra.common.util.Country Chile -> R
    geogebra.common.util.Country Cameroon -> S
    geogebra.common.util.Country China -> T
    geogebra.common.util.Country Colombia -> U
    geogebra.common.util.Country CostaRica -> V
    geogebra.common.util.Country Cuba -> W
    geogebra.common.util.Country CapeVerde -> X
    geogebra.common.util.Country ChristmasIsland -> Y
    geogebra.common.util.Country Cyprus -> Z
    geogebra.common.util.Country CzechRepublic -> aa
    geogebra.common.util.Country Germany -> ab
    geogebra.common.util.Country Djibouti -> ac
    geogebra.common.util.Country Denmark -> ad
    geogebra.common.util.Country Dominica -> ae
    geogebra.common.util.Country DominicanRepublic -> af
    geogebra.common.util.Country Algeria -> ag
    geogebra.common.util.Country Ecuador -> ah
    geogebra.common.util.Country Estonia -> ai
    geogebra.common.util.Country Egypt -> aj
    geogebra.common.util.Country WesternSahara -> ak
    geogebra.common.util.Country Eritrea -> al
    geogebra.common.util.Country Spain -> am
    geogebra.common.util.Country Ethiopia -> an
    geogebra.common.util.Country Finland -> ao
    geogebra.common.util.Country Fiji -> ap
    geogebra.common.util.Country FalklandIslands -> aq
    geogebra.common.util.Country Micronesia -> ar
    geogebra.common.util.Country FaroeIslands -> as
    geogebra.common.util.Country Gabon -> at
    geogebra.common.util.Country Grenada -> au
    geogebra.common.util.Country Georgia -> av
    geogebra.common.util.Country Ghana -> aw
    geogebra.common.util.Country Gibraltar -> ax
    geogebra.common.util.Country Greenland -> ay
    geogebra.common.util.Country Gambia -> az
    geogebra.common.util.Country Guinea -> aA
    geogebra.common.util.Country EquatorialGuinea -> aB
    geogebra.common.util.Country Greece -> aC
    geogebra.common.util.Country SouthGeorgiaandtheSouthSandwichIslands -> aD
    geogebra.common.util.Country Guatemala -> aE
    geogebra.common.util.Country Guam -> aF
    geogebra.common.util.Country GuineaBissau -> aG
    geogebra.common.util.Country Guyana -> aH
    geogebra.common.util.Country HongKong -> aI
    geogebra.common.util.Country HeardMcDonaldIslands -> aJ
    geogebra.common.util.Country Honduras -> aK
    geogebra.common.util.Country Croatia -> aL
    geogebra.common.util.Country Haiti -> aM
    geogebra.common.util.Country Hungary -> aN
    geogebra.common.util.Country Indonesia -> aO
    geogebra.common.util.Country Ireland -> aP
    geogebra.common.util.Country Israel -> aQ
    geogebra.common.util.Country India -> aR
    geogebra.common.util.Country BritishIndianOceanTerritory -> aS
    geogebra.common.util.Country Iraq -> aT
    geogebra.common.util.Country IranIslamicRepublicof -> aU
    geogebra.common.util.Country Iceland -> aV
    geogebra.common.util.Country Italy -> aW
    geogebra.common.util.Country Jamaica -> aX
    geogebra.common.util.Country Jordan -> aY
    geogebra.common.util.Country Japan -> aZ
    geogebra.common.util.Country Kenya -> ba
    geogebra.common.util.Country Kyrgyzstan -> bb
    geogebra.common.util.Country Cambodia -> bc
    geogebra.common.util.Country Kiribati -> bd
    geogebra.common.util.Country Comoros -> be
    geogebra.common.util.Country StKittsandNevis -> bf
    geogebra.common.util.Country KoreaDemocraticPeoplesRepublicof -> bg
    geogebra.common.util.Country KoreaRepublicof -> bh
    geogebra.common.util.Country Kuwait -> bi
    geogebra.common.util.Country CaymanIslands -> bj
    geogebra.common.util.Country Kazakhstan -> bk
    geogebra.common.util.Country LaoPeoplesDemocraticRepublic -> bl
    geogebra.common.util.Country Lebanon -> bm
    geogebra.common.util.Country SaintLucia -> bn
    geogebra.common.util.Country Liechtenstein -> bo
    geogebra.common.util.Country SriLanka -> bp
    geogebra.common.util.Country Liberia -> bq
    geogebra.common.util.Country Lesotho -> br
    geogebra.common.util.Country Lithuania -> bs
    geogebra.common.util.Country Luxembourg -> bt
    geogebra.common.util.Country Latvia -> bu
    geogebra.common.util.Country Libya -> bv
    geogebra.common.util.Country Morocco -> bw
    geogebra.common.util.Country Monaco -> bx
    geogebra.common.util.Country MoldovaRepublicof -> by
    geogebra.common.util.Country Madagascar -> bz
    geogebra.common.util.Country MarshallIslands -> bA
    geogebra.common.util.Country Mali -> bB
    geogebra.common.util.Country Mongolia -> bC
    geogebra.common.util.Country Myanmar -> bD
    geogebra.common.util.Country Macau -> bE
    geogebra.common.util.Country NorthernMarianaIslands -> bF
    geogebra.common.util.Country Mauritania -> bG
    geogebra.common.util.Country Monserrat -> bH
    geogebra.common.util.Country Malta -> bI
    geogebra.common.util.Country Mauritius -> bJ
    geogebra.common.util.Country Maldives -> bK
    geogebra.common.util.Country Malawi -> bL
    geogebra.common.util.Country Mexico -> bM
    geogebra.common.util.Country Malaysia -> bN
    geogebra.common.util.Country Mozambique -> bO
    geogebra.common.util.Country Namibia -> bP
    geogebra.common.util.Country NewCaledonia -> bQ
    geogebra.common.util.Country Niger -> bR
    geogebra.common.util.Country NorfolkIsland -> bS
    geogebra.common.util.Country Nigeria -> bT
    geogebra.common.util.Country Nicaragua -> bU
    geogebra.common.util.Country Netherlands -> bV
    geogebra.common.util.Country Norway -> bW
    geogebra.common.util.Country Nepal -> bX
    geogebra.common.util.Country Nauru -> bY
    geogebra.common.util.Country Niue -> bZ
    geogebra.common.util.Country NewZealand -> ca
    geogebra.common.util.Country Oman -> cb
    geogebra.common.util.Country Panama -> cc
    geogebra.common.util.Country Peru -> cd
    geogebra.common.util.Country PapuaNewGuinea -> ce
    geogebra.common.util.Country Philippines -> cf
    geogebra.common.util.Country Pakistan -> cg
    geogebra.common.util.Country Poland -> ch
    geogebra.common.util.Country Pitcairn -> ci
    geogebra.common.util.Country PuertoRico -> cj
    geogebra.common.util.Country Portugal -> ck
    geogebra.common.util.Country Palau -> cl
    geogebra.common.util.Country Paraguay -> cm
    geogebra.common.util.Country Qatar -> cn
    geogebra.common.util.Country Romania -> co
    geogebra.common.util.Country RussianFederation -> cp
    geogebra.common.util.Country Rwanda -> cq
    geogebra.common.util.Country SaudiArabia -> cr
    geogebra.common.util.Country SolomonIslands -> cs
    geogebra.common.util.Country Seychelles -> ct
    geogebra.common.util.Country Sudan -> cu
    geogebra.common.util.Country Sweden -> cv
    geogebra.common.util.Country Singapore -> cw
    geogebra.common.util.Country StHelena -> cx
    geogebra.common.util.Country Slovenia -> cy
    geogebra.common.util.Country SvalbardJanMayenIslands -> cz
    geogebra.common.util.Country Slovakia -> cA
    geogebra.common.util.Country SierraLeone -> cB
    geogebra.common.util.Country SanMarino -> cC
    geogebra.common.util.Country Senegal -> cD
    geogebra.common.util.Country Somalia -> cE
    geogebra.common.util.Country Suriname -> cF
    geogebra.common.util.Country SaoTomePrincipe -> cG
    geogebra.common.util.Country ElSalvador -> cH
    geogebra.common.util.Country Syria -> cI
    geogebra.common.util.Country Swaziland -> cJ
    geogebra.common.util.Country TurksCaicosIslands -> cK
    geogebra.common.util.Country Chad -> cL
    geogebra.common.util.Country Togo -> cM
    geogebra.common.util.Country Thailand -> cN
    geogebra.common.util.Country Tajikistan -> cO
    geogebra.common.util.Country Tokelau -> cP
    geogebra.common.util.Country Turkmenistan -> cQ
    geogebra.common.util.Country Tunisia -> cR
    geogebra.common.util.Country Tonga -> cS
    geogebra.common.util.Country EastTimor -> cT
    geogebra.common.util.Country Turkey -> cU
    geogebra.common.util.Country TrinidadTobago -> cV
    geogebra.common.util.Country Tuvalu -> cW
    geogebra.common.util.Country TaiwanProvinceofChina -> cX
    geogebra.common.util.Country Tanzania -> cY
    geogebra.common.util.Country Ukraine -> cZ
    geogebra.common.util.Country Uganda -> da
    geogebra.common.util.Country Uruguay -> db
    geogebra.common.util.Country Uzbekistan -> dc
    geogebra.common.util.Country VaticanCityState -> dd
    geogebra.common.util.Country StVincenttheGrenadines -> de
    geogebra.common.util.Country Venezuela -> df
    geogebra.common.util.Country BritishVirginIslands -> dg
    geogebra.common.util.Country UnitedStatesVirginIslands -> dh
    geogebra.common.util.Country VietNam -> di
    geogebra.common.util.Country Vanuatu -> dj
    geogebra.common.util.Country WallisFutunaIslands -> dk
    geogebra.common.util.Country Samoa -> dl
    geogebra.common.util.Country Yemen -> dm
    geogebra.common.util.Country Mayotte -> dn
    geogebra.common.util.Country Yugoslavia -> do
    geogebra.common.util.Country SouthAfrica -> dp
    geogebra.common.util.Country Zambia -> dq
    geogebra.common.util.Country Zimbabwe -> dr
    geogebra.common.util.Country Macedonia -> ds
    geogebra.common.util.Country Serbia -> dt
    geogebra.common.util.Country Palestine -> du
    geogebra.common.util.Country SouthSudan -> dv
    geogebra.common.util.Country CongoDemocraticRepublicOf -> dw
    java.lang.String iso -> a
    java.lang.String name -> b
    geogebra.common.util.Country defaultCountry -> dx
    geogebra.common.util.Country[] ENUM$VALUES -> a
    java.lang.String getISO() -> a
    java.lang.String toString() -> toString
    geogebra.common.util.Country[] values() -> values
    geogebra.common.util.Country valueOf(java.lang.String) -> valueOf
geogebra.common.util.DoubleWithError -> geogebra.common.p.i:
    double value -> a
    double error -> b
    boolean asymmetricError -> a
    double minError -> c
    double getError() -> a
    double getPlusError() -> b
    double getMinError() -> c
    boolean hasAsymmetricError() -> a
    double getValue() -> d
    java.lang.String toString() -> toString
geogebra.common.util.GStringTokenizer -> geogebra.common.p.j:
    int cursor -> a
    java.lang.String st -> a
    char split -> a
    boolean hasMoreTokens() -> a
    java.lang.String nextToken() -> a
geogebra.common.util.GgbMat -> geogebra.common.p.k:
    boolean isUndefined -> a
    void inverseImmediate() -> a
    double determinant() -> a
    void reducedRowEchelonFormImmediate() -> b
    void getGeoList(geogebra.common.kernel.geos.GeoList,geogebra.common.kernel.Construction) -> a
    void getMyList(geogebra.common.kernel.arithmetic.MyList,geogebra.common.kernel.Kernel) -> a
    boolean isUndefined() -> W_
    void setIsUndefined(boolean) -> a
    boolean hasOnlyIntegers() -> b
    void set3x3fromConic(double[]) -> a
geogebra.common.util.HttpRequest -> geogebra.common.p.l:
    int DEFAULT_TIMEOUT -> a
    int timeout -> b
    boolean processed -> a
    java.lang.Boolean success -> a
    java.lang.String responseText -> a
    java.lang.String getResponse() -> a
    void sendRequest(java.lang.String) -> a
    void sendRequestPost(java.lang.String,java.lang.String,geogebra.common.move.ggtapi.models.AjaxCallback) -> a
    void setTimeout(java.lang.Integer) -> a
    java.lang.String sendRequestGetResponseSync(java.lang.String) -> a
geogebra.common.util.ImageManager -> geogebra.common.p.m:
    java.lang.String createImage(java.lang.String,geogebra.common.main.App) -> a
geogebra.common.util.IndexHTMLBuilder -> geogebra.common.p.n:
    java.lang.StringBuilder sb -> a
    boolean needsTag -> a
    void append(java.lang.String) -> a
    void startIndex() -> a
    void endIndex() -> b
    java.lang.String toString() -> toString
    void clear() -> c
    boolean canAppendRawHtml() -> a
    void appendHTML(java.lang.String) -> b
geogebra.common.util.Korean -> geogebra.common.p.o:
    java.lang.StringBuilder sb -> a
    java.util.HashMap koreanLeadToTail -> a
    void init() -> a
    java.lang.String flattenKorean(java.lang.String) -> a
    boolean isKoreanMultiChar(char) -> a
    boolean isKoreanLeadChar(char) -> b
    boolean isKoreanVowelChar(char) -> c
    void appendKoreanMultiChar(java.lang.StringBuilder,char) -> a
    java.lang.String mergeDoubleCharacters(java.lang.String) -> b
geogebra.common.util.LaTeXCache -> geogebra.common.p.p:
    void remove() -> a
    java.lang.Object getCachedLaTeXKey(java.lang.String,int,int,geogebra.common.awt.GColor) -> a
geogebra.common.util.Language -> geogebra.common.p.q:
    geogebra.common.util.Language Armenian -> a
    geogebra.common.util.Language Albanian -> b
    geogebra.common.util.Language Arabic -> c
    geogebra.common.util.Language Arabic_Morocco -> d
    geogebra.common.util.Language Arabic_Tunisia -> e
    geogebra.common.util.Language Basque -> f
    geogebra.common.util.Language Bosnian -> g
    geogebra.common.util.Language Bulgarian -> h
    geogebra.common.util.Language Catalan -> i
    geogebra.common.util.Language Valencian -> j
    geogebra.common.util.Language Chinese_Simplified -> k
    geogebra.common.util.Language Chinese_Traditional -> l
    geogebra.common.util.Language Croatian -> m
    geogebra.common.util.Language Czech -> n
    geogebra.common.util.Language Danish -> o
    geogebra.common.util.Language Dutch -> p
    geogebra.common.util.Language Dutch_Belgium -> q
    geogebra.common.util.Language English_US -> r
    geogebra.common.util.Language English_UK -> s
    geogebra.common.util.Language English_Australia -> t
    geogebra.common.util.Language Estonian -> u
    geogebra.common.util.Language Filipino -> v
    geogebra.common.util.Language Finnish -> w
    geogebra.common.util.Language French -> x
    geogebra.common.util.Language Galician -> y
    geogebra.common.util.Language Georgian -> z
    geogebra.common.util.Language German -> A
    geogebra.common.util.Language German_Austria -> B
    geogebra.common.util.Language Greek -> C
    geogebra.common.util.Language Hebrew -> D
    geogebra.common.util.Language Hindi -> E
    geogebra.common.util.Language Hungarian -> F
    geogebra.common.util.Language Icelandic -> G
    geogebra.common.util.Language Indonesian -> H
    geogebra.common.util.Language Italian -> I
    geogebra.common.util.Language Japanese -> J
    geogebra.common.util.Language Kazakh -> K
    geogebra.common.util.Language Korean -> L
    geogebra.common.util.Language Latvian -> M
    geogebra.common.util.Language Lithuanian -> N
    geogebra.common.util.Language Malay -> O
    geogebra.common.util.Language Macedonian -> P
    geogebra.common.util.Language Mongolian -> Q
    geogebra.common.util.Language Nepalese -> R
    geogebra.common.util.Language Norwegian_Bokmal -> S
    geogebra.common.util.Language Norwegian_Nynorsk -> T
    geogebra.common.util.Language Persian -> U
    geogebra.common.util.Language Polish -> V
    geogebra.common.util.Language Portuguese_Brazil -> W
    geogebra.common.util.Language Portuguese_Portugal -> X
    geogebra.common.util.Language Romanian -> Y
    geogebra.common.util.Language Russian -> Z
    geogebra.common.util.Language Sinhala -> aa
    geogebra.common.util.Language Serbian -> ab
    geogebra.common.util.Language Slovak -> ac
    geogebra.common.util.Language Slovenian -> ad
    geogebra.common.util.Language Spanish -> ae
    geogebra.common.util.Language Spanish_UY -> af
    geogebra.common.util.Language Spanish_ES -> ag
    geogebra.common.util.Language Swedish -> ah
    geogebra.common.util.Language Tamil -> ai
    geogebra.common.util.Language Thai -> aj
    geogebra.common.util.Language Turkish -> ak
    geogebra.common.util.Language Ukrainian -> al
    geogebra.common.util.Language Uyghur -> am
    geogebra.common.util.Language Vietnamese -> an
    geogebra.common.util.Language Welsh -> ao
    geogebra.common.util.Language Yiddish -> ap
    java.lang.String localeGWT -> a
    java.lang.String locale -> b
    java.lang.String name -> c
    geogebra.common.util.Country[] countries -> a
    java.lang.String flagName -> d
    boolean fullyTranslated -> a
    java.lang.String testChar -> e
    java.lang.String currency -> f
    java.lang.String countryFromGeoIP -> g
    geogebra.common.util.Language[] ENUM$VALUES -> a
    java.lang.String getCountry(geogebra.common.main.App,java.lang.String,java.lang.String,boolean) -> a
    geogebra.common.util.Language getLanguage(java.lang.String) -> a
    java.lang.String getDisplayName(java.lang.String) -> a
    java.lang.String getTestChar(java.lang.String) -> b
    geogebra.common.util.Language[] values() -> values
    geogebra.common.util.Language valueOf(java.lang.String) -> valueOf
geogebra.common.util.LowerCaseDictionary -> geogebra.common.p.r:
    java.util.TreeSet treeSet -> a
    geogebra.common.util.NormalizerMinimal normalizer -> a
    void addEntry(java.lang.String) -> a
    boolean removeEntry(java.lang.String) -> a
    java.util.Iterator getIterator() -> a
    java.lang.String lookup(java.lang.String) -> a
    java.util.List getCompletions(java.lang.String) -> a
    java.util.List getCompletionsKorean(java.lang.String) -> b
    void clear() -> clear
geogebra.common.util.MaxSizeHashMap -> geogebra.common.p.s:
    int maxSize -> a
    java.lang.Object put(java.lang.Object,java.lang.Object) -> put
geogebra.common.util.MyMath -> geogebra.common.p.t:
    double LOG10 -> a
    double LOG2 -> b
    double cbrt(double) -> a
    double sgn(geogebra.common.kernel.Kernel,double) -> a
    double cosh(double) -> b
    double sinh(double) -> c
    double tanh(double) -> d
    double csch(double) -> e
    double sech(double) -> f
    double coth(double) -> g
    double acosh(double) -> h
    double asinh(double) -> i
    double atanh(double) -> j
    double csc(double) -> k
    double sec(double) -> l
    double cot(double) -> m
    double[][] adjoint(double,double,double,double,double,double,double,double,double) -> a
    double nextMultiple(double,double) -> a
    double nextPrettyNumber(double) -> n
    double distancePointFunctionAt(geogebra.common.kernel.roots.RealRootFunction,double,double,double) -> a
    double length(double,double) -> b
    double lengthAbsNoZero(double,double) -> d
    double length(double,double,double) -> a
    double[][] multiply(double[][],double[][]) -> a
    double binomial(double,double) -> c
    double binomBig(double,double) -> e
    double binomLog(double,double) -> f
    double max(double[]) -> a
    double min(double[]) -> b
geogebra.common.util.MyMath2 -> geogebra.common.p.u:
    int factorialTop -> a
    double[] factorialTable -> a
    double C2sqrtPi -> b
    double EULER -> a
    double TMIN -> c
    int MAXIT -> b
    double gammaIncomplete(double,double) -> a
    double gammaIncompleteRegularized(double,double) -> b
    double beta(double,double) -> c
    double betaIncomplete(double,double,double) -> a
    double betaIncompleteRegularized(double,double,double) -> b
    double factorial(double) -> a
    double gamma(double) -> b
    double erf(double,double,double) -> c
    double inverf(double) -> c
    double psi(double) -> d
    double logGamma(double) -> e
    double polyGamma(geogebra.common.kernel.arithmetic.NumberValue,double) -> a
    org.apache.commons.math.complex.Complex cisi(double) -> a
    double ci(double) -> f
    double si(double) -> g
    double ei(double) -> h
    double erf(double) -> i
    double zeta(double) -> j
geogebra.common.util.MyMathExact -> geogebra.common.p.v:
geogebra.common.util.MyMathExact$MyDecimal -> geogebra.common.p.v$a:
    int fixedScale -> a
    int roundingMode -> b
    int getScale() -> a
    geogebra.common.util.MyMathExact$MyDecimal copy() -> a
    geogebra.common.util.MyMathExact$MyDecimal negate() -> b
    geogebra.common.util.MyMathExact$MyDecimal add(geogebra.common.util.MyMathExact$MyDecimal) -> a
    geogebra.common.util.MyMathExact$MyDecimal multiply(geogebra.common.util.MyMathExact$MyDecimal) -> b
    geogebra.common.util.MyMathExact$MyDecimal subtract(geogebra.common.util.MyMathExact$MyDecimal) -> c
    geogebra.common.util.MyMathExact$MyDecimal divide(geogebra.common.util.MyMathExact$MyDecimal) -> d
    geogebra.common.util.MyMathExact$MyDecimal sqrt() -> c
    java.math.BigDecimal negate() -> negate
geogebra.common.util.MyMathExact$MyDecimalMatrix -> geogebra.common.p.v$b:
    int fixedScale -> a
    int rowD -> b
    int colD -> c
    geogebra.common.util.MyMathExact$MyDecimal[][] data -> a
    boolean isSquare() -> a
    int getRowDimension() -> a
    int getColumnDimension() -> b
    int getScale() -> c
    geogebra.common.util.MyMathExact$MyDecimal getEntry(int,int) -> a
    void setEntry(int,int,geogebra.common.util.MyMathExact$MyDecimal) -> a
    geogebra.common.util.MyMathExact$MyDecimalMatrix copy() -> a
    geogebra.common.util.MyMathExact$MyDecimal[] getColumn(int) -> a
    void setColumn(int,geogebra.common.util.MyMathExact$MyDecimal[]) -> a
    geogebra.common.util.MyMathExact$MyDecimal[] getRow(int) -> b
    void setRow(int,geogebra.common.util.MyMathExact$MyDecimal[]) -> b
    geogebra.common.util.MyMathExact$MyDecimalMatrix multiply(geogebra.common.util.MyMathExact$MyDecimalMatrix) -> a
geogebra.common.util.NormalizerMinimal -> geogebra.common.p.w:
    java.util.HashMap hm -> a
    java.lang.String transform(java.lang.String) -> a
    java.lang.String transformStatic(java.lang.String,boolean) -> a
geogebra.common.util.NumberFormatAdapter -> geogebra.common.p.x:
    int getMaximumFractionDigits() -> getMaximumFractionDigits
    java.lang.String format(double) -> format
geogebra.common.util.PolyGamma -> geogebra.common.p.y:
    double klog10Of2 -> a
    double kDefaultWDTol -> b
    double[] bvalues -> a
    double[] dpsifn(double,int,int,int) -> a
    double psigamma(double,double) -> a
    double tetragamma(double) -> a
    double pentagamma(double) -> b
geogebra.common.util.Prover -> geogebra.common.p.z:
    int timeout -> a
    geogebra.common.util.Prover$ProverEngine engine -> a
    geogebra.common.kernel.Construction construction -> a
    geogebra.common.kernel.geos.GeoElement statement -> a
    geogebra.common.kernel.prover.AbstractProverReciosMethod reciosProver -> a
    java.util.HashSet ndgConditions -> a
    geogebra.common.util.Prover$ProofResult result -> a
    boolean returnExtraNDGs -> a
    java.util.List proveAutoOrder -> a
    java.util.List proveDetailsAutoOrder -> b
    geogebra.common.kernel.geos.GeoElement getStatement() -> a
    void setTimeout(int) -> a
    void setProverEngine(geogebra.common.util.Prover$ProverEngine) -> a
    void setConstruction(geogebra.common.kernel.Construction) -> a
    void setStatement(geogebra.common.kernel.geos.GeoElement) -> a
    void addNDGcondition(geogebra.common.util.Prover$NDGCondition) -> a
    void decideStatement() -> a
    geogebra.common.util.Prover$ProofResult override(geogebra.common.util.Prover$ProofResult) -> a
    void callEngine(geogebra.common.util.Prover$ProverEngine) -> b
    java.util.HashSet getNDGConditions() -> a
    geogebra.common.util.Prover$ProofResult getProofResult() -> a
    java.lang.Boolean getYesNoAnswer() -> a
    java.lang.String simplifiedXML(geogebra.common.kernel.Construction,geogebra.common.kernel.geos.GeoElement) -> a
    void compute() -> b
    geogebra.common.util.Prover$ProofResult openGeoProver(geogebra.common.util.Prover$ProverEngine) -> a
    boolean isReturnExtraNDGs() -> a
    void setReturnExtraNDGs(boolean) -> a
geogebra.common.util.Prover$NDGCondition -> geogebra.common.p.z$a:
    java.lang.String condition -> a
    double readability -> a
    geogebra.common.kernel.geos.GeoElement[] geos -> a
    double getReadability() -> a
    void setReadability(double) -> a
    java.lang.String getCondition() -> a
    void setCondition(java.lang.String) -> a
    geogebra.common.kernel.geos.GeoElement[] getGeos() -> a
    void setGeos(geogebra.common.kernel.geos.GeoElement[]) -> a
    int hashCode() -> hashCode
    boolean equals(java.lang.Object) -> equals
    geogebra.common.kernel.geos.GeoLine line(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoSegment segment(geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.geos.GeoPoint,geogebra.common.kernel.Construction) -> a
    void sortGeos() -> a
    void rewrite(geogebra.common.kernel.Construction) -> a
geogebra.common.util.Prover$NDGCondition$1 -> geogebra.common.p.A:
    geogebra.common.util.Prover$NDGCondition this$1 -> a
    int compare(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.common.util.Prover$ProofResult -> geogebra.common.p.z$b:
    geogebra.common.util.Prover$ProofResult TRUE -> a
    geogebra.common.util.Prover$ProofResult TRUE_NDG_UNREADABLE -> b
    geogebra.common.util.Prover$ProofResult FALSE -> c
    geogebra.common.util.Prover$ProofResult UNKNOWN -> d
    geogebra.common.util.Prover$ProofResult PROCESSING -> e
    geogebra.common.util.Prover$ProofResult[] ENUM$VALUES -> a
    geogebra.common.util.Prover$ProofResult[] values() -> values
    geogebra.common.util.Prover$ProofResult valueOf(java.lang.String) -> valueOf
geogebra.common.util.Prover$ProverEngine -> geogebra.common.p.z$c:
    geogebra.common.util.Prover$ProverEngine RECIOS_PROVER -> a
    geogebra.common.util.Prover$ProverEngine BOTANAS_PROVER -> b
    geogebra.common.util.Prover$ProverEngine OPENGEOPROVER_WU -> c
    geogebra.common.util.Prover$ProverEngine OPENGEOPROVER_AREA -> d
    geogebra.common.util.Prover$ProverEngine PURE_SYMBOLIC_PROVER -> e
    geogebra.common.util.Prover$ProverEngine AUTO -> f
    geogebra.common.util.Prover$ProverEngine[] ENUM$VALUES -> a
    geogebra.common.util.Prover$ProverEngine[] values() -> values
    geogebra.common.util.Prover$ProverEngine valueOf(java.lang.String) -> valueOf
geogebra.common.util.Riemann -> geogebra.common.p.B:
    double[] chi(double[]) -> a
    double[] zeta(double[]) -> b
geogebra.common.util.ScientificFormatAdapter -> geogebra.common.p.C:
    int getSigDigits() -> a
    void setSigDigits(int) -> a
    void setMaxWidth(int) -> b
    java.lang.String format(double) -> a
geogebra.common.util.SpreadsheetTraceSettings -> geogebra.common.p.D:
    int traceColumn1 -> a
    int traceColumn2 -> b
    int traceRow1 -> c
    int traceRow2 -> d
    int tracingRow -> e
    int numRows -> f
    int headerOffset -> g
    java.util.ArrayList lastTrace -> a
    boolean doColumnReset -> a
    boolean needsColumnReset -> b
    boolean doRowLimit -> c
    boolean showLabel -> d
    boolean showTraceList -> e
    boolean doTraceGeoCopy -> f
    boolean pause -> g
geogebra.common.util.StringUtil -> geogebra.common.p.E:
    char[] hexChar -> a
    geogebra.common.util.StringUtil prototype -> a
    java.lang.StringBuilder sb -> a
    java.lang.StringBuilder sbReplaceExp -> b
    java.lang.String convertToHex(byte[]) -> a
    java.lang.String toHexString(char) -> a
    java.lang.String toHexString(geogebra.common.awt.GColor) -> a
    java.lang.String toHTMLString(java.lang.String) -> a
    java.lang.String toHTMLString(java.lang.String,boolean) -> a
    java.lang.String encodeXML(java.lang.String) -> b
    void encodeXML(java.lang.StringBuilder,java.lang.String) -> a
    boolean isRightToLeftChar(char) -> a
    java.lang.String toLaTeXString(java.lang.String,boolean) -> b
    java.lang.String string(java.lang.String,int) -> a
    java.lang.String removeSpaces(java.lang.String) -> c
    java.lang.StringBuilder resetStringBuilder(java.lang.StringBuilder) -> a
    boolean isNumber(java.lang.String) -> a
    java.lang.String toLower(java.lang.String) -> d
    java.lang.String toUpper(java.lang.String) -> e
    java.lang.String toLowerCase(java.lang.String) -> f
    java.lang.String toUpperCase(java.lang.String) -> g
    double parseDouble(java.lang.String) -> a
    java.lang.String repeat(char,int) -> a
    boolean isLetterOrDigit(char) -> b
    boolean isLetterOrDigitOrUnderscore(char) -> c
    boolean isDigit(char) -> d
    boolean isLetter(char) -> e
    boolean isNotEqual(java.lang.String) -> b
    boolean isInequality(java.lang.String) -> c
    java.lang.String ignoreIndices(java.lang.String) -> h
    int checkBracketsBackward(java.lang.String) -> a
    java.lang.String fixVerticalBars(java.lang.String) -> i
    double estimateLengthHTML(java.lang.String,geogebra.common.awt.GFont) -> a
    double estimateLength(java.lang.String,geogebra.common.awt.GFont) -> b
    double estimateHeight(java.lang.String,geogebra.common.awt.GFont) -> c
    java.lang.Object format(java.lang.String,double,double,double,double) -> a
    java.lang.String wrapInExact(java.lang.String) -> j
    java.lang.String toHtmlColor(geogebra.common.awt.GColor) -> b
    java.util.ArrayList wholeWordTokenize(java.lang.String) -> a
    java.lang.String joinTokens(java.lang.Iterable,java.lang.String) -> a
    java.lang.String cannonicNumber(java.lang.String) -> k
    java.lang.String cannonicNumber2(java.lang.String) -> l
    boolean isWhitespace(char) -> f
    char processQuotes(java.lang.StringBuilder,java.lang.String,char) -> a
geogebra.common.util.TextObject -> geogebra.common.p.F:
    java.lang.String getText() -> getText
    void setText(java.lang.String) -> setText
    void wrapSetText(java.lang.String) -> b
geogebra.common.util.URLEncoder -> geogebra.common.p.G:
    java.lang.String encode(java.lang.String) -> a
geogebra.common.util.Unicode -> geogebra.common.p.H:
    java.lang.String degree -> a
    java.lang.String PI_STRING -> b
    java.lang.String CAS_OUTPUT_PREFIX_RTL -> c
    java.lang.String CAS_OUTPUT_PREFIX -> d
    java.lang.String CAS_OUTPUT_KEEPINPUT -> e
    java.lang.String CAS_OUTPUT_NUMERIC -> f
    boolean isSuperscriptDigit(char) -> a
    java.lang.String[] getSetOfSymbols(int,int) -> a
geogebra.common.util.Util -> geogebra.common.p.I:
    java.lang.String processFilename(java.lang.String) -> a
geogebra.common.util.Validation -> geogebra.common.p.J:
    geogebra.common.util.Validation validation -> a
    double validateDouble(geogebra.common.util.TextObject,double) -> a
    double validateDoublePositive(geogebra.common.util.TextObject,double) -> b
geogebra.common.util.Validation$1 -> geogebra.common.p.K:
    boolean checkInterval(double) -> a
geogebra.common.util.Validation$DoubleValidator -> geogebra.common.p.J$a:
    geogebra.common.util.Validation this$0 -> a
    double validateDouble(geogebra.common.util.TextObject,double) -> a
    boolean checkInterval(double) -> a
    double access$1(geogebra.common.util.Validation$DoubleValidator,geogebra.common.util.TextObject,double) -> a
geogebra.common.util.debug.GeoGebraProfiler -> geogebra.common.p.a.a:
    geogebra.common.util.debug.GeoGebraProfiler instance -> a
    int event -> a
    int cascades -> b
    long eventTime -> a
    long cascadeTime -> b
    void addUpdateCascade(long) -> a
    void addEvent(long) -> b
geogebra.common.util.debug.Log -> geogebra.common.p.a.b:
    geogebra.common.util.debug.Log logger -> a
    java.util.Set reportedImplementationNeeded -> a
    geogebra.common.util.debug.Log$Level EMERGENCY -> a
    geogebra.common.util.debug.Log$Level ALERT -> b
    geogebra.common.util.debug.Log$Level CRITICAL -> c
    geogebra.common.util.debug.Log$Level ERROR -> d
    geogebra.common.util.debug.Log$Level WARN -> e
    geogebra.common.util.debug.Log$Level NOTICE -> f
    geogebra.common.util.debug.Log$Level INFO -> g
    geogebra.common.util.debug.Log$Level DEBUG -> h
    geogebra.common.util.debug.Log$Level TRACE -> i
    java.lang.StringBuilder memoryLog -> a
    geogebra.common.util.debug.Log$Level logLevel -> j
    geogebra.common.util.debug.Log$LogDestination logDestination -> a
    boolean timeShown -> a
    boolean callerShown -> b
    java.lang.StringBuilder getEntireLog() -> a
    void setLogLevel(java.lang.String) -> a
    void setLogDestination(geogebra.common.util.debug.Log$LogDestination) -> a
    geogebra.common.util.debug.Log$LogDestination getLogDestination() -> a
    void setTimeShown(boolean) -> a
    void log(geogebra.common.util.debug.Log$Level,java.lang.String,int) -> a
    void print(java.lang.String,geogebra.common.util.debug.Log$Level) -> a
    void setLogFile(java.lang.String) -> b
    java.lang.String getTimeInfo() -> a
    java.lang.String getCaller(int) -> a
    void debug(java.lang.String) -> c
    void debug(java.lang.String,int) -> a
    void error(java.lang.String,int) -> b
    void notice(java.lang.String) -> d
    void debug(java.lang.Object) -> a
    void log(geogebra.common.util.debug.Log$Level,java.lang.String) -> a
    void info(java.lang.String) -> e
    void error(java.lang.String) -> f
    void warn(java.lang.String) -> g
    void trace(java.lang.String) -> h
geogebra.common.util.debug.Log$Level -> geogebra.common.p.a.b$a:
    int priority -> a
    java.lang.String text -> a
    geogebra.common.util.debug.Log this$0 -> a
    int getPriority() -> a
geogebra.common.util.debug.Log$LogDestination -> geogebra.common.p.a.b$b:
    geogebra.common.util.debug.Log$LogDestination FILE -> a
    geogebra.common.util.debug.Log$LogDestination CONSOLE -> b
    geogebra.common.util.debug.Log$LogDestination WEB_CONSOLE -> c
    geogebra.common.util.debug.Log$LogDestination CONSOLES -> d
    geogebra.common.util.debug.Log$LogDestination[] ENUM$VALUES -> a
    geogebra.common.util.debug.Log$LogDestination[] values() -> values
    geogebra.common.util.debug.Log$LogDestination valueOf(java.lang.String) -> valueOf
geogebra.common.util.opencsv.CSVException -> geogebra.common.p.b.a:
geogebra.common.util.opencsv.CSVParser -> geogebra.common.p.b.b:
    char separator -> a
    char quotechar -> b
    char escape -> c
    boolean strictQuotes -> a
    java.lang.String pending -> a
    boolean inField -> d
    boolean ignoreLeadingWhiteSpace -> b
    boolean ignoreQuotations -> c
    boolean anyCharactersAreTheSame(char,char,char) -> a
    boolean isSameCharacter(char,char) -> a
    java.lang.String[] parseLineMulti(java.lang.String) -> a
    java.lang.String[] parseLine(java.lang.String,boolean) -> a
    boolean isNextCharacterEscapedQuote(java.lang.String,boolean,int) -> b
    boolean isNextCharacterEscapable(java.lang.String,boolean,int) -> a
    boolean isAllWhiteSpace(java.lang.CharSequence) -> a
geogebra.euclidian.DrawEquationD -> geogebra.b.a:
    javax.swing.JLabel jl -> a
    boolean drawEquationJLaTeXMathFirstCall -> a
    java.lang.Object initJLaTeXMath -> a
    java.awt.Dimension drawEquationJLaTeXMath(geogebra.main.AppD,geogebra.common.kernel.geos.GeoElement,java.awt.Graphics2D,int,int,java.lang.String,geogebra.common.awt.GFont,boolean,java.awt.Color,java.awt.Color,boolean,java.lang.Integer,java.lang.Float) -> a
    void setUseJavaFontsForLaTeX(geogebra.common.main.App,boolean) -> a
    geogebra.common.awt.GDimension drawEquation(geogebra.common.main.App,geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GGraphics2D,int,int,java.lang.String,geogebra.common.awt.GFont,boolean,geogebra.common.awt.GColor,geogebra.common.awt.GColor,boolean,boolean) -> a
    java.awt.Dimension drawEquation(geogebra.main.AppD,geogebra.common.kernel.geos.GeoElement,java.awt.Graphics2D,int,int,java.lang.String,geogebra.common.awt.GFont,boolean,geogebra.common.awt.GColor,geogebra.common.awt.GColor,boolean,java.lang.Integer,java.lang.Float) -> a
    void drawLatexImageIcon(geogebra.main.AppD,javax.swing.ImageIcon,java.lang.String,java.awt.Font,boolean,java.awt.Color,java.awt.Color) -> a
geogebra.euclidian.EuclidianControllerD -> geogebra.b.b:
    geogebra.main.AppD getApplication() -> a
    void setView(geogebra.common.euclidian.EuclidianView) -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void initToolTipManager() -> i
    void resetToolTipManager() -> v
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
    void mouseWheelMoved(java.awt.event.MouseWheelEvent) -> mouseWheelMoved
    void addListenersTo(java.awt.Component) -> a
    geogebra.common.main.App getApplication() -> a
geogebra.euclidian.EuclidianControllerListeners -> geogebra.b.c:
    void addListenersTo(java.awt.Component) -> a
geogebra.euclidian.EuclidianStaticD -> geogebra.b.d:
    geogebra.common.awt.GRectangle doDrawMultilineLaTeX(geogebra.common.main.App,geogebra.common.awt.GGraphics2D,geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GGraphics2D,geogebra.common.awt.GFont,geogebra.common.awt.GColor,geogebra.common.awt.GColor,java.lang.String,int,int,boolean) -> b
    java.awt.BasicStroke getDefaultStrokeAwt() -> a
geogebra.euclidian.EuclidianStyleBarD -> geogebra.b.e:
    geogebra.common.euclidian.EuclidianController ec -> a
    geogebra.common.euclidian.EuclidianViewInterfaceCommon ev -> a
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.gui.color.ColorPopupMenuButton btnColor -> a
    geogebra.gui.color.ColorPopupMenuButton btnBgColor -> b
    geogebra.gui.color.ColorPopupMenuButton btnTextColor -> c
    geogebra.gui.util.PopupMenuButton btnLineStyle -> a
    geogebra.gui.util.PopupMenuButton btnPointStyle -> b
    geogebra.gui.util.PopupMenuButton btnTextSize -> c
    geogebra.gui.util.PopupMenuButton btnTableTextJustify -> d
    geogebra.gui.util.PopupMenuButton btnTableTextBracket -> e
    geogebra.gui.util.PopupMenuButton btnLabelStyle -> f
    geogebra.gui.util.PopupMenuButton btnPointCapture -> g
    geogebra.gui.util.MyToggleButton btnPen -> g
    geogebra.gui.util.MyToggleButton btnShowGrid -> a
    geogebra.gui.util.MyToggleButton btnStandardView -> b
    geogebra.gui.util.MyToggleButton btnShowAxes -> c
    geogebra.gui.util.MyToggleButton[] btnDeleteSize -> a
    geogebra.gui.util.MyToggleButton btnBold -> d
    geogebra.gui.util.MyToggleButton btnItalic -> e
    geogebra.gui.util.MyToggleButton btnDelete -> h
    geogebra.gui.util.MyToggleButton btnTableTextLinesV -> i
    geogebra.gui.util.MyToggleButton btnTableTextLinesH -> j
    geogebra.gui.util.MyToggleButton btnFixPosition -> f
    geogebra.gui.util.PopupMenuButton[] popupBtnList -> a
    geogebra.gui.util.MyToggleButton[] toggleBtnList -> b
    java.util.HashMap defaultGeoMap -> a
    java.util.ArrayList defaultGeos -> b
    geogebra.common.kernel.geos.GeoElement oldDefaultGeo -> a
    int iconHeight -> a
    java.awt.Dimension iconDimension -> a
    int mode -> b
    boolean isIniting -> a
    boolean needUndo -> b
    java.lang.Integer oldDefaultMode -> a
    boolean modeChanged -> c
    geogebra.common.kernel.algos.AlgoTableText tableText -> a
    java.util.HashMap lineStyleMap -> b
    java.util.HashMap pointStyleMap -> c
    geogebra.main.LocalizationD loc -> a
    boolean firstPaint -> d
    java.util.ArrayList activeGeoList -> a
    void updatePreferredSize() -> s
    void resetFirstPaint() -> e
    void paint(java.awt.Graphics) -> paint
    void createDefaultMap() -> g
    void setMode(int) -> a
    boolean isVisibleInThisView(geogebra.common.kernel.geos.GeoElement) -> a
    void restoreDefaultGeo() -> b
    void updateStyleBar() -> c
    void updateButtons() -> h
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> a
    void initGUI() -> t
    void setActionCommands() -> i
    void addButtons() -> u
    void addGraphicsDecorationsButtons() -> j
    void addBtnShowPlane() -> k
    geogebra.gui.util.PopupMenuButton[] newPopupBtnList() -> a
    geogebra.gui.util.MyToggleButton[] newToggleBtnList() -> a
    void addBtnPointCapture() -> l
    void addBtnRotateView() -> m
    void createButtons() -> n
    void createColorButton() -> o
    void createBgColorButton() -> p
    boolean checkGeoText(java.lang.Object[]) -> a
    void createTextButtons() -> q
    int getIconWidth(int) -> a
    int getIconWidth() -> b
    void createTableTextButtons() -> r
    void updateGUI() -> d
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void processSource(java.lang.Object,java.util.ArrayList) -> a
    void setDelSize(int) -> d
    void updateButtonPointCapture(int) -> b
    void setLabels() -> a
    int getPointCaptureSelectedIndex() -> a
    geogebra.gui.util.PopupMenuButton getBtnPointStyle() -> a
    void selectPointStyle(int) -> c
    void reinit() -> f
geogebra.euclidian.EuclidianStyleBarD$1 -> geogebra.b.f:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$10 -> geogebra.b.g:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    java.awt.Dimension val$bgColorIconSize -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$11 -> geogebra.b.h:
    java.awt.Color geoColor -> a
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    java.awt.Dimension val$textColorIconSize -> a
    void update(java.lang.Object[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.euclidian.EuclidianStyleBarD$12 -> geogebra.b.i:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$13 -> geogebra.b.j:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$14 -> geogebra.b.k:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$15 -> geogebra.b.l:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$16 -> geogebra.b.m:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$17 -> geogebra.b.n:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$18 -> geogebra.b.o:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$2 -> geogebra.b.p:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$3 -> geogebra.b.q:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$4 -> geogebra.b.r:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    java.awt.Dimension val$lineStyleIconSize -> a
    void update(java.lang.Object[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.euclidian.EuclidianStyleBarD$5 -> geogebra.b.s:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    java.awt.Dimension val$pointStyleIconSize -> a
    void update(java.lang.Object[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.euclidian.EuclidianStyleBarD$6 -> geogebra.b.t:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.euclidian.EuclidianStyleBarD$7 -> geogebra.b.u:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.euclidian.EuclidianStyleBarD$8 -> geogebra.b.v:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
    boolean checkGeos(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$9 -> geogebra.b.w:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianStyleBarD$MyToggleButtonVisibleIfNoGeo -> geogebra.b.e$a:
    geogebra.euclidian.EuclidianStyleBarD this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra.euclidian.EuclidianViewD -> geogebra.b.x:
    java.awt.RenderingHints defRenderingHints -> a
    java.awt.Image resetImage -> a
    java.awt.Image playImage -> b
    java.awt.Image pauseImage -> c
    java.awt.Cursor defaultCursor -> a
    geogebra.euclidian.EuclidianViewJPanel evjpanel -> a
    java.awt.Graphics2D g2Dtemp -> a
    boolean printScaleString -> l
    void initView(boolean) -> m
    void setDragCursor() -> I
    void setTransparentCursor() -> E
    void setMoveCursor() -> L
    void setResizeXAxisCursor() -> J
    void setResizeYAxisCursor() -> K
    void setGrabbingCursor() -> N
    void setHitCursor() -> H
    void setDefaultCursor() -> G
    void initCursor() -> r
    java.awt.Cursor getCursorForImage(java.awt.Image) -> a
    void setDefRenderingHints(geogebra.common.awt.GGraphics2D) -> o
    int printTitle(java.awt.Graphics2D,java.lang.String,java.awt.print.PageFormat,geogebra.main.AppD) -> a
    int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print
    void exportPaint(java.awt.Graphics2D,double) -> a
    void exportPaintPre(geogebra.common.awt.GGraphics2D,double,boolean) -> a
    java.awt.image.BufferedImage getExportImage(double) -> a
    java.awt.image.BufferedImage getExportImage(double,boolean) -> a
    java.awt.image.BufferedImage createBufferedImage(int,int,boolean) -> a
    void drawResetIcon(geogebra.common.awt.GGraphics2D) -> m
    java.awt.Image getResetImage() -> a
    java.awt.Image getPlayImage() -> b
    java.awt.Image getPauseImage() -> c
    void drawAnimationButtons(geogebra.common.awt.GGraphics2D) -> q
    boolean hitAnimationButton(int,int) -> a
    geogebra.common.euclidian.EuclidianController getEuclidianController() -> a
    geogebra.common.awt.GGraphics2D getGraphicsForPen() -> b
    void doDrawPoints(geogebra.common.kernel.geos.GeoImage,java.util.List,geogebra.common.awt.GColor,int,int) -> a
    void setBoldAxes(boolean) -> j
    geogebra.main.AppD getApplication() -> a
    void setCursor(java.awt.Cursor) -> a
    boolean hasFocus() -> hasFocus
    void repaint() -> F
    void paintBackground(geogebra.common.awt.GGraphics2D) -> e
    void add(geogebra.common.javax.swing.GBox) -> a
    void remove(geogebra.common.javax.swing.GBox) -> b
    javax.swing.JPanel getJPanel() -> a
    void requestFocus() -> M
    geogebra.common.awt.GFont getFont() -> h
    java.awt.Point getMousePosition() -> a
    boolean isShowing() -> isShowing
    boolean requestFocusInWindow() -> p
    void setPreferredSize(java.awt.Dimension) -> a
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    void revalidate() -> O
    void addMouseListener(java.awt.event.MouseListener) -> a
    void removeMouseListener(java.awt.event.MouseListener) -> b
    void addMouseMotionListener(java.awt.event.MouseMotionListener) -> a
    void removeMouseMotionListener(java.awt.event.MouseMotionListener) -> b
    void addMouseWheelListener(java.awt.event.MouseWheelListener) -> a
    void removeMouseWheelListener(java.awt.event.MouseWheelListener) -> b
    void dispatchEvent(java.awt.event.ComponentEvent) -> a
    void setBorder(javax.swing.border.Border) -> a
    void addComponentListener(java.awt.event.ComponentListener) -> a
    void setSize(java.awt.Dimension) -> b
    java.awt.Dimension getPreferredSize() -> a
    void initPanel(boolean) -> o
    void setToolTipText(java.lang.String) -> a
    int getWidth() -> y
    int getHeight() -> z
    void updateSizeKeepDrawables() -> y
    void createImage(java.awt.GraphicsConfiguration) -> a
    void drawActionObjects(geogebra.common.awt.GGraphics2D) -> n
    void clearView() -> f
    geogebra.common.awt.GColor getBackgroundCommon() -> c
    void setBackground(geogebra.common.awt.GColor) -> b
    java.awt.Graphics2D getTempGraphics2D() -> a
    geogebra.common.awt.GGraphics2D getTempGraphics2D(geogebra.common.awt.GFont) -> a
    void setAntialiasing(java.awt.Graphics2D) -> a
    void setAntialiasing(geogebra.common.awt.GGraphics2D) -> p
    void setHeight(int) -> i
    void setWidth(int) -> j
    void setStyleBarMode(int) -> k
    geogebra.euclidian.EuclidianStyleBarD newEuclidianStyleBar() -> a
    geogebra.euclidian.MyZoomerD newZoomer() -> a
    boolean isPrintScaleString() -> v
    void setPrintScaleString(boolean) -> p
    java.lang.String getScaleString() -> d
    geogebra.common.euclidian.MyZoomer newZoomer() -> a
    geogebra.common.main.App getApplication() -> a
    geogebra.common.euclidian.EuclidianStyleBar newEuclidianStyleBar() -> b
geogebra.euclidian.EuclidianViewJPanel -> geogebra.b.y:
    geogebra.common.euclidian.EuclidianView view -> a
    java.awt.Color bgColor -> a
    int temporaryWidth -> a
    int temporaryHeight -> b
    geogebra.awt.GGraphics2DD g2 -> a
    java.awt.Color getBackground() -> getBackground
    void setBackground(java.awt.Color) -> setBackground
    void paintChildren(java.awt.Graphics) -> paintChildren
    int getWidth() -> getWidth
    int getHeight() -> getHeight
    java.awt.Rectangle getBounds() -> getBounds
    void setToolTipText(java.lang.String) -> setToolTipText
    void paint(java.awt.Graphics) -> paint
geogebra.euclidian.EuclidianViewTransferHandler -> geogebra.b.z:
    geogebra.common.euclidian.EuclidianView ev -> a
    geogebra.main.AppD app -> a
    java.awt.datatransfer.DataFlavor textReaderFlavor -> a
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    void setSupportedFlavours() -> a
    int getSourceActions(javax.swing.JComponent) -> getSourceActions
    boolean canImport(javax.swing.JComponent,java.awt.datatransfer.DataFlavor[]) -> canImport
    boolean importData(javax.swing.JComponent,java.awt.datatransfer.Transferable) -> importData
    void requestViewFocus() -> b
    java.awt.datatransfer.Transferable createTransferable(javax.swing.JComponent) -> createTransferable
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
geogebra.euclidian.LatexConvertor -> geogebra.b.A:
    geogebra.common.kernel.commands.AlgebraProcessor env -> a
    geogebra.common.kernel.Construction cons -> a
    java.lang.String getLaTeXString(java.lang.String) -> a
geogebra.euclidian.LatexConvertorFactory -> geogebra.b.B:
    geogebra.common.kernel.Kernel kernel -> a
    org.scilab.forge.jlatexmath.dynamic.ExternalConverter getExternalConverter() -> a
    geogebra.common.kernel.commands.AlgebraProcessor getCurrentGeoGebraEnv() -> a
geogebra.euclidian.MyZoomerD -> geogebra.b.C:
    javax.swing.Timer timer -> a
    void stopTimer() -> c
    boolean hasTimer() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void startTimer() -> d
geogebra.euclidian.PolyBezier -> geogebra.b.D:
    int n -> a
    int max_capacity -> b
    double[] x -> a
    double[] y -> b
    java.awt.geom.GeneralPath gp -> a
    void setNumberOfPoints(int) -> a
    void buildGeneralPath() -> a
    double[] tobezier(double[],double[],int) -> a
    double[] spline(double[],double[],int,double,double) -> a
geogebra.euclidian.event.ActionEventD -> geogebra.b.a.a:
    java.awt.event.ActionEvent event -> a
    geogebra.euclidian.event.ActionEventD wrapEvent(java.awt.event.ActionEvent) -> a
geogebra.euclidian.event.ActionListenerD -> geogebra.b.a.b:
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.euclidian.event.FocusEvent -> geogebra.b.a.c:
    java.util.LinkedList pool -> a
    java.awt.event.FocusEvent event -> a
    geogebra.euclidian.event.FocusEvent wrapEvent(java.awt.event.FocusEvent) -> a
    void release() -> a
geogebra.euclidian.event.FocusListener -> geogebra.b.a.d:
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.euclidian.event.KeyEvent -> geogebra.b.a.e:
    java.util.LinkedList pool -> a
    java.awt.event.KeyEvent event -> a
    geogebra.euclidian.event.KeyEvent wrapEvent(java.awt.event.KeyEvent) -> a
    void release() -> a
    boolean isEnterKey() -> a
    boolean isCtrlDown() -> b
    boolean isAltDown() -> c
geogebra.euclidian.event.KeyListenerD -> geogebra.b.a.f:
    geogebra.common.euclidian.event.KeyHandler handler -> a
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.euclidian.event.MouseEventD -> geogebra.b.a.g:
    java.util.LinkedList pool -> a
    java.awt.event.MouseEvent event -> a
    geogebra.common.euclidian.event.AbstractEvent wrapEvent(java.awt.event.MouseEvent) -> a
    geogebra.common.awt.GPoint getPoint() -> a
    boolean isAltDown() -> a
    boolean isShiftDown() -> b
    java.awt.event.MouseEvent getEvent(geogebra.common.euclidian.event.AbstractEvent) -> a
    void release() -> a
    int getX() -> a
    int getY() -> b
    boolean isRightClick() -> c
    boolean isControlDown() -> d
    boolean isMetaDown() -> e
    boolean isMiddleClick() -> f
    boolean isPopupTrigger() -> g
    java.awt.Component getComponent() -> a
    geogebra.common.euclidian.event.PointerEventType getType() -> a
geogebra.euclidian.event.MouseEventND -> geogebra.b.a.h:
    java.awt.Component getComponent() -> a
    boolean isMiddleClick() -> f
geogebra.euclidianND.EuclidianViewInterfaceDesktop -> geogebra.c.a:
    java.awt.Point getMousePosition() -> a
    javax.swing.JPanel getJPanel() -> a
    void setBorder(javax.swing.border.Border) -> a
    void setCursor(java.awt.Cursor) -> a
    java.awt.image.BufferedImage getExportImage(double) -> a
geogebra.export.AnimationExportDialog -> geogebra.d.a:
    geogebra.main.AppD app -> a
    javax.swing.JComboBox cbSliders -> a
    javax.swing.JCheckBox cbLoop -> a
    javax.swing.JTextField tfTimeBetweenFrames -> a
    javax.swing.JButton cancelButton -> a
    javax.swing.JButton exportButton -> b
    void initGUI() -> b
    void export() -> a
geogebra.export.AnimationExportDialog$1 -> geogebra.d.b:
    geogebra.export.AnimationExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.AnimationExportDialog$2 -> geogebra.d.c:
    geogebra.export.AnimationExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.AnimationExportDialog$3 -> geogebra.d.d:
    geogebra.export.AnimationExportDialog this$0 -> a
    geogebra.gui.util.AnimatedGifEncoder val$gifEncoder -> a
    void addFrame(java.awt.image.BufferedImage) -> a
    void finish() -> a
geogebra.export.ConstructionProtocolExportDialog -> geogebra.d.e:
    javax.swing.JCheckBox cbDrawingPadPicture -> a
    javax.swing.JCheckBox cbScreenshotPicture -> b
    javax.swing.JCheckBox cbColor -> c
    javax.swing.JCheckBox cbIcons -> d
    geogebra.export.GraphicSizePanel sizePanel -> a
    boolean kernelChanged -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD prot -> a
    geogebra.main.AppD app -> a
    void initGUI() -> a
    void centerOnScreen() -> b
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void exportHTML(boolean,boolean,boolean,boolean) -> a
    java.awt.image.BufferedImage getCenterPanelImage() -> a
    javax.swing.JCheckBox access$0(geogebra.export.ConstructionProtocolExportDialog) -> a
    geogebra.export.GraphicSizePanel access$1(geogebra.export.ConstructionProtocolExportDialog) -> a
    javax.swing.JCheckBox access$2(geogebra.export.ConstructionProtocolExportDialog) -> b
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD access$3(geogebra.export.ConstructionProtocolExportDialog) -> a
    javax.swing.JCheckBox access$4(geogebra.export.ConstructionProtocolExportDialog) -> c
    javax.swing.JCheckBox access$5(geogebra.export.ConstructionProtocolExportDialog) -> d
    geogebra.main.AppD access$6(geogebra.export.ConstructionProtocolExportDialog) -> a
    void access$7(geogebra.export.ConstructionProtocolExportDialog,boolean,boolean,boolean,boolean) -> a
geogebra.export.ConstructionProtocolExportDialog$1 -> geogebra.d.f:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.ConstructionProtocolExportDialog$2 -> geogebra.d.g:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.ConstructionProtocolExportDialog$3 -> geogebra.d.h:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.ConstructionProtocolExportDialog$4 -> geogebra.d.i:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.ConstructionProtocolExportDialog$5 -> geogebra.d.j:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.ConstructionProtocolExportDialog$6 -> geogebra.d.k:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.ConstructionProtocolExportDialog$7 -> geogebra.d.l:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.ConstructionProtocolExportDialog access$0(geogebra.export.ConstructionProtocolExportDialog$7) -> a
geogebra.export.ConstructionProtocolExportDialog$7$1 -> geogebra.d.m:
    geogebra.export.ConstructionProtocolExportDialog$7 this$1 -> a
    void run() -> run
geogebra.export.ConstructionProtocolExportDialog$8 -> geogebra.d.n:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.ConstructionProtocolExportDialog access$0(geogebra.export.ConstructionProtocolExportDialog$8) -> a
geogebra.export.ConstructionProtocolExportDialog$8$1 -> geogebra.d.o:
    geogebra.export.ConstructionProtocolExportDialog$8 this$1 -> a
    void run() -> run
geogebra.export.ConstructionProtocolExportDialog$9 -> geogebra.d.p:
    geogebra.export.ConstructionProtocolExportDialog this$0 -> a
    java.io.File val$HTMLfile -> a
    void run() -> run
geogebra.export.GeoGebraTubeExportDesktop -> geogebra.d.q:
    javax.swing.JDialog progressDialog -> a
    javax.swing.JProgressBar progressBar -> a
    javax.swing.JLabel statusLabel -> a
    javax.swing.JButton abortButton -> a
    void setMaximum(int) -> a
    void setMinimum(int) -> b
    void setIndeterminate(boolean) -> a
    void setValue(int) -> c
    void setEnabled(boolean) -> b
    void uploadWorksheet(java.util.ArrayList) -> a
    void showDialog() -> b
    void pack() -> a
    void hideDialog() -> c
    void statusLabelSetText(java.lang.String) -> a
    java.lang.String encode(java.lang.String) -> a
    java.lang.String getBase64Tools(java.util.ArrayList) -> a
geogebra.export.GeoGebraTubeExportDesktop$1 -> geogebra.d.r:
    geogebra.export.GeoGebraTubeExportDesktop this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog -> geogebra.d.s:
    geogebra.main.AppD app -> a
    javax.swing.JComboBox cbFormat -> b
    javax.swing.JComboBox cbDPI -> a
    javax.swing.JLabel sizeLabel -> a
    javax.swing.JButton cancelButton -> a
    double exportScale -> a
    int pixelWidth -> a
    int pixelHeight -> b
    java.text.NumberFormat sizeLabelFormat -> a
    boolean textAsShapes -> a
    boolean transparent -> b
    boolean EMFPlus -> c
    geogebra.euclidian.EuclidianViewD specifiedEuclidianView -> a
    geogebra.export.PrintScalePanel psp -> a
    int[] $SWITCH_TABLE$geogebra$export$GraphicExportDialog$Format -> a
    int[] $SWITCH_TABLE$geogebra$export$PrintScalePanel$PrintScaleModes -> b
    geogebra.euclidian.EuclidianViewD getEuclidianView() -> a
    void setVisible(boolean) -> setVisible
    void initGUI() -> b
    void doExport(boolean) -> a
    int getDPI() -> a
    void loadPreferences() -> c
    void savePreferences() -> d
    void updateSizeLabel() -> a
    geogebra.export.GraphicExportDialog$Format selectedFormat() -> a
    void centerOnScreen() -> e
    boolean exportEPS(boolean) -> b
    boolean exportEMF(boolean,boolean) -> a
    boolean exportPDF(boolean) -> c
    boolean exportSVG(boolean) -> d
    boolean exportPNG(boolean) -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void sendToClipboard(java.io.File) -> a
    void exportSVG(geogebra.main.AppD,geogebra.euclidian.EuclidianViewD,java.io.File,boolean,int,int,double,boolean) -> a
    void exportEMF(geogebra.main.AppD,geogebra.euclidian.EuclidianViewD,java.io.File,boolean,int,int,double) -> a
    void exportPDF(geogebra.main.AppD,geogebra.euclidian.EuclidianViewD,java.io.File,boolean,int,int,double) -> b
    void exportEPS(geogebra.main.AppD,geogebra.euclidian.EuclidianViewD,java.io.File,boolean,int,int,double) -> c
    void exportPNG(geogebra.euclidian.EuclidianViewD,java.io.File,boolean,int,double) -> a
    void export(java.lang.String,geogebra.euclidian.EuclidianViewD,java.io.File,boolean,int,double,boolean,boolean,int,int,geogebra.main.AppD) -> a
    int[] $SWITCH_TABLE$geogebra$export$GraphicExportDialog$Format() -> a
    int[] $SWITCH_TABLE$geogebra$export$PrintScalePanel$PrintScaleModes() -> b
geogebra.export.GraphicExportDialog$1 -> geogebra.d.t:
    geogebra.export.GraphicExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog$2 -> geogebra.d.u:
    geogebra.export.GraphicExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog$3 -> geogebra.d.v:
    geogebra.export.GraphicExportDialog this$0 -> a
    javax.swing.JCheckBox val$cbTransparent -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog$4 -> geogebra.d.w:
    geogebra.export.GraphicExportDialog this$0 -> a
    javax.swing.JCheckBox val$cbEMFPlus -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog$5 -> geogebra.d.x:
    geogebra.export.GraphicExportDialog this$0 -> a
    javax.swing.JCheckBox val$textAsShapesCB -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog$6 -> geogebra.d.y:
    geogebra.export.GraphicExportDialog this$0 -> a
    javax.swing.JCheckBox val$textAsShapesCB -> a
    javax.swing.JPanel val$dpiPanel -> a
    javax.swing.JLabel val$resolutionInDPILabel -> a
    javax.swing.JCheckBox val$cbEMFPlus -> b
    javax.swing.JCheckBox val$cbTransparent -> c
    int[] $SWITCH_TABLE$geogebra$export$GraphicExportDialog$Format -> a
    javax.swing.JPanel val$p -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    int[] $SWITCH_TABLE$geogebra$export$GraphicExportDialog$Format() -> a
geogebra.export.GraphicExportDialog$7 -> geogebra.d.z:
    geogebra.export.GraphicExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.GraphicExportDialog$8 -> geogebra.d.A:
    geogebra.export.GraphicExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.GraphicExportDialog access$0(geogebra.export.GraphicExportDialog$8) -> a
geogebra.export.GraphicExportDialog$8$1 -> geogebra.d.B:
    geogebra.export.GraphicExportDialog$8 this$1 -> a
    void run() -> run
geogebra.export.GraphicExportDialog$9 -> geogebra.d.C:
    geogebra.export.GraphicExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.GraphicExportDialog access$0(geogebra.export.GraphicExportDialog$9) -> a
geogebra.export.GraphicExportDialog$9$1 -> geogebra.d.D:
    geogebra.export.GraphicExportDialog$9 this$1 -> a
    void run() -> run
geogebra.export.GraphicExportDialog$Format -> geogebra.d.s$a:
    geogebra.export.GraphicExportDialog$Format PNG -> a
    geogebra.export.GraphicExportDialog$Format PDF -> b
    geogebra.export.GraphicExportDialog$Format EPS -> c
    geogebra.export.GraphicExportDialog$Format SVG -> d
    geogebra.export.GraphicExportDialog$Format EMF -> e
    geogebra.export.GraphicExportDialog$Format[] ENUM$VALUES -> a
    geogebra.export.GraphicExportDialog$Format[] values() -> values
    geogebra.export.GraphicExportDialog$Format valueOf(java.lang.String) -> valueOf
geogebra.export.GraphicSizePanel -> geogebra.d.E:
    int width -> a
    int height -> b
    double ratio -> a
    javax.swing.JTextField tfWidth -> a
    javax.swing.JTextField tfHeight -> b
    boolean keepRatio -> a
    void setValues(int,int,boolean) -> a
    void setEnabled(boolean) -> setEnabled
    void updateValues(java.lang.Object) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.export.PagePreview -> geogebra.d.F:
    int m_w -> a
    int m_h -> b
    java.awt.print.Printable target -> a
    java.awt.print.PageFormat format -> a
    int pageIndex -> c
    double scale -> a
    java.awt.image.BufferedImage img -> a
    int targetIndex -> d
    geogebra.main.AppD app -> a
    int getTarget() -> a
    void setPageFormat(java.awt.print.PageFormat) -> a
    java.awt.print.PageFormat getPageFormat() -> a
    void setScale(int) -> a
    java.awt.Dimension getPreferredSize() -> getPreferredSize
    java.awt.Dimension getMaximumSize() -> getMaximumSize
    java.awt.Dimension getMinimumSize() -> getMinimumSize
    void updateBufferedImage() -> b
    void update() -> a
    void paint(java.awt.Graphics) -> paint
geogebra.export.PrintGridable -> geogebra.d.G:
    geogebra.gui.view.Gridable gridable -> a
    int[] colWidths -> a
    int[] rowHeights -> b
    double scale -> a
    int titleOffset -> a
    int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print
    void setTitleOffset(int) -> a
geogebra.export.PrintPreview -> geogebra.d.H:
    int m_orientation -> a
    int m_scale -> b
    java.util.List m_target -> a
    javax.swing.JComboBox m_cbScale -> a
    javax.swing.JComboBox m_cbOrientation -> b
    javax.swing.JComboBox m_cbView -> c
    javax.swing.JScrollPane ps -> a
    geogebra.export.PrintPreview$PreviewContainer m_preview -> a
    geogebra.main.AppD app -> a
    javax.swing.JPanel tempPanel -> a
    javax.swing.JPanel panelForTitleAndScaling -> b
    java.awt.event.ActionListener lst -> a
    boolean kernelChanged -> a
    java.awt.Graphics tempGraphics -> a
    geogebra.export.PrintPreview get(geogebra.main.AppD,int,int) -> a
    java.util.List getPrintables(int,geogebra.main.AppD) -> a
    java.util.List wrap(geogebra.gui.view.Gridable) -> a
    java.util.List wrap(java.awt.print.Printable) -> a
    void initPrintPreview() -> c
    void forEachView(geogebra.export.PrintPreview$ViewCallback) -> a
    java.lang.String[] getAvailableViews() -> a
    javax.swing.JPanel createPanelForScaling(geogebra.euclidian.EuclidianViewD) -> a
    void loadPreferences() -> d
    void savePreferences() -> e
    void setVisible(boolean) -> setVisible
    void centerOnScreen() -> f
    void initPages() -> a
    java.awt.print.PageFormat getDefaultPageFormat() -> a
    void updatePages() -> b
    boolean pageExists(int,int) -> a
    void setOrientation(int) -> a
    void setScale(int) -> b
geogebra.export.PrintPreview$1 -> geogebra.d.I:
    geogebra.export.PrintPreview this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$1) -> a
geogebra.export.PrintPreview$1$1 -> geogebra.d.J:
    geogebra.export.PrintPreview$1 this$1 -> a
    void run() -> run
geogebra.export.PrintPreview$2 -> geogebra.d.K:
    geogebra.export.PrintPreview this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$2) -> a
geogebra.export.PrintPreview$2$1 -> geogebra.d.L:
    geogebra.export.PrintPreview$2 this$1 -> a
    void run() -> run
geogebra.export.PrintPreview$3 -> geogebra.d.M:
    geogebra.export.PrintPreview this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$3) -> a
geogebra.export.PrintPreview$3$1 -> geogebra.d.N:
    geogebra.export.PrintPreview$3 this$1 -> a
    void run() -> run
geogebra.export.PrintPreview$4 -> geogebra.d.O:
    geogebra.export.PrintPreview this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$4) -> a
geogebra.export.PrintPreview$4$1 -> geogebra.d.P:
    geogebra.export.PrintPreview$4 this$1 -> a
    void run() -> run
    geogebra.export.PrintPreview$4 access$0(geogebra.export.PrintPreview$4$1) -> a
geogebra.export.PrintPreview$4$1$1 -> geogebra.d.Q:
    geogebra.export.PrintPreview$4$1 this$2 -> a
    java.util.List val$l -> a
    void run(int,java.lang.String) -> a
geogebra.export.PrintPreview$4$1$2 -> geogebra.d.R:
    geogebra.export.PrintPreview$4$1 this$2 -> a
    java.lang.String val$selItem -> a
    void run(int,java.lang.String) -> a
geogebra.export.PrintPreview$5 -> geogebra.d.S:
    geogebra.export.PrintPreview this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$5) -> a
geogebra.export.PrintPreview$5$1 -> geogebra.d.T:
    geogebra.export.PrintPreview$5 this$1 -> a
    void run() -> run
geogebra.export.PrintPreview$6 -> geogebra.d.U:
    geogebra.export.PrintPreview this$0 -> a
    java.util.ArrayList val$list -> a
    void run(int,java.lang.String) -> a
geogebra.export.PrintPreview$7 -> geogebra.d.V:
    geogebra.export.PrintPreview this$0 -> a
    geogebra.euclidian.EuclidianViewD val$view -> a
    javax.swing.JCheckBox val$cbEVscalePanel -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.PrintPreview$PreviewContainer -> geogebra.d.H$a:
    int H_GAP -> a
    int V_GAP -> b
    geogebra.export.PrintPreview this$0 -> a
    java.awt.Dimension getPreferredSize() -> getPreferredSize
    java.awt.Dimension getMaximumSize() -> getMaximumSize
    java.awt.Dimension getMinimumSize() -> getMinimumSize
    void doLayout() -> doLayout
    int getNumberOfPages() -> getNumberOfPages
    java.awt.print.PageFormat getPageFormat(int) -> getPageFormat
    java.awt.print.Printable getPrintable(int) -> getPrintable
geogebra.export.PrintPreview$ViewCallback -> geogebra.d.H$b:
    void run(int,java.lang.String) -> a
geogebra.export.PrintScalePanel -> geogebra.d.W:
    javax.swing.JTextField tfScale1 -> a
    javax.swing.JTextField tfScale2 -> b
    javax.swing.JTextField tfSize1 -> c
    javax.swing.JTextField tfSize2 -> d
    javax.swing.JTextField tfScaleFixed -> e
    java.util.Vector listeners -> a
    geogebra.common.euclidian.EuclidianView ev -> a
    java.text.NumberFormat nf -> a
    javax.swing.JComboBox exportMode -> a
    javax.swing.JPanel pxModePanel -> a
    javax.swing.JPanel cmModePanel -> b
    javax.swing.JPanel fixedSizeModePanel -> c
    geogebra.export.PrintScalePanel$PrintScaleModes mode -> a
    boolean pixelSizeEnabled -> a
    java.lang.String jcbItemSizeInPixels -> a
    java.lang.String jcbItemFixedSize -> b
    java.lang.String jcbItemScaleInCentimeter -> c
    int[] $SWITCH_TABLE$geogebra$export$PrintScalePanel$PrintScaleModes -> a
    void enableAbsoluteSize(boolean) -> a
    void switchMode() -> a
    javax.swing.JTextField getNumberField(geogebra.main.AppD,java.lang.Runnable) -> a
    void updateSizeTextFields(int,int) -> a
    void updateFixedSizeTextFields() -> f
    void updateScaleTextFields() -> g
    void setTextNoListener(javax.swing.JTextField,java.lang.String) -> a
    void fireTextFieldUpdate() -> b
    void fireWidthTextFieldUpdate() -> c
    void fireHeightTextFieldUpdate() -> d
    void fireFixedSizeTextFieldUpdate() -> e
    void addActionListener(java.awt.event.ActionListener) -> a
    void notifyListeners() -> h
    int getPixelWidth() -> a
    int getPixelHeight() -> b
    geogebra.export.PrintScalePanel$PrintScaleModes getMode() -> a
    int[] $SWITCH_TABLE$geogebra$export$PrintScalePanel$PrintScaleModes() -> a
geogebra.export.PrintScalePanel$1 -> geogebra.d.X:
    geogebra.export.PrintScalePanel this$0 -> a
    void run() -> run
geogebra.export.PrintScalePanel$2 -> geogebra.d.Y:
    geogebra.export.PrintScalePanel this$0 -> a
    void run() -> run
geogebra.export.PrintScalePanel$3 -> geogebra.d.Z:
    geogebra.export.PrintScalePanel this$0 -> a
    void run() -> run
geogebra.export.PrintScalePanel$4 -> geogebra.d.aa:
    geogebra.export.PrintScalePanel this$0 -> a
    void run() -> run
geogebra.export.PrintScalePanel$5 -> geogebra.d.ab:
    geogebra.export.PrintScalePanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.PrintScalePanel$6 -> geogebra.d.ac:
    java.lang.Runnable val$run -> a
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void focusGained(java.awt.event.FocusEvent) -> focusGained
geogebra.export.PrintScalePanel$7 -> geogebra.d.ad:
    java.lang.Runnable val$run -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.PrintScalePanel$PrintScaleModes -> geogebra.d.W$a:
    geogebra.export.PrintScalePanel$PrintScaleModes SIZEINCM -> a
    geogebra.export.PrintScalePanel$PrintScaleModes SIZEINPX -> b
    geogebra.export.PrintScalePanel$PrintScaleModes FIXED_SIZE -> c
    geogebra.export.PrintScalePanel$PrintScaleModes[] ENUM$VALUES -> a
    geogebra.export.PrintScalePanel$PrintScaleModes[] values() -> values
    geogebra.export.PrintScalePanel$PrintScaleModes valueOf(java.lang.String) -> valueOf
geogebra.export.SVGExtensions -> geogebra.d.ae:
    void startGroup(java.lang.String) -> a
    void endGroup(java.lang.String) -> b
geogebra.export.WorksheetExportDialog -> geogebra.d.af:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.algebra.InputPanelD textAboveUpload -> a
    geogebra.gui.view.algebra.InputPanelD textBelowUpload -> b
    javax.swing.JButton uploadButton -> a
    javax.swing.JButton helpButton -> b
    boolean kernelChanged -> a
    geogebra.main.GeoGebraPreferencesD ggbPref -> a
    geogebra.main.GuiManagerInterfaceD guiManager -> a
    geogebra.gui.inputfield.MyTextField titleField -> a
    geogebra.gui.TitlePanel titlePanel -> a
    javax.swing.JPanel modeUploadPanel -> a
    void initGUI() -> a
    javax.swing.JPanel createUploadPanel() -> a
    void setVisible(boolean) -> setVisible
    void centerOnScreen() -> b
geogebra.export.WorksheetExportDialog$1 -> geogebra.d.ag:
    geogebra.export.WorksheetExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.WorksheetExportDialog$2 -> geogebra.d.ah:
    geogebra.export.WorksheetExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.WorksheetExportDialog$3 -> geogebra.d.ai:
    geogebra.export.WorksheetExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.export.WorksheetExportDialog access$0(geogebra.export.WorksheetExportDialog$3) -> a
geogebra.export.WorksheetExportDialog$3$1 -> geogebra.d.aj:
    geogebra.export.WorksheetExportDialog$3 this$1 -> a
    void run() -> run
geogebra.export.WorksheetExportDialog$4 -> geogebra.d.ak:
    geogebra.export.WorksheetExportDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.WorksheetExportDialog$5 -> geogebra.d.al:
    geogebra.export.WorksheetExportDialog this$0 -> a
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void focusGained(java.awt.event.FocusEvent) -> focusGained
geogebra.export.epsgraphics.ColorMode -> geogebra.d.a.a:
    geogebra.export.epsgraphics.ColorMode COLOR_CMYK -> a
    geogebra.export.epsgraphics.ColorMode COLOR_RGB -> b
    geogebra.export.epsgraphics.ColorMode GRAYSCALE -> c
    geogebra.export.epsgraphics.ColorMode BLACK_AND_WHITE -> d
    geogebra.export.epsgraphics.ColorMode[] ENUM$VALUES -> a
    geogebra.export.epsgraphics.ColorMode[] values() -> values
    geogebra.export.epsgraphics.ColorMode valueOf(java.lang.String) -> valueOf
geogebra.export.epsgraphics.EpsDocument -> geogebra.d.a.b:
    java.io.OutputStream stream -> a
    int minX -> a
    int minY -> b
    int maxX -> c
    int maxY -> d
    boolean _isClipSet -> a
    java.lang.String title -> a
    java.io.BufferedWriter bufferedWriter -> a
    geogebra.export.epsgraphics.EpsGraphics _lastG -> a
    void append(geogebra.export.epsgraphics.EpsGraphics,java.lang.String) -> a
    void write(java.io.Writer) -> a
    void writeFooter(java.io.Writer) -> b
    void flush() -> a
    void close() -> b
    boolean isClipSet() -> a
    void setClipSet(boolean) -> a
geogebra.export.epsgraphics.EpsGraphics -> geogebra.d.a.c:
    java.awt.Stroke currentStroke -> a
    java.awt.Color color -> a
    java.awt.geom.AffineTransform _clipTransform -> a
    java.awt.Color _backgroundColor -> b
    java.awt.Paint _paint -> a
    java.awt.Composite _composite -> a
    java.awt.BasicStroke _stroke -> a
    java.awt.Font _font -> a
    java.awt.Shape _clip -> a
    java.awt.geom.AffineTransform _transform -> b
    boolean _accurateTextMode -> a
    geogebra.export.epsgraphics.EpsDocument _document -> a
    java.awt.font.FontRenderContext _fontRenderContext -> a
    geogebra.export.epsgraphics.ColorMode colorMode -> a
    int[] $SWITCH_TABLE$geogebra$export$epsgraphics$ColorMode -> a
    void methodNotSupported() -> d
    boolean getAccurateTextMode() -> a
    void flush() -> a
    void close() -> b
    void append(java.lang.String) -> a
    java.awt.geom.Point2D transform(double,double) -> a
    void draw(java.awt.Shape,java.lang.String) -> a
    java.lang.String toHexString(int) -> a
    void draw3DRect(int,int,int,int,boolean) -> draw3DRect
    void fill3DRect(int,int,int,int,boolean) -> fill3DRect
    void draw(java.awt.Shape) -> draw
    boolean drawImage(java.awt.Image,java.awt.geom.AffineTransform,java.awt.image.ImageObserver) -> drawImage
    void drawImage(java.awt.image.BufferedImage,java.awt.image.BufferedImageOp,int,int) -> drawImage
    void drawRenderedImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform) -> drawRenderedImage
    void drawRenderableImage(java.awt.image.renderable.RenderableImage,java.awt.geom.AffineTransform) -> drawRenderableImage
    void drawString(java.lang.String,int,int) -> drawString
    void drawString(java.lang.String,float,float) -> drawString
    void drawString(java.text.AttributedCharacterIterator,int,int) -> drawString
    void drawString(java.text.AttributedCharacterIterator,float,float) -> drawString
    void drawGlyphVector(java.awt.font.GlyphVector,float,float) -> drawGlyphVector
    void fill(java.awt.Shape) -> fill
    boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit
    java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration
    void setComposite(java.awt.Composite) -> setComposite
    void setPaint(java.awt.Paint) -> setPaint
    void setStroke(java.awt.Stroke) -> setStroke
    void appendStroke() -> c
    void setRenderingHint(java.awt.RenderingHints$Key,java.lang.Object) -> setRenderingHint
    java.lang.Object getRenderingHint(java.awt.RenderingHints$Key) -> getRenderingHint
    void setRenderingHints(java.util.Map) -> setRenderingHints
    void addRenderingHints(java.util.Map) -> addRenderingHints
    java.awt.RenderingHints getRenderingHints() -> getRenderingHints
    void translate(int,int) -> translate
    void translate(double,double) -> translate
    void rotate(double) -> rotate
    void rotate(double,double,double) -> rotate
    void scale(double,double) -> scale
    void shear(double,double) -> shear
    void transform(java.awt.geom.AffineTransform) -> transform
    void setTransform(java.awt.geom.AffineTransform) -> setTransform
    java.awt.geom.AffineTransform getTransform() -> getTransform
    java.awt.Paint getPaint() -> getPaint
    java.awt.Composite getComposite() -> getComposite
    void setBackground(java.awt.Color) -> setBackground
    java.awt.Color getBackground() -> getBackground
    java.awt.Stroke getStroke() -> getStroke
    void clip(java.awt.Shape) -> clip
    java.awt.font.FontRenderContext getFontRenderContext() -> getFontRenderContext
    java.awt.Graphics create(int,int,int,int) -> create
    java.awt.Color getColor() -> getColor
    void setColor(java.awt.Color) -> setColor
    void setPaintMode() -> setPaintMode
    void setXORMode(java.awt.Color) -> setXORMode
    java.awt.Font getFont() -> getFont
    void setFont(java.awt.Font) -> setFont
    java.awt.FontMetrics getFontMetrics() -> getFontMetrics
    java.awt.FontMetrics getFontMetrics(java.awt.Font) -> getFontMetrics
    java.awt.Rectangle getClipBounds() -> getClipBounds
    void clipRect(int,int,int,int) -> clipRect
    void setClip(int,int,int,int) -> setClip
    java.awt.Shape getClip() -> getClip
    void setClip(java.awt.Shape) -> setClip
    void copyArea(int,int,int,int,int,int) -> copyArea
    void drawLine(int,int,int,int) -> drawLine
    void fillRect(int,int,int,int) -> fillRect
    void drawRect(int,int,int,int) -> drawRect
    void clearRect(int,int,int,int) -> clearRect
    void drawRoundRect(int,int,int,int,int,int) -> drawRoundRect
    void fillRoundRect(int,int,int,int,int,int) -> fillRoundRect
    void drawOval(int,int,int,int) -> drawOval
    void fillOval(int,int,int,int) -> fillOval
    void drawArc(int,int,int,int,int,int) -> drawArc
    void fillArc(int,int,int,int,int,int) -> fillArc
    void drawPolyline(int[],int[],int) -> drawPolyline
    void drawPolygon(int[],int[],int) -> drawPolygon
    void drawPolygon(java.awt.Polygon) -> drawPolygon
    void fillPolygon(int[],int[],int) -> fillPolygon
    void fillPolygon(java.awt.Polygon) -> fillPolygon
    void drawChars(char[],int,int,int,int) -> drawChars
    void drawBytes(byte[],int,int,int,int) -> drawBytes
    boolean drawImage(java.awt.Image,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,int,int,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,int,int,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    void dispose() -> dispose
    void finalize() -> finalize
    java.lang.String toString() -> toString
    boolean hitClip(int,int,int,int) -> hitClip
    java.awt.Rectangle getClipBounds(java.awt.Rectangle) -> getClipBounds
    java.awt.Graphics create() -> create
    int[] $SWITCH_TABLE$geogebra$export$epsgraphics$ColorMode() -> a
geogebra.export.pstricks.AsymptoteFrame -> geogebra.d.b.a:
    javax.swing.JComboBox comboFontSizeMore -> a
    java.lang.String[] format -> a
    java.lang.String[] fontsizelist -> b
    void initGui() -> a
    boolean isBeamer() -> i
    boolean isLaTeX() -> j
    boolean isConTeXt() -> k
    int getFontSize() -> a
geogebra.export.pstricks.ExportFrame -> geogebra.d.b.b:
    java.lang.String TEXT_XUNIT -> c
    java.lang.String TEXT_YUNIT -> d
    java.lang.String TEXT_WIDTH -> e
    java.lang.String TEXT_HEIGHT -> f
    java.lang.String TEXT_XMAX -> g
    java.lang.String TEXT_XMIN -> h
    java.lang.String TEXT_YMAX -> i
    java.lang.String TEXT_YMIN -> j
    geogebra.export.pstricks.TextValue textXUnit -> a
    geogebra.export.pstricks.TextValue textYUnit -> b
    geogebra.export.pstricks.TextValue textwidth -> c
    geogebra.export.pstricks.TextValue textheight -> d
    javax.swing.JLabel labelwidth -> a
    javax.swing.JLabel labelheight -> b
    javax.swing.JLabel labelXUnit -> c
    javax.swing.JLabel labelYUnit -> d
    javax.swing.JLabel labelFontSize -> e
    javax.swing.JLabel labelFormat -> f
    geogebra.export.pstricks.TextValue textXmin -> e
    geogebra.export.pstricks.TextValue textXmax -> f
    geogebra.export.pstricks.TextValue textYmin -> g
    geogebra.export.pstricks.TextValue textYmax -> h
    javax.swing.JLabel labelXmin -> g
    javax.swing.JLabel labelXmax -> h
    javax.swing.JLabel labelYmin -> i
    javax.swing.JLabel labelYmax -> j
    java.lang.String[] msg -> c
    javax.swing.JComboBox comboFontSize -> b
    javax.swing.JComboBox comboFormat -> c
    javax.swing.JComboBox comboFill -> d
    javax.swing.JLabel labelFill -> k
    javax.swing.JPanel panel -> a
    javax.swing.JButton button -> a
    javax.swing.JButton button_copy -> b
    javax.swing.JCheckBox jcbPointSymbol -> a
    javax.swing.JCheckBox jcbGrayscale -> b
    javax.swing.JCheckBox jcbShowAxes -> c
    javax.swing.JCheckBox jcbAsyCompact -> d
    javax.swing.JCheckBox jcbAsyCse5 -> e
    javax.swing.JCheckBox jcbDotColors -> f
    javax.swing.JCheckBox jcbPairName -> g
    javax.swing.JScrollPane js -> a
    javax.swing.JTextArea textarea -> a
    geogebra.main.AppD app -> a
    double width -> a
    double height -> b
    javax.swing.JButton buttonSave -> c
    java.io.File currentFile -> a
    geogebra.common.export.pstricks.GeoGebraExport ggb -> a
    geogebra.common.main.Localization loc -> a
    geogebra.export.pstricks.ExportFrame$ListenKey listenKey -> a
    java.lang.String fileExtension -> a
    java.lang.String fileExtensionMsg -> b
    void centerOnScreen() -> b
    boolean isGrayscale() -> a
    boolean getExportPointSymbol() -> e
    double getXUnit() -> c
    double getYUnit() -> b
    double getLatexHeight() -> a
    double getLatexWidth() -> d
    void write(java.lang.StringBuilder) -> a
    int getFontSize() -> a
    int getFormat() -> b
    boolean getShowAxes() -> f
    boolean getAsyCompact() -> d
    boolean getAsyCompactCse5() -> c
    boolean getKeepDotColors() -> b
    boolean getUsePairNames() -> g
    int getFillType() -> e
    int textYmaxValue() -> c
    int textYminValue() -> d
    boolean isLaTeX() -> j
    boolean isConTeXt() -> k
    boolean isBeamer() -> i
    boolean getGnuplot() -> h
    geogebra.common.export.pstricks.GeoGebraExport access$0(geogebra.export.pstricks.ExportFrame) -> a
geogebra.export.pstricks.ExportFrame$1 -> geogebra.d.b.c:
    geogebra.export.pstricks.ExportFrame this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.pstricks.ExportFrame$2 -> geogebra.d.b.d:
    geogebra.export.pstricks.ExportFrame this$0 -> a
    geogebra.common.export.pstricks.GeoGebraExport val$ggb -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.pstricks.ExportFrame$3 -> geogebra.d.b.e:
    geogebra.export.pstricks.ExportFrame this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.pstricks.ExportFrame$4 -> geogebra.d.b.f:
    geogebra.export.pstricks.ExportFrame this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.export.pstricks.ExportFrame$ListenKey -> geogebra.d.b.b$a:
    geogebra.export.pstricks.ExportFrame ef -> a
    geogebra.export.pstricks.ExportFrame this$0 -> b
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.export.pstricks.GeoGebraToAsymptoteD -> geogebra.d.b.g:
    geogebra.common.awt.GGraphics2D createGraphics(geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.Inequality,geogebra.common.euclidian.EuclidianView) -> a
    java.lang.StringBuilder access$0(geogebra.export.pstricks.GeoGebraToAsymptoteD) -> a
    void access$1(geogebra.export.pstricks.GeoGebraToAsymptoteD,geogebra.common.awt.GColor,java.lang.StringBuilder) -> a
    void access$2(geogebra.export.pstricks.GeoGebraToAsymptoteD,geogebra.common.kernel.geos.GeoConic) -> a
    java.lang.String access$3(geogebra.export.pstricks.GeoGebraToAsymptoteD,double) -> a
geogebra.export.pstricks.GeoGebraToAsymptoteD$MyGraphicsAs -> geogebra.d.b.g$a:
    geogebra.export.pstricks.GeoGebraToAsymptoteD this$0 -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType -> a
    void fill(geogebra.common.awt.GShape) -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType() -> a
geogebra.export.pstricks.GeoGebraToPgfD -> geogebra.d.b.h:
    geogebra.common.awt.GGraphics2D createGraphics(geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.Inequality,geogebra.common.euclidian.EuclidianView) -> a
    void access$0(geogebra.export.pstricks.GeoGebraToPgfD,geogebra.common.kernel.geos.GeoConic) -> a
    java.lang.StringBuilder access$1(geogebra.export.pstricks.GeoGebraToPgfD) -> a
    double access$2(geogebra.export.pstricks.GeoGebraToPgfD) -> a
    double access$3(geogebra.export.pstricks.GeoGebraToPgfD) -> b
    java.lang.String access$4(geogebra.export.pstricks.GeoGebraToPgfD,double) -> a
geogebra.export.pstricks.GeoGebraToPgfD$MyGraphicsPgf -> geogebra.d.b.h$a:
    geogebra.export.pstricks.GeoGebraToPgfD this$0 -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType -> a
    void fill(geogebra.common.awt.GShape) -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType() -> a
geogebra.export.pstricks.GeoGebraToPstricksD -> geogebra.d.b.i:
    geogebra.common.awt.GGraphics2D createGraphics(geogebra.common.kernel.arithmetic.FunctionalNVar,geogebra.common.kernel.arithmetic.Inequality,geogebra.common.euclidian.EuclidianView) -> a
    void access$0(geogebra.export.pstricks.GeoGebraToPstricksD,geogebra.common.kernel.geos.GeoConic) -> a
    java.lang.StringBuilder access$1(geogebra.export.pstricks.GeoGebraToPstricksD) -> a
    java.lang.String access$2(geogebra.export.pstricks.GeoGebraToPstricksD,double) -> a
geogebra.export.pstricks.GeoGebraToPstricksD$MyGraphicsPstricks -> geogebra.d.b.i$a:
    geogebra.export.pstricks.GeoGebraToPstricksD this$0 -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType -> a
    void fill(geogebra.common.awt.GShape) -> d
    int[] $SWITCH_TABLE$geogebra$common$kernel$arithmetic$Inequality$IneqType() -> a
geogebra.export.pstricks.MyGraphics -> geogebra.d.b.j:
    double[] ds -> a
    geogebra.common.kernel.arithmetic.Inequality ineq -> a
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.common.kernel.arithmetic.FunctionalNVar geo -> a
geogebra.export.pstricks.MyGraphics2D -> geogebra.d.b.k:
geogebra.export.pstricks.PgfFrame -> geogebra.d.b.l:
    java.lang.String[] format -> a
    javax.swing.JCheckBox forceGnuplot -> h
    void initGui() -> a
    boolean getGnuplot() -> h
    boolean isBeamer() -> i
    boolean isLaTeX() -> j
    boolean isConTeXt() -> k
geogebra.export.pstricks.PstricksFrame -> geogebra.d.b.m:
    java.lang.String[] format -> a
    void initGui() -> a
    boolean isBeamer() -> i
    boolean isLaTeX() -> j
    boolean isConTeXt() -> k
geogebra.export.pstricks.TextValue -> geogebra.d.b.n:
    boolean ALLOW_NEGATIVE -> a
    javax.swing.JFrame jf -> a
    java.lang.String actionCommand -> a
    double getValue() -> a
    void setValue(double) -> a
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    java.lang.String toString() -> toString
geogebra.factories.AwtFactoryD -> geogebra.e.a:
    geogebra.common.awt.GColor newColor(int) -> a
    geogebra.common.awt.GColor newColor(int,int,int) -> a
    geogebra.common.awt.GColor newColor(int,int,int,int) -> a
    geogebra.common.awt.GColor newColor(float,float,float,float) -> a
    geogebra.common.awt.GColor newColor(float,float,float) -> a
    geogebra.common.awt.GAffineTransform newAffineTransform() -> a
    geogebra.common.awt.GRectangle2D newRectangle2D() -> a
    geogebra.common.awt.GRectangle newRectangle(int,int,int,int) -> a
    geogebra.common.awt.GBufferedImage newBufferedImage(int,int,int) -> a
    geogebra.common.awt.MyImage newMyImage(int,int,int) -> a
    geogebra.common.awt.GDimension newDimension(int,int) -> a
    geogebra.common.awt.GPoint2D newPoint2D() -> a
    geogebra.common.awt.GPoint2D newPoint2D(double,double) -> a
    geogebra.common.awt.GRectangle newRectangle(int,int) -> a
    geogebra.common.awt.GGeneralPath newGeneralPath() -> a
    geogebra.common.awt.GBasicStroke newMyBasicStroke(float) -> a
    geogebra.common.awt.GBasicStroke newBasicStroke(float,int,int,float,float[],float) -> a
    geogebra.common.awt.GBasicStroke newBasicStroke(float) -> b
    geogebra.common.awt.GBasicStroke newBasicStrokeJoinMitre(float) -> c
    geogebra.common.awt.GLine2D newLine2D() -> a
    geogebra.common.awt.GRectangle newRectangle(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GRectangle newRectangle() -> a
    geogebra.awt.GEllipse2DDoubleD newEllipse2DDouble() -> a
    geogebra.common.awt.GEllipse2DFloat newEllipse2DFloat(int,int,int,int) -> a
    geogebra.common.awt.GArc2D newArc2D() -> a
    geogebra.common.awt.GArea newArea() -> a
    geogebra.common.awt.GArea newArea(geogebra.common.awt.GShape) -> a
    geogebra.common.awt.GGeneralPath newGeneralPath(int) -> a
    geogebra.common.awt.GCubicCurve2D newCubicCurve2D() -> a
    geogebra.common.awt.GBasicStroke newBasicStroke(float,int,int) -> a
    geogebra.common.awt.font.GTextLayout newTextLayout(java.lang.String,geogebra.common.awt.GFont,geogebra.common.awt.GFontRenderContext) -> a
    geogebra.common.awt.GAlphaComposite newAlphaComposite(int,float) -> a
    geogebra.common.awt.GGradientPaint newGradientPaint(int,int,geogebra.common.awt.GColor,int,int,geogebra.common.awt.GColor) -> a
    geogebra.common.euclidian.event.FocusListener newFocusListener(java.lang.Object) -> a
    geogebra.euclidian.event.ActionListenerD newActionListener(geogebra.common.euclidian.event.ActionListenerI) -> a
    geogebra.common.awt.GPaint newTexturePaint(geogebra.common.awt.GBufferedImage,geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GPaint newTexturePaint(geogebra.common.awt.MyImage,geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GFont newFont(java.lang.String,int,int) -> a
    geogebra.common.awt.GEllipse2DDouble newEllipse2DDouble() -> a
    geogebra.common.euclidian.event.ActionListener newActionListener(geogebra.common.euclidian.event.ActionListenerI) -> a
geogebra.factories.CASFactoryD -> geogebra.e.b:
    geogebra.common.kernel.CASGenericInterface newGiac(geogebra.common.cas.CASparser,geogebra.common.cas.CasParserTools,geogebra.common.kernel.Kernel) -> a
geogebra.factories.FactoryD -> geogebra.e.c:
    geogebra.common.javax.swing.RelationPane newRelationPane() -> a
geogebra.factories.FormatFactoryD -> geogebra.e.d:
    geogebra.common.util.ScientificFormatAdapter getScientificFormat(int,int,boolean) -> a
    geogebra.common.util.NumberFormatAdapter getNumberFormat(int) -> a
    geogebra.common.util.NumberFormatAdapter getNumberFormat(java.lang.String,int) -> a
geogebra.factories.LaTeXFactoryD -> geogebra.e.e:
    geogebra.common.util.LaTeXCache newLaTeXCache() -> a
geogebra.factories.SwingFactoryD -> geogebra.e.f:
    geogebra.common.gui.inputfield.AutoCompleteTextField newAutoCompleteTextField(int,geogebra.common.main.App,geogebra.common.euclidian.Drawable) -> a
    geogebra.common.javax.swing.GLabel newJLabel(java.lang.String,boolean) -> a
    geogebra.common.javax.swing.GBox createHorizontalBox(geogebra.common.euclidian.EuclidianController) -> a
    geogebra.javax.swing.GComboBoxD newJComboBox(geogebra.common.main.App,int) -> a
    geogebra.common.javax.swing.AbstractJComboBox newJComboBox(geogebra.common.main.App,int) -> a
geogebra.factories.UtilFactoryD -> geogebra.e.g:
    geogebra.common.util.HttpRequest newHttpRequest() -> a
    geogebra.common.util.URLEncoder newURLEncoder() -> a
    geogebra.common.util.Prover newProver() -> a
geogebra.gui.AngleTextField -> geogebra.gui.a:
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.gui.ContextMenuChooseGeoD -> geogebra.gui.b:
    geogebra.common.euclidian.EuclidianView view -> a
    java.util.TreeSet metas -> a
    java.util.ArrayList selectedGeos -> b
    geogebra.common.awt.GPoint loc -> a
    javax.swing.JMenu selectAnotherMenu -> a
    boolean geoAddedForSelectAnother -> b
    void createSelectAnotherMenu(int) -> a
    void addSelectAnotherMenu() -> w
    void addGeo(geogebra.common.kernel.geos.GeoElement) -> a
    void setTitle(java.lang.String) -> a
    java.util.ArrayList access$0(geogebra.gui.ContextMenuChooseGeoD) -> a
    java.util.ArrayList access$1(geogebra.gui.ContextMenuChooseGeoD) -> b
    geogebra.common.awt.GPoint access$2(geogebra.gui.ContextMenuChooseGeoD) -> a
    geogebra.common.kernel.geos.GeoElement access$3(geogebra.gui.ContextMenuChooseGeoD) -> a
geogebra.gui.ContextMenuChooseGeoD$1 -> geogebra.gui.c:
    geogebra.gui.ContextMenuChooseGeoD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuChooseGeoD$GeoAction -> geogebra.gui.b$a:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.gui.ContextMenuChooseGeoD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuChooseGeoD$MyMouseAdapter -> geogebra.gui.b$b:
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.gui.ContextMenuChooseGeoD this$0 -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
geogebra.gui.ContextMenuGeoElementD -> geogebra.gui.d:
    java.awt.Color bgColor -> a
    java.awt.Color fgColor -> b
    javax.swing.JPopupMenu wrappedPopup -> a
    void addPointItems() -> w
    void addLineItems() -> x
    void addVectorItems() -> y
    void addConicItems() -> z
    void addUserInputItem() -> A
    void addNumberItems() -> B
    void addPin() -> C
    void addPlaneItems() -> D
    void addForAllItems() -> E
    void addAction(javax.swing.Action) -> a
    void addItem(javax.swing.JMenuItem) -> a
    void setTitle(java.lang.String) -> a
    void setMenuShortCutAccelerator(javax.swing.JMenuItem,char) -> a
    javax.swing.JPopupMenu getWrappedPopup() -> a
    void recordToSpreadSheetCmd() -> v
    boolean access$0(geogebra.gui.ContextMenuGeoElementD) -> a
geogebra.gui.ContextMenuGeoElementD$1 -> geogebra.gui.e:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$10 -> geogebra.gui.f:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$11 -> geogebra.gui.g:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    geogebra.common.kernel.geos.GeoUserInputElement val$inputElement -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$12 -> geogebra.gui.h:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    geogebra.common.kernel.geos.GeoUserInputElement val$inputElement -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$13 -> geogebra.gui.i:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    javax.swing.JCheckBoxMenuItem val$cbItem -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$14 -> geogebra.gui.j:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    geogebra.common.kernel.kernelND.ViewCreator val$plane -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$15 -> geogebra.gui.k:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$16 -> geogebra.gui.l:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$17 -> geogebra.gui.m:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$18 -> geogebra.gui.n:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$19 -> geogebra.gui.o:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$2 -> geogebra.gui.p:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$20 -> geogebra.gui.q:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$21 -> geogebra.gui.r:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$22 -> geogebra.gui.s:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    geogebra.common.kernel.geos.GeoNumeric val$num -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$23 -> geogebra.gui.t:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$24 -> geogebra.gui.u:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$25 -> geogebra.gui.v:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$26 -> geogebra.gui.w:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$27 -> geogebra.gui.x:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$28 -> geogebra.gui.y:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.ContextMenuGeoElementD$3 -> geogebra.gui.z:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$4 -> geogebra.gui.A:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$5 -> geogebra.gui.B:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$6 -> geogebra.gui.C:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$7 -> geogebra.gui.D:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$8 -> geogebra.gui.E:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGeoElementD$9 -> geogebra.gui.F:
    geogebra.gui.ContextMenuGeoElementD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGraphicsWindowD -> geogebra.gui.G:
    double px -> a
    double py -> b
    javax.swing.ImageIcon iconZoom -> a
    javax.swing.JMenuItem addShowAllObjectsView(geogebra.main.AppD) -> a
    javax.swing.JMenuItem addStandardViewItem() -> a
    void toggleShowConstructionProtocolNavigation() -> w
    void addMiProperties() -> x
    void addAxesAndGridCheckBoxes() -> y
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setStandardView() -> z
    void showOptionsDialog() -> A
    void addZoomItems(javax.swing.JMenu) -> a
    void addAxesRatioItems(javax.swing.JMenu) -> b
    void zoom(double) -> a
    void zoomYaxis(double) -> b
    void access$0(geogebra.gui.ContextMenuGraphicsWindowD,double) -> a
    void access$1(geogebra.gui.ContextMenuGraphicsWindowD,double) -> b
geogebra.gui.ContextMenuGraphicsWindowD$1 -> geogebra.gui.H:
    geogebra.gui.ContextMenuGraphicsWindowD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGraphicsWindowD$2 -> geogebra.gui.I:
    geogebra.gui.ContextMenuGraphicsWindowD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ContextMenuGraphicsWindowD$3 -> geogebra.gui.J:
    geogebra.gui.ContextMenuGraphicsWindowD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.DynamicTextInputPane -> geogebra.gui.K:
    geogebra.main.AppD app -> a
    geogebra.gui.DynamicTextInputPane thisPane -> a
    javax.swing.text.DefaultStyledDocument doc -> a
    javax.swing.text.JTextComponent focusedTextComponent -> a
    void replaceSelection(java.lang.String) -> replaceSelection
    javax.swing.text.JTextComponent getFocusedTextComponent() -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    geogebra.gui.DynamicTextInputPane$DynamicTextField insertDynamicText(java.lang.String,geogebra.gui.dialog.TextInputDialog) -> a
    geogebra.gui.DynamicTextInputPane$DynamicTextField insertDynamicText(java.lang.String,int,geogebra.gui.dialog.TextInputDialog) -> a
    java.lang.String buildGeoGebraString(boolean) -> a
    void setText(geogebra.common.kernel.geos.GeoText,geogebra.gui.dialog.TextInputDialog) -> a
    void splitString(geogebra.common.kernel.arithmetic.ExpressionNode,geogebra.gui.dialog.TextInputDialog) -> a
    void insertString(int,java.lang.String,javax.swing.text.AttributeSet) -> a
geogebra.gui.DynamicTextInputPane$DynamicTextField -> geogebra.gui.K$a:
    int mode -> a
    geogebra.gui.dialog.TextInputDialog id -> a
    javax.swing.JPopupMenu contextMenu -> a
    geogebra.gui.DynamicTextInputPane this$0 -> a
    java.awt.Dimension getMaximumSize() -> getMaximumSize
    int getMode() -> a
    void setMode(int) -> a
    void createContextMenu() -> b
    geogebra.gui.DynamicTextInputPane access$0(geogebra.gui.DynamicTextInputPane$DynamicTextField) -> a
geogebra.gui.DynamicTextInputPane$DynamicTextField$1 -> geogebra.gui.L:
    geogebra.gui.DynamicTextInputPane$DynamicTextField this$1 -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
geogebra.gui.DynamicTextInputPane$DynamicTextField$2 -> geogebra.gui.M:
    geogebra.gui.DynamicTextInputPane$DynamicTextField this$1 -> a
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
geogebra.gui.DynamicTextInputPane$DynamicTextField$3 -> geogebra.gui.N:
    geogebra.gui.DynamicTextInputPane$DynamicTextField this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.DynamicTextInputPane$DynamicTextField$4 -> geogebra.gui.O:
    geogebra.gui.DynamicTextInputPane$DynamicTextField this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.DynamicTextInputPane$DynamicTextField$MyKeyListener -> geogebra.gui.K$a$a:
    geogebra.gui.DynamicTextInputPane$DynamicTextField tf -> b
    geogebra.gui.DynamicTextInputPane$DynamicTextField this$1 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.FileDropTargetListener -> geogebra.gui.P:
    java.awt.datatransfer.DataFlavor urlFlavor -> a
    geogebra.main.AppD app -> a
    void dragEnter(java.awt.dnd.DropTargetDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DropTargetEvent) -> dragExit
    void dragOver(java.awt.dnd.DropTargetDragEvent) -> dragOver
    void dropActionChanged(java.awt.dnd.DropTargetDragEvent) -> dropActionChanged
    void drop(java.awt.dnd.DropTargetDropEvent) -> drop
    boolean handleFileDrop(java.awt.datatransfer.Transferable) -> a
    boolean isGGBFile(java.lang.String) -> a
    boolean isGGTFile(java.lang.String) -> b
    java.util.ArrayList getGGBfiles(java.awt.datatransfer.Transferable) -> a
geogebra.gui.GeoGebraKeys -> geogebra.gui.Q:
    java.lang.StringBuilder altCodes -> a
    boolean altPressed -> a
    geogebra.main.AppD app -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.gui.GuiManagerD -> geogebra.gui.R:
    geogebra.gui.dialog.DialogManagerD dialogManager -> a
    geogebra.gui.dialog.DialogManagerD$Factory dialogManagerFactory -> a
    geogebra.gui.inputbar.AlgebraInput algebraInput -> a
    geogebra.gui.view.algebra.AlgebraControllerD algebraController -> a
    geogebra.gui.view.algebra.AlgebraViewD algebraView -> a
    geogebra.cas.view.CASViewD casView -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView spreadsheetView -> a
    java.util.ArrayList euclidianView2 -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD constructionProtocolView -> a
    geogebra.gui.view.assignment.AssignmentView assignmentView -> a
    geogebra.gui.menubar.GeoGebraMenuBar menuBar -> a
    javax.swing.JMenuBar menuBar2 -> a
    java.lang.String strCustomToolbarDefinition -> a
    geogebra.gui.toolbar.ToolbarContainer toolbarPanel -> a
    boolean htmlLoaded -> a
    geogebra.gui.layout.LayoutD layout -> a
    geogebra.gui.view.data.DataAnalysisViewD dataView -> a
    java.lang.String lastFilenameOfSaveDialog -> b
    java.awt.datatransfer.DataFlavor urlFlavor -> a
    java.awt.datatransfer.DataFlavor uriListFlavor -> b
    javax.swing.AbstractAction showAxesAction -> a
    javax.swing.AbstractAction showGridAction -> b
    javax.swing.AbstractAction undoAction -> c
    javax.swing.AbstractAction redoAction -> d
    geogebra.gui.layout.panels.PropertiesDockPanel propertiesDockPanel -> a
    geogebra.gui.view.properties.PropertiesViewD propertiesView -> a
    geogebra.gui.ContextMenuGraphicsWindowD drawingPadpopupMenu -> a
    geogebra.gui.ContextMenuGeoElementD popupMenu -> a
    geogebra.common.gui.VirtualKeyboardListener currentKeyboardListener -> a
    geogebra.gui.virtualkeyboard.WindowsUnicodeKeyboard kb -> a
    geogebra.gui.virtualkeyboard.VirtualKeyboard virtualKeyboard -> a
    java.util.ArrayList recentSymbolList -> b
    geogebra.gui.inputbar.InputBarHelpPanel inputHelpPanel -> a
    java.lang.String getLastFileNameOfSaveDialog() -> b
    void initialize() -> J
    void updateLayout() -> W
    void initLayoutPanels() -> X
    geogebra.gui.layout.panels.PropertiesDockPanel getPropertiesDockPanel() -> a
    geogebra.gui.layout.panels.EuclidianDockPanel newEuclidianDockPanel() -> a
    geogebra.gui.layout.panels.Euclidian2DockPanel newEuclidian2DockPanel(int) -> a
    boolean isInputFieldSelectionListener() -> e
    geogebra.cas.view.CASViewD getCasView() -> a
    geogebra.gui.view.algebra.AlgebraViewD getAlgebraView() -> a
    void applyAlgebraViewSettings() -> S
    geogebra.common.kernel.View getPropertiesView() -> f
    geogebra.gui.view.properties.PropertiesViewD newPropertiesViewD(geogebra.main.AppD) -> a
    boolean hasPropertiesView() -> i
    geogebra.gui.view.algebra.AlgebraViewD newAlgebraView(geogebra.gui.view.algebra.AlgebraControllerD) -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView getConstructionProtocolView() -> a
    geogebra.common.kernel.View getConstructionProtocolData() -> a
    geogebra.gui.view.assignment.AssignmentView getAssignmentView() -> a
    void startEditing(geogebra.common.kernel.geos.GeoElement) -> b
    void setScrollToShow(boolean) -> d
    void resetSpreadsheet() -> K
    boolean hasSpreadsheetView() -> f
    boolean hasAlgebraViewShowing() -> d
    boolean hasAlgebraView() -> a
    boolean hasProbabilityCalculator() -> c
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD getProbabilityCalculator() -> a
    geogebra.gui.view.data.DataAnalysisViewD getDataAnalysisView() -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView getSpreadsheetView() -> a
    void updateSpreadsheetColumnWidths() -> m
    void getSpreadsheetViewXML(java.lang.StringBuilder,boolean) -> a
    void getAlgebraViewXML(java.lang.StringBuilder,boolean) -> b
    geogebra.euclidian.EuclidianViewD getEuclidianView2(int) -> a
    geogebra.euclidian.EuclidianViewD newEuclidianView(boolean[],boolean,int) -> a
    boolean hasEuclidianView2(int) -> b
    boolean hasEuclidianView2EitherShowingOrNot(int) -> c
    geogebra.common.euclidian.EuclidianView getActiveEuclidianView() -> a
    void attachSpreadsheetView() -> l
    void detachSpreadsheetView() -> H
    void attachAlgebraView() -> w
    void detachAlgebraView() -> I
    void attachCasView() -> x
    void detachCasView() -> F
    void attachConstructionProtocolView() -> y
    void detachConstructionProtocolView() -> G
    void attachProbabilityCalculatorView() -> z
    void detachProbabilityCalculatorView() -> E
    void attachDataAnalysisView() -> B
    void detachDataAnalysisView() -> C
    void attachAssignmentView() -> A
    void detachAssignmentView() -> D
    void attachPropertiesView() -> v
    void detachPropertiesView() -> u
    void setShowAuxiliaryObjects(boolean) -> b
    void initAlgebraController() -> ak
    javax.swing.JComponent getAlgebraInput() -> a
    geogebra.common.javax.swing.GTextComponent getAlgebraInputTextField() -> a
    geogebra.common.main.DialogManager getDialogManager() -> a
    void setLayout(geogebra.common.gui.Layout) -> a
    geogebra.gui.layout.LayoutD getLayout() -> a
    java.awt.Container getToolbarPanelContainer() -> a
    geogebra.gui.toolbar.ToolbarContainer getToolbarPanel() -> a
    void updateToolbar() -> O
    void setShowView(boolean,int) -> a
    void setShowView(boolean,int,boolean) -> a
    boolean showView(int) -> a
    void setShowToolBarHelp(boolean) -> e
    boolean isConsProtNavigationPlayButtonVisible() -> k
    boolean isConsProtNavigationProtButtonVisible() -> l
    void updateConstructionProtocol() -> c
    boolean isUsingConstructionProtocol() -> b
    java.lang.String getDefaultToolbarString() -> c
    void updateFonts() -> k
    void setLabels() -> R
    void initMenubar() -> Y
    void updateMenubar() -> a
    void updateMenubarSelection() -> j
    void updateMenuWindow() -> L
    void updateMenuFile() -> M
    javax.swing.JMenuBar getMenuBar() -> a
    void updateMenuBarLayout() -> Z
    void showAboutDialog() -> aa
    void showPrintPreview() -> ab
    void showDrawingPadPopup(java.awt.Component,geogebra.common.awt.GPoint) -> a
    void showPopupMenu(java.util.ArrayList,java.awt.Component,geogebra.common.awt.GPoint) -> a
    void showPopupChooseGeo(java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView,geogebra.common.awt.GPoint) -> a
    boolean loadImage(java.awt.datatransfer.Transferable,boolean) -> a
    java.awt.Color showColorChooser(geogebra.common.awt.GColor) -> a
    java.lang.String getStringFromClipboard() -> d
    java.lang.String[] getImageFromTransferable(java.awt.datatransfer.Transferable) -> a
    java.lang.String getImageFromFile() -> e
    java.lang.String getImageFromFile(java.io.File) -> a
    java.io.File getDataFile() -> a
    boolean saveCurrentFile() -> j
    boolean save() -> g
    boolean saveAs() -> m
    java.io.File showSaveDialog(java.lang.String,java.io.File,java.lang.String,boolean,boolean) -> a
    java.io.File showSaveDialog(java.lang.String[],java.io.File,java.lang.String[],boolean,boolean) -> a
    java.io.File addExtension(java.io.File,java.lang.String) -> a
    java.io.File removeExtension(java.io.File) -> a
    void openURL() -> p
    void openFromGGT() -> ac
    void openFile() -> q
    void openFile(java.io.File) -> a
    void doOpenFiles(java.io.File[],boolean) -> a
    void doOpenFiles(java.io.File[],boolean,java.lang.String) -> a
    void allowGUIToRefresh() -> P
    boolean handleGGBFileDrop(java.awt.datatransfer.Transferable) -> a
    boolean loadFile(java.io.File,boolean) -> a
    java.net.URL getEscapedUrl(java.lang.String) -> a
    boolean loadBase64File(java.io.File) -> a
    boolean loadURL_GGB(java.lang.String) -> b
    boolean loadURL_base64(java.lang.String) -> c
    boolean loadFromApplet(java.lang.String) -> d
    void updateGUIafterLoadFile(boolean,boolean) -> a
    boolean initActions() -> n
    void updateCheckBoxesForShowConstructinProtocolNavigation() -> U
    void updateActions() -> b
    javax.swing.AbstractAction getShowAxesAction() -> a
    javax.swing.AbstractAction getShowGridAction() -> b
    geogebra.gui.toolbar.ToolbarD getGeneralToolbar() -> a
    java.lang.String getToolbarDefinition() -> a
    void removeFromToolbarDefinition(int) -> c
    void addToToolbarDefinition(int) -> d
    void showURLinBrowser(java.net.URL) -> a
    void openToolHelp() -> ad
    void openToolHelp(int) -> e
    void openHelp(java.lang.String,geogebra.common.gui.GuiManager$Help) -> a
    void showURLinBrowser(java.lang.String) -> d
    java.lang.String getCreatedWithHTML(boolean) -> a
    int setToolbarMode(int) -> a
    javax.swing.AbstractAction getRedoAction() -> c
    javax.swing.AbstractAction getUndoAction() -> d
    void updateFrameSize() -> ae
    void updateFrameTitle() -> Q
    java.lang.Object createFrame() -> a
    void exitAll() -> N
    void setCurrentTextfield(geogebra.common.gui.VirtualKeyboardListener,boolean) -> a
    void insertStringIntoTextfield(java.lang.String,boolean,boolean,boolean) -> a
    void toggleKeyboard(boolean) -> f
    geogebra.gui.virtualkeyboard.VirtualKeyboard getVirtualKeyboard() -> a
    boolean showVirtualKeyboard() -> o
    boolean noMenusOpen() -> h
    java.util.ArrayList getRecentSymbolList() -> a
    void setFontRecursive(java.awt.Container,java.awt.Font) -> a
    boolean hasInputHelpPanel() -> p
    void reInitHelpPanel() -> af
    java.awt.Component getInputHelpPanel() -> a
    void setFocusedPanel(geogebra.euclidian.event.MouseEventND,boolean) -> a
    void setFocusedPanel(int,boolean) -> a
    void setFocusedPanel(geogebra.gui.layout.DockPanel,boolean) -> a
    void updateAlgebraInput() -> n
    void updatePropertiesView() -> ag
    void mouseReleasedForPropertiesView(boolean) -> c
    void mousePressedForPropertiesView() -> o
    void showPopupChooseGeo(java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> a
    void setFocusedPanel(geogebra.common.euclidian.event.AbstractEvent,boolean) -> a
    void loadImage(geogebra.common.kernel.geos.GeoPoint,java.lang.Object,boolean) -> a
    boolean loadImage(geogebra.common.kernel.geos.GeoPoint,boolean,java.awt.datatransfer.Transferable) -> a
    void showDrawingPadPopup(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> a
    void showDrawingPadPopup3D(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> b
    void showPropertiesViewSliderTab() -> ah
    void showGraphicExport() -> r
    void showPSTricksExport() -> s
    void showWebpageExport() -> t
    void clearInputbar() -> T
    int getInputHelpPanelMinimumWidth() -> a
    int getActiveToolbarId() -> b
    geogebra.main.AppD getApp() -> a
    void setToolBarDefinition(java.lang.String) -> c
    boolean checkAutoCreateSliders(java.lang.String,geogebra.common.util.AsyncOperation) -> a
    boolean belongsToToolCreator(javax.swing.ListCellRenderer) -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolNavigation getConstructionProtocolNavigation() -> a
    void login() -> ai
    void logout() -> V
    void setCallerApp() -> f
    void invokeLater(java.lang.Runnable) -> a
    int getEuclidianViewCount() -> c
    void resetCasView() -> aj
    java.lang.String oomlToMathml(java.lang.String) -> a
    geogebra.common.kernel.View getDataAnalysisView() -> e
    geogebra.common.kernel.View getCasView() -> b
    geogebra.common.kernel.View getAlgebraView() -> g
    java.awt.Component getMenuBar() -> b
    geogebra.common.kernel.View getEuclidianView2(int) -> b
    geogebra.common.kernel.View getProbabilityCalculator() -> d
    geogebra.common.main.App getApp() -> a
    geogebra.common.kernel.View getSpreadsheetView() -> c
    geogebra.common.gui.Layout getLayout() -> a
geogebra.gui.GuiManagerD$1 -> geogebra.gui.S:
    geogebra.gui.GuiManagerD this$0 -> a
    boolean accept(java.io.File,java.lang.String) -> accept
geogebra.gui.GuiManagerD$2 -> geogebra.gui.T:
    geogebra.gui.GuiManagerD this$0 -> a
    boolean accept(java.io.File,java.lang.String) -> accept
geogebra.gui.GuiManagerD$3 -> geogebra.gui.U:
    geogebra.gui.GuiManagerD this$0 -> a
    boolean accept(java.io.File,java.lang.String) -> accept
geogebra.gui.GuiManagerD$4 -> geogebra.gui.V:
    geogebra.gui.GuiManagerD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.GuiManagerD$5 -> geogebra.gui.W:
    geogebra.gui.GuiManagerD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.GuiManagerD$6 -> geogebra.gui.X:
    geogebra.gui.GuiManagerD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.GuiManagerD$7 -> geogebra.gui.Y:
    geogebra.gui.GuiManagerD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ImageResizer -> geogebra.gui.Z:
    java.awt.image.BufferedImage resizeImage(java.awt.image.BufferedImage,int,int) -> a
geogebra.gui.MyImageD -> geogebra.gui.aa:
    java.awt.Image img -> a
    com.kitfox.svg.SVGDiagram diagram -> a
    java.lang.StringBuilder svg -> a
    java.lang.String getMD5() -> a
    void load(java.io.File) -> a
    java.awt.Image getImage() -> a
    boolean isSVG() -> a
    int getHeight() -> b
    int getWidth() -> a
    geogebra.common.awt.GBufferedImage getSubimage(int,int,int,int) -> a
    geogebra.common.awt.GGraphics2D createGraphics() -> a
    com.kitfox.svg.SVGDiagram getDiagram() -> a
    java.lang.String getSVG() -> b
    void drawImage(java.awt.Graphics2D,int,int,int,int) -> a
geogebra.gui.NumberComboBox -> geogebra.gui.ab:
    geogebra.common.util.NumberFormatAdapter nf -> a
    geogebra.common.kernel.Kernel kernel -> a
    void setValue(double) -> a
    double getValue() -> a
geogebra.gui.TitlePanel -> geogebra.gui.ac:
    javax.swing.JTextField titleField -> a
    javax.swing.JTextField authorField -> b
    javax.swing.JFormattedTextField dateField -> a
    java.util.ArrayList listeners -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.main.LocalizationD loc -> a
    void updateData() -> a
    java.lang.String configureDate(java.lang.String) -> a
    java.lang.String loadAuthor() -> a
    boolean saveAuthor(java.lang.String) -> a
    void fireTextFieldUpdate(javax.swing.JTextField) -> a
    void addActionListener(java.awt.event.ActionListener) -> a
    void notifyListeners() -> b
    void access$0(geogebra.gui.TitlePanel,javax.swing.JTextField) -> a
geogebra.gui.TitlePanel$1 -> geogebra.gui.ad:
    geogebra.gui.TitlePanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.TitlePanel$2 -> geogebra.gui.ae:
    geogebra.gui.TitlePanel this$0 -> a
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.gui.ToolNameIconPanel -> geogebra.gui.af:
    javax.swing.JTextField tfCmdName -> a
    javax.swing.JTextField tfToolHelp -> b
    javax.swing.JTextField tfToolName -> c
    javax.swing.JCheckBox cbShowInToolBar -> a
    javax.swing.JLabel labelIcon -> a
    java.lang.String iconFileName -> a
    javax.swing.JButton btIconFile -> a
    geogebra.main.AppD app -> a
    boolean editHappens -> a
    geogebra.gui.dialog.ToolManagerDialog managerDialog -> a
    geogebra.common.kernel.Macro macro -> a
    void updateMacro() -> a
    void setFromMacro(geogebra.common.kernel.Macro) -> a
    void init(geogebra.gui.dialog.ToolManagerDialog,geogebra.common.kernel.Macro) -> a
    void requestFocus() -> requestFocus
    java.lang.String getCommandName() -> a
    java.lang.String getToolName() -> b
    void setToolName(java.lang.String) -> a
    java.lang.String getToolHelp() -> c
    void setToolHelp(java.lang.String) -> b
    boolean showInToolBar() -> a
    void setIconFileName(java.lang.String) -> c
    java.lang.String getIconFileName() -> d
    void updateCmdName(java.lang.Object) -> a
    java.lang.String defaultToolName() -> e
    void access$0(geogebra.gui.ToolNameIconPanel,java.lang.Object) -> a
    javax.swing.JCheckBox access$1(geogebra.gui.ToolNameIconPanel) -> a
    javax.swing.JLabel access$2(geogebra.gui.ToolNameIconPanel) -> a
    javax.swing.JButton access$3(geogebra.gui.ToolNameIconPanel) -> a
    void access$4(geogebra.gui.ToolNameIconPanel) -> a
    boolean access$5(geogebra.gui.ToolNameIconPanel) -> a
    geogebra.common.kernel.Macro access$6(geogebra.gui.ToolNameIconPanel) -> a
geogebra.gui.ToolNameIconPanel$1 -> geogebra.gui.ag:
    geogebra.gui.ToolNameIconPanel this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
geogebra.gui.ToolNameIconPanel$2 -> geogebra.gui.ah:
    geogebra.gui.ToolNameIconPanel this$0 -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.gui.ToolNameIconPanel$3 -> geogebra.gui.ai:
    geogebra.gui.ToolNameIconPanel this$0 -> a
    geogebra.main.AppD val$app -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.ToolNameIconPanel$4 -> geogebra.gui.aj:
    geogebra.gui.ToolNameIconPanel this$0 -> a
    geogebra.main.AppD val$app -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.app.GeoGebraFrame -> geogebra.gui.a.a:
    java.util.ArrayList instances -> a
    geogebra.gui.app.GeoGebraFrame activeInstance -> a
    geogebra.gui.FileDropTargetListener dropTargetListener -> a
    java.util.List instanceListener -> a
    geogebra.main.AppD app -> a
    void dispose() -> dispose
    geogebra.main.AppD getApplication() -> a
    void setApplication(geogebra.main.AppD) -> a
    int getInstanceNumber() -> a
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    java.util.Locale getLocale() -> getLocale
    void setVisible(boolean) -> setVisible
    void updateSize() -> a
    void main(geogebra.CommandLineArguments) -> a
    void init(geogebra.CommandLineArguments,geogebra.gui.app.GeoGebraFrame) -> a
    geogebra.gui.app.GeoGebraFrame getActiveInstance() -> a
    void initMacSpecifics() -> b
    geogebra.gui.app.GeoGebraFrame createNewWindow(geogebra.CommandLineArguments) -> a
    geogebra.main.AppD createApplication(geogebra.CommandLineArguments,javax.swing.JFrame) -> a
    geogebra.gui.app.GeoGebraFrame createNewWindow(geogebra.CommandLineArguments,geogebra.common.kernel.Macro) -> a
    geogebra.gui.app.GeoGebraFrame createNewWindow(geogebra.CommandLineArguments,geogebra.gui.app.GeoGebraFrame) -> a
    geogebra.gui.app.GeoGebraFrame$AppThread createAppThread(geogebra.main.AppD) -> a
    java.lang.Long versionToLong(java.lang.String) -> a
    int getInstanceCount() -> b
    java.util.ArrayList getInstances() -> a
    geogebra.gui.app.GeoGebraFrame getInstance(int) -> a
    void updateAllTitles() -> c
    geogebra.gui.app.GeoGebraFrame getInstanceWithFile(java.io.File) -> a
    boolean isIconified() -> a
    geogebra.gui.FileDropTargetListener getDropTargetListener() -> a
    int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print
    void checkCommandLineExport(geogebra.main.AppD) -> b
geogebra.gui.app.GeoGebraFrame$1 -> geogebra.gui.a.b:
    geogebra.CommandLineArguments val$args -> a
    geogebra.main.AppD val$app -> a
    void run() -> run
geogebra.gui.app.GeoGebraFrame$2 -> geogebra.gui.a.c:
    java.lang.String val$extension -> a
    geogebra.main.AppD val$app -> a
    int val$dpi -> a
    java.lang.String val$filename -> b
    void run() -> run
geogebra.gui.app.GeoGebraFrame$2$1 -> geogebra.gui.a.d:
    geogebra.gui.app.GeoGebraFrame$2 this$1 -> a
    geogebra3D.euclidian3D.EuclidianView3DD val$ev -> a
    java.lang.String val$filename -> a
    void run() -> run
geogebra.gui.app.GeoGebraFrame$AppThread -> geogebra.gui.a.a$a:
    geogebra.main.AppD app -> a
    geogebra.gui.app.GeoGebraFrame this$0 -> a
    void run() -> run
    void downloadGeoGebraJars() -> a
    void checkVersion() -> b
geogebra.gui.app.GeoGebraFrame3D -> geogebra.gui.a.e:
    void main(geogebra.CommandLineArguments) -> b
    geogebra.main.AppD createApplication(geogebra.CommandLineArguments,javax.swing.JFrame) -> a
    geogebra.gui.app.GeoGebraFrame createNewWindow3D(geogebra.CommandLineArguments) -> b
geogebra.gui.app.MacApplicationListener -> geogebra.gui.a.f:
    void initMacApplicationListener() -> a
    geogebra.gui.app.GeoGebraFrame getGGBInstance() -> a
    void handleQuit(com.apple.eawt.ApplicationEvent) -> handleQuit
    void handleAbout(com.apple.eawt.ApplicationEvent) -> handleAbout
    void handleOpenFile(com.apple.eawt.ApplicationEvent) -> handleOpenFile
    void handlePrintFile(com.apple.eawt.ApplicationEvent) -> handlePrintFile
    void handleOpenApplication(com.apple.eawt.ApplicationEvent) -> handleOpenApplication
    void handlePreferences(com.apple.eawt.ApplicationEvent) -> handlePreferences
    void handleReOpenApplication(com.apple.eawt.ApplicationEvent) -> handleReOpenApplication
geogebra.gui.app.MyFileFilter -> geogebra.gui.a.g:
    java.util.ArrayList filters -> a
    java.lang.String description -> a
    java.lang.String fullDescription -> b
    boolean useExtensionsInDescription -> a
    boolean accept(java.io.File) -> accept
    java.lang.String getExtension(java.io.File) -> a
    void addExtension(java.lang.String) -> a
    java.lang.String toString() -> toString
    java.lang.String getDescription() -> getDescription
    void setDescription(java.lang.String) -> b
    boolean isExtensionListInDescription() -> a
    java.lang.String getExtension() -> a
geogebra.gui.app.NewInstanceListener -> geogebra.gui.a.h:
    void newInstance(geogebra.gui.app.GeoGebraFrame) -> a
geogebra.gui.autocompletion.AutoCompletion -> geogebra.gui.b.a:
    geogebra.gui.autocompletion.FileChooserCompletionListCellRenderer FC_CELL_RENDERER -> a
    boolean caseInsensitivePaths -> a
    boolean initCaseInsenitvePaths() -> a
    void install(javax.swing.JFileChooser,boolean) -> a
    java.lang.String fileToString(java.io.File) -> b
    javax.swing.JTextField getInternalTextField(java.awt.Container) -> a
    void install(javax.swing.JTextField,geogebra.gui.autocompletion.CompletionProvider,javax.swing.ListCellRenderer,int) -> a
    java.lang.String access$0(java.io.File) -> a
geogebra.gui.autocompletion.AutoCompletion$1 -> geogebra.gui.b.b:
    javax.swing.JFileChooser val$fileChooser -> a
    boolean val$caseInsensitiveCompletion -> a
    java.util.List getCompletionOptions(java.lang.String) -> a
    java.lang.String toString(java.io.File) -> a
    java.lang.String toString(java.lang.Object) -> a
geogebra.gui.autocompletion.AutoCompletion$1$1 -> geogebra.gui.b.c:
    geogebra.gui.autocompletion.AutoCompletion$1 this$1 -> a
    javax.swing.filechooser.FileFilter val$fileChooserFileFilter -> a
    boolean accept(java.io.File) -> accept
geogebra.gui.autocompletion.AutoCompletion$1$2 -> geogebra.gui.b.d:
    geogebra.gui.autocompletion.AutoCompletion$1 this$1 -> a
    java.lang.String toString(java.io.File) -> a
    java.lang.String toString(java.lang.Object) -> a
geogebra.gui.autocompletion.CommandCompletionListCellRenderer -> geogebra.gui.b.e:
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.autocompletion.CompletionProvider -> geogebra.gui.b.f:
    java.util.List getCompletionOptions(java.lang.String) -> a
    java.lang.String toString(java.lang.Object) -> a
geogebra.gui.autocompletion.CompletionsPopup -> geogebra.gui.b.g:
    geogebra.gui.inputfield.AutoCompleteTextFieldD textField -> a
    int maxPopupRowCount -> a
    javax.swing.JPopupMenu popup -> a
    geogebra.gui.autocompletion.DelegatingListModel listModel -> a
    javax.swing.JList list -> a
    javax.swing.event.DocumentListener textFieldDocListener -> a
    java.awt.event.KeyListener keyListener -> a
    java.awt.event.KeyListener[] textFieldKeyListeners -> a
    int current_length -> b
    void setFont(java.awt.Font) -> a
    void registerListeners() -> c
    void placePopup() -> a
    void showCompletions() -> b
    void showPopup() -> d
    boolean isPopupVisible() -> a
    void hidePopup() -> e
    void handleSpecialKeys(java.awt.event.KeyEvent) -> a
    void navigateRelative(int) -> a
    void handleMouseClick(java.awt.event.MouseEvent) -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD access$0(geogebra.gui.autocompletion.CompletionsPopup) -> a
    java.awt.event.KeyListener access$1(geogebra.gui.autocompletion.CompletionsPopup) -> a
    java.awt.event.KeyListener[] access$2(geogebra.gui.autocompletion.CompletionsPopup) -> a
    void access$3(geogebra.gui.autocompletion.CompletionsPopup,java.awt.event.KeyListener[]) -> a
    int access$4(geogebra.gui.autocompletion.CompletionsPopup) -> a
    void access$5(geogebra.gui.autocompletion.CompletionsPopup) -> a
    void access$6(geogebra.gui.autocompletion.CompletionsPopup,int) -> a
    void access$7(geogebra.gui.autocompletion.CompletionsPopup,java.awt.event.MouseEvent) -> a
    boolean access$8(geogebra.gui.autocompletion.CompletionsPopup) -> a
geogebra.gui.autocompletion.CompletionsPopup$1 -> geogebra.gui.b.h:
    geogebra.gui.autocompletion.CompletionsPopup this$0 -> a
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
geogebra.gui.autocompletion.CompletionsPopup$2 -> geogebra.gui.b.i:
    geogebra.gui.autocompletion.CompletionsPopup this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.autocompletion.CompletionsPopup$3 -> geogebra.gui.b.j:
    geogebra.gui.autocompletion.CompletionsPopup this$0 -> a
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.gui.autocompletion.CompletionsPopup$4 -> geogebra.gui.b.k:
    geogebra.gui.autocompletion.CompletionsPopup this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.autocompletion.CompletionsPopup$5 -> geogebra.gui.b.l:
    geogebra.gui.autocompletion.CompletionsPopup this$0 -> a
    void ancestorMoved(java.awt.event.HierarchyEvent) -> ancestorMoved
geogebra.gui.autocompletion.CompletionsPopup$PopupListener -> geogebra.gui.b.g$a:
    geogebra.gui.autocompletion.CompletionsPopup this$0 -> a
    void popupMenuCanceled(javax.swing.event.PopupMenuEvent) -> popupMenuCanceled
    void popupMenuWillBecomeInvisible(javax.swing.event.PopupMenuEvent) -> popupMenuWillBecomeInvisible
    void popupMenuWillBecomeVisible(javax.swing.event.PopupMenuEvent) -> popupMenuWillBecomeVisible
geogebra.gui.autocompletion.DelegatingListModel -> geogebra.gui.b.m:
    java.util.List delegate -> a
    int getSize() -> getSize
    java.lang.Object getElementAt(int) -> getElementAt
    void setDataList(java.util.List) -> a
geogebra.gui.autocompletion.FileChooserCompletionListCellRenderer -> geogebra.gui.b.n:
    javax.swing.Icon DIRECTORY_ICON -> a
    javax.swing.Icon UNKNOWN_FILE_ICON -> b
    java.util.Map FILE_EXT_ICONS -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    javax.swing.Icon getIcon(java.io.File) -> a
    javax.swing.Icon loadIcon(java.lang.String) -> a
geogebra.gui.autocompletion.OptionsPopup -> geogebra.gui.b.o:
    javax.swing.JTextField textField -> a
    geogebra.gui.autocompletion.CompletionProvider completionProvider -> a
    int maxPopupRowCount -> a
    javax.swing.JPopupMenu popup -> a
    geogebra.gui.autocompletion.DelegatingListModel listModel -> a
    javax.swing.JList list -> a
    javax.swing.event.DocumentListener documentListener -> a
    java.lang.String userInput -> a
    int popupRowCount -> b
    void registerListeners() -> a
    void showCompletion() -> b
    void showOptionsPopup() -> c
    void adjustPopupSize(int) -> a
    boolean isOptionsPopupVisible() -> a
    void hideOptionsPopup() -> d
    void updateText() -> e
    void handleSpecialKeys(java.awt.event.KeyEvent) -> a
    void navigateRelative(int) -> b
    void handleMouseClick(java.awt.event.MouseEvent) -> a
    void access$0(geogebra.gui.autocompletion.OptionsPopup) -> a
    void access$1(geogebra.gui.autocompletion.OptionsPopup,java.awt.event.KeyEvent) -> a
    void access$2(geogebra.gui.autocompletion.OptionsPopup) -> b
    void access$3(geogebra.gui.autocompletion.OptionsPopup,java.awt.event.MouseEvent) -> a
geogebra.gui.autocompletion.OptionsPopup$1 -> geogebra.gui.b.p:
    geogebra.gui.autocompletion.OptionsPopup this$0 -> a
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
geogebra.gui.autocompletion.OptionsPopup$2 -> geogebra.gui.b.q:
    geogebra.gui.autocompletion.OptionsPopup this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.autocompletion.OptionsPopup$3 -> geogebra.gui.b.r:
    geogebra.gui.autocompletion.OptionsPopup this$0 -> a
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.gui.autocompletion.OptionsPopup$4 -> geogebra.gui.b.s:
    geogebra.gui.autocompletion.OptionsPopup this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.autocompletion.SortedArrayCompletionProvider -> geogebra.gui.b.t:
    java.lang.Comparable[] sortedCompletionOptions -> a
    boolean caseInsensitiveCompletion -> a
    java.util.List getCompletionOptions(java.lang.String) -> a
    boolean isValidCompletionOpiton(java.lang.String,java.lang.String) -> a
geogebra.gui.color.ColorPopupMenuButton -> geogebra.gui.c.a:
    geogebra.main.AppD app -> a
    int colorSetType -> a
    geogebra.common.awt.GColor[] colorSet -> a
    geogebra.common.awt.GColor defaultColor -> a
    java.util.HashMap lookupMap -> a
    boolean hasSlider -> b
    java.awt.Dimension iconSize -> a
    void updateColorTable() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    javax.swing.ImageIcon getButtonIcon() -> a
    int getColorIndex(java.awt.Color) -> a
    geogebra.common.awt.GColor getSelectedColor() -> a
    geogebra.common.awt.GColor[] getColorArray(int) -> a
    void setDefaultColor(float,geogebra.common.awt.GColor) -> a
    java.lang.String[] getToolTipArray() -> a
    javax.swing.ImageIcon[] getColorSwatchIcons(geogebra.common.awt.GColor[],float,java.awt.Dimension,int) -> a
    javax.swing.ImageIcon[] createDummyIcons(java.awt.Dimension) -> a
geogebra.gui.color.DefaultRGBChooserPanel -> geogebra.gui.c.b:
    boolean internalChange -> a
    javax.swing.event.ChangeListener colorChanger -> a
    javax.swing.event.ChangeListener spinnerHandler -> b
    javax.swing.JSlider R -> a
    javax.swing.JSlider G -> b
    javax.swing.JSlider B -> c
    javax.swing.JLabel redLabel -> a
    javax.swing.JLabel greenLabel -> b
    javax.swing.JLabel blueLabel -> c
    javax.swing.JSpinner RSpinner -> a
    javax.swing.JSpinner GSpinner -> b
    javax.swing.JSpinner BSpinner -> c
    geogebra.gui.color.DefaultRGBChooserPanel$MyPreviewPanel previewPanel -> a
    geogebra.main.AppD app -> a
    javax.swing.JComponent getPreview() -> a
    java.lang.String getDisplayName() -> getDisplayName
    void updateChooser() -> updateChooser
    void buildChooser() -> buildChooser
    void uninstallChooserPanel(javax.swing.JColorChooser) -> uninstallChooserPanel
    void uninstallListeners() -> b
    void installListeners() -> c
    javax.swing.Icon getSmallDisplayIcon() -> getSmallDisplayIcon
    javax.swing.Icon getLargeDisplayIcon() -> getLargeDisplayIcon
    void paint(java.awt.Graphics) -> paint
    void setLabels() -> a
    boolean access$0(geogebra.gui.color.DefaultRGBChooserPanel) -> a
    javax.swing.JSlider access$1(geogebra.gui.color.DefaultRGBChooserPanel) -> a
    javax.swing.JSlider access$2(geogebra.gui.color.DefaultRGBChooserPanel) -> b
    javax.swing.JSlider access$3(geogebra.gui.color.DefaultRGBChooserPanel) -> c
    javax.swing.JSpinner access$4(geogebra.gui.color.DefaultRGBChooserPanel) -> a
    javax.swing.JSpinner access$5(geogebra.gui.color.DefaultRGBChooserPanel) -> b
    javax.swing.JSpinner access$6(geogebra.gui.color.DefaultRGBChooserPanel) -> c
geogebra.gui.color.DefaultRGBChooserPanel$MyPreviewPanel -> geogebra.gui.c.b$a:
    geogebra.gui.color.DefaultRGBChooserPanel this$0 -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
geogebra.gui.color.DefaultRGBChooserPanel$SliderHandler -> geogebra.gui.c.b$b:
    geogebra.gui.color.DefaultRGBChooserPanel this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.color.DefaultRGBChooserPanel$SpinnerHandler -> geogebra.gui.c.b$c:
    geogebra.gui.color.DefaultRGBChooserPanel this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.color.GeoGebraColorChooser -> geogebra.gui.c.c:
    geogebra.main.AppD app -> a
    boolean isNullSelection -> a
    boolean isNullSelection() -> a
    void setLabels() -> a
    void updateFonts() -> b
    boolean access$0(geogebra.gui.color.GeoGebraColorChooser) -> a
    void access$1(geogebra.gui.color.GeoGebraColorChooser,boolean) -> a
geogebra.gui.color.GeoGebraColorChooser$MyColorSelectionModel -> geogebra.gui.c.c$a:
    geogebra.gui.color.GeoGebraColorChooser this$0 -> a
    void setSelectedColor(java.awt.Color) -> setSelectedColor
geogebra.gui.color.GeoGebraColorChooserPanel -> geogebra.gui.c.d:
    geogebra.main.AppD app -> a
    geogebra.gui.color.GeoGebraColorChooser enclosingChooser -> a
    geogebra.gui.color.GeoGebraColorChooserPanel myChooser -> a
    geogebra.gui.color.GeoGebraColorChooserPanel$MainSwatchPanel mainSwatchPanel -> a
    geogebra.gui.color.GeoGebraColorChooserPanel$RecentSwatchPanel recentSwatchPanel -> a
    geogebra.gui.color.GeoGebraColorChooserPanel$PrimarySwatchPanel primarySwatchPanel -> a
    geogebra.gui.color.GeoGebraColorChooserPanel$CustomSwatchPanel customSwatchPanel -> a
    geogebra.gui.color.GeoGebraColorChooserPanel$SwatchListener swatchListener -> a
    java.util.ArrayList swatchPanelList -> a
    javax.swing.JButton btnCustomColor -> a
    javax.swing.JLabel lblRecent -> a
    javax.swing.JLabel lblCustom -> b
    javax.swing.JPanel recentPanel -> a
    javax.swing.JPanel customPanel -> b
    java.lang.String getDisplayName() -> getDisplayName
    int getMnemonic() -> getMnemonic
    int getDisplayedMnemonicIndex() -> getDisplayedMnemonicIndex
    javax.swing.Icon getSmallDisplayIcon() -> getSmallDisplayIcon
    javax.swing.Icon getLargeDisplayIcon() -> getLargeDisplayIcon
    void installChooserPanel(javax.swing.JColorChooser) -> installChooserPanel
    void buildChooser() -> buildChooser
    void createGUIElements() -> c
    void uninstallChooserPanel(javax.swing.JColorChooser) -> uninstallChooserPanel
    void updateChooser() -> updateChooser
    boolean setSwatchPanelSelection(java.awt.Color) -> a
    void setLabels() -> a
    void updateFonts() -> b
    java.awt.Color access$0(geogebra.gui.color.GeoGebraColorChooserPanel) -> a
geogebra.gui.color.GeoGebraColorChooserPanel$CustomButtonActionListener -> geogebra.gui.c.d$a:
    javax.swing.JColorChooser chooser -> a
    java.awt.event.ActionListener okActionListener -> a
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.color.GeoGebraColorChooserPanel access$0(geogebra.gui.color.GeoGebraColorChooserPanel$CustomButtonActionListener) -> a
geogebra.gui.color.GeoGebraColorChooserPanel$CustomButtonActionListener$1 -> geogebra.gui.c.e:
    geogebra.gui.color.GeoGebraColorChooserPanel$CustomButtonActionListener this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.color.GeoGebraColorChooserPanel$CustomSwatchPanel -> geogebra.gui.c.d$b:
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> a
    void initValues() -> a
    void initSwatchCount() -> b
    void initColors() -> c
    void addCustomColor(java.awt.Color) -> a
    boolean setSelectionFromColor(java.awt.Color) -> a
geogebra.gui.color.GeoGebraColorChooserPanel$MainSwatchPanel -> geogebra.gui.c.d$c:
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> a
    void initValues() -> a
    void initColors() -> c
geogebra.gui.color.GeoGebraColorChooserPanel$PrimarySwatchPanel -> geogebra.gui.c.d$d:
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> a
    void initValues() -> a
    void initColors() -> c
geogebra.gui.color.GeoGebraColorChooserPanel$RecentSwatchPanel -> geogebra.gui.c.d$e:
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> a
    void initValues() -> a
    void initColors() -> c
    void initSwatchCount() -> b
    void setMostRecentColor(java.awt.Color) -> a
geogebra.gui.color.GeoGebraColorChooserPanel$SwatchListener -> geogebra.gui.c.d$f:
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
geogebra.gui.color.GeoGebraColorChooserPanel$SwatchPanel -> geogebra.gui.c.d$g:
    geogebra.common.awt.GColor[] colors -> a
    java.awt.Dimension swatchSize -> a
    java.awt.Dimension gap -> b
    java.awt.Dimension numSwatches -> c
    java.awt.Dimension selectedSwatch -> d
    java.awt.Dimension hoverSwatch -> e
    java.awt.Dimension prevHoverSwatch -> f
    int swatchCount -> a
    java.awt.Dimension cell -> g
    geogebra.gui.color.GeoGebraColorChooserPanel this$0 -> b
    boolean isFocusTraversable() -> isFocusTraversable
    void initValues() -> a
    void initColors() -> c
    void initSwatchCount() -> b
    void updateHoverSwatch(int,int) -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
    java.awt.Dimension getPreferredSize() -> getPreferredSize
    java.lang.String getToolTipText(java.awt.event.MouseEvent) -> getToolTipText
    java.awt.Color getColorForLocation(int,int) -> a
    void setCellFromLocation(int,int,java.awt.Dimension) -> a
    java.awt.Color getColorForCell(int,int) -> b
    boolean getCellForColor(java.awt.Color,java.awt.Dimension) -> a
    boolean setSelectionFromColor(java.awt.Color) -> a
    void setSelectionFromLocation(int,int) -> b
    boolean isSwatchLocation(int,int) -> a
    boolean isSwatchCell(int,int) -> b
geogebra.gui.color.GeoGebraColorChooserPanel$SwatchPanel$SwatchMouseListener -> geogebra.gui.c.d$g$a:
    geogebra.gui.color.GeoGebraColorChooserPanel$SwatchPanel this$1 -> a
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.color.GeoGebraColorChooserPanel$SwatchPanel$SwatchMouseMotionListener -> geogebra.gui.c.d$g$b:
    geogebra.gui.color.GeoGebraColorChooserPanel$SwatchPanel this$1 -> a
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
geogebra.gui.dialog.AngleInputDialog -> geogebra.gui.d.a:
    javax.swing.JRadioButton rbCounterClockWise -> a
    javax.swing.JRadioButton rbClockWise -> b
    boolean success -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.AxesStyleListRenderer -> geogebra.gui.d.b:
    int style -> a
    int WIDTH -> b
    int HEIGHT -> c
    int arrowSize -> d
    int filledArrowLength -> e
    int pointSize -> f
    java.awt.geom.Line2D$Double tempLine -> a
    java.awt.geom.GeneralPath gp -> a
    java.awt.BasicStroke borderStroke -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void paint(java.awt.Graphics) -> paint
geogebra.gui.dialog.ButtonDialog -> geogebra.gui.d.c:
    javax.swing.text.JTextComponent tfCaption -> a
    javax.swing.text.JTextComponent tfScript -> b
    javax.swing.JPanel btPanel -> a
    geogebra.common.gui.dialog.ButtonDialogModel model -> a
    javax.swing.DefaultComboBoxModel comboModel -> a
    javax.swing.JButton btApply -> a
    javax.swing.JButton btCancel -> b
    javax.swing.JPanel optionPane -> b
    geogebra.main.AppD app -> a
    void createGUI() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void windowActivated(java.awt.event.WindowEvent) -> windowActivated
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated
    void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified
    void windowIconified(java.awt.event.WindowEvent) -> windowIconified
    void windowOpened(java.awt.event.WindowEvent) -> windowOpened
    geogebra.common.gui.dialog.ButtonDialogModel access$0(geogebra.gui.dialog.ButtonDialog) -> a
geogebra.gui.dialog.ButtonDialog$1 -> geogebra.gui.d.d:
    geogebra.gui.dialog.ButtonDialog this$0 -> a
    javax.swing.JComboBox val$cbAdd -> a
    void doActionPerformed(java.lang.Object) -> a
geogebra.gui.dialog.ButtonSizePanel -> geogebra.gui.d.e:
    geogebra.common.gui.dialog.options.model.ButtonSizeModel model -> a
    geogebra.gui.inputfield.MyTextField tfButtonWidth -> a
    geogebra.gui.inputfield.MyTextField tfButtonHeight -> b
    javax.swing.JLabel labelWidth -> a
    javax.swing.JLabel labelHeight -> b
    javax.swing.JLabel labelPixelW -> c
    javax.swing.JLabel labelPixelH -> d
    geogebra.common.main.Localization loc -> a
    javax.swing.JCheckBox cbUseFixedSize -> a
    void updateFonts() -> b
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateSizes(int,int,boolean) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.dialog.ButtonSizePanel$SizeVerify -> geogebra.gui.d.e$a:
    geogebra.gui.dialog.ButtonSizePanel this$0 -> a
    boolean verify(javax.swing.JComponent) -> verify
geogebra.gui.dialog.CheckboxCreationDialog -> geogebra.gui.d.f:
    javax.swing.text.JTextComponent tfCaption -> a
    javax.swing.JButton btApply -> a
    javax.swing.JButton btCancel -> b
    javax.swing.JPanel optionPane -> a
    javax.swing.JPanel btPanel -> b
    javax.swing.DefaultListModel listModel -> a
    javax.swing.DefaultComboBoxModel comboModel -> a
    java.awt.Point location -> a
    geogebra.main.AppD app -> a
    geogebra.common.kernel.geos.GeoBoolean geoBoolean -> a
    geogebra.main.LocalizationD loc -> a
    void initLists() -> a
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void createGUI(java.lang.String) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void apply() -> b
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    void setVisible(boolean) -> setVisible
    javax.swing.DefaultComboBoxModel access$0(geogebra.gui.dialog.CheckboxCreationDialog) -> a
geogebra.gui.dialog.CheckboxCreationDialog$1 -> geogebra.gui.d.g:
    geogebra.gui.dialog.CheckboxCreationDialog this$0 -> a
    void addElement(java.lang.Object) -> addElement
geogebra.gui.dialog.ColorFunctionPanel -> geogebra.gui.d.h:
    geogebra.common.gui.dialog.options.model.ColorFunctionModel model -> a
    javax.swing.JTextField tfRed -> a
    javax.swing.JTextField tfGreen -> b
    javax.swing.JTextField tfBlue -> c
    javax.swing.JTextField tfAlpha -> d
    javax.swing.JButton btRemove -> a
    javax.swing.JLabel nameLabelR -> a
    javax.swing.JLabel nameLabelG -> b
    javax.swing.JLabel nameLabelB -> c
    javax.swing.JLabel nameLabelA -> d
    javax.swing.JComboBox cbColorSpace -> a
    int colorSpace -> a
    boolean allowSetComboBoxLabels -> a
    java.lang.String defaultR -> a
    java.lang.String defaultG -> b
    java.lang.String defaultB -> c
    java.lang.String defaultA -> d
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.dialog.PropertiesPanelD propPanel -> a
    boolean processed -> b
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed() -> c
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setRedText(java.lang.String) -> a
    void setGreenText(java.lang.String) -> b
    void setBlueText(java.lang.String) -> c
    void setAlphaText(java.lang.String) -> d
    void setDefaultValues(geogebra.common.kernel.geos.GeoElement) -> a
    void showAlpha(boolean) -> a
    void updateSelection(java.lang.Object[]) -> a
    geogebra.common.gui.dialog.options.model.ColorFunctionModel access$0(geogebra.gui.dialog.ColorFunctionPanel) -> a
geogebra.gui.dialog.ColorFunctionPanel$1 -> geogebra.gui.d.i:
    geogebra.gui.dialog.ColorFunctionPanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.DashListRenderer -> geogebra.gui.d.j:
    java.util.HashMap dashStrokeMap -> a
    java.awt.BasicStroke dashStroke -> a
    boolean nullValue -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void paint(java.awt.Graphics) -> paint
geogebra.gui.dialog.DecorationAngleListRenderer -> geogebra.gui.d.k:
    java.awt.geom.Line2D$Double tick -> a
    java.awt.geom.Arc2D$Double arc -> a
    java.awt.geom.GeneralPath polygon -> a
    int id -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void drawTick(double) -> a
    void paint(java.awt.Graphics) -> paint
geogebra.gui.dialog.DecorationListRenderer -> geogebra.gui.d.l:
    int id -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void paint(java.awt.Graphics) -> paint
geogebra.gui.dialog.DialogManagerD -> geogebra.gui.d.m:
    geogebra.gui.view.functioninspector.FunctionInspectorD functionInspector -> a
    geogebra.gui.util.GeoGebraFileChooser fileChooser -> a
    geogebra.gui.view.data.DataSourceDialog dataSourceDialog -> a
    java.util.ResourceBundle rbJavaUI -> a
    java.util.Locale currentLocale -> a
    void updateFonts() -> g
    void setLabels() -> h
    void showPropertiesDialog() -> b
    void showPropertiesDialog(java.util.ArrayList) -> a
    void showPropertiesDialog(geogebra.common.main.OptionType,java.util.ArrayList) -> a
    void showToolbarConfigDialog() -> c
    void showRenameDialog(geogebra.common.kernel.geos.GeoElement,boolean,java.lang.String,boolean) -> a
    void showRedefineDialog(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    boolean showFunctionInspector(geogebra.common.kernel.geos.GeoFunction) -> a
    void showDataSourceDialog(int,boolean) -> a
    void showBooleanCheckboxCreationDialog(geogebra.common.awt.GPoint,geogebra.common.kernel.geos.GeoBoolean) -> a
    void showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String,boolean,java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void showNumberInputDialogRegularPolygon(java.lang.String,geogebra.common.euclidian.EuclidianController,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showNumberInputDialogCirclePointRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianView) -> a
    void showNumberInputDialogRotate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    void showNumberInputDialogAngleFixed(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    void showNumberInputDialogDilate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> b
    void showNumberInputDialogSegmentFixed(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showAngleInputDialog(java.lang.String,java.lang.String,java.lang.String,geogebra.common.util.AsyncOperation) -> b
    void closeAll() -> a
    boolean showSliderCreationDialog(int,int) -> a
    void showLogInDialog() -> d
    void showLogOutDialog() -> e
    void showOpenFromGGTDialog() -> i
    boolean showButtonCreationDialog(int,int,boolean) -> a
    void initFileChooser() -> j
    void updateJavaUILanguage() -> k
    geogebra.gui.util.GeoGebraFileChooser getFileChooser() -> a
    void setFileChooser(geogebra.gui.util.GeoGebraFileChooser) -> a
    java.lang.String prompt(java.lang.String,java.lang.String) -> a
    boolean confirm(java.lang.String) -> a
    void openToolHelp() -> f
    geogebra.common.gui.dialog.TextInputDialog createTextDialog(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.gui.dialog.InputDialog newInputDialog(geogebra.common.main.App,java.lang.String,java.lang.String,java.lang.String,boolean,geogebra.common.gui.InputHandler,geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.main.App access$0(geogebra.gui.dialog.DialogManagerD) -> a
geogebra.gui.dialog.DialogManagerD$1 -> geogebra.gui.d.n:
    geogebra.gui.dialog.DialogManagerD this$0 -> a
    geogebra.common.kernel.Construction val$cons -> a
    void cancel() -> a
geogebra.gui.dialog.DialogManagerD$Factory -> geogebra.gui.d.m$a:
    geogebra.gui.dialog.DialogManagerD create(geogebra.main.AppD) -> a
geogebra.gui.dialog.DialogManagerD$FileFilterChangedListener -> geogebra.gui.d.m$b:
    geogebra.gui.dialog.DialogManagerD this$0 -> a
    void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange
geogebra.gui.dialog.GraphicsViewLocationPanel -> geogebra.gui.d.o:
    geogebra.common.gui.dialog.options.model.GraphicsViewLocationModel model -> a
    javax.swing.JCheckBox cbGraphicsView -> a
    javax.swing.JCheckBox cbGraphicsView2 -> b
    javax.swing.JCheckBox cbGraphicsView3D -> c
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.main.AppD app -> a
    geogebra.gui.dialog.PropertiesPanelD propPanel -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void selectView(int,boolean) -> a
    void setCheckBox3DVisible(boolean) -> a
geogebra.gui.dialog.InputDialogAngleFixed -> geogebra.gui.d.p:
    java.lang.String defaultRotateAngle -> c
    geogebra.common.kernel.kernelND.GeoSegmentND[] segments -> a
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.geos.GeoElement[] selGeos -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.euclidian.EuclidianController ec -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.gui.dialog.InputDialogCirclePointRadius -> geogebra.gui.d.q:
    geogebra.common.kernel.geos.GeoPoint geoPoint1 -> a
    geogebra.common.kernel.geos.GeoElement createOutput(geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra.gui.dialog.InputDialogD -> geogebra.gui.d.r:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.common.main.GeoElementSelectionListener sl -> a
    geogebra.gui.view.algebra.InputPanelD inputPanel -> a
    javax.swing.JPanel optionPane -> a
    javax.swing.JPanel buttonsPanel -> b
    javax.swing.JPanel btPanel -> c
    javax.swing.JPanel btPanel2 -> d
    javax.swing.JLabel msgLabel -> a
    javax.swing.JButton btApply -> a
    javax.swing.JButton btCancel -> b
    javax.swing.JButton btProperties -> c
    javax.swing.JButton btOK -> d
    javax.swing.JButton btHelp -> e
    javax.swing.JCheckBox checkBox -> a
    javax.swing.JDialog wrappedDialog -> a
    void createGUI(java.lang.String,java.lang.String,boolean,int,int,boolean,boolean,boolean,boolean,geogebra.common.gui.view.algebra.DialogType) -> a
    void loadBtPanel(boolean) -> c
    void centerOnScreen() -> b
    void showSymbolTablePopup(boolean) -> d
    void addHelpButton(java.lang.String) -> b
    javax.swing.JPanel getButtonPanel() -> a
    void setLabels(java.lang.String) -> c
    void insertGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void insertString(java.lang.String) -> a
    void insertString(java.lang.String,boolean) -> b
    java.lang.String getText() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void cancel() -> a
    void setVisible(boolean) -> a
    void setVisibleForTools(boolean) -> e
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    void updateFonts() -> c
    void windowOpened(java.awt.event.WindowEvent) -> windowOpened
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void windowIconified(java.awt.event.WindowEvent) -> windowIconified
    void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified
    void windowActivated(java.awt.event.WindowEvent) -> windowActivated
    void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated
    void handleDialogVisibilityChange(boolean) -> f
geogebra.gui.dialog.InputDialogD$1 -> geogebra.gui.d.s:
    geogebra.gui.dialog.InputDialogD this$0 -> a
    void setVisible(boolean) -> setVisible
geogebra.gui.dialog.InputDialogD$2 -> geogebra.gui.d.t:
    geogebra.gui.dialog.InputDialogD this$0 -> a
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
geogebra.gui.dialog.InputDialogDilate -> geogebra.gui.d.u:
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    geogebra.common.kernel.geos.GeoElement[] selGeos -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.euclidian.EuclidianController ec -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
geogebra.gui.dialog.InputDialogOpenURL -> geogebra.gui.d.v:
    void setLabels(java.lang.String) -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
geogebra.gui.dialog.InputDialogRadius -> geogebra.gui.d.w:
    geogebra.common.kernel.Kernel kernel -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
    geogebra.common.kernel.geos.GeoElement createOutput(geogebra.common.kernel.arithmetic.NumberValue) -> a
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
geogebra.gui.dialog.InputDialogRegularPolygon -> geogebra.gui.d.x:
    geogebra.common.kernel.kernelND.GeoPointND geoPoint1 -> a
    geogebra.common.kernel.kernelND.GeoPointND geoPoint2 -> b
    geogebra.common.euclidian.EuclidianController ec -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
geogebra.gui.dialog.InputDialogRotate -> geogebra.gui.d.y:
    geogebra.common.kernel.geos.GeoPolygon[] polys -> a
    geogebra.common.kernel.geos.GeoElement[] selGeos -> a
    geogebra.common.euclidian.EuclidianController ec -> a
    java.lang.String defaultRotateAngle -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.gui.dialog.InputDialogRotatePoint -> geogebra.gui.d.z:
    geogebra.common.kernel.kernelND.GeoPointND[] points -> a
    boolean processInput() -> b
geogebra.gui.dialog.InputDialogSegmentFixed -> geogebra.gui.d.A:
    geogebra.common.kernel.kernelND.GeoPointND geoPoint1 -> a
    geogebra.common.kernel.Kernel kernel -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean processInput() -> b
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
geogebra.gui.dialog.LanguageDialog -> geogebra.gui.d.B:
    geogebra.main.AppD app -> a
    javax.swing.AbstractAction setFlagIconAction -> a
    java.util.HashMap lblList -> a
    java.util.Locale oldLocale -> a
    javax.swing.JButton btnOK -> a
    javax.swing.JButton btnCancel -> b
    javax.swing.JPanel createButtonPanel() -> a
    javax.swing.JPanel createLanguageSelectionPanel() -> b
    void initActions() -> c
    void setFlag() -> a
    void setLabels() -> b
    geogebra.main.AppD access$0(geogebra.gui.dialog.LanguageDialog) -> a
    java.util.Locale access$1(geogebra.gui.dialog.LanguageDialog) -> a
geogebra.gui.dialog.LanguageDialog$1 -> geogebra.gui.d.C:
    geogebra.gui.dialog.LanguageDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.LanguageDialog$2 -> geogebra.gui.d.D:
    geogebra.gui.dialog.LanguageDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.LanguageDialog$3 -> geogebra.gui.d.E:
    geogebra.gui.dialog.LanguageDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.dialog.LanguageDialog access$0(geogebra.gui.dialog.LanguageDialog$3) -> a
geogebra.gui.dialog.LanguageDialog$3$1 -> geogebra.gui.d.F:
    geogebra.gui.dialog.LanguageDialog$3 this$1 -> a
    void run() -> run
geogebra.gui.dialog.MyCellRenderer -> geogebra.gui.d.G:
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.dialog.NamePanel -> geogebra.gui.d.H:
    geogebra.common.gui.dialog.options.model.ObjectNameModel model -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD tfName -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD tfDefinition -> b
    geogebra.gui.inputfield.AutoCompleteTextFieldD tfCaption -> c
    java.lang.Runnable doActionStopped -> a
    javax.swing.JLabel nameLabel -> a
    javax.swing.JLabel defLabel -> b
    javax.swing.JLabel captionLabel -> c
    geogebra.gui.view.algebra.InputPanelD inputPanelName -> a
    geogebra.gui.view.algebra.InputPanelD inputPanelDef -> b
    geogebra.gui.view.algebra.InputPanelD inputPanelCap -> c
    geogebra.main.AppD app -> a
    geogebra.common.main.Localization loc -> a
    int rows -> a
    geogebra.common.kernel.geos.GeoElement currentGeoForFocusLost -> a
    java.lang.String redefinitionForFocusLost -> a
    void setLabels() -> x_
    void updateGUI(boolean,boolean) -> a
    void setLayout() -> e
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateDef(geogebra.common.kernel.geos.GeoElement) -> b
    void updateName(geogebra.common.kernel.geos.GeoElement) -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed(java.lang.Object) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> d
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setNameText(java.lang.String) -> a
    void setDefinitionText(java.lang.String) -> b
    void setCaptionText(java.lang.String) -> c
    void updateCaption() -> c
    void updateDefLabel() -> b
    void updateName(java.lang.String) -> d
    geogebra.common.gui.dialog.options.model.ObjectNameModel access$0(geogebra.gui.dialog.NamePanel) -> a
geogebra.gui.dialog.NamePanel$1 -> geogebra.gui.d.I:
    geogebra.gui.dialog.NamePanel this$0 -> a
    void run() -> run
geogebra.gui.dialog.NumberChangeSignInputDialog -> geogebra.gui.d.J:
    boolean changingSign -> a
    boolean processInputHandler() -> X_
    void loadBtPanel(boolean) -> c
geogebra.gui.dialog.OpenFromGGTDialogD -> geogebra.gui.d.K:
    void createGUI() -> d
    void onPageLoaded() -> a
    void openURL(java.lang.String) -> a
    void onHyperlinkClicked(java.lang.String,java.lang.String,java.lang.String,org.w3c.dom.events.Event) -> a
geogebra.gui.dialog.OpenFromGGTDialogD$1 -> geogebra.gui.d.L:
    geogebra.gui.dialog.OpenFromGGTDialogD this$0 -> a
    void handle(javafx.scene.web.WebEvent) -> a
    void handle(javafx.event.Event) -> handle
geogebra.gui.dialog.OpenFromGGTDialogD$2 -> geogebra.gui.d.M:
    geogebra.gui.dialog.OpenFromGGTDialogD this$0 -> a
    java.lang.String val$url -> a
    void run() -> run
geogebra.gui.dialog.PointStyleListRenderer -> geogebra.gui.d.N:
    int pointStyle -> a
    int pointSize -> b
    java.awt.geom.Ellipse2D$Double circle -> a
    java.awt.geom.Line2D$Double line1 -> a
    java.awt.geom.Line2D$Double line2 -> b
    java.awt.geom.Line2D$Double line3 -> c
    java.awt.geom.Line2D$Double line4 -> d
    java.awt.geom.GeneralPath gp -> a
    java.awt.BasicStroke borderStroke -> a
    java.awt.BasicStroke[] crossStrokes -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void paint(java.awt.Graphics) -> paint
    void getPath() -> a
geogebra.gui.dialog.PropertiesPanelD -> geogebra.gui.d.O:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.color.GeoGebraColorChooser colChooser -> a
    geogebra.gui.dialog.NamePanel namePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$ShowObjectPanel showObjectPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$SelectionAllowedPanel selectionAllowed -> a
    geogebra.gui.dialog.PropertiesPanelD$ShowTrimmedIntersectionLines showTrimmedIntersectionLines -> a
    geogebra.gui.dialog.PropertiesPanelD$ColorPanel colorPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$LabelPanel labelPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$TooltipPanel tooltipPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$LayerPanel layerPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$CoordsPanel coordPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$LineEqnPanel lineEqnPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$ConicEqnPanel conicEqnPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$PointSizePanel pointSizePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$PointStylePanel pointStylePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$TextOptionsPanel textOptionsPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$ArcSizePanel arcSizePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$LineStylePanel lineStylePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$LineStyleHiddenPanel lineStylePanelHidden -> a
    geogebra.gui.dialog.PropertiesPanelD$DecoSegmentPanel decoSegmentPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$DecoAnglePanel decoAnglePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$RightAnglePanel rightAnglePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$FillingPanel fillingPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$FadingPanel fadingPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$LodPanel lodPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$CheckBoxInterpolateImage checkBoxInterpolateImage -> a
    geogebra.gui.dialog.PropertiesPanelD$TracePanel tracePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$AnimatingPanel animatingPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$FixPanel fixPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$IneqPanel ineqStylePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$CheckBoxFixPanel checkBoxFixPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$AllowReflexAnglePanel allowReflexAnglePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$AllowOutlyingIntersectionsPanel allowOutlyingIntersectionsPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$AuxiliaryObjectPanel auxPanel -> a
    geogebra.gui.properties.AnimationStepPanel animStepPanel -> a
    geogebra.gui.dialog.TextfieldSizePanel textFieldSizePanel -> a
    geogebra.gui.properties.AnimationSpeedPanel animSpeedPanel -> a
    geogebra.gui.properties.SliderPanel sliderPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$SlopeTriangleSizePanel slopeTriangleSizePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$StartPointPanel startPointPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$CornerPointsPanel cornerPointsPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$TextEditPanel textEditPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$ScriptEditPanel scriptEditPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$BackgroundImagePanel bgImagePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$AbsoluteScreenLocationPanel absScreenLocPanel -> a
    geogebra.gui.dialog.PropertiesPanelD$ListsAsComboBoxPanel comboBoxPanel -> a
    geogebra.gui.dialog.ShowConditionPanel showConditionPanel -> a
    geogebra.gui.dialog.ColorFunctionPanel colorFunctionPanel -> a
    geogebra.gui.dialog.GraphicsViewLocationPanel graphicsViewLocationPanel -> a
    geogebra.gui.dialog.ButtonSizePanel buttonSizePanel -> a
    geogebra.gui.dialog.PropertiesPanelD$TabPanel basicTab -> a
    geogebra.gui.dialog.PropertiesPanelD$TabPanel colorTab -> b
    geogebra.gui.dialog.PropertiesPanelD$TabPanel styleTab -> c
    geogebra.gui.dialog.PropertiesPanelD$TabPanel sliderTab -> d
    geogebra.gui.dialog.PropertiesPanelD$TabPanel textTab -> e
    geogebra.gui.dialog.PropertiesPanelD$TabPanel positionTab -> f
    geogebra.gui.dialog.PropertiesPanelD$TabPanel algebraTab -> g
    geogebra.gui.dialog.PropertiesPanelD$TabPanel scriptTab -> h
    geogebra.gui.dialog.PropertiesPanelD$TabPanel advancedTab -> i
    boolean isDefaults -> a
    javax.swing.JTabbedPane tabs -> a
    java.util.ArrayList tabPanelList -> a
    java.lang.String localize(java.lang.String) -> b
    void applyModifications() -> b
    void updateTextEditor(geogebra.common.kernel.geos.GeoElement) -> a
    void showSliderTab() -> c
    void setSliderMinValue() -> d
    void initTabs() -> f
    void setLabels() -> x_
    void updateFonts() -> e
    void updateTabs(java.lang.Object[]) -> b
    boolean updateTabPanel(geogebra.gui.dialog.PropertiesPanelD$TabPanel,java.util.ArrayList,java.lang.Object[]) -> b
    void updateSelection(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> b
    void updateOneGeoDefinition(geogebra.common.kernel.geos.GeoElement) -> c
    void updateOneGeoName(geogebra.common.kernel.geos.GeoElement) -> d
    java.lang.String replaceEqualsSigns(java.lang.String) -> a
    java.lang.String access$0(geogebra.gui.dialog.PropertiesPanelD,java.lang.String) -> a
    boolean access$1(geogebra.gui.dialog.PropertiesPanelD$TabPanel,java.util.ArrayList,java.lang.Object[]) -> a
    geogebra.gui.color.GeoGebraColorChooser access$2(geogebra.gui.dialog.PropertiesPanelD) -> a
    geogebra.common.kernel.Kernel access$3(geogebra.gui.dialog.PropertiesPanelD) -> a
    geogebra.gui.dialog.PropertiesPanelD$TextEditPanel access$4(geogebra.gui.dialog.PropertiesPanelD) -> a
geogebra.gui.dialog.PropertiesPanelD$1 -> geogebra.gui.d.P:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.dialog.PropertiesPanelD$AbsoluteScreenLocationPanel -> geogebra.gui.d.O$a:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$AllowOutlyingIntersectionsPanel -> geogebra.gui.d.O$b:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$AllowReflexAnglePanel -> geogebra.gui.d.O$c:
    javax.swing.JLabel intervalLabel -> a
    javax.swing.JComboBox intervalCombo -> a
    geogebra.common.gui.dialog.options.model.ReflexAngleModel model -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    void setComboLabels() -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    int getIndex() -> a
    void setSelectedIndex(int) -> d
    void updateFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
geogebra.gui.dialog.PropertiesPanelD$AnimatingPanel -> geogebra.gui.d.O$d:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$ArcSizePanel -> geogebra.gui.d.O$e:
    geogebra.common.gui.dialog.options.model.AngleArcSizeModel model -> a
    javax.swing.JSlider slider -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    void setMinValue() -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void updateFonts() -> c
    void updateSliderFonts() -> d
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setValue(int) -> a
geogebra.gui.dialog.PropertiesPanelD$AuxiliaryObjectPanel -> geogebra.gui.d.O$f:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$BackgroundImagePanel -> geogebra.gui.d.O$g:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$CheckBoxFixPanel -> geogebra.gui.d.O$h:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$CheckBoxInterpolateImage -> geogebra.gui.d.O$i:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$CheckboxPanel -> geogebra.gui.d.O$j:
    geogebra.common.gui.dialog.options.model.BooleanOptionModel model -> a
    javax.swing.JCheckBox checkbox -> a
    java.lang.String title -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void updateFonts() -> b
    void setLabels() -> x_
    void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged
    void apply(boolean) -> c
    void updateCheckbox(boolean) -> a
    void setModel(geogebra.common.gui.dialog.options.model.BooleanOptionModel) -> a
    javax.swing.JCheckBox getCheckbox() -> a
geogebra.gui.dialog.PropertiesPanelD$ColorPanel -> geogebra.gui.d.O$k:
    geogebra.common.gui.dialog.options.model.ColorObjectModel model -> a
    javax.swing.JLabel previewLabel -> a
    javax.swing.JLabel currentColorLabel -> b
    geogebra.gui.dialog.PropertiesPanelD$ColorPanel$PreviewPanel previewPanel -> a
    javax.swing.JPanel opacityPanel -> a
    javax.swing.JPanel colorChooserContainer -> b
    javax.swing.JRadioButton rbtnForegroundColor -> a
    javax.swing.JRadioButton rbtnBackgroundColor -> b
    javax.swing.JButton btnClearBackground -> a
    javax.swing.JSlider opacitySlider -> a
    javax.swing.JPanel previewMetaPanel -> c
    java.awt.Color selectedColor -> a
    javax.swing.JPanel southPanel -> d
    javax.swing.JToggleButton[] selectionBarButtons -> a
    int selectedBarButton -> a
    javax.swing.JPanel barsPanel -> e
    boolean isBarChart -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    javax.swing.JPanel update() -> a
    void setPreview(geogebra.common.kernel.geos.GeoElement,float) -> a
    void setOpacitySlider(geogebra.common.kernel.geos.GeoElement,float) -> b
    void setChooser(geogebra.common.kernel.geos.GeoElement) -> b
    void updateToolTipText() -> c
    java.lang.String getToolTipText(java.awt.Color) -> a
    void updateBarsColorAndAlpha(geogebra.common.kernel.geos.GeoElement,java.awt.Color,float,boolean) -> a
    void addSelectionBar() -> d
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
    void updateSliderFonts() -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void updateChooser(boolean,boolean,boolean,boolean,boolean) -> a
    void updatePreview(geogebra.common.awt.GColor,float) -> a
    boolean isBackgroundColorSelected() -> a
    void updateNoBackground(geogebra.common.kernel.geos.GeoElement,geogebra.common.awt.GColor,float,boolean,boolean) -> a
    void access$0(geogebra.gui.dialog.PropertiesPanelD$ColorPanel,int) -> a
    geogebra.gui.dialog.PropertiesPanelD access$1(geogebra.gui.dialog.PropertiesPanelD$ColorPanel) -> a
geogebra.gui.dialog.PropertiesPanelD$ColorPanel$1 -> geogebra.gui.d.Q:
    geogebra.gui.dialog.PropertiesPanelD$ColorPanel this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.PropertiesPanelD$ColorPanel$PreviewPanel -> geogebra.gui.d.O$k$a:
    java.awt.Color alphaFillColor -> a
    geogebra.gui.dialog.PropertiesPanelD$ColorPanel this$1 -> a
    void setPreview(java.awt.Color,float) -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
geogebra.gui.dialog.PropertiesPanelD$ComboPanel -> geogebra.gui.d.O$l:
    javax.swing.JLabel label -> a
    javax.swing.JComboBox comboBox -> a
    geogebra.common.gui.dialog.options.model.MultipleOptionsModel model -> a
    java.lang.String title -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    javax.swing.JLabel getLabel() -> a
    geogebra.common.gui.dialog.options.model.MultipleOptionsModel getModel() -> a
    void setModel(geogebra.common.gui.dialog.options.model.MultipleOptionsModel) -> a
    java.lang.String getTitle() -> a
    void setTitle(java.lang.String) -> a
    void setSelectedItem(java.lang.String) -> d
geogebra.gui.dialog.PropertiesPanelD$ConicEqnPanel -> geogebra.gui.d.O$m:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
    void setLabels() -> x_
geogebra.gui.dialog.PropertiesPanelD$CoordsPanel -> geogebra.gui.d.O$n:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
geogebra.gui.dialog.PropertiesPanelD$CornerPointsPanel -> geogebra.gui.d.O$o:
    geogebra.gui.dialog.PropertiesPanelD$ImageCornerPanel corner0 -> a
    geogebra.gui.dialog.PropertiesPanelD$ImageCornerPanel corner1 -> b
    geogebra.gui.dialog.PropertiesPanelD$ImageCornerPanel corner2 -> c
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void updateFonts() -> b
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
geogebra.gui.dialog.PropertiesPanelD$DecoAnglePanel -> geogebra.gui.d.O$p:
    javax.swing.JComboBox decoCombo -> a
    javax.swing.JLabel decoLabel -> a
    geogebra.common.gui.dialog.options.model.DecoAngleModel model -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
    void setArcSizeMinValue() -> b
geogebra.gui.dialog.PropertiesPanelD$DecoSegmentPanel -> geogebra.gui.d.O$q:
    geogebra.common.gui.dialog.options.model.DecoSegmentModel model -> a
    javax.swing.JComboBox decoCombo -> a
    javax.swing.JLabel decoLabel -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
geogebra.gui.dialog.PropertiesPanelD$FadingPanel -> geogebra.gui.d.O$r:
    java.lang.Object[] geos -> a
    javax.swing.JSlider slider -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    boolean checkGeos(java.lang.Object[]) -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void updateFonts() -> b
    void updateSliderFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
geogebra.gui.dialog.PropertiesPanelD$FillingPanel -> geogebra.gui.d.O$s:
    geogebra.common.gui.dialog.options.model.FillingModel model -> a
    javax.swing.JSlider opacitySlider -> a
    javax.swing.JSlider angleSlider -> b
    javax.swing.JSlider distanceSlider -> c
    javax.swing.JComboBox cbFillType -> a
    javax.swing.JCheckBox cbFillInverse -> a
    javax.swing.JPanel transparencyPanel -> a
    javax.swing.JPanel hatchFillPanel -> b
    javax.swing.JPanel imagePanel -> c
    javax.swing.JPanel anglePanel -> d
    javax.swing.JPanel distancePanel -> e
    javax.swing.JLabel lblFillType -> a
    javax.swing.JLabel lblSelectedSymbol -> b
    javax.swing.JLabel lblMsgSelected -> c
    javax.swing.JButton btnOpenFile -> a
    geogebra.gui.util.PopupMenuButton btnImage -> a
    javax.swing.JButton btnClearImage -> b
    javax.swing.JLabel lblFillInverse -> d
    javax.swing.JLabel lblSymbols -> e
    java.util.ArrayList imgFileNameList -> a
    geogebra.gui.util.PopupMenuButton btInsertUnicode -> b
    javax.swing.JPanel barsPanel -> f
    javax.swing.JToggleButton[] selectionBarButtons -> a
    int selectedBarButton -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setAllEnabled(boolean) -> e
    void setLabels() -> x_
    javax.swing.JPanel createImagePanel() -> a
    void setStandardFillType() -> h
    void setHatchFillType() -> g
    void setCrossHatchedFillType() -> f
    void setBrickFillType() -> e
    void setSymbolFillType() -> d
    void setDottedFillType() -> c
    void setImageFillType() -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void setFillInverseSelected(boolean) -> d
    void setFillInverseVisible(boolean) -> b
    void setFillTypeVisible(boolean) -> c
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> i
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void addSelectionBar() -> j
    void buildInsertUnicodeButton() -> k
    javax.swing.JMenu createMenuItem(java.lang.String[],int,int) -> a
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
    void setSymbolsVisible(boolean) -> a
    void setFillingImage(java.lang.String) -> a
    void setFillValue(int) -> a
    void setAngleValue(int) -> b
    void setDistanceValue(int) -> c
    int getSelectedBarIndex() -> a
    void selectSymbol(java.lang.String) -> b
    java.lang.String getSelectedSymbolText() -> a
    float getFillingValue() -> a
    geogebra.common.kernel.geos.GeoElement$FillType getSelectedFillType() -> a
    int getDistanceValue() -> b
    int getAngleValue() -> c
    javax.swing.JSlider access$0(geogebra.gui.dialog.PropertiesPanelD$FillingPanel) -> a
    javax.swing.JLabel access$1(geogebra.gui.dialog.PropertiesPanelD$FillingPanel) -> a
    void access$2(geogebra.gui.dialog.PropertiesPanelD$FillingPanel,int) -> a
    geogebra.common.gui.dialog.options.model.FillingModel access$3(geogebra.gui.dialog.PropertiesPanelD$FillingPanel) -> a
    geogebra.gui.dialog.PropertiesPanelD access$4(geogebra.gui.dialog.PropertiesPanelD$FillingPanel) -> a
geogebra.gui.dialog.PropertiesPanelD$FillingPanel$1 -> geogebra.gui.d.R:
    geogebra.gui.dialog.PropertiesPanelD$FillingPanel this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.PropertiesPanelD$FillingPanel$LatexTableFill -> geogebra.gui.d.O$s$a:
    java.lang.Object[] latexArray -> a
    geogebra.gui.util.PopupMenuButton popupButton -> a
    geogebra.common.gui.util.SelectionTable mode -> a
    geogebra.gui.dialog.PropertiesPanelD$FillingPanel panel -> a
    geogebra.gui.dialog.PropertiesPanelD$FillingPanel this$1 -> b
    java.awt.Component getComponent() -> getComponent
    javax.swing.MenuElement[] getSubElements() -> getSubElements
    void menuSelectionChanged(boolean) -> menuSelectionChanged
    void processKeyEvent(java.awt.event.KeyEvent,javax.swing.MenuElement[],javax.swing.MenuSelectionManager) -> processKeyEvent
    void processMouseEvent(java.awt.event.MouseEvent,javax.swing.MenuElement[],javax.swing.MenuSelectionManager) -> processMouseEvent
geogebra.gui.dialog.PropertiesPanelD$FixPanel -> geogebra.gui.d.O$t:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$ImageCornerPanel -> geogebra.gui.d.O$u:
    geogebra.common.gui.dialog.options.model.ImageCornerModel model -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setLabels() -> x_
geogebra.gui.dialog.PropertiesPanelD$IneqPanel -> geogebra.gui.d.O$v:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void enableFilling(boolean) -> b
    void apply(boolean) -> c
geogebra.gui.dialog.PropertiesPanelD$LabelPanel -> geogebra.gui.d.O$w:
    javax.swing.JCheckBox showLabelCB -> a
    javax.swing.JComboBox labelModeCB -> a
    geogebra.common.gui.dialog.options.model.ShowLabelModel model -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    javax.swing.JPanel update() -> a
    void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
    void updateShowLabel() -> c
    void update(boolean,boolean) -> a
geogebra.gui.dialog.PropertiesPanelD$LayerPanel -> geogebra.gui.d.O$x:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
geogebra.gui.dialog.PropertiesPanelD$LineEqnPanel -> geogebra.gui.d.O$y:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
geogebra.gui.dialog.PropertiesPanelD$LineStyleHiddenPanel -> geogebra.gui.d.O$z:
    java.lang.Object[] geos -> a
    javax.swing.JRadioButton[] buttons -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    javax.swing.JPanel update() -> a
    boolean checkGeos(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
geogebra.gui.dialog.PropertiesPanelD$LineStylePanel -> geogebra.gui.d.O$A:
    javax.swing.JSlider thicknessSlider -> a
    javax.swing.JPanel thicknessPanel -> a
    javax.swing.JPanel opacityPanel -> b
    javax.swing.JSlider opacitySlider -> b
    javax.swing.JLabel dashLabel -> a
    javax.swing.JComboBox dashCB -> a
    geogebra.common.gui.dialog.options.model.LineStyleModel model -> a
    javax.swing.JPanel dashPanel -> c
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    javax.swing.JPanel update() -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
    void updateSliderFonts() -> c
    void setThicknessSliderValue(int) -> a
    void setThicknessSliderMinimum(int) -> b
    void setOpacitySliderValue(int) -> c
    void selectCommonLineStyle(boolean,int) -> a
    void setLineTypeVisible(boolean) -> a
    void setLineOpacityVisible(boolean) -> b
geogebra.gui.dialog.PropertiesPanelD$ListsAsComboBoxPanel -> geogebra.gui.d.O$B:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void drawListAsComboBox(geogebra.common.kernel.geos.GeoList,boolean) -> a
geogebra.gui.dialog.PropertiesPanelD$LodPanel -> geogebra.gui.d.O$C:
    javax.swing.JLabel label -> a
    geogebra.common.gui.dialog.options.model.LodModel model -> a
    javax.swing.JComboBox combo -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.PropertiesPanelD$OptionPanel -> geogebra.gui.d.O$D:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> c
geogebra.gui.dialog.PropertiesPanelD$PointSizePanel -> geogebra.gui.d.O$E:
    geogebra.common.gui.dialog.options.model.PointSizeModel model -> a
    javax.swing.JSlider slider -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    javax.swing.JPanel update() -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void updateFonts() -> b
    void updateSliderFonts() -> c
    void setValue(int) -> a
geogebra.gui.dialog.PropertiesPanelD$PointStylePanel -> geogebra.gui.d.O$F:
    geogebra.common.gui.dialog.options.model.PointStyleModel model -> a
    javax.swing.JComboBox cbStyle -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    javax.swing.JPanel update() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> b
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
geogebra.gui.dialog.PropertiesPanelD$RightAnglePanel -> geogebra.gui.d.O$G:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$ScriptEditPanel -> geogebra.gui.d.O$H:
    geogebra.gui.dialog.ScriptInputDialog clickDialog -> a
    geogebra.gui.dialog.ScriptInputDialog updateDialog -> b
    geogebra.gui.dialog.ScriptInputDialog globalDialog -> c
    javax.swing.JTabbedPane tabbedPane -> a
    javax.swing.JPanel clickScriptPanel -> a
    javax.swing.JPanel updateScriptPanel -> b
    javax.swing.JPanel globalScriptPanel -> c
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void applyModifications() -> b
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    boolean checkGeos(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
geogebra.gui.dialog.PropertiesPanelD$ScriptEditPanel$1 -> geogebra.gui.d.S:
    geogebra.gui.dialog.PropertiesPanelD$ScriptEditPanel this$1 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.dialog.PropertiesPanelD$SelectionAllowedPanel -> geogebra.gui.d.O$I:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$ShowObjectPanel -> geogebra.gui.d.O$J:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void updateCheckbox(boolean,boolean) -> a
geogebra.gui.dialog.PropertiesPanelD$ShowTrimmedIntersectionLines -> geogebra.gui.d.O$K:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.PropertiesPanelD$SlopeTriangleSizePanel -> geogebra.gui.d.O$L:
    geogebra.common.gui.dialog.options.model.SlopeTriangleSizeModel model -> a
    javax.swing.JSlider slider -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void updateFonts() -> b
    void updateSliderFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setValue(int) -> a
geogebra.gui.dialog.PropertiesPanelD$StartPointPanel -> geogebra.gui.d.O$M:
    geogebra.common.gui.dialog.options.model.StartPointModel model -> a
    javax.swing.JLabel label -> a
    javax.swing.JComboBox cbLocation -> a
    javax.swing.DefaultComboBoxModel cbModel -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed() -> c
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setSelectedItem(java.lang.String) -> d
geogebra.gui.dialog.PropertiesPanelD$TabPanel -> geogebra.gui.d.O$N:
    java.lang.String title -> a
    java.util.ArrayList panelList -> a
    boolean makeVisible -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setTitle(java.lang.String) -> a
    void update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> a
    void addToTabbedPane(javax.swing.JTabbedPane) -> a
geogebra.gui.dialog.PropertiesPanelD$TextEditPanel -> geogebra.gui.d.O$O:
    geogebra.gui.dialog.TextInputDialog td -> a
    javax.swing.JPanel editPanel -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void applyModifications() -> b
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    boolean checkGeos(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    geogebra.gui.dialog.TextInputDialog access$0(geogebra.gui.dialog.PropertiesPanelD$TextEditPanel) -> a
geogebra.gui.dialog.PropertiesPanelD$TextOptionsPanel -> geogebra.gui.d.O$P:
    geogebra.common.gui.dialog.options.model.TextOptionsModel model -> a
    javax.swing.JLabel decimalLabel -> a
    javax.swing.JComboBox cbFont -> a
    javax.swing.JComboBox cbSize -> b
    javax.swing.JComboBox cbDecimalPlaces -> c
    javax.swing.JToggleButton btBold -> a
    javax.swing.JToggleButton btItalic -> b
    javax.swing.JPanel secondLine -> a
    boolean secondLineVisible -> a
    geogebra.gui.dialog.PropertiesPanelD$TextEditPanel editPanel -> a
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
    void setEditPanel(geogebra.gui.dialog.PropertiesPanelD$TextEditPanel) -> a
    void setLabels() -> x_
    void setFontSizeVisibleOnly() -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    javax.swing.JPanel update() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts() -> d
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setWidgetsVisible(boolean,boolean) -> a
    void selectSize(int) -> a
    void selectFont(int) -> b
    void selectDecimalPlaces(int) -> c
    void setSecondLineVisible(boolean) -> a
    void updatePreview() -> c
    void selectFontStyle(int) -> d
    void setEditorText(java.util.ArrayList) -> a
    void setEditorText(java.lang.String) -> a
geogebra.gui.dialog.PropertiesPanelD$TextOptionsPanel$ComboBoxRenderer -> geogebra.gui.d.O$P$a:
    javax.swing.JSeparator separator -> a
    geogebra.gui.dialog.PropertiesPanelD$TextOptionsPanel this$1 -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.dialog.PropertiesPanelD$TooltipPanel -> geogebra.gui.d.O$Q:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> b
geogebra.gui.dialog.PropertiesPanelD$TracePanel -> geogebra.gui.d.O$R:
    geogebra.gui.dialog.PropertiesPanelD this$0 -> a
geogebra.gui.dialog.ScriptInputDialog -> geogebra.gui.d.T:
    geogebra.common.gui.dialog.options.model.ScriptInputModel model -> a
    javax.swing.JComboBox languageSelector -> a
    javax.swing.JPanel getInputPanel(int,int,boolean) -> a
    boolean processInput() -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void insertGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void applyModifications() -> d
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void updateFonts() -> c
    void setInputText(java.lang.String) -> a_
    void setLanguageIndex(int,java.lang.String) -> a
    void setGeo(geogebra.common.kernel.geos.GeoElement) -> b
    void setGlobal() -> e
geogebra.gui.dialog.ShowConditionPanel -> geogebra.gui.d.U:
    geogebra.common.gui.dialog.options.model.ShowConditionModel model -> a
    javax.swing.JTextField tfCondition -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.dialog.PropertiesPanelD propPanel -> a
    boolean processed -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed() -> c
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setText(java.lang.String) -> a
    void updateSelection(java.lang.Object[]) -> a
geogebra.gui.dialog.SignInDialogD -> geogebra.gui.d.V:
    boolean firstload -> a
    void createGUI() -> d
    void onPageLoaded() -> a
    void onHyperlinkClicked(java.lang.String,java.lang.String,java.lang.String,org.w3c.dom.events.Event) -> a
    void handleLoginResult(javafx.scene.web.WebEngine) -> a
geogebra.gui.dialog.SignInDialogD$1 -> geogebra.gui.d.W:
    geogebra.gui.dialog.SignInDialogD this$0 -> a
    javafx.scene.web.WebEngine val$webEngine -> a
    void run() -> run
    geogebra.gui.dialog.SignInDialogD access$0(geogebra.gui.dialog.SignInDialogD$1) -> a
geogebra.gui.dialog.SignInDialogD$1$1 -> geogebra.gui.d.X:
    geogebra.gui.dialog.SignInDialogD$1 this$1 -> a
    void run() -> run
geogebra.gui.dialog.SliderDialog -> geogebra.gui.d.Y:
    javax.swing.JButton btApply -> a
    javax.swing.JButton btCancel -> b
    javax.swing.JRadioButton rbNumber -> a
    javax.swing.JRadioButton rbAngle -> b
    javax.swing.JRadioButton rbInteger -> c
    geogebra.gui.view.algebra.InputPanelD tfLabel -> a
    javax.swing.JPanel optionPane -> a
    javax.swing.JCheckBox cbRandom -> a
    geogebra.main.AppD app -> a
    geogebra.gui.properties.SliderPanel sliderPanel -> a
    geogebra.common.kernel.geos.GeoElement geoResult -> a
    geogebra.common.kernel.geos.GeoNumeric number -> a
    geogebra.common.kernel.geos.GeoAngle angle -> a
    void createGUI() -> a
    geogebra.common.kernel.geos.GeoElement getResult() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setLabelFieldFocus() -> b
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void windowActivated(java.awt.event.WindowEvent) -> windowActivated
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated
    void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified
    void windowIconified(java.awt.event.WindowEvent) -> windowIconified
    void windowOpened(java.awt.event.WindowEvent) -> windowOpened
geogebra.gui.dialog.TextInputDialog -> geogebra.gui.d.Z:
    geogebra.gui.DynamicTextInputPane editor -> a
    geogebra.gui.dialog.TextPreviewPanelD textPreviewer -> a
    geogebra.gui.dialog.TextInputDialog textInputDialog -> a
    javax.swing.JCheckBox cbLaTeX -> b
    javax.swing.JToolBar toolBar -> a
    javax.swing.JPanel previewPanel -> e
    javax.swing.JPanel editPanel -> f
    javax.swing.JPanel toolPanel -> g
    geogebra.gui.util.PopupMenuButton btInsertLaTeX -> a
    geogebra.gui.util.PopupMenuButton btInsertUnicode -> b
    geogebra.gui.util.PopupMenuButton btInsertGeo -> c
    javax.swing.JLabel previewHeader -> b
    javax.swing.JLabel editHeader -> c
    geogebra.common.kernel.geos.GeoText editGeo -> a
    boolean isLaTeX -> c
    geogebra.common.kernel.kernelND.GeoPointND startPoint -> a
    boolean isTextMode -> d
    geogebra.gui.util.SelectionTable recentSymbolTable -> a
    java.util.ArrayList recentSymbolList -> b
    javax.swing.JList geoList -> a
    boolean isIniting -> a
    boolean isBtnInsertLatexLoaded -> b
    javax.swing.undo.UndoManager undo -> a
    javax.swing.text.Document doc -> a
    java.util.HashMap laTexButtonTitleMap -> a
    boolean handlingDocumentEventOff -> e
    boolean editOccurred -> f
    void reInitEditor(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void createAdditionalGUI() -> k
    void buildInsertUnicodeButton() -> l
    javax.swing.JMenu createMenuItem(java.lang.String[],int,int) -> a
    void buildInsertLaTeXButton() -> m
    void updateInsertLaTeXButtonLabels() -> d
    java.lang.String[] getGeoObjectList() -> a
    void buildInsertGeoButton() -> n
    javax.swing.JToolBar createRecentSymbolTable() -> a
    void addRecentSymbol(java.lang.String) -> d
    void updateRecentSymbolTable() -> e
    void setLabels() -> f
    void setLabels(java.lang.String) -> c
    void setGeoText(geogebra.common.kernel.geos.GeoText) -> a
    javax.swing.JPanel getToolBar() -> b
    javax.swing.JPanel getInputPanel() -> c
    javax.swing.JPanel getPreviewPanel() -> d
    boolean isLaTeX() -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void exitTextField(geogebra.gui.DynamicTextInputPane$DynamicTextField,boolean) -> a
    void updateFonts() -> c
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void applyModifications() -> g
    void handleDocumentEvent() -> h
    void updatePreviewText() -> o
    void insertGeoElement(geogebra.common.kernel.geos.GeoElement) -> a
    void insertEmptyDynamicText() -> i
    geogebra.gui.DynamicTextInputPane$DynamicTextField insertDynamicText(java.lang.String) -> a
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void handleDialogVisibilityChange(boolean) -> f
    void reset() -> j
    boolean access$0(geogebra.gui.dialog.TextInputDialog) -> a
    geogebra.gui.DynamicTextInputPane access$1(geogebra.gui.dialog.TextInputDialog) -> a
    geogebra.common.kernel.geos.GeoText access$2(geogebra.gui.dialog.TextInputDialog) -> a
    void access$3(geogebra.gui.dialog.TextInputDialog,geogebra.common.kernel.geos.GeoText) -> a
    javax.swing.JList access$4(geogebra.gui.dialog.TextInputDialog) -> a
    geogebra.gui.util.PopupMenuButton access$5(geogebra.gui.dialog.TextInputDialog) -> a
    java.lang.String[] access$6(geogebra.gui.dialog.TextInputDialog) -> a
    java.util.ArrayList access$7(geogebra.gui.dialog.TextInputDialog) -> a
    geogebra.gui.util.SelectionTable access$8(geogebra.gui.dialog.TextInputDialog) -> a
    geogebra.gui.dialog.TextInputDialog access$9(geogebra.gui.dialog.TextInputDialog) -> a
geogebra.gui.dialog.TextInputDialog$1 -> geogebra.gui.d.aa:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void undoableEditHappened(javax.swing.event.UndoableEditEvent) -> undoableEditHappened
geogebra.gui.dialog.TextInputDialog$2 -> geogebra.gui.d.ab:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.TextInputDialog$3 -> geogebra.gui.d.ac:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.TextInputDialog$4 -> geogebra.gui.d.ad:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.TextInputDialog$5 -> geogebra.gui.d.ae:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.gui.dialog.TextInputDialog$6 -> geogebra.gui.d.af:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    boolean prepareToShowPopup() -> a
geogebra.gui.dialog.TextInputDialog$7 -> geogebra.gui.d.ag:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.dialog.TextInputDialog$MyKeyListener -> geogebra.gui.d.Z$a:
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.dialog.TextInputDialog$TextInputHandler -> geogebra.gui.d.Z$b:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.dialog.TextInputDialog this$0 -> a
    boolean processInput(java.lang.String) -> a
geogebra.gui.dialog.TextPreviewPanelD -> geogebra.gui.d.ah:
    geogebra.main.AppD app -> a
    geogebra.euclidian.EuclidianViewD ev -> a
    javax.swing.JPanel getJPanel() -> a
    void updateViewportSize(geogebra.common.kernel.geos.GeoText) -> a
    void removeEVMouseListeners() -> a
    geogebra.euclidian.EuclidianViewD getEuclidianView() -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
geogebra.gui.dialog.TextPreviewPanelD$EuclidianViewTextPreview -> geogebra.gui.d.ah$a:
    geogebra.gui.dialog.TextPreviewPanelD this$0 -> a
    void attachView() -> d
    int getViewID() -> a
    boolean isPlotPanel() -> c
geogebra.gui.dialog.TextfieldSizePanel -> geogebra.gui.d.ai:
    geogebra.common.gui.dialog.options.model.TextFieldSizeModel model -> a
    javax.swing.JLabel label -> a
    geogebra.gui.inputfield.MyTextField tfTextfieldSize -> a
    geogebra.main.AppD app -> a
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed() -> b
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setText(java.lang.String) -> a
geogebra.gui.dialog.ToolCreationDialog -> geogebra.gui.d.aj:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    javax.swing.JTabbedPane tabbedPane -> a
    geogebra.gui.ToolNameIconPanel namePanel -> a
    geogebra.gui.dialog.ToolCreationDialog$OutputListModel outputList -> a
    geogebra.gui.dialog.ToolCreationDialog$InputListModel inputList -> a
    javax.swing.DefaultComboBoxModel cbInputAddList -> a
    javax.swing.DefaultComboBoxModel cbOutputAddList -> b
    boolean allowMultiple -> a
    geogebra.common.kernel.Macro newTool -> a
    void setVisible(boolean) -> setVisible
    boolean createTool() -> a
    void finish() -> a
    void overwriteMacro(geogebra.common.kernel.Macro) -> b
    void updateInputList() -> b
    javax.swing.JComboBox removeListeningJComboBox(javax.swing.DefaultComboBoxModel) -> b
    geogebra.common.kernel.geos.GeoElement[] toGeoElements(javax.swing.DefaultListModel) -> a
    void initLists() -> c
    boolean possibleInput(geogebra.common.kernel.geos.GeoElement) -> b
    void initGUI() -> d
    void setFromMacro(geogebra.common.kernel.Macro) -> a
    javax.swing.JPanel createNavigationPanel() -> a
    javax.swing.JPanel createInputOutputPanel(geogebra.main.LocalizationD,javax.swing.DefaultListModel,javax.swing.DefaultComboBoxModel,boolean,boolean,java.awt.event.ActionListener) -> a
    javax.swing.JPanel createListUpDownRemovePanel(geogebra.main.LocalizationD,javax.swing.JList,javax.swing.JComboBox,boolean,boolean,boolean,java.awt.event.ActionListener) -> a
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    boolean isMyCellRenderer(javax.swing.ListCellRenderer) -> a
    javax.swing.JComboBox access$0(javax.swing.DefaultComboBoxModel) -> a
    boolean access$1(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.gui.dialog.ToolCreationDialog$OutputListModel access$2(geogebra.gui.dialog.ToolCreationDialog) -> a
    javax.swing.JTabbedPane access$3(geogebra.gui.dialog.ToolCreationDialog) -> a
    void access$4(geogebra.gui.dialog.ToolCreationDialog) -> a
    void access$5(geogebra.gui.dialog.ToolCreationDialog) -> b
    geogebra.main.AppD access$6(geogebra.gui.dialog.ToolCreationDialog) -> a
    boolean access$7(geogebra.gui.dialog.ToolCreationDialog) -> a
    geogebra.gui.dialog.ToolCreationDialog$InputListModel access$8(geogebra.gui.dialog.ToolCreationDialog) -> a
    geogebra.gui.ToolNameIconPanel access$9(geogebra.gui.dialog.ToolCreationDialog) -> a
geogebra.gui.dialog.ToolCreationDialog$1 -> geogebra.gui.d.ak:
    geogebra.gui.dialog.ToolCreationDialog this$0 -> a
    void removeElement(java.lang.Object) -> removeElement
geogebra.gui.dialog.ToolCreationDialog$2 -> geogebra.gui.d.al:
    geogebra.gui.dialog.ToolCreationDialog this$0 -> a
    javax.swing.JButton val$btNext -> a
    javax.swing.JButton val$btBack -> b
    javax.swing.JButton val$btCancel -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.ToolCreationDialog$3 -> geogebra.gui.d.am:
    geogebra.gui.dialog.ToolCreationDialog this$0 -> a
    javax.swing.JButton val$btBack -> a
    javax.swing.JButton val$btNext -> b
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.dialog.ToolCreationDialog$4 -> geogebra.gui.d.an:
    javax.swing.JComboBox val$cbAdd -> a
    javax.swing.DefaultListModel val$listModel -> a
    void doActionPerformed(java.lang.Object) -> a
geogebra.gui.dialog.ToolCreationDialog$5 -> geogebra.gui.d.ao:
    javax.swing.JList val$list -> a
    javax.swing.JButton val$btUp -> a
    javax.swing.JButton val$btDown -> b
    javax.swing.JButton val$btRemove -> c
    javax.swing.JComboBox val$cbAdd -> a
    boolean val$allowMultiple -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.ToolCreationDialog$InputListModel -> geogebra.gui.d.aj$a:
    javax.swing.DefaultComboBoxModel cbInputAddList -> a
    geogebra.gui.dialog.ToolCreationDialog this$0 -> a
    void addElement(java.lang.Object) -> addElement
geogebra.gui.dialog.ToolCreationDialog$OutputListModel -> geogebra.gui.d.aj$b:
    javax.swing.DefaultComboBoxModel cbOutputAddList -> a
    geogebra.gui.dialog.ToolCreationDialog this$0 -> a
    void addElement(java.lang.Object) -> addElement
geogebra.gui.dialog.ToolManagerDialog -> geogebra.gui.d.ap:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    javax.swing.DefaultListModel toolsModel -> a
    geogebra.common.gui.dialog.ToolManagerDialogModel model -> a
    void setVisible(boolean) -> setVisible
    void updateToolBar(javax.swing.DefaultListModel) -> a
    void deleteTools(javax.swing.JList,javax.swing.DefaultListModel) -> a
    void initGUI() -> b
    void openTools(javax.swing.JList) -> a
    void insertTools(javax.swing.DefaultListModel) -> b
    void uploadToGeoGebraTube(javax.swing.JList) -> b
    void saveTools(javax.swing.JList) -> c
    void removeMacroFromToolbar(int) -> a
    void refreshCustomToolsInToolBar() -> a
    void uploadWorksheet(java.util.ArrayList) -> a
    javax.swing.DefaultListModel access$0(geogebra.gui.dialog.ToolManagerDialog) -> a
    void access$1(geogebra.gui.dialog.ToolManagerDialog,javax.swing.JList,javax.swing.DefaultListModel) -> a
    void access$2(geogebra.gui.dialog.ToolManagerDialog,javax.swing.JList) -> a
    void access$3(geogebra.gui.dialog.ToolManagerDialog,javax.swing.JList) -> b
    void access$4(geogebra.gui.dialog.ToolManagerDialog,javax.swing.JList) -> c
    geogebra.common.gui.dialog.ToolManagerDialogModel access$5(geogebra.gui.dialog.ToolManagerDialog) -> a
geogebra.gui.dialog.ToolManagerDialog$1 -> geogebra.gui.d.aq:
    geogebra.gui.dialog.ToolManagerDialog this$0 -> a
    javax.swing.JButton val$btClose -> a
    geogebra.gui.ToolNameIconPanel val$namePanel -> a
    javax.swing.JButton val$btDelete -> b
    javax.swing.JList val$toolList -> a
    javax.swing.JButton val$btOpen -> c
    javax.swing.JButton val$btSave -> d
    javax.swing.JButton val$btShare -> e
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.ToolManagerDialog$2 -> geogebra.gui.d.ar:
    geogebra.gui.dialog.ToolManagerDialog this$0 -> a
    javax.swing.ListSelectionModel val$selModel -> a
    javax.swing.JList val$toolList -> a
    geogebra.gui.ToolNameIconPanel val$namePanel -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.gui.dialog.ToolManagerDialog$3 -> geogebra.gui.d.as:
    geogebra.gui.dialog.ToolManagerDialog this$0 -> a
    geogebra.common.kernel.Macro val$macro -> a
    void run() -> run
geogebra.gui.dialog.ToolManagerDialog$4 -> geogebra.gui.d.at:
    geogebra.gui.dialog.ToolManagerDialog this$0 -> a
    javax.swing.JList val$toolList -> a
    void run() -> run
geogebra.gui.dialog.ToolManagerDialog$MacroCellRenderer -> geogebra.gui.d.ap$a:
    geogebra.gui.dialog.ToolManagerDialog this$0 -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.dialog.WebViewDialog -> geogebra.gui.d.au:
    javafx.embed.swing.JFXPanel fxPanel -> a
    geogebra.main.AppD app -> a
    javafx.scene.web.WebView webView -> a
    javafx.embed.swing.JFXPanel createWebView(java.lang.String) -> a
    void initWebView(javafx.embed.swing.JFXPanel,java.lang.String) -> a
    javafx.scene.web.WebEngine getWebEngine() -> a
    void onPageLoaded() -> a
    void onHyperlinkClicked(java.lang.String,java.lang.String,java.lang.String,org.w3c.dom.events.Event) -> a
    void setDialogSizeToPageSize() -> b
    void addHyperlinkListener() -> c
    java.lang.String getDomainNameFromURL(java.lang.String) -> a
geogebra.gui.dialog.WebViewDialog$1 -> geogebra.gui.d.av:
    geogebra.gui.dialog.WebViewDialog this$0 -> a
    java.lang.String val$startURL -> a
    void run() -> run
geogebra.gui.dialog.WebViewDialog$2 -> geogebra.gui.d.aw:
    geogebra.gui.dialog.WebViewDialog this$0 -> a
    void changed(javafx.beans.value.ObservableValue,javafx.concurrent.Worker$State,javafx.concurrent.Worker$State) -> a
    void changed(javafx.beans.value.ObservableValue,java.lang.Object,java.lang.Object) -> changed
geogebra.gui.dialog.WebViewDialog$3 -> geogebra.gui.d.ax:
    geogebra.gui.dialog.WebViewDialog this$0 -> a
    void handleEvent(org.w3c.dom.events.Event) -> handleEvent
geogebra.gui.dialog.options.AxisPanel -> geogebra.gui.d.a.a:
    geogebra.common.gui.dialog.options.model.AxisModel model -> a
    javax.swing.JCheckBox cbShowAxis -> a
    javax.swing.JCheckBox cbAxisNumber -> b
    javax.swing.JCheckBox cbManualTicks -> c
    javax.swing.JCheckBox cbPositiveAxis -> d
    javax.swing.JCheckBox cbDrawAtBorder -> e
    geogebra.gui.NumberComboBox ncbTickDist -> a
    javax.swing.JComboBox cbTickStyle -> a
    javax.swing.JComboBox cbAxisLabel -> b
    javax.swing.JComboBox cbUnitLabel -> c
    javax.swing.JTextField tfCross -> a
    javax.swing.JLabel crossAt -> a
    javax.swing.JLabel axisTicks -> b
    javax.swing.JLabel axisLabel -> c
    javax.swing.JLabel axisUnitLabel -> d
    javax.swing.JLabel stickToEdge -> e
    geogebra.main.AppD app -> a
    geogebra.common.euclidian.EuclidianView view -> a
    void addCrossPanel(javax.swing.JPanel) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed(java.lang.Object) -> a
    void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged
    void updatePanel() -> b
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setLabels() -> x_
    void updateFont() -> c
    void addTickItem(java.lang.String) -> a
    void addAxisLabelItem(java.lang.String) -> b
    void addUnitLabelItem(java.lang.String) -> c
    void setCrossText(java.lang.String) -> d
geogebra.gui.dialog.options.LanguageRenderer -> geogebra.gui.d.a.b:
    geogebra.common.main.App app -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.dialog.options.OptionPanelD -> geogebra.gui.d.a.c:
    void updateGUI() -> c
    void revalidate() -> d
    javax.swing.JPanel getWrappedPanel() -> a
    void applyModifications() -> e
    void setSelected(boolean) -> e
geogebra.gui.dialog.options.OptionsAdvancedD -> geogebra.gui.d.a.d:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.common.main.settings.Settings settings -> a
    javax.swing.JPanel virtualKeyboardPanel -> a
    javax.swing.JPanel guiFontsizePanel -> b
    javax.swing.JPanel tooltipPanel -> c
    javax.swing.JPanel languagePanel -> d
    javax.swing.JPanel angleUnitPanel -> e
    javax.swing.JPanel continuityPanel -> f
    javax.swing.JPanel usePathAndRegionParametersPanel -> g
    javax.swing.JPanel rightAnglePanel -> h
    javax.swing.JPanel coordinatesPanel -> i
    javax.swing.JLabel keyboardLanguageLabel -> a
    javax.swing.JLabel guiFontSizeLabel -> b
    javax.swing.JLabel widthLabel -> c
    javax.swing.JLabel heightLabel -> d
    javax.swing.JLabel opacityLabel -> e
    javax.swing.JLabel tooltipLanguageLabel -> f
    javax.swing.JLabel tooltipTimeoutLabel -> g
    javax.swing.JComboBox cbKeyboardLanguage -> a
    javax.swing.JComboBox cbTooltipLanguage -> b
    javax.swing.JComboBox cbTooltipTimeout -> c
    javax.swing.JComboBox cbGUIFont -> d
    javax.swing.JCheckBox cbKeyboardShowAutomatic -> a
    javax.swing.JCheckBox cbUseLocalDigits -> b
    javax.swing.JCheckBox cbUseLocalLabels -> c
    javax.swing.JCheckBox cbReturnAngleInverseTrig -> d
    javax.swing.JRadioButton angleUnitRadioDegree -> a
    javax.swing.JRadioButton angleUnitRadioRadian -> b
    javax.swing.JRadioButton continuityRadioOn -> c
    javax.swing.JRadioButton continuityRadioOff -> d
    javax.swing.JRadioButton usePathAndRegionParametersRadioOn -> e
    javax.swing.JRadioButton usePathAndRegionParametersRadioOff -> f
    javax.swing.JRadioButton rightAngleRadio1 -> g
    javax.swing.JRadioButton rightAngleRadio2 -> h
    javax.swing.JRadioButton rightAngleRadio3 -> i
    javax.swing.JRadioButton rightAngleRadio4 -> j
    javax.swing.JRadioButton coordinatesRadio1 -> k
    javax.swing.JRadioButton coordinatesRadio2 -> l
    javax.swing.JRadioButton coordinatesRadio3 -> m
    javax.swing.ButtonGroup angleUnitButtonGroup -> a
    javax.swing.ButtonGroup continuityButtonGroup -> b
    javax.swing.ButtonGroup usePathAndRegionParametersButtonGroup -> c
    javax.swing.ButtonGroup rightAngleButtonGroup -> d
    javax.swing.ButtonGroup coordinatesButtonGroup -> e
    javax.swing.JTextField tfKeyboardWidth -> a
    javax.swing.JTextField tfKeyboardHeight -> b
    javax.swing.JSlider slOpacity -> a
    java.lang.String[] tooltipTimeouts -> a
    javax.swing.JPanel wrappedPanel -> j
    void initGUI() -> h
    void initVirtualKeyboardPanel() -> i
    void initGUIFontSizePanel() -> j
    void initLanguagePanel() -> k
    void initTooltipPanel() -> l
    void initAngleUnitPanel() -> m
    void initContinuityPanel() -> n
    void initUsePathAndRegionParametersPanel() -> o
    void initRightAnglePanel() -> p
    void initCoordinatesPanel() -> q
    void updateGUI() -> c
    void updateGUIFont() -> b
    void updateTooltipLanguages() -> f
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void handleEVOption(java.lang.Object) -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void changeWidthOrHeight(java.lang.Object) -> b
    void setLabels() -> x_
    void setLabelsKeyboardLanguage() -> r
    void setLabelsGUIFontsize() -> s
    void setLabelsTooltipLanguages() -> t
    void setLabelsTooltipTimeouts() -> u
    javax.swing.JPanel getWrappedPanel() -> a
    void revalidate() -> d
    void applyModifications() -> e
    void updateFont() -> g
    void setSelected(boolean) -> e
geogebra.gui.dialog.options.OptionsCASD -> geogebra.gui.d.a.e:
    geogebra.main.AppD app -> a
    geogebra.common.main.settings.CASSettings casSettings -> a
    javax.swing.JLabel timeoutLabel -> a
    javax.swing.JComboBox cbTimeout -> a
    javax.swing.JCheckBox cbShowRoots -> a
    javax.swing.JPanel wrappedPanel -> a
    void initGUI() -> f
    void updateGUI() -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setLabels() -> x_
    void applyModifications() -> e
    javax.swing.JPanel getWrappedPanel() -> a
    void revalidate() -> d
    void updateFont() -> b
    void setSelected(boolean) -> e
geogebra.gui.dialog.options.OptionsDefaultsD -> geogebra.gui.d.a.f:
    geogebra.main.AppD app -> a
    geogebra.gui.dialog.PropertiesPanelD propPanel -> a
    javax.swing.JTree tree -> a
    javax.swing.tree.DefaultTreeCellRenderer treeCellRenderer -> a
    javax.swing.tree.DefaultTreeModel treeModel -> a
    javax.swing.tree.DefaultMutableTreeNode rootNode -> a
    javax.swing.tree.DefaultMutableTreeNode pointsNode -> b
    javax.swing.tree.DefaultMutableTreeNode pointsFreeNode -> c
    javax.swing.tree.DefaultMutableTreeNode pointsDepNode -> d
    javax.swing.tree.DefaultMutableTreeNode pointsPathNode -> e
    javax.swing.tree.DefaultMutableTreeNode pointsInRegionNode -> f
    javax.swing.tree.DefaultMutableTreeNode pointsComplexNode -> g
    javax.swing.tree.DefaultMutableTreeNode lineNode -> h
    javax.swing.tree.DefaultMutableTreeNode segmentNode -> i
    javax.swing.tree.DefaultMutableTreeNode vectorNode -> j
    javax.swing.tree.DefaultMutableTreeNode conicNode -> k
    javax.swing.tree.DefaultMutableTreeNode conicSectorNode -> l
    javax.swing.tree.DefaultMutableTreeNode rayNode -> m
    javax.swing.tree.DefaultMutableTreeNode numberNode -> n
    javax.swing.tree.DefaultMutableTreeNode angleNode -> o
    javax.swing.tree.DefaultMutableTreeNode functionNode -> p
    javax.swing.tree.DefaultMutableTreeNode polygonNode -> q
    javax.swing.tree.DefaultMutableTreeNode polylineNode -> r
    javax.swing.tree.DefaultMutableTreeNode locusNode -> s
    javax.swing.tree.DefaultMutableTreeNode textNode -> t
    javax.swing.tree.DefaultMutableTreeNode imageNode -> u
    javax.swing.tree.DefaultMutableTreeNode booleanNode -> v
    javax.swing.tree.DefaultMutableTreeNode listNode -> w
    javax.swing.tree.DefaultMutableTreeNode inequalitiesNode -> x
    javax.swing.tree.DefaultMutableTreeNode functionNVarNode -> y
    javax.swing.JButton defaultsButton -> a
    geogebra.common.kernel.ConstructionDefaults defaults -> a
    javax.swing.JPanel wrappedPanel -> a
    java.util.Hashtable typeToNode -> a
    void initGUI() -> f
    void initNodes() -> g
    void createDefaultMap() -> h
    void updateGUI() -> c
    void setLabels() -> x_
    void valueChanged(javax.swing.event.TreeSelectionEvent) -> valueChanged
    void applyModifications() -> e
    javax.swing.JPanel getWrappedPanel() -> a
    void revalidate() -> d
    void applyDefaults() -> i
    void updateFont() -> b
    void setSelected(boolean) -> e
    void access$0(geogebra.gui.dialog.options.OptionsDefaultsD) -> a
geogebra.gui.dialog.options.OptionsDefaultsD$1 -> geogebra.gui.d.a.g:
    geogebra.gui.dialog.options.OptionsDefaultsD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.options.OptionsEuclidianD -> geogebra.gui.d.a.h:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.dialog.options.model.EuclidianOptionsModel model -> a
    geogebra.common.euclidian.EuclidianView view -> a
    geogebra.gui.dialog.options.AxisPanel xAxisPanel -> a
    geogebra.gui.dialog.options.AxisPanel yAxisPanel -> b
    javax.swing.JTabbedPane tabbedPane -> a
    javax.swing.JPanel dimPanel -> d
    javax.swing.JPanel stylePanel -> e
    javax.swing.JPanel typePanel -> a
    javax.swing.JPanel axesOptionsPanel -> b
    javax.swing.JPanel consProtocolPanel -> f
    javax.swing.JPanel miscPanel -> c
    javax.swing.JButton btBackgroundColor -> a
    javax.swing.JButton btAxesColor -> b
    javax.swing.JButton btGridColor -> c
    javax.swing.JCheckBox cbShowAxes -> a
    javax.swing.JCheckBox cbBoldAxes -> e
    javax.swing.JCheckBox cbShowGrid -> f
    javax.swing.JCheckBox cbBoldGrid -> b
    javax.swing.JCheckBox cbGridManualTick -> c
    javax.swing.JCheckBox cbShowMouseCoords -> d
    javax.swing.JCheckBox ckShowNavbar -> g
    javax.swing.JCheckBox ckNavPlay -> h
    javax.swing.JCheckBox ckOpenConsProtocol -> i
    javax.swing.JComboBox cbAxesStyle -> a
    javax.swing.JComboBox cbGridType -> b
    javax.swing.JComboBox cbGridStyle -> c
    javax.swing.JComboBox cbGridTickAngle -> d
    javax.swing.JComboBox cbTooltips -> e
    javax.swing.JTextField tfAxesRatioX -> e
    javax.swing.JTextField tfAxesRatioY -> f
    java.text.NumberFormat nfAxesRatio -> a
    geogebra.gui.NumberComboBox ncbGridTickX -> a
    geogebra.gui.NumberComboBox ncbGridTickY -> b
    javax.swing.JTextField tfMinX -> a
    javax.swing.JTextField tfMaxX -> b
    javax.swing.JTextField tfMinY -> c
    javax.swing.JTextField tfMaxY -> d
    javax.swing.JLabel[] dimLabel -> a
    javax.swing.JLabel axesRatioLabel -> b
    javax.swing.JLabel gridLabel1 -> c
    javax.swing.JLabel gridLabel2 -> d
    javax.swing.JLabel gridLabel3 -> e
    javax.swing.JLabel lblColor -> f
    javax.swing.JLabel tooltips -> g
    javax.swing.JLabel backgroundColor -> a
    javax.swing.JLabel color -> h
    javax.swing.JLabel lineStyle -> i
    boolean isIniting -> a
    javax.swing.JToggleButton cbLockRatio -> a
    javax.swing.JPanel wrappedPanel -> g
    boolean isSelected -> b
    javax.swing.Action showConsProtNavigationAction -> a
    javax.swing.Action showConsProtNavigationPlayAction -> b
    javax.swing.Action showConsProtNavigationOpenProtAction -> c
    void initGUI() -> u
    void addTabs() -> f
    void addAxisTabs() -> g
    void initAxisPanels() -> h
    void initDimensionPanel() -> v
    void initAxesOptionsPanel() -> i
    void fillAxesOptionsPanel() -> j
    void initMiscPanel() -> k
    void fillMiscPanel() -> l
    javax.swing.JPanel buildBasicPanel() -> b
    void addDimPanel(javax.swing.JPanel) -> a
    void initGridTypePanel() -> w
    void addComboGridType() -> m
    void initGridStylePanel() -> x
    javax.swing.JPanel buildGridPanel() -> c
    void fillGridPanel(javax.swing.JPanel,javax.swing.JPanel) -> a
    void updateMinMax() -> n
    void updateBounds() -> b
    void updateAxes(geogebra.common.awt.GColor,boolean,boolean) -> a
    void updateGrid(geogebra.common.awt.GColor,boolean,boolean,int) -> a
    void updateGUI() -> c
    void updateConsProtocolPanel(boolean) -> b
    void setTypePanelLabel() -> o
    void setLabels() -> x_
    void setTabLabels() -> p
    void setLabelsForCbView() -> q
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void actionBtBackgroundColor() -> r
    void doActionPerformed(java.lang.Object) -> a
    double parseDouble(java.lang.String) -> a
    void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setSelectedTab(int) -> d
    javax.swing.JPanel getWrappedPanel() -> a
    void revalidate() -> d
    void applyModifications() -> e
    void updateFont() -> s
    void updateFont(java.awt.Font) -> a
    void setSelected(boolean) -> e
    void initConsProtocolPanel() -> y
    geogebra.common.awt.GColor getEuclidianBackground(int) -> a
    void enableAxesRatio(boolean) -> a
    void setMinMaxText(java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    void addTooltipItem(java.lang.String) -> a
    void selectTooltipType(int) -> a
    void showMouseCoords(boolean) -> c
    void selectAxesStyle(int) -> b
    void updateGridTicks(boolean,double[],int) -> a
    void enableLock(boolean) -> d
    void selectGridStyle(int) -> c
    void addGridTypeItem(java.lang.String) -> b
    void addAngleOptionItem(java.lang.String) -> c
    void updateBackgroundColor(geogebra.common.awt.GColor) -> a
    void reinit() -> t
geogebra.gui.dialog.options.OptionsEuclidianD$1 -> geogebra.gui.d.a.i:
    geogebra.gui.dialog.options.OptionsEuclidianD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.options.OptionsEuclidianD$2 -> geogebra.gui.d.a.j:
    geogebra.gui.dialog.options.OptionsEuclidianD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.options.OptionsEuclidianD$3 -> geogebra.gui.d.a.k:
    geogebra.gui.dialog.options.OptionsEuclidianD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.dialog.options.OptionsLayoutD -> geogebra.gui.d.a.l:
    geogebra.main.AppD app -> a
    geogebra.common.main.settings.Settings settings -> a
    javax.swing.JPanel sideBarPanel -> a
    javax.swing.JPanel inputBarPanel -> b
    javax.swing.JPanel toolbarPanel -> c
    javax.swing.JPanel perspectivesPanel -> d
    javax.swing.JCheckBox ckShowInputHelp -> a
    javax.swing.JCheckBox ckIgnoreDocumentLayout -> b
    javax.swing.JCheckBox ckShowTitleBar -> c
    javax.swing.JCheckBox ckAllowStyleBar -> d
    javax.swing.JCheckBox ckShowInputBar -> e
    javax.swing.JCheckBox ckShowToolbar -> f
    javax.swing.JCheckBox ckShowToolHelp -> g
    javax.swing.JCheckBox ckShowMenuBar -> h
    javax.swing.JCheckBox ckShowSideBar -> i
    javax.swing.JToggleButton rbToolbarNorth -> a
    javax.swing.JToggleButton rbToolbarSouth -> b
    javax.swing.JToggleButton rbToolbarEast -> c
    javax.swing.JToggleButton rbToolbarWest -> d
    javax.swing.JToggleButton rbSidebarWest -> e
    javax.swing.JToggleButton rbSidebarEast -> f
    javax.swing.JRadioButton rbPespectiveSidebar -> a
    javax.swing.JRadioButton rbButtonSidebar -> b
    javax.swing.JToggleButton rbInputBarSouth -> g
    javax.swing.JToggleButton rbInputBarNorth -> h
    javax.swing.JLabel lblInputBarPosition -> a
    javax.swing.JLabel lblSidebarPosition -> b
    javax.swing.ButtonGroup inputbarPosGroup -> a
    javax.swing.ButtonGroup toolBarPosGroup -> b
    geogebra.gui.util.LayoutUtil$TitlePanel menuBarPanel -> a
    javax.swing.JPanel wrappedPanel -> e
    void reinit() -> b
    void initGUI() -> g
    void initPerspectivesPanel() -> h
    void initInputbarPanel() -> i
    void initSideBarPanel() -> j
    void initMenuBarPanel() -> k
    void initToolBarPanel() -> l
    void updateGUI() -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setLabels() -> x_
    javax.swing.JPanel getWrappedPanel() -> a
    void revalidate() -> d
    void applyModifications() -> e
    void updateFont() -> f
    void setSelected(boolean) -> e
geogebra.gui.dialog.options.OptionsObjectD -> geogebra.gui.d.a.m:
    geogebra.gui.dialog.PropertiesPanelD propPanel -> a
    geogebra.gui.color.GeoGebraColorChooser colChooser -> a
    geogebra.gui.view.algebra.AlgebraTree tree -> a
    javax.swing.JSplitPane splitPane -> a
    javax.swing.JScrollPane listScroller -> a
    javax.swing.JPanel wrappedPanel -> a
    boolean viewActive -> b
    int dividerLocation -> a
    boolean isSelected -> c
    void initGUI() -> f
    void showSliderTab() -> g
    void setLabels() -> x_
    void setVisibleWithGeos(java.util.ArrayList) -> a
    void setVisible(boolean) -> a
    void setViewActive(boolean) -> b
    void setGeoTreeVisible() -> h
    void setGeoTreeNotVisible() -> i
    void updateSelection(java.util.ArrayList) -> b
    geogebra.gui.view.algebra.AlgebraTree getTree() -> a
    void updateGUI() -> c
    void updateIfInSelection(geogebra.common.kernel.geos.GeoElement) -> b
    void rename(geogebra.common.kernel.geos.GeoElement) -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d
    void revalidate() -> d
    java.awt.Dimension getPreferredSize() -> a
    void setMinimumSize(java.awt.Dimension) -> a
    javax.swing.JPanel getWrappedPanel() -> a
    void applyModifications() -> e
    void updateFont() -> j
    void setSelected(boolean) -> e
    void updateTextEditor(geogebra.common.kernel.geos.GeoElement) -> e
geogebra.gui.dialog.options.OptionsSpreadsheetD -> geogebra.gui.d.a.n:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    javax.swing.JCheckBox cbShowFormulaBar -> a
    javax.swing.JCheckBox cbShowGrid -> b
    javax.swing.JCheckBox cbShowRowHeader -> c
    javax.swing.JCheckBox cbShowColumnHeader -> d
    javax.swing.JCheckBox cbShowHScrollbar -> e
    javax.swing.JCheckBox cbShowVScrollbar -> f
    javax.swing.JCheckBox cbAllowSpecialEditor -> g
    javax.swing.JCheckBox cbAllowToolTips -> h
    javax.swing.JCheckBox cbPrependCommands -> i
    javax.swing.JCheckBox cbEnableAutoComplete -> j
    javax.swing.JPanel wrappedPanel -> a
    geogebra.common.main.settings.SpreadsheetSettings settings() -> a
    void initGUI() -> f
    javax.swing.JPanel buildLayoutOptionsPanel() -> b
    void setLabels() -> x_
    void applyModifications() -> e
    void updateGUI() -> c
    void updateCheckBox(javax.swing.JCheckBox,boolean) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed(java.lang.Object) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    javax.swing.JPanel getWrappedPanel() -> a
    void revalidate() -> d
    void updateFont() -> b
    void setSelected(boolean) -> e
geogebra.gui.editor.GeoGebraContext -> geogebra.gui.e.a:
    java.util.Map TOKENS -> a
    javax.swing.text.View view -> a
    geogebra.main.AppD app -> a
    java.util.List typeToDefault -> a
    java.util.Map colorMap -> b
    java.util.Map attribMap -> c
    void genAttributes() -> a
    void genColors() -> b
    javax.swing.text.View create(javax.swing.text.Element) -> create
geogebra.gui.editor.GeoGebraEditorKit -> geogebra.gui.e.b:
    geogebra.gui.editor.GeoGebraContext preferences -> a
    geogebra.main.AppD app -> a
    java.lang.String getContentType() -> getContentType
    geogebra.gui.editor.GeoGebraContext getStylePreferences() -> a
    javax.swing.text.ViewFactory getViewFactory() -> getViewFactory
geogebra.gui.editor.GeoGebraEditorPane -> geogebra.gui.e.c:
    javax.swing.Popup helpPopup -> a
    geogebra.main.AppD app -> a
    int rows -> a
    int cols -> b
    int rowHeight -> c
    int columnWidth -> d
    geogebra.gui.editor.Lexer lexer -> a
    boolean matchingEnable -> a
    geogebra.gui.editor.MatchingBlockManager matchLR -> a
    geogebra.gui.editor.MatchingBlockManager matchRL -> b
    java.awt.Point mousePoint -> a
    java.util.List kwListeners -> a
    int type -> e
    void setEditorKit(java.lang.String) -> a
    void setFont(java.awt.Font) -> setFont
    void updateFont(java.awt.Font) -> a
    java.awt.Dimension getPreferredSizeFromRowColumn(int,int) -> a
    void addKeywordListener(geogebra.gui.editor.KeywordListener) -> a
    void enableMatchingKeywords(boolean) -> a
    void caretUpdate(javax.swing.event.CaretEvent) -> caretUpdate
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    geogebra.gui.editor.KeywordEvent getKeywordEvent(int) -> a
    void preventConcernedKeywordListener(int,java.util.EventObject,int) -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
geogebra.gui.editor.GeoGebraLexer -> geogebra.gui.e.d:
    int[] ZZ_LEXSTATE -> a
    char[] ZZ_CMAP -> a
    int[] ZZ_ACTION -> b
    java.lang.String[] ZZ_ERROR_MSG -> a
    java.io.Reader zzReader -> a
    int zzState -> c
    int zzLexicalState -> d
    char[] zzBuffer -> b
    int zzMarkedPos -> e
    int zzCurrentPos -> f
    int zzStartRead -> g
    int zzEndRead -> h
    int yyline -> i
    int yychar -> j
    int yycolumn -> k
    boolean zzAtBOL -> a
    boolean zzAtEOF -> b
    boolean zzEOFDone -> c
    int end -> a
    java.util.Set commands -> a
    java.util.Set variables -> b
    javax.swing.text.Document doc -> a
    javax.swing.text.Element elem -> a
    int[] zzUnpackAction() -> a
    int zzUnpackAction(java.lang.String,int,int[]) -> a
    void setDocument(javax.swing.text.Document) -> a
    void setRange(int,int) -> a
    int yychar() -> a
    int scan() -> b
    int getKeyword(int,boolean) -> a
    char[] zzUnpackCMap(java.lang.String) -> a
    boolean zzRefill() -> a
    void yyreset(java.io.Reader) -> a
    java.lang.String yytext() -> a
    int yylength() -> c
    void zzScanError(int) -> b
    void yypushback(int) -> a
    int yylex() -> d
geogebra.gui.editor.GeoGebraView -> geogebra.gui.e.e:
    geogebra.gui.editor.ViewContext context -> a
    geogebra.gui.editor.Lexer lexer -> a
    boolean lexerValid -> a
    javax.swing.text.Document doc -> a
    javax.swing.text.Segment text -> a
    boolean isTabViewable -> b
    boolean isWhiteViewable -> c
    boolean enable -> d
    int tabType -> a
    java.lang.String tabCharacter -> a
    int numOfColumns -> b
    java.awt.Color lineColor -> a
    java.awt.Rectangle rect -> a
    java.util.Map desktopFontHints -> a
    boolean enableDesktopFontHints -> e
    int whiteHeight -> c
    int whiteWidth -> d
    boolean unselected -> f
    void paint(java.awt.Graphics,java.awt.Shape) -> paint
    java.awt.Shape modelToView(int,javax.swing.text.Position$Bias,int,javax.swing.text.Position$Bias,java.awt.Shape) -> modelToView
    int drawUnselectedText(java.awt.Graphics,int,int,int,int) -> drawUnselectedText
    int drawSelectedText(java.awt.Graphics,int,int,int,int) -> drawSelectedText
    void setTabRepresentation(int) -> a
    void paintTab(javax.swing.text.Segment,int,int,java.awt.Graphics,int) -> a
    void calculateHeight(java.awt.font.FontRenderContext,java.awt.Font) -> a
geogebra.gui.editor.HelpOnKeywordPanel -> geogebra.gui.e.f:
    geogebra.gui.editor.HelpOnKeywordPanel instance -> a
    javax.swing.JTextArea textarea -> a
    geogebra.gui.editor.HelpOnKeywordPanel getInstance(geogebra.main.AppD,java.lang.String) -> a
geogebra.gui.editor.JavascriptContext -> geogebra.gui.e.g:
    java.util.Map TOKENS -> a
    javax.swing.text.View view -> a
    java.util.List typeToDefault -> a
    java.util.Map colorMap -> b
    java.util.Map attribMap -> c
    void genAttributes() -> a
    void genColors() -> b
    javax.swing.text.View create(javax.swing.text.Element) -> create
geogebra.gui.editor.JavascriptEditorKit -> geogebra.gui.e.h:
    geogebra.gui.editor.JavascriptContext preferences -> a
    geogebra.main.AppD app -> a
    java.lang.String getContentType() -> getContentType
    geogebra.gui.editor.JavascriptContext getStylePreferences() -> a
    javax.swing.text.Document createDefaultDocument() -> createDefaultDocument
    javax.swing.text.ViewFactory getViewFactory() -> getViewFactory
geogebra.gui.editor.JavascriptEditorKit$JavascriptDocument -> geogebra.gui.e.h$a:
    geogebra.gui.editor.GeoGebraEditorPane textcomponent -> a
    boolean isCommented(javax.swing.text.Element) -> a
    void setTextComponent(geogebra.gui.editor.GeoGebraEditorPane) -> a
    boolean isCommented(int) -> a
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void handleUpdate(javax.swing.event.DocumentEvent) -> a
    boolean handleElement(javax.swing.text.Element,boolean) -> a
geogebra.gui.editor.JavascriptLexer -> geogebra.gui.e.i:
    int[] ZZ_LEXSTATE -> a
    char[] ZZ_CMAP -> a
    int[] ZZ_ACTION -> b
    java.lang.String[] ZZ_ERROR_MSG -> a
    java.io.Reader zzReader -> a
    int zzState -> c
    int zzLexicalState -> d
    char[] zzBuffer -> b
    int zzMarkedPos -> e
    int zzCurrentPos -> f
    int zzStartRead -> g
    int zzEndRead -> h
    int yyline -> i
    int yychar -> j
    int yycolumn -> k
    boolean zzAtBOL -> a
    boolean zzAtEOF -> b
    boolean zzEOFDone -> c
    int end -> a
    geogebra.gui.editor.JavascriptEditorKit$JavascriptDocument doc -> a
    javax.swing.text.Element elem -> a
    int[] zzUnpackAction() -> a
    int zzUnpackAction(java.lang.String,int,int[]) -> a
    void setDocument(javax.swing.text.Document) -> a
    void setRange(int,int) -> a
    int yychar() -> a
    int scan() -> b
    int getKeyword(int,boolean) -> a
    char[] zzUnpackCMap(java.lang.String) -> a
    boolean zzRefill() -> a
    void yyreset(java.io.Reader) -> a
    void yybegin(int) -> a
    int yylength() -> c
    void zzScanError(int) -> c
    void yypushback(int) -> b
    int yylex() -> d
geogebra.gui.editor.KeywordAdapter -> geogebra.gui.e.j:
    int type -> a
    int getType() -> a
geogebra.gui.editor.KeywordAdapter$MouseOverAdapter -> geogebra.gui.e.j$a:
geogebra.gui.editor.KeywordEvent -> geogebra.gui.e.k:
    int start -> a
    int length -> b
    int type -> c
    java.util.EventObject event -> a
    int getStart() -> a
    int getLength() -> b
    int getType() -> c
geogebra.gui.editor.KeywordListener -> geogebra.gui.e.l:
    void caughtKeyword(geogebra.gui.editor.KeywordEvent) -> a
    int getType() -> a
geogebra.gui.editor.LaTeXContext -> geogebra.gui.e.m:
    java.util.Map TOKENS -> a
    javax.swing.text.View view -> a
    java.util.List typeToDefault -> a
    java.util.Map colorMap -> b
    java.util.Map attribMap -> c
    void genAttributes() -> a
    void genColors() -> b
    javax.swing.text.View create(javax.swing.text.Element) -> create
geogebra.gui.editor.LaTeXEditorKit -> geogebra.gui.e.n:
    geogebra.gui.editor.LaTeXContext preferences -> a
    geogebra.main.AppD app -> a
    java.lang.String getContentType() -> getContentType
    geogebra.gui.editor.LaTeXContext getStylePreferences() -> a
    javax.swing.text.ViewFactory getViewFactory() -> getViewFactory
geogebra.gui.editor.LaTeXLexer -> geogebra.gui.e.o:
    int[] ZZ_LEXSTATE -> a
    char[] ZZ_CMAP -> a
    int[] ZZ_ACTION -> b
    java.lang.String[] ZZ_ERROR_MSG -> a
    java.io.Reader zzReader -> a
    int zzState -> c
    int zzLexicalState -> d
    char[] zzBuffer -> b
    int zzMarkedPos -> e
    int zzCurrentPos -> f
    int zzStartRead -> g
    int zzEndRead -> h
    int yyline -> i
    int yychar -> j
    int yycolumn -> k
    boolean zzAtBOL -> a
    boolean zzAtEOF -> b
    boolean zzEOFDone -> c
    int end -> a
    javax.swing.text.Document doc -> a
    javax.swing.text.Element elem -> a
    int[] zzUnpackAction() -> a
    int zzUnpackAction(java.lang.String,int,int[]) -> a
    void setDocument(javax.swing.text.Document) -> a
    void setRange(int,int) -> a
    int yychar() -> a
    int scan() -> b
    int getKeyword(int,boolean) -> a
    char[] zzUnpackCMap(java.lang.String) -> a
    boolean zzRefill() -> a
    void yyreset(java.io.Reader) -> a
    int yylength() -> c
    void zzScanError(int) -> a
    int yylex() -> d
geogebra.gui.editor.Lexer -> geogebra.gui.e.p:
    int start -> b
    void setRange(int,int) -> a
    int yychar() -> a
    int yylength() -> c
    int scan() -> b
    int getKeyword(int,boolean) -> a
    void setDocument(javax.swing.text.Document) -> a
geogebra.gui.editor.MatchingBlockManager -> geogebra.gui.e.q:
    javax.swing.text.Document doc -> a
    geogebra.gui.editor.GeoGebraEditorPane pane -> a
    geogebra.gui.editor.MatchingBlockScanner scanner -> a
    javax.swing.text.Highlighter highlighter -> a
    geogebra.gui.editor.MatchingBlockScanner$MatchingPositions smpos -> a
    javax.swing.text.Highlighter$HighlightPainter kwPainter -> a
    javax.swing.text.Highlighter$HighlightPainter ocPainter -> b
    java.lang.Object first -> a
    java.lang.Object second -> b
    boolean insideOc -> a
    boolean insideKw -> b
    boolean ocIncluded -> c
    boolean kwIncluded -> d
    boolean lr -> e
    geogebra.gui.editor.MatchingBlockManager$MouseOverMatcher mouseover -> a
    void setPainterForOpenClose(boolean,boolean,java.awt.Color) -> a
    void setPainterForOpenClose(int,java.awt.Color) -> a
    void setPainterForOpenClose() -> a
    void setDefaults() -> b
    void activateMouseOver() -> c
    void update() -> d
    void searchMatchingBlock(int,int) -> a
    void createHighlights(geogebra.gui.editor.MatchingBlockScanner$MatchingPositions,boolean,boolean,javax.swing.text.Highlighter$HighlightPainter) -> a
    javax.swing.text.Document access$0(geogebra.gui.editor.MatchingBlockManager) -> a
    boolean access$1(geogebra.gui.editor.MatchingBlockManager) -> a
geogebra.gui.editor.MatchingBlockManager$GeoGebraKeywordsPainter -> geogebra.gui.e.q$a:
    java.awt.Color color -> a
    int type -> a
    geogebra.gui.editor.MatchingBlockManager this$0 -> a
    java.awt.Shape paintLayer(java.awt.Graphics,int,int,java.awt.Shape,javax.swing.text.JTextComponent,javax.swing.text.View) -> paintLayer
geogebra.gui.editor.MatchingBlockManager$InsideLinePainter -> geogebra.gui.e.q$b:
    boolean filled -> a
    boolean strict -> b
    java.awt.Color color -> a
    geogebra.gui.editor.MatchingBlockManager this$0 -> a
    void paint(java.awt.Graphics,int,int,java.awt.Shape,javax.swing.text.JTextComponent) -> paint
geogebra.gui.editor.MatchingBlockManager$MouseOverMatcher -> geogebra.gui.e.q$c:
    geogebra.gui.editor.MatchingBlockManager this$0 -> a
    void caughtKeyword(geogebra.gui.editor.KeywordEvent) -> a
geogebra.gui.editor.MatchingBlockManager$Parameters -> geogebra.gui.e.q$d:
    java.awt.Color color -> a
    boolean inside -> a
    boolean strict -> b
    boolean included -> c
    int type -> a
    boolean onmouseover -> d
geogebra.gui.editor.MatchingBlockScanner -> geogebra.gui.e.r:
    int[] ZZ_LEXSTATE -> a
    char[] ZZ_CMAP -> a
    int[] ZZ_ACTION -> b
    java.lang.String[] ZZ_ERROR_MSG -> a
    java.io.Reader zzReader -> a
    int zzState -> a
    int zzLexicalState -> b
    char[] zzBuffer -> b
    int zzMarkedPos -> c
    int zzCurrentPos -> d
    int zzStartRead -> e
    int zzEndRead -> f
    int yyline -> g
    int yychar -> h
    int yycolumn -> i
    boolean zzAtBOL -> a
    boolean zzAtEOF -> b
    boolean zzEOFDone -> c
    javax.swing.text.Document doc -> a
    javax.swing.text.Element elem -> a
    int start -> j
    int end -> k
    int[] zzUnpackAction() -> a
    int zzUnpackAction(java.lang.String,int,int[]) -> a
    geogebra.gui.editor.MatchingBlockScanner$MatchingPositions getMatchingBlock(int,boolean) -> a
    char[] zzUnpackCMap(java.lang.String) -> a
    boolean zzRefill() -> a
    void yyreset(java.io.Reader) -> a
    void yybegin(int) -> a
    int yylength() -> a
    void zzScanError(int) -> b
    int yylex() -> b
geogebra.gui.editor.MatchingBlockScanner$MatchingPositions -> geogebra.gui.e.r$a:
    int firstB -> a
    int firstE -> b
    int secondB -> c
    int secondE -> d
    geogebra.gui.editor.MatchingBlockScanner this$0 -> a
geogebra.gui.editor.ViewContext -> geogebra.gui.e.s:
    java.awt.Color[] tokenColors -> a
    java.awt.Font tokenFont -> a
    int[] tokenAttrib -> a
    void setTokenFont(java.awt.Font) -> a
geogebra.gui.inputbar.AlgebraInput -> geogebra.gui.f.a:
    geogebra.main.AppD app -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD inputField -> a
    javax.swing.JLabel inputLabel -> a
    javax.swing.JToggleButton btnHelpToggle -> a
    geogebra.gui.view.algebra.InputPanelD inputPanel -> a
    geogebra.main.LocalizationD loc -> a
    void initGUI() -> b
    void updateIcons() -> e
    boolean requestFocusInWindow() -> requestFocusInWindow
    void requestFocus() -> requestFocus
    boolean hasFocus() -> hasFocus
    void clear() -> c
    geogebra.gui.inputfield.AutoCompleteTextFieldD getTextField() -> a
    void updateOrientation(boolean) -> a
    void setLabels() -> x_
    void updateFonts() -> d
    void insertCommand(java.lang.String) -> a
    void insertString(java.lang.String) -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.inputbar.AlgebraInput$1 -> geogebra.gui.f.b:
    geogebra.gui.inputbar.AlgebraInput this$0 -> a
    java.awt.Point getToolTipLocation(java.awt.event.MouseEvent) -> getToolTipLocation
geogebra.gui.inputbar.InputBarHelpPanel -> geogebra.gui.f.c:
    geogebra.main.AppD app -> a
    geogebra.gui.inputbar.InputBarHelpPanel thisPanel -> a
    java.awt.Color bgColor -> a
    java.awt.Color titleColor -> b
    geogebra.gui.inputbar.InputBarHelpPanel$MyJTree cmdTree -> a
    geogebra.gui.inputbar.InputBarHelpPanel$MyJTree fcnTree -> b
    javax.swing.tree.DefaultMutableTreeNode functionTitleNode -> a
    javax.swing.tree.DefaultMutableTreeNode rootSubCommands -> b
    javax.swing.tree.DefaultMutableTreeNode rootAllCommands -> c
    javax.swing.tree.DefaultTreeModel cmdTreeModel -> a
    java.lang.String selectedCommand -> a
    java.lang.String rollOverCommand -> b
    java.lang.String selectedFunction -> c
    javax.swing.JPopupMenu contextMenu -> a
    javax.swing.JTextPane helpTextPane -> a
    javax.swing.JButton btnOnlineHelp -> a
    javax.swing.JButton btnRefresh -> b
    geogebra.gui.util.SelectionTable functionTable -> a
    javax.swing.JPanel tablePanel -> a
    javax.swing.JPanel syntaxHelpPanel -> b
    javax.swing.JSplitPane cmdSplitPane -> a
    javax.swing.JLabel titleLabel -> a
    javax.swing.JLabel syntaxLabel -> b
    javax.swing.JButton btnPaste -> c
    javax.swing.JScrollPane scroller -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.gui.inputbar.InputBarHelpPanel$MyRenderer renderer -> a
    void createSyntaxPanel() -> d
    javax.swing.JPanel createButtonPanel() -> a
    void createFunctionPanel() -> e
    void setLabels() -> x_
    void setLabels(boolean) -> a
    void updateFonts() -> b
    void createCommandTree() -> f
    void setCommands() -> c
    void addNodeInSortedOrder(javax.swing.tree.DefaultMutableTreeNode,javax.swing.tree.DefaultMutableTreeNode) -> a
    void valueChanged(javax.swing.event.TreeSelectionEvent) -> valueChanged
    void showSelectedSyntax() -> g
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doPaste() -> h
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    geogebra.gui.util.SelectionTable access$0(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    geogebra.gui.inputbar.InputBarHelpPanel$MyJTree access$1(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    void access$2(geogebra.gui.inputbar.InputBarHelpPanel,java.lang.String) -> a
    void access$3(geogebra.gui.inputbar.InputBarHelpPanel,java.lang.String) -> b
    javax.swing.JTextPane access$4(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    void access$5(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    javax.swing.JPopupMenu access$6(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    java.awt.Color access$7(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    void access$8(geogebra.gui.inputbar.InputBarHelpPanel,java.lang.String) -> c
    java.lang.String access$9(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    geogebra.gui.inputbar.InputBarHelpPanel$MyJTree access$10(geogebra.gui.inputbar.InputBarHelpPanel) -> b
    geogebra.gui.inputbar.InputBarHelpPanel access$11(geogebra.gui.inputbar.InputBarHelpPanel) -> a
    javax.swing.JButton access$12(geogebra.gui.inputbar.InputBarHelpPanel) -> a
geogebra.gui.inputbar.InputBarHelpPanel$1 -> geogebra.gui.f.d:
    geogebra.gui.inputbar.InputBarHelpPanel this$0 -> a
    void treeCollapsed(javax.swing.event.TreeExpansionEvent) -> treeCollapsed
    void treeExpanded(javax.swing.event.TreeExpansionEvent) -> treeExpanded
geogebra.gui.inputbar.InputBarHelpPanel$2 -> geogebra.gui.f.e:
    geogebra.gui.inputbar.InputBarHelpPanel this$0 -> a
    void treeCollapsed(javax.swing.event.TreeExpansionEvent) -> treeCollapsed
    void treeExpanded(javax.swing.event.TreeExpansionEvent) -> treeExpanded
geogebra.gui.inputbar.InputBarHelpPanel$MyJTree -> geogebra.gui.f.c$a:
    int rollOverRow -> a
    geogebra.gui.inputbar.InputBarHelpPanel this$0 -> a
geogebra.gui.inputbar.InputBarHelpPanel$MyRenderer -> geogebra.gui.f.c$b:
    java.awt.Color selectionColor -> a
    java.awt.Color rollOverColor -> b
    geogebra.gui.inputbar.InputBarHelpPanel this$0 -> a
    void update() -> a
    java.awt.Component getTreeCellRendererComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int,boolean) -> getTreeCellRendererComponent
geogebra.gui.inputbar.InputBarHelpPanel$RollOverListener -> geogebra.gui.f.c$c:
    geogebra.gui.inputbar.InputBarHelpPanel this$0 -> a
    void myPopupEvent(java.awt.event.MouseEvent) -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    geogebra.gui.inputbar.InputBarHelpPanel access$1(geogebra.gui.inputbar.InputBarHelpPanel$RollOverListener) -> a
geogebra.gui.inputbar.InputBarHelpPanel$RollOverListener$1 -> geogebra.gui.f.f:
    geogebra.gui.inputbar.InputBarHelpPanel$RollOverListener this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.inputbar.InputBarHelpPanel$TableSelectionListener -> geogebra.gui.f.c$d:
    geogebra.gui.inputbar.InputBarHelpPanel this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.inputfield.AutoCompleteTextFieldD -> geogebra.gui.g.a:
    geogebra.main.AppD app -> a
    geogebra.common.main.Localization loc -> a
    java.lang.StringBuilder curWord -> a
    int curWordStart -> a
    geogebra.common.util.AutoCompleteDictionary dict -> a
    boolean isCASInput -> a
    boolean autoComplete -> b
    int historyIndex -> c
    java.util.ArrayList history -> a
    boolean handleEscapeKey -> g
    java.util.List completions -> a
    java.lang.String cmdPrefix -> a
    geogebra.gui.autocompletion.CompletionsPopup completionsPopup -> a
    geogebra.gui.inputfield.HistoryPopupD historyPopup -> a
    geogebra.common.euclidian.draw.DrawTextField drawTextField -> a
    boolean isEqualsRequired -> h
    boolean popupSymbolDisabled -> i
    boolean forCAS -> j
    java.util.regex.Pattern syntaxArgPattern -> a
    boolean ctrlC -> c
    geogebra.common.kernel.geos.GeoTextField geoUsedForInputBox -> a
    java.util.ArrayList getHistory() -> a
    void addHistoryPopup(boolean) -> e
    void removeSymbolTable() -> a
    void setCASInput(boolean) -> f
    void setDictionary(boolean) -> g
    geogebra.common.util.AutoCompleteDictionary getDictionary() -> a
    void setAutoComplete(boolean) -> a
    java.util.List getCompletions() -> a
    boolean getAutoComplete() -> b
    java.lang.String getCurrentWord() -> b
    int getCurrentWordStart() -> a
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setEqualsRequired(boolean) -> h
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void mergeKoreanDoubles() -> b
    void clearSelection() -> f
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void updateCurrentWord(boolean) -> i
    java.lang.String getWordAtPos(java.lang.String,int) -> a
    boolean moveToNextArgument(boolean) -> a
    java.util.List resetCompletions() -> b
    java.util.List getSyntaxes(java.util.List) -> a
    void startAutoCompletion() -> c
    void cancelAutoCompletion() -> d
    boolean validateAutoCompletion(int,java.util.List) -> a
    void addToHistory(java.lang.String) -> c
    java.lang.String getPreviousInput() -> c
    java.lang.String getNextInput() -> d
    void showCommandHelp(java.lang.String,boolean) -> a
    void showError(geogebra.common.main.MyError) -> a
    void setFont(geogebra.common.awt.GFont) -> a
    void setPopupsFont(java.awt.Font) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setBackground(geogebra.common.awt.GColor) -> b
    void addFocusListener(geogebra.common.euclidian.event.FocusListener) -> a
    void wrapSetText(java.lang.String) -> b
    void setUsedForInputBox(geogebra.common.kernel.geos.GeoTextField) -> a
    boolean usedForInputBox() -> a
    void requestFocus() -> requestFocus
    void addKeyHandler(geogebra.common.euclidian.event.KeyHandler) -> a
    java.lang.String getCommand() -> a
    void setFocus(boolean) -> c
    void prepareShowSymbolButton(boolean) -> d
    geogebra.gui.inputfield.HistoryPopupD access$0(geogebra.gui.inputfield.AutoCompleteTextFieldD) -> a
geogebra.gui.inputfield.AutoCompleteTextFieldD$1 -> geogebra.gui.g.b:
    geogebra.gui.inputfield.AutoCompleteTextFieldD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.inputfield.AutoCompleteTextFieldD$2 -> geogebra.gui.g.c:
    geogebra.gui.inputfield.AutoCompleteTextFieldD this$0 -> a
    java.lang.String val$s -> a
    void run() -> run
geogebra.gui.inputfield.BorderButtonD -> geogebra.gui.g.d:
    java.awt.Component borderOwner -> a
    javax.swing.ImageIcon[] icon -> a
    boolean[] isVisibleIcon -> a
    boolean[] isMouseOverIcon -> b
    java.awt.Rectangle[] iconRect -> a
    java.awt.event.ActionListener[] al -> a
    java.awt.Cursor otherCursor -> a
    boolean isMouseOverIconRegion -> a
    int maxIconCount -> a
    void paintBorder(java.awt.Component,java.awt.Graphics,int,int,int,int) -> paintBorder
    void setBorderButton(int,javax.swing.ImageIcon,java.awt.event.ActionListener) -> a
    void setIconVisible(int,boolean) -> a
    boolean isIconVisible(int) -> a
    int getTotalInsetWidth() -> a
    java.awt.Insets getBorderInsets(java.awt.Component) -> getBorderInsets
    boolean isBorderOpaque() -> isBorderOpaque
    void swapCursor() -> a
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
geogebra.gui.inputfield.GeoGebraComboBoxEditor -> geogebra.gui.g.e:
    geogebra.gui.inputfield.MyTextField tf -> a
    void addActionListener(java.awt.event.ActionListener) -> addActionListener
    java.awt.Component getEditorComponent() -> getEditorComponent
    java.lang.Object getItem() -> getItem
    void removeActionListener(java.awt.event.ActionListener) -> removeActionListener
    void selectAll() -> selectAll
    void setItem(java.lang.Object) -> setItem
geogebra.gui.inputfield.HistoryPopupD -> geogebra.gui.g.f:
    geogebra.gui.inputfield.AutoCompleteTextFieldD textField -> a
    javax.swing.JPopupMenu popup -> a
    javax.swing.JList historyList -> a
    boolean isDownPopup -> a
    java.awt.event.KeyListener keyListener -> a
    java.awt.event.KeyListener[] textFieldKeyListeners -> a
    javax.swing.DefaultListModel model -> a
    void setFont(java.awt.Font) -> a
    void registerListeners() -> b
    void showPopup() -> a
    boolean isDownPopup() -> a
    void setDownPopup(boolean) -> a
    boolean isPopupVisible() -> b
    void hidePopup() -> c
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
    void undoPopupChange() -> d
    void handleMouseClick(java.awt.event.MouseEvent) -> a
    void handleSpecialKeys(java.awt.event.KeyEvent) -> a
    void navigateRelative(int) -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD access$0(geogebra.gui.inputfield.HistoryPopupD) -> a
    java.awt.event.KeyListener access$1(geogebra.gui.inputfield.HistoryPopupD) -> a
    java.awt.event.KeyListener[] access$2(geogebra.gui.inputfield.HistoryPopupD) -> a
    void access$3(geogebra.gui.inputfield.HistoryPopupD,java.awt.event.KeyListener[]) -> a
    javax.swing.JList access$4(geogebra.gui.inputfield.HistoryPopupD) -> a
geogebra.gui.inputfield.HistoryPopupD$1 -> geogebra.gui.g.g:
    geogebra.gui.inputfield.HistoryPopupD this$0 -> a
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
geogebra.gui.inputfield.HistoryPopupD$2 -> geogebra.gui.g.h:
    geogebra.gui.inputfield.HistoryPopupD this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.inputfield.HistoryPopupD$3 -> geogebra.gui.g.i:
    geogebra.gui.inputfield.HistoryPopupD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.inputfield.HistoryPopupD$HistoryListCellRenderer -> geogebra.gui.g.f$a:
    javax.swing.border.Border gridBorder -> a
    geogebra.gui.inputfield.HistoryPopupD this$0 -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.inputfield.HistoryPopupD$PopupListener -> geogebra.gui.g.f$b:
    java.awt.event.KeyListener[] listListeners -> a
    geogebra.gui.inputfield.HistoryPopupD this$0 -> a
    void popupMenuCanceled(javax.swing.event.PopupMenuEvent) -> popupMenuCanceled
    void popupMenuWillBecomeInvisible(javax.swing.event.PopupMenuEvent) -> popupMenuWillBecomeInvisible
    void popupMenuWillBecomeVisible(javax.swing.event.PopupMenuEvent) -> popupMenuWillBecomeVisible
geogebra.gui.inputfield.MathTextField -> geogebra.gui.g.j:
    geogebra.gui.GeoGebraKeys ggbKeys -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
geogebra.gui.inputfield.MyFormattedTextField -> geogebra.gui.g.k:
    geogebra.gui.GuiManagerD guiManager -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void insertString(java.lang.String) -> a
geogebra.gui.inputfield.MyTextField -> geogebra.gui.g.l:
    geogebra.main.AppD app -> a
    geogebra.gui.inputfield.SymbolTablePopupD tablePopup -> a
    geogebra.gui.inputfield.MyTextField thisField -> a
    javax.swing.ImageIcon icon -> a
    javax.swing.ImageIcon rollOverIcon -> b
    boolean showSymbolTableIcon -> a
    boolean caretUpdated -> d
    boolean caretShowing -> e
    geogebra.gui.inputfield.BorderButtonD borderBtn -> a
    javax.swing.border.Border defaultBorder -> a
    boolean enableColoring -> b
    boolean isColoringLabels -> c
    geogebra.common.awt.GColor COLOR_MATCHED -> a
    geogebra.common.awt.GColor COLOR_UNMATCHED -> b
    geogebra.common.gui.inputfield.ColorProvider ip -> a
    boolean selectAllOnFocus -> f
    int oldStyle -> b
    float pos -> a
    int caret -> a
    int scrollOffset -> c
    int width -> d
    int height -> e
    int textBottom -> f
    int fontHeight -> g
    java.awt.font.FontRenderContext frc -> a
    java.awt.Font font -> a
    java.awt.Graphics2D g2 -> a
    java.awt.Insets insets -> a
    void initField() -> b
    void enableColoring(boolean) -> b
    void enableLabelColoring(boolean) -> j
    void setColoringLabels(boolean) -> k
    void setDefaultBorder() -> c
    void setBorderButton(int,javax.swing.ImageIcon,java.awt.event.ActionListener) -> a
    void setBorderButtonVisible(int,boolean) -> a
    boolean isBorderButtonVisible(int) -> a
    void setBorder(javax.swing.border.Border) -> setBorder
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void caretUpdate(javax.swing.event.CaretEvent) -> caretUpdate
    void insertString(java.lang.String) -> a
    void setShowSymbolTableIcon(boolean) -> l
    void setOpenSymbolTableUpwards(boolean) -> m
    geogebra.gui.inputfield.SymbolTablePopupD getTablePopup() -> a
    void processKeyEvent(java.awt.event.KeyEvent) -> processKeyEvent
    void setLabels() -> x_
    void setOrientation() -> e
    void paintComponent(java.awt.Graphics) -> paintComponent
    float getLength(java.lang.String) -> a
    void drawText(java.lang.String,boolean) -> a
    void paste() -> paste
    void wrapSetText(java.lang.String) -> b
geogebra.gui.inputfield.SymbolTablePopupD -> geogebra.gui.g.m:
    geogebra.gui.inputfield.MyTextField textField -> a
    javax.swing.JPopupMenu popup -> a
    java.awt.event.KeyListener keyListener -> a
    java.awt.event.KeyListener[] textFieldKeyListeners -> a
    geogebra.gui.util.SelectionTable symbolTable -> a
    geogebra.main.AppD app -> a
    java.util.Locale locale -> a
    boolean openUpwards -> a
    void createSymbolTable() -> c
    void setLabels() -> a
    void registerListeners() -> d
    java.awt.Point getCaretPixelPosition() -> a
    void showPopup(boolean) -> a
    boolean isPopupVisible() -> a
    void hidePopup() -> e
    void setOpenUpwards(boolean) -> b
    void handleMouseClick(java.awt.event.MouseEvent) -> a
    void handlePopupSelection() -> b
    void handleSpecialKeys(java.awt.event.KeyEvent) -> a
    geogebra.gui.inputfield.MyTextField access$0(geogebra.gui.inputfield.SymbolTablePopupD) -> a
    void access$1(geogebra.gui.inputfield.SymbolTablePopupD,java.awt.event.KeyListener[]) -> a
    java.awt.event.KeyListener[] access$2(geogebra.gui.inputfield.SymbolTablePopupD) -> a
    java.awt.event.KeyListener access$3(geogebra.gui.inputfield.SymbolTablePopupD) -> a
geogebra.gui.inputfield.SymbolTablePopupD$1 -> geogebra.gui.g.n:
    geogebra.gui.inputfield.SymbolTablePopupD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.inputfield.SymbolTablePopupD$2 -> geogebra.gui.g.o:
    geogebra.gui.inputfield.SymbolTablePopupD this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.inputfield.SymbolTablePopupD$PopupListener -> geogebra.gui.g.m$a:
    geogebra.gui.inputfield.SymbolTablePopupD this$0 -> a
    void popupMenuCanceled(javax.swing.event.PopupMenuEvent) -> popupMenuCanceled
    void popupMenuWillBecomeVisible(javax.swing.event.PopupMenuEvent) -> popupMenuWillBecomeVisible
    void popupMenuWillBecomeInvisible(javax.swing.event.PopupMenuEvent) -> popupMenuWillBecomeInvisible
geogebra.gui.layout.DnDState -> geogebra.gui.h.a:
    geogebra.gui.layout.DockPanel source -> a
    geogebra.gui.layout.DockPanel target -> b
    int region -> a
    geogebra.gui.layout.DockPanel getSource() -> a
    void setTarget(geogebra.gui.layout.DockPanel) -> a
    geogebra.gui.layout.DockPanel getTarget() -> b
    void setRegion(int) -> a
    int getRegion() -> a
    boolean isRegionOut() -> a
geogebra.gui.layout.DockBar -> geogebra.gui.h.b:
    geogebra.main.AppD app -> a
    geogebra.gui.layout.LayoutD layout -> a
    geogebra.gui.layout.PerspectivePanel popup -> a
    javax.swing.JPanel buttonPanel -> a
    javax.swing.JPanel slimSidebarPanel -> b
    geogebra.gui.layout.ViewButtonBar viewButtonBar -> a
    javax.swing.JLabel lblIcon -> a
    boolean isEastOrientation -> a
    boolean showButtonBar -> b
    geogebra.gui.layout.DockButton btnFileOpen -> a
    geogebra.gui.layout.DockButton btnFileSave -> b
    geogebra.gui.layout.DockButton btnPrint -> c
    geogebra.gui.layout.DockButton btnKeyboard -> d
    geogebra.gui.layout.DockButton btnPerspectives -> e
    geogebra.gui.layout.DockButton btnProperties -> f
    javax.swing.AbstractAction showKeyboardAction -> a
    boolean sideBarHasMouse -> c
    boolean fullScreen -> d
    void initGUI() -> h
    void registerListeners() -> i
    void buildButtonPanel() -> j
    geogebra.gui.layout.PerspectivePanel newPerspectivePanel() -> a
    javax.swing.JToolBar buildExtraButtonToolBar() -> a
    javax.swing.JPanel buildSlimSidebarPanel() -> a
    void setSidebarTriangle(boolean) -> a
    void updateLayout() -> b
    void showPopup() -> c
    void hidePopup() -> d
    void togglePopup() -> e
    void update() -> f
    void updateViewButtons() -> g
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setLabels() -> x_
    void setSideBarHasMouse(boolean) -> b
    boolean sideBarHasMouse() -> a
    boolean isShowButtonBar() -> b
    void setShowButtonBar(boolean) -> c
    boolean isEastOrientation() -> c
    void setEastOrientation(boolean) -> d
    void initActions() -> k
    javax.swing.JPanel access$0(geogebra.gui.layout.DockBar) -> a
    void access$1(geogebra.gui.layout.DockBar,geogebra.gui.layout.PerspectivePanel) -> a
    geogebra.gui.layout.PerspectivePanel access$2(geogebra.gui.layout.DockBar) -> a
    geogebra.gui.layout.DockButton access$3(geogebra.gui.layout.DockBar) -> a
    geogebra.main.AppD access$4(geogebra.gui.layout.DockBar) -> a
geogebra.gui.layout.DockBar$1 -> geogebra.gui.h.c:
    geogebra.gui.layout.DockBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.DockBar$2 -> geogebra.gui.h.d:
    geogebra.gui.layout.DockBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.DockBar$3 -> geogebra.gui.h.e:
    geogebra.gui.layout.DockBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.DockBar$4 -> geogebra.gui.h.f:
    geogebra.gui.layout.DockBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.DockBar$5 -> geogebra.gui.h.g:
    geogebra.gui.layout.DockBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.DockBar$SidebarMouseListener -> geogebra.gui.h.b$a:
    geogebra.gui.layout.DockBar this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.layout.DockButton -> geogebra.gui.h.h:
    geogebra.main.AppD app -> a
    javax.swing.JToolTip tip -> a
    void setIcon(javax.swing.Icon) -> setIcon
    javax.swing.JToolTip createToolTip() -> createToolTip
    java.awt.Point getToolTipLocation(java.awt.event.MouseEvent) -> getToolTipLocation
geogebra.gui.layout.DockButton$ToolTipMouseAdapter -> geogebra.gui.h.h$a:
    int defaultInitialDelay -> a
    boolean preventToolTipDelay -> a
    geogebra.gui.layout.DockButton this$0 -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.layout.DockGlassPane -> geogebra.gui.h.i:
    boolean dragInProgress -> a
    java.awt.BasicStroke stroke -> a
    geogebra.gui.layout.DockManagerD dockManager -> a
    geogebra.gui.layout.DockPanel[] dockPanels -> a
    java.awt.Rectangle[] dockPanelsBounds -> a
    geogebra.gui.layout.DnDState dndState -> a
    java.awt.Rectangle previewRect -> a
    java.awt.Color color -> a
    java.awt.Color COLOR_DEFAULT -> b
    java.awt.Color COLOR_NOT_ENOUGH_SPACE -> c
    java.awt.Color COLOR_SAME_PLACE -> d
    void startDrag(geogebra.gui.layout.DnDState) -> a
    void stopDrag() -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
    void setColorEnoughHeight(geogebra.gui.layout.DockPanel) -> a
    void setColorEnoughWidth(geogebra.gui.layout.DockPanel) -> b
    void mouseDragged(java.awt.event.MouseEvent) -> a
    void eventDispatched(java.awt.AWTEvent) -> eventDispatched
geogebra.gui.layout.DockManagerD -> geogebra.gui.h.j:
    geogebra.main.AppD app -> a
    geogebra.gui.layout.LayoutD layout -> a
    boolean hasFullFocusSystem -> a
    geogebra.gui.layout.DockGlassPane glassPane -> a
    geogebra.gui.layout.DockSplitPane rootPane -> a
    geogebra.gui.layout.DockPanel focusedDockPanel -> a
    geogebra.gui.layout.panels.EuclidianDockPanelAbstract focusedEuclidianDockPanel -> a
    java.util.ArrayList dockPanels -> a
    java.util.List showDockPanelListener -> a
    geogebra.common.io.layout.Perspective restorePerspective -> a
    boolean isMaximized -> b
    void registerPanel(geogebra.gui.layout.DockPanel) -> a
    void unRegisterPanel(geogebra.common.gui.layout.DockPanel) -> a
    geogebra.gui.toolbar.ToolbarContainer getToolbarPanel() -> a
    void applyPerspective(geogebra.common.io.layout.DockSplitPaneData[],geogebra.common.io.layout.DockPanelData[]) -> a
    void updateSplitPanesResizeWeight() -> f
    void drag(geogebra.gui.layout.DockPanel) -> b
    void drop(geogebra.gui.layout.DnDState) -> a
    void show(int) -> a
    void show(geogebra.gui.layout.DockPanel) -> c
    boolean hide(int,boolean) -> a
    boolean hide(geogebra.gui.layout.DockPanel) -> a
    void closePanel(int,boolean) -> a
    void closePanel(geogebra.gui.layout.DockPanel,boolean) -> a
    boolean containsLessThanTwoPanels() -> a
    boolean hide(geogebra.gui.layout.DockPanel,boolean) -> a
    void eventDispatched(java.awt.AWTEvent) -> eventDispatched
    void setFocusedPanel(geogebra.gui.layout.DockPanel) -> d
    void setFocusedPanel(geogebra.gui.layout.DockPanel,boolean) -> b
    boolean setFocusedPanel(int) -> a
    geogebra.gui.layout.DockPanel getFocusedPanel() -> a
    int getFocusedViewId() -> a
    geogebra.gui.layout.panels.EuclidianDockPanelAbstract getFocusedEuclidianPanel() -> a
    void moveFocus(boolean) -> a
    void markAlonePanel() -> g
    void unmarkAlonePanels() -> h
    java.util.Iterator getForwardBackwardIterator(boolean) -> a
    void setLabels() -> x_
    void updateGlassPane() -> b
    void updatePanels() -> c
    void updateToolbars() -> d
    void setToolbarMode(int) -> b
    void updateFonts() -> e
    void scale(float,float) -> a
    void scale(float,float,geogebra.gui.layout.DockSplitPane) -> a
    geogebra.gui.layout.LayoutD getLayout() -> a
    geogebra.gui.layout.DockGlassPane getGlassPane() -> a
    geogebra.gui.layout.DockPanel getPanel(geogebra.common.io.layout.DockPanelData) -> a
    geogebra.gui.layout.DockPanel getPanel(int) -> a
    geogebra.gui.layout.DockPanel[] getPanels() -> a
    geogebra.gui.layout.DockSplitPane getRoot() -> a
    boolean hasFullFocusSystem() -> b
    boolean isMaximized() -> c
    void undoMaximize(boolean) -> b
    void maximize(geogebra.gui.layout.DockPanel) -> e
    geogebra.common.euclidian.GetViewId getFocusedEuclidianPanel() -> a
    geogebra.common.gui.layout.DockPanel getPanel(int) -> a
geogebra.gui.layout.DockManagerD$1 -> geogebra.gui.h.k:
    geogebra.gui.layout.DockManagerD this$0 -> a
    java.util.ListIterator val$original -> a
    void remove() -> remove
    geogebra.gui.layout.DockPanel next() -> a
    boolean hasNext() -> hasNext
    java.lang.Object next() -> next
geogebra.gui.layout.DockPanel -> geogebra.gui.h.l:
    geogebra.gui.layout.DockManagerD dockManager -> a
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    int id -> a
    java.lang.String title -> c
    boolean visible -> a
    boolean hasFocus -> b
    java.awt.Rectangle frameBounds -> a
    boolean openInFrame -> c
    boolean hasStyleBar -> e
    javax.swing.JComponent styleBar -> a
    javax.swing.JPanel styleBarButtonPanel -> c
    boolean showStyleBar -> d
    java.lang.String embeddedDef -> a
    int embeddedSize -> b
    javax.swing.JPanel titlePanel -> a
    javax.swing.JLabel titleLabel -> a
    javax.swing.JPanel buttonPanel -> b
    javax.swing.JButton closeButton -> a
    javax.swing.JButton windowButton -> b
    javax.swing.JButton unwindowButton -> c
    javax.swing.JButton unwindowButton2 -> d
    javax.swing.JButton toggleStyleBarButton -> e
    javax.swing.JButton toggleStyleBarButton2 -> f
    javax.swing.JButton maximizeButton -> g
    javax.swing.JPanel styleBarPanel -> d
    javax.swing.JPanel toolbarPanel -> e
    geogebra.gui.toolbar.ToolbarContainer toolbarContainer -> a
    geogebra.gui.toolbar.ToolbarD toolbar -> a
    java.lang.String toolbarString -> b
    java.lang.String defaultToolbarString -> d
    java.awt.Window frame -> a
    javax.swing.JComponent component -> b
    int menuOrder -> c
    char menuShortcut -> a
    boolean isAlone -> f
    boolean isHidden -> g
    boolean isNewDialog -> h
    boolean isDialog -> i
    javax.swing.JMenuBar menubar -> a
    void setDialog(boolean) -> b
    void setApp(geogebra.main.AppD) -> a
    javax.swing.ImageIcon getIcon() -> a
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent getComponent() -> c
    void focusGained() -> c
    void focusLost() -> d
    javax.swing.JComponent createFocusPanel() -> d
    void register(geogebra.gui.layout.DockManagerD) -> a
    void createButtons() -> x
    java.lang.String getPlainTitle() -> c
    void createFrame() -> e
    void removeFrame() -> f
    void updateTitleBar() -> g
    void setAlone(boolean) -> c
    boolean isAlone() -> b
    void setHidden(boolean) -> d
    void updatePanel() -> h
    void updateTitleBarIfNecessary() -> i
    javax.swing.JMenuBar loadMenuBar() -> a
    void updateToolbar() -> j
    void setToolbarMode(int) -> a
    void buildToolbarGui() -> k
    void updateLabels() -> l
    void updateFonts() -> m
    void updateTitle() -> n
    void closePanel() -> b
    void closePanel(boolean) -> e
    void windowPanel() -> o
    void unwindowPanel() -> p
    void setStyleBar() -> q
    void toggleStyleBar() -> r
    void updateStyleBarVisibility() -> s
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    geogebra.gui.layout.DockSplitPane getParentSplitPane() -> a
    java.lang.String calculateEmbeddedDef() -> d
    geogebra.common.io.layout.DockPanelData createInfo() -> a
    boolean isInFrame() -> c
    void setOpenInFrame(boolean) -> f
    boolean isOpenInFrame() -> d
    void setShowStyleBar(boolean) -> g
    void updateToggleStyleBarButtons() -> y
    boolean isStyleBarVisible() -> e
    void setFrameBounds(java.awt.Rectangle) -> a
    java.awt.Rectangle getFrameBounds() -> a
    java.awt.Window getFrame() -> a
    void setEmbeddedDef(java.lang.String) -> a
    java.lang.String getEmbeddedDef() -> e
    void setEmbeddedSize(int) -> b
    int getEmbeddedSize() -> b
    boolean isVisible() -> isVisible
    void setVisible(boolean) -> setVisible
    boolean hasFocus() -> hasFocus
    void setFocus(boolean,boolean) -> a
    void setFocus(boolean) -> h
    void setActiveToolBar() -> t
    void setTitleLabelFocus() -> u
    boolean titleIsBold() -> f
    int getViewId() -> a
    java.lang.String getViewTitle() -> f
    int getMenuOrder() -> c
    boolean hasMenuShortcut() -> g
    char getMenuShortcut() -> a
    geogebra.gui.toolbar.ToolbarD getToolbar() -> a
    boolean hasToolbar() -> h
    boolean canCustomizeToolbar() -> i
    java.lang.String getToolbarString() -> a
    void setToolbarString(java.lang.String) -> b
    java.lang.String getDefaultToolbarString() -> b
    java.lang.String toString() -> toString
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void windowActivated(java.awt.event.WindowEvent) -> windowActivated
    void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated
    void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified
    void windowIconified(java.awt.event.WindowEvent) -> windowIconified
    void windowOpened(java.awt.event.WindowEvent) -> windowOpened
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    boolean isMaximized() -> j
    void toggleMaximize() -> v
    boolean updateResizeWeight() -> a
    void saveDividerLocation() -> a
    void updateDividerLocation(int,int) -> a
    void setDockPanelsVisible(boolean) -> a
    void addToToolbar(int) -> c
    void updateIcons() -> w
    javax.swing.JButton access$0(geogebra.gui.layout.DockPanel) -> a
geogebra.gui.layout.DockPanel$1 -> geogebra.gui.h.m:
    geogebra.gui.layout.DockPanel this$0 -> a
    void setVisible(boolean) -> setVisible
geogebra.gui.layout.DockPanel$2 -> geogebra.gui.h.n:
    geogebra.gui.layout.DockPanel this$0 -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
geogebra.gui.layout.DockPanel$MenuOrderComparator -> geogebra.gui.h.l$a:
    int compare(geogebra.gui.layout.DockPanel,geogebra.gui.layout.DockPanel) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.gui.layout.DockPanel$MyButtonHider -> geogebra.gui.h.l$b:
    geogebra.gui.layout.DockPanel this$0 -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.layout.DockSplitPane -> geogebra.gui.h.o:
    boolean dividerVisible -> a
    java.beans.PropertyChangeListener paneResizeListener -> a
    int savedDividerLocation -> a
    int savedSize -> b
    java.awt.Component getOpposite(java.awt.Component) -> a
    void setLeftComponentCheckEmpty(java.awt.Component) -> a
    void setRightComponentCheckEmpty(java.awt.Component) -> b
    void setLeftComponent(java.awt.Component) -> setLeftComponent
    void setRightComponent(java.awt.Component) -> setRightComponent
    void replaceComponent(java.awt.Component,java.awt.Component) -> a
    void updateDivider() -> b
    void updateUI() -> updateUI
    void saveDividerLocation() -> a
    void updateDividerLocation(int,int) -> a
    int checkLocation(int,int) -> a
    void setDividerLocationRecursive(int,int,int) -> a
    void propagateDividerLocation(int,int,int) -> b
    boolean updateResizeWeight() -> a
    void setDockPanelsVisible(boolean) -> a
geogebra.gui.layout.DockSplitPane$1 -> geogebra.gui.h.p:
    geogebra.gui.layout.DockSplitPane this$0 -> a
    void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange
geogebra.gui.layout.DockSplitPane$TreeReader -> geogebra.gui.h.o$a:
    geogebra.main.AppD app -> a
    java.util.ArrayList splitPaneInfo -> a
    int windowWidth -> a
    int windowHeight -> b
    geogebra.common.io.layout.DockSplitPaneData[] getInfo(geogebra.gui.layout.DockSplitPane) -> a
    void saveSplitPane(java.lang.String,geogebra.gui.layout.DockSplitPane) -> a
geogebra.gui.layout.LayoutD -> geogebra.gui.h.q:
    boolean isInitialized -> a
    geogebra.main.AppD app -> a
    geogebra.gui.layout.DockManagerD dockManager -> a
    void initialize(geogebra.main.AppD) -> a
    void registerPanel(geogebra.gui.layout.DockPanel) -> a
    boolean applyPerspective(geogebra.common.io.layout.Perspective) -> a
    geogebra.common.io.layout.Perspective createPerspective(java.lang.String) -> a
    geogebra.common.io.layout.Perspective[] getPerspectives() -> a
    geogebra.common.io.layout.Perspective getPerspective(int) -> a
    geogebra.common.io.layout.Perspective getPerspective(java.lang.String) -> b
    void addPerspective(geogebra.common.io.layout.Perspective) -> a
    void removePerspective(int) -> a
    void getXml(java.lang.StringBuilder,boolean) -> a
    boolean inExternalWindow(java.awt.Component) -> a
    boolean isOnlyVisible(int) -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    geogebra.main.AppD getApplication() -> a
    geogebra.gui.layout.DockManagerD getDockManager() -> a
    javax.swing.JComponent getRootComponent() -> a
    void showSaveDialog() -> a
    void showManageDialog() -> b
    geogebra.common.gui.layout.DockManager getDockManager() -> a
    geogebra.main.AppD access$1(geogebra.gui.layout.LayoutD) -> a
geogebra.gui.layout.LayoutD$1 -> geogebra.gui.h.r:
    geogebra.gui.layout.LayoutD this$0 -> a
    int compare(geogebra.common.io.layout.DockPanelData,geogebra.common.io.layout.DockPanelData) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.gui.layout.LayoutD$ManagePerspectivesDialog -> geogebra.gui.h.q$a:
    geogebra.main.AppD app -> a
    geogebra.gui.layout.LayoutD layout -> b
    javax.swing.JList list -> a
    javax.swing.DefaultListModel listModel -> a
    javax.swing.JButton cancelButton -> a
    javax.swing.JButton removeButton -> b
    geogebra.gui.layout.LayoutD this$0 -> a
    void buildGUI() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateRemoveButton() -> b
geogebra.gui.layout.LayoutD$SaveInputHandler -> geogebra.gui.h.q$b:
    geogebra.gui.layout.LayoutD layout -> b
    geogebra.gui.layout.LayoutD this$0 -> a
    boolean processInput(java.lang.String) -> a
geogebra.gui.layout.PerspectivePanel -> geogebra.gui.h.s:
    geogebra.main.AppD app -> a
    geogebra.gui.layout.LayoutD layout -> a
    geogebra.gui.layout.DockBar dockBar -> a
    javax.swing.JButton btnLanguage -> a
    javax.swing.AbstractAction setLanguageAction -> a
    javax.swing.AbstractAction changePerspectiveAction -> b
    javax.swing.AbstractAction managePerspectivesAction -> c
    javax.swing.AbstractAction savePerspectiveAction -> d
    void setVisible(boolean) -> setVisible
    void superSetVisible(boolean) -> a
    void initItems() -> a
    void initActions() -> b
    geogebra.main.AppD access$0(geogebra.gui.layout.PerspectivePanel) -> a
geogebra.gui.layout.PerspectivePanel$1 -> geogebra.gui.h.t:
    geogebra.gui.layout.PerspectivePanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.PerspectivePanel$2 -> geogebra.gui.h.u:
    geogebra.gui.layout.PerspectivePanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.PerspectivePanel$3 -> geogebra.gui.h.v:
    geogebra.gui.layout.PerspectivePanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.PerspectivePanel$4 -> geogebra.gui.h.w:
    geogebra.gui.layout.PerspectivePanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.layout.ViewButton -> geogebra.gui.h.x:
    geogebra.main.AppD app -> a
    geogebra.gui.layout.DockPanel panel -> a
    int viewId -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.layout.DockPanel getPanel() -> a
    int getViewId() -> a
    java.awt.Point getToolTipLocation(java.awt.event.MouseEvent) -> getToolTipLocation
    javax.swing.JToolTip createToolTip() -> createToolTip
    void setIcon(javax.swing.Icon) -> setIcon
geogebra.gui.layout.ViewButtonBar -> geogebra.gui.h.y:
    geogebra.main.AppD app -> a
    geogebra.gui.layout.LayoutD layout -> a
    java.util.ArrayList viewButtons -> a
    void buildToolBar() -> c
    void createViewButtons() -> d
    void updateViewButtons() -> a
    void updateViewButtonVisibility() -> b
geogebra.gui.layout.panels.AlgebraDockPanel -> geogebra.gui.h.a.a:
    geogebra.main.AppD app -> b
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.JComponent loadComponent() -> b
    void setActiveToolBar() -> t
    javax.swing.ImageIcon getIcon() -> a
geogebra.gui.layout.panels.CasDockPanel -> geogebra.gui.h.a.b:
    geogebra.main.AppD appCas -> b
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.JComponent loadComponent() -> b
    java.lang.String getDefaultToolbar() -> g
    void setActiveToolBar() -> t
    javax.swing.ImageIcon getIcon() -> a
geogebra.gui.layout.panels.ConstructionProtocolDockPanel -> geogebra.gui.h.a.c:
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.ImageIcon getIcon() -> a
geogebra.gui.layout.panels.DataAnalysisViewDockPanel -> geogebra.gui.h.a.d:
    geogebra.main.AppD app -> b
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent loadStyleBar() -> a
    java.lang.String getDefaultToolbar() -> g
geogebra.gui.layout.panels.Euclidian2DockPanel -> geogebra.gui.h.a.e:
    geogebra.main.AppD app -> b
    int idx -> c
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.JComponent loadComponent() -> b
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
    javax.swing.ImageIcon getIcon() -> a
geogebra.gui.layout.panels.EuclidianDockPanel -> geogebra.gui.h.a.f:
    geogebra.main.AppD app -> b
    javax.swing.JPanel panel -> c
    geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD consProtNav -> a
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.JComponent loadComponent() -> b
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
    javax.swing.ImageIcon getIcon() -> a
geogebra.gui.layout.panels.EuclidianDockPanelAbstract -> geogebra.gui.h.a.g:
    boolean hasEuclidianFocus -> e
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
    void setEuclidianFocus(boolean) -> i
    boolean titleIsBold() -> f
    javax.swing.JComponent createFocusPanel() -> d
    boolean updateResizeWeight() -> a
    void setStyleBar() -> q
geogebra.gui.layout.panels.ProbabilityCalculatorDockPanel -> geogebra.gui.h.a.h:
    geogebra.main.AppD app -> b
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.ImageIcon getIcon() -> a
geogebra.gui.layout.panels.PropertiesDockPanel -> geogebra.gui.h.a.i:
    geogebra.main.AppD app -> b
    geogebra.gui.view.properties.PropertiesViewD view -> a
    boolean closed -> e
    javax.swing.JDialog dialog -> a
    void getPropertiesView() -> y
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent loadStyleBar() -> a
    void updateTitleBarIfNecessary() -> i
    void windowPanel() -> o
    void unwindowPanel() -> p
    void closePanel(boolean) -> e
    javax.swing.ImageIcon getIcon() -> a
    void createFrame() -> e
    void updateLabels() -> l
    void updateTitleBar() -> g
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void closeDialog() -> x
    void setFocus(boolean,boolean) -> a
    void setVisible(boolean) -> setVisible
    void setFocus(boolean) -> h
geogebra.gui.layout.panels.SpreadsheetDockPanel -> geogebra.gui.h.a.j:
    geogebra.gui.GuiManagerD getGuiManager() -> a
    javax.swing.JComponent loadStyleBar() -> a
    javax.swing.JComponent loadComponent() -> b
    void focusGained() -> c
    void focusLost() -> d
    java.lang.String getDefaultToolbar() -> g
    javax.swing.ImageIcon getIcon() -> a
    boolean isStyleBarVisible() -> e
geogebra.gui.menubar.BaseMenu -> geogebra.gui.i.a:
    geogebra.main.AppD app -> a
    boolean initialized -> a
    void update() -> a
    void setMenuShortCutAccelerator(javax.swing.JMenuItem,char) -> a
    void setMenuShortCutShiftAccelerator(javax.swing.JMenuItem,char) -> b
    void setMenuShortCutShiftAltAccelerator(javax.swing.JMenuItem,char) -> c
    void menuDeselected(javax.swing.event.MenuEvent) -> menuDeselected
    void menuCanceled(javax.swing.event.MenuEvent) -> menuCanceled
    void menuSelected(javax.swing.event.MenuEvent) -> menuSelected
    void initActions() -> b
    void initItems() -> c
geogebra.gui.menubar.EditMenuD -> geogebra.gui.i.b:
    geogebra.common.main.SelectionManager selection -> a
    javax.swing.AbstractAction deleteAction -> a
    javax.swing.AbstractAction invertAction -> b
    javax.swing.AbstractAction showhideAction -> c
    javax.swing.AbstractAction showhideLabelsAction -> d
    javax.swing.AbstractAction propertiesAction -> e
    javax.swing.AbstractAction selectAllAction -> f
    javax.swing.AbstractAction selectAllAncestorsAction -> g
    javax.swing.AbstractAction selectAllDescendantsAction -> h
    javax.swing.AbstractAction selectCurrentLayerAction -> i
    javax.swing.AbstractAction copyToClipboardAction -> j
    javax.swing.AbstractAction copyAction -> k
    javax.swing.AbstractAction pasteAction -> l
    javax.swing.AbstractAction insertImageFromClipboardAction -> m
    javax.swing.AbstractAction insertImageFromFileAction -> n
    javax.swing.JMenuItem deleteItem -> a
    javax.swing.JMenuItem invertItem -> b
    javax.swing.JMenuItem showhideItem -> c
    javax.swing.JMenuItem showhideLabelsItem -> d
    javax.swing.JMenuItem selectAllItem -> e
    javax.swing.JMenuItem selectAllAncestorsItem -> f
    javax.swing.JMenuItem selectAllDescendantsItem -> g
    javax.swing.JMenuItem selectCurrentLayerItem -> h
    javax.swing.JMenuItem copyToClipboardItem -> i
    javax.swing.JMenuItem copyItem -> j
    javax.swing.JMenuItem pasteItem -> k
    javax.swing.JMenuItem clipboardMenu -> l
    javax.swing.JSeparator selectionSeparator -> a
    javax.swing.JSeparator deleteSeparator -> b
    void initItems() -> c
    void initActions() -> b
    void update() -> a
    void updateSelection() -> d
    void menuSelected(javax.swing.event.MenuEvent) -> menuSelected
geogebra.gui.menubar.EditMenuD$1 -> geogebra.gui.i.c:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$10 -> geogebra.gui.i.d:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$11 -> geogebra.gui.i.e:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$12 -> geogebra.gui.i.f:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$13 -> geogebra.gui.i.g:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$14 -> geogebra.gui.i.h:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$2 -> geogebra.gui.i.i:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$3 -> geogebra.gui.i.j:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$4 -> geogebra.gui.i.k:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$5 -> geogebra.gui.i.l:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$6 -> geogebra.gui.i.m:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$7 -> geogebra.gui.i.n:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$8 -> geogebra.gui.i.o:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.EditMenuD$9 -> geogebra.gui.i.p:
    geogebra.gui.menubar.EditMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD -> geogebra.gui.i.q:
    javax.swing.AbstractAction newWindowAction -> b
    javax.swing.AbstractAction deleteAll -> c
    javax.swing.AbstractAction saveAction -> d
    javax.swing.AbstractAction saveAsAction -> e
    javax.swing.AbstractAction loadAction -> f
    javax.swing.AbstractAction loadURLAction -> g
    javax.swing.AbstractAction exportWorksheet -> h
    javax.swing.AbstractAction shareAction -> i
    javax.swing.AbstractAction exportGraphicAction -> j
    javax.swing.AbstractAction exportAnimationAction -> k
    javax.swing.AbstractAction exportPgfAction -> l
    javax.swing.AbstractAction exportPSTricksAction -> m
    javax.swing.AbstractAction exportAsymptoteAction -> n
    javax.swing.JMenuItem loadURLMenuItem -> a
    javax.swing.AbstractAction exportGeoGebraTubeAction -> a
    javax.swing.AbstractAction drawingPadToClipboardAction -> o
    javax.swing.AbstractAction printEuclidianViewAction -> p
    javax.swing.AbstractAction exitAction -> q
    javax.swing.AbstractAction exitAllAction -> r
    void initItems() -> c
    void initActions() -> b
    void update() -> a
    void renderEvent(geogebra.common.move.events.BaseEvent) -> a
geogebra.gui.menubar.FileMenuD$1 -> geogebra.gui.i.r:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$10 -> geogebra.gui.i.s:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$11 -> geogebra.gui.i.t:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.menubar.FileMenuD access$0(geogebra.gui.menubar.FileMenuD$11) -> a
geogebra.gui.menubar.FileMenuD$11$1 -> geogebra.gui.i.u:
    geogebra.gui.menubar.FileMenuD$11 this$1 -> a
    void run() -> run
geogebra.gui.menubar.FileMenuD$12 -> geogebra.gui.i.v:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.menubar.FileMenuD access$0(geogebra.gui.menubar.FileMenuD$12) -> a
geogebra.gui.menubar.FileMenuD$12$1 -> geogebra.gui.i.w:
    geogebra.gui.menubar.FileMenuD$12 this$1 -> a
    void run() -> run
geogebra.gui.menubar.FileMenuD$13 -> geogebra.gui.i.x:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$14 -> geogebra.gui.i.y:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$15 -> geogebra.gui.i.z:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$16 -> geogebra.gui.i.A:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$17 -> geogebra.gui.i.B:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.menubar.FileMenuD access$0(geogebra.gui.menubar.FileMenuD$17) -> a
geogebra.gui.menubar.FileMenuD$17$1 -> geogebra.gui.i.C:
    geogebra.gui.menubar.FileMenuD$17 this$1 -> a
    void run() -> run
geogebra.gui.menubar.FileMenuD$18 -> geogebra.gui.i.D:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.menubar.FileMenuD access$0(geogebra.gui.menubar.FileMenuD$18) -> a
geogebra.gui.menubar.FileMenuD$18$1 -> geogebra.gui.i.E:
    geogebra.gui.menubar.FileMenuD$18 this$1 -> a
    void run() -> run
geogebra.gui.menubar.FileMenuD$2 -> geogebra.gui.i.F:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.menubar.FileMenuD access$0(geogebra.gui.menubar.FileMenuD$2) -> a
geogebra.gui.menubar.FileMenuD$2$1 -> geogebra.gui.i.G:
    geogebra.gui.menubar.FileMenuD$2 this$1 -> a
    void run() -> run
geogebra.gui.menubar.FileMenuD$3 -> geogebra.gui.i.H:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$4 -> geogebra.gui.i.I:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$5 -> geogebra.gui.i.J:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$6 -> geogebra.gui.i.K:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$7 -> geogebra.gui.i.L:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$8 -> geogebra.gui.i.M:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.FileMenuD$9 -> geogebra.gui.i.N:
    geogebra.gui.menubar.FileMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.GeoGebraMenuBar -> geogebra.gui.i.O:
    geogebra.gui.menubar.BaseMenu fileMenu -> a
    geogebra.gui.menubar.BaseMenu editMenu -> b
    geogebra.gui.menubar.BaseMenu viewMenu -> c
    geogebra.gui.menubar.BaseMenu optionsMenu -> d
    geogebra.gui.menubar.BaseMenu toolsMenu -> e
    geogebra.gui.menubar.BaseMenu windowMenu -> f
    geogebra.gui.menubar.BaseMenu helpMenu -> g
    geogebra.main.AppD app -> a
    geogebra.gui.layout.LayoutD layout -> a
    javax.swing.AbstractButton signInButton -> a
    javax.swing.AbstractAction signInAction -> a
    javax.swing.AbstractAction signInInProgressAction -> b
    javax.swing.AbstractAction signOutAction -> c
    void initMenubar() -> a
    void addSignIn() -> g
    void renderEvent(geogebra.common.move.events.BaseEvent) -> a
    void onTubeAvailable(boolean) -> b
    void onLogin(boolean,geogebra.common.move.ggtapi.models.GeoGebraTubeUser,boolean) -> a
    void updateMenubar() -> b
    void updateCPView(boolean) -> a
    void updateSelection() -> c
    void updateMenuFile() -> d
    void updateMenuWindow() -> e
    void updateFonts() -> f
    void setMenuFontRecursive(javax.swing.JMenuItem,java.awt.Font) -> a
    void showPrintPreview(geogebra.main.AppD) -> a
    void showAboutDialog(geogebra.main.AppD) -> b
    void appendVersion(java.lang.StringBuilder,geogebra.main.AppD) -> a
    void copyDebugInfoToClipboard(geogebra.main.AppD) -> c
    geogebra.main.AppD access$0(geogebra.gui.menubar.GeoGebraMenuBar) -> a
geogebra.gui.menubar.GeoGebraMenuBar$1 -> geogebra.gui.i.P:
    geogebra.gui.menubar.GeoGebraMenuBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.GeoGebraMenuBar$2 -> geogebra.gui.i.Q:
    geogebra.gui.menubar.GeoGebraMenuBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.GeoGebraMenuBar$3 -> geogebra.gui.i.R:
    geogebra.gui.menubar.GeoGebraMenuBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.GeoGebraMenuBar$4 -> geogebra.gui.i.S:
    geogebra.main.AppD val$app -> a
    void run() -> run
geogebra.gui.menubar.GeoGebraMenuBar$5 -> geogebra.gui.i.T:
    geogebra.main.AppD val$app -> a
    geogebra.main.LocalizationD val$loc -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.HelpMenuD -> geogebra.gui.i.U:
    javax.swing.AbstractAction helpAction -> a
    javax.swing.AbstractAction tutorialAction -> b
    javax.swing.AbstractAction forumAction -> c
    javax.swing.AbstractAction infoAction -> d
    javax.swing.AbstractAction reportBugAction -> e
    void initItems() -> c
    void initActions() -> b
    void update() -> a
geogebra.gui.menubar.HelpMenuD$1 -> geogebra.gui.i.V:
    geogebra.gui.menubar.HelpMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.HelpMenuD$2 -> geogebra.gui.i.W:
    geogebra.gui.menubar.HelpMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.HelpMenuD$3 -> geogebra.gui.i.X:
    geogebra.gui.menubar.HelpMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.LanguageActionListener -> geogebra.gui.i.Y:
    geogebra.main.AppD app -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.LanguageRadioButtonMenuItem -> geogebra.gui.i.Z:
geogebra.gui.menubar.LoadFileListener -> geogebra.gui.i.aa:
    geogebra.main.AppD app -> a
    java.io.File file -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.OptionsMenuD -> geogebra.gui.i.ab:
    geogebra.common.kernel.Kernel kernel -> a
    javax.swing.AbstractAction showOptionsAction -> a
    javax.swing.AbstractAction saveSettings -> b
    javax.swing.AbstractAction restoreDefaultSettings -> c
    void initItems(javax.swing.ImageIcon) -> a
    void addLanguageMenuItems(geogebra.main.AppD,javax.swing.JComponent,java.awt.event.ActionListener) -> a
    void initActions() -> b
    void update() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void initItems() -> c
    void actionPerformed(java.lang.String) -> a
    geogebra.common.gui.menubar.OptionsMenu getOptionsMenu() -> a
    void menuSelected(javax.swing.event.MenuEvent) -> menuSelected
geogebra.gui.menubar.OptionsMenuD$1 -> geogebra.gui.i.ac:
    geogebra.gui.menubar.OptionsMenuD this$0 -> a
    java.lang.String val$flagName -> a
    void run() -> run
geogebra.gui.menubar.OptionsMenuD$2 -> geogebra.gui.i.ad:
    geogebra.gui.menubar.OptionsMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.OptionsMenuD$3 -> geogebra.gui.i.ae:
    geogebra.gui.menubar.OptionsMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.OptionsMenuD$4 -> geogebra.gui.i.af:
    geogebra.gui.menubar.OptionsMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.OptionsMenuD$5 -> geogebra.gui.i.ag:
    geogebra.gui.menubar.OptionsMenuD this$0 -> a
    geogebra.common.gui.menubar.RadioButtonMenuBar newSubmenu() -> a
geogebra.gui.menubar.RadioButtonMenuBarD -> geogebra.gui.i.ah:
    geogebra.main.AppD app -> a
    void addRadioButtonMenuItems(geogebra.common.gui.menubar.MyActionListener,java.lang.String[],java.lang.String[],int,boolean) -> a
    void setSelected(int) -> a
geogebra.gui.menubar.RadioButtonMenuBarD$1 -> geogebra.gui.i.ai:
    geogebra.gui.menubar.RadioButtonMenuBarD this$0 -> a
    geogebra.common.gui.menubar.MyActionListener val$alistener -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.RequestFocusListener -> geogebra.gui.i.aj:
    javax.swing.JFrame frame -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ToolsMenuD -> geogebra.gui.i.ak:
    javax.swing.AbstractAction toolbarConfigAction -> a
    javax.swing.AbstractAction showCreateToolsAction -> b
    javax.swing.AbstractAction showManageToolsAction -> c
    void updateItems() -> d
    void initActions() -> b
    void update() -> a
    void initItems() -> c
geogebra.gui.menubar.ToolsMenuD$1 -> geogebra.gui.i.al:
    geogebra.gui.menubar.ToolsMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ToolsMenuD$2 -> geogebra.gui.i.am:
    geogebra.gui.menubar.ToolsMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ToolsMenuD$3 -> geogebra.gui.i.an:
    geogebra.gui.menubar.ToolsMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ViewMenuApplicationD -> geogebra.gui.i.ao:
    javax.swing.AbstractAction showKeyboardAction -> c
    javax.swing.AbstractAction showAlgebraInputAction -> d
    javax.swing.JCheckBoxMenuItem cbShowKeyboard -> a
    javax.swing.JCheckBoxMenuItem cbShowInputBar -> b
    geogebra.gui.menubar.ViewMenuApplicationD$ShowViewAction[] showViews -> a
    javax.swing.JCheckBoxMenuItem[] cbViews -> a
    javax.swing.AbstractAction showLayoutOptionsAction -> e
    javax.swing.JCheckBoxMenuItem cbConsprot -> c
    void initItems() -> c
    void initActions() -> b
    void initViewActions() -> d
    void update() -> a
    void updateViews() -> e
    void initViewItems(javax.swing.JMenu) -> a
    void updateCPView(boolean) -> a
    void menuSelected(javax.swing.event.MenuEvent) -> menuSelected
geogebra.gui.menubar.ViewMenuApplicationD$1 -> geogebra.gui.i.ap:
    geogebra.gui.menubar.ViewMenuApplicationD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ViewMenuApplicationD$2 -> geogebra.gui.i.aq:
    geogebra.gui.menubar.ViewMenuApplicationD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ViewMenuApplicationD$3 -> geogebra.gui.i.ar:
    geogebra.gui.menubar.ViewMenuApplicationD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ViewMenuApplicationD$ShowViewAction -> geogebra.gui.i.ao$a:
    geogebra.gui.layout.DockPanel panel -> a
    int viewId -> a
    javax.swing.JCheckBoxMenuItem cb -> a
    geogebra.gui.menubar.ViewMenuApplicationD this$0 -> a
    void setCheckBox(javax.swing.JCheckBoxMenuItem) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ViewMenuD -> geogebra.gui.i.as:
    geogebra.gui.layout.LayoutD layout -> a
    javax.swing.AbstractAction refreshAction -> a
    javax.swing.AbstractAction recomputeAllViews -> b
    void initItems() -> c
    void initActions() -> b
    void update() -> a
    void menuSelected(javax.swing.event.MenuEvent) -> menuSelected
geogebra.gui.menubar.ViewMenuD$1 -> geogebra.gui.i.at:
    geogebra.gui.menubar.ViewMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.ViewMenuD$2 -> geogebra.gui.i.au:
    geogebra.gui.menubar.ViewMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.menubar.WindowMenuD -> geogebra.gui.i.av:
    javax.swing.AbstractAction newWindowAction -> a
    void initItems() -> c
    void initActions() -> b
    void update() -> a
geogebra.gui.menubar.WindowMenuD$1 -> geogebra.gui.i.aw:
    geogebra.gui.menubar.WindowMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.menubar.WindowMenuD access$0(geogebra.gui.menubar.WindowMenuD$1) -> a
geogebra.gui.menubar.WindowMenuD$1$1 -> geogebra.gui.i.ax:
    geogebra.gui.menubar.WindowMenuD$1 this$1 -> a
    void run() -> run
geogebra.gui.nssavepanel.NSSavePanel -> geogebra.gui.nssavepanel.NSSavePanel:
    boolean loaded -> a
    java.lang.String saveDialog(java.lang.String,java.lang.String) -> saveDialog
geogebra.gui.properties.AnimationSpeedPanel -> geogebra.gui.j.a:
    geogebra.common.gui.dialog.options.model.AnimationSpeedModel model -> a
    javax.swing.JTextField tfAnimSpeed -> a
    javax.swing.JComboBox animationModeCB -> a
    javax.swing.JLabel modeLabel -> a
    javax.swing.JLabel speedLabel -> b
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    void setLabels() -> x_
    void setPartOfSliderPanel() -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed() -> d
    void setType(int) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setSelectedIndex(int) -> d
    void addItem(java.lang.String) -> c
    void setText(java.lang.String) -> a
    void setSelectedItem(java.lang.String) -> d
geogebra.gui.properties.AnimationStepPanel -> geogebra.gui.j.b:
    geogebra.common.gui.dialog.options.model.AnimationStepModel model -> a
    javax.swing.JLabel label -> a
    geogebra.gui.AngleTextField tfAnimStep -> a
    geogebra.common.kernel.Kernel kernel -> a
    void setLabels() -> x_
    void setPartOfSliderPanel() -> b
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed() -> d
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> c
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setText(java.lang.String) -> a
geogebra.gui.properties.SliderPanel -> geogebra.gui.j.c:
    geogebra.common.gui.dialog.options.model.SliderModel model -> a
    geogebra.gui.AngleTextField tfMin -> a
    geogebra.gui.AngleTextField tfMax -> b
    javax.swing.JTextField tfWidth -> a
    javax.swing.JTextField[] tfields -> a
    javax.swing.JLabel[] tLabels -> a
    javax.swing.JLabel lbWidthUnit -> a
    javax.swing.JCheckBox cbSliderFixed -> a
    javax.swing.JCheckBox cbRandom -> b
    javax.swing.JComboBox coSliderHorizontal -> a
    geogebra.main.AppD app -> a
    geogebra.gui.properties.AnimationStepPanel stepPanel -> a
    geogebra.gui.properties.AnimationSpeedPanel speedPanel -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.dialog.PropertiesPanelD propPanel -> a
    javax.swing.JPanel intervalPanel -> a
    javax.swing.JPanel sliderPanel -> b
    javax.swing.JPanel animationPanel -> c
    boolean useTabbedPane -> a
    boolean actionPerforming -> b
    boolean widthUnit -> c
    void initPanels() -> c
    void setLabels() -> x_
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doCheckBoxActionPerformed(javax.swing.JCheckBox) -> a
    void doRandomActionPerformed(javax.swing.JCheckBox) -> b
    void doComboBoxActionPerformed(javax.swing.JComboBox) -> a
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts() -> b
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setMinText(java.lang.String) -> a
    void setMaxText(java.lang.String) -> b
    void setWidthText(java.lang.String) -> c
    void selectFixed(boolean) -> a
    void selectRandom(boolean) -> b
    void setRandomVisible(boolean) -> c
    void setSliderDirection(int) -> a
    void setWidthUnitText(java.lang.String) -> d
geogebra.gui.properties.UpdateablePropertiesPanel -> geogebra.gui.j.d:
    javax.swing.JPanel update(java.lang.Object[]) -> a
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> d_
    void setVisible(boolean) -> setVisible
geogebra.gui.toolbar.ModeCellRenderer -> geogebra.gui.k.a:
    geogebra.main.AppD app -> a
    java.awt.Component getTreeCellRendererComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int,boolean) -> getTreeCellRendererComponent
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
    void handleRootNode(javax.swing.tree.DefaultMutableTreeNode) -> a
    void handleModeNode(int) -> a
    void handleSelection(boolean) -> a
geogebra.gui.toolbar.ModeToggleButtonGroup -> geogebra.gui.k.b:
    geogebra.common.javax.swing.GPopupMenu activePopMenu -> a
    void setActivePopupMenu(geogebra.common.javax.swing.GPopupMenu) -> a
    geogebra.common.javax.swing.GPopupMenu getActivePopupMenu() -> a
geogebra.gui.toolbar.ModeToggleMenu -> geogebra.gui.k.c:
    geogebra.gui.toolbar.ModeToggleButtonGroup bg -> a
    geogebra.gui.toolbar.MyJToggleButton tbutton -> a
    geogebra.gui.toolbar.MyJToggleButton mouseOverButton -> b
    javax.swing.JPopupMenu popMenu -> a
    java.util.ArrayList menuItemList -> a
    java.awt.event.ActionListener popupMenuItemListener -> a
    geogebra.main.AppD app -> a
    int size -> a
    geogebra.gui.toolbar.ToolbarD toolbar -> a
    java.awt.Color bgColor -> a
    int getToolsCount() -> a
    javax.swing.JToggleButton getJToggleButton() -> a
    boolean selectMode(int) -> a
    int getFirstMode() -> b
    void selectItem(javax.swing.JMenuItem) -> a
    void addMode(int) -> a
    void addSeparator() -> a
    void setMouseOverButton(geogebra.gui.toolbar.MyJToggleButton) -> a
    javax.swing.JToggleButton getMouseOverButton() -> b
    void mouseOver() -> b
    void setPopupVisible(boolean) -> a
    boolean isPopupShowing() -> a
    void setMode(int) -> b
    void access$0(geogebra.gui.toolbar.ModeToggleMenu,javax.swing.JMenuItem) -> a
    geogebra.gui.toolbar.MyJToggleButton access$1(geogebra.gui.toolbar.ModeToggleMenu) -> a
geogebra.gui.toolbar.ModeToggleMenu$MenuItemListener -> geogebra.gui.k.c$a:
    geogebra.gui.toolbar.ModeToggleMenu this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.MyJToggleButton -> geogebra.gui.k.d:
    int BORDER -> b
    int iconWidth -> c
    int iconHeight -> d
    java.awt.geom.GeneralPath gp -> a
    boolean showToolTipText -> c
    boolean popupTriangleHighlighting -> a
    boolean popupTriangleClicked -> b
    geogebra.gui.toolbar.ModeToggleMenu menu -> a
    java.awt.Color arrowColor -> a
    java.awt.Color selColor -> b
    java.awt.BasicStroke selStroke -> a
    javax.swing.Timer showMenuTimer -> a
    geogebra.gui.toolbar.ToolbarD toolbar -> a
    int defaultInitialDelay -> a
    javax.swing.JToolTip tip -> a
    java.lang.String getToolTipText() -> getToolTipText
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setIcon(javax.swing.Icon) -> setIcon
    void paint(java.awt.Graphics) -> paint
    void initPath() -> a
    boolean popupTriangleClicked(int,int) -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void doClick() -> doClick
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    javax.swing.JToolTip createToolTip() -> createToolTip
    java.awt.Point getToolTipLocation(java.awt.event.MouseEvent) -> getToolTipLocation
    javax.swing.Timer access$0(geogebra.gui.toolbar.MyJToggleButton) -> a
geogebra.gui.toolbar.MyJToggleButton$1 -> geogebra.gui.k.e:
    geogebra.gui.toolbar.MyJToggleButton this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.ToolbarConfigDialog -> geogebra.gui.k.f:
    geogebra.main.AppD app -> a
    geogebra.gui.toolbar.ToolbarConfigPanel confPanel -> a
    void apply() -> a
    javax.swing.JPanel createButtonPanel() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.ToolbarConfigDialog$1 -> geogebra.gui.k.g:
    geogebra.gui.toolbar.ToolbarConfigDialog this$0 -> a
    javax.swing.JButton val$btApply -> a
    javax.swing.JButton val$btCancel -> b
    javax.swing.JButton val$btDefaultToolbar -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.ToolbarConfigDialog$KeyValue -> geogebra.gui.k.f$a:
    int key -> a
    java.lang.String value -> a
    geogebra.gui.toolbar.ToolbarConfigDialog this$0 -> a
    int getKey() -> a
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
geogebra.gui.toolbar.ToolbarConfigPanel -> geogebra.gui.k.h:
    geogebra.gui.layout.DockPanel dockPanel -> a
    javax.swing.JButton insertButton -> a
    javax.swing.JButton moveUpButton -> b
    javax.swing.JButton moveDownButton -> c
    javax.swing.JButton deleteButton -> d
    javax.swing.JTree tree -> a
    javax.swing.JScrollPane configScrollPane -> a
    javax.swing.JScrollPane modeScrollPane -> b
    javax.swing.JPanel selectionPanel -> a
    javax.swing.JList toolList -> a
    javax.swing.DefaultListModel toolListModel -> a
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean containsTool(javax.swing.tree.DefaultMutableTreeNode,java.lang.Integer) -> a
    void setToolbar(geogebra.gui.layout.DockPanel,java.lang.String) -> a
    void apply() -> a
    void resetDefaultToolbar() -> b
    java.lang.String getToolBarString() -> a
    void collapseAllRows() -> c
    java.util.Vector generateToolsVector(java.lang.String) -> a
    javax.swing.JTree generateTree() -> a
    javax.swing.tree.DefaultMutableTreeNode generateRootNode(java.util.Vector) -> a
    void sortToolList() -> d
    void treeCollapsed(javax.swing.event.TreeExpansionEvent) -> treeCollapsed
    void treeExpanded(javax.swing.event.TreeExpansionEvent) -> treeExpanded
geogebra.gui.toolbar.ToolbarConfigPanel$1 -> geogebra.gui.k.i:
    geogebra.gui.toolbar.ToolbarConfigPanel this$0 -> a
    void setExpandedState(javax.swing.tree.TreePath,boolean) -> setExpandedState
geogebra.gui.toolbar.ToolbarContainer -> geogebra.gui.k.j:
    boolean showHelp -> b
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    boolean isMain -> c
    javax.swing.JPanel toolbarHelpPanel -> a
    javax.swing.JLabel modeNameLabel -> a
    geogebra.gui.toolbar.ToolbarContainer$ToolbarPanel toolbarPanel -> a
    java.util.ArrayList toolbars -> a
    int activeToolbar -> b
    int orientation -> a
    javax.swing.JPanel gluePanel -> b
    boolean showHelpBar -> a
    javax.swing.JLabel lblTest -> b
    javax.swing.JPanel gridButtonPanel -> c
    int oldWidth -> c
    java.awt.event.MouseAdapter helpMouseAdapter -> a
    javax.swing.JPanel getToolbarHelpPanel() -> a
    void buildGui() -> a
    void addPanels() -> d
    javax.swing.JPanel buildToolbarHelpPanel() -> b
    javax.swing.JPanel getGridButtonPanel() -> c
    int setMode(int) -> a
    void setOrientation(int) -> a
    void setActiveToolbar(geogebra.gui.toolbar.ToolbarD) -> a
    void setActiveToolbar(int) -> b
    int getActiveToolbar() -> a
    void updateToolbarPanel() -> b
    void addToolbar(geogebra.gui.toolbar.ToolbarD) -> b
    void removeToolbar(geogebra.gui.toolbar.ToolbarD) -> c
    geogebra.gui.toolbar.ToolbarD getToolbar(int) -> a
    int getViewId(geogebra.gui.toolbar.ToolbarD) -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void updateHelpText() -> c
    void resolveMouseListener(int) -> c
    java.lang.String wrappedModeText(java.lang.String,java.lang.String,javax.swing.JPanel) -> a
    geogebra.gui.toolbar.ToolbarD getFirstToolbar() -> a
    void setShowHelp(boolean) -> a
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
geogebra.gui.toolbar.ToolbarContainer$1 -> geogebra.gui.k.k:
    geogebra.gui.toolbar.ToolbarContainer this$0 -> a
    javax.swing.JButton val$btnProperties -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.ToolbarContainer$2 -> geogebra.gui.k.l:
    geogebra.gui.toolbar.ToolbarContainer this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.ToolbarContainer$3 -> geogebra.gui.k.m:
    geogebra.gui.toolbar.ToolbarContainer this$0 -> a
    int val$mode -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.toolbar.ToolbarContainer$PropertiesMenu -> geogebra.gui.k.j$a:
    geogebra.gui.toolbar.ToolbarContainer this$0 -> a
    void initMenu() -> a
    void openPropertiesView(geogebra.common.main.OptionType) -> a
geogebra.gui.toolbar.ToolbarContainer$PropertiesMenu$1 -> geogebra.gui.k.n:
    geogebra.gui.toolbar.ToolbarContainer$PropertiesMenu this$1 -> a
    geogebra.common.main.OptionType val$type -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.toolbar.ToolbarContainer$ToolbarPanel -> geogebra.gui.k.j$b:
    geogebra.gui.toolbar.ToolbarContainer this$0 -> a
    void show(java.lang.String) -> a
    void add(java.awt.Component,java.lang.String) -> a
geogebra.gui.toolbar.ToolbarD -> geogebra.gui.k.o:
    geogebra.main.AppD app -> a
    geogebra.common.gui.layout.DockPanel dockPanel -> a
    int mode -> a
    java.util.ArrayList modeToggleMenus -> a
    void buildGui() -> a
    int setMode(int) -> a
    int getSelectedMode() -> a
    int getFirstMode() -> b
    void addCustomModesToToolbar(geogebra.gui.toolbar.ModeToggleButtonGroup) -> a
    geogebra.common.gui.layout.DockPanel getDockPanel() -> a
    java.lang.String getDefaultToolbarString() -> a
    java.lang.String getAllTools(geogebra.main.AppD) -> a
    boolean preventToolTipDelay() -> a
geogebra.gui.util.AnimatedGifEncoder -> geogebra.gui.l.a:
    int width -> a
    int height -> b
    java.awt.Color transparent -> a
    int transIndex -> c
    int repeat -> d
    int delay -> e
    boolean started -> a
    java.io.OutputStream out -> a
    java.awt.image.BufferedImage image -> a
    byte[] pixels -> a
    byte[] indexedPixels -> b
    int colorDepth -> f
    byte[] colorTab -> c
    boolean[] usedEntry -> a
    int palSize -> g
    int dispose -> h
    boolean closeStream -> b
    boolean firstFrame -> c
    boolean sizeSet -> d
    int sample -> i
    void setDelay(int) -> a
    void setRepeat(int) -> b
    boolean addFrame(java.awt.image.BufferedImage) -> a
    boolean finish() -> a
    void setSize(int,int) -> a
    boolean start(java.io.OutputStream) -> a
    boolean start(java.io.File) -> a
    void analyzePixels() -> a
    int findClosest(java.awt.Color) -> a
    void getImagePixels() -> b
    void writeGraphicCtrlExt() -> c
    void writeImageDesc() -> d
    void writeLSD() -> e
    void writeNetscapeExt() -> f
    void writePalette() -> g
    void writePixels() -> h
    void writeShort(int) -> c
    void writeString(java.lang.String) -> a
geogebra.gui.util.BrowserLauncher -> geogebra.gui.l.b:
    void openURL(java.lang.String) -> a
geogebra.gui.util.FileTransferable -> geogebra.gui.l.c:
    java.awt.datatransfer.DataFlavor[] dataFlavors -> a
    java.util.List files -> a
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
geogebra.gui.util.FullWidthLayout -> geogebra.gui.l.d:
    int vgap -> a
    int minWidth -> b
    int minHeight -> c
    int preferredWidth -> d
    int preferredHeight -> e
    boolean sizeUnknown -> a
    void calculateSizes(java.awt.Container) -> a
    java.awt.Dimension preferredLayoutSize(java.awt.Container) -> preferredLayoutSize
    java.awt.Dimension minimumLayoutSize(java.awt.Container) -> minimumLayoutSize
    void layoutContainer(java.awt.Container) -> layoutContainer
    void addLayoutComponent(java.lang.String,java.awt.Component) -> addLayoutComponent
    void removeLayoutComponent(java.awt.Component) -> removeLayoutComponent
    java.lang.String toString() -> toString
geogebra.gui.util.GeoGebraFileChooser -> geogebra.gui.l.e:
    geogebra.main.AppD app -> a
    int currentMode -> a
    geogebra.gui.util.GeoGebraFileChooser$PreviewPanel previewPanel -> a
    boolean showAccessory -> a
    int getMode() -> a
    void setMode(int) -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
geogebra.gui.util.GeoGebraFileChooser$PreviewPanel -> geogebra.gui.l.e$a:
    geogebra.gui.util.GeoGebraFileChooser fileChooser -> b
    geogebra.gui.MyImageD img -> a
    geogebra.gui.util.GeoGebraFileChooser$PreviewPanel$ImagePanel imagePanel -> a
    javax.swing.JTextArea dataPreviewPanel -> a
    javax.swing.JPanel cards -> a
    java.awt.Label fileLabel -> a
    geogebra.gui.util.GeoGebraFileChooser this$0 -> a
    void setPreviewPanelType(int) -> a
    javax.swing.JScrollPane buildDataPanel() -> a
    void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange
    void updateDataPreview(java.io.File) -> a
    void updateImage(java.io.File) -> b
    geogebra.gui.MyImageD access$0(geogebra.gui.util.GeoGebraFileChooser$PreviewPanel) -> a
    geogebra.gui.util.GeoGebraFileChooser access$1(geogebra.gui.util.GeoGebraFileChooser$PreviewPanel) -> a
geogebra.gui.util.GeoGebraFileChooser$PreviewPanel$ImagePanel -> geogebra.gui.l.e$a$a:
    geogebra.gui.util.GeoGebraFileChooser$PreviewPanel this$1 -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
geogebra.gui.util.GeoGebraIcon -> geogebra.gui.l.f:
    javax.swing.ImageIcon createEmptyIcon(int,int) -> a
    javax.swing.ImageIcon createNullSymbolIcon(int,int) -> b
    javax.swing.ImageIcon createFileImageIcon(geogebra.main.AppD,java.lang.String,float,java.awt.Dimension) -> a
    javax.swing.ImageIcon createHGridIcon(java.awt.Dimension) -> a
    javax.swing.ImageIcon createVGridIcon(java.awt.Dimension) -> b
    javax.swing.ImageIcon createDownTriangleIcon(int) -> a
    javax.swing.ImageIcon createSymbolTableIcon(java.awt.Font,boolean) -> a
    void drawCenteredText(java.awt.Graphics2D,java.lang.String,int,int) -> a
    javax.swing.ImageIcon createUpDownTriangleIcon(boolean,boolean) -> a
    javax.swing.ImageIcon createColorSwatchIcon(float,java.awt.Dimension,java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon createLineStyleIcon(int,int,java.awt.Dimension,java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon createTextSymbolIcon(java.lang.String,java.awt.Font,java.awt.Dimension,java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon createCellGridIcon(java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon createStringIcon(java.lang.String,java.awt.Font,boolean,boolean,boolean,java.awt.Dimension,java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon createLatexIcon(geogebra.main.AppD,java.lang.String,java.awt.Font,boolean,java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon createPointStyleIcon(int,int,java.awt.Dimension,java.awt.Color,java.awt.Color) -> b
    javax.swing.ImageIcon ensureIconSize(javax.swing.ImageIcon,java.awt.Dimension) -> a
    void drawLatexImageIcon(geogebra.main.AppD,javax.swing.ImageIcon,java.lang.String,java.awt.Font,boolean,java.awt.Color,java.awt.Color) -> a
    javax.swing.ImageIcon joinIcons(javax.swing.ImageIcon,javax.swing.ImageIcon) -> a
geogebra.gui.util.GeoGebraIcon$PointStyleImage -> geogebra.gui.l.f$a:
    int pointStyle -> a
    int pointSize -> b
    java.awt.geom.Ellipse2D$Double circle -> a
    java.awt.geom.Line2D$Double line1 -> a
    java.awt.geom.Line2D$Double line2 -> b
    java.awt.geom.Line2D$Double line3 -> c
    java.awt.geom.Line2D$Double line4 -> d
    java.awt.geom.GeneralPath gp -> a
    java.awt.BasicStroke borderStroke -> a
    java.awt.BasicStroke[] crossStrokes -> a
    int h -> c
    int w -> d
    geogebra.gui.util.GeoGebraIcon this$0 -> a
    void drawPointStyle(java.awt.Color,java.awt.Color) -> a
    void getPath() -> a
geogebra.gui.util.HelpAction -> geogebra.gui.l.g:
    geogebra.main.AppD app -> a
    java.lang.String articleName -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.main.AppD access$0(geogebra.gui.util.HelpAction) -> a
    java.lang.String access$1(geogebra.gui.util.HelpAction) -> a
geogebra.gui.util.HelpAction$1 -> geogebra.gui.l.h:
    geogebra.gui.util.HelpAction this$0 -> a
    void run() -> run
geogebra.gui.util.ImageSelection -> geogebra.gui.l.i:
    java.awt.Image image -> a
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
geogebra.gui.util.LZWEncoder -> geogebra.gui.l.j:
    int imgW -> m
    int imgH -> n
    byte[] pixAry -> b
    int initCodeSize -> o
    int remaining -> p
    int curPixel -> q
    int n_bits -> a
    int maxbits -> b
    int maxcode -> c
    int maxmaxcode -> d
    int[] htab -> a
    int[] codetab -> b
    int hsize -> e
    int free_ent -> f
    boolean clear_flg -> a
    int g_init_bits -> g
    int ClearCode -> h
    int EOFCode -> i
    int cur_accum -> j
    int cur_bits -> k
    int[] masks -> c
    int a_count -> l
    byte[] accum -> a
    void char_out(byte,java.io.OutputStream) -> a
    void cl_block(java.io.OutputStream) -> a
    void cl_hash(int) -> a
    void compress(int,java.io.OutputStream) -> a
    void encode(java.io.OutputStream) -> b
    void flush_char(java.io.OutputStream) -> c
    int MAXCODE(int) -> a
    int nextPixel() -> a
    void output(int,java.io.OutputStream) -> b
geogebra.gui.util.LatexTable -> geogebra.gui.l.k:
    geogebra.gui.dialog.TextInputDialog inputDialog -> a
    java.lang.String[] latexArray -> a
    geogebra.gui.util.PopupMenuButton popupButton -> a
    int caretPosition -> a
    geogebra.common.gui.util.SelectionTable mode -> a
    java.awt.Component getComponent() -> getComponent
    javax.swing.MenuElement[] getSubElements() -> getSubElements
    void menuSelectionChanged(boolean) -> menuSelectionChanged
    void processKeyEvent(java.awt.event.KeyEvent,javax.swing.MenuElement[],javax.swing.MenuSelectionManager) -> processKeyEvent
    void processMouseEvent(java.awt.event.MouseEvent,javax.swing.MenuElement[],javax.swing.MenuSelectionManager) -> processMouseEvent
geogebra.gui.util.LayoutUtil -> geogebra.gui.l.l:
    int defaultHgap -> a
    int defaultVgap -> b
    javax.swing.JPanel flowPanel(java.awt.Component[]) -> a
    javax.swing.JPanel flowPanel(int,java.awt.Component[]) -> a
    javax.swing.JPanel flowPanel(int,int,int,java.awt.Component[]) -> a
    javax.swing.JPanel flowPanelCenter(int,int,int,java.awt.Component[]) -> b
    javax.swing.JPanel flowPanelRight(int,int,int,java.awt.Component[]) -> c
    javax.swing.border.Border titleBorder(java.lang.String) -> a
geogebra.gui.util.LayoutUtil$TitlePanel -> geogebra.gui.l.l$a:
    void setTitle(java.lang.String) -> a
geogebra.gui.util.ListSeparatorRenderer -> geogebra.gui.l.m:
    javax.swing.JSeparator separator -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.util.MyToggleButton -> geogebra.gui.l.n:
    int myHeight -> a
    void initButton(int) -> a
    void setText(java.lang.String) -> setText
    void update(java.lang.Object[]) -> a
    void toggle() -> a
geogebra.gui.util.MyToggleButton$1 -> geogebra.gui.l.o:
    geogebra.gui.util.MyToggleButton this$0 -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
geogebra.gui.util.NeuQuant -> geogebra.gui.l.p:
    int alphadec -> a
    byte[] thepicture -> a
    int lengthcount -> b
    int samplefac -> c
    int[][] network -> a
    int[] netindex -> a
    int[] bias -> b
    int[] freq -> c
    int[] radpower -> d
    byte[] colorMap() -> a
    void inxbuild() -> a
    void learn() -> b
    int map(int,int,int) -> a
    byte[] process() -> b
    void unbiasnet() -> c
    void alterneigh(int,int,int,int,int) -> a
    void altersingle(int,int,int,int,int) -> b
    int contest(int,int,int) -> b
geogebra.gui.util.PopupMenuButton -> geogebra.gui.l.q:
    geogebra.common.gui.util.SelectionTable mode -> a
    java.lang.Object[] data -> a
    geogebra.main.AppD app -> a
    geogebra.gui.util.PopupMenuButton thisButton -> a
    javax.swing.JPopupMenu myPopup -> a
    javax.swing.JSlider mySlider -> a
    java.awt.Color fgColor -> a
    int fontStyle -> a
    geogebra.gui.util.SelectionTable myTable -> a
    java.awt.Dimension iconSize -> a
    boolean hasTable -> b
    boolean keepVisible -> c
    boolean isDownwardPopup -> d
    boolean isStandardButton -> e
    boolean isFixedIcon -> f
    boolean isIniting -> g
    boolean popupIsVisible -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$util$SelectionTable -> a
    void setFontStyle(int) -> a
    void setFgColor(java.awt.Color) -> a
    geogebra.gui.util.SelectionTable getMyTable() -> a
    void setIconSize(java.awt.Dimension) -> a
    void setDownwardPopup(boolean) -> a
    void setStandardButton(boolean) -> b
    boolean prepareToShowPopup() -> a
    void addPopupMenuItem(javax.swing.JComponent) -> a
    void removeAllMenuItems() -> b
    void setPopupMenu(javax.swing.JPopupMenu) -> a
    void processMouseEvent(java.awt.event.MouseEvent) -> processMouseEvent
    void update(java.lang.Object[]) -> a
    void updateGUI() -> a
    void initSlider() -> d
    void handlePopupActionEvent() -> c
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    int getSelectedIndex() -> a
    java.lang.Object getSelectedValue() -> a
    void setSelectedIndex(java.lang.Integer) -> a
    int getSliderValue() -> b
    void setSliderValue(int) -> b
    javax.swing.JSlider getMySlider() -> a
    void setKeepVisible(boolean) -> c
    void setToolTipArray(java.lang.String[]) -> a
    javax.swing.ImageIcon getButtonIcon() -> a
    void setIcon(javax.swing.Icon) -> setIcon
    void setFixedIcon(javax.swing.Icon) -> a
    javax.swing.JPopupMenu access$0(geogebra.gui.util.PopupMenuButton) -> a
    geogebra.gui.util.PopupMenuButton access$1(geogebra.gui.util.PopupMenuButton) -> a
    boolean access$2(geogebra.gui.util.PopupMenuButton) -> a
    geogebra.gui.util.SelectionTable access$3(geogebra.gui.util.PopupMenuButton) -> a
    boolean access$4(geogebra.gui.util.PopupMenuButton) -> b
    int[] $SWITCH_TABLE$geogebra$common$gui$util$SelectionTable() -> a
geogebra.gui.util.PopupMenuButton$1 -> geogebra.gui.l.r:
    geogebra.gui.util.PopupMenuButton this$0 -> a
    boolean val$hasTable -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
geogebra.gui.util.PopupMenuButton$2 -> geogebra.gui.l.s:
    geogebra.gui.util.PopupMenuButton this$0 -> a
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
geogebra.gui.util.RestrictedFileSystemView -> geogebra.gui.l.t:
    java.lang.String newFolderString -> a
    java.io.File _defaultDirectory -> a
    boolean isRoot(java.io.File) -> isRoot
    java.lang.Boolean isTraversable(java.io.File) -> isTraversable
    java.lang.String getSystemDisplayName(java.io.File) -> getSystemDisplayName
    java.lang.String getSystemTypeDescription(java.io.File) -> getSystemTypeDescription
    javax.swing.Icon getSystemIcon(java.io.File) -> getSystemIcon
    boolean isParent(java.io.File,java.io.File) -> isParent
    java.io.File getChild(java.io.File,java.lang.String) -> getChild
    boolean isFileSystem(java.io.File) -> isFileSystem
    boolean isHiddenFile(java.io.File) -> isHiddenFile
    boolean isFileSystemRoot(java.io.File) -> isFileSystemRoot
    boolean isDrive(java.io.File) -> isDrive
    boolean isFloppyDrive(java.io.File) -> isFloppyDrive
    boolean isComputerNode(java.io.File) -> isComputerNode
    java.io.File[] getRoots() -> getRoots
    java.io.File getHomeDirectory() -> getHomeDirectory
    java.io.File getDefaultDirectory() -> getDefaultDirectory
    java.io.File createFileObject(java.io.File,java.lang.String) -> createFileObject
    java.io.File createFileObject(java.lang.String) -> createFileObject
    java.io.File[] getFiles(java.io.File,boolean) -> getFiles
    java.io.File getParentDirectory(java.io.File) -> getParentDirectory
    java.io.File createFileSystemRoot(java.io.File) -> createFileSystemRoot
    java.io.File createNewFolder(java.io.File) -> createNewFolder
geogebra.gui.util.RestrictedFileSystemView$FileSystemRoot -> geogebra.gui.l.t$a:
    boolean isDirectory() -> isDirectory
    java.lang.String getName() -> getName
geogebra.gui.util.SelectionTable -> geogebra.gui.l.u:
    geogebra.main.AppD app -> a
    geogebra.gui.util.SelectionTable$MyCellRenderer renderer -> a
    javax.swing.table.DefaultTableModel model -> a
    int rollOverRow -> a
    int rollOverColumn -> b
    int sliderValue -> c
    int horizontalAlignment -> d
    boolean showSelection -> b
    java.lang.Object[] data -> a
    int numRows -> e
    int numColumns -> f
    int rowHeight -> g
    int columnWidth -> h
    java.awt.Dimension iconSize -> a
    geogebra.common.gui.util.SelectionTable mode -> a
    java.awt.Color fgColor -> a
    float alpha -> a
    boolean useColorSwatchBorder -> a
    java.lang.String[] toolTipArray -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$util$SelectionTable -> a
    void setShowSelection(boolean) -> a
    void setHorizontalAlignment(int) -> a
    int getColumnWidth() -> a
    void setFgColor(java.awt.Color) -> a
    void setUseColorSwatchBorder(boolean) -> b
    void setToolTipArray(java.lang.String[]) -> a
    boolean isCellEditable(int,int) -> isCellEditable
    void populateModel(java.lang.Object[]) -> a
    javax.swing.ImageIcon[] createLatexIconArray(java.lang.String[]) -> a
    void setCellDimensions() -> b
    void updateFonts() -> a
    int getSelectedIndex() -> b
    void setSelectedIndex(int) -> b
    java.lang.Object getSelectedValue() -> a
    void setSliderValue(int) -> c
    javax.swing.ImageIcon getDataIcon(java.lang.Object) -> a
    int getMaxColumnWidth(javax.swing.JTable,int) -> a
    int getMaxRowHeight(javax.swing.JTable) -> a
    void access$0(geogebra.gui.util.SelectionTable,int) -> a
    void access$1(geogebra.gui.util.SelectionTable,int) -> b
    int access$2(geogebra.gui.util.SelectionTable) -> a
    int access$3(geogebra.gui.util.SelectionTable) -> b
    java.lang.String[] access$4(geogebra.gui.util.SelectionTable) -> a
    java.lang.Object[] access$5(geogebra.gui.util.SelectionTable) -> a
    geogebra.common.gui.util.SelectionTable access$6(geogebra.gui.util.SelectionTable) -> a
    int access$7(geogebra.gui.util.SelectionTable) -> c
    geogebra.main.AppD access$8(geogebra.gui.util.SelectionTable) -> a
    boolean access$9(geogebra.gui.util.SelectionTable) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$util$SelectionTable() -> a
geogebra.gui.util.SelectionTable$MyCellRenderer -> geogebra.gui.l.u$a:
    javax.swing.border.Border normalBorder -> a
    javax.swing.border.Border selectedBorder -> b
    javax.swing.border.Border rollOverBorder -> c
    javax.swing.border.Border paddingBorder -> d
    java.awt.Color selectionColor -> a
    java.awt.Color rollOverColor -> b
    geogebra.gui.util.SelectionTable this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.util.SelectionTable$RollOverListener -> geogebra.gui.l.u$b:
    geogebra.gui.util.SelectionTable this$0 -> a
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
geogebra.gui.util.SpecialNumberFormat -> geogebra.gui.l.v:
    geogebra.main.AppD app -> a
    geogebra.gui.util.SpecialNumberFormatInterface invoker -> a
    javax.swing.JMenu menuDecimalPlaces -> a
    int printFigures -> a
    int printDecimals -> b
    int getPrintFigures() -> a
    int getPrintDecimals() -> b
    javax.swing.JMenu createMenuDecimalPlaces() -> a
    void updateMenuDecimalPlaces() -> a
    void addRadioButtonMenuItems(javax.swing.JMenu,java.awt.event.ActionListener,java.lang.String[],java.lang.String[],int) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.util.SpecialNumberFormatInterface -> geogebra.gui.l.w:
    void changedNumberFormat() -> y
geogebra.gui.util.SpringUtilities -> geogebra.gui.l.x:
    javax.swing.SpringLayout$Constraints getConstraintsForCell(int,int,java.awt.Container,int) -> a
    void makeCompactGrid(java.awt.Container,int,int,int,int,int,int) -> a
geogebra.gui.util.TextLineNumber -> geogebra.gui.l.y:
    javax.swing.border.Border OUTER -> a
    javax.swing.text.JTextComponent component -> a
    boolean updateFont -> a
    int borderGap -> a
    java.awt.Color currentLineForeground -> a
    float digitAlignment -> a
    int minimumDisplayDigits -> b
    int lastDigits -> c
    int lastHeight -> d
    int lastLine -> e
    java.util.HashMap fonts -> a
    void setBorderGap(int) -> a
    java.awt.Color getCurrentLineForeground() -> a
    void setCurrentLineForeground(java.awt.Color) -> a
    void setDigitAlignment(float) -> a
    void setMinimumDisplayDigits(int) -> b
    void setPreferredWidth() -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
    boolean isCurrentLine(int) -> a
    java.lang.String getTextLineNumber(int) -> a
    int getOffsetX(int,int) -> a
    int getOffsetY(int,java.awt.FontMetrics) -> a
    void caretUpdate(javax.swing.event.CaretEvent) -> caretUpdate
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void documentChanged() -> b
    void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange
    javax.swing.text.JTextComponent access$0(geogebra.gui.util.TextLineNumber) -> a
    int access$1(geogebra.gui.util.TextLineNumber) -> a
    void access$2(geogebra.gui.util.TextLineNumber) -> a
    void access$3(geogebra.gui.util.TextLineNumber,int) -> a
geogebra.gui.util.TextLineNumber$1 -> geogebra.gui.l.z:
    geogebra.gui.util.TextLineNumber this$0 -> a
    void run() -> run
geogebra.gui.view.CompressedAlgebraView -> geogebra.gui.m.a:
    int ups -> a
    javax.swing.Timer updateTimer -> a
    java.util.Set updateSet -> a
    java.awt.event.ActionListener updateListener -> a
    java.util.concurrent.locks.ReentrantLock lock -> a
    int rps -> b
    javax.swing.Timer repaintTimer -> b
    java.awt.event.ActionListener repaintListener -> b
    boolean needRepaint -> b
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateNow(geogebra.common.kernel.geos.GeoElement) -> g
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void repaintView() -> c
    void repaintNow() -> b
    void repaint() -> repaint
geogebra.gui.view.CompressedRepaintListener -> geogebra.gui.m.b:
    geogebra.gui.view.CompressedView view -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.CompressedUpdateListener -> geogebra.gui.m.c:
    javax.swing.Timer updateTimer -> a
    java.util.Set updateSet -> a
    geogebra.gui.view.CompressedView view -> a
    java.util.concurrent.locks.ReentrantLock lock -> a
    boolean isWorking -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.CompressedView -> geogebra.gui.m.d:
    void updateNow(geogebra.common.kernel.geos.GeoElement) -> g
    void repaintNow() -> b
geogebra.gui.view.Gridable -> geogebra.gui.m.e:
    int[] getGridColwidths() -> a
    int[] getGridRowHeights() -> b
    geogebra.main.AppD getApplication() -> b
    java.awt.Component[][] getPrintComponents() -> a
geogebra.gui.view.algebra.AlgebraContextMenuD -> geogebra.gui.m.a.a:
    geogebra.main.AppD app -> a
    void initItems() -> a
    geogebra.main.AppD access$0(geogebra.gui.view.algebra.AlgebraContextMenuD) -> a
geogebra.gui.view.algebra.AlgebraContextMenuD$1 -> geogebra.gui.m.a.b:
    geogebra.gui.view.algebra.AlgebraContextMenuD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.algebra.AlgebraContextMenuD$2 -> geogebra.gui.m.a.c:
    geogebra.gui.view.algebra.AlgebraContextMenuD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.view.algebra.AlgebraControllerD -> geogebra.gui.m.a.d:
    java.awt.dnd.DragSource ds -> a
    java.util.ArrayList geoLabelList -> a
    boolean checkDoubleClick(geogebra.common.kernel.geos.GeoElement,java.awt.event.MouseEvent) -> a
    boolean viewIsEditing() -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void setTree(geogebra.gui.view.algebra.AlgebraTree) -> a
    void enableDnD() -> a
    void dragDropEnd(java.awt.dnd.DragSourceDropEvent) -> dragDropEnd
    void dragEnter(java.awt.dnd.DragSourceDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DragSourceEvent) -> dragExit
    void dragOver(java.awt.dnd.DragSourceDragEvent) -> dragOver
    void dropActionChanged(java.awt.dnd.DragSourceDragEvent) -> dropActionChanged
    void dragGestureRecognized(java.awt.dnd.DragGestureEvent) -> dragGestureRecognized
    void euclidianViewClick(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.kernel.geos.GeoElement,java.awt.event.MouseEvent) -> a
    void highlight(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.kernel.geos.GeoElement) -> a
    void highlight(geogebra.common.euclidian.EuclidianViewInterfaceCommon,java.util.ArrayList) -> a
    boolean leftPressCanSelectGeo(java.awt.event.MouseEvent,geogebra.common.kernel.geos.GeoElement) -> a
    boolean isSelectionModeForClick(int) -> a
geogebra.gui.view.algebra.AlgebraControllerD$TransferableAlgebraView -> geogebra.gui.m.a.d$a:
    java.awt.datatransfer.DataFlavor algebraViewFlavor -> a
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    java.util.ArrayList geoLabelList -> a
    geogebra.gui.view.algebra.AlgebraControllerD this$0 -> a
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
geogebra.gui.view.algebra.AlgebraHelperBar -> geogebra.gui.m.a.e:
    geogebra.gui.view.algebra.AlgebraViewD algebraView -> a
    geogebra.main.AppD app -> a
    javax.swing.JButton toggleAuxiliary -> a
    geogebra.gui.util.PopupMenuButton toggleTypeTreeMode -> a
    javax.swing.JPopupMenu menu -> a
    geogebra.main.LocalizationD loc -> a
    void addButtons() -> a
    void update() -> b
    void updateStates() -> c
    void updateLabels() -> d
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void buildMenu() -> e
geogebra.gui.view.algebra.AlgebraHelperBar$1 -> geogebra.gui.m.a.f:
    geogebra.gui.view.algebra.AlgebraHelperBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.algebra.AlgebraHelperBar$2 -> geogebra.gui.m.a.g:
    geogebra.gui.view.algebra.AlgebraHelperBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.algebra.AlgebraHelperBar$3 -> geogebra.gui.m.a.h:
    geogebra.gui.view.algebra.AlgebraHelperBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.algebra.AlgebraHelperBar$4 -> geogebra.gui.m.a.i:
    geogebra.gui.view.algebra.AlgebraHelperBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.algebra.AlgebraInputDropTargetListener -> geogebra.gui.m.a.j:
    geogebra.main.AppD app -> a
    javax.swing.text.JTextComponent textComp -> a
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    boolean debug -> a
    java.lang.String textImport -> a
    void dragEnter(java.awt.dnd.DropTargetDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DropTargetEvent) -> dragExit
    void dragOver(java.awt.dnd.DropTargetDragEvent) -> dragOver
    void drop(java.awt.dnd.DropTargetDropEvent) -> drop
    void dropActionChanged(java.awt.dnd.DropTargetDragEvent) -> dropActionChanged
geogebra.gui.view.algebra.AlgebraTree -> geogebra.gui.m.a.k:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.algebra.MyRendererForAlgebraTree renderer -> a
    geogebra.gui.view.algebra.AlgebraTreeController algebraController -> a
    javax.swing.tree.DefaultTreeModel model -> a
    javax.swing.tree.DefaultMutableTreeNode rootType -> a
    java.util.HashMap typeNodesMap -> a
    java.util.HashMap nodeTable -> b
    boolean renderLaTeX -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$algebra$AlgebraView$SortMode -> a
    void initTree() -> d
    void initTreeCellRendererEditor() -> e
    geogebra.gui.view.algebra.MyRendererForAlgebraTree newMyRenderer(geogebra.main.AppD) -> a
    boolean isRenderLaTeX() -> a
    geogebra.common.gui.view.algebra.AlgebraView$SortMode getTreeMode() -> a
    void initModel() -> g
    void checkRemoveAuxiliaryNode() -> h
    void setLabels() -> x_
    void setTreeLabels() -> i
    void setToolTipText(java.lang.String) -> setToolTipText
    geogebra.common.kernel.geos.GeoElement getGeoElementForLocation(javax.swing.JTree,int,int) -> a
    geogebra.common.kernel.geos.GeoElement getGeoElementForPath(javax.swing.tree.TreePath) -> a
    java.util.ArrayList getGeoChildsForPath(javax.swing.tree.TreePath) -> a
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    boolean show(geogebra.common.kernel.geos.GeoElement) -> a
    void add(geogebra.common.kernel.geos.GeoElement,int) -> a
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void clearView() -> f
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void clearTree() -> m
    void removeFromModel(javax.swing.tree.DefaultMutableTreeNode,javax.swing.tree.DefaultTreeModel) -> a
    void removeFromModelForMode(javax.swing.tree.DefaultMutableTreeNode,javax.swing.tree.DefaultTreeModel) -> b
    boolean showAuxiliaryObjects() -> b
    javax.swing.tree.DefaultMutableTreeNode getRoot() -> a
    int[][] getIndices(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    java.util.ArrayList getGeosBetween(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    void addChilds(java.util.ArrayList,javax.swing.tree.DefaultMutableTreeNode,int,int) -> a
    javax.swing.tree.DefaultMutableTreeNode getParentNode(geogebra.common.kernel.geos.GeoElement,int) -> a
    int getInsertPosition(javax.swing.tree.DefaultMutableTreeNode,geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.algebra.AlgebraView$SortMode) -> a
    boolean compare(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.algebra.AlgebraView$SortMode) -> a
    int getIconShownHeight() -> b
    int getOpenIconHeight() -> c
    void updateFonts() -> n
    int[] $SWITCH_TABLE$geogebra$common$gui$view$algebra$AlgebraView$SortMode() -> c
geogebra.gui.view.algebra.AlgebraTreeController -> geogebra.gui.m.a.l:
    geogebra.gui.view.algebra.AlgebraTree tree -> a
    long lastMousePressedTime -> a
    boolean draggingOccured -> b
    void setTree(geogebra.gui.view.algebra.AlgebraTree) -> a
    boolean checkDoubleClick(geogebra.common.kernel.geos.GeoElement,java.awt.event.MouseEvent) -> a
    boolean isSelectionModeForClick(int) -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void euclidianViewClick(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.kernel.geos.GeoElement,java.awt.event.MouseEvent) -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void setMousePressed() -> b
    void rightPress(java.awt.event.MouseEvent,geogebra.common.awt.GPoint) -> a
    void leftPress(java.awt.event.MouseEvent) -> a
    boolean leftPressCanSelectGeo(java.awt.event.MouseEvent,geogebra.common.kernel.geos.GeoElement) -> a
    boolean setSelectedGeo(geogebra.common.kernel.geos.GeoElement) -> a
    java.util.ArrayList groupAction(java.awt.event.MouseEvent,javax.swing.tree.TreePath,boolean) -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    boolean viewIsEditing() -> a
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void highlight(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.kernel.geos.GeoElement) -> a
    void highlight(geogebra.common.euclidian.EuclidianViewInterfaceCommon,java.util.ArrayList) -> a
geogebra.gui.view.algebra.AlgebraViewD -> geogebra.gui.m.a.m:
    geogebra.gui.view.algebra.AlgebraViewD$MyDefaultTreeCellEditor editor -> a
    geogebra.gui.inputfield.MathTextField editTF -> a
    javax.swing.tree.DefaultMutableTreeNode rootDependency -> b
    javax.swing.tree.DefaultMutableTreeNode depNode -> d
    javax.swing.tree.DefaultMutableTreeNode indNode -> e
    javax.swing.tree.DefaultMutableTreeNode auxiliaryNode -> c
    javax.swing.tree.DefaultMutableTreeNode rootOrder -> f
    javax.swing.tree.DefaultMutableTreeNode rootLayer -> g
    java.util.HashMap layerNodesMap -> c
    geogebra.common.gui.view.algebra.AlgebraView$SortMode treeMode -> a
    geogebra.common.kernel.geos.GeoElement selectedGeoElement -> a
    javax.swing.tree.DefaultMutableTreeNode selectedNode -> h
    geogebra.gui.view.algebra.AlgebraHelperBar helperBar -> a
    boolean attached -> a
    java.lang.StringBuilder sbXML -> a
    java.util.ArrayList collapsedNodes -> a
    boolean showAuxiliaryObjectsSettings -> b
    boolean settingsChanged -> c
    int[] $SWITCH_TABLE$geogebra$common$gui$view$algebra$AlgebraView$SortMode -> a
    void initTree() -> d
    geogebra.gui.view.algebra.MyRendererForAlgebraTree newMyRenderer(geogebra.main.AppD) -> a
    void initModel() -> g
    void checkRemoveAuxiliaryNode() -> h
    void removeAuxiliaryNode() -> o
    void attachView() -> p
    void detachView() -> q
    void updateFonts() -> n
    void initTreeCellRendererEditor() -> e
    void clearSelection() -> clearSelection
    boolean showAuxiliaryObjects() -> b
    void setShowAuxiliaryObjects(boolean) -> a
    geogebra.common.gui.view.algebra.AlgebraView$SortMode getTreeMode() -> a
    int getTreeModeValue() -> d
    void setTreeMode(int) -> a
    void setTreeMode(geogebra.common.gui.view.algebra.AlgebraView$SortMode) -> a
    geogebra.gui.view.algebra.AlgebraHelperBar getHelperBar() -> a
    geogebra.gui.view.algebra.AlgebraHelperBar newAlgebraHelperBar() -> b
    void startEditing(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void setLabels() -> x_
    void setTreeLabels() -> i
    javax.swing.tree.DefaultMutableTreeNode getParentNode(geogebra.common.kernel.geos.GeoElement,int) -> a
    void clearTree() -> m
    javax.swing.tree.DefaultMutableTreeNode getRoot() -> a
    java.util.ArrayList getGeosBetween(geogebra.common.kernel.geos.GeoElement,geogebra.common.kernel.geos.GeoElement) -> a
    void repaintView() -> c
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void reset() -> j
    void removeFromModelForMode(javax.swing.tree.DefaultMutableTreeNode,javax.swing.tree.DefaultTreeModel) -> b
    void removeFromLayer(javax.swing.tree.DefaultTreeModel,int) -> a
    int getViewID() -> a
    geogebra.main.AppD getApplication() -> b
    int[] getGridColwidths() -> a
    int[] getGridRowHeights() -> b
    java.awt.Component[][] getPrintComponents() -> a
    void changeLayer(geogebra.common.kernel.geos.GeoElement,int,int) -> a
    boolean show(geogebra.common.kernel.geos.GeoElement) -> a
    void updateCollapsedNodesIndices() -> b
    void getXML(java.lang.StringBuilder,boolean) -> a
    void setCollapsedNodes(int[]) -> a
    void applySettings() -> r
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    javax.swing.tree.DefaultMutableTreeNode access$1(geogebra.gui.view.algebra.AlgebraViewD) -> a
    geogebra.common.kernel.geos.GeoElement access$2(geogebra.gui.view.algebra.AlgebraViewD) -> a
    void access$3(geogebra.gui.view.algebra.AlgebraViewD,geogebra.common.kernel.geos.GeoElement) -> a
    void access$4(geogebra.gui.view.algebra.AlgebraViewD,javax.swing.tree.DefaultMutableTreeNode) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$algebra$AlgebraView$SortMode() -> d
    geogebra.gui.inputfield.MathTextField access$6(geogebra.gui.view.algebra.AlgebraViewD) -> a
geogebra.gui.view.algebra.AlgebraViewD$1 -> geogebra.gui.m.a.n:
    geogebra.gui.view.algebra.AlgebraViewD this$0 -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
geogebra.gui.view.algebra.AlgebraViewD$MyDefaultTreeCellEditor -> geogebra.gui.m.a.m$a:
    geogebra.gui.view.algebra.AlgebraViewD this$0 -> a
    void editingCanceled(javax.swing.event.ChangeEvent) -> editingCanceled
    void editingStopped(javax.swing.event.ChangeEvent) -> editingStopped
    boolean isCellEditable(java.util.EventObject) -> isCellEditable
    void valueChanged(javax.swing.event.TreeSelectionEvent) -> valueChanged
    void storeSelection(javax.swing.tree.TreePath) -> a
    java.awt.Component getTreeCellEditorComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int) -> getTreeCellEditorComponent
geogebra.gui.view.algebra.AlgebraViewD$MyDefaultTreeCellEditor$WideEditorContainer -> geogebra.gui.m.a.m$a$a:
    javax.swing.JTree tree -> a
    javax.swing.tree.TreePath lastPath -> a
    int offset -> a
    java.awt.Component editingComponent -> a
    geogebra.gui.view.algebra.AlgebraViewD$MyDefaultTreeCellEditor this$1 -> a
    void doLayout() -> doLayout
    java.awt.Dimension getPreferredSize() -> getPreferredSize
    void updateContainer(javax.swing.JTree,javax.swing.tree.TreePath,int,java.awt.Component) -> a
geogebra.gui.view.algebra.InputPanelD -> geogebra.gui.m.a.o:
    geogebra.main.AppD app -> a
    javax.swing.text.JTextComponent textComponent -> a
    javax.swing.JPanel tfPanel -> a
    boolean showSymbolPopup -> a
    javax.swing.JScrollPane scrollPane -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$algebra$DialogType -> a
    void setTextAreaLineWrap(boolean) -> a
    void setShowLineNumbering(boolean) -> b
    javax.swing.text.JTextComponent getTextComponent() -> a
    java.lang.String getText() -> a
    java.lang.String getSelectedText() -> b
    void selectText() -> a
    void setText(java.lang.String) -> b
    void insertString(java.lang.String) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void showSpecialChars(boolean) -> c
    void updateFonts() -> b
    int[] $SWITCH_TABLE$geogebra$common$gui$view$algebra$DialogType() -> a
geogebra.gui.view.algebra.MyCellEditor -> geogebra.gui.m.a.p:
    geogebra.main.AppD app -> a
    java.awt.Component getTreeCellEditorComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int) -> getTreeCellEditorComponent
geogebra.gui.view.algebra.MyComboBoxListener -> geogebra.gui.m.a.q:
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed(java.lang.Object) -> a
geogebra.gui.view.algebra.MyRendererForAlgebraTree -> geogebra.gui.m.a.r:
    geogebra.main.AppD app -> a
    geogebra.gui.view.algebra.AlgebraTree view -> a
    geogebra.common.kernel.Kernel kernel -> a
    javax.swing.ImageIcon iconShown -> a
    javax.swing.ImageIcon iconHidden -> b
    javax.swing.ImageIcon latexIcon -> c
    java.lang.String latexStr -> a
    java.awt.Font latexFont -> a
    void update() -> a
    java.lang.String getDescription(geogebra.common.kernel.geos.GeoElement) -> a
    java.awt.Component getTreeCellRendererComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int,boolean) -> getTreeCellRendererComponent
    java.lang.String getAlgebraDescriptionTextOrHTML(geogebra.common.kernel.geos.GeoElement) -> b
    javax.swing.ImageIcon joinIcons(javax.swing.ImageIcon,javax.swing.ImageIcon) -> a
    void setFont(java.awt.Font) -> setFont
    javax.swing.ImageIcon getIconShown() -> a
    void setIconShown(javax.swing.ImageIcon) -> a
    javax.swing.ImageIcon getIconHidden() -> b
    void setIconHidden(javax.swing.ImageIcon) -> b
geogebra.gui.view.algebra.MyRendererForAlgebraView -> geogebra.gui.m.a.s:
    java.lang.String getDescription(geogebra.common.kernel.geos.GeoElement) -> a
geogebra.gui.view.assignment.AssignmentView -> geogebra.gui.m.b.a:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    void attachView() -> a
    void detachView() -> b
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void reset() -> j
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int getViewID() -> a
    int[] getGridColwidths() -> a
    int[] getGridRowHeights() -> b
    geogebra.main.AppD getApplication() -> b
    java.awt.Component[][] getPrintComponents() -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu -> geogebra.gui.m.c.a:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Construction cons -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD constprotView -> a
    void initItems() -> a
geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu$1 -> geogebra.gui.m.c.b:
    geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu$2 -> geogebra.gui.m.c.c:
    geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu$3 -> geogebra.gui.m.c.d:
    geogebra.gui.view.consprotocol.ConstructionProtocolContextMenu this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD -> geogebra.gui.m.c.e:
    javax.swing.JButton btFirst -> b
    javax.swing.JButton btPrev -> c
    javax.swing.JButton btNext -> d
    javax.swing.JButton btLast -> e
    javax.swing.JButton btOpenWindow -> f
    javax.swing.JButton btPlay -> a
    javax.swing.JLabel lbSteps -> a
    javax.swing.JSpinner spDelay -> a
    geogebra.main.AppD app -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD prot -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD$AutomaticPlayer player -> a
    javax.swing.JPanel implPanel -> a
    geogebra.main.LocalizationD loc -> a
    javax.swing.JPanel getImpl() -> a
    void setConsProtButtonVisible(boolean) -> b
    void setPlayDelay(double) -> a
    void initGUI() -> c
    void setLabels() -> x_
    void update() -> b
    void register(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setComponentsEnabled(boolean) -> d
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void setVisible(boolean) -> a
    void updateIcons() -> d
    geogebra.main.LocalizationD access$0(geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD$1 -> geogebra.gui.m.c.f:
    geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD$2 -> geogebra.gui.m.c.g:
    geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD$AutomaticPlayer -> geogebra.gui.m.c.e$a:
    javax.swing.Timer timer -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD this$0 -> a
    void startAnimation() -> a
    void stopAnimation() -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar -> geogebra.gui.m.c.h:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD cpView -> a
    geogebra.main.AppD app -> a
    geogebra.gui.util.PopupMenuButton btnColumns -> a
    geogebra.gui.util.PopupMenuButton btnOptions -> b
    javax.swing.JButton btnExport -> a
    javax.swing.JButton btnPrint -> b
    javax.swing.JButton btnHelp -> c
    javax.swing.JCheckBoxMenuItem miShowOnlyBreakpoints -> a
    javax.swing.JCheckBoxMenuItem miColorfulConstructionProtocol -> b
    geogebra.common.main.Localization loc -> a
    void addButtons() -> a
    void setLabels() -> b
    void reinit() -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$1 -> geogebra.gui.m.c.i:
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar this$0 -> a
    boolean prepareToShowPopup() -> a
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$2 -> geogebra.gui.m.c.j:
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar this$0 -> a
    boolean prepareToShowPopup() -> a
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$3 -> geogebra.gui.m.c.k:
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$4 -> geogebra.gui.m.c.l:
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$5 -> geogebra.gui.m.c.m:
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar access$0(geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$5) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$5$1 -> geogebra.gui.m.c.n:
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar$5 this$1 -> a
    void run() -> run
geogebra.gui.view.consprotocol.ConstructionProtocolViewD -> geogebra.gui.m.c.o:
    java.awt.Color COLOR_STEP_HIGHLIGHT -> a
    java.awt.Color COLOR_DRAG_HIGHLIGHT -> b
    java.awt.Color COLOR_DROP_HIGHLIGHT -> c
    javax.swing.JTable table -> a
    javax.swing.JPanel cpPanel -> a
    javax.swing.table.TableColumn[] tableColumns -> a
    boolean dragging -> d
    int dragIndex -> a
    int dropIndex -> b
    geogebra.gui.view.consprotocol.ConstructionProtocolNavigationD protNavBar -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD view -> a
    javax.swing.JScrollPane scrollPane -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar helperBar -> a
    javax.swing.AbstractAction exportHtmlAction -> a
    javax.swing.AbstractAction printPreviewAction -> b
    javax.swing.JPanel getCpPanel() -> a
    geogebra.main.AppD getApplication() -> a
    void updateNavigationBars() -> b
    void repaint() -> g
    void initGUI() -> i
    void setUseColors(boolean) -> a
    void setAddIcons(boolean) -> b
    boolean getAddIcons() -> a
    void update() -> j
    javax.swing.table.TableColumn[] getTableColumns() -> a
    boolean getUseColors() -> b
    boolean isColumnInModel(javax.swing.table.TableColumn) -> a
    void scrollToConstructionStep() -> h
    javax.swing.JTable getTable() -> a
    javax.swing.AbstractAction getExportHtmlAction() -> a
    javax.swing.AbstractAction getPrintPreviewAction() -> b
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar getStyleBar() -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolStyleBar newConstructionProtocolHelperBar() -> b
    void initActions() -> k
    int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print
    java.lang.String getHTML(java.io.File,java.lang.String) -> a
    boolean appendBase64(geogebra.main.AppD,java.lang.StringBuilder) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    void setColsVisibility(boolean[]) -> a
    void setLabels() -> x_
    geogebra.common.main.App access$0(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD access$1(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> a
    boolean access$2(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> a
    void access$3(geogebra.gui.view.consprotocol.ConstructionProtocolViewD,int) -> a
    int access$4(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> a
    void access$5(geogebra.gui.view.consprotocol.ConstructionProtocolViewD,boolean) -> a
    boolean access$6(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> b
    java.awt.Color access$7() -> a
    java.awt.Color access$8() -> b
    javax.swing.table.TableColumn[] access$9(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> a
    boolean access$10(geogebra.gui.view.consprotocol.ConstructionProtocolViewD) -> c
    void access$11(geogebra.gui.view.consprotocol.ConstructionProtocolViewD,boolean) -> b
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$1 -> geogebra.gui.m.c.p:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD access$0(geogebra.gui.view.consprotocol.ConstructionProtocolViewD$1) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$1$1 -> geogebra.gui.m.c.q:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD$1 this$1 -> a
    void run() -> run
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$2 -> geogebra.gui.m.c.r:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD access$0(geogebra.gui.view.consprotocol.ConstructionProtocolViewD$2) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$2$1 -> geogebra.gui.m.c.s:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD$2 this$1 -> a
    void run() -> run
    java.lang.String tableHeader(geogebra.common.kernel.Construction) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ColumnKeeper -> geogebra.gui.m.c.o$a:
    javax.swing.table.TableColumn column -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ColumnData colData -> a
    boolean isBreakPointColumn -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionKeyListener -> geogebra.gui.m.c.o$b:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionMouseListener -> geogebra.gui.m.c.o$c:
    int minIndex -> a
    int maxIndex -> b
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableCellEditor -> geogebra.gui.m.c.o$d:
    geogebra.gui.view.algebra.InputPanelD inputPanel -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    boolean stopCellEditing() -> stopCellEditing
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableCellRenderer -> geogebra.gui.m.c.o$e:
    javax.swing.JCheckBox cbTemp -> a
    javax.swing.JLabel iTemp -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData -> geogebra.gui.m.c.o$f:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData$MyGAbstractTableModel ctDataImpl -> a
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    geogebra.common.javax.swing.table.GAbstractTableModel getImpl() -> a
    boolean moveInConstructionList(int,int) -> b
    geogebra.common.kernel.geos.GeoElement getGeoElement(int) -> a
    void detachView() -> g
    java.awt.Color getColorAt(int,int) -> a
    java.lang.Object getValueAt(int,int) -> a
    java.lang.String getPlainHTMLAt(int,int,java.lang.String) -> a
    java.awt.image.BufferedImage toBufferedImage(java.awt.Image) -> a
    void repaint() -> h
    void updateAll() -> d
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void reset() -> j
    void setValueAt(java.lang.Object,int,int) -> a
    int getViewID() -> a
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
    void fireTableRowsDeleted(int,int) -> a
    void fireTableRowsInserted(int,int) -> b
    int access$0(geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData) -> a
    void access$1(geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData,int) -> a
    geogebra.common.gui.view.consprotocol.ConstructionProtocolView$ConstructionTableData access$2(geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData) -> a
    java.awt.Color access$3(geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData,int,int) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData$ColumnMovementListener -> geogebra.gui.m.c.o$f$a:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData this$1 -> a
    void columnAdded(javax.swing.event.TableColumnModelEvent) -> columnAdded
    void columnRemoved(javax.swing.event.TableColumnModelEvent) -> columnRemoved
    void columnMarginChanged(javax.swing.event.ChangeEvent) -> columnMarginChanged
    void columnMoved(javax.swing.event.TableColumnModelEvent) -> columnMoved
    void columnSelectionChanged(javax.swing.event.ListSelectionEvent) -> columnSelectionChanged
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData$MyGAbstractTableModel -> geogebra.gui.m.c.o$f$b:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD$ConstructionTableData this$1 -> a
    int getRowCount() -> a
    java.lang.Object getValueAt(int,int) -> a
    int getColumnCount() -> b
    boolean isCellEditable(int,int) -> a
    void setValueAt(java.lang.Object,int,int) -> a
geogebra.gui.view.consprotocol.ConstructionProtocolViewD$HeaderRenderer -> geogebra.gui.m.c.o$g:
    geogebra.gui.view.consprotocol.ConstructionProtocolViewD this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.data.ANOVATable -> geogebra.gui.m.d.a:
    void updatePanel() -> a
    java.util.ArrayList getCategoryData(geogebra.common.kernel.geos.GeoList) -> a
    geogebra.gui.view.data.ANOVATable$AnovaStats anovaStats(java.util.Collection) -> a
geogebra.gui.view.data.ANOVATable$AnovaStats -> geogebra.gui.m.d.a$a:
    int dfbg -> a
    int dfwg -> b
    double F -> a
    double ssbg -> b
    double sswg -> c
    double sst -> d
    double msbg -> e
    double mswg -> f
    double P -> g
    int access$0(geogebra.gui.view.data.ANOVATable$AnovaStats) -> a
    int access$1(geogebra.gui.view.data.ANOVATable$AnovaStats) -> b
    double access$2(geogebra.gui.view.data.ANOVATable$AnovaStats) -> a
    double access$3(geogebra.gui.view.data.ANOVATable$AnovaStats) -> b
    double access$4(geogebra.gui.view.data.ANOVATable$AnovaStats) -> c
    double access$5(geogebra.gui.view.data.ANOVATable$AnovaStats) -> d
    double access$6(geogebra.gui.view.data.ANOVATable$AnovaStats) -> e
    double access$7(geogebra.gui.view.data.ANOVATable$AnovaStats) -> f
    double access$8(geogebra.gui.view.data.ANOVATable$AnovaStats) -> g
geogebra.gui.view.data.BasicStatTable -> geogebra.gui.m.d.b:
    geogebra.common.gui.view.data.StatTableModel model -> a
    geogebra.gui.view.data.DataAnalysisViewD daView -> a
    geogebra.gui.view.data.StatTable statTable -> a
    geogebra.main.AppD app -> a
    void setModel(geogebra.common.gui.view.data.StatTableModel) -> a
    void initStatTable() -> b
    void updatePanel() -> a
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> c
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    geogebra.common.kernel.geos.GeoElement getRegressionModel() -> a
    geogebra.common.gui.view.data.DataAnalysisModel$Regression getRegressionMode() -> a
    boolean isValidData() -> b
    void setValueAt(double,int,int) -> a
    boolean isViewValid() -> c
    int getMode() -> a
    geogebra.common.gui.view.data.DataVariable$GroupType groupType() -> a
    boolean isNumericData() -> d
    geogebra.main.AppD getApp() -> a
    geogebra.common.gui.view.data.StatTableModel getModel() -> a
geogebra.gui.view.data.DataAnalysisControllerD -> geogebra.gui.m.d.c:
    geogebra.gui.view.data.DataAnalysisViewD view -> a
    void updateAllPanels(boolean) -> d
    void updateRegressionPanel() -> a
    void clearPredictionPanel() -> c
    void removeGeos() -> j
geogebra.gui.view.data.DataAnalysisStyleBar -> geogebra.gui.m.d.d:
    geogebra.main.AppD app -> a
    geogebra.gui.view.data.DataAnalysisViewD daView -> a
    int iconHeight -> a
    javax.swing.JButton btnRounding -> a
    javax.swing.JButton btnPrint -> b
    geogebra.gui.util.MyToggleButton btnShowStatistics -> a
    geogebra.gui.util.MyToggleButton btnShowPlot2 -> b
    geogebra.gui.util.MyToggleButton btnShowData -> c
    geogebra.gui.util.MyToggleButton btnDataSource -> d
    geogebra.gui.inputfield.MyTextField fldDataSource -> a
    geogebra.gui.util.MyToggleButton btnExport -> e
    geogebra.gui.util.MyToggleButton btnSwapXY -> f
    void createGUI() -> d
    void reinit() -> a
    void updateGUI() -> b
    javax.swing.JPanel createDataSourcePanel() -> a
    void buildRoundingButton() -> e
    void setLabels() -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataAnalysisViewD -> geogebra.gui.m.d.e:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.data.DataAnalysisModel model -> a
    geogebra.gui.view.data.DataAnalysisControllerD daCtrl -> a
    geogebra.gui.view.data.DataAnalysisStyleBar stylebar -> a
    java.awt.Color TABLE_GRID_COLOR -> a
    java.awt.Color TABLE_HEADER_COLOR -> b
    java.awt.Color HISTOGRAM_COLOR -> c
    java.awt.Color BOXPLOT_COLOR -> d
    java.awt.Color BARCHART_COLOR -> e
    java.awt.Color DOTPLOT_COLOR -> f
    java.awt.Color NQPLOT_COLOR -> g
    java.awt.Color REGRESSION_COLOR -> h
    java.awt.Color OVERLAY_COLOR -> i
    java.awt.Color[] colors -> a
    geogebra.gui.view.data.DataPanel dataPanel -> a
    geogebra.gui.view.data.StatisticsPanel statisticsPanel -> a
    geogebra.gui.view.data.RegressionPanel regressionPanel -> a
    geogebra.gui.view.data.DataDisplayPanel dataDisplayPanel1 -> a
    geogebra.gui.view.data.DataDisplayPanel dataDisplayPanel2 -> b
    javax.swing.JSplitPane statDataPanel -> a
    javax.swing.JSplitPane displayPanel -> b
    javax.swing.JSplitPane comboPanelSplit -> c
    javax.swing.JPanel mainPanel -> a
    int defaultDividerSize -> a
    void setView(geogebra.common.gui.view.data.DataSource,int,boolean) -> a
    javax.swing.JComponent getStyleBar() -> a
    void buildStatisticsPanel() -> p
    void setPlotPanelOVNotNumeric(int) -> a
    void setPlotPanelOVRawData(int) -> b
    void setPlotPanelOVFrequency(int) -> c
    void setPlotPanelOVClass(int) -> d
    void setPlotPanelRegression(int) -> e
    void setPlotPanelMultiVar(int) -> f
    void setDataPlotPanels() -> g
    geogebra.gui.view.data.DataPanel buildDataPanel() -> a
    void loadDataTable(java.util.ArrayList) -> a
    geogebra.gui.view.data.DataPanel getDataPanel() -> b
    void updateLayout() -> q
    void showMainPanel() -> h
    geogebra.common.gui.view.data.DataSource getDataSource() -> a
    geogebra.common.gui.view.data.DataVariable$GroupType groupType() -> a
    geogebra.gui.view.data.DataDisplayPanel getDataDisplayPanel1() -> a
    geogebra.gui.view.data.DataDisplayPanel getDataDisplayPanel2() -> b
    geogebra.gui.view.data.RegressionPanel getRegressionPanel() -> a
    geogebra.gui.view.data.StatisticsPanel getStatisticsPanel() -> a
    javax.swing.JComponent getDataAnalysisViewComponent() -> b
    geogebra.gui.view.data.DataAnalysisControllerD getController() -> a
    geogebra.common.kernel.geos.GeoElement getRegressionModel() -> a
    geogebra.main.AppD getApp() -> a
    void updateStatDataPanelVisibility() -> d
    void doPrint() -> i
    void updateGUI() -> e
    void updateFonts() -> m
    void setFontRecursive(java.awt.Container,java.awt.Font) -> a
    void setLabels() -> x_
    void setLabelsRecursive(java.awt.Container) -> a
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void clearView() -> f
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void repaintView() -> c
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void reset() -> j
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void attachView() -> n
    void detachView() -> o
    java.lang.String[] getDataTitles() -> a
    int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print
    void paint(java.awt.Graphics,double) -> a
    int getViewID() -> a
    javax.swing.JPopupMenu getExportMenu() -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    geogebra.common.gui.view.data.DataAnalysisModel getModel() -> a
    void onModeChange() -> b
    void showComboPanel2(boolean) -> a
    java.lang.String format(double) -> a
    geogebra.common.awt.GColor createColor(int) -> a
    void updateOtherDataDisplay(geogebra.gui.view.data.DataDisplayPanel) -> a
geogebra.gui.view.data.DataDisplayPanel -> geogebra.gui.m.d.f:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.common.gui.view.data.DataDisplayModel model -> a
    javax.swing.JPanel displayCardPanel -> a
    javax.swing.JPanel metaPlotPanel -> b
    javax.swing.JPanel plotPanelNorth -> c
    javax.swing.JPanel plotPanelSouth -> d
    geogebra.gui.view.data.PlotPanelEuclidianViewD plotPanel -> a
    javax.swing.JLabel imageContainer -> a
    javax.swing.JPanel controlPanel -> e
    javax.swing.JPanel controlCards -> f
    boolean hasControlPanel -> a
    javax.swing.JComboBox cbDisplayType -> a
    geogebra.gui.view.data.OptionsPanel optionsPanel -> a
    javax.swing.JToggleButton btnOptions -> a
    javax.swing.JPanel numClassesPanel -> g
    javax.swing.JSlider sliderNumClasses -> a
    javax.swing.JToolBar manualClassesPanel -> a
    javax.swing.JLabel lblStart -> b
    javax.swing.JLabel lblWidth -> c
    geogebra.gui.inputfield.AutoCompleteTextFieldD fldStart -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD fldWidth -> b
    javax.swing.JToolBar stemAdjustPanel -> b
    javax.swing.JLabel lblAdjust -> d
    javax.swing.JButton minus -> a
    javax.swing.JButton none -> b
    javax.swing.JButton plus -> c
    javax.swing.JPanel imagePanel -> h
    javax.swing.JLabel lblTitleX -> e
    javax.swing.JLabel lblTitleY -> f
    geogebra.gui.inputfield.MyTextField fldTitleX -> a
    geogebra.gui.inputfield.MyTextField fldTitleY -> b
    geogebra.gui.view.data.FrequencyTablePanel frequencyTable -> a
    javax.swing.JToggleButton btnExport -> b
    javax.swing.JTextField fldNumClasses -> a
    geogebra.common.gui.view.data.DataAnalysisModel daModel -> a
    geogebra.gui.view.data.DataAnalysisViewD daView -> a
    javax.swing.AbstractAction exportToEVAction -> a
    void setPanel(geogebra.common.gui.view.data.DataDisplayModel$PlotType,int) -> a
    void updateIcons() -> l
    void createGUI() -> q
    void setLabels() -> c
    void createDisplayTypeComboBox() -> r
    void createImagePanel() -> s
    void createNumClassesPanel() -> t
    void createStemPlotAdjustmentPanel() -> u
    void createManualClassesPanel() -> v
    javax.swing.JPopupMenu getExportMenu() -> a
    void showControlPanel() -> y_
    void setOptionsButtonVisible() -> d
    void showInvalidDataDisplay() -> e
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(java.lang.Object) -> a
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void detachView() -> m
    void attachView() -> n
    javax.swing.JPanel flowPanel(javax.swing.JComponent[]) -> a
    javax.swing.JPanel flowPanelRight(javax.swing.JComponent[]) -> b
    void updateFonts(java.awt.Font) -> a
    void addDisplayTypeItem(geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> a
    void updateOtherDataDisplay() -> o
    void updateScatterPlot() -> a
    void updateFrequencyTable() -> b
    void removeFrequencyTable() -> j
    void setSelectedType(geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> b
    void setTableFromGeoFrequencyTable(geogebra.common.kernel.statistics.AlgoFrequencyTable,boolean) -> a
    void updatePlotPanelSettings() -> f
    void showCardPanel(javax.swing.JPanel,java.lang.String) -> a
    void showManualClassesPanel() -> g
    void showNumClassesPanel() -> h
    void showPlotPanel() -> i
    void updateStemPlot(java.lang.String) -> a
    void updateXYTitles(boolean,boolean) -> a
    void geoToPlotPanel(geogebra.common.kernel.geos.GeoElement) -> a
    geogebra.common.gui.view.data.DataDisplayModel getModel() -> a
    void setModel(geogebra.common.gui.view.data.DataDisplayModel) -> a
    void resize() -> k
    void update() -> p
    geogebra.main.AppD access$0(geogebra.gui.view.data.DataDisplayPanel) -> a
    javax.swing.JTextField access$1(geogebra.gui.view.data.DataDisplayPanel) -> a
geogebra.gui.view.data.DataDisplayPanel$1 -> geogebra.gui.m.d.g:
    geogebra.gui.view.data.DataDisplayPanel this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataDisplayPanel$2 -> geogebra.gui.m.d.h:
    geogebra.gui.view.data.DataDisplayPanel this$0 -> a
    void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange
geogebra.gui.view.data.DataDisplayPanel$3 -> geogebra.gui.m.d.i:
    geogebra.gui.view.data.DataDisplayPanel this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.view.data.DataDisplayPanel$4 -> geogebra.gui.m.d.j:
    geogebra.gui.view.data.DataDisplayPanel this$0 -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.view.data.DataDisplayPanel$MyRenderer -> geogebra.gui.m.d.f$a:
    javax.swing.JSeparator separator -> a
    geogebra.main.AppD app -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.data.DataPanel -> geogebra.gui.m.d.k:
    geogebra.main.AppD app -> a
    geogebra.gui.view.data.DataAnalysisViewD daView -> a
    geogebra.gui.view.data.DataAnalysisControllerD statController -> a
    javax.swing.JTable dataTable -> a
    javax.swing.JButton btnEnableAll -> a
    geogebra.gui.view.data.DataPanel$MyRowHeader rowHeader -> a
    geogebra.gui.view.data.DataPanel$MyColumnHeaderRenderer columnHeader -> a
    javax.swing.JScrollPane scrollPane -> a
    java.lang.Boolean[] selectionList -> a
    javax.swing.JLabel lblHeader -> a
    int preferredColumnWidth -> a
    geogebra.main.LocalizationD loc -> a
    java.awt.Color DISABLED_BACKGROUND_COLOR -> a
    java.awt.Color SELECTED_BACKGROUND_COLOR_HEADER -> b
    java.awt.Color TABLE_GRID_COLOR -> c
    java.awt.Color TABLE_HEADER_COLOR -> d
    void buildDataTable() -> b
    void createGUI() -> d
    void setLabels() -> c
    void updatePanel() -> a
    void updateFonts(java.awt.Font) -> a
    java.lang.Boolean[] updateSelectionList(java.util.ArrayList) -> a
    void populateDataTable(java.util.ArrayList) -> b
    void loadDataTable(java.util.ArrayList) -> a
    void setFont(java.awt.Font) -> setFont
    void setRowHeight() -> e
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    java.awt.Color access$0() -> a
    java.awt.Color access$1() -> b
    geogebra.main.AppD access$2(geogebra.gui.view.data.DataPanel) -> a
    java.lang.Boolean[] access$3(geogebra.gui.view.data.DataPanel) -> a
    java.awt.Color access$4() -> c
    geogebra.gui.view.data.DataAnalysisControllerD access$5(geogebra.gui.view.data.DataPanel) -> a
    javax.swing.JButton access$6(geogebra.gui.view.data.DataPanel) -> a
    geogebra.gui.view.data.DataPanel$MyRowHeader access$7(geogebra.gui.view.data.DataPanel) -> a
geogebra.gui.view.data.DataPanel$1 -> geogebra.gui.m.d.l:
    geogebra.gui.view.data.DataPanel this$0 -> a
    boolean isCellEditable(int,int) -> isCellEditable
    void configureEnclosingScrollPane() -> configureEnclosingScrollPane
geogebra.gui.view.data.DataPanel$CheckBoxIcon -> geogebra.gui.m.d.k$a:
    java.awt.Color highlightBackground -> a
    int csize -> a
    void paintIcon(boolean,boolean,java.awt.Graphics,int,int) -> a
    javax.swing.ImageIcon createCheckBoxImageIcon(boolean,boolean) -> a
geogebra.gui.view.data.DataPanel$Corner -> geogebra.gui.m.d.k$b:
    geogebra.gui.view.data.DataPanel this$0 -> a
    void paintComponent(java.awt.Graphics) -> paintComponent
geogebra.gui.view.data.DataPanel$MyCellRenderer -> geogebra.gui.m.d.k$c:
    geogebra.gui.view.data.DataPanel this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.data.DataPanel$MyColumnHeaderRenderer -> geogebra.gui.m.d.k$d:
    geogebra.gui.view.data.DataPanel this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.data.DataPanel$MyRowHeader -> geogebra.gui.m.d.k$e:
    javax.swing.JTable table -> a
    geogebra.gui.view.data.DataPanel dataPanel -> a
    geogebra.gui.view.data.DataPanel this$0 -> b
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void enableAll() -> a
    boolean isAllEnabled() -> a
geogebra.gui.view.data.DataPanel$MyRowHeader$RowHeaderRenderer -> geogebra.gui.m.d.k$e$a:
    javax.swing.ImageIcon iconChecked -> a
    javax.swing.ImageIcon iconUnChecked -> b
    geogebra.gui.view.data.DataPanel$MyRowHeader this$1 -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.data.DataSourceDialog -> geogebra.gui.m.d.m:
    geogebra.main.AppD app -> a
    int mode -> a
    geogebra.gui.view.data.DataSourcePanel dataSourcePanel -> a
    javax.swing.JButton btnCancel -> a
    javax.swing.JButton btnOK -> b
    javax.swing.JLabel lblTitle -> a
    void createGUI() -> b
    void setVisible(boolean) -> setVisible
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> a
    void updateDialog(int,boolean) -> a
    void setLocation() -> c
geogebra.gui.view.data.DataSourcePanel -> geogebra.gui.m.d.n:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.gui.view.data.DataAnalysisViewD dataView -> a
    javax.swing.JDialog invoker -> a
    geogebra.common.gui.view.data.DataSource dataSource -> a
    geogebra.gui.view.data.StatTable sourceTable -> a
    javax.swing.JPanel mainPanel -> a
    javax.swing.JPanel classesPanel -> b
    javax.swing.JPanel controlPanel -> c
    javax.swing.JLabel lblTitle -> a
    javax.swing.JLabel lblStart -> b
    javax.swing.JLabel lblWidth -> c
    geogebra.gui.view.data.DataSourcePanel$MyButton btnAdd -> a
    geogebra.gui.view.data.DataSourcePanel$MyButton btnClear -> b
    geogebra.gui.view.data.DataSourcePanel$MyButton btnDelete -> c
    geogebra.gui.view.data.DataSourcePanel$MyButton btnOptions -> d
    geogebra.gui.inputfield.MyTextField fldStart -> a
    geogebra.gui.inputfield.MyTextField fldWidth -> b
    double classStart -> a
    double classWidth -> b
    int mode -> b
    int btnHoverColumn -> a
    java.lang.String[] columnDataTitles -> a
    int selectedVarIndex() -> a
    java.lang.String[] getColumnDataTitles() -> a
    void updatePanel(int,boolean) -> a
    void buildGUI() -> d
    void createGUIElements() -> e
    void updateIcons() -> f
    void buildMainPanel() -> g
    void buildControlPanel() -> h
    void buildClassesPanel() -> i
    void setLabels() -> a
    void updateGUI() -> b
    void createSourceTable() -> j
    void setTableDimension(javax.swing.JTable) -> a
    void loadSourceTableFromDataSource() -> k
    void addDataToColumn(int) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(java.lang.Object) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts(java.awt.Font) -> a
    void applySettings() -> c
    void setColumnHeaders(javax.swing.JTable) -> b
    javax.swing.JTable table() -> a
    javax.swing.JPopupMenu getOptionsMenu() -> a
    geogebra.main.AppD access$0(geogebra.gui.view.data.DataSourcePanel) -> a
    int access$1(geogebra.gui.view.data.DataSourcePanel) -> a
geogebra.gui.view.data.DataSourcePanel$1 -> geogebra.gui.m.d.o:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    void tableChanged(javax.swing.event.TableModelEvent) -> tableChanged
geogebra.gui.view.data.DataSourcePanel$10 -> geogebra.gui.m.d.p:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    javax.swing.JCheckBoxMenuItem val$itmHeader -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$2 -> geogebra.gui.m.d.q:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.gui.view.data.DataSourcePanel$3 -> geogebra.gui.m.d.r:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$4 -> geogebra.gui.m.d.s:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$5 -> geogebra.gui.m.d.t:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    javax.swing.JCheckBoxMenuItem val$itmRawData -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$6 -> geogebra.gui.m.d.u:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    javax.swing.JCheckBoxMenuItem val$itmFrequency -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$7 -> geogebra.gui.m.d.v:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    javax.swing.JCheckBoxMenuItem val$itmClass -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$8 -> geogebra.gui.m.d.w:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$9 -> geogebra.gui.m.d.x:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    geogebra.common.gui.view.data.DataVariable val$var -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.data.DataSourcePanel$ColumnHeaderMouseListener -> geogebra.gui.m.d.n$a:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.view.data.DataSourcePanel$ColumnHeaderMouseMotionListener -> geogebra.gui.m.d.n$b:
    javax.swing.table.JTableHeader header -> a
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
geogebra.gui.view.data.DataSourcePanel$MyButton -> geogebra.gui.m.d.n$c:
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
geogebra.gui.view.data.DataSourcePanel$MyTableHeaderRenderer -> geogebra.gui.m.d.n$d:
    javax.swing.JLabel lblDataDescription -> a
    javax.swing.JLabel lblDataTitle -> b
    javax.swing.JLabel lblImportBtn -> c
    javax.swing.border.Border headerBorder -> a
    java.awt.Font font -> a
    javax.swing.ImageIcon importIcon -> a
    javax.swing.ImageIcon importIconRollover -> b
    java.awt.Rectangle rect -> a
    geogebra.gui.view.data.DataSourcePanel this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
    boolean isOverTraceButton(int,java.awt.Point,java.lang.Object) -> a
geogebra.gui.view.data.FrequencyTablePanel -> geogebra.gui.m.d.y:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.data.StatTable statTable -> a
    void setTableFromGeoFrequencyTable(geogebra.common.kernel.statistics.AlgoFrequencyTable,boolean) -> a
    void setTableSize() -> a
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> c
geogebra.gui.view.data.MultiVarStatPanel -> geogebra.gui.m.d.z:
    boolean isMinimalTable -> a
    void setMinimalTable(boolean) -> a
    void updatePanel() -> a
    java.lang.String[] getDataTitles() -> a
    boolean isMinimalTable() -> a
geogebra.gui.view.data.OneVarInferencePanel -> geogebra.gui.m.d.A:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.data.DataAnalysisViewD statDialog -> a
    geogebra.gui.view.data.StatTable resultTable -> a
    javax.swing.JLabel lblHypParameter -> a
    javax.swing.JLabel lblTailType -> b
    javax.swing.JLabel lblNull -> c
    javax.swing.JLabel lblConfLevel -> d
    javax.swing.JLabel lblSigma -> e
    javax.swing.JLabel lblResultHeader -> f
    javax.swing.JButton btnCalculate -> a
    geogebra.gui.inputfield.MyTextField fldNullHyp -> a
    geogebra.gui.inputfield.MyTextField fldConfLevel -> b
    geogebra.gui.inputfield.MyTextField fldSigma -> c
    javax.swing.JRadioButton btnLeft -> a
    javax.swing.JRadioButton btnRight -> b
    javax.swing.JRadioButton btnTwo -> c
    javax.swing.JComboBox cbAltHyp -> a
    javax.swing.JPanel testPanel -> a
    javax.swing.JPanel intPanel -> b
    javax.swing.JPanel mainPanel -> c
    javax.swing.JPanel resultPanel -> d
    javax.swing.Box sigmaPanel -> a
    int fieldWidth -> a
    java.lang.String tail -> a
    double confLevel -> j
    double hypMean -> k
    double sigma -> l
    double testStat -> a
    double P -> b
    double df -> c
    double lower -> d
    double upper -> e
    double mean -> f
    double se -> g
    double me -> h
    double N -> i
    org.apache.commons.math.stat.inference.TTestImpl tTestImpl -> a
    org.apache.commons.math.distribution.TDistributionImpl tDist -> a
    org.apache.commons.math.distribution.NormalDistributionImpl normalDist -> a
    boolean isIniting -> a
    boolean isTest -> b
    boolean isZProcedure -> c
    int selectedPlot -> b
    geogebra.main.LocalizationD loc -> a
    void createGUIElements() -> b
    void updateMainPanel() -> d
    void setResultTable() -> e
    void updateResultTable() -> f
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> c
    void updateNumberField(javax.swing.JTextField,double) -> a
    void updateGUI() -> g
    void updateCBAlternativeHyp() -> h
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setSelectedPlot(int) -> a
    void updatePanel() -> a
    void evaluate() -> i
    double adjustedPValue(double,double,java.lang.String) -> a
    javax.swing.JPanel flowPanel(java.awt.Component[]) -> a
    javax.swing.Box hBox(java.awt.Component[]) -> a
geogebra.gui.view.data.OptionsPanel -> geogebra.gui.m.d.B:
    geogebra.main.AppD app -> a
    geogebra.common.gui.view.data.StatPanelSettings settings -> a
    javax.swing.JCheckBox ckCumulative -> a
    javax.swing.JCheckBox ckManual -> b
    javax.swing.JCheckBox ckOverlayNormal -> c
    javax.swing.JCheckBox ckOverlayPolygon -> d
    javax.swing.JCheckBox ckShowFrequencyTable -> e
    javax.swing.JCheckBox ckShowHistogram -> f
    javax.swing.JRadioButton rbRelative -> a
    javax.swing.JRadioButton rbNormalized -> b
    javax.swing.JRadioButton rbFreq -> c
    javax.swing.JRadioButton rbLeftRule -> d
    javax.swing.JRadioButton rbRightRule -> e
    javax.swing.JLabel lblFreqType -> a
    javax.swing.JLabel lblOverlay -> b
    javax.swing.JLabel lblClassRule -> c
    javax.swing.JPanel freqPanel -> a
    javax.swing.JPanel showPanel -> b
    javax.swing.JPanel dimPanel -> c
    javax.swing.JCheckBox ckAutoWindow -> g
    javax.swing.JCheckBox ckShowGrid -> h
    javax.swing.JLabel lblXMin -> d
    javax.swing.JLabel lblXMax -> e
    javax.swing.JLabel lblYMin -> f
    javax.swing.JLabel lblYMax -> g
    javax.swing.JLabel lblXInterval -> h
    javax.swing.JLabel lblYInterval -> i
    geogebra.gui.inputfield.MyTextField fldXMin -> a
    geogebra.gui.inputfield.MyTextField fldXMax -> b
    geogebra.gui.inputfield.MyTextField fldYMin -> c
    geogebra.gui.inputfield.MyTextField fldYMax -> d
    geogebra.gui.inputfield.MyTextField fldXInterval -> e
    geogebra.gui.inputfield.MyTextField fldYInterval -> f
    boolean showYAxisSettings -> a
    javax.swing.JLabel lblBarWidth -> j
    geogebra.gui.inputfield.MyTextField fldBarWidth -> g
    javax.swing.JCheckBox ckAutoBarWidth -> i
    javax.swing.JPanel barChartWidthPanel -> d
    javax.swing.JCheckBox ckShowOutliers -> j
    javax.swing.JCheckBox ckShowLines -> k
    javax.swing.JPanel histogramPanel -> e
    javax.swing.JPanel graphPanel -> f
    javax.swing.JPanel classesPanel -> g
    javax.swing.JPanel scatterplotPanel -> h
    javax.swing.JPanel barChartPanel -> i
    javax.swing.JPanel boxPlotPanel -> j
    javax.swing.JPanel mainPanel -> k
    javax.swing.JTabbedPane tabbedPane -> a
    boolean isUpdating -> b
    geogebra.common.gui.view.data.DataAnalysisModel daModel -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataDisplayModel$PlotType -> a
    void setPanel(geogebra.common.gui.view.data.DataDisplayModel$PlotType) -> a
    void createHistogramPanel() -> a
    void layoutHistogramPanel() -> b
    void layoutBarChartPanel() -> d
    void createBarChartPanel() -> e
    void createBoxPlotPanel() -> f
    void createScatterplotPanel() -> g
    void createGraphPanel() -> h
    javax.swing.JComponent insetPanel(int,javax.swing.JComponent[]) -> a
    void setLabels() -> c
    void updateGUI() -> i
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts(java.awt.Font) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$data$DataDisplayModel$PlotType() -> a
geogebra.gui.view.data.PlotPanelEuclidianControllerD -> geogebra.gui.m.d.C:
    void showDrawingPadPopup(geogebra.common.awt.GPoint) -> a
geogebra.gui.view.data.PlotPanelEuclidianViewD -> geogebra.gui.m.d.D:
    geogebra.common.euclidian.EuclidianController ec -> b
    geogebra.gui.view.data.PlotPanelEuclidianViewD plotPanelEV -> a
    geogebra.common.gui.view.data.PlotPanelEuclidianViewCommon commonFields -> a
    geogebra.gui.view.data.PlotPanelEuclidianViewD$MyMouseListener myMouseListener -> a
    java.awt.dnd.DragSource ds -> a
    java.awt.Cursor grabbingCursor -> b
    java.awt.Cursor grabCursor -> c
    java.util.ArrayList actionList -> a
    javax.swing.AbstractAction exportToEVAction -> c
    java.awt.datatransfer.DataFlavor plotPanelFlavor -> a
    javax.swing.AbstractAction exportGraphicAction -> a
    javax.swing.AbstractAction drawingPadToClipboardAction -> b
    void setCommonFields() -> Q
    void setViewId(geogebra.common.kernel.Kernel) -> a
    void setMode(int) -> f
    int getViewID() -> a
    void updateSize() -> x
    void updateSizeKeepDrawables() -> y
    void setEVParams() -> a
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
    void setMouseEnabled(boolean,boolean) -> a
    void setMouseMotionEnabled(boolean) -> q
    void setMouseWheelEnabled(boolean) -> r
    void setDefaultCursor() -> G
    javax.swing.JPopupMenu getContextMenu() -> a
    java.util.ArrayList getActionList() -> b
    void enableDnD() -> P
    void dragDropEnd(java.awt.dnd.DragSourceDropEvent) -> dragDropEnd
    void dragEnter(java.awt.dnd.DragSourceDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DragSourceEvent) -> dragExit
    void dragOver(java.awt.dnd.DragSourceDragEvent) -> dragOver
    void dropActionChanged(java.awt.dnd.DragSourceDragEvent) -> dropActionChanged
    void dragGestureRecognized(java.awt.dnd.DragGestureEvent) -> dragGestureRecognized
    double getPixelOffset() -> a
    boolean isPlotPanel() -> c
    geogebra.gui.view.data.PlotPanelEuclidianViewD access$0(geogebra.gui.view.data.PlotPanelEuclidianViewD) -> a
    javax.swing.AbstractAction access$1(geogebra.gui.view.data.PlotPanelEuclidianViewD) -> a
geogebra.gui.view.data.PlotPanelEuclidianViewD$1 -> geogebra.gui.m.d.E:
    geogebra.gui.view.data.PlotPanelEuclidianViewD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.view.data.PlotPanelEuclidianViewD access$0(geogebra.gui.view.data.PlotPanelEuclidianViewD$1) -> a
geogebra.gui.view.data.PlotPanelEuclidianViewD$1$1 -> geogebra.gui.m.d.F:
    geogebra.gui.view.data.PlotPanelEuclidianViewD$1 this$1 -> a
    void run() -> run
geogebra.gui.view.data.PlotPanelEuclidianViewD$2 -> geogebra.gui.m.d.G:
    geogebra.gui.view.data.PlotPanelEuclidianViewD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.view.data.PlotPanelEuclidianViewD access$0(geogebra.gui.view.data.PlotPanelEuclidianViewD$2) -> a
geogebra.gui.view.data.PlotPanelEuclidianViewD$2$1 -> geogebra.gui.m.d.H:
    geogebra.gui.view.data.PlotPanelEuclidianViewD$2 this$1 -> a
    void run() -> run
geogebra.gui.view.data.PlotPanelEuclidianViewD$ContextMenu -> geogebra.gui.m.d.D$a:
    geogebra.gui.view.data.PlotPanelEuclidianViewD this$0 -> a
geogebra.gui.view.data.PlotPanelEuclidianViewD$MyMouseListener -> geogebra.gui.m.d.D$b:
    geogebra.gui.view.data.PlotPanelEuclidianViewD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.view.data.PlotPanelEuclidianViewD$MyMouseMotionListener -> geogebra.gui.m.d.D$c:
    geogebra.gui.view.data.PlotPanelEuclidianViewD this$0 -> a
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
geogebra.gui.view.data.PlotPanelEuclidianViewD$TransferablePlotPanel -> geogebra.gui.m.d.D$d:
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    java.lang.String plotPanelIdentifier -> a
    java.awt.Image image -> a
    geogebra.gui.view.data.PlotPanelEuclidianViewD this$0 -> a
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
geogebra.gui.view.data.RegressionPanel -> geogebra.gui.m.d.I:
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    geogebra.gui.view.data.DataAnalysisViewD statDialog -> a
    javax.swing.JLabel lblRegEquation -> a
    javax.swing.JLabel lblEqn -> b
    javax.swing.JComboBox cbRegression -> a
    javax.swing.JComboBox cbPolyOrder -> b
    javax.swing.JLabel lblEvaluate -> c
    geogebra.gui.inputfield.MyTextField fldInputX -> a
    javax.swing.JLabel lblOutputY -> d
    java.lang.String[] regressionLabels -> a
    javax.swing.JLabel fldOutputY -> e
    boolean isIniting -> a
    javax.swing.JPanel predictionPanel -> a
    geogebra.common.gui.view.data.DataAnalysisModel daModel -> a
    javax.swing.JPanel regressionPanel -> b
    javax.swing.JPanel createRegressionPanel() -> a
    void createPredictionPanel() -> e
    void updateRegressionPanel() -> a
    void clearPredictionPanel() -> b
    void setRegressionLabels() -> f
    void setLabels() -> c
    void setRegressionEquationLabel() -> d
    void setRegressionEquationLabelEmpty() -> g
    void updateGUI() -> h
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void updateFonts(java.awt.Font) -> a
geogebra.gui.view.data.StatPanelInterface -> geogebra.gui.m.d.J:
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> c
geogebra.gui.view.data.StatTable -> geogebra.gui.m.d.K:
    geogebra.gui.view.data.StatTable$MyTable myTable -> a
    geogebra.gui.view.data.StatTable$MyRowHeader rowHeader -> a
    boolean isRowHeaderPainted -> a
    java.awt.Color TABLE_GRID_COLOR -> a
    java.awt.Color TABLE_HEADER_COLOR -> b
    java.awt.Color SELECTED_BACKGROUND_COLOR -> c
    javax.swing.table.DefaultTableModel tableModel -> a
    java.util.HashMap comboBoxEditorMap -> a
    java.util.HashMap comboBoxRendererMap -> b
    java.awt.event.ActionListener al -> a
    geogebra.main.AppD app -> a
    geogebra.main.LocalizationD loc -> a
    int alignment -> a
    geogebra.gui.view.data.StatTable$MyTable getTable() -> a
    void initTable() -> c
    void setStatTable(int,java.lang.String[],int,java.lang.String[]) -> a
    void clear() -> a
    void setComboBoxCells(java.util.HashMap,java.awt.event.ActionListener) -> a
    java.lang.Integer getComboCellEditorSelectedIndex(int,int) -> a
    boolean setComboCellSelectedIndex(int,int,int) -> a
    void setLabels(java.lang.String[],java.lang.String[]) -> a
    javax.swing.table.DefaultTableModel getModel() -> a
    void updateFonts(java.awt.Font) -> a
    void autoFitColumnWidth(int,int) -> a
    void autoFitRowHeight() -> b
    void setHorizontalAlignment(int) -> a
    int getHorizontalAlignment() -> a
    void setAllowCellEdit(boolean) -> a
    java.awt.Color access$0() -> a
    java.awt.Color access$1() -> b
    java.awt.Color access$2() -> c
    geogebra.gui.view.data.StatTable$MyTable access$3(geogebra.gui.view.data.StatTable) -> a
    java.awt.event.ActionListener access$4(geogebra.gui.view.data.StatTable) -> a
    java.util.HashMap access$5(geogebra.gui.view.data.StatTable) -> a
    java.util.HashMap access$6(geogebra.gui.view.data.StatTable) -> b
geogebra.gui.view.data.StatTable$Corner -> geogebra.gui.m.d.K$a:
    void paintComponent(java.awt.Graphics) -> paintComponent
geogebra.gui.view.data.StatTable$MyCellRenderer -> geogebra.gui.m.d.K$b:
    geogebra.gui.view.data.StatTable statTable -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.data.StatTable$MyComboBoxEditor -> geogebra.gui.m.d.K$c:
    javax.swing.JComboBox comboBox -> a
    int row -> a
    int column -> b
    geogebra.gui.view.data.StatTable this$0 -> a
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged
    int getSelectedIndex() -> a
    void setSelectedIndex(int) -> a
geogebra.gui.view.data.StatTable$MyComboBoxRenderer -> geogebra.gui.m.d.K$d:
    javax.swing.JComboBox comboBox -> a
    javax.swing.JLabel label -> a
    geogebra.gui.view.data.StatTable this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.data.StatTable$MyRowHeader -> geogebra.gui.m.d.K$e:
    javax.swing.JTable table -> a
    geogebra.gui.view.data.StatTable statTable -> b
    geogebra.gui.view.data.StatTable this$0 -> a
    geogebra.gui.view.data.StatTable access$0(geogebra.gui.view.data.StatTable$MyRowHeader) -> a
geogebra.gui.view.data.StatTable$MyRowHeader$RowHeaderRenderer -> geogebra.gui.m.d.K$e$a:
    geogebra.gui.view.data.StatTable$MyRowHeader this$1 -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.data.StatTable$MyTable -> geogebra.gui.m.d.K$f:
    boolean allowCellEdit -> a
    geogebra.gui.view.data.StatTable this$0 -> a
    void setAllowCellEdit(boolean) -> a
    boolean isCellEditable(int,int) -> isCellEditable
    void configureEnclosingScrollPane() -> configureEnclosingScrollPane
    java.awt.Component prepareEditor(javax.swing.table.TableCellEditor,int,int) -> prepareEditor
    javax.swing.table.TableCellEditor getCellEditor(int,int) -> getCellEditor
    javax.swing.table.TableCellRenderer getCellRenderer(int,int) -> getCellRenderer
geogebra.gui.view.data.StatisticsPanel -> geogebra.gui.m.d.L:
    geogebra.common.gui.view.data.StatisticsModel model -> a
    javax.swing.JComboBox cbInferenceMode -> a
    geogebra.gui.view.data.BasicStatTable statTable -> a
    geogebra.gui.view.data.OneVarInferencePanel oneVarInferencePanel -> a
    geogebra.gui.view.data.TwoVarInferencePanel twoVarInferencePanel -> a
    geogebra.gui.view.data.ANOVATable anovaTable -> a
    geogebra.gui.view.data.MultiVarStatPanel minMVStatPanel -> a
    javax.swing.JPanel selectionPanel -> a
    javax.swing.JPanel inferencePanel -> b
    geogebra.gui.view.data.DataAnalysisViewD statDialog -> a
    geogebra.main.AppD app -> a
    geogebra.common.gui.view.data.DataAnalysisModel daModel -> a
    void createStatTable() -> d
    void setInferencePanel() -> e
    void createSelectionPanel() -> f
    geogebra.gui.view.data.ANOVATable getAnovaTable() -> a
    geogebra.gui.view.data.OneVarInferencePanel getOneVarInferencePanel() -> a
    geogebra.gui.view.data.TwoVarInferencePanel getTwoVarInferencePanel() -> a
    geogebra.gui.view.data.MultiVarStatPanel getMinMVStatPanel() -> a
    void createInferenceTypeComboBox() -> g
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> c
    void updatePanel() -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void addInferenceMode(java.lang.String) -> a
    void selectInferenceMode(java.lang.String) -> b
    java.lang.String getSeparator() -> a
    void updateOneVarInference(int) -> a
    void updateTwoVarInference(int) -> b
    void updateAnovaTable() -> a
geogebra.gui.view.data.StatisticsPanel$MyRenderer -> geogebra.gui.m.d.L$a:
    javax.swing.JSeparator separator -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.data.TwoVarInferencePanel -> geogebra.gui.m.d.M:
    geogebra.main.AppD app -> a
    geogebra.gui.view.data.DataAnalysisViewD daView -> a
    geogebra.gui.view.data.StatTable resultTable -> a
    javax.swing.JComboBox cbTitle1 -> a
    javax.swing.JComboBox cbTitle2 -> b
    javax.swing.JComboBox cbAltHyp -> c
    javax.swing.JLabel lblTitle1 -> a
    javax.swing.JLabel lblTitle2 -> b
    javax.swing.JLabel lblHypParameter -> c
    javax.swing.JLabel lblTailType -> d
    javax.swing.JLabel lblNull -> e
    javax.swing.JLabel lblConfLevel -> f
    javax.swing.JLabel lblResultHeader -> g
    geogebra.gui.inputfield.MyTextField fldNullHyp -> a
    javax.swing.JPanel resultPanel -> a
    javax.swing.JCheckBox ckEqualVariances -> a
    geogebra.gui.inputfield.MyTextField fldConfLevel -> b
    boolean isIniting -> a
    javax.swing.JPanel testPanel -> b
    javax.swing.JPanel intPanel -> c
    javax.swing.JPanel mainPanel -> d
    javax.swing.JPanel samplePanel -> e
    geogebra.gui.view.data.TwoVarStatPanel twoStatPanel -> a
    geogebra.common.gui.view.data.TwoVarInferenceModel model -> a
    void createGUIElements() -> b
    void updateMainPanel() -> d
    void updateGUI() -> e
    void updateNumberField(javax.swing.JTextField,double) -> a
    void updateCBAlternativeHyp() -> f
    void setSelectedInference(int) -> b
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> c
    void updatePanel() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    java.lang.Integer[] selectedDataIndex() -> a
    javax.swing.JPanel flowPanel(java.awt.Component[]) -> a
    void setStatTable(int,java.lang.String[],int,java.lang.String[]) -> a
    void setFormattedValueAt(double,int,int) -> a
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    int getSelectedDataIndex(int) -> a
    double[] getValueArray(geogebra.common.kernel.geos.GeoList) -> a
    void addAltHypItem(java.lang.String,java.lang.String,double) -> a
    void selectAltHyp(int) -> a
geogebra.gui.view.data.TwoVarStatPanel -> geogebra.gui.m.d.N:
    geogebra.main.AppD app -> b
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.data.DataAnalysisViewD statDialog -> a
    geogebra.gui.view.data.StatTable$MyTable statTable -> a
    geogebra.common.gui.view.data.TwoVarStatModel model -> a
    java.awt.event.ActionListener parentActionListener -> a
    boolean isIniting -> b
    void setTable(boolean) -> b
    void updatePanel() -> c
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setValueAt(java.lang.String,int,int) -> a
    void setValueAt(double,int,int) -> a
    geogebra.common.kernel.geos.GeoList getDataSelected() -> a
    double[] getValueArray(geogebra.common.kernel.geos.GeoList) -> a
    java.lang.Integer[] getSelectedDataIndex() -> a
geogebra.gui.view.functioninspector.FunctionInspectorD -> geogebra.gui.m.e.a:
    geogebra.main.AppD app -> a
    javax.swing.JDialog wrappedDialog -> a
    java.awt.Color DISPLAY_GEO_COLOR -> a
    java.awt.Color DISPLAY_GEO2_COLOR -> b
    java.awt.Color EVEN_ROW_COLOR -> c
    java.awt.Color TABLE_GRID_COLOR -> d
    geogebra.gui.view.functioninspector.InspectorTable tableXY -> a
    geogebra.gui.view.functioninspector.InspectorTable tableInterval -> b
    javax.swing.table.DefaultTableModel modelXY -> a
    javax.swing.table.DefaultTableModel modelInterval -> b
    javax.swing.JLabel lblGeoName -> a
    javax.swing.JLabel lblStep -> b
    javax.swing.JLabel lblInterval -> c
    geogebra.gui.inputfield.MyTextField fldStep -> a
    geogebra.gui.inputfield.MyTextField fldLow -> b
    geogebra.gui.inputfield.MyTextField fldHigh -> c
    javax.swing.JButton btnRemoveColumn -> a
    javax.swing.JButton btnHelp -> b
    javax.swing.JToggleButton btnOscCircle -> a
    javax.swing.JToggleButton btnTangent -> b
    javax.swing.JToggleButton btnXYSegments -> c
    javax.swing.JToggleButton btnTable -> d
    geogebra.gui.util.PopupMenuButton btnAddColumn -> a
    geogebra.gui.util.PopupMenuButton btnOptions -> b
    javax.swing.JTabbedPane tabPanel -> a
    javax.swing.JPanel intervalTabPanel -> a
    javax.swing.JPanel pointTabPanel -> b
    javax.swing.JPanel headerPanel -> c
    javax.swing.JPanel helpPanel -> d
    boolean isChangingValue -> a
    int pointCount -> a
    geogebra.gui.util.SpecialNumberFormat nf -> a
    geogebra.common.main.GeoElementSelectionListener sl -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$functioninspector$FunctionInspectorModel$Colors -> a
    geogebra.main.AppD getAppD() -> a
    void createGUI() -> b
    void createTabIntervalPanel() -> m
    void createTabPointPanel() -> n
    void createGUIElements() -> o
    void createBtnAddColumn() -> G
    void setLabels() -> x_
    void updateIntervalFields() -> t
    void updateIntervalTable() -> u
    void updateXYTable() -> v
    void addTableColumn(java.lang.String) -> a
    void removeColumn() -> w
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void show() -> C
    void hide() -> D
    void reset() -> j
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void updateFonts() -> E
    void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus
    void changeStart(double) -> b
    geogebra.gui.util.SpecialNumberFormat getMyNumberFormat() -> a
    void createOptionsButton() -> z
    void doCopyToSpreadsheet() -> A
    void updateXYTable(boolean) -> b
    void updateInterval(java.util.ArrayList,java.util.ArrayList) -> a
    void setXYValueAt(java.lang.Double,int,int) -> a
    java.lang.Object getXYValueAt(int,int) -> a
    void setGeoName(java.lang.String) -> b
    void changeTableSelection() -> B
    void updateHighAndLow(boolean,boolean) -> a
    void setStepText(java.lang.String) -> c
    geogebra.common.awt.GColor getColor(geogebra.common.gui.view.functioninspector.FunctionInspectorModel$Colors) -> a
    int getSelectedXYRow() -> b
    void setStepVisible(boolean) -> c
    void buildTabPanel() -> e
    void buildHelpPanel() -> g
    void buildHeaderPanel() -> h
    void updatePointsTab() -> q
    boolean isIntervalTabSelected() -> a
    boolean hasFocus() -> hasFocus
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    void changedNumberFormat() -> y
    void updateIcons() -> F
    int[] $SWITCH_TABLE$geogebra$common$gui$view$functioninspector$FunctionInspectorModel$Colors() -> a
geogebra.gui.view.functioninspector.FunctionInspectorD$1 -> geogebra.gui.m.e.b:
    geogebra.gui.view.functioninspector.FunctionInspectorD this$0 -> a
    void setVisible(boolean) -> setVisible
geogebra.gui.view.functioninspector.FunctionInspectorD$2 -> geogebra.gui.m.e.c:
    geogebra.gui.view.functioninspector.FunctionInspectorD this$0 -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
geogebra.gui.view.functioninspector.FunctionInspectorD$3 -> geogebra.gui.m.e.d:
    geogebra.gui.view.functioninspector.FunctionInspectorD this$0 -> a
    geogebra.main.AppD val$app -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.functioninspector.FunctionInspectorD$3$1 -> geogebra.gui.m.e.e:
    geogebra.gui.view.functioninspector.FunctionInspectorD$3 this$1 -> a
    geogebra.main.AppD val$app -> a
    void run() -> run
geogebra.gui.view.functioninspector.FunctionInspectorD$4 -> geogebra.gui.m.e.f:
    geogebra.gui.view.functioninspector.FunctionInspectorD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.functioninspector.FunctionInspectorD$5 -> geogebra.gui.m.e.g:
    geogebra.gui.view.functioninspector.FunctionInspectorD this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.view.functioninspector.InspectorTable -> geogebra.gui.m.e.h:
    geogebra.main.AppD app -> a
    geogebra.gui.view.functioninspector.FunctionInspectorD inspector -> a
    boolean doRedNegative -> a
    java.util.HashSet editableCell -> a
    int tableType -> a
    boolean isDoRedNegative() -> a
    void setCellEditable(int,int) -> a
    boolean isCellEditable(int,int) -> isCellEditable
    void configureEnclosingScrollPane() -> configureEnclosingScrollPane
    void setMyCellEditor(int) -> a
geogebra.gui.view.functioninspector.InspectorTable$MyCellRenderer -> geogebra.gui.m.e.h$a:
    javax.swing.JTextField tf -> a
    javax.swing.border.Border editCellBorder -> a
    javax.swing.JTable table -> a
    javax.swing.border.Border paddingBorder -> b
    boolean doRedNegative -> a
    geogebra.gui.view.functioninspector.InspectorTable this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
    java.awt.Color rowColor(int) -> a
geogebra.gui.view.functioninspector.InspectorTable$MyEditor -> geogebra.gui.m.e.h$b:
    geogebra.gui.view.functioninspector.InspectorTable this$0 -> a
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    boolean stopCellEditing() -> stopCellEditing
geogebra.gui.view.probcalculator.ChiSquarePanelD -> geogebra.gui.m.f.a:
    javax.swing.JPanel pnlCount -> a
    javax.swing.JPanel pnlControl -> b
    javax.swing.JComboBox cbRows -> a
    javax.swing.JComboBox cbColumns -> b
    geogebra.gui.view.probcalculator.ChiSquarePanelD$ChiSquareCellD[][] cell -> a
    javax.swing.JCheckBox ckExpected -> a
    javax.swing.JCheckBox ckChiDiff -> b
    javax.swing.JCheckBox ckRowPercent -> c
    javax.swing.JCheckBox ckColPercent -> d
    javax.swing.JLabel lblRows -> a
    javax.swing.JLabel lblColumns -> b
    boolean showColumnMargin -> a
    javax.swing.JPanel wrappedPanel -> c
    void setLabels() -> a
    void createGUI() -> c
    void createGUIElements() -> d
    void createControlPanel() -> e
    void createCountPanel() -> f
    void updateGUI() -> b
    void updateVisibility() -> g
    void updateCellContent() -> h
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    javax.swing.JPanel getWrappedPanel() -> a
    geogebra.common.main.App access$0(geogebra.gui.view.probcalculator.ChiSquarePanelD) -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator access$1(geogebra.gui.view.probcalculator.ChiSquarePanelD) -> a
geogebra.gui.view.probcalculator.ChiSquarePanelD$ChiSquareCellD -> geogebra.gui.m.f.a$a:
    javax.swing.JPanel wrappedPanel -> a
    geogebra.gui.inputfield.MyTextField fldInput -> a
    javax.swing.JLabel[] label -> a
    geogebra.gui.view.probcalculator.ChiSquarePanelD this$0 -> a
    void setColumns(int) -> a
    void hideAllLabels() -> a
    void hideAll() -> b
    geogebra.gui.inputfield.MyTextField getInputField() -> a
    void setLabelText(int,java.lang.String) -> a
    void setLabelVisible(int,boolean) -> a
    void setMarginCell(boolean) -> a
    void setHeaderCell(boolean) -> b
    void setVisualStyle() -> c
    void updateCellData() -> d
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    javax.swing.JPanel getWrappedPanel() -> a
geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD -> geogebra.gui.m.f.b:
    geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD styleBar -> a
    javax.swing.JComboBox comboDistribution -> a
    javax.swing.JComboBox comboProbType -> b
    javax.swing.JTextField[] fldParameterArray -> a
    javax.swing.JTextField fldLow -> a
    javax.swing.JTextField fldHigh -> b
    javax.swing.JTextField fldResult -> c
    javax.swing.JLabel[] lblParameterArray -> a
    javax.swing.JLabel lblBetween -> a
    javax.swing.JLabel lblProbOf -> b
    javax.swing.JLabel lblEndProbOf -> c
    javax.swing.JLabel lblProb -> d
    javax.swing.JLabel lblDist -> e
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$MyToggleButton btnCumulative -> a
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$MyToggleButton btnIntervalLeft -> b
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$MyToggleButton btnIntervalBetween -> c
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$MyToggleButton btnIntervalRight -> d
    javax.swing.JSlider[] sliderArray -> a
    geogebra.gui.util.ListSeparatorRenderer comboRenderer -> a
    javax.swing.JPanel controlPanel -> a
    javax.swing.JPanel tablePanel -> b
    javax.swing.JSplitPane mainSplitPane -> a
    javax.swing.JSplitPane plotSplitPane -> b
    javax.swing.JToggleButton btnExport -> a
    javax.swing.JPanel wrapperPanel -> c
    javax.swing.JLabel lblMeanSigma -> f
    javax.swing.JPanel plotPanelPlus -> d
    javax.swing.JPanel probCalcPanel -> e
    javax.swing.JTabbedPane tabbedPane -> a
    geogebra.common.gui.view.probcalculator.StatisticsCalculator statCalculator -> a
    javax.swing.AbstractAction exportToEVAction -> a
    geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD getStyleBar() -> a
    geogebra.common.gui.view.probcalculator.ProbabilityManager getProbManager() -> a
    void setCumulative(boolean) -> b
    boolean isDistributionTabOpen() -> e
    void createLayoutPanels() -> t
    void buildProbCalcPanel() -> u
    void addRemoveTable(boolean) -> c
    geogebra.gui.util.ListSeparatorRenderer getComboRenderer() -> a
    void createGUIElements() -> v
    void createControlPanel() -> w
    void updateFonts() -> r
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateAll() -> d
    void updateGUI() -> o
    void updateProbabilityType() -> x
    void updateDistribution() -> s
    void updateDiscreteTable() -> n
    void updatePrintFormat(int,int) -> a
    void setInterval(double,double) -> a
    void setLabels() -> x_
    void setProbabilityComboBoxMenu() -> y
    void setDistributionComboBoxMenu() -> z
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
    void plotPanelUpdateSettings(geogebra.common.gui.view.data.PlotSettings) -> b
    geogebra.gui.view.data.PlotPanelEuclidianViewD getPlotPanel() -> a
    javax.swing.JPanel getWrapperPanel() -> a
    geogebra.common.main.App access$0(geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD) -> a
    geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD access$1(geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD) -> a
geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$1 -> geogebra.gui.m.f.c:
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$2 -> geogebra.gui.m.f.d:
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD this$0 -> a
    void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged
geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD$MyToggleButton -> geogebra.gui.m.f.b$a:
    geogebra.gui.view.probcalculator.ProbabilityCalculatorViewD this$0 -> a
geogebra.gui.view.probcalculator.ProbabilityTableD -> geogebra.gui.m.f.e:
    geogebra.gui.view.data.StatTable statTable -> a
    javax.swing.JPanel wrappedPanel -> a
    void setTable(geogebra.common.main.settings.ProbabilityCalculatorSettings$DIST,double[],int,int) -> a
    void updateFonts(java.awt.Font) -> a
    void setLabels() -> b
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
    void setSelectionByRowValue(int,int) -> a
    javax.swing.JPanel getWrappedPanel() -> a
geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD -> geogebra.gui.m.f.f:
    javax.swing.JButton btnRounding -> a
    javax.swing.JPopupMenu roundingPopup -> a
    javax.swing.JToolBar wrappedToolbar -> a
    geogebra.gui.util.MyToggleButton btnCumulative -> a
    geogebra.gui.util.MyToggleButton btnLineGraph -> b
    geogebra.gui.util.MyToggleButton btnGrid -> c
    geogebra.gui.util.MyToggleButton btnStepGraph -> d
    geogebra.gui.util.MyToggleButton btnBarGraph -> e
    geogebra.gui.util.MyToggleButton btnExport -> f
    geogebra.gui.util.MyToggleButton btnNormalOverlay -> g
    void updateIcons() -> a
    void createGUI() -> e
    void updateLayout() -> b
    void updateGUI() -> c
    void setLabels() -> d
    void buildOptionsButton() -> f
    void updateMenuDecimalPlaces(javax.swing.JPopupMenu) -> a
    javax.swing.JPopupMenu createRoundingPopup() -> a
    void addRadioButtonMenuItems(javax.swing.JPopupMenu,java.awt.event.ActionListener,java.lang.String[],java.lang.String[],int) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    javax.swing.JToolBar getWrappedToolbar() -> a
    geogebra.common.gui.view.probcalculator.ProbabilityCalculatorView access$0(geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD) -> a
geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD$1 -> geogebra.gui.m.f.g:
    geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD$2 -> geogebra.gui.m.f.h:
    geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD$3 -> geogebra.gui.m.f.i:
    geogebra.gui.view.probcalculator.ProbabiltyCalculatorStyleBarD this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.probcalculator.StatisticsCalculatorD -> geogebra.gui.m.f.j:
    geogebra.gui.inputfield.MyTextField[] fldSampleStat1 -> a
    geogebra.gui.inputfield.MyTextField[] fldSampleStat2 -> b
    geogebra.gui.inputfield.MyTextField fldNullHyp -> a
    geogebra.gui.inputfield.MyTextField fldConfLevel -> b
    geogebra.gui.inputfield.MyTextField fldSigma -> c
    int fieldWidth -> a
    javax.swing.JLabel[] lblSampleStat1 -> a
    javax.swing.JLabel[] lblSampleStat2 -> b
    javax.swing.JLabel lblResult -> a
    javax.swing.JLabel lblHypParameter -> b
    javax.swing.JLabel lblTailType -> c
    javax.swing.JLabel lblNull -> d
    javax.swing.JLabel lblConfLevel -> e
    javax.swing.JLabel lblSigma -> f
    javax.swing.JLabel lblSampleHeader1 -> g
    javax.swing.JLabel lblSampleHeader2 -> h
    javax.swing.JRadioButton btnLeft -> a
    javax.swing.JRadioButton btnRight -> b
    javax.swing.JRadioButton btnTwo -> c
    javax.swing.JButton btnCalculate -> a
    javax.swing.JComboBox cbProcedure -> a
    javax.swing.JCheckBox ckPooled -> a
    javax.swing.JPanel panelBasicProcedures -> a
    javax.swing.JPanel panelControl -> b
    javax.swing.JPanel panelSample1 -> c
    javax.swing.JPanel panelSample2 -> d
    javax.swing.JPanel panelTestAndCI -> e
    geogebra.gui.view.probcalculator.ChiSquarePanelD panelChiSquare -> a
    javax.swing.JEditorPane resultPane -> a
    javax.swing.JScrollPane scroller -> a
    javax.swing.JPanel wrappedPanel -> f
    int[] $SWITCH_TABLE$geogebra$common$gui$view$probcalculator$StatisticsCalculator$Procedure -> a
    void createGUI() -> e
    void createControlPanel() -> f
    void setInputPanelLayout() -> g
    void createGUIElements() -> h
    void setLabels() -> x_
    void setHypParameterLabel() -> i
    void setProcedureComboLabels() -> j
    void setSampleFieldLabels() -> k
    void setSampleFieldText() -> l
    void updateGUI() -> m
    void setPanelLayout() -> n
    void updateResult() -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed(java.awt.event.ActionEvent) -> a
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    double parseNumberText(java.lang.String) -> a
    void updateStatisticCollection() -> o
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void updateFonts(java.awt.Font) -> a
    void setStyleSheetFontSize(javax.swing.text.html.HTMLEditorKit,java.awt.Font) -> a
    void setStyleSheets(javax.swing.text.html.HTMLEditorKit) -> a
    void updateResultText() -> p
    javax.swing.JPanel getWrappedPanel() -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$probcalculator$StatisticsCalculator$Procedure() -> a
    javax.swing.JScrollPane access$1(geogebra.gui.view.probcalculator.StatisticsCalculatorD) -> a
geogebra.gui.view.probcalculator.StatisticsCalculatorD$1 -> geogebra.gui.m.f.k:
    geogebra.gui.view.probcalculator.StatisticsCalculatorD this$0 -> a
    void run() -> run
geogebra.gui.view.properties.PropertiesStyleBarD -> geogebra.gui.m.g.a:
    geogebra.common.gui.view.properties.PropertiesView propertiesView -> a
    geogebra.main.AppD app -> a
    geogebra.gui.util.PopupMenuButton btnOption -> a
    javax.swing.JPopupMenu menu -> a
    javax.swing.JToolBar toolbar -> a
    javax.swing.JPanel wrappedPanel -> a
    java.util.HashMap buttonMap -> a
    javax.swing.AbstractButton objectButton -> a
    int[] $SWITCH_TABLE$geogebra$common$main$OptionType -> a
    void buildGUI() -> a
    geogebra.gui.view.properties.PropertiesStyleBarD$PropertiesButton newPropertiesButton(geogebra.common.main.OptionType) -> a
    geogebra.gui.util.PopupMenuButton getBtnOption() -> a
    void updateGUI() -> b
    javax.swing.JMenuItem newJMenuItem(geogebra.common.main.OptionType) -> a
    void buildMenu() -> c
    void setLabels() -> d
    void setObjectsToolTip() -> e
    void setObjectButtonEnable(boolean) -> a
    javax.swing.ImageIcon getTypeIcon(geogebra.common.main.OptionType) -> a
    javax.swing.JPanel getWrappedPanel() -> a
    void reinit() -> f
    int[] $SWITCH_TABLE$geogebra$common$main$OptionType() -> a
geogebra.gui.view.properties.PropertiesStyleBarD$1 -> geogebra.gui.m.g.b:
    geogebra.gui.view.properties.PropertiesStyleBarD this$0 -> a
    geogebra.common.main.OptionType val$type -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.properties.PropertiesStyleBarD$2 -> geogebra.gui.m.g.c:
    geogebra.gui.view.properties.PropertiesStyleBarD this$0 -> a
    geogebra.common.main.OptionType val$type -> a
    javax.swing.JMenuItem val$mi -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.properties.PropertiesStyleBarD$PropertiesButton -> geogebra.gui.m.g.a$a:
    javax.swing.JToolTip tip -> a
    geogebra.gui.view.properties.PropertiesStyleBarD this$0 -> a
    javax.swing.JToolTip createToolTip() -> createToolTip
    java.awt.Point getToolTipLocation(java.awt.event.MouseEvent) -> getToolTipLocation
geogebra.gui.view.properties.PropertiesStyleBarD$ToolTipMouseAdapter -> geogebra.gui.m.g.a$b:
    int defaultInitialDelay -> a
    boolean preventToolTipDelay -> a
    geogebra.gui.view.properties.PropertiesStyleBarD this$0 -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.view.properties.PropertiesViewD -> geogebra.gui.m.g.d:
    geogebra.gui.view.properties.PropertiesStyleBarD styleBar -> a
    javax.swing.JPanel wrappedPanel -> a
    geogebra.gui.dialog.options.OptionsDefaultsD defaultsPanel -> a
    geogebra.gui.dialog.options.OptionsEuclidianD euclidianPanel -> a
    geogebra.gui.dialog.options.OptionsEuclidianD euclidianPanel2 -> b
    geogebra.gui.dialog.options.OptionsSpreadsheetD spreadsheetPanel -> a
    geogebra.gui.dialog.options.OptionsCASD casPanel -> a
    geogebra.gui.dialog.options.OptionsAdvancedD advancedPanel -> a
    geogebra.gui.dialog.options.OptionsLayoutD layoutPanel -> a
    java.lang.Object selectedOptionPanel -> a
    javax.swing.JPanel mainPanel -> b
    boolean isIniting -> b
    int mode -> a
    int selectedTab -> b
    int[] $SWITCH_TABLE$geogebra$common$main$OptionType -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$Construction$Constants -> b
    void initGUI() -> d
    void updatePropertiesView() -> e
    void updatePropertiesViewCheckConstants(java.util.ArrayList) -> b
    void updatePropertiesView(java.util.ArrayList) -> c
    void setOptionPanelRegardingFocus(boolean) -> c
    void mousePressedForPropertiesView() -> g
    void mouseReleasedForPropertiesView(boolean) -> a
    void setOptionPanel(geogebra.common.main.OptionType) -> a
    void applyModifications() -> h
    void setSelectedOptionPanelVisible(boolean) -> b
    void setOptionPanel(geogebra.common.main.OptionType,java.util.ArrayList) -> a
    void setOptionPanelWithoutCheck(geogebra.common.main.OptionType) -> b
    void updateGUI() -> i
    void updateEuclidianPanelsGUI() -> m
    geogebra.gui.dialog.options.OptionPanelD getOptionPanel(geogebra.common.main.OptionType) -> a
    geogebra.common.gui.view.properties.PropertiesStyleBar getStyleBar() -> a
    geogebra.gui.view.properties.PropertiesStyleBarD newPropertiesStyleBar() -> a
    void setLabels() -> n
    void updateStyleBar() -> v
    void updateTitleBar() -> b
    void attachView() -> o
    void detachView() -> p
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void reset() -> j
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    int getViewID() -> a
    void updateSelection() -> a
    void updateSelection(java.util.ArrayList) -> a
    boolean stayInCurrentPanel() -> a
    boolean stayInCurrentPanelWithObjects() -> b
    void setObjectPanel(java.util.ArrayList) -> d
    void updateObjectPanelSelection(java.util.ArrayList) -> e
    void updateSelectedTab(geogebra.common.kernel.Construction$Constants) -> a
    java.util.ArrayList removeAllConstants(java.util.ArrayList) -> a
    void windowPanel() -> q
    void unwindowPanel() -> r
    void closeDialog() -> s
    void showSliderTab() -> t
    boolean hasFocus() -> hasFocus
    javax.swing.JPanel getWrappedPanel() -> a
    javax.swing.ImageIcon getTypeIcon(geogebra.main.AppD,geogebra.common.main.OptionType) -> a
    void updateFonts() -> u
    boolean isShowing() -> isShowing
    void updateTextEditor(geogebra.common.kernel.geos.GeoElement) -> g
    int[] $SWITCH_TABLE$geogebra$common$main$OptionType() -> b
    int[] $SWITCH_TABLE$geogebra$common$kernel$Construction$Constants() -> c
geogebra.gui.view.spreadsheet.CopyPasteCutD -> geogebra.gui.m.h.a:
    void copy(int,int,int,int,boolean) -> a
    boolean paste(int,int,int,int) -> b
    boolean paste(int,int,int,int,java.awt.datatransfer.Transferable) -> a
    boolean pasteFromURL(java.net.URL) -> a
    boolean pasteFromURL(java.net.URL,geogebra.common.gui.view.spreadsheet.CellRange,boolean) -> a
    java.lang.String getExtension(java.lang.String) -> a
geogebra.gui.view.spreadsheet.CreateObjectDialog -> geogebra.gui.m.h.b:
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    geogebra.common.gui.view.spreadsheet.CreateObjectModel coModel -> a
    javax.swing.JLabel lblObject -> b
    javax.swing.JLabel lblName -> c
    javax.swing.JCheckBox ckSort -> b
    javax.swing.JCheckBox ckTranspose -> c
    javax.swing.JRadioButton btnValue -> a
    javax.swing.JRadioButton btnObject -> b
    javax.swing.JComboBox cbScanOrder -> a
    boolean isIniting -> b
    javax.swing.JPanel optionsPanel -> e
    javax.swing.JPanel typePanel -> f
    geogebra.gui.inputfield.MyTextField fldName -> a
    javax.swing.JScrollPane previewPanel -> a
    javax.swing.JComboBox cbLeftRightOrder -> b
    javax.swing.JPanel cards -> g
    javax.swing.JLabel lblPreview -> d
    javax.swing.JPanel namePanel -> h
    javax.swing.DefaultListModel model -> a
    javax.swing.JList typeList -> a
    boolean showApply -> a
    void createAdditionalGUI() -> d
    void buildOptionsPanel() -> e
    void setLabels(java.lang.String) -> c
    void updateGUI() -> f
    void updatePreview(java.lang.String,boolean) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void setVisible(boolean) -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
    void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setName(java.lang.String) -> b_
    void setSortVisible(boolean) -> b
    boolean isCopiedByValue() -> a
    boolean isScannedByColumn() -> b
    boolean isLeftToRight() -> c
    boolean isTranspose() -> d
geogebra.gui.view.spreadsheet.DataImportD -> geogebra.gui.m.h.c:
    java.awt.datatransfer.DataFlavor HTMLflavor -> a
    boolean hasHTMLFlavor(java.awt.datatransfer.Transferable) -> a
    java.lang.String convertTransferableToString(java.awt.datatransfer.Transferable) -> a
    java.lang.String convertHTMLTableToCSV(java.lang.String) -> a
geogebra.gui.view.spreadsheet.DataImportD$1 -> geogebra.gui.m.h.d:
    boolean foundTable -> a
    boolean firstInRow -> b
    boolean firstColumn -> c
    boolean finished -> d
    java.lang.StringBuilder val$sbHTML -> a
    void handleText(char[],int) -> handleText
    void handleStartTag(javax.swing.text.html.HTML$Tag,javax.swing.text.MutableAttributeSet,int) -> handleStartTag
geogebra.gui.view.spreadsheet.DialogCopyToSpreadsheet -> geogebra.gui.m.h.e:
    geogebra.gui.view.spreadsheet.SpreadsheetViewDnD dndHandler -> a
    geogebra.main.AppD app -> a
    javax.swing.JButton btnCancel -> a
    javax.swing.JButton btnCopy -> b
    javax.swing.JRadioButton rbFree -> a
    javax.swing.JRadioButton rbDependent -> b
    javax.swing.JCheckBox ckTranspose -> a
    void createGUI() -> b
    void createGUIElements() -> c
    void setLabels() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setVisible(boolean) -> setVisible
geogebra.gui.view.spreadsheet.FormulaBar -> geogebra.gui.m.h.f:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    javax.swing.JButton btnCancelFormula -> a
    javax.swing.JButton btnAcceptFormula -> b
    geogebra.gui.inputfield.AutoCompleteTextFieldD fldFormula -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD fldCellName -> b
    boolean isIniting -> a
    geogebra.gui.view.spreadsheet.MyCellEditor editor -> a
    int row -> a
    int column -> b
    javax.swing.event.DocumentListener documentListener -> a
    void setEditorText(java.lang.String) -> a
    void update() -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void updateFonts(java.awt.Font) -> a
    void updateIcons() -> b
    void setLabels() -> c
    boolean editorHasFocus() -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView access$0(geogebra.gui.view.spreadsheet.FormulaBar) -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD access$1(geogebra.gui.view.spreadsheet.FormulaBar) -> a
    javax.swing.JButton access$2(geogebra.gui.view.spreadsheet.FormulaBar) -> a
    javax.swing.JButton access$3(geogebra.gui.view.spreadsheet.FormulaBar) -> b
    geogebra.gui.view.spreadsheet.MyCellEditor access$4(geogebra.gui.view.spreadsheet.FormulaBar) -> a
geogebra.gui.view.spreadsheet.FormulaBar$1 -> geogebra.gui.m.h.g:
    geogebra.gui.view.spreadsheet.FormulaBar this$0 -> a
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void updateCellEditor(javax.swing.event.DocumentEvent) -> a
geogebra.gui.view.spreadsheet.FormulaBar$BarButtonListener -> geogebra.gui.m.h.f$a:
    geogebra.gui.view.spreadsheet.FormulaBar this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.view.spreadsheet.MyCellEditor -> geogebra.gui.m.h.h:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.main.AppD app -> a
    geogebra.common.kernel.geos.GeoElement value -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    geogebra.gui.inputfield.AutoCompleteTextFieldD textField -> a
    int column -> a
    int row -> b
    boolean editing -> a
    boolean errorOnStopEditing -> b
    boolean allowProcessGeo -> c
    boolean enableAutoComplete -> d
    int tabReturnCol -> c
    void setAllowProcessGeo(boolean) -> a
    void setEnableAutoComplete(boolean) -> b
    void setText(java.lang.String) -> a
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    void setEqualsRequired(boolean) -> c
    java.lang.String getEditorInitString(geogebra.common.kernel.geos.GeoElement) -> a
    boolean isEditing() -> a
    int getCaretPosition() -> a
    void addLabel(java.lang.String) -> b
    void setLabel(java.lang.String) -> c
    java.lang.String getEditingValue() -> a
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    void cancelCellEditing() -> cancelCellEditing
    boolean stopCellEditing() -> stopCellEditing
    boolean stopCellEditing(int,int) -> a
    void moveSelectedCell(int,int) -> a
    boolean processGeo() -> b
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    javax.swing.DefaultCellEditor$EditorDelegate access$0(geogebra.gui.view.spreadsheet.MyCellEditor) -> a
geogebra.gui.view.spreadsheet.MyCellEditor$1 -> geogebra.gui.m.h.i:
    geogebra.gui.view.spreadsheet.MyCellEditor this$0 -> a
    void changedUpdate(javax.swing.event.DocumentEvent) -> changedUpdate
    void insertUpdate(javax.swing.event.DocumentEvent) -> insertUpdate
    void removeUpdate(javax.swing.event.DocumentEvent) -> removeUpdate
    void updateFormulaBar(javax.swing.event.DocumentEvent) -> a
geogebra.gui.view.spreadsheet.MyCellEditor$SpreadsheetCellEditorKeyListener -> geogebra.gui.m.h.h$a:
    boolean isFormulaBarListener -> a
    geogebra.gui.view.spreadsheet.MyCellEditor this$0 -> a
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    void checkCursorKeys(java.awt.event.KeyEvent) -> a
geogebra.gui.view.spreadsheet.MyCellEditorBoolean -> geogebra.gui.m.h.j:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.geos.GeoBoolean editGeo -> a
    javax.swing.JCheckBox checkBox -> a
    boolean editing -> a
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    boolean stopCellEditing() -> stopCellEditing
geogebra.gui.view.spreadsheet.MyCellEditorButton -> geogebra.gui.m.h.k:
    javax.swing.JButton delegate -> a
    geogebra.common.kernel.geos.GeoButton editGeo -> a
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    geogebra.common.kernel.geos.GeoButton access$0(geogebra.gui.view.spreadsheet.MyCellEditorButton) -> a
geogebra.gui.view.spreadsheet.MyCellEditorButton$1 -> geogebra.gui.m.h.l:
    geogebra.gui.view.spreadsheet.MyCellEditorButton this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    geogebra.gui.view.spreadsheet.MyCellEditorButton access$0(geogebra.gui.view.spreadsheet.MyCellEditorButton$1) -> a
geogebra.gui.view.spreadsheet.MyCellEditorButton$1$1 -> geogebra.gui.m.h.m:
    geogebra.gui.view.spreadsheet.MyCellEditorButton$1 this$1 -> a
    void run() -> run
geogebra.gui.view.spreadsheet.MyCellEditorList -> geogebra.gui.m.h.n:
    geogebra.common.kernel.geos.GeoList editGeo -> a
    javax.swing.JComboBox comboBox -> a
    javax.swing.DefaultComboBoxModel model -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    java.lang.Object getCellEditorValue() -> getCellEditorValue
geogebra.gui.view.spreadsheet.MyCellEditorList$MyListCellRenderer -> geogebra.gui.m.h.n$a:
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.spreadsheet.MyCellRenderer -> geogebra.gui.m.h.o:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.gui.view.spreadsheet.MyTableInterface myTable -> a
    javax.swing.ImageIcon latexIcon -> a
    javax.swing.ImageIcon emptyIcon -> b
    java.lang.String latexStr -> a
    geogebra.common.gui.view.spreadsheet.CellFormat formatHandler -> a
    geogebra.common.awt.GPoint cellPoint -> a
    java.lang.Integer alignment -> a
    java.lang.Integer traceBorder -> b
    java.lang.Integer fontStyle -> c
    boolean isCustomBGColor -> a
    javax.swing.border.Border cellPadding -> a
    javax.swing.border.Border bTop -> b
    javax.swing.border.Border bLeft -> c
    javax.swing.border.Border bBottom -> d
    javax.swing.border.Border bRight -> e
    javax.swing.border.Border bAll -> f
    javax.swing.JCheckBox checkBox -> a
    javax.swing.JButton button -> a
    javax.swing.JComboBox comboBox -> a
    javax.swing.DefaultComboBoxModel cbModel -> a
    java.awt.Color bgColor -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.gui.view.spreadsheet.MyCellRenderer$MyListCellRenderer -> geogebra.gui.m.h.o$a:
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.spreadsheet.MyTableD -> geogebra.gui.m.h.p:
    int tableMode -> l
    java.awt.Color SELECTED_BACKGROUND_COLOR -> a
    java.awt.Color SELECTED_BACKGROUND_COLOR_HEADER -> b
    java.awt.Color BACKGROUND_COLOR_HEADER -> c
    java.awt.Color TABLE_GRID_COLOR -> d
    java.awt.Color HEADER_GRID_COLOR -> e
    java.awt.Color SELECTED_RECTANGLE_COLOR -> f
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.MyCellEditor editor -> a
    geogebra.gui.view.spreadsheet.MyCellEditorBoolean editorBoolean -> a
    geogebra.gui.view.spreadsheet.MyCellEditorButton editorButton -> a
    geogebra.gui.view.spreadsheet.MyCellEditorList editorList -> a
    geogebra.common.gui.view.spreadsheet.RelativeCopy relativeCopy -> a
    geogebra.gui.view.spreadsheet.CopyPasteCutD copyPasteCut -> a
    geogebra.gui.view.spreadsheet.SpreadsheetColumnController$ColumnHeaderRenderer headerRenderer -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    javax.swing.table.DefaultTableModel tableModel -> a
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor crProcessor -> a
    geogebra.gui.view.spreadsheet.MyTableD$MyTableColumnModelListener columnModelListener -> a
    geogebra.common.gui.view.spreadsheet.CellFormat formatHandler -> a
    geogebra.common.kernel.geos.GeoElement targetCell -> a
    java.util.ArrayList selectedCellRanges -> a
    int minSelectionRow -> a
    int maxSelectionRow -> b
    int minSelectionColumn -> c
    int maxSelectionColumn -> d
    java.util.HashSet selectedColumnSet -> a
    java.util.HashSet selectedRowSet -> b
    int selectionType -> m
    boolean doShowDragHandle -> f
    java.awt.Color selectionRectangleColor -> g
    boolean isDragingDot -> a
    int dragingToRow -> e
    int dragingToColumn -> f
    boolean isOverDot -> b
    boolean isDragging2 -> c
    int minColumn2 -> g
    int maxColumn2 -> h
    int minRow2 -> i
    int maxRow2 -> j
    boolean isOverDnDRegion -> d
    boolean metaDown -> e
    java.util.HashSet cellResizeHeightSet -> c
    java.util.HashSet cellResizeWidthSet -> d
    java.util.ArrayList adjustedRowHeights -> b
    boolean doRecordRowHeights -> g
    int preferredColumnWidth -> k
    java.util.HashMap oneClickEditMap -> a
    java.awt.Cursor defaultCursor -> a
    java.awt.Cursor crossHairCursor -> b
    java.awt.Cursor handCursor -> c
    java.awt.Cursor grabbingCursor -> d
    java.awt.Cursor grabCursor -> e
    boolean isSelectAll -> h
    boolean isSelectNone -> i
    java.awt.Rectangle targetcellFrame -> a
    float[] dash1 -> a
    java.awt.BasicStroke dashed -> a
    boolean allowEditing -> j
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    java.util.ArrayList getSelectedCellRanges() -> a
    java.util.HashMap getOneClickEditMap() -> a
    geogebra.common.gui.view.spreadsheet.CopyPasteCut getCopyPasteCut() -> a
    geogebra.common.kernel.Kernel getKernel() -> a
    geogebra.common.main.App getApplication() -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView getView() -> a
    geogebra.common.gui.view.spreadsheet.CellRangeProcessor getCellRangeProcessor() -> a
    geogebra.common.gui.view.spreadsheet.CellFormatInterface getCellFormatHandler() -> a
    geogebra.gui.view.spreadsheet.MyCellEditorBoolean getEditorBoolean() -> a
    geogebra.gui.view.spreadsheet.MyCellEditorButton getEditorButton() -> a
    geogebra.gui.view.spreadsheet.MyCellEditorList getEditorList() -> a
    void updateColumnCount() -> c
    javax.swing.table.TableCellEditor getCellEditor(int,int) -> getCellEditor
    void setEnableAutoComplete(boolean) -> a
    void setEqualsRequired(boolean) -> b
    int preferredColumnWidth() -> b
    void setPreferredColumnWidth(int) -> a
    void changeSelection(int,int,boolean,boolean) -> changeSelection
    void selectAll() -> selectAll
    void selectionChanged() -> b
    void setInitialCellSelection(int,int) -> a
    boolean setSelection(java.lang.String) -> a
    boolean setSelection(int,int) -> a
    boolean setSelection(int,int,int,int) -> a
    boolean setSelection(geogebra.common.gui.view.spreadsheet.CellRange) -> a
    void setSelectionType(int) -> b
    int getSelectionType() -> a
    void setRowSelectionInterval(int,int) -> setRowSelectionInterval
    void setColumnSelectionInterval(int,int) -> setColumnSelectionInterval
    boolean isSelectNone() -> a
    void setSelectNone(boolean) -> c
    boolean isSelectAll() -> b
    void setSelectAll(boolean) -> d
    java.util.ArrayList getSelectedColumnsList() -> b
    int[] getSelectedColumns() -> getSelectedColumns
    void setSelectionRectangleColor(java.awt.Color) -> a
    geogebra.common.awt.GPoint getPixel(int,int,boolean) -> a
    geogebra.common.awt.GPoint getMinSelectionPixel() -> a
    geogebra.common.awt.GPoint getMaxSelectionPixel() -> b
    geogebra.common.awt.GPoint getIndexFromPixel(int,int) -> a
    java.awt.Rectangle getCellBlockRect(int,int,int,int,boolean) -> a
    java.awt.Rectangle getSelectionRect(boolean) -> a
    void setTargetcellFrame(java.awt.Rectangle) -> a
    boolean showCanDragBlueDot() -> d
    void paint(java.awt.Graphics) -> paint
    boolean editCellAt(int,int) -> editCellAt
    void handleControlDragSelect(java.awt.event.MouseEvent) -> a
    int convertColumnIndexToModel(int) -> convertColumnIndexToModel
    void setAllowEditing(boolean) -> e
    boolean isCellEditable(int,int) -> isCellEditable
    void updateEditor(java.lang.String) -> b
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setRowHeight(int,int) -> setRowHeight
    void setRowHeight(int) -> setRowHeight
    void resetRowHeights() -> d
    void resizeMarkedCells() -> e
    void setPreferredCellSize(int,int,boolean,boolean) -> a
    void fitColumn(int) -> c
    void fitRow(int) -> d
    void fitAll(boolean,boolean) -> a
    void configureEnclosingScrollPane() -> configureEnclosingScrollPane
    int getTableMode() -> c
    void setTableMode(int) -> e
    boolean initAutoFunction() -> e
    void performAutoFunctionCreation(geogebra.common.gui.view.spreadsheet.CellRange) -> a
    void stopAutoFunction() -> f
    boolean createAutoFunctionCell(geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.spreadsheet.CellRange) -> a
    void updateAutoFunction() -> g
    void copy(boolean) -> f
    boolean paste() -> f
    boolean cut() -> g
    boolean delete() -> h
    java.awt.Cursor createCursor(java.awt.Image,boolean) -> a
    void updateCellFormat(java.lang.String) -> a
    boolean allowSpecialEditor() -> c
    void repaintAll() -> a
    geogebra.common.gui.view.spreadsheet.SpreadsheetViewInterface getView() -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> a
geogebra.gui.view.spreadsheet.MyTableD$MyTableColumnModelListener -> geogebra.gui.m.h.p$a:
    geogebra.gui.view.spreadsheet.MyTableD this$0 -> a
    void columnMarginChanged(javax.swing.event.ChangeEvent) -> columnMarginChanged
    void columnAdded(javax.swing.event.TableColumnModelEvent) -> columnAdded
    void columnMoved(javax.swing.event.TableColumnModelEvent) -> columnMoved
    void columnRemoved(javax.swing.event.TableColumnModelEvent) -> columnRemoved
    void columnSelectionChanged(javax.swing.event.ListSelectionEvent) -> columnSelectionChanged
geogebra.gui.view.spreadsheet.MyTableD$MyTableModelListener -> geogebra.gui.m.h.p$b:
    geogebra.gui.view.spreadsheet.MyTableD this$0 -> a
    void tableChanged(javax.swing.event.TableModelEvent) -> tableChanged
geogebra.gui.view.spreadsheet.SpreadsheetBorders -> geogebra.gui.m.h.q:
    void drawFormatBorders(java.awt.Graphics2D,geogebra.gui.view.spreadsheet.MyTableD) -> a
    void handleRowOrColumnGridFormat(java.awt.Graphics2D,geogebra.gui.view.spreadsheet.MyTableD,int,int,byte) -> a
    void drawPartialBorder(java.awt.Graphics2D,geogebra.gui.view.spreadsheet.MyTableD,int,int,int,int,byte) -> a
    void drawRowBorder(java.awt.Graphics2D,geogebra.gui.view.spreadsheet.MyTableD,int) -> a
    void drawColumnBorder(java.awt.Graphics2D,geogebra.gui.view.spreadsheet.MyTableD,int) -> b
    boolean isZeroBit(int,int) -> a
geogebra.gui.view.spreadsheet.SpreadsheetColumnController -> geogebra.gui.m.h.r:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    javax.swing.table.DefaultTableModel model -> a
    int column0 -> a
    boolean isResizing -> a
    int overTraceButtonColumn -> b
    geogebra.main.LocalizationD loc -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    geogebra.main.AppD access$0(geogebra.gui.view.spreadsheet.SpreadsheetColumnController) -> a
    geogebra.main.LocalizationD access$1(geogebra.gui.view.spreadsheet.SpreadsheetColumnController) -> a
    geogebra.gui.view.spreadsheet.MyTableD access$2(geogebra.gui.view.spreadsheet.SpreadsheetColumnController) -> a
geogebra.gui.view.spreadsheet.SpreadsheetColumnController$ColumnHeaderRenderer -> geogebra.gui.m.h.r$a:
    java.awt.Color defaultBackground -> a
    javax.swing.JLabel lblHeader -> a
    javax.swing.JButton btnTrace -> a
    java.awt.BorderLayout layout -> a
    javax.swing.ImageIcon pauseIcon -> a
    javax.swing.ImageIcon recordIcon -> b
    java.awt.Rectangle rect -> a
    geogebra.gui.view.spreadsheet.SpreadsheetColumnController this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
    boolean isOverTraceButton(int,java.awt.Point,java.lang.Object) -> a
geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD -> geogebra.gui.m.h.s:
    javax.swing.JPopupMenu popup -> a
    java.awt.Color bgColor -> a
    java.awt.Color fgColor -> b
    int[] $SWITCH_TABLE$geogebra$common$gui$view$spreadsheet$SpreadsheetContextMenu$MenuCommand -> a
    boolean enableDataImport() -> a
    void cmdImportDataFile() -> h
    java.lang.Object getMenuContainer() -> a
    void createGUI() -> k
    void setTitle(java.lang.String) -> b
    void addMenuItem(java.lang.String,java.lang.String,boolean) -> a
    void addCheckBoxMenuItem(java.lang.String,java.lang.String,boolean) -> b
    java.lang.Object addSubMenu(java.lang.String,java.lang.String) -> a
    void addSubMenuItem(java.lang.Object,java.lang.String,java.lang.String,boolean) -> a
    void addSeparator() -> l
    void addItem(java.lang.Object) -> a
    void addSubItem(java.lang.Object,java.lang.Object) -> a
    javax.swing.ImageIcon getIcon(java.lang.String) -> a
    int[] $SWITCH_TABLE$geogebra$common$gui$view$spreadsheet$SpreadsheetContextMenu$MenuCommand() -> b
geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD$1 -> geogebra.gui.m.h.t:
    geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD this$0 -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD$2 -> geogebra.gui.m.h.u:
    geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD this$0 -> a
    java.lang.String val$cmdString -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD$3 -> geogebra.gui.m.h.v:
    geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD this$0 -> a
    java.lang.String val$cmdString -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD$4 -> geogebra.gui.m.h.w:
    geogebra.gui.view.spreadsheet.SpreadsheetContextMenuD this$0 -> a
    java.lang.String val$cmdString -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.spreadsheet.SpreadsheetKeyListener -> geogebra.gui.m.h.x:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    javax.swing.table.DefaultTableModel model -> a
    geogebra.gui.view.spreadsheet.MyCellEditor editor -> a
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void letterOrDigitTyped() -> a
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
geogebra.gui.view.spreadsheet.SpreadsheetKeyListener$1 -> geogebra.gui.m.h.y:
    geogebra.gui.view.spreadsheet.SpreadsheetKeyListener this$0 -> a
    javax.swing.text.JTextComponent val$f -> a
    void run() -> run
geogebra.gui.view.spreadsheet.SpreadsheetMouseListener -> geogebra.gui.m.h.z:
    java.lang.String selectedCellName -> a
    java.lang.String prefix0 -> b
    java.lang.String postfix0 -> c
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    javax.swing.table.DefaultTableModel model -> a
    geogebra.gui.view.spreadsheet.MyCellEditor editor -> a
    geogebra.common.gui.view.spreadsheet.RelativeCopy relativeCopy -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void handleAutoFillDown() -> a
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void setTableCursor() -> b
geogebra.gui.view.spreadsheet.SpreadsheetRowHeader -> geogebra.gui.m.h.A:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    geogebra.gui.view.spreadsheet.SpreadsheetRowHeader$MyListModel listModel -> a
    int minSelectionRow -> b
    int maxSelectionRow -> c
    java.awt.Cursor resizeCursor -> a
    java.awt.Cursor otherCursor -> b
    int mouseYOffset -> d
    int resizingRow -> e
    boolean doRowResize -> a
    int row0 -> a
    void updateRowHeader() -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
    int getResizingRow(java.awt.Point) -> a
    void swapCursor() -> b
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void keyTyped(java.awt.event.KeyEvent) -> keyTyped
    void keyPressed(java.awt.event.KeyEvent) -> keyPressed
    void keyReleased(java.awt.event.KeyEvent) -> keyReleased
    geogebra.main.AppD access$0(geogebra.gui.view.spreadsheet.SpreadsheetRowHeader) -> a
    geogebra.gui.view.spreadsheet.MyTableD access$1(geogebra.gui.view.spreadsheet.SpreadsheetRowHeader) -> a
    int access$2(geogebra.gui.view.spreadsheet.SpreadsheetRowHeader) -> a
    int access$3(geogebra.gui.view.spreadsheet.SpreadsheetRowHeader) -> b
geogebra.gui.view.spreadsheet.SpreadsheetRowHeader$MyListModel -> geogebra.gui.m.h.A$a:
    javax.swing.table.DefaultTableModel model -> a
    int getSize() -> getSize
    java.lang.Object getElementAt(int) -> getElementAt
    java.lang.Void changed() -> a
geogebra.gui.view.spreadsheet.SpreadsheetRowHeader$RowHeaderRenderer -> geogebra.gui.m.h.A$b:
    javax.swing.JList rowHeader -> a
    java.awt.Color defaultBackground -> a
    geogebra.gui.view.spreadsheet.SpreadsheetRowHeader this$0 -> a
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.view.spreadsheet.SpreadsheetStyleBar -> geogebra.gui.m.h.B:
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    geogebra.common.gui.view.spreadsheet.CellFormat formatHandler -> a
    java.util.ArrayList selectedCells -> a
    geogebra.gui.util.MyToggleButton btnFormulaBar -> a
    geogebra.gui.util.MyToggleButton btnLeftAlign -> b
    geogebra.gui.util.MyToggleButton btnCenterAlign -> c
    geogebra.gui.util.MyToggleButton btnRightAlign -> d
    geogebra.gui.color.ColorPopupMenuButton btnBgColor -> a
    geogebra.gui.util.MyToggleButton btnBold -> e
    geogebra.gui.util.MyToggleButton btnItalic -> f
    boolean allowActionPerformed -> a
    geogebra.gui.util.PopupMenuButton btnBorderStyle -> a
    int iconHeight -> a
    java.awt.Dimension iconDimension -> a
    geogebra.main.LocalizationD loc -> a
    void reinit() -> a
    void createButtons() -> d
    void setLabels() -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void updateStyleBar() -> c
geogebra.gui.view.spreadsheet.SpreadsheetStyleBar$1 -> geogebra.gui.m.h.C:
    geogebra.gui.view.spreadsheet.SpreadsheetStyleBar this$0 -> a
    java.awt.Dimension val$bgColorIconSize -> a
    javax.swing.ImageIcon getButtonIcon() -> a
geogebra.gui.view.spreadsheet.SpreadsheetToolbarManager -> geogebra.gui.m.h.D:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    geogebra.gui.view.spreadsheet.CreateObjectDialog id -> a
    void handleModeChange(int) -> a
geogebra.gui.view.spreadsheet.SpreadsheetView -> geogebra.gui.m.h.E:
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    javax.swing.JPanel spreadsheetWrapper -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    geogebra.main.SpreadsheetTableModelD tableModel -> a
    geogebra.gui.view.spreadsheet.SpreadsheetRowHeader rowHeader -> a
    javax.swing.table.JTableHeader tableHeader -> a
    int DEFAULT_COLUMN_WIDTH -> a
    geogebra.gui.view.spreadsheet.TraceDialog traceDialog -> a
    javax.swing.JButton btnTraceDialog -> a
    javax.swing.JScrollPane spreadsheet -> a
    int defaultDividerLocation -> b
    geogebra.gui.view.spreadsheet.SpreadsheetStyleBar styleBar -> a
    geogebra.gui.view.spreadsheet.SpreadsheetToolbarManager toolbarManager -> a
    int mode -> c
    geogebra.gui.view.spreadsheet.FormulaBar formulaBar -> a
    javax.swing.JPanel spreadsheetPanel -> b
    geogebra.gui.view.spreadsheet.SpreadsheetViewDnD dndHandler -> a
    boolean scrollToShow -> b
    boolean allowSettingUpate -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass -> a
    void createGUI() -> t
    void buildSpreadsheet() -> u
    geogebra.gui.view.spreadsheet.SpreadsheetView$Corner newUpperLeftCorner() -> a
    void setDefaultSelection() -> b
    geogebra.main.AppD getApplication() -> b
    geogebra.common.gui.view.spreadsheet.MyTableInterface getSpreadsheetTable() -> a
    javax.swing.JViewport getRowHeader() -> a
    void rowHeaderRevalidate() -> a
    javax.swing.JViewport getColumnHeader() -> b
    javax.swing.table.JTableHeader getTableHeader() -> a
    int getMode() -> b
    geogebra.gui.view.spreadsheet.SpreadsheetStyleBar getSpreadsheetStyleBar() -> a
    void attachView() -> d
    void detachView() -> e
    void add(geogebra.common.kernel.geos.GeoElement) -> c
    void remove(geogebra.common.kernel.geos.GeoElement) -> d
    void rename(geogebra.common.kernel.geos.GeoElement) -> a
    void updateAuxiliaryObject(geogebra.common.kernel.geos.GeoElement) -> b
    void repaintView() -> c
    void clearView() -> f
    void setMode(int,geogebra.common.kernel.ModeSetter) -> a
    void restart() -> g
    void reset() -> j
    void update(geogebra.common.kernel.geos.GeoElement) -> e
    void updateVisualStyle(geogebra.common.kernel.geos.GeoElement) -> f
    boolean isShowing() -> isShowing
    void setScrollToShow(boolean) -> a
    geogebra.gui.view.spreadsheet.FormulaBar getFormulaBar() -> a
    void updateFormulaBar() -> h
    void showTraceDialog(geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.spreadsheet.CellRange) -> a
    boolean isTraceDialogVisible() -> a
    geogebra.common.gui.view.spreadsheet.CellRange getTraceSelectionRange(int,int) -> a
    void setTraceDialogMode(boolean) -> b
    void updateFonts() -> i
    void updateColumnWidths() -> m
    void setColumnWidthsFromSettings() -> n
    void setRowHeightsFromSettings() -> o
    void updateRowHeader() -> p
    void setSpreadsheetScrollPosition(int,int) -> a
    void expandSpreadsheetToViewport() -> q
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
    boolean loadSpreadsheetFromURL(java.io.File) -> a
    boolean loadSpreadsheetFromURL(java.net.URL) -> a
    void setEnableAutoComplete(boolean) -> c
    void setShowRowHeader(boolean) -> d
    void setShowColumnHeader(boolean) -> e
    void setShowVScrollBar(boolean) -> f
    void setShowHScrollBar(boolean) -> g
    void setShowGrid(boolean) -> h
    boolean getAllowToolTips() -> b
    void setAllowToolTips(boolean) -> i
    void setShowFormulaBar(boolean) -> j
    boolean getShowFormulaBar() -> c
    boolean isVisibleStyleBar() -> d
    void setColumnSelect(boolean) -> k
    boolean isColumnSelect() -> e
    void setAllowSpecialEditor(boolean) -> l
    boolean allowSpecialEditor() -> f
    void setEqualsRequired(boolean) -> m
    void updateCellFormat(java.lang.String) -> a
    void updateRowHeightSetting(int,int) -> b
    void updatePreferredRowHeight(int) -> a
    void updateAllColumnWidthSettings() -> r
    geogebra.common.main.settings.SpreadsheetSettings settings() -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    boolean hasViewFocus() -> g
    void requestFocus() -> s
    boolean hasFocus() -> hasFocus
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    int getViewID() -> a
    int[] getGridColwidths() -> a
    int[] getGridRowHeights() -> b
    java.awt.Component[][] getPrintComponents() -> a
    void startBatchUpdate() -> k
    void endBatchUpdate() -> l
    javax.swing.JComponent getViewContainer() -> a
    geogebra.gui.view.spreadsheet.MyTableD access$1(geogebra.gui.view.spreadsheet.SpreadsheetView) -> a
    int[] $SWITCH_TABLE$geogebra$common$plugin$GeoClass() -> c
geogebra.gui.view.spreadsheet.SpreadsheetView$1 -> geogebra.gui.m.h.F:
    geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
geogebra.gui.view.spreadsheet.SpreadsheetView$2 -> geogebra.gui.m.h.G:
    geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a
geogebra.gui.view.spreadsheet.SpreadsheetView$3 -> geogebra.gui.m.h.H:
    geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.view.spreadsheet.SpreadsheetView$Corner -> geogebra.gui.m.h.E$a:
    void paintComponent(java.awt.Graphics) -> paintComponent
geogebra.gui.view.spreadsheet.SpreadsheetViewDnD -> geogebra.gui.m.h.I:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.gui.view.spreadsheet.MyTableD table -> a
    java.awt.dnd.DragSource ds -> a
    java.awt.dnd.DropTarget dt -> a
    geogebra.common.awt.GPoint currentCell -> a
    boolean isTranspose -> b
    boolean isCopyByValue -> c
    boolean allowDrop -> a
    java.awt.datatransfer.DataFlavor HTMLflavor -> a
    void setAllowDrop(boolean) -> a
    boolean isTranspose() -> a
    void setTranspose(boolean) -> b
    boolean isCopyByValue() -> b
    void setCopyByValue(boolean) -> c
    void dragGestureRecognized(java.awt.dnd.DragGestureEvent) -> dragGestureRecognized
    void dragDropEnd(java.awt.dnd.DragSourceDropEvent) -> dragDropEnd
    void dragEnter(java.awt.dnd.DragSourceDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DragSourceEvent) -> dragExit
    void dragOver(java.awt.dnd.DragSourceDragEvent) -> dragOver
    void dropActionChanged(java.awt.dnd.DragSourceDragEvent) -> dropActionChanged
    void dragEnter(java.awt.dnd.DropTargetDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DropTargetEvent) -> dragExit
    void dragOver(java.awt.dnd.DropTargetDragEvent) -> dragOver
    void drop(java.awt.dnd.DropTargetDropEvent) -> drop
    boolean handleHtmlFlavorDrop(java.awt.dnd.DropTargetDropEvent) -> a
    void handleDropComplete(java.awt.dnd.DropTargetDropEvent,boolean) -> a
    void dropActionChanged(java.awt.dnd.DropTargetDragEvent) -> dropActionChanged
geogebra.gui.view.spreadsheet.TraceDialog -> geogebra.gui.m.h.J:
    geogebra.main.AppD app -> a
    geogebra.gui.view.spreadsheet.SpreadsheetView view -> a
    geogebra.common.main.SpreadsheetTraceManager traceManager -> a
    geogebra.common.kernel.geos.GeoElement geo -> a
    javax.swing.JList traceGeoList -> a
    javax.swing.DefaultListModel traceGeoListModel -> a
    javax.swing.JSplitPane splitPane -> a
    javax.swing.JPanel tabbedPane -> a
    javax.swing.JPanel optionsPanel -> b
    javax.swing.JPanel listPanel -> c
    javax.swing.JPanel promptPanel -> d
    javax.swing.JPanel buttonPanel -> e
    javax.swing.JPanel leftButtonPanel -> f
    javax.swing.JTextField firstRowField -> a
    javax.swing.JTextField numRowsField -> b
    javax.swing.JCheckBox cbResetColumns -> a
    javax.swing.JCheckBox cbRowLimit -> b
    javax.swing.JCheckBox cbShowLabel -> c
    javax.swing.JCheckBox cbTraceList -> d
    javax.swing.JRadioButton traceModeValues -> a
    javax.swing.JRadioButton traceModeCopy -> b
    javax.swing.border.TitledBorder traceModeTitle -> a
    javax.swing.border.TitledBorder locationTitle -> b
    javax.swing.border.TitledBorder optionsTitle -> c
    javax.swing.JButton btRemove -> a
    javax.swing.JButton btAdd -> b
    javax.swing.JButton btClose -> c
    javax.swing.JButton btCancel -> d
    javax.swing.JButton btErase -> e
    javax.swing.JLabel prompt -> a
    int mode -> a
    geogebra.common.gui.view.spreadsheet.CellRange newTraceLocation -> a
    boolean isIniting -> a
    javax.swing.JLabel lblStartRow -> b
    geogebra.main.LocalizationD loc -> a
    java.lang.StringBuilder sb -> a
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$TraceModesEnum -> a
    void setTraceDialogSelection(geogebra.common.kernel.geos.GeoElement,geogebra.common.gui.view.spreadsheet.CellRange) -> a
    void setVisible(boolean) -> setVisible
    void initGUI() -> d
    javax.swing.JPanel buildListPanel() -> a
    javax.swing.JPanel buildLocationPanel() -> b
    javax.swing.JPanel buildTraceModePanel() -> c
    javax.swing.JPanel buildOptionsPanel() -> d
    javax.swing.JPanel buildButtonPanel() -> e
    void setLabels() -> a
    void setTraceModeLabels() -> e
    void updateGUI() -> f
    void updateTraceGeoList() -> g
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void doActionPerformed(java.lang.Object) -> a
    void doTextFieldActionPerformed(javax.swing.JTextField) -> a
    void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged
    void geoElementSelected(geogebra.common.kernel.geos.GeoElement,boolean) -> a
    void addTrace(geogebra.common.kernel.geos.GeoElement) -> a
    void removeTrace() -> h
    geogebra.common.kernel.geos.GeoElement getSelectedGeo() -> a
    geogebra.common.util.SpreadsheetTraceSettings getSettings() -> a
    void updateSelectedTraceGeo() -> i
    void clearSelectedTraceGeo() -> j
    geogebra.common.gui.view.spreadsheet.CellRange getTraceSelectionRange(int,int) -> a
    void focusGained(java.awt.event.FocusEvent) -> focusGained
    void focusLost(java.awt.event.FocusEvent) -> focusLost
    void setMode(int) -> b
    void toolbarModeChanged(int) -> a
    void updateTraceDialog() -> b
    void closeDialog() -> c
    void windowActivated(java.awt.event.WindowEvent) -> windowActivated
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated
    void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified
    void windowIconified(java.awt.event.WindowEvent) -> windowIconified
    void windowOpened(java.awt.event.WindowEvent) -> windowOpened
    int[] $SWITCH_TABLE$geogebra$common$kernel$geos$GeoElement$TraceModesEnum() -> a
geogebra.gui.view.spreadsheet.TraceDialog$MyCellRenderer -> geogebra.gui.m.h.J$a:
    java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent
geogebra.gui.virtualkeyboard.Keyboard -> geogebra.gui.virtualkeyboard.a:
    java.awt.Robot robot -> a
    void type(boolean,boolean,boolean,java.lang.CharSequence) -> a
    void type(char) -> a
    void doType(boolean,boolean,boolean,java.lang.String) -> a
    void doType(boolean,boolean,boolean,int[]) -> a
    void doType(int[]) -> a
    void doType(int[],int,int) -> a
geogebra.gui.virtualkeyboard.KeyboardKeys -> geogebra.gui.virtualkeyboard.b:
    java.lang.String UpperCase -> a
    java.lang.String LowerCase -> b
    java.lang.String getUpperCase() -> a
    void setUpperCase(java.lang.String) -> a
    java.lang.String getLowerCase() -> b
    void setLowerCase(java.lang.String) -> b
geogebra.gui.virtualkeyboard.VirtualKeyboard -> geogebra.gui.virtualkeyboard.VirtualKeyboard:
    javax.swing.JButton SpaceButton -> a
    javax.swing.JButton DummyButton -> b
    javax.swing.JToggleButton CapsLockButton -> a
    javax.swing.JToggleButton AltButton -> b
    javax.swing.JToggleButton AltGrButton -> c
    javax.swing.JToggleButton CtrlButton -> d
    javax.swing.JToggleButton MathButton -> e
    javax.swing.JToggleButton NumericButton -> f
    javax.swing.JToggleButton GreekButton -> g
    javax.swing.JToggleButton EnglishButton -> h
    java.lang.String ctrlText -> a
    java.lang.String altText -> b
    java.lang.String altGrText -> c
    java.lang.String escText -> d
    geogebra.main.AppD app -> a
    char wideChar -> r
    int buttonRows -> a
    int buttonCols -> b
    int buttonRowsNum -> c
    int buttonColsNum -> d
    double buttonSizeX -> a
    double buttonSizeY -> b
    double horizontalMultiplier -> c
    double verticalMultiplier -> d
    javax.swing.JButton[][] Buttons -> a
    int windowWidth -> e
    int windowHeight -> f
    float opacity -> a
    java.awt.Font currentFont -> a
    java.awt.Font[] fonts -> a
    java.lang.String fontName -> e
    boolean shrink -> a
    char KEYBOARD_NORMAL -> a
    char KEYBOARD_MATH -> b
    char KEYBOARD_NUMERIC -> c
    char KEYBOARD_ACUTE -> d
    char KEYBOARD_GRAVE -> e
    char KEYBOARD_UMLAUT -> f
    char KEYBOARD_CEDILLA -> g
    char KEYBOARD_CARON -> h
    char KEYBOARD_CIRCUMFLEX -> i
    char KEYBOARD_BREVE -> j
    char KEYBOARD_TILDE -> k
    char KEYBOARD_OGONEK -> l
    char KEYBOARD_DOT_ABOVE -> m
    char KEYBOARD_RING_ABOVE -> n
    char KEYBOARD_DIALYTIKA_TONOS -> o
    char KEYBOARD_DOUBLE_ACUTE -> p
    char KEYBOARD_SOLIDUS -> q
    char KEYBOARD_MODE -> s
    java.lang.StringBuilder sbAlt -> a
    java.lang.StringBuilder sb -> b
    java.util.HashMap characterIsTooWide -> a
    java.util.HashMap fontsHash -> b
    java.util.Hashtable myKeys -> a
    java.util.Locale kbLocale -> a
    geogebra.gui.virtualkeyboard.WindowsUnicodeKeyboard kb -> a
    javax.swing.Timer timer -> a
    java.lang.String timerInsertStr -> f
    void setFonts() -> h
    void updateOpacity() -> i
    void windowResized() -> b
    void initialize() -> j
    void updateButtons() -> c
    javax.swing.JButton getSpaceButton() -> a
    javax.swing.JButton getDummyButton() -> b
    void updateSpaceButton() -> k
    void updateCapsLockButton() -> l
    void updateCtrlButton() -> d
    void updateAltButton() -> e
    void updateAltGrButton() -> f
    void updateMathButton() -> m
    void updateNumericButton() -> n
    void setColor(javax.swing.JToggleButton) -> a
    void updateGreekButton() -> o
    void updateEnglishButton() -> p
    double minButtonSize() -> a
    javax.swing.JToggleButton getCapsLockButton() -> c
    javax.swing.JToggleButton getAltButton() -> d
    javax.swing.JToggleButton getAltGrButton() -> e
    javax.swing.JToggleButton getCtrlButton() -> f
    javax.swing.JToggleButton getMathButton() -> g
    void toggleNumeric(boolean) -> a
    javax.swing.JToggleButton getNumericButton() -> h
    boolean greek() -> a
    javax.swing.JToggleButton getGreekButton() -> a
    boolean english() -> b
    javax.swing.JToggleButton getEnglishButton() -> b
    void populateContentPane() -> q
    void insertText(java.lang.String) -> a
    java.lang.StringBuilder getAltStringBuilder() -> a
    void setMode(char,java.util.Locale) -> a
    boolean Upper() -> c
    void insertKeyText(geogebra.gui.virtualkeyboard.KeyboardKeys) -> a
    geogebra.gui.virtualkeyboard.KeyboardKeys getKey(int,int) -> a
    javax.swing.JButton getButton(int,int) -> a
    void buttonPressed(int,int) -> a
    java.lang.String processSpecialKeys(java.lang.String) -> a
    java.lang.String unicodeString(char,java.lang.String) -> a
    void updateButton(int,int) -> b
    void setTooltip(int,int) -> c
    java.awt.Font getCurrentFont() -> a
    java.awt.Font getFont(int,boolean) -> a
    void setKbLocale(java.util.Locale) -> a
    void readConf(geogebra.main.AppD,java.util.Locale,boolean) -> a
    void setLabels() -> x_
    void doSetLabels() -> r
    geogebra.gui.virtualkeyboard.WindowsUnicodeKeyboard getKeyboard() -> a
    void startAutoRepeat(java.lang.String) -> b
    void insertAutoRepeatString() -> s
    void stopAutoRepeat() -> g
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void setWindowWidth(int) -> a
    void setWindowHeight(int) -> b
    void setKeyboardOpacity(float) -> a
    void settingsChanged(geogebra.common.main.settings.AbstractSettings) -> a
    char getKeyboardMode() -> a
    void setKEYBOARD_MODE(char) -> a
geogebra.gui.virtualkeyboard.VirtualKeyboard$1 -> geogebra.gui.virtualkeyboard.c:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    geogebra.main.AppD val$app -> a
    void windowClosed(java.awt.event.WindowEvent) -> windowClosed
    void windowActivated(java.awt.event.WindowEvent) -> windowActivated
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
    void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated
    void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified
    void windowIconified(java.awt.event.WindowEvent) -> windowIconified
    void windowOpened(java.awt.event.WindowEvent) -> windowOpened
geogebra.gui.virtualkeyboard.VirtualKeyboard$10 -> geogebra.gui.virtualkeyboard.d:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$11 -> geogebra.gui.virtualkeyboard.e:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$12 -> geogebra.gui.virtualkeyboard.f:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$13 -> geogebra.gui.virtualkeyboard.g:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    int val$i -> a
    int val$j -> b
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
geogebra.gui.virtualkeyboard.VirtualKeyboard$14 -> geogebra.gui.virtualkeyboard.h:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    int val$i -> a
    int val$j -> b
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$2 -> geogebra.gui.virtualkeyboard.i:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
geogebra.gui.virtualkeyboard.VirtualKeyboard$3 -> geogebra.gui.virtualkeyboard.j:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void run() -> run
geogebra.gui.virtualkeyboard.VirtualKeyboard$4 -> geogebra.gui.virtualkeyboard.k:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$5 -> geogebra.gui.virtualkeyboard.l:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$6 -> geogebra.gui.virtualkeyboard.m:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$7 -> geogebra.gui.virtualkeyboard.n:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$8 -> geogebra.gui.virtualkeyboard.o:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.VirtualKeyboard$9 -> geogebra.gui.virtualkeyboard.p:
    geogebra.gui.virtualkeyboard.VirtualKeyboard this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.gui.virtualkeyboard.WindowsUnicodeKeyboard -> geogebra.gui.virtualkeyboard.q:
    java.awt.Robot robot -> b
    void type(char) -> a
    void typeNumPad(int) -> a
geogebra.io.MyImageIO -> geogebra.f.a:
    void write(java.awt.image.BufferedImage,java.lang.String,float,java.io.File) -> a
    void writeImage(javax.imageio.ImageWriter,java.awt.image.BufferedImage,double) -> a
geogebra.io.MyXMLioD -> geogebra.f.b:
    geogebra.common.io.DocHandler handler -> a
    geogebra.common.io.DocHandler ggbDocHandler -> b
    geogebra.common.io.QDParser xmlParser -> a
    geogebra.common.io.DocHandler getGGBHandler() -> a
    void readZipFromInputStream(java.io.InputStream,boolean) -> a
    void readZipFromString(byte[]) -> a
    void readZip(java.util.zip.ZipInputStream,boolean) -> a
    java.awt.image.BufferedImage getPreviewImage(java.io.File) -> a
    void processXMLBuffer(byte[],boolean,boolean) -> a
    void doParseXML(java.io.Reader,boolean,boolean,boolean,boolean) -> a
    void readZipFromMemory(java.io.InputStream) -> a
    void processXMLString(java.lang.String,boolean,boolean,boolean) -> a
    void writeGeoGebraFile(java.io.File) -> a
    void writeGeoGebraFile(java.io.OutputStream,boolean) -> a
    void writeMacroFile(java.io.File,java.util.ArrayList) -> a
    void writeMacroStream(java.io.OutputStream,java.util.ArrayList) -> a
    void writeConstructionImages(geogebra.common.kernel.Construction,java.util.zip.ZipOutputStream) -> a
    void writeConstructionImages(geogebra.common.kernel.Construction,java.util.zip.ZipOutputStream,java.lang.String) -> a
    void writeThumbnail(geogebra.common.kernel.Construction,java.util.zip.ZipOutputStream,java.lang.String) -> b
    void writeMacroImages(java.util.ArrayList,java.util.zip.ZipOutputStream) -> a
    void writeMacroImages(java.util.ArrayList,java.util.zip.ZipOutputStream,java.lang.String) -> a
    void writeImageToZip(java.util.zip.ZipOutputStream,java.lang.String,java.awt.image.BufferedImage) -> a
    void writeImageToStream(java.io.OutputStream,java.lang.String,java.awt.image.BufferedImage) -> a
    void writeZipped(java.io.OutputStream,java.lang.StringBuilder) -> a
geogebra.javax.swing.BoxD -> geogebra.g.a.a:
    javax.swing.Box impl -> a
    javax.swing.Box getImpl() -> a
    void add(geogebra.common.javax.swing.GLabel) -> a
    void add(geogebra.common.gui.inputfield.AutoCompleteTextField) -> a
    void setVisible(boolean) -> a
    void setBounds(geogebra.common.awt.GRectangle) -> a
    geogebra.common.awt.GDimension getPreferredSize() -> a
    geogebra.common.awt.GRectangle getBounds() -> a
    void validate() -> a
    void revalidate() -> b
    void add(geogebra.common.javax.swing.AbstractJComboBox) -> a
geogebra.javax.swing.GComboBoxD -> geogebra.g.a.b:
    javax.swing.JComboBox impl -> a
    int selectedIndex -> a
    void setVisible(boolean) -> a
    java.lang.Object getItemAt(int) -> a
    void setFont(geogebra.common.awt.GFont) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setBackground(geogebra.common.awt.GColor) -> b
    void setFocusable(boolean) -> b
    void setEditable(boolean) -> c
    void addItem(java.lang.String) -> a
    void setSelectedIndex(int) -> a
    int getSelectedIndex() -> a
    java.awt.Component getJComboBox(geogebra.common.javax.swing.AbstractJComboBox) -> a
    void addActionListener(geogebra.common.euclidian.event.ActionListener) -> a
    void removeAllItems() -> a
    int getItemCount() -> b
geogebra.javax.swing.GImageIconD -> geogebra.g.a.c:
    javax.swing.ImageIcon impl -> a
    javax.swing.ImageIcon getImpl() -> a
geogebra.javax.swing.GLabelD -> geogebra.g.a.d:
    javax.swing.JLabel impl -> a
    javax.swing.JLabel getImpl() -> a
    void setVisible(boolean) -> a
    void setText(java.lang.String) -> a
    void setOpaque(boolean) -> b
    void setFont(geogebra.common.awt.GFont) -> a
    void setForeground(geogebra.common.awt.GColor) -> a
    void setBackground(geogebra.common.awt.GColor) -> b
geogebra.javax.swing.GPanelD -> geogebra.g.a.e:
    javax.swing.JPanel impl -> a
    javax.swing.JPanel getImpl() -> a
    void setVisible(boolean) -> a
geogebra.javax.swing.GPopupMenuD -> geogebra.g.a.f:
    javax.swing.JPopupMenu impl -> a
    javax.swing.JPopupMenu getImpl(geogebra.common.javax.swing.GPopupMenu) -> a
geogebra.javax.swing.GTextComponentD -> geogebra.g.a.g:
    javax.swing.text.JTextComponent impl -> a
    void replaceSelection(java.lang.String) -> a
    geogebra.javax.swing.GTextComponentD wrap(javax.swing.text.JTextComponent) -> a
    javax.swing.text.JTextComponent getImpl() -> a
geogebra.javax.swing.RelationPaneD -> geogebra.g.a.h:
    javax.swing.JFrame frame -> a
    java.lang.String[] columnNames -> a
    java.lang.Object[][] data -> a
    javax.swing.table.DefaultTableModel model -> a
    javax.swing.JTable table -> a
    geogebra.common.gui.util.RelationMore[] callbacks -> a
    boolean areCallbacks -> a
    int morewidth -> a
    int ORIG_INFOWIDTH -> b
    int INFOWIDTH -> c
    double ROWHEIGHT -> a
    int ORIG_ROWHEIGHT -> d
    int MARGIN -> e
    int ROWMARGIN -> f
    int ORIG_MOREWIDTH -> g
    int MOREWIDTH -> h
    int ORIG_OKHEIGHT -> i
    int OKHEIGHT -> j
    int ORIG_OKWIDTH -> k
    int OKWIDTH -> l
    void showDialog(java.lang.String,geogebra.common.javax.swing.RelationPane$RelationRow[],geogebra.common.main.App) -> a
    int countLines(java.lang.String) -> b
    void updateRow(int,geogebra.common.javax.swing.RelationPane$RelationRow) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    int access$0(geogebra.javax.swing.RelationPaneD) -> a
    int access$1(java.lang.String) -> a
geogebra.javax.swing.RelationPaneD$1 -> geogebra.g.a.i:
    geogebra.javax.swing.RelationPaneD this$0 -> a
    boolean isCellEditable(int,int) -> isCellEditable
geogebra.javax.swing.RelationPaneD$2 -> geogebra.g.a.j:
    geogebra.javax.swing.RelationPaneD this$0 -> a
    geogebra.common.javax.swing.RelationPane$RelationRow[] val$relations -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
geogebra.javax.swing.RelationPaneD$ClientsTableButtonRenderer -> geogebra.g.a.h$a:
    geogebra.javax.swing.RelationPaneD this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.javax.swing.RelationPaneD$ClientsTableRenderer -> geogebra.g.a.h$b:
    javax.swing.JButton button -> a
    java.lang.String label -> a
    boolean clicked -> a
    int row -> a
    int col -> b
    geogebra.common.javax.swing.RelationPane pane -> a
    geogebra.javax.swing.RelationPaneD this$0 -> a
    java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent
    java.lang.Object getCellEditorValue() -> getCellEditorValue
    boolean stopCellEditing() -> stopCellEditing
    void fireEditingStopped() -> fireEditingStopped
geogebra.javax.swing.RelationPaneD$ClientsTableRenderer$1 -> geogebra.g.a.k:
    geogebra.javax.swing.RelationPaneD$ClientsTableRenderer this$1 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.javax.swing.RelationPaneD$ClientsTableTextRenderer -> geogebra.g.a.h$c:
    geogebra.javax.swing.RelationPaneD this$0 -> a
    java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent
geogebra.javax.swing.table.GAbstractTableModelD -> geogebra.g.a.a.a:
    geogebra.javax.swing.table.GAbstractTableModelD$MyAbstractTableModel impl -> a
    geogebra.javax.swing.table.GAbstractTableModelD wrapper -> a
    javax.swing.table.AbstractTableModel getImpl() -> a
    int getRowCount() -> a
    java.lang.Object getValueAt(int,int) -> a
    int getColumnCount() -> b
    void setValueAt(java.lang.Object,int,int) -> a
    boolean isCellEditable(int,int) -> a
    void fireTableRowsInserted(int,int) -> a
    void fireTableRowsUpdated(int,int) -> b
    void fireTableRowsDeleted(int,int) -> c
geogebra.javax.swing.table.GAbstractTableModelD$MyAbstractTableModel -> geogebra.g.a.a.a$a:
    geogebra.javax.swing.table.GAbstractTableModelD this$0 -> a
    int getRowCount() -> getRowCount
    int getColumnCount() -> getColumnCount
    java.lang.Object getValueAt(int,int) -> getValueAt
    void setValueAt(java.lang.Object,int,int) -> setValueAt
    boolean isCellEditable(int,int) -> isCellEditable
geogebra.kernel.AnimationManagerD -> geogebra.h.a:
    javax.swing.Timer timer -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    boolean isRunning() -> c
    void setTimerDelay(int) -> a
    void stopTimer() -> f
    void startTimer() -> g
geogebra.kernel.EvalCommandQueue -> geogebra.h.b:
    geogebra.common.plugin.GgbAPI ggbAPI -> a
    java.util.ArrayList queue -> a
    javax.swing.Timer timer -> a
    void addCommand(java.lang.String) -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.kernel.UndoManagerD -> geogebra.h.c:
    void storeUndoInfoAfterPasteOrAdd() -> g
    void storeUndoInfo(boolean) -> a
    void doStoreUndoInfo(java.lang.StringBuilder) -> a
    java.io.File createTempFile(java.lang.StringBuilder) -> a
    void loadUndoInfo(geogebra.common.kernel.UndoManager$AppState) -> a
    void processXML(java.lang.String) -> a
geogebra.kernel.UndoManagerD$1 -> geogebra.h.d:
    geogebra.kernel.UndoManagerD this$0 -> a
    java.lang.StringBuilder val$currentUndoXML -> a
    void run() -> run
geogebra.kernel.UndoManagerD$2 -> geogebra.h.e:
    geogebra.kernel.UndoManagerD this$0 -> a
    java.lang.StringBuilder val$currentUndoXML -> a
    boolean val$refresh -> a
    void run() -> run
geogebra.kernel.UndoManagerD$3 -> geogebra.h.f:
    geogebra.kernel.UndoManagerD this$0 -> a
    java.lang.StringBuilder val$undoXML -> a
    java.lang.Object run() -> run
geogebra.kernel.UndoManagerD$AppStateDesktop -> geogebra.h.c$a:
    java.io.File f -> a
    geogebra.kernel.UndoManagerD this$0 -> a
    java.io.File getFile() -> a
    void delete() -> a
geogebra.kernel.geos.GeoElementGraphicsAdapterDesktop -> geogebra.h.a.a:
    geogebra.main.AppD app -> a
    geogebra.common.awt.MyImage getFillImage() -> b
    void setImageFileName(java.lang.String) -> b
geogebra.kernel.prover.ProverReciosMethod -> geogebra.h.b.a:
    geogebra.kernel.prover.ProverReciosMethod$PointTester[] pointTesters -> a
    java.util.concurrent.LinkedBlockingQueue coordinatesQueue -> a
    java.util.concurrent.atomic.AtomicInteger verifiedPoints -> a
    boolean stop -> a
    boolean errorOccured -> b
    java.lang.Thread[] threads -> a
    int[] $SWITCH_TABLE$geogebra$kernel$prover$ProverReciosMethod$TestPointResult -> a
    void interruptThreads() -> a
    void writeResult(geogebra.kernel.prover.ProverReciosMethod$TestPointResult) -> a
    boolean getErrorOccured() -> a
    geogebra.common.util.Prover$ProofResult computeNd(java.util.HashSet,java.util.HashMap,int,geogebra.common.kernel.algos.SymbolicParameters) -> a
    int[] $SWITCH_TABLE$geogebra$kernel$prover$ProverReciosMethod$TestPointResult() -> a
geogebra.kernel.prover.ProverReciosMethod$PointTester -> geogebra.h.b.a$a:
    java.util.HashMap values -> a
    geogebra.common.kernel.prover.polynomial.Variable[] variables -> a
    geogebra.kernel.prover.ProverReciosMethod prover -> a
    geogebra.common.kernel.algos.SymbolicParameters s -> a
    int nrOfTests -> a
    geogebra.kernel.prover.ProverReciosMethod this$0 -> b
    void run() -> run
geogebra.kernel.prover.ProverReciosMethod$TestPointResult -> geogebra.h.b.a$b:
    geogebra.kernel.prover.ProverReciosMethod$TestPointResult PASSED -> a
    geogebra.kernel.prover.ProverReciosMethod$TestPointResult FALSE -> b
    geogebra.kernel.prover.ProverReciosMethod$TestPointResult ERROR -> c
    geogebra.kernel.prover.ProverReciosMethod$TestPointResult[] ENUM$VALUES -> a
    geogebra.kernel.prover.ProverReciosMethod$TestPointResult[] values() -> values
    geogebra.kernel.prover.ProverReciosMethod$TestPointResult valueOf(java.lang.String) -> valueOf
geogebra.main.AppD -> geogebra.i.a:
    geogebra.CommandLineArguments args -> a
    java.lang.String[] GEOGEBRA_JAR_ALT -> b
    java.lang.String[] JAR_FILES -> c
    java.util.LinkedList fileList -> a
    java.io.File currentPath -> a
    java.io.File currentImagePath -> b
    java.io.File currentFile -> c
    java.util.ResourceBundle rbcommandEnglish -> a
    java.util.ResourceBundle rbsettings -> b
    geogebra.main.LocalizationD loc -> a
    geogebra.main.AppletImplementation appletImpl -> a
    boolean isApplet -> F
    javax.swing.JFrame frame -> a
    java.awt.Component mainComp -> a
    javax.swing.JPanel centerPanel -> a
    javax.swing.JPanel northPanel -> b
    javax.swing.JPanel southPanel -> c
    javax.swing.JPanel eastPanel -> d
    javax.swing.JPanel westPanel -> e
    javax.swing.JSplitPane applicationSplitPane -> a
    geogebra.main.DockBarInterface dockBar -> a
    boolean showDockBar -> G
    boolean isDockBarEast -> H
    boolean showAlgebraView -> y
    java.awt.Dimension preferredSize -> a
    int maxIconSize -> h
    java.awt.Color COLOR_SELECTION -> a
    geogebra.main.FontManagerD fontManager -> a
    geogebra.main.GuiManagerInterfaceD guiManager -> a
    geogebra.main.GlobalKeyDispatcherD globalKeyDispatcher -> a
    geogebra.util.ImageManagerD imageManager -> a
    geogebra.plugin.GgbAPID ggbapi -> a
    geogebra.plugin.PluginManager pluginmanager -> a
    geogebra.main.SpreadsheetTableModelD tableModel -> a
    boolean printScaleString -> I
    boolean allowToolTips -> J
    boolean isErrorDialogShowing -> z
    boolean macsandbox -> A
    boolean versionCheckAllowed -> K
    java.lang.Runtime runtime -> a
    boolean virtualKeyboardActive -> L
    java.lang.String regressionFileName -> a
    java.awt.Rectangle screenSize -> a
    java.lang.StringBuilder testCharacters -> a
    java.awt.Cursor transparentCursor -> a
    java.awt.Cursor eraserCursor -> b
    java.net.URL codebase -> a
    boolean runningFromJar -> M
    geogebra.main.GlassPaneListener glassPaneListener -> a
    boolean controlDown -> N
    boolean shiftDown -> O
    boolean fakeRightClick -> P
    java.util.logging.LogManager logManager -> a
    java.lang.StringBuilder logFile -> b
    geogebra.sound.SoundManager soundManager -> a
    geogebra.euclidian.DrawEquationD drawEquation -> a
    java.lang.String uniqueId -> b
    geogebra.common.main.DialogManager dialogManager -> a
    geogebra.common.move.ggtapi.operations.OpenFromGGTOperation openFromGGTOperation -> a
    java.lang.String OS -> c
    boolean MAC_OS -> B
    boolean WINDOWS -> C
    boolean LINUX -> D
    boolean WINDOWS_VISTA_OR_LATER -> E
    geogebra.common.plugin.UDPLogger udpLogger -> a
    java.lang.String perspectiveParam -> d
    boolean popupsDone -> Q
    void setApplet(geogebra.main.AppletImplementation) -> a
    geogebra.main.AppletImplementation getApplet() -> a
    void reset() -> D
    void setFrame(javax.swing.JFrame) -> a
    void setLAF(boolean) -> w
    void toggleCrossPlatformLAF() -> ad
    void initFactories() -> ae
    void handleHelpVersionArgs(geogebra.CommandLineArguments) -> b
    geogebra.common.euclidian.EuclidianController newEuclidianController(geogebra.common.kernel.Kernel) -> a
    geogebra.common.euclidian.EuclidianView newEuclidianView(boolean[],boolean) -> a
    void initImageManager(java.awt.Component) -> a
    boolean isUsingFullGui() -> c
    void initGuiManager() -> o
    void handleOptionArgs(geogebra.CommandLineArguments) -> c
    void setVersionCheckAllowed(java.lang.String) -> p
    void setProverOption(java.lang.String) -> q
    void setSingularWSOption(java.lang.String) -> r
    boolean getVersionCheckAllowed() -> W
    void handleOptionArgsEarly(geogebra.CommandLineArguments) -> a
    boolean isApplet() -> b
    boolean onlyGraphicsViewShowing() -> X
    boolean freeMemoryIsCritical() -> k
    long freeMemory() -> a
    long getHeapSize() -> b
    boolean isVirtualKeyboardActive() -> Y
    void setVirtualKeyboardActive(boolean) -> x
    java.io.File getCurrentFile() -> a
    java.io.File getCurrentPath() -> b
    void setCurrentPath(java.io.File) -> a
    void setCurrentFile(java.io.File) -> b
    void addToFileList(java.io.File) -> c
    java.io.File getFromFileList(int) -> a
    int getFileListSize() -> p
    java.lang.String getExtension(java.io.File) -> a
    java.lang.String getExtension(java.lang.String) -> g
    java.lang.String removeExtension(java.lang.String) -> h
    void createNewWindow() -> G
    void fileNew() -> H
    void resetAllToolbars() -> aw
    void createRegressionFile() -> af
    boolean isLoadingTool(geogebra.CommandLineArguments) -> a
    boolean handleFileArg(geogebra.CommandLineArguments) -> b
    boolean loadBase64File(java.io.File) -> a
    boolean loadFromHtml(java.net.URL) -> a
    java.lang.String getAttributeValue(java.lang.String,java.lang.String,java.lang.String) -> a
    java.lang.String getAttributeValue(java.lang.String,int,char[]) -> a
    boolean isMarker(char[],char) -> a
    java.lang.String fetchPage(java.net.URL) -> a
    void setActiveView(int) -> e
    boolean isJustEuclidianVisible() -> am
    geogebra.common.euclidian.EuclidianView createEuclidianView() -> b
    geogebra.euclidian.EuclidianViewD getEuclidianView1() -> a
    geogebra.common.gui.view.algebra.AlgebraView getAlgebraView() -> a
    geogebra.euclidian.EuclidianViewD getEuclidianView2(int) -> a
    boolean hasEuclidianView2(int) -> c
    boolean hasEuclidianView2EitherShowingOrNot(int) -> b
    geogebra.common.euclidian.EuclidianView getActiveEuclidianView() -> c
    void setShowAxesSelected(javax.swing.JCheckBoxMenuItem) -> a
    void setShowGridSelected(javax.swing.JCheckBoxMenuItem) -> b
    geogebra.util.ImageManagerD getImageManager() -> a
    java.lang.String getToolbarIconPath() -> j
    void setGUIFontSize(int) -> j
    void setFontSize(int) -> i
    void setMaxIconSizeAsPt(int) -> m
    void setMaxIconSize(int) -> n
    int getMaxIconSize() -> q
    javax.swing.ImageIcon getImageIcon(java.lang.String) -> a
    javax.swing.ImageIcon getScaledIcon(java.lang.String) -> b
    void setEmptyIcon(javax.swing.JCheckBoxMenuItem) -> c
    java.lang.String getMenuIconPath() -> k
    int ptToPx(int) -> a
    javax.swing.ImageIcon getImageIcon(java.lang.String,java.awt.Color) -> a
    int getScaledIconSize() -> r
    javax.swing.ImageIcon getScaledIcon(java.lang.String,java.awt.Color) -> b
    javax.swing.ImageIcon getScaledIcon(java.lang.String,int) -> a
    javax.swing.ImageIcon scaleIcon(javax.swing.ImageIcon,int) -> a
    java.awt.Image getScaledInternalImage(java.lang.String) -> a
    java.lang.String getFlagName(boolean) -> c
    javax.swing.ImageIcon getFlagIcon(java.lang.String) -> c
    javax.swing.ImageIcon getScaledFlagIcon(java.lang.String) -> d
    javax.swing.ImageIcon getToolBarImage(java.lang.String,java.awt.Color) -> c
    javax.swing.ImageIcon getToolIcon(java.awt.Color) -> a
    javax.swing.ImageIcon getEmptyIcon() -> a
    java.awt.Image getInternalImage(java.lang.String) -> b
    java.awt.Image getRefreshViewImage() -> a
    java.awt.Image getPlayImage() -> b
    java.awt.Image getPauseImage() -> c
    geogebra.gui.MyImageD getExternalImage(java.lang.String) -> a
    geogebra.common.awt.MyImage getExternalImageAdapter(java.lang.String,int,int) -> a
    geogebra.common.awt.GImage getInternalImageAdapter(java.lang.String) -> a
    void addExternalImage(java.lang.String,geogebra.gui.MyImageD) -> a
    geogebra.common.javax.swing.GImageIcon wrapGetModeIcon(int) -> a
    javax.swing.ImageIcon getModeIcon(int) -> a
    java.lang.String createImage(geogebra.gui.MyImageD,java.lang.String) -> a
    java.io.File getCurrentImagePath() -> c
    void setCurrentImagePath(java.io.File) -> d
    java.lang.String loadTextFile(java.lang.String) -> i
    void copyGraphicsViewToClipboard() -> I
    void copyBase64ToClipboard() -> J
    void copyGraphicsViewToClipboard(geogebra.common.euclidian.EuclidianView) -> a
    void simpleExportToClipboard(geogebra.common.euclidian.EuclidianView) -> b
    java.awt.Rectangle getScreenSize() -> a
    java.awt.image.BufferedImage getExportImage(double,double) -> a
    java.util.Locale getLocale(java.lang.String) -> a
    void setTooltipLanguage(java.lang.String) -> j
    int getTooltipTimeout() -> f
    void setLanguage(java.util.Locale) -> a
    void setLocale(java.util.Locale) -> b
    java.util.Locale getLocale() -> a
    java.lang.String getEnglishCommand(java.lang.String) -> f
    java.lang.String getSetting(java.lang.String) -> j
    void showHelp(java.lang.String) -> m
    void updateContentPane() -> ag
    void updateContentPane(boolean) -> C
    void updateUI() -> B
    void setLabels() -> ax
    void setOrientation() -> ay
    void updateComponentTreeUI() -> ah
    javax.swing.JPanel buildApplicationPanel() -> a
    void setShowInputHelpPanel(boolean) -> y
    void updateDockBar() -> ai
    void updateApplicationLayout() -> F
    void updateCenterPanel(boolean) -> t
    void validateComponent() -> aj
    void updateToolBar() -> ak
    void updateMenubar() -> A
    void updateStyleBars() -> y
    void updateMenuWindow() -> al
    void updateTitle() -> am
    geogebra.main.GuiManagerInterfaceD newGuiManager() -> a
    geogebra.main.GuiManagerInterfaceD getGuiManager() -> b
    javax.swing.JApplet getJApplet() -> a
    javax.swing.JFrame getFrame() -> a
    java.awt.Component getMainComponent() -> a
    java.awt.Dimension getPreferredSize() -> a
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    java.awt.Container getContentPane() -> a
    javax.swing.JPanel getCenterPanel() -> b
    boolean showAlgebraInput() -> y
    void setToolbarPosition(int,boolean) -> a
    boolean showToolBarHelp() -> Z
    void updateToolBarLayout() -> an
    boolean showMenuBar() -> u
    void setShowAuxiliaryObjects(boolean) -> e
    void hideDockBarPopup() -> az
    geogebra.main.DockBarInterface getDockBar() -> a
    boolean isShowDockBar() -> aa
    boolean isDockBarEast() -> ab
    void setDockBarEast(boolean) -> z
    void setShowDockBar(boolean) -> A
    void setShowDockBar(boolean,boolean) -> d
    boolean getAllowToolTips() -> ac
    java.lang.String getToolTooltipHTML(int) -> c
    java.awt.Font getBoldFont() -> a
    java.awt.Font getItalicFont() -> b
    java.awt.Font getPlainFont() -> c
    geogebra.common.awt.GFont getPlainFontCommon() -> a
    java.awt.Font getSmallFont() -> d
    java.awt.Font getFont(boolean,int,int) -> a
    geogebra.main.FontManagerD getFontManager() -> a
    void setWaitCursor() -> x
    void setDefaultCursor() -> w
    java.awt.Cursor getTransparentCursor() -> a
    boolean clearConstruction() -> ad
    void exit() -> ao
    void exitAll() -> L
    boolean saveCurrentFile() -> ae
    boolean loadFile(java.io.File,boolean) -> a
    boolean checkFileExistsAndShowFileNotFound(java.io.File) -> b
    boolean loadExistingFile(java.io.File,boolean) -> b
    boolean loadXML(java.io.File,boolean) -> c
    boolean loadXML(java.net.URL,boolean) -> a
    boolean loadXML(byte[]) -> a
    boolean loadXML(java.lang.String) -> a
    boolean loadXML(java.io.InputStream,boolean) -> a
    boolean saveGeoGebraFile(java.io.File) -> c
    boolean saveMacroFile(java.io.File,java.util.ArrayList) -> a
    void setXML(java.lang.String,boolean) -> a
    byte[] getMacroFileAsByteArray() -> a
    void loadMacroFileFromByteArray(byte[],boolean) -> a
    geogebra.io.MyXMLioD getXMLio() -> a
    geogebra.io.MyXMLioD createXMLio(geogebra.common.kernel.Construction) -> a
    void storeUndoInfo() -> g
    int getWindowWidth() -> j
    int getWindowHeight() -> k
    void getLayoutXML(java.lang.StringBuilder,boolean) -> b
    java.net.URL getCodeBase() -> a
    void initCodeBase() -> aA
    boolean isWebstart() -> af
    boolean isWebstartDebug() -> ag
    boolean hasFullPermissions() -> ah
    void startDispatchingEventsTo(javax.swing.JComponent) -> a
    void stopDispatchingEvents() -> ap
    java.awt.Component getGlassPane() -> b
    void setGlassPane(java.awt.Component) -> b
    boolean dispatchKeyEvent(java.awt.event.KeyEvent) -> dispatchKeyEvent
    void handleShiftEvent(boolean) -> B
    geogebra.main.GlobalKeyDispatcherD getGlobalKeyDispatcher() -> a
    geogebra.main.GlobalKeyDispatcherD newGlobalKeyDispatcher() -> b
    boolean isAltDown(java.awt.event.InputEvent) -> a
    boolean getControlDown() -> ai
    boolean getShiftDown() -> aj
    boolean isControlDown(java.awt.event.InputEvent) -> b
    boolean isControlDown(boolean,boolean) -> a
    boolean isMiddleClick(geogebra.euclidian.event.MouseEventND) -> a
    boolean isRightClick(java.awt.event.MouseEvent) -> a
    boolean isRightClickForceMetaDown(java.awt.event.MouseEvent) -> b
    void removeTraversableKeys(javax.swing.JPanel) -> a
    void showError(java.lang.String) -> b
    void showError(java.lang.String,java.lang.String) -> b
    void showCommandError(java.lang.String,java.lang.String) -> a
    void showErrorDialog(java.lang.String) -> c
    boolean isErrorDialogShowing() -> ak
    void showMessage(java.lang.String) -> n
    geogebra.plugin.GgbAPID getGgbApi() -> a
    geogebra.plugin.ScriptManagerD getScriptManager() -> a
    geogebra.plugin.PluginManager getPluginManager() -> a
    void setUpLogging() -> aB
    java.lang.String getStringFromClipboard() -> l
    geogebra.sound.SoundManager getSoundManager() -> a
    void setScrollToShow(boolean) -> d
    geogebra.euclidian.DrawEquationD getDrawEquation() -> a
    java.lang.String getUniqueId() -> e
    void setUniqueId(java.lang.String) -> i
    void resetUniqueId() -> aq
    void callAppletJavaScript(java.lang.String,java.lang.Object[]) -> a
    boolean showView(int) -> a
    void evalJavaScript(geogebra.common.main.App,java.lang.String,java.lang.String) -> a
    int getMD5folderLength(java.lang.String) -> a
    void setTooltipTimeout(int) -> g
    double getWidth() -> a
    double getHeight() -> b
    geogebra.common.awt.GFont getFontCommon(boolean,int,int) -> a
    geogebra.common.awt.GFont getBoldFontCommon() -> b
    void repaintSpreadsheet() -> v
    geogebra.kernel.UndoManagerD getUndoManager(geogebra.common.kernel.Construction) -> a
    geogebra.common.kernel.geos.GeoElementGraphicsAdapter newGeoElementGraphicsAdapter() -> a
    geogebra.common.kernel.AnimationManager newAnimationManager(geogebra.common.kernel.Kernel) -> a
    geogebra.common.main.SpreadsheetTableModel getSpreadsheetTableModel() -> a
    boolean isRightClick(geogebra.common.euclidian.event.AbstractEvent) -> a
    boolean isControlDown(geogebra.common.euclidian.event.AbstractEvent) -> b
    boolean isMiddleClick(geogebra.common.euclidian.event.AbstractEvent) -> c
    java.awt.Font getFontCanDisplayAwt(java.lang.String,boolean,int,int) -> a
    java.awt.Font getFontCanDisplayAwt(java.lang.String) -> a
    java.awt.Font getFontCanDisplayAwt(java.lang.String,int) -> a
    boolean isMacOS() -> n
    boolean isWindows() -> o
    boolean isJava7() -> al
    boolean isHTML5Applet() -> D
    geogebra.common.kernel.arithmetic.ExpressionNodeConstants$StringType getPreferredFormulaRenderingType() -> a
    geogebra.common.main.DialogManager getDialogManager() -> a
    void showURLinBrowser(java.lang.String) -> k
    void uploadToGeoGebraTube() -> E
    geogebra.common.util.LowerCaseDictionary newLowerCaseDictionary() -> a
    geogebra.CommandLineArguments getCommandLineArgs() -> a
    java.lang.String getCountryFromGeoIP() -> f
    int flowLeft() -> s
    int flowRight() -> t
    void repaintEuclidianViews(java.awt.Component) -> c
    void addMenuItem(geogebra.common.gui.menubar.MenuInterface,java.lang.String,java.lang.String,boolean,geogebra.common.gui.menubar.MenuInterface) -> a
    java.lang.String getJavaVersion() -> m
    java.lang.StringBuilder appendJavaVersion(java.lang.StringBuilder) -> a
    geogebra.common.util.NormalizerMinimal getNormalizer() -> a
    void runScripts(geogebra.common.kernel.geos.GeoElement,java.lang.String) -> a
    geogebra.common.factories.CASFactory getCASFactory() -> a
    geogebra.common.factories.SwingFactory getSwingFactory() -> a
    geogebra.common.factories.Factory getFactory() -> a
    void setComponentOrientation(java.awt.Component) -> d
    void setFlowLayoutOrientation(javax.swing.JPanel) -> b
    void initializeSingularWSD() -> ar
    void exportAnimatedGIF(geogebra.util.FrameCollector,geogebra.common.kernel.geos.GeoNumeric,int,double,double,double,double) -> a
    geogebra.main.LocalizationD getLocalization() -> a
    geogebra.common.main.AlgoKimberlingWeightsInterface getAlgoKimberlingWeights() -> a
    double kimberlingWeight(geogebra.common.main.AlgoKimberlingWeightsParams) -> a
    geogebra.common.main.AlgoCubicSwitchInterface getAlgoCubicSwitch() -> a
    java.lang.String cubicSwitch(geogebra.common.main.AlgoCubicSwitchParams) -> a
    void initSignInEventFlow() -> as
    void initOpenFromGGTEventFlow() -> at
    geogebra.common.move.ggtapi.operations.OpenFromGGTOperation getOpenFromGGTOperation() -> a
    geogebra.common.kernel.commands.CommandDispatcher getCommandDispatcher(geogebra.common.kernel.Kernel) -> a
    void uploadToGeoGebraTubeOnCallback() -> au
    geogebra.common.plugin.UDPLogger getUDPLogger() -> a
    void setPerspectiveParam(java.lang.String) -> o
    void insertFile(java.io.File) -> e
    void applyTemplate(java.io.File) -> f
    void showPopUps() -> Z
    void resume3DRenderer() -> av
    void showCustomizeToolbarGUI() -> ac
    boolean isSelectionRectangleAllowed() -> U
    javax.swing.ImageIcon getMenuIcon(java.lang.String) -> e
    java.awt.Image getMenuInternalImage(java.lang.String) -> c
    geogebra.common.sound.SoundManager getSoundManager() -> a
    geogebra.common.main.Localization getLocalization() -> a
    geogebra.common.main.GuiManagerInterface getGuiManager() -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView2(int) -> a
    geogebra.common.kernel.UndoManager getUndoManager(geogebra.common.kernel.Construction) -> a
    geogebra.common.util.ImageManager getImageManager() -> a
    geogebra.common.euclidian.DrawEquation getDrawEquation() -> a
    geogebra.common.io.MyXMLio createXMLio(geogebra.common.kernel.Construction) -> a
    geogebra.common.main.GlobalKeyDispatcher getGlobalKeyDispatcher() -> a
    geogebra.common.plugin.ScriptManager getScriptManager() -> a
    geogebra.common.euclidian.EuclidianViewInterfaceCommon getActiveEuclidianView() -> a
    geogebra.common.main.FontManager getFontManager() -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView1() -> a
    geogebra.common.plugin.GgbAPI getGgbApi() -> a
    geogebra.common.io.MyXMLio getXMLio() -> a
geogebra.main.AppD$1 -> geogebra.i.b:
    geogebra.main.AppD this$0 -> a
    void windowClosing(java.awt.event.WindowEvent) -> windowClosing
geogebra.main.AppD$2 -> geogebra.i.c:
    geogebra.main.AppD this$0 -> a
    geogebra.CommandLineArguments val$args -> a
    java.lang.String val$fileArgument -> a
    void run() -> run
geogebra.main.AppD$3 -> geogebra.i.d:
    geogebra.main.AppD this$0 -> a
    geogebra.common.euclidian.EuclidianView val$euclidianView -> a
    void run() -> run
geogebra.main.AppD$4 -> geogebra.i.e:
    geogebra.main.AppD this$0 -> a
    java.lang.String val$msg -> a
    void run() -> run
geogebra.main.AppD$5 -> geogebra.i.f:
    geogebra.main.AppD this$0 -> a
    java.lang.String val$message -> a
    void run() -> run
geogebra.main.AppD$6 -> geogebra.i.g:
    geogebra.main.AppD this$0 -> a
    geogebra.common.kernel.geos.GeoElement val$geo1 -> a
    java.lang.String val$string -> a
    void run() -> run
geogebra.main.AppD$7 -> geogebra.i.h:
    geogebra.main.AppD this$0 -> a
geogebra.main.AppD$8 -> geogebra.i.i:
    geogebra.main.AppD this$0 -> a
    void run() -> run
geogebra.main.AppD$initializeSingularWS_thread -> geogebra.i.a$a:
    geogebra.main.AppD this$0 -> a
    void run() -> run
geogebra.main.AppD2 -> geogebra.i.j:
    geogebra.gui.GuiManagerD getGuiManager(geogebra.main.AppD) -> b
    void initToolbar(geogebra.main.AppD,int,boolean,javax.swing.JPanel,javax.swing.JPanel,javax.swing.JPanel,javax.swing.JPanel) -> a
    void initInputBar(geogebra.main.AppD,boolean,javax.swing.JPanel,javax.swing.JPanel) -> a
    javax.swing.JPanel getMenuBarPanel(geogebra.main.AppD,javax.swing.JPanel) -> a
    geogebra.gui.GuiManagerD newGuiManager(geogebra.main.AppD) -> a
    void loadFile(geogebra.main.AppD,java.io.File,boolean) -> a
    void setActiveView(geogebra.main.AppD,int) -> a
    boolean inExternalWindow(geogebra.main.AppD,java.awt.Component) -> a
    java.awt.Component getRootComponent(geogebra.main.AppD) -> a
    void newLayout(geogebra.main.AppD) -> a
    geogebra.main.DockBarInterface newDockBar(geogebra.main.AppD) -> a
geogebra.main.AppletImplementation -> geogebra.i.k:
    javax.swing.JApplet applet -> a
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.euclidian.EuclidianViewD ev -> a
    boolean undoActive -> a
    boolean showToolBar -> b
    boolean showToolBarHelp -> c
    boolean showAlgebraInput -> d
    boolean allowStyleBar -> e
    boolean enableRightClick -> f
    boolean useBrowserForJavaScript -> g
    boolean enableChooserPopups -> h
    boolean errorDialogsActive -> i
    boolean enableLabelDrags -> j
    boolean enableShiftDragZoom -> k
    boolean allowRescaling -> l
    boolean showMenuBar -> m
    boolean showResetIcon -> n
    java.awt.Color bgColor -> a
    java.awt.Color borderColor -> b
    java.lang.String fileStr -> b
    java.lang.String customToolBar -> c
    int maxIconSize -> c
    javax.swing.JFrame wnd -> a
    netscape.javascript.JSObject browserWindow -> a
    int width -> a
    int height -> b
    geogebra.plugin.GgbAPID ggbApi -> a
    java.lang.String ggbOnInitParam -> a
    java.lang.String perspective -> d
    int originalWidth -> d
    int originalHeight -> e
    void dispose() -> a
    void initInBackground() -> b
    void init() -> f
    geogebra.main.AppD buildApplication(geogebra.CommandLineArguments,boolean) -> a
    boolean needsGui() -> a
    void initGUI() -> c
    void setInitialScaling() -> g
    javax.swing.JPanel createGeoGebraAppletPanel() -> a
    void showApplet() -> d
    void reinitGUI() -> h
    byte[] getGGBfile() -> getGGBfile
    java.lang.String getXML() -> getXML
    java.lang.String getBase64(boolean) -> getBase64
    java.lang.String getXML(java.lang.String) -> getXML
    java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML
    void setXML(java.lang.String) -> setXML
    void setBase64(java.lang.String) -> setBase64
    void evalXML(java.lang.String) -> evalXML
    boolean evalCommand(java.lang.String) -> evalCommand
    java.lang.String evalCommandCAS(java.lang.String) -> evalCommandCAS
    java.lang.String evalGeoGebraCAS(java.lang.String) -> evalGeoGebraCAS
    java.lang.String evalGeoGebraCAS(java.lang.String,boolean) -> a
    boolean evalCommand(java.lang.String,boolean) -> a
    void debug(java.lang.String) -> debug
    void setOnTheFlyPointCreationActive(boolean) -> setOnTheFlyPointCreationActive
    void setUndoPoint() -> setUndoPoint
    void setErrorDialogsActive(boolean) -> setErrorDialogsActive
    void reset() -> reset
    void refreshViews() -> refreshViews
    java.lang.String getIPAddress() -> getIPAddress
    java.lang.String getHostname() -> getHostname
    void openFile(java.lang.String) -> openFile
    void setVisible(java.lang.String,boolean) -> setVisible
    boolean getVisible(java.lang.String) -> getVisible
    void setLayer(java.lang.String,int) -> setLayer
    int getLayer(java.lang.String) -> getLayer
    void setLayerVisible(int,boolean) -> setLayerVisible
    void setFixed(java.lang.String,boolean) -> setFixed
    void setTrace(java.lang.String,boolean) -> setTrace
    void setLabelVisible(java.lang.String,boolean) -> setLabelVisible
    void setLabelStyle(java.lang.String,int) -> setLabelStyle
    void setColor(java.lang.String,int,int,int) -> setColor
    void setCorner(java.lang.String,double,double,int) -> setCorner
    void setCorner(java.lang.String,double,double) -> setCorner
    void setLineStyle(java.lang.String,int) -> setLineStyle
    void setLineThickness(java.lang.String,int) -> setLineThickness
    void setPointStyle(java.lang.String,int) -> setPointStyle
    void setPointSize(java.lang.String,int) -> setPointSize
    void setFilling(java.lang.String,double) -> setFilling
    java.lang.String getGraphicsViewCheckSum(java.lang.String,java.lang.String) -> getGraphicsViewCheckSum
    java.lang.String getColor(java.lang.String) -> getColor
    double getFilling(java.lang.String) -> getFilling
    int getLineStyle(java.lang.String) -> getLineStyle
    int getLineThickness(java.lang.String) -> getLineThickness
    int getPointStyle(java.lang.String) -> getPointStyle
    int getPointSize(java.lang.String) -> getPointSize
    void deleteObject(java.lang.String) -> deleteObject
    void setAnimating(java.lang.String,boolean) -> setAnimating
    void setAnimationSpeed(java.lang.String,double) -> setAnimationSpeed
    void startAnimation() -> startAnimation
    void stopAnimation() -> stopAnimation
    void hideCursorWhenDragging(boolean) -> hideCursorWhenDragging
    boolean isAnimationRunning() -> isAnimationRunning
    boolean renameObject(java.lang.String,java.lang.String) -> renameObject
    boolean exists(java.lang.String) -> exists
    boolean isDefined(java.lang.String) -> isDefined
    boolean isIndependent(java.lang.String) -> isIndependent
    java.lang.String getValueString(java.lang.String) -> getValueString
    java.lang.String getDefinitionString(java.lang.String) -> getDefinitionString
    java.lang.String getCommandString(java.lang.String) -> getCommandString
    double getXcoord(java.lang.String) -> getXcoord
    double getYcoord(java.lang.String) -> getYcoord
    void setCoords(java.lang.String,double,double) -> setCoords
    double getValue(java.lang.String) -> getValue
    void setValue(java.lang.String,double) -> setValue
    void setTextValue(java.lang.String,java.lang.String) -> setTextValue
    void setListValue(java.lang.String,double,double) -> setListValue
    void setRepaintingActive(boolean) -> setRepaintingActive
    void setCoordSystem(double,double,double,double) -> setCoordSystem
    void setAxesVisible(boolean,boolean) -> setAxesVisible
    void setGridVisible(boolean) -> setGridVisible
    java.lang.String[] getAllObjectNames() -> getAllObjectNames
    int getObjectNumber() -> getObjectNumber
    java.lang.String getObjectName(int) -> getObjectName
    java.lang.String getObjectType(java.lang.String) -> getObjectType
    java.lang.String getPNGBase64(double,boolean,double) -> getPNGBase64
    boolean writePNGtoFile(java.lang.String,double,boolean,double) -> writePNGtoFile
    void setMode(int) -> setMode
    void initJavaScript() -> e
    java.lang.Object callJavaScript(java.lang.String,java.lang.Object[]) -> a
    javax.swing.JApplet getJApplet() -> a
    void registerAddListener(java.lang.String) -> registerAddListener
    void unregisterAddListener(java.lang.String) -> unregisterAddListener
    void registerRemoveListener(java.lang.String) -> registerRemoveListener
    void unregisterRemoveListener(java.lang.String) -> unregisterRemoveListener
    void registerClearListener(java.lang.String) -> registerClearListener
    void unregisterClearListener(java.lang.String) -> unregisterClearListener
    void registerRenameListener(java.lang.String) -> registerRenameListener
    void unregisterRenameListener(java.lang.String) -> unregisterRenameListener
    void registerUpdateListener(java.lang.String) -> registerUpdateListener
    void unregisterUpdateListener(java.lang.String) -> unregisterUpdateListener
    void registerObjectUpdateListener(java.lang.String,java.lang.String) -> registerObjectUpdateListener
    void unregisterObjectUpdateListener(java.lang.String) -> unregisterObjectUpdateListener
    void registerClickListener(java.lang.String) -> registerClickListener
    void unregisterClickListener(java.lang.String) -> unregisterClickListener
    void registerObjectClickListener(java.lang.String,java.lang.String) -> registerObjectClickListener
    void unregisterObjectClickListener(java.lang.String) -> unregisterObjectClickListener
    boolean isMoveable(java.lang.String) -> isMoveable
    void drawToImage(java.lang.String,double[],double[]) -> drawToImage
    void clearImage(java.lang.String) -> clearImage
    void uploadToGeoGebraTube() -> uploadToGeoGebraTube
    void setPenColor(int,int,int) -> setPenColor
    void setPenSize(int) -> setPenSize
    int getPenSize() -> getPenSize
    java.lang.String getPenColor() -> getPenColor
    double getListValue(java.lang.String,int) -> getListValue
    java.lang.String evalJS(java.lang.String) -> a
    void registerStoreUndoListener(java.lang.String) -> registerStoreUndoListener
    void registerClientListener(java.lang.String) -> registerClientListener
    void unregisterClientListener(java.lang.String) -> unregisterClientListener
    void setPerspective(java.lang.String) -> setPerspective
    boolean getVisible(java.lang.String,int) -> getVisible
    javax.swing.JFrame access$2(geogebra.main.AppletImplementation) -> a
    void access$3(geogebra.main.AppletImplementation) -> a
    geogebra.plugin.GgbAPID access$4(geogebra.main.AppletImplementation) -> a
    java.lang.String access$5(geogebra.main.AppletImplementation) -> a
geogebra.main.AppletImplementation$1 -> geogebra.i.l:
    geogebra.main.AppletImplementation this$0 -> a
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
geogebra.main.AppletImplementation$10 -> geogebra.i.m:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.String val$algorithm -> a
    java.lang.String val$format -> b
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$11 -> geogebra.i.n:
    geogebra.main.AppletImplementation this$0 -> a
    double val$exportScale -> a
    boolean val$transparent -> a
    double val$DPI -> b
    java.lang.String run() -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$12 -> geogebra.i.o:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.String val$filename -> a
    double val$exportScale -> a
    boolean val$transparent -> a
    double val$DPI -> b
    java.lang.Boolean run() -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$2 -> geogebra.i.p:
    geogebra.main.AppletImplementation this$0 -> a
    void run() -> run
geogebra.main.AppletImplementation$4 -> geogebra.i.q:
    geogebra.main.AppletImplementation this$0 -> a
    void run() -> run
geogebra.main.AppletImplementation$5 -> geogebra.i.r:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.String val$base64 -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$6 -> geogebra.i.s:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.String val$cmdString -> a
    boolean val$debugOutput -> a
    java.lang.String run() -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$7 -> geogebra.i.t:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.String val$cmdString -> a
    boolean val$waitForResult -> a
    geogebra.common.kernel.arithmetic.MyBoolean run() -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$8 -> geogebra.i.u:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation$9 -> geogebra.i.v:
    geogebra.main.AppletImplementation this$0 -> a
    java.lang.String val$strURL -> a
    java.lang.Object run() -> run
geogebra.main.AppletImplementation3D -> geogebra.i.w:
    geogebra.main.AppD buildApplication(geogebra.CommandLineArguments,boolean) -> a
geogebra.main.DialogManagerMinimal -> geogebra.i.x:
    java.lang.String prompt(java.lang.String,java.lang.String) -> a
    boolean confirm(java.lang.String) -> a
    boolean showFunctionInspector(geogebra.common.kernel.geos.GeoFunction) -> a
    void showPropertiesDialog(java.util.ArrayList) -> a
    void showPropertiesDialog(geogebra.common.main.OptionType,java.util.ArrayList) -> a
    void showNumberInputDialogSegmentFixed(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showNumberInputDialogAngleFixed(java.lang.String,geogebra.common.kernel.kernelND.GeoSegmentND[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
    void showNumberInputDialogDilate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoPointND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> b
    void showBooleanCheckboxCreationDialog(geogebra.common.awt.GPoint,geogebra.common.kernel.geos.GeoBoolean) -> a
    void showNumberInputDialogCirclePointRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianView) -> a
    void showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void showAngleInputDialog(java.lang.String,java.lang.String,java.lang.String,geogebra.common.util.AsyncOperation) -> b
    boolean showButtonCreationDialog(int,int,boolean) -> a
    void closeAll() -> a
    void showRenameDialog(geogebra.common.kernel.geos.GeoElement,boolean,java.lang.String,boolean) -> a
    void showPropertiesDialog() -> b
    void showToolbarConfigDialog() -> c
    void showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String,boolean,java.lang.String,geogebra.common.util.AsyncOperation) -> a
    void openToolHelp() -> f
    void showDataSourceDialog(int,boolean) -> a
    void showLogInDialog() -> d
    void showLogOutDialog() -> e
    void showNumberInputDialogRegularPolygon(java.lang.String,geogebra.common.euclidian.EuclidianController,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.gui.dialog.TextInputDialog createTextDialog(geogebra.common.kernel.geos.GeoText,geogebra.common.kernel.kernelND.GeoPointND) -> a
    geogebra.common.gui.dialog.InputDialog newInputDialog(geogebra.common.main.App,java.lang.String,java.lang.String,java.lang.String,boolean,geogebra.common.gui.InputHandler,geogebra.common.kernel.geos.GeoElement) -> a
geogebra.main.DockBarInterface -> geogebra.i.y:
    boolean isEastOrientation() -> c
    void update() -> f
    void setLabels() -> x_
    void showPopup() -> c
    boolean isShowButtonBar() -> b
    void setEastOrientation(boolean) -> d
    void setShowButtonBar(boolean) -> c
    void hidePopup() -> d
geogebra.main.FontManagerD -> geogebra.i.z:
    java.awt.Font boldFont -> a
    java.awt.Font italicFont -> b
    java.awt.Font plainFont -> c
    java.awt.Font smallFont -> d
    java.awt.Font serifFont -> e
    java.awt.Font serifFontBold -> f
    java.awt.Font javaSans -> g
    java.awt.Font javaSerif -> h
    java.awt.Font forcedFont -> i
    int fontSize -> a
    java.lang.String sansName -> b
    java.lang.String serifName -> c
    java.lang.String forcedFontName -> a
    java.util.HashMap fontMap -> a
    java.lang.StringBuilder key -> a
    java.lang.String[] FONT_NAMES_SANSSERIF -> a
    java.lang.String[] FONT_NAMES_SERIF -> b
    void setLanguage(java.util.Locale) -> a
    void setFontSize(int) -> a
    void updateDefaultFonts(int,java.lang.String,java.lang.String) -> a
    java.awt.Font getFont(boolean,int,int) -> a
    java.awt.Font getFont(java.lang.String,int,int) -> a
    java.awt.Font getFontCanDisplayAwt(java.lang.String,boolean,int,int) -> a
    java.lang.String getFontCanDisplay(java.util.LinkedList,java.lang.String) -> a
    java.awt.Font getBoldFont() -> a
    java.awt.Font getItalicFont() -> b
    java.awt.Font getPlainFont(boolean) -> a
    java.awt.Font getSmallFont() -> c
    java.awt.Font getSerifFont() -> d
    void setLAFFont(java.awt.Font) -> a
    geogebra.common.awt.GFont getFontCanDisplay(java.lang.String,boolean,int,int) -> a
geogebra.main.GeoGebraPortablePreferences -> geogebra.i.A:
    java.util.Properties properties -> a
    geogebra.main.GeoGebraPortablePreferences singleton -> a
    geogebra.main.GeoGebraPreferencesD getPref() -> a
    void loadPreferences() -> d
    void storePreferences() -> e
    java.lang.String loadPreference(java.lang.String,java.lang.String) -> a
    void savePreference(java.lang.String,java.lang.String) -> a
    java.io.File getDefaultFilePath() -> a
    java.io.File getDefaultImagePath() -> b
    void saveDefaultImagePath(java.io.File) -> a
    java.util.Locale getDefaultLocale() -> a
    void saveDefaultLocale(java.util.Locale) -> a
    void loadFileList() -> a
    void saveFileList() -> b
    void saveXMLPreferences(geogebra.main.AppD) -> a
    void loadXMLPreferences(geogebra.main.AppD) -> b
    void clearPreferences() -> c
    java.lang.String get(java.lang.String,java.lang.String) -> b
    void set(java.lang.String,java.lang.String) -> b
    java.lang.String getB64(geogebra.main.AppD) -> a
    void debug(java.lang.String) -> c
geogebra.main.GeoGebraPreferencesD -> geogebra.i.B:
    java.util.prefs.Preferences ggbPrefs -> a
    java.util.prefs.Preferences ggbPrefsSystem -> b
    java.lang.String factoryDefaultXml -> a
    java.lang.String XML_FACTORY_DEFAULT -> b
    java.lang.String TOOLS_FILE_GGT -> c
    java.lang.String APP_LOCALE -> d
    java.lang.String APP_CURRENT_IMAGE_PATH -> e
    java.lang.String APP_FILE_ -> f
    java.lang.String PROPERTY_FILEPATH -> g
    geogebra.main.GeoGebraPreferencesD singleton -> a
    void setPropertyFileName(java.lang.String) -> a
    geogebra.main.GeoGebraPreferencesD getPref() -> b
    java.lang.String loadPreference(java.lang.String,java.lang.String) -> a
    void savePreference(java.lang.String,java.lang.String) -> a
    boolean loadVersionCheckAllow(java.lang.String) -> a
    void saveVersionCheckAllow(java.lang.String) -> b
    java.io.File getDefaultFilePath() -> a
    java.io.File getDefaultImagePath() -> b
    void saveDefaultImagePath(java.io.File) -> a
    java.util.Locale getDefaultLocale() -> a
    void saveDefaultLocale(java.util.Locale) -> a
    void loadFileList() -> a
    void saveFileList() -> b
    void initDefaultXML(geogebra.main.AppD) -> c
    void saveXMLPreferences(geogebra.main.AppD) -> a
    void putByteArray(java.util.prefs.Preferences,java.lang.String,byte[]) -> a
    byte[] getByteArray(java.util.prefs.Preferences,java.lang.String,byte[]) -> a
    java.lang.String getXMLPreferences() -> a
    void loadXMLPreferences(geogebra.main.AppD) -> b
    void clearPreferences() -> c
    java.lang.String getDefaultPreferences() -> b
geogebra.main.GlassPaneListener -> geogebra.i.C:
    java.awt.Component glassPane -> a
    java.awt.Component destComp -> b
    java.awt.Container contentPane -> a
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void redispatchMouseEvent(java.awt.event.MouseEvent) -> a
    boolean dispatchKeyEvent(java.awt.event.KeyEvent) -> dispatchKeyEvent
geogebra.main.GlobalKeyDispatcherD -> geogebra.i.D:
    boolean dispatchKeyEvent(java.awt.event.KeyEvent) -> dispatchKeyEvent
    boolean handleKeyPressed(java.awt.event.KeyEvent) -> a
    boolean handleKeyTyped(java.awt.event.KeyEvent) -> c
    boolean handleGeneralKeys(java.awt.event.KeyEvent) -> b
    boolean handleSelectedGeosKeys(java.awt.event.KeyEvent,java.util.ArrayList) -> a
    void handleFunctionKeyForAlgebraInput(int,geogebra.common.kernel.geos.GeoElement) -> a
    boolean handleEnter() -> a
    boolean handleTab(boolean,boolean) -> a
    void handleCtrlC() -> c
    void handleCtrlV() -> b
    void tryPasteEquation() -> d
    boolean handleCtrlShiftN(boolean) -> a
    void copyDefinitionsToInputBarAsList(java.util.ArrayList) -> a
    void createNewWindow() -> a
    void showPrintPreview(geogebra.common.main.App) -> a
geogebra.main.GuiManagerInterfaceD -> geogebra.i.E:
    void setToolBarDefinition(java.lang.String) -> c
    java.lang.String getToolbarDefinition() -> a
    java.io.File showSaveDialog(java.lang.String,java.io.File,java.lang.String,boolean,boolean) -> a
    void removeFromToolbarDefinition(int) -> c
    boolean loadFile(java.io.File,boolean) -> a
    void updateMenuBarLayout() -> Z
    java.awt.Component getMenuBar() -> b
    boolean saveAs() -> m
    void initMenubar() -> Y
    java.io.File getDataFile() -> a
    boolean belongsToToolCreator(javax.swing.ListCellRenderer) -> a
    void refreshCustomToolsInToolBar() -> i
    void openFromGGT() -> ac
    void login() -> ai
    java.awt.Component getInputHelpPanel() -> a
    void resetCasView() -> aj
geogebra.main.LocalizationD -> geogebra.i.F:
    java.util.ResourceBundle rbmenu -> a
    java.util.ResourceBundle rbmenuTT -> b
    java.util.ResourceBundle rbcommand -> c
    java.util.ResourceBundle rbcommandOld -> d
    java.util.ResourceBundle rberror -> e
    java.util.ResourceBundle rbcolors -> f
    java.util.ResourceBundle rbplain -> g
    java.util.ResourceBundle rbplainTT -> h
    java.util.ResourceBundle rbsymbol -> i
    java.util.Locale currentLocale -> a
    java.util.Locale tooltipLocale -> b
    geogebra.common.main.App app -> a
    java.util.ArrayList supportedLocales -> a
    void setApp(geogebra.common.main.App) -> a
    void setTooltipFlag() -> b
    java.lang.String getCommand(java.lang.String) -> a
    java.lang.String getPlain(java.lang.String) -> b
    java.lang.String getPlainTooltip(java.lang.String) -> l
    void initPlainTTResourceBundle() -> d
    java.lang.String getMenu(java.lang.String) -> c
    java.lang.String getMenuTooltip(java.lang.String) -> k
    java.lang.String getError(java.lang.String) -> d
    java.lang.String getSymbol(int) -> a
    java.lang.String getLanguage() -> a
    java.lang.String getLocaleStr() -> c
    java.lang.String getSymbolTooltip(int) -> d
    void initPlainResourceBundle() -> e
    void initSymbolResourceBundle() -> f
    void initCommand() -> a
    void initColorsResourceBundle() -> g
    void updateResourceBundles() -> h
    java.util.Locale getClosestSupportedLocale(java.util.Locale) -> a
    java.util.ArrayList getSupportedLocales() -> a
    java.util.ArrayList getSupportedLocales(boolean) -> a
    java.util.Locale getLocale() -> a
    void setLocale(java.util.Locale) -> a
    boolean propertiesFilesPresent() -> h
    boolean setTooltipLanguage(java.lang.String) -> e
    java.util.Locale getTooltipLocale() -> b
    java.lang.String getTooltipLanguageString() -> b
    java.lang.String getColor(java.lang.String) -> f
    java.lang.String reverseGetColor(java.lang.String) -> e
    boolean isCommandChanged() -> f
    void setCommandChanged(boolean) -> b
    boolean isCommandNull() -> g
    java.lang.String borderEast() -> d
    java.lang.String borderWest() -> e
geogebra.main.LoggingOutputStream -> geogebra.i.G:
    java.lang.String lineSeparator -> a
    java.util.logging.Logger logger -> a
    java.util.logging.Level level -> a
    void flush() -> flush
geogebra.main.MyResourceBundle -> geogebra.i.H:
    java.util.ResourceBundle createBundle(java.lang.String,java.util.Locale) -> a
    geogebra.main.MyResourceBundle loadSingleBundleFile(java.lang.String) -> a
geogebra.main.SpreadsheetTableModelD -> geogebra.i.I:
    javax.swing.table.DefaultTableModel defaultTableModel -> a
    javax.swing.table.DefaultTableModel getDefaultTableModel() -> a
    int getRowCount() -> b
    int getColumnCount() -> c
    void setRowCount(int) -> a
    void setColumnCount(int) -> b
    java.lang.Object getValueAt(int,int) -> a
    void setValueAt(java.lang.Object,int,int) -> a
    boolean hasFocus() -> hasFocus
    boolean isShowing() -> isShowing
geogebra.main.StdOutErrLevel -> geogebra.i.J:
    java.util.logging.Level STDOUT -> a
    java.util.logging.Level STDERR -> b
geogebra.move.ggtapi.models.AuthenticationModelD -> geogebra.j.a.a.a:
    void storeLoginToken(java.lang.String) -> a
    java.lang.String getLoginToken() -> a
    void clearLoginToken() -> a
    void storeLastUser(java.lang.String) -> b
geogebra.move.ggtapi.models.GeoGebraTubeAPID -> geogebra.j.a.a.b:
    geogebra.common.move.ggtapi.models.ClientInfo client -> a
    geogebra.common.util.HttpRequest createHttpRequest() -> a
    boolean parseUserDataFromResponse(geogebra.common.move.ggtapi.models.GeoGebraTubeUser,java.lang.String) -> a
    java.lang.String buildTokenLoginRequest(java.lang.String,java.lang.String) -> a
    boolean isCheckDone() -> b
    java.lang.String getLoginUrl() -> a
    java.lang.String getUrl() -> b
geogebra.move.ggtapi.models.LoginOperationD -> geogebra.j.a.a.c:
    boolean tubeAvailable -> a
    geogebra.move.ggtapi.models.GeoGebraTubeAPID api -> a
    void performTokenLogin(java.lang.String,boolean) -> a
    geogebra.move.ggtapi.models.GeoGebraTubeAPID getGeoGebraTubeAPI() -> a
    java.lang.String getURLLoginCaller() -> a
    java.lang.String getURLClientInfo() -> c
    boolean isTubeAvailable() -> b
    boolean isTubeCheckDone() -> c
    geogebra.common.move.ggtapi.models.GeoGebraTubeAPI getGeoGebraTubeAPI() -> a
geogebra.move.ggtapi.views.BaseSwingEventView -> geogebra.j.a.b.a:
    void onEvent(geogebra.common.move.events.BaseEvent) -> a
    void access$0(geogebra.move.ggtapi.views.BaseSwingEventView,geogebra.common.move.events.BaseEvent) -> a
geogebra.move.ggtapi.views.BaseSwingEventView$1 -> geogebra.j.a.b.b:
    geogebra.move.ggtapi.views.BaseSwingEventView this$0 -> a
    geogebra.common.move.events.BaseEvent val$event -> a
    void run() -> run
geogebra.plugin.CallJavaScript -> geogebra.plugin.a:
    org.mozilla.javascript.Scriptable evalGlobalScript(geogebra.common.main.App) -> a
    void evalScript(geogebra.common.main.App,java.lang.String,java.lang.String) -> a
geogebra.plugin.ClassPathManipulator -> geogebra.plugin.b:
    boolean addURL(java.net.URL,java.lang.ClassLoader) -> a
geogebra.plugin.GeoGebraGlobal -> geogebra.plugin.c:
    geogebra.main.AppD app -> a
    geogebra.common.main.Localization loc -> a
    java.lang.StringBuilder sb -> a
    int[] linep -> a
    java.lang.Object FTAG -> a
    void init(geogebra.main.AppD,org.mozilla.javascript.Scriptable,boolean) -> a
    java.lang.Object execIdCall(org.mozilla.javascript.IdFunctionObject,org.mozilla.javascript.Context,org.mozilla.javascript.Scriptable,org.mozilla.javascript.Scriptable,java.lang.Object[]) -> execIdCall
    java.lang.String argError(java.lang.Object,java.lang.String) -> a
    java.lang.String argNumError(int,java.lang.String) -> a
    void initStandardObjects(geogebra.main.AppD,org.mozilla.javascript.Scriptable,java.lang.String,boolean) -> a
geogebra.plugin.GgbAPID -> geogebra.plugin.d:
    geogebra.kernel.EvalCommandQueue evq -> a
    java.security.MessageDigest messageDigestMD5 -> a
    byte[] getGGBfile() -> getGGBfile
    java.lang.String getBase64(boolean) -> getBase64
    void setBase64(java.lang.String) -> setBase64
    boolean evalCommand(java.lang.String,boolean) -> a
    geogebra.kernel.EvalCommandQueue getEvalCommandQueue() -> a
    void setErrorDialogsActive(boolean) -> setErrorDialogsActive
    void reset() -> reset
    void refreshViews() -> refreshViews
    void openFile(java.lang.String) -> openFile
    java.lang.String getGraphicsViewCheckSum(java.lang.String,java.lang.String) -> getGraphicsViewCheckSum
    java.security.MessageDigest getMessageDigestMD5() -> a
    boolean writePNGtoFile(java.lang.String,double,boolean,double) -> writePNGtoFile
    java.lang.String getPNGBase64(double,boolean,double) -> getPNGBase64
    void drawToImage(java.lang.String,double[],double[]) -> drawToImage
    void clearImage(java.lang.String) -> clearImage
    java.lang.String prompt(java.lang.Object,java.lang.Object) -> a
    void alert(java.lang.String) -> a
    java.lang.String getIPAddress() -> getIPAddress
    java.lang.String getHostname() -> getHostname
geogebra.plugin.GgbAPID$1 -> geogebra.plugin.e:
    geogebra.plugin.GgbAPID this$0 -> a
    double val$exportScale -> a
    boolean val$transparent -> a
    double val$DPI -> b
    java.io.File val$file -> a
    java.lang.Boolean run() -> a
    java.lang.Object run() -> run
geogebra.plugin.PlugLetIF -> geogebra.plugin.PlugLetIF:
    java.lang.String getMenuText() -> getMenuText
    void init(geogebra.plugin.GgbAPID,java.lang.String) -> init
    void execute() -> execute
    void start() -> start
    void stop() -> stop
    void destroy() -> destroy
geogebra.plugin.PluginManager -> geogebra.plugin.f:
    java.util.Hashtable plugintable -> a
    geogebra.main.AppD app -> a
    javax.swing.JMenu pluginmenu -> a
    java.util.ArrayList lines -> a
    geogebra.plugin.ClassPathManipulator cpm -> a
    javax.swing.JMenu getPluginMenu() -> a
    void addPlugin(java.lang.String,java.lang.String) -> a
    void installPlugins() -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
    void addPaths(java.util.ArrayList) -> a
    geogebra.plugin.PlugLetIF getPluginInstance(java.lang.String) -> a
    void loadProperties() -> b
    void debug(java.lang.String) -> a
    java.net.URL addPathToJar(java.lang.String) -> a
geogebra.plugin.ScriptManagerD -> geogebra.plugin.g:
    java.util.HashMap globalScopeMap -> c
    void ggbOnInit() -> d
    void initJavaScript() -> e
    void callJavaScript(java.lang.String,java.lang.Object[]) -> a
    java.util.HashMap getGlobalScopeMap() -> c
    void setGlobalScript() -> f
    void evalJavaScript(geogebra.common.main.App,java.lang.String,java.lang.String) -> a
geogebra.plugin.UDPLoggerD -> geogebra.plugin.h:
    geogebra.common.kernel.Kernel kernel -> a
    java.util.HashMap listeners -> a
    java.util.HashMap listenersL -> b
    java.util.HashMap listLimits -> c
    java.util.HashMap listenersAges -> d
    int port -> a
    java.lang.Thread thread -> a
    java.net.DatagramSocket dsocket -> a
    boolean oldUndoActive -> a
    long now -> a
    void stopLogging() -> a
    void log(geogebra.plugin.UDPLoggerD$Types,double) -> a
    void log(geogebra.plugin.UDPLoggerD$Types,double,boolean,boolean,boolean) -> a
    void registerLog(geogebra.plugin.UDPLoggerD$Types) -> a
    float getFloat(byte[],int) -> a
    void handleJSON(byte[],int,java.lang.String,boolean) -> a
    void handle(byte[],int,java.lang.String,boolean) -> b
    boolean startLogging() -> a
    void registerGeo(java.lang.String,geogebra.common.kernel.geos.GeoNumeric) -> a
    void registerGeoList(java.lang.String,geogebra.common.kernel.geos.GeoList) -> a
    void registerGeoList(java.lang.String,geogebra.common.kernel.geos.GeoList,double) -> a
geogebra.plugin.UDPLoggerD$1 -> geogebra.plugin.i:
    geogebra.plugin.UDPLoggerD this$0 -> a
    java.net.DatagramSocket val$socketCopy -> a
    java.net.DatagramPacket val$packet -> a
    byte[] val$buffer -> a
    void run() -> run
geogebra.plugin.UDPLoggerD$Types -> geogebra.plugin.h$a:
    geogebra.plugin.UDPLoggerD$Types TIMESTAMP -> a
    geogebra.plugin.UDPLoggerD$Types ACCELEROMETER_X -> b
    geogebra.plugin.UDPLoggerD$Types ACCELEROMETER_Y -> c
    geogebra.plugin.UDPLoggerD$Types ACCELEROMETER_Z -> d
    geogebra.plugin.UDPLoggerD$Types ORIENTATION_X -> e
    geogebra.plugin.UDPLoggerD$Types ORIENTATION_Y -> f
    geogebra.plugin.UDPLoggerD$Types ORIENTATION_Z -> g
    geogebra.plugin.UDPLoggerD$Types MAGNETIC_FIELD_X -> h
    geogebra.plugin.UDPLoggerD$Types MAGNETIC_FIELD_Y -> i
    geogebra.plugin.UDPLoggerD$Types MAGNETIC_FIELD_Z -> j
    geogebra.plugin.UDPLoggerD$Types DATA_COUNT -> k
    geogebra.plugin.UDPLoggerD$Types EDAQ0 -> l
    geogebra.plugin.UDPLoggerD$Types EDAQ1 -> m
    geogebra.plugin.UDPLoggerD$Types EDAQ2 -> n
    geogebra.plugin.UDPLoggerD$Types PORT -> o
    java.lang.String string -> a
    geogebra.plugin.UDPLoggerD$Types[] ENUM$VALUES -> a
    geogebra.plugin.UDPLoggerD$Types lookup(java.lang.String) -> a
    geogebra.plugin.UDPLoggerD$Types[] values() -> values
    geogebra.plugin.UDPLoggerD$Types valueOf(java.lang.String) -> valueOf
geogebra.sound.FunctionSound -> geogebra.k.a:
    geogebra.main.AppD app -> a
    geogebra.sound.FunctionSound$SoundThread soundThread -> a
    javax.sound.sampled.AudioFormat af -> a
    javax.sound.sampled.SourceDataLine sdl -> a
    int bitDepth -> a
    int sampleRate -> b
    int maxVolume -> c
    geogebra.common.kernel.geos.GeoFunction f -> a
    double min -> a
    double max -> b
    double t -> c
    boolean initStreamingAudio(int,int) -> a
    void playFunction(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    void playFunction(geogebra.common.kernel.geos.GeoFunction,double,double,int,int) -> a
    void pause(boolean) -> a
    void update(javax.sound.sampled.LineEvent) -> update
    int access$0(geogebra.sound.FunctionSound) -> a
    int access$1(geogebra.sound.FunctionSound) -> b
    javax.sound.sampled.SourceDataLine access$2() -> a
    javax.sound.sampled.AudioFormat access$3() -> a
    double access$4(geogebra.sound.FunctionSound) -> a
    void access$5(geogebra.sound.FunctionSound,double) -> a
    double access$6(geogebra.sound.FunctionSound) -> b
    double access$7(geogebra.sound.FunctionSound) -> c
    geogebra.common.kernel.geos.GeoFunction access$8(geogebra.sound.FunctionSound) -> a
    int access$9(geogebra.sound.FunctionSound) -> c
geogebra.sound.FunctionSound$SoundThread -> geogebra.k.a$a:
    boolean stopped -> a
    double samplePeriod -> a
    byte[] buf -> a
    geogebra.sound.FunctionSound this$0 -> a
    void run() -> run
    void generateFunctionSound() -> b
    void loadBuffer8(double) -> a
    void loadBuffer16(double) -> b
    void doFade(short,boolean) -> a
    void stopSound() -> a
geogebra.sound.MidiSound -> geogebra.k.b:
    geogebra.main.AppD app -> a
    javax.sound.midi.Synthesizer synthesizer -> a
    javax.sound.midi.Instrument[] instruments -> a
    javax.sound.midi.MidiChannel[] channels -> a
    javax.sound.midi.Sequencer sequencer -> a
    javax.sound.midi.Sequence sequence -> a
    long tickPosition -> a
    org.jfugue.Player player -> a
    boolean initialize() -> a
    void playSequence(javax.sound.midi.Sequence,long) -> a
    void playSequence(javax.sound.midi.Sequence,int,long) -> a
    void pause(boolean) -> a
    void stop() -> a
    void closeMidiSound() -> b
    void meta(javax.sound.midi.MetaMessage) -> meta
    void playSequenceNote(int,double,int,int) -> a
    void playMidiFile(java.lang.String) -> a
    void loadSoundBank(java.io.File,java.net.URL) -> b
    void playSequenceFromJFugueString(java.lang.String,int) -> a
    void playJFugueFromFile(java.io.File,java.net.URL) -> a
geogebra.sound.MidiSound$PlayerThread -> geogebra.k.b$a:
    org.jfugue.Pattern pattern -> a
    org.jfugue.Player player -> a
    geogebra.sound.MidiSound this$0 -> a
    void run() -> run
geogebra.sound.SoundManager -> geogebra.k.c:
    geogebra.main.AppD app -> a
    geogebra.sound.MidiSound midiSound -> a
    geogebra.sound.FunctionSound functionSound -> a
    int currentSoundType -> a
    boolean isRunning -> a
    boolean isPaused -> b
    geogebra.sound.MidiSound getMidiSound() -> a
    geogebra.sound.FunctionSound getFunctionSound() -> a
    void playSequenceNote(int,double,int,int) -> a
    void playFile(java.lang.String) -> a
    void playSequenceFromString(java.lang.String,int) -> a
    void playFunction(geogebra.common.kernel.geos.GeoFunction,double,double,int,int) -> a
    void playFunction(geogebra.common.kernel.geos.GeoFunction,double,double) -> a
    void stopCurrentSound() -> a
    void pauseResumeSound(boolean) -> a
geogebra.util.AlgebraViewTransferHandler -> geogebra.l.a:
    geogebra.main.AppD app -> a
    java.awt.datatransfer.DataFlavor algebraViewFlavor -> a
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    java.util.ArrayList geoLabelList -> a
    int getSourceActions(javax.swing.JComponent) -> getSourceActions
    boolean canImport(javax.swing.JComponent,java.awt.datatransfer.DataFlavor[]) -> canImport
    java.awt.datatransfer.Transferable createTransferable(javax.swing.JComponent) -> createTransferable
    boolean importData(javax.swing.JComponent,java.awt.datatransfer.Transferable) -> importData
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
geogebra.util.CASDragGestureListener -> geogebra.l.b:
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.main.App app -> a
    geogebra.cas.view.CASTableD table -> a
    java.awt.dnd.DragSource ds -> a
    java.util.ArrayList geoLabelList -> a
    java.awt.dnd.DragGestureRecognizer dgr -> a
    void enableDnD() -> a
    void dragGestureRecognized(java.awt.dnd.DragGestureEvent) -> dragGestureRecognized
    void dragDropEnd(java.awt.dnd.DragSourceDropEvent) -> dragDropEnd
    void dragEnter(java.awt.dnd.DragSourceDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DragSourceEvent) -> dragExit
    void dragOver(java.awt.dnd.DragSourceDragEvent) -> dragOver
    void dropActionChanged(java.awt.dnd.DragSourceDragEvent) -> dropActionChanged
geogebra.util.CASDragGestureListener$TransferableCAS -> geogebra.l.b$a:
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    java.util.ArrayList geoLabels -> a
    int tableRef -> a
    boolean isAssignment -> a
    geogebra.util.CASDragGestureListener this$0 -> a
    java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors
    boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported
    java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData
    void setIsAssignment(boolean) -> a
geogebra.util.CASDropTargetListener -> geogebra.l.c:
    geogebra.cas.view.CASTableD table -> a
    geogebra.main.AppD app -> a
    geogebra.common.kernel.Kernel kernel -> a
    geogebra.common.cas.view.CASView view -> a
    java.awt.dnd.DropTarget dropTarget -> a
    void enableDnD() -> a
    void dragEnter(java.awt.dnd.DropTargetDragEvent) -> dragEnter
    void dragExit(java.awt.dnd.DropTargetEvent) -> dragExit
    void dragOver(java.awt.dnd.DropTargetDragEvent) -> dragOver
    void drop(java.awt.dnd.DropTargetDropEvent) -> drop
    void dropActionChanged(java.awt.dnd.DropTargetDragEvent) -> dropActionChanged
geogebra.util.CASTransferHandler -> geogebra.l.d:
    java.awt.datatransfer.DataFlavor casTableFlavor -> a
    java.awt.datatransfer.DataFlavor[] supportedFlavors -> a
    void setSupportedFlavours() -> a
    boolean canImport(javax.swing.JComponent,java.awt.datatransfer.DataFlavor[]) -> canImport
    java.awt.datatransfer.Transferable createTransferable(javax.swing.JComponent) -> createTransferable
    int getSourceActions(javax.swing.JComponent) -> getSourceActions
    void exportDone(javax.swing.JComponent,java.awt.datatransfer.Transferable,int) -> exportDone
geogebra.util.DisposeDialogAction -> geogebra.l.e:
    javax.swing.JDialog dialog -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra.util.DownloadManager -> geogebra.l.f:
    java.lang.String tempDir -> a
    void copyURLToFile(java.net.URL,java.io.File,geogebra.common.main.App) -> a
    java.lang.String getTempDir() -> a
geogebra.util.FrameCollector -> geogebra.l.g:
    void addFrame(java.awt.image.BufferedImage) -> a
    void finish() -> a
geogebra.util.GeoGebraLogger -> geogebra.l.h:
    java.io.File logFile -> a
    java.io.FileWriter logFileWriter -> a
    java.lang.String getTimeInfo() -> a
    void setLogFile(java.lang.String) -> b
    void print(java.lang.String,geogebra.common.util.debug.Log$Level) -> a
geogebra.util.GeoLaTeXCache -> geogebra.l.i:
    java.lang.Object keyLaTeX -> a
    java.lang.Object getCachedLaTeXKey(java.lang.String,int,int,geogebra.common.awt.GColor) -> a
    void remove() -> a
geogebra.util.HttpRequestD -> geogebra.l.j:
    java.lang.String answer -> b
    void sendRequest(java.lang.String) -> a
    void sendRequestPost(java.lang.String,java.lang.String,geogebra.common.move.ggtapi.models.AjaxCallback) -> a
    void sendRequestPostSync(java.lang.String,java.lang.String,geogebra.common.move.ggtapi.models.AjaxCallback) -> b
    java.lang.String sendRequestGetResponseSync(java.lang.String) -> a
    void access$0(geogebra.util.HttpRequestD,java.lang.String,java.lang.String,geogebra.common.move.ggtapi.models.AjaxCallback) -> a
geogebra.util.HttpRequestD$1 -> geogebra.l.k:
    geogebra.util.HttpRequestD this$0 -> a
    java.lang.String val$url -> a
    java.lang.String val$post -> b
    geogebra.common.move.ggtapi.models.AjaxCallback val$callback -> a
    java.lang.Void doInBackground() -> a
    java.lang.Object doInBackground() -> doInBackground
geogebra.util.ImageManagerD -> geogebra.l.l:
    java.util.Hashtable iconTable -> a
    java.util.Hashtable internalImageTable -> b
    java.util.Hashtable externalImageTable -> c
    java.awt.Toolkit toolKit -> a
    java.awt.MediaTracker tracker -> a
    javax.swing.ImageIcon getImageIcon(java.lang.String) -> a
    javax.swing.ImageIcon getImageIcon(java.lang.String,java.awt.Color) -> a
    java.awt.Image addBorder(java.awt.Image,java.awt.Color) -> a
    geogebra.gui.MyImageD getInternalImage(java.lang.String) -> a
    void addExternalImage(java.lang.String,geogebra.gui.MyImageD) -> a
    geogebra.gui.MyImageD getExternalImage(java.lang.String) -> b
    java.awt.Image getImageResourceGeoGebra(java.lang.String) -> a
    java.awt.Image getImageResource(java.lang.String) -> b
    java.awt.image.BufferedImage toBufferedImage(java.awt.Image) -> a
    java.awt.image.BufferedImage toBufferedImage(java.awt.Image,int) -> a
    boolean hasAlpha(java.awt.Image) -> a
    javax.swing.ImageIcon getScaledIcon(javax.swing.ImageIcon,int,int) -> a
    java.awt.Image getScaledImage(java.awt.Image,int,int) -> a
    java.lang.String createImage(java.lang.String,geogebra.common.main.App) -> a
geogebra.util.Normalizer -> geogebra.l.m:
    geogebra.common.util.NormalizerMinimal INSTANCE -> a
    geogebra.common.util.NormalizerMinimal getInstance() -> a
    geogebra.common.util.NormalizerMinimal getNormalizerClass() -> b
geogebra.util.Normalizer6 -> geogebra.l.n:
    java.lang.reflect.Method normalize -> a
    java.lang.Object NFD -> a
    java.lang.String transform(java.lang.String) -> a
geogebra.util.NumberFormatDesktop -> geogebra.l.o:
geogebra.util.Prover -> geogebra.l.p:
    void compute() -> b
    geogebra.common.kernel.geos.GeoElement getGeoByLabel(java.lang.String) -> a
    geogebra.common.util.Prover$ProofResult openGeoProver(geogebra.common.util.Prover$ProverEngine) -> a
geogebra.util.Prover$computeThread -> geogebra.l.p$a:
    geogebra.util.Prover this$0 -> a
    void run() -> run
geogebra.util.ScientificFormat -> geogebra.l.q:
    int sigDigit -> a
    int maxWidth -> b
    boolean sciNote -> a
    java.text.DecimalFormat decimalFormat -> a
    double k -> a
    java.lang.StringBuffer format(java.lang.Object,java.lang.StringBuffer,java.text.FieldPosition) -> format
    java.lang.Object parseObject(java.lang.String,java.text.ParsePosition) -> parseObject
    int getSigDigits() -> a
    void setSigDigits(int) -> a
    void setMaxWidth(int) -> b
    void setScientificNotationStyle(boolean) -> a
    double Log10(double) -> a
    int resolveErrorSigDigit(double,double) -> a
    java.text.DecimalFormat getDecimalFormat(int) -> a
    java.lang.String format(double) -> a
    java.lang.String format(double,int) -> a
geogebra.util.StringUtilD -> geogebra.l.r:
    boolean isRightToLeftChar(char) -> a
    java.lang.String toLower(java.lang.String) -> d
    java.lang.String toUpper(java.lang.String) -> e
geogebra.util.URLEncoder -> geogebra.l.s:
    java.lang.String encode(java.lang.String) -> a
geogebra.util.Util -> geogebra.l.t:
    char[] hexChar -> a
    java.lang.StringBuilder hexSB -> a
    java.util.Comparator comparator -> a
    double getJavaVersion() -> a
    void addKeyListenerToAll(java.awt.Container,java.awt.event.KeyListener) -> a
    byte[] loadIntoMemory(java.io.InputStream) -> a
    java.lang.String loadIntoString(java.io.InputStream) -> a
    void copyStream(java.io.InputStream,java.io.OutputStream) -> a
    void registerForDisposeOnEscape(javax.swing.JDialog) -> a
    java.lang.String keepOnlyLettersAndDigits(java.lang.String) -> b
    java.util.Comparator getFileComparator() -> a
    java.lang.String getIPAddress() -> a
    java.lang.String getHostname() -> b
geogebra.util.Util$1 -> geogebra.l.u:
    int compare(java.io.File,java.io.File) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
geogebra.util.Util$2 -> geogebra.l.v:
    java.lang.Object run() -> run
geogebra.util.Util$3 -> geogebra.l.w:
    java.lang.String run() -> a
    java.lang.Object run() -> run
geogebra3D.App3D -> geogebra3D.a:
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D euclidianView3D -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianController3D euclidianController3D -> a
    int oldCursorMode -> h
    boolean useShaders -> F
    int[] $SWITCH_TABLE$geogebra$common$euclidian3D$Input3D$DeviceType -> d
    void initImageManager(java.awt.Component) -> a
    void initEuclidianViews() -> u
    boolean isRightClick(geogebra.common.euclidian.event.AbstractEvent) -> a
    geogebra.common.euclidian.EuclidianController newEuclidianController(geogebra.common.kernel.Kernel) -> a
    geogebra.common.euclidian.EuclidianView newEuclidianView(boolean[],boolean) -> a
    void setMode(int) -> h
    java.lang.String getCompleteUserInterfaceXML(boolean) -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D getEuclidianView3D() -> a
    boolean hasEuclidianView3D() -> l
    boolean isEuclidianView3Dinited() -> m
    boolean saveGeoGebraFile(java.io.File) -> c
    void refreshViews() -> s
    void resume3DRenderer() -> av
    void toggleAxis3D() -> aw
    void togglePlane() -> ax
    void toggleGrid3D() -> ay
    void setShowAxesSelected3D(javax.swing.JCheckBoxMenuItem) -> d
    void setShowPlaneSelected(javax.swing.JCheckBoxMenuItem) -> e
    void setShowGridSelected3D(javax.swing.JCheckBoxMenuItem) -> f
    geogebra.gui.GuiManagerD newGuiManager() -> a
    void updateStyleBars() -> y
    boolean is3D() -> i
    void handleShiftEvent(boolean) -> B
    java.lang.String getVersionString() -> g
    void exportAnimatedGIF(geogebra.util.FrameCollector,geogebra.common.kernel.geos.GeoNumeric,int,double,double,double,double) -> a
    void copyGraphicsViewToClipboard() -> I
    void fileNew() -> H
    boolean loadFile(java.io.File,boolean) -> a
    void createNewWindow() -> G
    java.awt.image.BufferedImage getExportImage(double,double) -> a
    void uploadToGeoGebraTubeOnCallback() -> au
    void initFactories() -> ae
    geogebra.common.main.AppCompanion newAppCompanion() -> a
    void handleOptionArgsEarly(geogebra.CommandLineArguments) -> a
    boolean useShaders() -> am
    void insertFile(java.io.File) -> e
    geogebra.main.GuiManagerInterfaceD newGuiManager() -> a
    geogebra.common.euclidian3D.EuclidianView3DInterface getEuclidianView3D() -> a
    int[] $SWITCH_TABLE$geogebra$common$euclidian3D$Input3D$DeviceType() -> a
geogebra3D.App3DCompanionD -> geogebra3D.b:
    geogebra3D.gui.layout.panels.EuclidianDockPanelForPlaneD panel -> a
    java.util.ArrayList panelForPlaneList -> b
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion createEuclidianViewForPlane(geogebra.common.kernel.kernelND.ViewCreator,geogebra.common.main.settings.EuclidianSettings,boolean) -> a
    geogebra.gui.layout.DockPanel getPanelForPlane() -> a
    void storeViewCreators() -> c
    void recallViewCreators() -> d
    void resetEuclidianViewForPlaneIds() -> e
    geogebra.common.gui.layout.DockPanel getPanelForPlane() -> a
geogebra3D.awt.GPointWithZ -> geogebra3D.a.a:
    int z -> c
    int getZ() -> c
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    java.lang.String toString() -> toString
geogebra3D.euclidian3D.EuclidianController3DD -> geogebra3D.euclidian3D.a:
    geogebra.main.AppD getApplication() -> a
    void setView(geogebra.common.euclidian.EuclidianView) -> a
    void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved
    void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered
    void mouseExited(java.awt.event.MouseEvent) -> mouseExited
    void initToolTipManager() -> i
    void resetToolTipManager() -> v
    void componentResized(java.awt.event.ComponentEvent) -> componentResized
    void componentShown(java.awt.event.ComponentEvent) -> componentShown
    void componentHidden(java.awt.event.ComponentEvent) -> componentHidden
    void componentMoved(java.awt.event.ComponentEvent) -> componentMoved
    void mouseWheelMoved(java.awt.event.MouseWheelEvent) -> mouseWheelMoved
    void addListenersTo(java.awt.Component) -> a
    boolean refreshHighlighting(geogebra.common.euclidian.Hits,boolean) -> b
    void updateSelectionRectangle(boolean) -> v
    geogebra.common.main.App getApplication() -> a
geogebra3D.euclidian3D.EuclidianStyleBar3D -> geogebra3D.euclidian3D.b:
    geogebra.gui.util.PopupMenuButton btnRotateView -> h
    geogebra.gui.util.PopupMenuButton btnClipping -> i
    geogebra.gui.util.MyToggleButton btnShowPlane -> g
    geogebra.gui.util.PopupMenuButton btnViewProjection -> j
    geogebra.gui.util.PopupMenuButton btnViewDirection -> k
    void createDefaultMap() -> g
    void addBtnShowPlane() -> k
    void addBtnRotateView() -> m
    boolean isVisibleInThisView(geogebra.common.kernel.geos.GeoElement) -> a
    void processSource(java.lang.Object,java.util.ArrayList) -> a
    void createButtons() -> n
    void setLabels() -> a
    void updateGUI() -> d
    geogebra.gui.util.PopupMenuButton[] newPopupBtnList() -> a
    geogebra.gui.util.MyToggleButton[] newToggleBtnList() -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D getView() -> a
    void selectPointStyle(int) -> c
    geogebra.main.AppD access$0(geogebra3D.euclidian3D.EuclidianStyleBar3D) -> a
geogebra3D.euclidian3D.EuclidianStyleBar3D$PopupMenuButtonForView3D -> geogebra3D.euclidian3D.b$a:
    geogebra3D.euclidian3D.EuclidianStyleBar3D this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra3D.euclidian3D.EuclidianStyleBar3D$ProjectionPopup -> geogebra3D.euclidian3D.b$b:
    geogebra3D.euclidian3D.EuclidianStyleBar3D this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra3D.euclidian3D.EuclidianView3DD -> geogebra3D.euclidian3D.c:
    geogebra.euclidian.EuclidianViewJPanel evjpanel -> a
    java.awt.Component canvas -> a
    java.awt.Graphics2D g2Dtemp -> a
    void createPanel() -> N
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer createRenderer() -> a
    void setBackground(geogebra.common.awt.GColor) -> b
    void setTransparentCursor() -> E
    void setCursor(java.awt.Cursor) -> a
    boolean hasFocus() -> hasFocus
    void repaint() -> F
    void paintBackground(geogebra.common.awt.GGraphics2D) -> e
    void add(geogebra.common.javax.swing.GBox) -> a
    void remove(geogebra.common.javax.swing.GBox) -> b
    javax.swing.JPanel getJPanel() -> a
    void requestFocus() -> M
    geogebra.common.awt.GFont getFont() -> h
    java.awt.Point getMousePosition() -> a
    boolean isShowing() -> isShowing
    boolean requestFocusInWindow() -> p
    void setPreferredSize(geogebra.common.awt.GDimension) -> a
    void setBorder(javax.swing.border.Border) -> a
    void setToolTipText(java.lang.String) -> a
    int getWidth() -> y
    int getHeight() -> z
    void updateSizeKeepDrawables() -> y
    void createImage(java.awt.GraphicsConfiguration) -> a
    void drawActionObjects(geogebra.common.awt.GGraphics2D) -> n
    geogebra.common.awt.GGraphics2D getTempGraphics2D(geogebra.common.awt.GFont) -> a
    void setAntialiasing(geogebra.common.awt.GGraphics2D) -> p
    void setHeight(int) -> i
    void setWidth(int) -> j
    void setStyleBarMode(int) -> k
    geogebra.euclidian.MyZoomerD newZoomer() -> a
    boolean getShiftDown() -> C
    void setDefault2DCursor() -> ae
    geogebra3D.App3D getApplication() -> a
    java.awt.image.BufferedImage getExportImage(double) -> a
    geogebra.common.euclidian.EuclidianStyleBar newEuclidianStyleBar() -> b
    void exportPaintPre(geogebra.common.awt.GGraphics2D,double,boolean) -> a
    geogebra.common.euclidian.MyZoomer newZoomer() -> a
    geogebra.common.main.App getApplication() -> a
geogebra3D.euclidian3D.opengl.Animator -> geogebra3D.euclidian3D.opengl.a:
    boolean start() -> start
    boolean resume() -> resume
geogebra3D.euclidian3D.opengl.Component3D -> geogebra3D.euclidian3D.opengl.b:
    void addGLEventListener(javax.media.opengl.GLEventListener) -> addGLEventListener
    void display() -> display
    java.awt.Point getLocationOnScreen() -> getLocationOnScreen
    java.awt.Component getParent() -> a
    java.awt.Dimension getSize() -> getSize
geogebra3D.euclidian3D.opengl.GLBufferD -> geogebra3D.euclidian3D.opengl.c:
    java.nio.FloatBuffer impl -> a
    boolean isEmpty -> a
    int currentLength -> a
    boolean isEmpty() -> a
    void setEmpty() -> a
    void allocate(int) -> a
    void setLimit(int) -> b
    void put(double) -> a
    void set(java.util.ArrayList,int) -> a
    int capacity() -> a
    void array(float[]) -> a
    java.nio.FloatBuffer getBuffer() -> a
geogebra3D.euclidian3D.opengl.GLFactoryD -> geogebra3D.euclidian3D.opengl.d:
    geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer newBuffer() -> a
geogebra3D.euclidian3D.opengl.ManagerD -> geogebra3D.euclidian3D.opengl.e:
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$euclidian3D$openGL$Manager$Type -> a
    int getGLType(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type) -> a
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$euclidian3D$openGL$Manager$Type() -> a
geogebra3D.euclidian3D.opengl.ManagerGLList -> geogebra3D.euclidian3D.opengl.f:
    javax.media.opengl.glu.GLUtessellator tesselator -> a
    geogebra3D.euclidian3D.opengl.RendererGL2 renderer -> a
    void setRenderer(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    geogebra3D.euclidian3D.opengl.RendererGL2 getRenderer() -> a
    int genLists(int) -> c
    int startNewList(int) -> a
    void newList(int) -> d
    void endList() -> b
    void startGeometry(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type) -> a
    void endGeometry() -> c
    int startPolygons(int) -> b
    void drawPolygon(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords[]) -> a
    void endPolygons() -> f
    void remove(int) -> c
    void draw(int) -> a
    void drawLabel(int) -> b
    void texture(double,double) -> a
    void setDummyTexture() -> e
    void normal(double,double,double) -> c
    void vertex(double,double,double) -> a
    void vertexInt(int,int,int) -> a
    void color(double,double,double,double) -> a
    void pointSize(double) -> b
    void rectangleGeometry(int,int,int,int,int) -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer getRenderer() -> a
geogebra3D.euclidian3D.opengl.RendererD -> geogebra3D.euclidian3D.opengl.g:
    geogebra3D.euclidian3D.opengl.RendererJogl jogl -> a
    geogebra3D.euclidian3D.opengl.Animator animator -> a
    geogebra3D.euclidian3D.opengl.Component3D canvas -> a
    geogebra.util.FrameCollector gifEncoder -> a
    boolean needExportImage -> h
    java.awt.image.BufferedImage bi -> a
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$euclidian3D$openGL$Renderer$ExportType -> a
    void resumeAnimator() -> ah
    void display() -> aK
    void display(javax.media.opengl.GLAutoDrawable) -> display
    void clearColorBuffer() -> h
    void clearDepthBuffer() -> i
    void setStencilFunc(int) -> a
    void exportImage() -> j
    void dispose(javax.media.opengl.GLAutoDrawable) -> dispose
    void init(javax.media.opengl.GLAutoDrawable) -> init
    void setDepthFunc() -> aE
    void enablePolygonOffsetFill() -> aF
    void setBlendFunc() -> aG
    void enableNormalNormalized() -> aH
    void reshape(javax.media.opengl.GLAutoDrawable,int,int,int,int) -> reshape
    void enableTextures2D() -> aA
    void disableTextures2D() -> aB
    void genTextures2D(int,int[]) -> a
    void bindTexture(int) -> e
    void removeTexture(int) -> g
    geogebra.common.awt.GBufferedImage createBufferedImage(geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D) -> a
    void createAlphaTexture(geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D,geogebra.common.awt.GBufferedImage) -> a
    byte[] ARGBtoAlpha(geogebra.common.geogebra3D.euclidian3D.draw.DrawLabel3D,int[]) -> a
    int createAlphaTexture(int,boolean,int,int,byte[]) -> a
    void textureImage2D(int,int,byte[]) -> a
    void setTextureLinear() -> aC
    void setTextureNearest() -> aL
    javax.media.opengl.GL getGL() -> a
    void setGL(javax.media.opengl.GLAutoDrawable) -> a
    void enableCulling() -> k
    void disableCulling() -> l
    void setCullFaceFront() -> m
    void setCullFaceBack() -> n
    void disableBlending() -> o
    void enableBlending() -> p
    void enableMultisample() -> v
    void disableMultisample() -> w
    void enableAlphaTest() -> x
    void disableAlphaTest() -> y
    void enableDepthMask() -> J
    void disableDepthMask() -> K
    void enableDepthTest() -> L
    void disableDepthTest() -> M
    void setColorMask(boolean,boolean,boolean,boolean) -> a
    void setLineWidth(double) -> a
    void setLayer(float) -> a
    void setClearColor(float,float,float,float) -> c
    void disableStencilLines() -> ak
    void startAnimatedGIFExport(geogebra.util.FrameCollector,geogebra.common.kernel.geos.GeoNumeric,int,double,double,double,double) -> a
    void needExportImage() -> aM
    void setExportImage() -> aN
    java.awt.image.BufferedImage getExportImage() -> a
    void setBufferLeft() -> f
    void setBufferRight() -> g
    int[] $SWITCH_TABLE$geogebra$common$geogebra3D$euclidian3D$openGL$Renderer$ExportType() -> a
geogebra3D.euclidian3D.opengl.RendererGL2 -> geogebra3D.euclidian3D.opengl.h:
    javax.media.opengl.glu.GLU glu -> a
    java.nio.IntBuffer selectBuffer -> a
    double[] tmpDouble16 -> a
    int currentDash -> l
    int[] GL_CLIP_PLANE -> a
    void setClipPlanes(double[][]) -> a
    void setClipPlane(int,double[]) -> a
    void setMatrixView() -> H
    void unsetMatrixView() -> I
    void setColor(float,float,float,float) -> a
    void initMatrix() -> O
    void resetMatrix() -> P
    void drawMouseCursor() -> R
    void setGLForPicking() -> V
    void pushSceneMatrix() -> W
    void glLoadName(int) -> d
    void setLightPosition(float[]) -> a
    void setLightAmbiantDiffuse(float,float,float,float) -> b
    void setLight(int) -> b
    void setColorMaterial() -> ae
    void setLightModel() -> af
    void setAlphaFunc() -> ag
    void setView() -> ai
    void setStencilLines() -> am
    void updateOrthoValues() -> ap
    void viewOrtho() -> aq
    void viewPersp() -> as
    void viewGlasses() -> au
    void viewOblique() -> ax
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager createManager() -> b
    void enableTextures() -> t
    void disableTextures() -> u
    void enableFading() -> aI
    void enableDash() -> aJ
    float[] getLightPosition() -> a
    void setDashTexture(int) -> f
    void enableClipPlanes() -> D
    void disableClipPlanes() -> E
    void enableClipPlane(int) -> h
    void disableClipPlane(int) -> i
    void setLabelOrigin(geogebra.common.kernel.Matrix.Coords) -> a
    void enableLighting() -> A
    void disableLighting() -> z
    void initLighting() -> B
geogebra3D.euclidian3D.opengl.RendererGLPickingGL2 -> geogebra3D.euclidian3D.opengl.i:
    void setHits(geogebra.common.awt.GPoint,int) -> b
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint) -> a
    void pickIntersectionCurves() -> Y
    java.nio.IntBuffer createSelectBufferForPicking(int) -> a
    void doPick() -> X
    void storePickingInfos(geogebra.common.geogebra3D.euclidian3D.Hits3D,int,int) -> a
    float getDepth(int,java.nio.IntBuffer) -> a
    boolean useLogicalPicking() -> a
geogebra3D.euclidian3D.opengl.RendererJogl -> geogebra3D.euclidian3D.opengl.j:
    javax.media.opengl.GLAutoDrawable gLDrawable -> a
    javax.media.opengl.GLCapabilities caps -> a
    boolean useCanvas -> a
    javax.media.opengl.GL getGL() -> a
    javax.media.opengl.GL2 getGL2() -> a
    void setGL(javax.media.opengl.GLAutoDrawable) -> a
    javax.media.opengl.GL2ES2 getGL2ES2() -> a
    java.nio.IntBuffer newIntBuffer(int) -> a
    java.nio.ByteBuffer newByteBuffer(int) -> a
    void initSingleton() -> a
    void initCaps(boolean) -> a
    java.lang.String getGLInfos(javax.media.opengl.GLAutoDrawable) -> a
    geogebra3D.euclidian3D.opengl.Component3D createComponent3D(boolean) -> a
    geogebra3D.euclidian3D.opengl.Animator createAnimator(geogebra3D.euclidian3D.opengl.Component3D,int) -> a
geogebra3D.euclidian3D.opengl.RendererJogl$AnimatorCanvas -> geogebra3D.euclidian3D.opengl.j$a:
geogebra3D.euclidian3D.opengl.RendererJogl$AnimatorJPanel -> geogebra3D.euclidian3D.opengl.j$b:
geogebra3D.euclidian3D.opengl.RendererJogl$ComponentGLCanvas -> geogebra3D.euclidian3D.opengl.j$c:
    java.awt.Component getParent() -> a
geogebra3D.euclidian3D.opengl.RendererJogl$ComponentGLJPanel -> geogebra3D.euclidian3D.opengl.j$d:
    java.awt.Component getParent() -> a
geogebra3D.euclidian3D.opengl.RendererLogicalPickingGL2 -> geogebra3D.euclidian3D.opengl.k:
    geogebra.common.geogebra3D.euclidian3D.Hitting hitting -> a
    void setHits(geogebra.common.awt.GPoint,int) -> b
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint) -> a
    void pickIntersectionCurves() -> Y
    void doPick() -> X
    boolean useLogicalPicking() -> a
geogebra3D.euclidian3D.opengl.RendererShaders -> geogebra3D.euclidian3D.opengl.l:
    int shaderProgram -> l
    int vertShader -> m
    int fragShader -> n
    int matrixLocation -> o
    int lightPositionLocation -> p
    int ambiantDiffuseLocation -> q
    int enableLightLocation -> r
    int eyePositionLocation -> s
    int cullingLocation -> t
    int dashValuesLocation -> u
    int textureTypeLocation -> v
    int colorLocation -> w
    int normalLocation -> x
    int centerLocation -> y
    int enableClipPlanesLocation -> z
    int clipPlanesMinLocation -> A
    int clipPlanesMaxLocation -> B
    int labelRenderingLocation -> C
    int labelOriginLocation -> D
    int[] vboHandles -> a
    int vboVertices -> E
    int vboColors -> F
    int vboNormals -> G
    int vboTextureCoords -> H
    boolean oneNormalForAllVertices -> i
    float[] tmpNormal3 -> c
    boolean objDone -> j
    float[] tmpFloat16 -> d
    float[][] ambiantDiffuse -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 projectionMatrix -> b
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix1 -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 tmpMatrix2 -> d
    double perspXZ -> v
    double glassesXZ -> w
    boolean texturesEnabled -> k
    int currentDash -> I
    int currentTextureType -> J
    int oldTextureType -> K
    float[] clipPlanesMin -> e
    float[] clipPlanesMax -> f
    geogebra.common.geogebra3D.euclidian3D.Hitting hitting -> a
    float[] resetCenter -> g
    javax.media.opengl.GL getGL() -> a
    java.lang.String loadTextFile(java.lang.String) -> a
    void initShaders() -> ac
    void loadVertexBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> d
    void resetOneNormalForAllVertices() -> aR
    void glBufferData(int,geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer) -> a
    void loadNormalBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> b
    void loadTextureBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> c
    void loadColorBuffer(geogebra.common.geogebra3D.euclidian3D.openGL.GLBuffer,int) -> a
    void draw(geogebra.common.geogebra3D.euclidian3D.openGL.Manager$Type,int) -> a
    void setModelViewIdentity() -> aS
    void draw() -> N
    void useShaderProgram() -> ad
    void dispose(javax.media.opengl.GLAutoDrawable) -> dispose
    void setMatrixView() -> H
    void unsetMatrixView() -> I
    void setExportImage() -> aN
    void setColor(float,float,float,float) -> a
    void initMatrix() -> O
    void resetMatrix() -> P
    void drawMouseCursor() -> R
    void setGLForPicking() -> V
    void pushSceneMatrix() -> W
    void doPick() -> X
    void pickIntersectionCurves() -> Y
    void glLoadName(int) -> d
    void setLightPosition(float[]) -> a
    void setLightAmbiantDiffuse(float,float,float,float) -> b
    void setLight(int) -> b
    void setColorMaterial() -> ae
    void setLightModel() -> af
    void setAlphaFunc() -> ag
    void setView() -> ai
    void viewOrtho() -> aq
    void updateOrthoValues() -> ap
    void viewPersp() -> as
    void updatePerspValues() -> ar
    void updateGlassesValues() -> at
    void viewGlasses() -> au
    void viewOblique() -> ax
    void updateProjectionObliqueValues() -> aw
    void setStencilLines() -> am
    geogebra.common.geogebra3D.euclidian3D.openGL.Manager createManager() -> b
    void enableTextures() -> t
    void disableTextures() -> u
    void setCurrentGeometryHasTexture() -> aO
    void setCurrentGeometryHasNoTexture() -> aP
    void enableFading() -> aI
    void enableDash() -> aJ
    void enableTexturesForText() -> aQ
    void setCurrentTextureType(int) -> h
    boolean areTexturesEnabled() -> b
    float[] getLightPosition() -> a
    void setDashTexture(int) -> f
    void enableClipPlanes() -> D
    void disableClipPlanes() -> E
    void setClipPlanes(double[][]) -> a
    void setClipPlanesToShader() -> aT
    void initRenderingValues() -> b
    void drawFaceToScreen() -> C
    void setLabelOrigin(geogebra.common.kernel.Matrix.Coords) -> a
    void setHits(geogebra.common.awt.GPoint,int) -> b
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint) -> a
    void enableLighting() -> A
    void initLighting() -> B
    void disableLighting() -> z
    boolean useLogicalPicking() -> a
    void setCenter(geogebra.common.kernel.Matrix.Coords) -> b
    void resetCenter() -> a
    void disableCulling() -> l
    void setCullFaceFront() -> m
    void setCullFaceBack() -> n
    void drawTranspNotCurved() -> q
geogebra3D.euclidian3D.opengl.RendererTesselCallBack -> geogebra3D.euclidian3D.opengl.RendererTesselCallBack:
    geogebra3D.euclidian3D.opengl.RendererGL2 renderer -> a
    void begin(int) -> begin
    void end() -> end
    void vertex(java.lang.Object) -> vertex
    void vertexData(java.lang.Object,java.lang.Object) -> vertexData
    void combine(double[],java.lang.Object[],float[],java.lang.Object[]) -> combine
    void combineData(double[],java.lang.Object[],float[],java.lang.Object[],java.lang.Object) -> combineData
    void error(int) -> error
    void beginData(int,java.lang.Object) -> beginData
    void endData(java.lang.Object) -> endData
    void edgeFlag(boolean) -> edgeFlag
    void edgeFlagData(boolean,java.lang.Object) -> edgeFlagData
    void errorData(int,java.lang.Object) -> errorData
geogebra3D.euclidianFor3D.EuclidianControllerFor3DD -> geogebra3D.b.a:
    geogebra.common.euclidian.EuclidianControllerCompanion newCompanion() -> b
geogebra3D.euclidianFor3D.EuclidianViewFor3DD -> geogebra3D.b.b:
    geogebra.common.euclidian.EuclidianViewCompanion newEuclidianViewCompanion() -> a
geogebra3D.euclidianForPlane.EuclidianControllerForPlaneD -> geogebra3D.c.a:
    geogebra.common.euclidian.EuclidianControllerCompanion newCompanion() -> b
geogebra3D.euclidianForPlane.EuclidianStyleBarForPlane -> geogebra3D.c.b:
    geogebra.gui.util.MyToggleButton btnCenterAndOrientation -> g
    void addGraphicsDecorationsButtons() -> j
    void addBtnRotateView() -> m
    boolean isVisibleInThisView(geogebra.common.kernel.geos.GeoElement) -> a
    void processSource(java.lang.Object,java.util.ArrayList) -> a
    void createButtons() -> n
    void setLabels() -> a
    void updateGUI() -> d
geogebra3D.euclidianForPlane.EuclidianStyleBarForPlane$1 -> geogebra3D.c.c:
    geogebra3D.euclidianForPlane.EuclidianStyleBarForPlane this$0 -> a
    void update(java.lang.Object[]) -> a
geogebra3D.euclidianForPlane.EuclidianViewForPlaneD -> geogebra3D.c.d:
    geogebra.common.euclidian.EuclidianViewCompanion newEuclidianViewCompanion() -> a
    geogebra.common.geogebra3D.euclidianForPlane.EuclidianViewForPlaneCompanion getCompanion() -> a
    geogebra.euclidian.EuclidianStyleBarD newEuclidianStyleBar() -> a
    geogebra.common.euclidian.EuclidianViewCompanion getCompanion() -> b
geogebra3D.euclidianInput3D.EuclidianControllerHand3D -> geogebra3D.d.a:
geogebra3D.euclidianInput3D.EuclidianControllerInput3D -> geogebra3D.d.b:
    geogebra.common.euclidian3D.Input3D input3D -> a
    geogebra.common.kernel.Matrix.Coords mouse3DPosition -> d
    geogebra.common.kernel.Matrix.Coords startMouse3DPosition -> e
    geogebra.common.kernel.Matrix.Coords glassesPosition -> g
    geogebra.common.kernel.Matrix.Quaternion mouse3DOrientation -> a
    geogebra.common.kernel.Matrix.Quaternion startMouse3DOrientation -> b
    geogebra.common.kernel.Matrix.Coords rotV -> h
    geogebra.common.kernel.Matrix.CoordMatrix startOrientationMatrix -> a
    geogebra.common.kernel.Matrix.CoordMatrix4x4 toSceneRotMatrix -> b
    geogebra.common.kernel.Matrix.Coords vx -> i
    boolean wasRightReleased -> u
    boolean wasLeftReleased -> v
    double screenHalfWidth -> k
    double screenHalfHeight -> l
    java.awt.Dimension panelDimension -> a
    java.awt.Point panelPosition -> a
    boolean eyeSepIsNotSet -> w
    java.awt.Robot robot -> a
    int robotX -> i
    int robotY -> j
    double[] inputPosition -> c
    geogebra.common.kernel.Matrix.Quaternion currentRot -> c
    geogebra3D.awt.GPointWithZ mouse3DLoc -> a
    geogebra.common.kernel.Matrix.Coords movedGeoPointStartCoords -> f
    geogebra.common.geogebra3D.kernel3D.geos.GeoPlane3D movedGeoPlane -> a
    geogebra.common.kernel.Matrix.CoordSys movedGeoPlaneStartCoordSys -> a
    geogebra.common.kernel.Matrix.Coords movedGeoStartPosition -> j
    java.util.ArrayList stickyPoints -> E
    geogebra.common.euclidian.EuclidianControllerCompanion newCompanion() -> b
    void setPositionXYOnPanel(double[],geogebra.common.kernel.Matrix.Coords) -> a
    void updateInput3D() -> G
    geogebra.common.kernel.Matrix.Coords getMouse3DPosition() -> c
    void storeOrientation() -> N
    void calcCurrentRot() -> M
    geogebra.common.kernel.Matrix.CoordMatrix getCurrentRotMatrix() -> a
    void processRightPress() -> O
    void updateMouse3DEvent() -> P
    void setMouseLocation(geogebra.common.euclidian.event.AbstractEvent) -> a
    void updateMovedGeoPointStartValues(geogebra.common.kernel.Matrix.Coords) -> a
    void mousePressed(java.awt.event.MouseEvent) -> mousePressed
    void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased
    boolean hasInput3D() -> y
    boolean useInputDepthForHitting() -> z
    boolean handleMovedElementFreePlane() -> x
    void setMovedGeoPlane(geogebra.common.kernel.geos.GeoElement) -> e
    float getPointCapturingPercentage() -> a
    boolean cursor3DVisibleForCurrentMode(int) -> d
    geogebra.common.awt.GPoint getMouseLoc() -> a
geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion -> geogebra3D.d.c:
    geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion$StationaryQuaternion stationaryQuaternion -> a
    java.util.TreeSet stickyPoints -> a
    geogebra.common.kernel.Matrix.Coords tmpCoordsInput3D1 -> a
    geogebra.common.geogebra3D.kernel3D.geos.GeoPoint3D createNewFreePoint(boolean) -> a
    void movePoint(boolean,geogebra.common.euclidian.event.AbstractEvent) -> a
    void movePlane(boolean,geogebra.common.euclidian.event.AbstractEvent) -> b
    boolean checkDistanceToStickyPoint(double,geogebra.common.kernel.kernelND.GeoPointND,double,int) -> a
geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion$StationaryQuaternion -> geogebra3D.d.c$a:
    geogebra.common.kernel.Matrix.Quaternion startCoords -> a
    geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion this$0 -> a
geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion$StickyPoint -> geogebra3D.d.c$b:
    geogebra.common.kernel.kernelND.GeoPointND point -> a
    double distance -> a
    geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion this$0 -> a
    double getDistanceAbs() -> a
    int compareTo(geogebra3D.euclidianInput3D.EuclidianControllerInput3DCompanion$StickyPoint) -> a
    int compareTo(java.lang.Object) -> compareTo
geogebra3D.euclidianInput3D.EuclidianViewInput3D -> geogebra3D.d.d:
    geogebra.common.euclidian3D.Input3D input3D -> a
    geogebra.common.kernel.Matrix.Coords mouse3DScreenPosition -> d
    geogebra.common.kernel.Matrix.Coords mouse3DScenePosition -> e
    geogebra.common.kernel.Matrix.Coords CompletingCursorColorGrabbing -> b
    geogebra.common.kernel.Matrix.Coords CompletingCursorColorRelease -> c
    geogebra.common.kernel.Matrix.CoordMatrix4x4 transparentMouseCursorMatrix -> b
    geogebra.common.kernel.Matrix.Coords startPos -> f
    geogebra.common.kernel.Matrix.CoordMatrix4x4 startTranslation -> c
    float LONG_DELAY -> a
    geogebra3D.euclidianInput3D.EuclidianViewInput3D$HittedGeo hittedGeo -> a
    geogebra3D.euclidianInput3D.EuclidianViewInput3D$StationaryCoords stationaryCoords -> a
    void drawMouseCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    boolean drawCompletingCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> a
    void drawTransp(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> d
    void drawHiding(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> e
    boolean isPolarized() -> J
    double getScreenZOffset() -> x
    void setStartPos(geogebra.common.kernel.Matrix.Coords) -> e
    void setCoordSystemFromMouse3DMove(geogebra.common.kernel.Matrix.Coords,geogebra.common.kernel.Matrix.Coords,double,double) -> a
    void setPickPointFromMouse(geogebra.common.awt.GPoint) -> a
    void drawFreeCursor(geogebra.common.geogebra3D.euclidian3D.openGL.Renderer) -> b
    geogebra.common.kernel.geos.GeoElement getLabelHit(geogebra.common.awt.GPoint,geogebra.common.euclidian.event.PointerEventType) -> a
    int getMousePickWidth() -> F
    void setHits(geogebra.common.euclidian.event.PointerEventType) -> a
    geogebra3D.euclidianInput3D.EuclidianViewInput3D$StationaryCoords getStationaryCoords() -> a
    geogebra.common.geogebra3D.euclidian3D.openGL.Renderer createRenderer() -> a
    boolean isMoveable(geogebra.common.kernel.geos.GeoElement) -> b
    int getCapturingThreshold(geogebra.common.euclidian.event.PointerEventType) -> a
    boolean hasMouse() -> n
geogebra3D.euclidianInput3D.EuclidianViewInput3D$HittedGeo -> geogebra3D.d.d$a:
    geogebra.common.kernel.geos.GeoElement geo -> a
    long startTime -> a
    long lastTime -> b
    long delay -> c
    geogebra.common.kernel.Matrix.Coords startMousePosition -> a
    geogebra3D.euclidianInput3D.EuclidianViewInput3D this$0 -> a
    boolean forgetCurrent(long) -> b
    void setHitted(geogebra.common.euclidian.Hits,long,geogebra.common.kernel.Matrix.Coords) -> a
    boolean hasLongDelay(long) -> a
    float getCompletingDelay() -> a
geogebra3D.euclidianInput3D.EuclidianViewInput3D$StationaryCoords -> geogebra3D.d.d$b:
    geogebra.common.kernel.Matrix.Coords startCoords -> a
    geogebra.common.kernel.Matrix.Coords currentCoords -> b
    long startTime -> a
    long delay -> b
    geogebra3D.euclidianInput3D.EuclidianViewInput3D this$0 -> a
    void setCoords(geogebra.common.kernel.Matrix.Coords,long) -> a
    boolean hasLongDelay(long) -> a
    float getCompletingDelay() -> a
    geogebra.common.kernel.Matrix.Coords getCurrentCoords() -> a
geogebra3D.euclidianInput3D.Mouse3DEvent -> geogebra3D.d.e:
    geogebra.common.awt.GPoint point -> a
    java.awt.Component component -> a
    geogebra.common.awt.GPoint getPoint() -> a
    boolean isAltDown() -> a
    boolean isShiftDown() -> b
    void release() -> a
    int getX() -> a
    int getY() -> b
    boolean isRightClick() -> c
    boolean isControlDown() -> d
    boolean isMetaDown() -> e
    boolean isMiddleClick() -> f
    boolean isPopupTrigger() -> g
    java.awt.Component getComponent() -> a
    geogebra.common.euclidian.event.PointerEventType getType() -> a
geogebra3D.gui.ContextMenuGraphicsWindow3DD -> geogebra3D.e.a:
    void setStandardView() -> z
    void addAxesAndGridCheckBoxes() -> y
    void showOptionsDialog() -> A
geogebra3D.gui.GuiManager3D -> geogebra3D.e.b:
    javax.swing.AbstractAction showAxes3DAction -> a
    javax.swing.AbstractAction showGrid3DAction -> b
    javax.swing.AbstractAction showPlaneAction -> c
    void initialize() -> J
    void initLayoutPanels() -> X
    boolean initActions() -> n
    javax.swing.AbstractAction getShowAxes3DAction() -> e
    javax.swing.AbstractAction getShowGrid3DAction() -> f
    javax.swing.AbstractAction getShowPlaneAction() -> g
    void showDrawingPadPopup3D(geogebra.common.euclidian.EuclidianViewInterfaceCommon,geogebra.common.awt.GPoint) -> b
    void showPopupChooseGeo(java.util.ArrayList,java.util.ArrayList,geogebra.common.euclidian.EuclidianView,geogebra.common.awt.GPoint) -> a
    geogebra.gui.view.algebra.AlgebraViewD newAlgebraView(geogebra.gui.view.algebra.AlgebraControllerD) -> a
    geogebra.euclidian.EuclidianViewD newEuclidianView(boolean[],boolean,int) -> a
    void attachView(int) -> a
    geogebra.gui.view.properties.PropertiesViewD newPropertiesViewD(geogebra.main.AppD) -> a
    void setLabels() -> R
geogebra3D.gui.GuiManager3D$1 -> geogebra3D.e.c:
    geogebra3D.gui.GuiManager3D this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra3D.gui.GuiManager3D$2 -> geogebra3D.e.d:
    geogebra3D.gui.GuiManager3D this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra3D.gui.GuiManager3D$3 -> geogebra3D.e.e:
    geogebra3D.gui.GuiManager3D this$0 -> a
    void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed
geogebra3D.gui.dialogs.DialogManager3D -> geogebra3D.e.a.a:
    void showNumberInputDialogCirclePointRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.euclidian.EuclidianView) -> a
    void showNumberInputDialogCirclePointDirectionRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoDirectionND) -> a
    void showNumberInputDialogSpherePointRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND) -> b
    void showNumberInputDialogConeTwoPointsRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> a
    void showNumberInputDialogCylinderTwoPointsRadius(java.lang.String,geogebra.common.kernel.kernelND.GeoPointND,geogebra.common.kernel.kernelND.GeoPointND) -> b
    void showNumberInputDialogRotate(java.lang.String,geogebra.common.kernel.geos.GeoPolygon[],geogebra.common.kernel.kernelND.GeoLineND[],geogebra.common.kernel.geos.GeoElement[],geogebra.common.euclidian.EuclidianController) -> a
geogebra3D.gui.dialogs.DialogManager3D$Factory -> geogebra3D.e.a.a$a:
    geogebra.gui.dialog.DialogManagerD create(geogebra.main.AppD) -> a
geogebra3D.gui.dialogs.InputDialogCirclePointDirectionRadius -> geogebra3D.e.a.b:
    geogebra.common.kernel.kernelND.GeoPointND geoPoint -> a
    geogebra.common.kernel.kernelND.GeoDirectionND forAxis -> a
    geogebra.common.kernel.geos.GeoElement createOutput(geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra3D.gui.dialogs.InputDialogConeTwoPointsRadius -> geogebra3D.e.a.c:
    geogebra.common.kernel.kernelND.GeoPointND a -> a
    geogebra.common.kernel.kernelND.GeoPointND b -> b
    geogebra.common.kernel.geos.GeoElement createOutput(geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra3D.gui.dialogs.InputDialogCylinderTwoPointsRadius -> geogebra3D.e.a.d:
    geogebra.common.kernel.kernelND.GeoPointND a -> a
    geogebra.common.kernel.kernelND.GeoPointND b -> b
    geogebra.common.kernel.geos.GeoElement createOutput(geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra3D.gui.dialogs.InputDialogRotateAxis -> geogebra3D.e.a.e:
    geogebra.common.kernel.kernelND.GeoLineND[] lines -> a
    boolean processInput() -> b
geogebra3D.gui.dialogs.InputDialogSpherePointRadius -> geogebra3D.e.a.f:
    geogebra.common.kernel.kernelND.GeoPointND geoPoint -> a
    geogebra.common.kernel.geos.GeoElement createOutput(geogebra.common.kernel.arithmetic.NumberValue) -> a
geogebra3D.gui.dialogs.options.OptionsEuclidian3DD -> geogebra3D.e.a.a.a:
    geogebra3D.gui.dialogs.options.OptionsEuclidian3DD$AxisPanel3D zAxisPanel -> a
    javax.swing.JCheckBox cbUseClipping -> e
    javax.swing.JCheckBox cbShowClipping -> f
    javax.swing.JCheckBox cbYAxisVertical -> g
    javax.swing.JRadioButton radioClippingSmall -> a
    javax.swing.JRadioButton radioClippingMedium -> b
    javax.swing.JRadioButton radioClippingLarge -> c
    javax.swing.JPanel clippingOptionsPanel -> d
    javax.swing.JPanel boxSizePanel -> e
    javax.swing.JCheckBox cbUseLight -> h
    javax.swing.JLabel[] projectionLabel -> a
    javax.swing.JTextField tfPersp -> e
    javax.swing.JTextField tfGlassesEyeSep -> f
    javax.swing.JTextField tfObliqueAngle -> g
    javax.swing.JTextField tfObliqueFactor -> h
    javax.swing.JLabel tfPerspLabel -> b
    javax.swing.JLabel tfGlassesLabel -> c
    javax.swing.JLabel tfObliqueAngleLabel -> d
    javax.swing.JLabel tfObliqueFactorLabel -> e
    geogebra3D.gui.dialogs.options.OptionsEuclidian3DD$ProjectionButtons projectionButtons -> a
    javax.swing.JCheckBox cbGlassesGray -> i
    javax.swing.JLabel cbGlassesGrayLabel -> f
    javax.swing.JCheckBox cbGlassesShutDownGreen -> j
    javax.swing.JLabel cbGlassesShutDownGreenLabel -> g
    void initAxesOptionsPanel() -> i
    void fillAxesOptionsPanel() -> j
    void fillGridPanel(javax.swing.JPanel,javax.swing.JPanel) -> a
    void setTypePanelLabel() -> o
    void addComboGridType() -> m
    javax.swing.JPanel buildBasicPanel() -> b
    void fillMiscPanel() -> l
    void initMiscPanel() -> k
    void enableStuff(boolean) -> f
    void addDimPanel(javax.swing.JPanel) -> a
    void updateGUI() -> c
    void initAxisPanels() -> h
    void addTabs() -> f
    void addAxisTabs() -> g
    javax.swing.JPanel buildProjectionPanel() -> c
    void setTabLabels() -> p
    void setLabels() -> x_
    void doActionPerformed(java.lang.Object) -> a
    void updateFont(java.awt.Font) -> a
    void actionBtBackgroundColor() -> r
    geogebra.common.euclidian.EuclidianView access$0(geogebra3D.gui.dialogs.options.OptionsEuclidian3DD) -> a
    geogebra.main.AppD access$1(geogebra3D.gui.dialogs.options.OptionsEuclidian3DD) -> a
geogebra3D.gui.dialogs.options.OptionsEuclidian3DD$AxisPanel3D -> geogebra3D.e.a.a.a$a:
    geogebra3D.gui.dialogs.options.OptionsEuclidian3DD this$0 -> a
    void addCrossPanel(javax.swing.JPanel) -> a
geogebra3D.gui.dialogs.options.OptionsEuclidian3DD$ProjectionButtons -> geogebra3D.e.a.a.a$b:
    javax.swing.JButton[] buttons -> a
    int buttonSelected -> a
    geogebra.common.geogebra3D.euclidian3D.EuclidianView3D view -> a
    geogebra3D.gui.dialogs.options.OptionsEuclidian3DD this$0 -> a
    javax.swing.JButton getButton(int) -> a
    void setSelected(int) -> a
    void updateIcons() -> a
    javax.swing.JButton access$1(geogebra3D.gui.dialogs.options.OptionsEuclidian3DD$ProjectionButtons,int) -> a
geogebra3D.gui.layout.panels.EuclidianDockPanel3DD -> geogebra3D.e.b.a.a:
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent loadStyleBar() -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
    javax.swing.ImageIcon getIcon() -> a
    void refresh(geogebra.gui.layout.DockManagerD) -> b
    boolean updateResizeWeight() -> a
    void updatePanel() -> h
    void resumeRenderer() -> x
geogebra3D.gui.layout.panels.EuclidianDockPanelForPlaneD -> geogebra3D.e.b.a.b:
    geogebra3D.euclidianForPlane.EuclidianViewForPlaneD view -> a
    int viewId -> c
    boolean canCustomizeToolbar() -> i
    geogebra3D.euclidianForPlane.EuclidianViewForPlaneD getView() -> a
    java.lang.String getPlainTitle() -> c
    javax.swing.JComponent loadComponent() -> b
    javax.swing.JComponent loadStyleBar() -> a
    geogebra.common.euclidian.EuclidianView getEuclidianView() -> a
    boolean updateResizeWeight() -> a
    geogebra.common.io.layout.DockPanelData createInfo() -> a
    void resetIds() -> x
geogebra3D.gui.view.algebra.AlgebraView3D -> geogebra3D.e.c.a.a:
    java.util.HashMap viewNodesMap -> c
    javax.swing.tree.DefaultMutableTreeNode rootView -> d
    javax.swing.tree.DefaultMutableTreeNode getParentNode(geogebra.common.kernel.geos.GeoElement,int) -> a
    void clearTree() -> m
    void initModel() -> g
    void removeAuxiliaryNode() -> o
    void setTreeLabels() -> i
geogebra3D.gui.view.properties.PropertiesStyleBar3DD -> geogebra3D.e.c.b.a:
    geogebra.gui.view.properties.PropertiesStyleBarD$PropertiesButton newPropertiesButton(geogebra.common.main.OptionType) -> a
    javax.swing.JMenuItem newJMenuItem(geogebra.common.main.OptionType) -> a
    void updateGUI() -> b
geogebra3D.gui.view.properties.PropertiesView3DD -> geogebra3D.e.c.b.b:
    geogebra.gui.dialog.options.OptionsEuclidianD euclidianPanel3D -> a
    geogebra.gui.dialog.options.OptionPanelD getOptionPanel(geogebra.common.main.OptionType) -> a
    void setLabels() -> n
    void updateFonts() -> u
    geogebra.gui.view.properties.PropertiesStyleBarD newPropertiesStyleBar() -> a
geogebra3D.input3D.Input3DFactory -> geogebra3D.f.a:
    geogebra.common.euclidian3D.Input3D createInput3D() -> a
geogebra3D.util.ImageManager3D -> geogebra3D.g.a:
    java.awt.Image getImageResourceGeoGebra(java.lang.String) -> a
javagiac.context -> javagiac.a:
    long swigCPtr -> a
    boolean swigCMemOwn -> a
    long getCPtr(javagiac.context) -> a
    void finalize() -> finalize
    void delete() -> a
    javagiac.context clone() -> a
    java.lang.Object clone() -> clone
javagiac.gen -> javagiac.b:
    long swigCPtr -> a
    boolean swigCMemOwn -> a
    long getCPtr(javagiac.gen) -> a
    void finalize() -> finalize
    void delete() -> a
    javagiac.gen eval(int,javagiac.context) -> a
    java.lang.String print(javagiac.context) -> a
javagiac.giac -> javagiac.c:
    javagiac.gen _eval(javagiac.gen,javagiac.context) -> a
javagiac.giacJNI -> javagiac.giacJNI:
    long new_vectori__SWIG_0() -> new_vectori__SWIG_0
    long new_vectori__SWIG_1(long) -> new_vectori__SWIG_1
    long vectori_size(long,javagiac.vectori) -> vectori_size
    long vectori_capacity(long,javagiac.vectori) -> vectori_capacity
    void vectori_reserve(long,javagiac.vectori,long) -> vectori_reserve
    boolean vectori_isEmpty(long,javagiac.vectori) -> vectori_isEmpty
    void vectori_clear(long,javagiac.vectori) -> vectori_clear
    void vectori_add(long,javagiac.vectori,int) -> vectori_add
    int vectori_get(long,javagiac.vectori,int) -> vectori_get
    void vectori_set(long,javagiac.vectori,int,int) -> vectori_set
    void delete_vectori(long) -> delete_vectori
    long new_vectord__SWIG_0() -> new_vectord__SWIG_0
    long new_vectord__SWIG_1(long) -> new_vectord__SWIG_1
    long vectord_size(long,javagiac.vectord) -> vectord_size
    long vectord_capacity(long,javagiac.vectord) -> vectord_capacity
    void vectord_reserve(long,javagiac.vectord,long) -> vectord_reserve
    boolean vectord_isEmpty(long,javagiac.vectord) -> vectord_isEmpty
    void vectord_clear(long,javagiac.vectord) -> vectord_clear
    void vectord_add(long,javagiac.vectord,double) -> vectord_add
    double vectord_get(long,javagiac.vectord,int) -> vectord_get
    void vectord_set(long,javagiac.vectord,int,double) -> vectord_set
    void delete_vectord(long) -> delete_vectord
    long new_vectorg__SWIG_0() -> new_vectorg__SWIG_0
    long new_vectorg__SWIG_1(long) -> new_vectorg__SWIG_1
    long vectorg_size(long,javagiac.vectorg) -> vectorg_size
    long vectorg_capacity(long,javagiac.vectorg) -> vectorg_capacity
    void vectorg_reserve(long,javagiac.vectorg,long) -> vectorg_reserve
    boolean vectorg_isEmpty(long,javagiac.vectorg) -> vectorg_isEmpty
    void vectorg_clear(long,javagiac.vectorg) -> vectorg_clear
    void vectorg_add(long,javagiac.vectorg,long,javagiac.gen) -> vectorg_add
    long vectorg_get(long,javagiac.vectorg,int) -> vectorg_get
    void vectorg_set(long,javagiac.vectorg,int,long,javagiac.gen) -> vectorg_set
    void delete_vectorg(long) -> delete_vectorg
    long new_vectors__SWIG_0() -> new_vectors__SWIG_0
    long new_vectors__SWIG_1(long) -> new_vectors__SWIG_1
    long vectors_size(long,javagiac.vectors) -> vectors_size
    long vectors_capacity(long,javagiac.vectors) -> vectors_capacity
    void vectors_reserve(long,javagiac.vectors,long) -> vectors_reserve
    boolean vectors_isEmpty(long,javagiac.vectors) -> vectors_isEmpty
    void vectors_clear(long,javagiac.vectors) -> vectors_clear
    void vectors_add(long,javagiac.vectors,java.lang.String) -> vectors_add
    java.lang.String vectors_get(long,javagiac.vectors,int) -> vectors_get
    void vectors_set(long,javagiac.vectors,int,java.lang.String) -> vectors_set
    void delete_vectors(long) -> delete_vectors
    void context_tabptr_set(long,javagiac.context,long) -> context_tabptr_set
    long context_tabptr_get(long,javagiac.context) -> context_tabptr_get
    void context_globalcontextptr_set(long,javagiac.context,long,javagiac.context) -> context_globalcontextptr_set
    long context_globalcontextptr_get(long,javagiac.context) -> context_globalcontextptr_get
    void context_previous_set(long,javagiac.context,long,javagiac.context) -> context_previous_set
    long context_previous_get(long,javagiac.context) -> context_previous_get
    void context_globalptr_set(long,javagiac.context,long) -> context_globalptr_set
    long context_globalptr_get(long,javagiac.context) -> context_globalptr_get
    void context_parent_set(long,javagiac.context,long,javagiac.context) -> context_parent_set
    long context_parent_get(long,javagiac.context) -> context_parent_get
    void context_quoted_global_vars_set(long,javagiac.context,long) -> context_quoted_global_vars_set
    long context_quoted_global_vars_get(long,javagiac.context) -> context_quoted_global_vars_get
    void context_history_in_ptr_set(long,javagiac.context,long) -> context_history_in_ptr_set
    long context_history_in_ptr_get(long,javagiac.context) -> context_history_in_ptr_get
    void context_history_out_ptr_set(long,javagiac.context,long) -> context_history_out_ptr_set
    long context_history_out_ptr_get(long,javagiac.context) -> context_history_out_ptr_get
    long new_context__SWIG_0() -> new_context__SWIG_0
    long new_context__SWIG_1(long,javagiac.context) -> new_context__SWIG_1
    long new_context__SWIG_2(java.lang.String) -> new_context__SWIG_2
    void delete_context(long) -> delete_context
    long context_clone(long,javagiac.context) -> context_clone
    void gen_type_set(long,javagiac.gen,short) -> gen_type_set
    short gen_type_get(long,javagiac.gen) -> gen_type_get
    void gen_type_unused_set(long,javagiac.gen,short) -> gen_type_unused_set
    short gen_type_unused_get(long,javagiac.gen) -> gen_type_unused_get
    void gen_subtype_set(long,javagiac.gen,byte) -> gen_subtype_set
    byte gen_subtype_get(long,javagiac.gen) -> gen_subtype_get
    void gen_reserved_set(long,javagiac.gen,int) -> gen_reserved_set
    int gen_reserved_get(long,javagiac.gen) -> gen_reserved_get
    void gen_val_set(long,javagiac.gen,int) -> gen_val_set
    int gen_val_get(long,javagiac.gen) -> gen_val_get
    long gen_ref_count(long,javagiac.gen) -> gen_ref_count
    long new_gen__SWIG_0() -> new_gen__SWIG_0
    long new_gen__SWIG_1(long,short) -> new_gen__SWIG_1
    long new_gen__SWIG_2(int) -> new_gen__SWIG_2
    long new_gen__SWIG_3(long) -> new_gen__SWIG_3
    long new_gen__SWIG_4(long) -> new_gen__SWIG_4
    long new_gen__SWIG_5(double) -> new_gen__SWIG_5
    long new_gen__SWIG_6(long) -> new_gen__SWIG_6
    double gen_DOUBLE_val(long,javagiac.gen) -> gen_DOUBLE_val
    long gen_FLOAT_val(long,javagiac.gen) -> gen_FLOAT_val
    long new_gen__SWIG_7(int,int) -> new_gen__SWIG_7
    long new_gen__SWIG_8(double,double) -> new_gen__SWIG_8
    long new_gen__SWIG_9(long,javagiac.gen,long,javagiac.gen) -> new_gen__SWIG_9
    long new_gen__SWIG_10(long) -> new_gen__SWIG_10
    long new_gen__SWIG_11(long,javagiac.gen) -> new_gen__SWIG_11
    long new_gen__SWIG_12(long) -> new_gen__SWIG_12
    long new_gen__SWIG_13(long) -> new_gen__SWIG_13
    long new_gen__SWIG_14(long,short) -> new_gen__SWIG_14
    long new_gen__SWIG_15(long) -> new_gen__SWIG_15
    long new_gen__SWIG_16(long,short) -> new_gen__SWIG_16
    long new_gen__SWIG_17(long) -> new_gen__SWIG_17
    long new_gen__SWIG_18(long) -> new_gen__SWIG_18
    long new_gen__SWIG_19(long) -> new_gen__SWIG_19
    long new_gen__SWIG_20(long) -> new_gen__SWIG_20
    long new_gen__SWIG_21(long) -> new_gen__SWIG_21
    long new_gen__SWIG_22(long) -> new_gen__SWIG_22
    long new_gen__SWIG_23(long) -> new_gen__SWIG_23
    long new_gen__SWIG_24(long) -> new_gen__SWIG_24
    long new_gen__SWIG_25(java.lang.String,long,javagiac.context) -> new_gen__SWIG_25
    long new_gen__SWIG_26(long,int) -> new_gen__SWIG_26
    long new_gen__SWIG_27(long) -> new_gen__SWIG_27
    long new_gen__SWIG_28(long) -> new_gen__SWIG_28
    long new_gen__SWIG_29(long) -> new_gen__SWIG_29
    long new_gen__SWIG_30(long) -> new_gen__SWIG_30
    long new_gen__SWIG_31(long) -> new_gen__SWIG_31
    void delete_gen(long) -> delete_gen
    long gen_ref_ZINTptr(long,javagiac.gen) -> gen_ref_ZINTptr
    long gen_ref_REALptr(long,javagiac.gen) -> gen_ref_REALptr
    long gen_ref_CPLXptr(long,javagiac.gen) -> gen_ref_CPLXptr
    long gen_ref_IDNTptr(long,javagiac.gen) -> gen_ref_IDNTptr
    long gen_ref_SYMBptr(long,javagiac.gen) -> gen_ref_SYMBptr
    long gen_ref_MODptr(long,javagiac.gen) -> gen_ref_MODptr
    long gen_ref_FRACptr(long,javagiac.gen) -> gen_ref_FRACptr
    long gen_ref_EXTptr(long,javagiac.gen) -> gen_ref_EXTptr
    long gen_ref_POLYptr(long,javagiac.gen) -> gen_ref_POLYptr
    long gen_ref_VECTptr(long,javagiac.gen) -> gen_ref_VECTptr
    long gen_ref_SPOL1ptr(long,javagiac.gen) -> gen_ref_SPOL1ptr
    long gen_ref_STRNGptr(long,javagiac.gen) -> gen_ref_STRNGptr
    long gen_ref_FUNCptr(long,javagiac.gen) -> gen_ref_FUNCptr
    long gen_ref_USERptr(long,javagiac.gen) -> gen_ref_USERptr
    long gen_ref_MAPptr(long,javagiac.gen) -> gen_ref_MAPptr
    long gen_ref_EQWptr(long,javagiac.gen) -> gen_ref_EQWptr
    long gen_ref_GROBptr(long,javagiac.gen) -> gen_ref_GROBptr
    long gen_ref_POINTER_val(long,javagiac.gen) -> gen_ref_POINTER_val
    boolean gen_in_eval(long,javagiac.gen,int,long,javagiac.gen,long,javagiac.context) -> gen_in_eval
    long gen_eval(long,javagiac.gen,int,long,javagiac.context) -> gen_eval
    boolean gen_in_evalf(long,javagiac.gen,int,long,javagiac.gen,long,javagiac.context) -> gen_in_evalf
    long gen_evalf(long,javagiac.gen,int,long,javagiac.context) -> gen_evalf
    long gen_evalf_double(long,javagiac.gen,int,long,javagiac.context) -> gen_evalf_double
    long gen_evalf2double(long,javagiac.gen,int,long,javagiac.context) -> gen_evalf2double
    int gen_to_int(long,javagiac.gen) -> gen_to_int
    boolean gen_is_real(long,javagiac.gen,long,javagiac.context) -> gen_is_real
    boolean gen_is_cinteger(long,javagiac.gen) -> gen_is_cinteger
    boolean gen_is_integer(long,javagiac.gen) -> gen_is_integer
    boolean gen_is_constant(long,javagiac.gen) -> gen_is_constant
    java.lang.String gen_print__SWIG_0(long,javagiac.gen,long,javagiac.context) -> gen_print__SWIG_0
    java.lang.String gen_printcharptr(long,javagiac.gen) -> gen_printcharptr
    int gen_sprint(long,javagiac.gen,long,long,javagiac.context) -> gen_sprint
    java.lang.String gen_print_universal(long,javagiac.gen,long,javagiac.context) -> gen_print_universal
    java.lang.String gen_print__SWIG_1(long,javagiac.gen) -> gen_print__SWIG_1
    long gen_wprint(long,javagiac.gen,long,javagiac.context) -> gen_wprint
    void gen_modify(long,javagiac.gen,int) -> gen_modify
    void gen_dbgprint(long,javagiac.gen) -> gen_dbgprint
    void gen_uncoerce(long,javagiac.gen) -> gen_uncoerce
    long gen_conj(long,javagiac.gen,long,javagiac.context) -> gen_conj
    long gen_re(long,javagiac.gen,long,javagiac.context) -> gen_re
    long gen_im(long,javagiac.gen,long,javagiac.context) -> gen_im
    long gen_inverse(long,javagiac.gen,long,javagiac.context) -> gen_inverse
    long gen_squarenorm(long,javagiac.gen,long,javagiac.context) -> gen_squarenorm
    int gen_bindigits(long,javagiac.gen) -> gen_bindigits
    long gen_operator_at__SWIG_0(long,javagiac.gen,int,long,javagiac.context) -> gen_operator_at__SWIG_0
    long gen_operator_at__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> gen_operator_at__SWIG_1
    long gen_operator_of(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> gen_operator_of
    boolean gen_islesscomplexthan(long,javagiac.gen,long,javagiac.gen) -> gen_islesscomplexthan
    boolean gen_is_approx(long,javagiac.gen) -> gen_is_approx
    int gen_symb_size(long,javagiac.gen) -> gen_symb_size
    long gen_change_subtype(long,javagiac.gen,int) -> gen_change_subtype
    boolean gen_is_symb_of_sommet(long,javagiac.gen,long) -> gen_is_symb_of_sommet
    long gen_makegen(long,javagiac.gen,int) -> gen_makegen
    long makevecteur__SWIG_0(long,javagiac.gen) -> makevecteur__SWIG_0
    long makevecteur__SWIG_1(long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_1
    long makevecteur__SWIG_2(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_2
    long makevecteur__SWIG_3(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_3
    long makevecteur__SWIG_4(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_4
    long makevecteur__SWIG_5(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_5
    long makevecteur__SWIG_6(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_6
    long makevecteur__SWIG_7(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_7
    long makevecteur__SWIG_8(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> makevecteur__SWIG_8
    long _factor(long,javagiac.gen,long,javagiac.context) -> _factor
    long _simplify(long,javagiac.gen,long,javagiac.context) -> _simplify
    long _size(long,javagiac.gen,long,javagiac.context) -> _size
    long add(long,javagiac.gen,long,javagiac.gen) -> add
    long sub(long,javagiac.gen,long,javagiac.gen) -> sub
    long neg(long,javagiac.gen) -> neg
    long mul(long,javagiac.gen,long,javagiac.gen) -> mul
    long rdiv(long,javagiac.gen,long,javagiac.gen) -> rdiv
    long mod(long,javagiac.gen,long,javagiac.gen) -> mod
    long pow__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> pow__SWIG_0
    long giac_pow(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> giac_pow
    long iquo(long,javagiac.gen,long,javagiac.gen) -> iquo
    long irem(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> irem
    long smod__SWIG_0(long,javagiac.gen,long,javagiac.gen) -> smod__SWIG_0
    void smod__SWIG_1(long,long,javagiac.gen,long) -> smod__SWIG_1
    long smod__SWIG_2(long,long,javagiac.gen) -> smod__SWIG_2
    long inv(long,javagiac.gen,long,javagiac.context) -> inv
    boolean operator_equal(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> operator_equal
    long equal(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> equal
    int fastsign(long,javagiac.gen,long,javagiac.context) -> fastsign
    long sign(long,javagiac.gen,long,javagiac.context) -> sign
    boolean is_greater(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_greater
    boolean is_strictly_greater(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_strictly_greater
    boolean is_positive(long,javagiac.gen,long,javagiac.context) -> is_positive
    boolean is_strictly_positive(long,javagiac.gen,long,javagiac.context) -> is_strictly_positive
    boolean ck_is_greater(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ck_is_greater
    boolean ck_is_strictly_greater(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ck_is_strictly_greater
    boolean ck_is_positive(long,javagiac.gen,long,javagiac.context) -> ck_is_positive
    boolean ck_is_strictly_positive(long,javagiac.gen,long,javagiac.context) -> ck_is_strictly_positive
    long superieur_strict(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> superieur_strict
    long superieur_egal(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> superieur_egal
    long inferieur_strict(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> inferieur_strict
    long inferieur_egal(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> inferieur_egal
    boolean symb_size_less(long,javagiac.gen,long,javagiac.gen) -> symb_size_less
    long min(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> min
    long max(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> max
    long factorial(long) -> factorial
    long comb__SWIG_0(long,long) -> comb__SWIG_0
    long perm(long,long) -> perm
    long pow__SWIG_1(long,javagiac.gen,long) -> pow__SWIG_1
    long pow__SWIG_2(long,javagiac.gen,int) -> pow__SWIG_2
    long pow__SWIG_3(long,long) -> pow__SWIG_3
    long gcd(long,javagiac.gen,long,javagiac.gen) -> gcd
    long lcm(long,javagiac.gen,long,javagiac.gen) -> lcm
    long simplify__SWIG_0(long,javagiac.gen,long,javagiac.gen) -> simplify__SWIG_0
    void egcd(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> egcd
    long ichinrem(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> ichinrem
    long invmod(long,javagiac.gen,long,javagiac.gen) -> invmod
    long fracmod__SWIG_0(long,javagiac.gen,long,javagiac.gen) -> fracmod__SWIG_0
    boolean fracmod__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> fracmod__SWIG_1
    long powmod(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen) -> powmod
    long isqrt(long,javagiac.gen) -> isqrt
    long re(long,javagiac.gen,long,javagiac.context) -> re
    long no_context_re(long,javagiac.gen) -> no_context_re
    long im(long,javagiac.gen,long,javagiac.context) -> im
    long no_context_im(long,javagiac.gen) -> no_context_im
    void reim(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> reim
    long conj(long,javagiac.gen,long,javagiac.context) -> conj
    long no_context_conj(long,javagiac.gen) -> no_context_conj
    long sq(long,javagiac.gen) -> sq
    long abs__SWIG_0(long,javagiac.gen,long,javagiac.context) -> abs__SWIG_0
    long abs__SWIG_1(long,javagiac.gen) -> abs__SWIG_1
    long linfnorm__SWIG_0(long,javagiac.gen,long,javagiac.context) -> linfnorm__SWIG_0
    long linfnorm__SWIG_1(long,javagiac.gen) -> linfnorm__SWIG_1
    long arg(long,javagiac.gen,long,javagiac.context) -> arg
    long arg_CPLX(long,javagiac.gen,long,javagiac.context) -> arg_CPLX
    int is_perfect_square(long,javagiac.gen) -> is_perfect_square
    int is_probab_prime_p(long,javagiac.gen) -> is_probab_prime_p
    long nextprime(long,javagiac.gen) -> nextprime
    long prevprime(long,javagiac.gen) -> prevprime
    int jacobi(long,javagiac.gen,long,javagiac.gen) -> jacobi
    int legendre(long,javagiac.gen,long,javagiac.gen) -> legendre
    long pascal_next_line(long) -> pascal_next_line
    long pascal_nth_line(int) -> pascal_nth_line
    long vector2vecteur(long) -> vector2vecteur
    long chkmod(long,javagiac.gen,long,javagiac.gen) -> chkmod
    long makemod(long,javagiac.gen,long,javagiac.gen) -> makemod
    long makemodquoted(long,javagiac.gen,long,javagiac.gen) -> makemodquoted
    long symbolique2liste(long,javagiac.gen,long,javagiac.context) -> symbolique2liste
    long liste2symbolique(long) -> liste2symbolique
    boolean is_atomic(long,javagiac.gen) -> is_atomic
    long string2gen__SWIG_0(java.lang.String,boolean) -> string2gen__SWIG_0
    long string2gen__SWIG_1(java.lang.String) -> string2gen__SWIG_1
    long no_context_evalf(long,javagiac.gen) -> no_context_evalf
    long evalf(long,javagiac.gen,int,long,javagiac.context) -> evalf
    long evalf2bcd_nock(long,javagiac.gen,int,long,javagiac.context) -> evalf2bcd_nock
    long evalf2bcd(long,javagiac.gen,int,long,javagiac.context) -> evalf2bcd
    boolean has_evalf(long,javagiac.gen,long,javagiac.gen,int,long,javagiac.context) -> has_evalf
    double int2double(int) -> int2double
    long aplatir_fois_plus(long,javagiac.gen) -> aplatir_fois_plus
    long collect(long,javagiac.gen,long,javagiac.context) -> collect
    long select_root(long,long,javagiac.context) -> select_root
    boolean is_known_rootof(long,long,javagiac.gen,long,javagiac.context) -> is_known_rootof
    long alg_evalf(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> alg_evalf
    long approx_rootof(long,javagiac.gen,long,javagiac.context) -> approx_rootof
    long common_EXT(long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context) -> common_EXT
    long common_minimal_POLY(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context) -> common_minimal_POLY
    long ext_add(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ext_add
    long ext_sub(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ext_sub
    long ext_mul(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ext_mul
    long symb_rootof(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> symb_rootof
    long rootof(long,javagiac.gen,long,javagiac.context) -> rootof
    long sturm(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sturm
    int sturmab(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sturmab
    long _sturmab(long,javagiac.gen,long,javagiac.context) -> _sturmab
    long _sturm(long,javagiac.gen,long,javagiac.context) -> _sturm
    long _sturmseq(long,javagiac.gen,long,javagiac.context) -> _sturmseq
    int sturmsign(long,javagiac.gen,boolean,long,javagiac.context) -> sturmsign
    int find_range(long,javagiac.gen,long,long,javagiac.context) -> find_range
    long fminmax(long,javagiac.gen,int,long,javagiac.context) -> fminmax
    long _complexroot(long,javagiac.gen,long,javagiac.context) -> _complexroot
    long _realroot(long,javagiac.gen,long,javagiac.context) -> _realroot
    long _crationalroot(long,javagiac.gen,long,javagiac.context) -> _crationalroot
    long _rationalroot(long,javagiac.gen,long,javagiac.context) -> _rationalroot
    long symb2poly_num(long,javagiac.gen,long,javagiac.context) -> symb2poly_num
    long eval_before_diff(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> eval_before_diff
    long derive__SWIG_0(long,javagiac.gen,long,long,javagiac.context) -> derive__SWIG_0
    long derive__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> derive__SWIG_1
    long derive__SWIG_2(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> derive__SWIG_2
    long _derive(long,javagiac.gen,long,javagiac.context) -> _derive
    long _function_diff(long,javagiac.gen,long,javagiac.context) -> _function_diff
    long _grad(long,javagiac.gen,long,javagiac.context) -> _grad
    long laplace(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> laplace
    long _laplace(long,javagiac.gen,long,javagiac.context) -> _laplace
    long diffeq_constante(int,long,javagiac.context) -> diffeq_constante
    long ilaplace(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ilaplace
    long _ilaplace(long,javagiac.gen,long,javagiac.context) -> _ilaplace
    long _desolve(long,javagiac.gen,long,javagiac.context) -> _desolve
    long ztrans(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> ztrans
    long _ztrans(long,javagiac.gen,long,javagiac.context) -> _ztrans
    long invztrans(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> invztrans
    long _invztrans(long,javagiac.gen,long,javagiac.context) -> _invztrans
    long integrate_without_lnabs(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> integrate_without_lnabs
    long _ezgcd(long,javagiac.gen,long,javagiac.context) -> _ezgcd
    long _modgcd(long,javagiac.gen,long,javagiac.context) -> _modgcd
    long _heugcd(long,javagiac.gen,long,javagiac.context) -> _heugcd
    long _psrgcd(long,javagiac.gen,long,javagiac.context) -> _psrgcd
    long quad(long,long,javagiac.gen,long,long,javagiac.context) -> quad
    long qxa(long,javagiac.gen,long,long,javagiac.context) -> qxa
    long _q2a(long,javagiac.gen,long,javagiac.context) -> _q2a
    long gauss(long,javagiac.gen,long,long,javagiac.context) -> gauss
    long _gauss(long,javagiac.gen,long,javagiac.context) -> _gauss
    long axq(long,long,long,javagiac.context) -> axq
    long _a2q(long,javagiac.gen,long,javagiac.context) -> _a2q
    long qxac(long,javagiac.gen,long,long,javagiac.context) -> qxac
    long _conique_reduite(long,javagiac.gen,long,javagiac.context) -> _conique_reduite
    long _quadrique_reduite(long,javagiac.gen,long,javagiac.context) -> _quadrique_reduite
    void settypeerr(long,javagiac.context) -> settypeerr
    void setsizeerr(long,javagiac.context) -> setsizeerr
    void setdimerr(long,javagiac.context) -> setdimerr
    void divisionby0err(long,javagiac.gen,long,javagiac.context) -> divisionby0err
    void cksignerr(long,javagiac.gen,long,javagiac.context) -> cksignerr
    void invalidserieserr(java.lang.String,long,javagiac.context) -> invalidserieserr
    void toofewargs(java.lang.String,long,javagiac.context) -> toofewargs
    void toomanyargs(java.lang.String,long,javagiac.context) -> toomanyargs
    void maxordererr(long,javagiac.context) -> maxordererr
    void setstabilityerr(long,javagiac.context) -> setstabilityerr
    long gentypeerr__SWIG_0(long,javagiac.context) -> gentypeerr__SWIG_0
    void gentypeerr__SWIG_1(long,javagiac.gen,long,javagiac.context) -> gentypeerr__SWIG_1
    long gensizeerr__SWIG_0(long,javagiac.context) -> gensizeerr__SWIG_0
    void gensizeerr__SWIG_1(long,javagiac.gen,long,javagiac.context) -> gensizeerr__SWIG_1
    long gendimerr__SWIG_0(long,javagiac.context) -> gendimerr__SWIG_0
    void gendimerr__SWIG_1(long,javagiac.gen,long,javagiac.context) -> gendimerr__SWIG_1
    long gendivisionby0err(long,javagiac.gen,long,javagiac.context) -> gendivisionby0err
    long gencksignerr(long,javagiac.gen,long,javagiac.context) -> gencksignerr
    long geninvalidserieserr(java.lang.String,long,javagiac.context) -> geninvalidserieserr
    long gentoofewargs(java.lang.String,long,javagiac.context) -> gentoofewargs
    long gentoomanyargs(java.lang.String,long,javagiac.context) -> gentoomanyargs
    long genmaxordererr(long,javagiac.context) -> genmaxordererr
    long genstabilityerr(long,javagiac.context) -> genstabilityerr
    java.lang.String print_the_type(int,long,javagiac.context) -> print_the_type
    java.lang.String printinner_VECT(long,int,long,javagiac.context) -> printinner_VECT
    long add_printinner_VECT(long,long,int,long,javagiac.context) -> add_printinner_VECT
    java.lang.String begin_VECT_string(int,boolean,long,javagiac.context) -> begin_VECT_string
    java.lang.String end_VECT_string(int,boolean,long,javagiac.context) -> end_VECT_string
    java.lang.String print_VECT(long,int,long,javagiac.context) -> print_VECT
    java.lang.String printint32(int,int,long,javagiac.context) -> printint32
    java.lang.String print_FLOAT_(long,long,javagiac.context) -> print_FLOAT_
    long parsed_gen__SWIG_0(long,javagiac.context) -> parsed_gen__SWIG_0
    void parsed_gen__SWIG_1(long,javagiac.gen,long,javagiac.context) -> parsed_gen__SWIG_1
    long archive_count(long,javagiac.gen,long,javagiac.context) -> archive_count
    boolean archive_save(long,long,javagiac.gen,long,javagiac.context) -> archive_save
    long archive_restore(long,long,javagiac.context) -> archive_restore
    long _ithprime(long,javagiac.gen,long,javagiac.context) -> _ithprime
    long _ifactors(long,javagiac.gen,long,javagiac.context) -> _ifactors
    long _maple_ifactors(long,javagiac.gen,long,javagiac.context) -> _maple_ifactors
    long ifactors__SWIG_0(long,javagiac.gen,long,javagiac.context) -> ifactors__SWIG_0
    long ifactors__SWIG_1(long,javagiac.gen,int,long,javagiac.context) -> ifactors__SWIG_1
    long factors(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> factors
    long _factors(long,javagiac.gen,long,javagiac.context) -> _factors
    long _divis(long,javagiac.gen,long,javagiac.context) -> _divis
    long idivis(long,javagiac.gen,long,javagiac.context) -> idivis
    long _idivis(long,javagiac.gen,long,javagiac.context) -> _idivis
    long pfacprem(long,javagiac.gen,boolean,long,javagiac.context) -> pfacprem
    long ifactor(long,javagiac.gen,long,javagiac.context) -> ifactor
    long _ifactor(long,javagiac.gen,long,javagiac.context) -> _ifactor
    long euler(long,javagiac.gen,long,javagiac.context) -> euler
    long _euler(long,javagiac.gen,long,javagiac.context) -> _euler
    long pa2b2(long,javagiac.gen,long,javagiac.context) -> pa2b2
    long _pa2b2(long,javagiac.gen,long,javagiac.context) -> _pa2b2
    long _propfrac(long,javagiac.gen,long,javagiac.context) -> _propfrac
    long _iabcuv(long,javagiac.gen,long,javagiac.context) -> _iabcuv
    long abcuv(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> abcuv
    long _abcuv(long,javagiac.gen,long,javagiac.context) -> _abcuv
    long simp2(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> simp2
    long _simp2(long,javagiac.gen,long,javagiac.context) -> _simp2
    long _fxnd(long,javagiac.gen,long,javagiac.context) -> _fxnd
    int is_meromorphic(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_meromorphic
    int is_even_odd(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_even_odd
    long residue(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> residue
    long _residue(long,javagiac.gen,long,javagiac.context) -> _residue
    boolean intgab(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> intgab
    long singular(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> singular
    long _singular(long,javagiac.gen,long,javagiac.context) -> _singular
    long complex_subst__SWIG_0(long,javagiac.gen,long,long,long,javagiac.context) -> complex_subst__SWIG_0
    long complex_subst__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> complex_subst__SWIG_1
    long lvarxwithinv(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> lvarxwithinv
    boolean is_constant_wrt(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_constant_wrt
    boolean is_linear_wrt(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_linear_wrt
    boolean is_quadratic_wrt(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_quadratic_wrt
    long lnabs(long,javagiac.gen,long,javagiac.context) -> lnabs
    long surd(long,javagiac.gen,int,long,javagiac.context) -> surd
    long _surd(long,javagiac.gen,long,javagiac.context) -> _surd
    long invexptoexpneg(long,javagiac.gen,long,javagiac.context) -> invexptoexpneg
    boolean is_rewritable_as_f_of(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> is_rewritable_as_f_of
    boolean intgab_ratfrac(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> intgab_ratfrac
    long integrate_gen_rem(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> integrate_gen_rem
    long integrate_id_rem(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> integrate_id_rem
    long linear_integrate(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> linear_integrate
    long integrate_id(long,javagiac.gen,long,long,javagiac.context) -> integrate_id
    long integrate_gen(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> integrate_gen
    long _integrate(long,javagiac.gen,long,javagiac.context) -> _integrate
    double rombergo(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,int,long,javagiac.context) -> rombergo
    double rombergt(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,int,long,javagiac.context) -> rombergt
    long _romberg(long,javagiac.gen,long,javagiac.context) -> _romberg
    long sum__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sum__SWIG_0
    long sum_loop(long,javagiac.gen,long,javagiac.gen,int,int,long,javagiac.context) -> sum_loop
    long sum__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sum__SWIG_1
    long _sum(long,javagiac.gen,long,javagiac.context) -> _sum
    long _Sum(long,javagiac.gen,long,javagiac.context) -> _Sum
    long _bernoulli(long,javagiac.gen,long,javagiac.context) -> _bernoulli
    long seqprod(long,javagiac.gen,int,long,javagiac.context) -> seqprod
    long _odesolve(long,javagiac.gen,long,javagiac.context) -> _odesolve
    long preval(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> preval
    long _ibpdv(long,javagiac.gen,long,javagiac.context) -> _ibpdv
    long fourier_an(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> fourier_an
    long fourier_bn(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> fourier_bn
    long fourier_cn(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> fourier_cn
    long _fourier_an(long,javagiac.gen,long,javagiac.context) -> _fourier_an
    long _fourier_bn(long,javagiac.gen,long,javagiac.context) -> _fourier_bn
    long _fourier_cn(long,javagiac.gen,long,javagiac.context) -> _fourier_cn
    long _isom(long,javagiac.gen,long,javagiac.context) -> _isom
    long _mkisom(long,javagiac.gen,long,javagiac.context) -> _mkisom
    long mkisom(long,javagiac.gen,int,long,javagiac.context) -> mkisom
    long prod_expand(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> prod_expand
    long unlin(long,long,javagiac.context) -> unlin
    void convolution(long,javagiac.gen,long,javagiac.gen,long,long,long,javagiac.context) -> convolution
    void lin(long,javagiac.gen,long,long,javagiac.context) -> lin
    long _lin(long,javagiac.gen,long,javagiac.context) -> _lin
    long lnexpand(long,javagiac.gen,long,javagiac.context) -> lnexpand
    long tunlin(long,long,javagiac.context) -> tunlin
    void tconvolution(long,javagiac.gen,long,javagiac.gen,long,long,long,javagiac.context) -> tconvolution
    void tlin(long,javagiac.gen,long,long,javagiac.context) -> tlin
    long _tlin(long,javagiac.gen,long,javagiac.context) -> _tlin
    long _texpand(long,javagiac.gen,long,javagiac.context) -> _texpand
    long expand(long,javagiac.gen,long,javagiac.context) -> expand
    long ln_expand(long,javagiac.gen,long,javagiac.context) -> ln_expand
    long expexpand(long,javagiac.gen,long,javagiac.context) -> expexpand
    long trigexpand(long,javagiac.gen,long,javagiac.context) -> trigexpand
    long _about(long,javagiac.gen,long,javagiac.context) -> _about
    long _zip(long,javagiac.gen,long,javagiac.context) -> _zip
    long _accumulate_head_tail(long,javagiac.gen,long,javagiac.context) -> _accumulate_head_tail
    long _divide(long,javagiac.gen,long,javagiac.context) -> _divide
    long _ratnormal(long,javagiac.gen,long,javagiac.context) -> _ratnormal
    long _inverse(long,javagiac.gen,long,javagiac.context) -> _inverse
    long _Inverse(long,javagiac.gen,long,javagiac.context) -> _Inverse
    long _igcdex(long,javagiac.gen,long,javagiac.context) -> _igcdex
    long _gcdex(long,javagiac.gen,long,javagiac.context) -> _gcdex
    long _revlist(long,javagiac.gen,long,javagiac.context) -> _revlist
    long _restart(long,javagiac.gen,long,javagiac.context) -> _restart
    long _restart_modes(long,javagiac.gen,long,javagiac.context) -> _restart_modes
    long _time(long,javagiac.gen,long,javagiac.context) -> _time
    long _cat(long,javagiac.gen,long,javagiac.context) -> _cat
    long _pivot(long,javagiac.gen,long,javagiac.context) -> _pivot
    long _rowspace(long,javagiac.gen,long,javagiac.context) -> _rowspace
    long _colspace(long,javagiac.gen,long,javagiac.context) -> _colspace
    long _copy(long,javagiac.gen,long,javagiac.context) -> _copy
    long _row(long,javagiac.gen,long,javagiac.context) -> _row
    long _col(long,javagiac.gen,long,javagiac.context) -> _col
    long _count_sup(long,javagiac.gen,long,javagiac.context) -> _count_sup
    long _count_inf(long,javagiac.gen,long,javagiac.context) -> _count_inf
    long _trunc(long,javagiac.gen,long,javagiac.context) -> _trunc
    long _evalc(long,javagiac.gen,long,javagiac.context) -> _evalc
    long _open(long,javagiac.gen,long,javagiac.context) -> _open
    long _fopen(long,javagiac.gen,long,javagiac.context) -> _fopen
    long _fprint(long,javagiac.gen,long,javagiac.context) -> _fprint
    long _close(long,javagiac.gen,long,javagiac.context) -> _close
    long _blockmatrix(long,javagiac.gen,long,javagiac.context) -> _blockmatrix
    long _delcols(long,javagiac.gen,long,javagiac.context) -> _delcols
    long _delrows(long,javagiac.gen,long,javagiac.context) -> _delrows
    long _JordanBlock(long,javagiac.gen,long,javagiac.context) -> _JordanBlock
    long _companion(long,javagiac.gen,long,javagiac.context) -> _companion
    long _border(long,javagiac.gen,long,javagiac.context) -> _border
    long _pade(long,javagiac.gen,long,javagiac.context) -> _pade
    long _lhs(long,javagiac.gen,long,javagiac.context) -> _lhs
    long _rhs(long,javagiac.gen,long,javagiac.context) -> _rhs
    long _reverse_rsolve(long,javagiac.gen,long,javagiac.context) -> _reverse_rsolve
    long fft(long,javagiac.gen,int,long,javagiac.context) -> fft
    long _fft(long,javagiac.gen,long,javagiac.context) -> _fft
    long _ifft(long,javagiac.gen,long,javagiac.context) -> _ifft
    long _Resultant(long,javagiac.gen,long,javagiac.context) -> _Resultant
    long _Nullspace(long,javagiac.gen,long,javagiac.context) -> _Nullspace
    long _assign(long,javagiac.gen,long,javagiac.context) -> _assign
    long _implicitplot3d(long,javagiac.gen,long,javagiac.context) -> _implicitplot3d
    long _readwav(long,javagiac.gen,long,javagiac.context) -> _readwav
    long _writewav(long,javagiac.gen,long,javagiac.context) -> _writewav
    long _animate(long,javagiac.gen,long,javagiac.context) -> _animate
    long _animate3d(long,javagiac.gen,long,javagiac.context) -> _animate3d
    long _even(long,javagiac.gen,long,javagiac.context) -> _even
    long _odd(long,javagiac.gen,long,javagiac.context) -> _odd
    long _writergb(long,javagiac.gen,long,javagiac.context) -> _writergb
    long _readrgb(long,javagiac.gen,long,javagiac.context) -> _readrgb
    long product(long,long,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> product
    long _seqsolve(long,javagiac.gen,long,javagiac.context) -> _seqsolve
    long _rsolve(long,javagiac.gen,long,javagiac.context) -> _rsolve
    long _array(long,javagiac.gen,long,javagiac.context) -> _array
    long _makemod(long,javagiac.gen,long,javagiac.context) -> _makemod
    long _hexprint(long,javagiac.gen,long,javagiac.context) -> _hexprint
    long _octprint(long,javagiac.gen,long,javagiac.context) -> _octprint
    long _binprint(long,javagiac.gen,long,javagiac.context) -> _binprint
    java.lang.String cprint(long,javagiac.gen,long,javagiac.context) -> cprint
    long _mathml(long,javagiac.gen,long,javagiac.context) -> _mathml
    long _spread2mathml(long,javagiac.gen,long,javagiac.context) -> _spread2mathml
    java.lang.String gen2mathml__SWIG_0(long,javagiac.gen,long,javagiac.context) -> gen2mathml__SWIG_0
    java.lang.String gen2mathml__SWIG_1(long,javagiac.gen,long,long,javagiac.context) -> gen2mathml__SWIG_1
    java.lang.String gen2svg(long,javagiac.gen,long,javagiac.context) -> gen2svg
    long _scalar_product(long,javagiac.gen,long,javagiac.context) -> _scalar_product
    long _compare(long,javagiac.gen,long,javagiac.context) -> _compare
    long _preval(long,javagiac.gen,long,javagiac.context) -> _preval
    long _lagrange(long,javagiac.gen,long,javagiac.context) -> _lagrange
    long _reorder(long,javagiac.gen,long,javagiac.context) -> _reorder
    long _adjoint_matrix(long,javagiac.gen,long,javagiac.context) -> _adjoint_matrix
    long _equal2diff(long,javagiac.gen,long,javagiac.context) -> _equal2diff
    long _equal2list(long,javagiac.gen,long,javagiac.context) -> _equal2list
    long _rank(long,javagiac.gen,long,javagiac.context) -> _rank
    long _csc(long,javagiac.gen,long,javagiac.context) -> _csc
    long _cot(long,javagiac.gen,long,javagiac.context) -> _cot
    long _acsc(long,javagiac.gen,long,javagiac.context) -> _acsc
    long _ibpu(long,javagiac.gen,long,javagiac.context) -> _ibpu
    long _changebase(long,javagiac.gen,long,javagiac.context) -> _changebase
    long _epsilon2zero(long,javagiac.gen,long,javagiac.context) -> _epsilon2zero
    long _suppress(long,javagiac.gen,long,javagiac.context) -> _suppress
    long _valuation(long,javagiac.gen,long,javagiac.context) -> _valuation
    long _degree(long,javagiac.gen,long,javagiac.context) -> _degree
    long _lcoeff(long,javagiac.gen,long,javagiac.context) -> _lcoeff
    long _tcoeff(long,javagiac.gen,long,javagiac.context) -> _tcoeff
    long _sqrfree(long,javagiac.gen,long,javagiac.context) -> _sqrfree
    long _truncate(long,javagiac.gen,long,javagiac.context) -> _truncate
    long _canonical_form(long,javagiac.gen,long,javagiac.context) -> _canonical_form
    long _fcoeff(long,javagiac.gen,long,javagiac.context) -> _fcoeff
    long _froot(long,javagiac.gen,long,javagiac.context) -> _froot
    long _roots(long,javagiac.gen,long,javagiac.context) -> _roots
    long _divpc(long,javagiac.gen,long,javagiac.context) -> _divpc
    long _ptayl(long,javagiac.gen,long,javagiac.context) -> _ptayl
    long _dfc(long,javagiac.gen,long,javagiac.context) -> _dfc
    long _dfc2f(long,javagiac.gen,long,javagiac.context) -> _dfc2f
    long _float2rational(long,javagiac.gen,long,javagiac.context) -> _float2rational
    long _gramschmidt(long,javagiac.gen,long,javagiac.context) -> _gramschmidt
    long _pmin(long,javagiac.gen,long,javagiac.context) -> _pmin
    long _potential(long,javagiac.gen,long,javagiac.context) -> _potential
    long _vpotential(long,javagiac.gen,long,javagiac.context) -> _vpotential
    long _poly2symb(long,javagiac.gen,long,javagiac.context) -> _poly2symb
    long _symb2poly(long,javagiac.gen,long,javagiac.context) -> _symb2poly
    long _exp2trig(long,javagiac.gen,long,javagiac.context) -> _exp2trig
    long _nrows(long,javagiac.gen,long,javagiac.context) -> _nrows
    long _ncols(long,javagiac.gen,long,javagiac.context) -> _ncols
    long _l2norm(long,javagiac.gen,long,javagiac.context) -> _l2norm
    long _normalize(long,javagiac.gen,long,javagiac.context) -> _normalize
    long _lgcd(long,javagiac.gen,long,javagiac.context) -> _lgcd
    long _float(long,javagiac.gen,long,javagiac.context) -> _float
    long _hold(long,javagiac.gen,long,javagiac.context) -> _hold
    long _eigenvals(long,javagiac.gen,long,javagiac.context) -> _eigenvals
    long _Gcd(long,javagiac.gen,long,javagiac.context) -> _Gcd
    long _Gcdex(long,javagiac.gen,long,javagiac.context) -> _Gcdex
    long _Factor(long,javagiac.gen,long,javagiac.context) -> _Factor
    long _Rref(long,javagiac.gen,long,javagiac.context) -> _Rref
    long _Rank(long,javagiac.gen,long,javagiac.context) -> _Rank
    long _Det(long,javagiac.gen,long,javagiac.context) -> _Det
    long _Quo(long,javagiac.gen,long,javagiac.context) -> _Quo
    long _Rem(long,javagiac.gen,long,javagiac.context) -> _Rem
    long _Int(long,javagiac.gen,long,javagiac.context) -> _Int
    long _divisors(long,javagiac.gen,long,javagiac.context) -> _divisors
    long _maxnorm(long,javagiac.gen,long,javagiac.context) -> _maxnorm
    long _l1norm(long,javagiac.gen,long,javagiac.context) -> _l1norm
    long _dotprod(long,javagiac.gen,long,javagiac.context) -> _dotprod
    long _diag(long,javagiac.gen,long,javagiac.context) -> _diag
    long _input__SWIG_0(long,javagiac.gen,long,javagiac.context) -> _input__SWIG_0
    long _textinput(long,javagiac.gen,long,javagiac.context) -> _textinput
    long _primpart(long,javagiac.gen,long,javagiac.context) -> _primpart
    long _content(long,javagiac.gen,long,javagiac.context) -> _content
    long _coeff(long,javagiac.gen,long,javagiac.context) -> _coeff
    long _chrem(long,javagiac.gen,long,javagiac.context) -> _chrem
    long _genpoly(long,javagiac.gen,long,javagiac.context) -> _genpoly
    long _median(long,javagiac.gen,long,javagiac.context) -> _median
    long _quartile1(long,javagiac.gen,long,javagiac.context) -> _quartile1
    long _quartile3(long,javagiac.gen,long,javagiac.context) -> _quartile3
    long _quantile(long,javagiac.gen,long,javagiac.context) -> _quantile
    long _quartiles(long,javagiac.gen,long,javagiac.context) -> _quartiles
    long _moustache(long,javagiac.gen,long,javagiac.context) -> _moustache
    long _mean(long,javagiac.gen,long,javagiac.context) -> _mean
    long _stdDev(long,javagiac.gen,long,javagiac.context) -> _stdDev
    long _stddev(long,javagiac.gen,long,javagiac.context) -> _stddev
    long _variance(long,javagiac.gen,long,javagiac.context) -> _variance
    long _covariance_correlation(long,javagiac.gen,long,javagiac.context) -> _covariance_correlation
    long _covariance(long,javagiac.gen,long,javagiac.context) -> _covariance
    long _correlation(long,javagiac.gen,long,javagiac.context) -> _correlation
    long _interval2center(long,javagiac.gen,long,javagiac.context) -> _interval2center
    long _linear_regression(long,javagiac.gen,long,javagiac.context) -> _linear_regression
    long _exponential_regression(long,javagiac.gen,long,javagiac.context) -> _exponential_regression
    long _power_regression(long,javagiac.gen,long,javagiac.context) -> _power_regression
    long regression_plot_attributs(long,javagiac.gen,long,long,long,long,javagiac.context) -> regression_plot_attributs
    long _linear_regression_plot(long,javagiac.gen,long,javagiac.context) -> _linear_regression_plot
    long _exponential_regression_plot(long,javagiac.gen,long,javagiac.context) -> _exponential_regression_plot
    long _logarithmic_regression_plot(long,javagiac.gen,long,javagiac.context) -> _logarithmic_regression_plot
    long _power_regression_plot(long,javagiac.gen,long,javagiac.context) -> _power_regression_plot
    long _polynomial_regression(long,javagiac.gen,long,javagiac.context) -> _polynomial_regression
    long _polynomial_regression_plot(long,javagiac.gen,long,javagiac.context) -> _polynomial_regression_plot
    long _logistic_regression(long,javagiac.gen,long,javagiac.context) -> _logistic_regression
    long _logistic_regression_plot(long,javagiac.gen,long,javagiac.context) -> _logistic_regression_plot
    long _linear_interpolate(long,javagiac.gen,long,javagiac.context) -> _linear_interpolate
    long _parabolic_interpolate(long,javagiac.gen,long,javagiac.context) -> _parabolic_interpolate
    long _center2interval(long,javagiac.gen,long,javagiac.context) -> _center2interval
    long _histogram(long,javagiac.gen,long,javagiac.context) -> _histogram
    long _cumulated_frequencies(long,javagiac.gen,long,javagiac.context) -> _cumulated_frequencies
    long _classes(long,javagiac.gen,long,javagiac.context) -> _classes
    long _listplot(long,javagiac.gen,long,javagiac.context) -> _listplot
    long _scatterplot(long,javagiac.gen,long,javagiac.context) -> _scatterplot
    long _polygonplot(long,javagiac.gen,long,javagiac.context) -> _polygonplot
    long _polygonscatterplot(long,javagiac.gen,long,javagiac.context) -> _polygonscatterplot
    long _diagramme_batons(long,javagiac.gen,long,javagiac.context) -> _diagramme_batons
    long _camembert(long,javagiac.gen,long,javagiac.context) -> _camembert
    long cross_prod(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> cross_prod
    long _convexhull(long,javagiac.gen,long,javagiac.context) -> _convexhull
    long _simplex_reduce(long,javagiac.gen,long,javagiac.context) -> _simplex_reduce
    long _spline(long,javagiac.gen,long,javagiac.context) -> _spline
    long _bitand(long,javagiac.gen,long,javagiac.context) -> _bitand
    long _bitor(long,javagiac.gen,long,javagiac.context) -> _bitor
    long _bitxor(long,javagiac.gen,long,javagiac.context) -> _bitxor
    long _hamdist(long,javagiac.gen,long,javagiac.context) -> _hamdist
    long _plotarea(long,javagiac.gen,long,javagiac.context) -> _plotarea
    long _add_language(long,javagiac.gen,long,javagiac.context) -> _add_language
    long _remove_language(long,javagiac.gen,long,javagiac.context) -> _remove_language
    long _show_language(long,javagiac.gen,long,javagiac.context) -> _show_language
    long _os_version(long,javagiac.gen,long,javagiac.context) -> _os_version
    long gen2continued_fraction(long,javagiac.gen,int,long,javagiac.context) -> gen2continued_fraction
    long float2rational(double,double,long,javagiac.context) -> float2rational
    long _sec(long,javagiac.gen,long,javagiac.context) -> _sec
    long _asec(long,javagiac.gen,long,javagiac.context) -> _asec
    long _acot(long,javagiac.gen,long,javagiac.context) -> _acot
    long _horner(long,javagiac.gen,long,javagiac.context) -> _horner
    long _moyal(long,javagiac.gen,long,javagiac.context) -> _moyal
    long _Airy_Ai(long,javagiac.gen,long,javagiac.context) -> _Airy_Ai
    long _Airy_Bi(long,javagiac.gen,long,javagiac.context) -> _Airy_Bi
    long _randNorm(long,javagiac.gen,long,javagiac.context) -> _randNorm
    long _randexp(long,javagiac.gen,long,javagiac.context) -> _randexp
    long _UTPN(long,javagiac.gen,long,javagiac.context) -> _UTPN
    long UTPC(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> UTPC
    long _UTPC(long,javagiac.gen,long,javagiac.context) -> _UTPC
    long UTPT(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> UTPT
    long _UTPT(long,javagiac.gen,long,javagiac.context) -> _UTPT
    long UTPF(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> UTPF
    long _UTPF(long,javagiac.gen,long,javagiac.context) -> _UTPF
    long binomial(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> binomial
    long _binomial(long,javagiac.gen,long,javagiac.context) -> _binomial
    long binomial_cdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> binomial_cdf
    long _binomial_cdf(long,javagiac.gen,long,javagiac.context) -> _binomial_cdf
    long binomial_icdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> binomial_icdf
    long _binomial_icdf(long,javagiac.gen,long,javagiac.context) -> _binomial_icdf
    long poisson(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> poisson
    long _poisson(long,javagiac.gen,long,javagiac.context) -> _poisson
    long poisson_cdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> poisson_cdf
    long _poisson_cdf(long,javagiac.gen,long,javagiac.context) -> _poisson_cdf
    long poisson_icdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> poisson_icdf
    long _poisson_icdf(long,javagiac.gen,long,javagiac.context) -> _poisson_icdf
    long _normald(long,javagiac.gen,long,javagiac.context) -> _normald
    long _normal_cdf(long,javagiac.gen,long,javagiac.context) -> _normal_cdf
    long _normal_icdf(long,javagiac.gen,long,javagiac.context) -> _normal_icdf
    long student(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> student
    long _student(long,javagiac.gen,long,javagiac.context) -> _student
    long student_cdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> student_cdf
    long _student_cdf(long,javagiac.gen,long,javagiac.context) -> _student_cdf
    long student_icdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> student_icdf
    long _student_icdf(long,javagiac.gen,long,javagiac.context) -> _student_icdf
    long chisquare(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> chisquare
    long _chisquare(long,javagiac.gen,long,javagiac.context) -> _chisquare
    long chisquare_cdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> chisquare_cdf
    long _chisquare_cdf(long,javagiac.gen,long,javagiac.context) -> _chisquare_cdf
    long chisquare_icdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> chisquare_icdf
    long _chisquare_icdf(long,javagiac.gen,long,javagiac.context) -> _chisquare_icdf
    long snedecor(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> snedecor
    long _snedecor(long,javagiac.gen,long,javagiac.context) -> _snedecor
    long snedecor_cdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> snedecor_cdf
    long _snedecor_cdf(long,javagiac.gen,long,javagiac.context) -> _snedecor_cdf
    long snedecor_icdf(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> snedecor_icdf
    long _snedecor_icdf(long,javagiac.gen,long,javagiac.context) -> _snedecor_icdf
    long Beta(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> Beta
    long _Beta(long,javagiac.gen,long,javagiac.context) -> _Beta
    long Bessel(long,javagiac.gen,int,long,javagiac.context) -> Bessel
    long _BesselI(long,javagiac.gen,long,javagiac.context) -> _BesselI
    long _BesselJ(long,javagiac.gen,long,javagiac.context) -> _BesselJ
    long _BesselK(long,javagiac.gen,long,javagiac.context) -> _BesselK
    long _BesselY(long,javagiac.gen,long,javagiac.context) -> _BesselY
    long _constants_catalog(long,javagiac.gen,long,javagiac.context) -> _constants_catalog
    long _pari(long,javagiac.gen,long,javagiac.context) -> _pari
    long _trn(long,javagiac.gen,long,javagiac.context) -> _trn
    long _sizes(long,javagiac.gen,long,javagiac.context) -> _sizes
    long _permuorder(long,javagiac.gen,long,javagiac.context) -> _permuorder
    long _randperm(long,javagiac.gen,long,javagiac.context) -> _randperm
    long _is_permu(long,javagiac.gen,long,javagiac.context) -> _is_permu
    long _is_cycle(long,javagiac.gen,long,javagiac.context) -> _is_cycle
    long _cycle2perm(long,javagiac.gen,long,javagiac.context) -> _cycle2perm
    long _p1op2(long,javagiac.gen,long,javagiac.context) -> _p1op2
    long _c1oc2(long,javagiac.gen,long,javagiac.context) -> _c1oc2
    long _c1op2(long,javagiac.gen,long,javagiac.context) -> _c1op2
    long _p1oc2(long,javagiac.gen,long,javagiac.context) -> _p1oc2
    long _cycles2permu(long,javagiac.gen,long,javagiac.context) -> _cycles2permu
    long _permu2cycles(long,javagiac.gen,long,javagiac.context) -> _permu2cycles
    long _perminv(long,javagiac.gen,long,javagiac.context) -> _perminv
    long _cycleinv(long,javagiac.gen,long,javagiac.context) -> _cycleinv
    long _signature(long,javagiac.gen,long,javagiac.context) -> _signature
    long _hilbert(long,javagiac.gen,long,javagiac.context) -> _hilbert
    long _hadamard(long,javagiac.gen,long,javagiac.context) -> _hadamard
    long _syst2mat(long,javagiac.gen,long,javagiac.context) -> _syst2mat
    long _vandermonde(long,javagiac.gen,long,javagiac.context) -> _vandermonde
    long _laplacian(long,javagiac.gen,long,javagiac.context) -> _laplacian
    long _hessian(long,javagiac.gen,long,javagiac.context) -> _hessian
    long _divergence(long,javagiac.gen,long,javagiac.context) -> _divergence
    long _curl(long,javagiac.gen,long,javagiac.context) -> _curl
    long _groupermu(long,javagiac.gen,long,javagiac.context) -> _groupermu
    long _nextperm(long,javagiac.gen,long,javagiac.context) -> _nextperm
    long _prevperm(long,javagiac.gen,long,javagiac.context) -> _prevperm
    long _split(long,javagiac.gen,long,javagiac.context) -> _split
    long _sum_riemann(long,javagiac.gen,long,javagiac.context) -> _sum_riemann
    long _hermite(long,javagiac.gen,long,javagiac.context) -> _hermite
    long _laguerre(long,javagiac.gen,long,javagiac.context) -> _laguerre
    long _tchebyshev1(long,javagiac.gen,long,javagiac.context) -> _tchebyshev1
    long _tchebyshev2(long,javagiac.gen,long,javagiac.context) -> _tchebyshev2
    long _legendre(long,javagiac.gen,long,javagiac.context) -> _legendre
    long _permu2mat(long,javagiac.gen,long,javagiac.context) -> _permu2mat
    long interpolyedre(long,long,javagiac.gen,long,javagiac.context) -> interpolyedre
    long interdroitehyperplan(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> interdroitehyperplan
    long interhyperplan(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> interhyperplan
    long interhypersurfacecurve(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> interhypersurfacecurve
    long inter2hypersurface(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> inter2hypersurface
    long interplansphere(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> interplansphere
    long hypersurface_equation(long,javagiac.gen,long,long,javagiac.context) -> hypersurface_equation
    long _plot3d(long,javagiac.gen,long,javagiac.context) -> _plot3d
    long _hypersurface(long,javagiac.gen,long,javagiac.context) -> _hypersurface
    long _hyperplan(long,javagiac.gen,long,javagiac.context) -> _hyperplan
    long _plan(long,javagiac.gen,long,javagiac.context) -> _plan
    long _cone(long,javagiac.gen,long,javagiac.context) -> _cone
    long _demi_cone(long,javagiac.gen,long,javagiac.context) -> _demi_cone
    long _cylindre(long,javagiac.gen,long,javagiac.context) -> _cylindre
    long _perpendiculaire_commune(long,javagiac.gen,long,javagiac.context) -> _perpendiculaire_commune
    long _polyedre(long,javagiac.gen,long,javagiac.context) -> _polyedre
    long _prisme(long,javagiac.gen,long,javagiac.context) -> _prisme
    long _parallelepipede(long,javagiac.gen,long,javagiac.context) -> _parallelepipede
    long _pyramide(long,javagiac.gen,long,javagiac.context) -> _pyramide
    long _tetraedre_centre(long,javagiac.gen,long,javagiac.context) -> _tetraedre_centre
    long _cube(long,javagiac.gen,long,javagiac.context) -> _cube
    long _cube_centre(long,javagiac.gen,long,javagiac.context) -> _cube_centre
    long _octaedre(long,javagiac.gen,long,javagiac.context) -> _octaedre
    long _icosaedre(long,javagiac.gen,long,javagiac.context) -> _icosaedre
    long _dodecaedre(long,javagiac.gen,long,javagiac.context) -> _dodecaedre
    long _aretes(long,javagiac.gen,long,javagiac.context) -> _aretes
    long _faces(long,javagiac.gen,long,javagiac.context) -> _faces
    long _hypersphere(long,javagiac.gen,long,javagiac.context) -> _hypersphere
    long _sphere(long,javagiac.gen,long,javagiac.context) -> _sphere
    long _quadrique(long,javagiac.gen,long,javagiac.context) -> _quadrique
    long _est_cospherique(long,javagiac.gen,long,javagiac.context) -> _est_cospherique
    long get_point(long,javagiac.gen,int,long,javagiac.context) -> get_point
    long _point3d(long,javagiac.gen,long,javagiac.context) -> _point3d
    long _point2d(long,javagiac.gen,long,javagiac.context) -> _point2d
    long mkrand2d3d(int,int,long,long,javagiac.context) -> mkrand2d3d
    long droite_by_equation(long,boolean,long,javagiac.context) -> droite_by_equation
    boolean point2abc(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> point2abc
    long abs_norm(long,javagiac.gen,long,javagiac.context) -> abs_norm
    long abs_norm2(long,javagiac.gen,long,javagiac.context) -> abs_norm2
    long interpolygone(long,long,javagiac.gen,long,javagiac.context) -> interpolygone
    long interdroitecercle(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> interdroitecercle
    long curveintercircle(long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> curveintercircle
    long _avance(long,javagiac.gen,long,javagiac.context) -> _avance
    long _recule(long,javagiac.gen,long,javagiac.context) -> _recule
    long _position(long,javagiac.gen,long,javagiac.context) -> _position
    long _cap(long,javagiac.gen,long,javagiac.context) -> _cap
    long _tourne_droite(long,javagiac.gen,long,javagiac.context) -> _tourne_droite
    long _tourne_gauche(long,javagiac.gen,long,javagiac.context) -> _tourne_gauche
    long _leve_crayon(long,javagiac.gen,long,javagiac.context) -> _leve_crayon
    long _baisse_crayon(long,javagiac.gen,long,javagiac.context) -> _baisse_crayon
    long _ecris(long,javagiac.gen,long,javagiac.context) -> _ecris
    long _signe(long,javagiac.gen,long,javagiac.context) -> _signe
    long _saute(long,javagiac.gen,long,javagiac.context) -> _saute
    long _pas_de_cote(long,javagiac.gen,long,javagiac.context) -> _pas_de_cote
    long _cache_tortue(long,javagiac.gen,long,javagiac.context) -> _cache_tortue
    long _montre_tortue(long,javagiac.gen,long,javagiac.context) -> _montre_tortue
    long _debut_enregistrement(long,javagiac.gen,long,javagiac.context) -> _debut_enregistrement
    long _fin_enregistrement(long,javagiac.gen,long,javagiac.context) -> _fin_enregistrement
    long _repete(long,javagiac.gen,long,javagiac.context) -> _repete
    long _crayon(long,javagiac.gen,long,javagiac.context) -> _crayon
    long _efface(long,javagiac.gen,long,javagiac.context) -> _efface
    long _vers(long,javagiac.gen,long,javagiac.context) -> _vers
    long _rond(long,javagiac.gen,long,javagiac.context) -> _rond
    long _disque(long,javagiac.gen,long,javagiac.context) -> _disque
    long _disque_centre(long,javagiac.gen,long,javagiac.context) -> _disque_centre
    long _polygone_rempli(long,javagiac.gen,long,javagiac.context) -> _polygone_rempli
    long _rectangle_plein(long,javagiac.gen,long,javagiac.context) -> _rectangle_plein
    long _triangle_plein(long,javagiac.gen,long,javagiac.context) -> _triangle_plein
    long _dessine_tortue(long,javagiac.gen,long,javagiac.context) -> _dessine_tortue
    long _arc(long,javagiac.gen,long,javagiac.context) -> _arc
    long plotpreprocess(long,javagiac.gen,long,javagiac.context) -> plotpreprocess
    boolean chk_double_interval(long,javagiac.gen,long,long,long,javagiac.context) -> chk_double_interval
    void ck_parameter(long,javagiac.gen,long,javagiac.context) -> ck_parameter
    long _erase3d(long,javagiac.gen,long,javagiac.context) -> _erase3d
    void rewrite_with_t_real(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> rewrite_with_t_real
    boolean on(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> on
    long plotcontour(long,javagiac.gen,boolean,long,javagiac.context) -> plotcontour
    long _aire(long,javagiac.gen,long,javagiac.context) -> _aire
    long _perimetre(long,javagiac.gen,long,javagiac.context) -> _perimetre
    long _plotfunc(long,javagiac.gen,long,javagiac.context) -> _plotfunc
    long _erase(long,javagiac.gen,long,javagiac.context) -> _erase
    long _pixon(long,javagiac.gen,long,javagiac.context) -> _pixon
    long _pixoff(long,javagiac.gen,long,javagiac.context) -> _pixoff
    long _droite(long,javagiac.gen,long,javagiac.context) -> _droite
    long _slope(long,javagiac.gen,long,javagiac.context) -> _slope
    long _demi_droite(long,javagiac.gen,long,javagiac.context) -> _demi_droite
    long _segment(long,javagiac.gen,long,javagiac.context) -> _segment
    long symb_segment(long,javagiac.gen,long,javagiac.gen,long,int,long,javagiac.context) -> symb_segment
    long symb_pnt_name(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> symb_pnt_name
    long symb_pnt__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> symb_pnt__SWIG_0
    long pnt_attrib(long,javagiac.gen,long,long,javagiac.context) -> pnt_attrib
    long symb_pnt__SWIG_1(long,javagiac.gen,long,javagiac.context) -> symb_pnt__SWIG_1
    long _pnt(long,javagiac.gen,long,javagiac.context) -> _pnt
    long _animation(long,javagiac.gen,long,javagiac.context) -> _animation
    long _point(long,javagiac.gen,long,javagiac.context) -> _point
    long _affixe(long,javagiac.gen,long,javagiac.context) -> _affixe
    long _abscisse(long,javagiac.gen,long,javagiac.context) -> _abscisse
    long _ordonnee(long,javagiac.gen,long,javagiac.context) -> _ordonnee
    long _cote(long,javagiac.gen,long,javagiac.context) -> _cote
    long _coordonnees(long,javagiac.gen,long,javagiac.context) -> _coordonnees
    long _coordonnees_polaires(long,javagiac.gen,long,javagiac.context) -> _coordonnees_polaires
    long _coordonnees_rectangulaires(long,javagiac.gen,long,javagiac.context) -> _coordonnees_rectangulaires
    long _point_polaire(long,javagiac.gen,long,javagiac.context) -> _point_polaire
    long _cercle(long,javagiac.gen,long,javagiac.context) -> _cercle
    boolean centre_rayon(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> centre_rayon
    long _centre(long,javagiac.gen,long,javagiac.context) -> _centre
    long _rayon(long,javagiac.gen,long,javagiac.context) -> _rayon
    long _milieu(long,javagiac.gen,long,javagiac.context) -> _milieu
    long _mediatrice(long,javagiac.gen,long,javagiac.context) -> _mediatrice
    long bissectrice(long,javagiac.gen,boolean,long,javagiac.context) -> bissectrice
    long _bissectrice(long,javagiac.gen,long,javagiac.context) -> _bissectrice
    long _exbissectrice(long,javagiac.gen,long,javagiac.context) -> _exbissectrice
    long _mediane(long,javagiac.gen,long,javagiac.context) -> _mediane
    long _circonscrit(long,javagiac.gen,long,javagiac.context) -> _circonscrit
    long _orthocentre(long,javagiac.gen,long,javagiac.context) -> _orthocentre
    long _inscrit(long,javagiac.gen,long,javagiac.context) -> _inscrit
    long _exinscrit(long,javagiac.gen,long,javagiac.context) -> _exinscrit
    long _isobarycentre(long,javagiac.gen,long,javagiac.context) -> _isobarycentre
    long _barycentre(long,javagiac.gen,long,javagiac.context) -> _barycentre
    long perpendiculaire(long,javagiac.gen,boolean,long,javagiac.context) -> perpendiculaire
    long _perpendiculaire(long,javagiac.gen,long,javagiac.context) -> _perpendiculaire
    long _orthogonal(long,javagiac.gen,long,javagiac.context) -> _orthogonal
    long _parallele(long,javagiac.gen,long,javagiac.context) -> _parallele
    long distance2pp(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> distance2pp
    long distance2(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> distance2
    long _longueur2(long,javagiac.gen,long,javagiac.context) -> _longueur2
    long _longueur(long,javagiac.gen,long,javagiac.context) -> _longueur
    long _angle(long,javagiac.gen,long,javagiac.context) -> _angle
    long scalar_product(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> scalar_product
    long projection__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> projection__SWIG_0
    long projection__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> projection__SWIG_1
    long parameter2point(long,long,javagiac.context) -> parameter2point
    long cercle2curve(long,javagiac.gen,long,javagiac.context) -> cercle2curve
    long inter(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> inter
    long _click(long,javagiac.gen,long,javagiac.context) -> _click
    long _element(long,javagiac.gen,long,javagiac.context) -> _element
    long _as_function_of(long,javagiac.gen,long,javagiac.context) -> _as_function_of
    long _lieu(long,javagiac.gen,long,javagiac.context) -> _lieu
    long _head(long,javagiac.gen,long,javagiac.context) -> _head
    long _tail(long,javagiac.gen,long,javagiac.context) -> _tail
    long _sommets(long,javagiac.gen,long,javagiac.context) -> _sommets
    long _sommets_abca(long,javagiac.gen,long,javagiac.context) -> _sommets_abca
    long _symetrie(long,javagiac.gen,long,javagiac.context) -> _symetrie
    long _rotation(long,javagiac.gen,long,javagiac.context) -> _rotation
    long _projection(long,javagiac.gen,long,javagiac.context) -> _projection
    long _homothetie(long,javagiac.gen,long,javagiac.context) -> _homothetie
    long _est_coplanaire(long,javagiac.gen,long,javagiac.context) -> _est_coplanaire
    long _est_aligne(long,javagiac.gen,long,javagiac.context) -> _est_aligne
    long _est_cocyclique(long,javagiac.gen,long,javagiac.context) -> _est_cocyclique
    long _est_parallele(long,javagiac.gen,long,javagiac.context) -> _est_parallele
    long _est_perpendiculaire(long,javagiac.gen,long,javagiac.context) -> _est_perpendiculaire
    long _est_element(long,javagiac.gen,long,javagiac.context) -> _est_element
    long _inversion(long,javagiac.gen,long,javagiac.context) -> _inversion
    long _similitude(long,javagiac.gen,long,javagiac.context) -> _similitude
    long translation(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> translation
    long _translation(long,javagiac.gen,long,javagiac.context) -> _translation
    long _curve(long,javagiac.gen,long,javagiac.context) -> _curve
    long _plotparam(long,javagiac.gen,long,javagiac.context) -> _plotparam
    long _plotpolar(long,javagiac.gen,long,javagiac.context) -> _plotpolar
    long _parameq(long,javagiac.gen,long,javagiac.context) -> _parameq
    long _equation(long,javagiac.gen,long,javagiac.context) -> _equation
    long equation_homogene(long,javagiac.gen,long,javagiac.context) -> equation_homogene
    long _tangent(long,javagiac.gen,long,javagiac.context) -> _tangent
    long _ellipse(long,javagiac.gen,long,javagiac.context) -> _ellipse
    long _hyperbole(long,javagiac.gen,long,javagiac.context) -> _hyperbole
    long _parabole(long,javagiac.gen,long,javagiac.context) -> _parabole
    long _conique(long,javagiac.gen,long,javagiac.context) -> _conique
    long _legende(long,javagiac.gen,long,javagiac.context) -> _legende
    long _distanceat(long,javagiac.gen,long,javagiac.context) -> _distanceat
    long _distanceatraw(long,javagiac.gen,long,javagiac.context) -> _distanceatraw
    long _areaatraw(long,javagiac.gen,long,javagiac.context) -> _areaatraw
    long _areaat(long,javagiac.gen,long,javagiac.context) -> _areaat
    long _slopeatraw(long,javagiac.gen,long,javagiac.context) -> _slopeatraw
    long _slopeat(long,javagiac.gen,long,javagiac.context) -> _slopeat
    long _perimeterat(long,javagiac.gen,long,javagiac.context) -> _perimeterat
    long _perimeteratraw(long,javagiac.gen,long,javagiac.context) -> _perimeteratraw
    long _extract_measure(long,javagiac.gen,long,javagiac.context) -> _extract_measure
    long _angleat(long,javagiac.gen,long,javagiac.context) -> _angleat
    long _angleatraw(long,javagiac.gen,long,javagiac.context) -> _angleatraw
    long _couleur(long,javagiac.gen,long,javagiac.context) -> _couleur
    long _parameter(long,javagiac.gen,long,javagiac.context) -> _parameter
    long _hauteur(long,javagiac.gen,long,javagiac.context) -> _hauteur
    long _triangle(long,javagiac.gen,long,javagiac.context) -> _triangle
    long _triangle_rectangle(long,javagiac.gen,long,javagiac.context) -> _triangle_rectangle
    long _triangle_isocele(long,javagiac.gen,long,javagiac.context) -> _triangle_isocele
    long _triangle_equilateral(long,javagiac.gen,long,javagiac.context) -> _triangle_equilateral
    long _parallelogramme(long,javagiac.gen,long,javagiac.context) -> _parallelogramme
    long _isopolygone(long,javagiac.gen,long,javagiac.context) -> _isopolygone
    long _carre(long,javagiac.gen,long,javagiac.context) -> _carre
    long _hexagone(long,javagiac.gen,long,javagiac.context) -> _hexagone
    long _quadrilatere(long,javagiac.gen,long,javagiac.context) -> _quadrilatere
    long _rectangle(long,javagiac.gen,long,javagiac.context) -> _rectangle
    long _losange(long,javagiac.gen,long,javagiac.context) -> _losange
    long _polygone(long,javagiac.gen,long,javagiac.context) -> _polygone
    long _polygone_ouvert(long,javagiac.gen,long,javagiac.context) -> _polygone_ouvert
    long _plotfield(long,javagiac.gen,long,javagiac.context) -> _plotfield
    long _interactive_plotode(long,javagiac.gen,long,javagiac.context) -> _interactive_plotode
    long _plotode(long,javagiac.gen,long,javagiac.context) -> _plotode
    long archive_session(boolean,java.lang.String,long,javagiac.context) -> archive_session
    long unarchive_session_string(java.lang.String,int,long,javagiac.gen,long,javagiac.context) -> unarchive_session_string
    long _unarchive(long,javagiac.gen,long,javagiac.context) -> _unarchive
    long _xyztrange(long,javagiac.gen,long,javagiac.context) -> _xyztrange
    long _switch_axes(long,javagiac.gen,long,javagiac.context) -> _switch_axes
    long _plotseq(long,javagiac.gen,long,javagiac.context) -> _plotseq
    long _plotimplicit(long,javagiac.gen,long,javagiac.context) -> _plotimplicit
    long _plotcontour(long,javagiac.gen,long,javagiac.context) -> _plotcontour
    long _plotinequation(long,javagiac.gen,long,javagiac.context) -> _plotinequation
    long _inter_droite(long,javagiac.gen,long,javagiac.context) -> _inter_droite
    long _dot_paper(long,javagiac.gen,long,javagiac.context) -> _dot_paper
    long _grid_paper(long,javagiac.gen,long,javagiac.context) -> _grid_paper
    long _triangle_paper(long,javagiac.gen,long,javagiac.context) -> _triangle_paper
    long _line_paper(long,javagiac.gen,long,javagiac.context) -> _line_paper
    long _bitmap(long,javagiac.gen,long,javagiac.context) -> _bitmap
    long _Pictsize(long,javagiac.gen,long,javagiac.context) -> _Pictsize
    long _plot_style(long,javagiac.gen,long,javagiac.context) -> _plot_style
    long _DrawInv(long,javagiac.gen,long,javagiac.context) -> _DrawInv
    long _Graph(long,javagiac.gen,long,javagiac.context) -> _Graph
    long _DrwCtour(long,javagiac.gen,long,javagiac.context) -> _DrwCtour
    int est_isocele(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_isocele
    long _est_isocele(long,javagiac.gen,long,javagiac.context) -> _est_isocele
    boolean est_equilateral(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_equilateral
    long _est_equilateral(long,javagiac.gen,long,javagiac.context) -> _est_equilateral
    boolean est_carre(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_carre
    long _est_carre(long,javagiac.gen,long,javagiac.context) -> _est_carre
    int est_losange(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_losange
    long _est_losange(long,javagiac.gen,long,javagiac.context) -> _est_losange
    int est_parallelogramme(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_parallelogramme
    long _est_parallelogramme(long,javagiac.gen,long,javagiac.context) -> _est_parallelogramme
    int est_rect(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_rect
    long _est_rectangle(long,javagiac.gen,long,javagiac.context) -> _est_rectangle
    long _est_harmonique(long,javagiac.gen,long,javagiac.context) -> _est_harmonique
    long _div_harmonique(long,javagiac.gen,long,javagiac.context) -> _div_harmonique
    long _point_div(long,javagiac.gen,long,javagiac.context) -> _point_div
    long _birapport(long,javagiac.gen,long,javagiac.context) -> _birapport
    long _conj_harmonique(long,javagiac.gen,long,javagiac.context) -> _conj_harmonique
    long _puissance(long,javagiac.gen,long,javagiac.context) -> _puissance
    long _axe_radical(long,javagiac.gen,long,javagiac.context) -> _axe_radical
    long _polaire(long,javagiac.gen,long,javagiac.context) -> _polaire
    long _pole(long,javagiac.gen,long,javagiac.context) -> _pole
    long _polaire_reciproque(long,javagiac.gen,long,javagiac.context) -> _polaire_reciproque
    long _est_orthogonal(long,javagiac.gen,long,javagiac.context) -> _est_orthogonal
    long _est_conjugue(long,javagiac.gen,long,javagiac.context) -> _est_conjugue
    long _est_faisceau_cercle(long,javagiac.gen,long,javagiac.context) -> _est_faisceau_cercle
    long _est_faisceau_droite(long,javagiac.gen,long,javagiac.context) -> _est_faisceau_droite
    int est_faisceau_droite(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_faisceau_droite
    long _enveloppe(long,javagiac.gen,long,javagiac.context) -> _enveloppe
    long put_attributs(long,javagiac.gen,long,long,javagiac.context) -> put_attributs
    int est_aligne(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_aligne
    boolean est_coplanaire(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_coplanaire
    boolean est_cocyclique(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_cocyclique
    boolean est_parallele(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_parallele
    boolean est_perpendiculaire(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_perpendiculaire
    int est_element(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_element
    int est_trianglerect(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_trianglerect
    boolean est_orthogonal(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_orthogonal
    boolean est_harmonique(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> est_harmonique
    long _vector(long,javagiac.gen,long,javagiac.context) -> _vector
    long _Ox_2d_unit_vector(long,javagiac.gen,long,javagiac.context) -> _Ox_2d_unit_vector
    long _Oy_2d_unit_vector(long,javagiac.gen,long,javagiac.context) -> _Oy_2d_unit_vector
    long _frame_2d(long,javagiac.gen,long,javagiac.context) -> _frame_2d
    long _Ox_3d_unit_vector(long,javagiac.gen,long,javagiac.context) -> _Ox_3d_unit_vector
    long _Oy_3d_unit_vector(long,javagiac.gen,long,javagiac.context) -> _Oy_3d_unit_vector
    long _Oz_3d_unit_vector(long,javagiac.gen,long,javagiac.context) -> _Oz_3d_unit_vector
    long _frame_3d(long,javagiac.gen,long,javagiac.context) -> _frame_3d
    void increment_instruction(long,javagiac.gen,long,javagiac.context) -> increment_instruction
    java.lang.String check_local_assign(long,javagiac.gen,long,javagiac.context) -> check_local_assign
    long quote_program(long,javagiac.gen,long,javagiac.context) -> quote_program
    long _program(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> _program
    void adjust_sst_at(long,javagiac.gen,long,javagiac.context) -> adjust_sst_at
    long _bloc(long,javagiac.gen,long,javagiac.context) -> _bloc
    java.lang.String printasfor(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printasfor
    java.lang.String printasifte(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printasifte
    long _ifte(long,javagiac.gen,long,javagiac.context) -> _ifte
    long _evalb(long,javagiac.gen,long,javagiac.context) -> _evalb
    long _when(long,javagiac.gen,long,javagiac.context) -> _when
    long _for(long,javagiac.gen,long,javagiac.context) -> _for
    long _local(long,javagiac.gen,long,javagiac.context) -> _local
    long _try_catch(long,javagiac.gen,long,javagiac.context) -> _try_catch
    long _check_type(long,javagiac.gen,long,javagiac.context) -> _check_type
    long _type(long,javagiac.gen,long,javagiac.context) -> _type
    long _nop(long,javagiac.gen,long,javagiac.context) -> _nop
    long _feuille(long,javagiac.gen,long,javagiac.context) -> _feuille
    long _maple_op(long,javagiac.gen,long,javagiac.context) -> _maple_op
    long _sommet(long,javagiac.gen,long,javagiac.context) -> _sommet
    long subsop__SWIG_0(long,javagiac.gen,long,long,javagiac.context) -> subsop__SWIG_0
    long subsop__SWIG_1(long,long,long,javagiac.gen,long,javagiac.context) -> subsop__SWIG_1
    long _maple_subsop(long,javagiac.gen,long,javagiac.context) -> _maple_subsop
    long _subsop(long,javagiac.gen,long,javagiac.context) -> _subsop
    long _append(long,javagiac.gen,long,javagiac.context) -> _append
    long _prepend(long,javagiac.gen,long,javagiac.context) -> _prepend
    long concat(long,javagiac.gen,boolean,long,javagiac.context) -> concat
    long _concat(long,javagiac.gen,long,javagiac.context) -> _concat
    long _contains(long,javagiac.gen,long,javagiac.context) -> _contains
    long _select(long,javagiac.gen,long,javagiac.context) -> _select
    long _remove(long,javagiac.gen,long,javagiac.context) -> _remove
    long _option(long,javagiac.gen,long,javagiac.context) -> _option
    long _case(long,javagiac.gen,long,javagiac.context) -> _case
    long _rand(long,javagiac.gen,long,javagiac.context) -> _rand
    long rand_interval(long,boolean,long,javagiac.context) -> rand_interval
    long _srand(long,javagiac.gen,long,javagiac.context) -> _srand
    long _char(long,javagiac.gen,long,javagiac.context) -> _char
    long _asc(long,javagiac.gen,long,javagiac.context) -> _asc
    long _map(long,javagiac.gen,long,javagiac.context) -> _map
    long _apply(long,javagiac.gen,long,javagiac.context) -> _apply
    long _makelist(long,javagiac.gen,long,javagiac.context) -> _makelist
    long _interval(long,javagiac.gen,long,javagiac.context) -> _interval
    long _comment(long,javagiac.gen,long,javagiac.context) -> _comment
    long _throw(long,javagiac.gen,long,javagiac.context) -> _throw
    long _union(long,javagiac.gen,long,javagiac.context) -> _union
    long _intersect(long,javagiac.gen,long,javagiac.context) -> _intersect
    long _inter(long,javagiac.gen,long,javagiac.context) -> _inter
    long _minus(long,javagiac.gen,long,javagiac.context) -> _minus
    long _dollar(long,javagiac.gen,long,javagiac.context) -> _dollar
    long _makemat(long,javagiac.gen,long,javagiac.context) -> _makemat
    long _compose(long,javagiac.gen,long,javagiac.context) -> _compose
    long _composepow(long,javagiac.gen,long,javagiac.context) -> _composepow
    long _has(long,javagiac.gen,long,javagiac.context) -> _has
    long _args(long,javagiac.gen,long,javagiac.context) -> _args
    long _lname(long,javagiac.gen,long,javagiac.context) -> _lname
    long _halt(long,javagiac.gen,long,javagiac.context) -> _halt
    long _kill(long,javagiac.gen,long,javagiac.context) -> _kill
    long _cont(long,javagiac.gen,long,javagiac.context) -> _cont
    long _sst(long,javagiac.gen,long,javagiac.context) -> _sst
    long _sst_in(long,javagiac.gen,long,javagiac.context) -> _sst_in
    long _debug(long,javagiac.gen,long,javagiac.context) -> _debug
    long _watch(long,javagiac.gen,long,javagiac.context) -> _watch
    long _rmwatch(long,javagiac.gen,long,javagiac.context) -> _rmwatch
    long _breakpoint(long,javagiac.gen,long,javagiac.context) -> _breakpoint
    long _rmbreakpoint(long,javagiac.gen,long,javagiac.context) -> _rmbreakpoint
    void debug_loop(long,javagiac.gen,long,javagiac.context) -> debug_loop
    long _backquote(long,javagiac.gen,long,javagiac.context) -> _backquote
    long _double_deux_points(long,javagiac.gen,long,javagiac.context) -> _double_deux_points
    long _maple2mupad(long,javagiac.gen,long,javagiac.context) -> _maple2mupad
    long _maple2xcas(long,javagiac.gen,long,javagiac.context) -> _maple2xcas
    long _mupad2maple(long,javagiac.gen,long,javagiac.context) -> _mupad2maple
    long _mupad2xcas(long,javagiac.gen,long,javagiac.context) -> _mupad2xcas
    long _cd(long,javagiac.gen,long,javagiac.context) -> _cd
    long _pwd(long,javagiac.gen,long,javagiac.context) -> _pwd
    long _scientific_format(long,javagiac.gen,long,javagiac.context) -> _scientific_format
    long _integer_format(long,javagiac.gen,long,javagiac.context) -> _integer_format
    long giac_eval_level(long,javagiac.gen,long,javagiac.context) -> giac_eval_level
    long _prog_eval_level(long,javagiac.gen,long,javagiac.context) -> _prog_eval_level
    long _with_sqrt(long,javagiac.gen,long,javagiac.context) -> _with_sqrt
    long _xcas_mode(long,javagiac.gen,long,javagiac.context) -> _xcas_mode
    long _all_trig_solutions(long,javagiac.gen,long,javagiac.context) -> _all_trig_solutions
    long _ntl_on(long,javagiac.gen,long,javagiac.context) -> _ntl_on
    long _complex_mode(long,javagiac.gen,long,javagiac.context) -> _complex_mode
    long _angle_radian(long,javagiac.gen,long,javagiac.context) -> _angle_radian
    long _epsilon(long,javagiac.gen,long,javagiac.context) -> _epsilon
    long _proba_epsilon(long,javagiac.gen,long,javagiac.context) -> _proba_epsilon
    long _complex_variables(long,javagiac.gen,long,javagiac.context) -> _complex_variables
    long _approx_mode(long,javagiac.gen,long,javagiac.context) -> _approx_mode
    long _threads(long,javagiac.gen,long,javagiac.context) -> _threads
    long _threads_allowed(long,javagiac.gen,long,javagiac.context) -> _threads_allowed
    long _mpzclass_allowed(long,javagiac.gen,long,javagiac.context) -> _mpzclass_allowed
    long _cas_setup(long,javagiac.gen,long,javagiac.context) -> _cas_setup
    long _Digits(long,javagiac.gen,long,javagiac.context) -> _Digits
    long _insmod(long,javagiac.gen,long,javagiac.context) -> _insmod
    long _xport(long,javagiac.gen,long,javagiac.context) -> _xport
    long _rmmod(long,javagiac.gen,long,javagiac.context) -> _rmmod
    long _lsmod(long,javagiac.gen,long,javagiac.context) -> _lsmod
    long _virgule(long,javagiac.gen,long,javagiac.context) -> _virgule
    long _sort(long,javagiac.gen,long,javagiac.context) -> _sort
    long _ans(long,javagiac.gen,long,javagiac.context) -> _ans
    long _quest(long,javagiac.gen,long,javagiac.context) -> _quest
    long _convert(long,javagiac.gen,long,javagiac.context) -> _convert
    long _deuxpoints(long,javagiac.gen,long,javagiac.context) -> _deuxpoints
    long quote_read(long,javagiac.gen,long,javagiac.context) -> quote_read
    long _read(long,javagiac.gen,long,javagiac.context) -> _read
    long _write(long,javagiac.gen,long,javagiac.context) -> _write
    long _save_history(long,javagiac.gen,long,javagiac.context) -> _save_history
    long _findhelp(long,javagiac.gen,long,javagiac.context) -> _findhelp
    long _member(long,javagiac.gen,long,javagiac.context) -> _member
    long _tablefunc(long,javagiac.gen,long,javagiac.context) -> _tablefunc
    long _tableseq(long,javagiac.gen,long,javagiac.context) -> _tableseq
    long protecteval(long,javagiac.gen,int,long,javagiac.context) -> protecteval
    long _unapply(long,javagiac.gen,long,javagiac.context) -> _unapply
    long _makevector(long,javagiac.gen,long,javagiac.context) -> _makevector
    long _matrix(long,javagiac.gen,long,javagiac.context) -> _matrix
    long _makesuite(long,javagiac.gen,long,javagiac.context) -> _makesuite
    long _break(long,javagiac.gen,long,javagiac.context) -> _break
    long _continue(long,javagiac.gen,long,javagiac.context) -> _continue
    long _label(long,javagiac.gen,long,javagiac.context) -> _label
    long _goto(long,javagiac.gen,long,javagiac.context) -> _goto
    long _tilocal(long,javagiac.gen,long,javagiac.context) -> _tilocal
    long inputform_post_analysis(long,long,javagiac.gen,long,javagiac.context) -> inputform_post_analysis
    long inputform_pre_analysis(long,javagiac.gen,long,javagiac.context) -> inputform_pre_analysis
    long _inputform(long,javagiac.gen,long,javagiac.context) -> _inputform
    long _choosebox(long,javagiac.gen,long,javagiac.context) -> _choosebox
    long _output(long,javagiac.gen,long,javagiac.context) -> _output
    long _input__SWIG_1(long,javagiac.gen,boolean,long,javagiac.context) -> _input__SWIG_1
    java.lang.String printastifunction(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printastifunction
    long _Dialog(long,javagiac.gen,long,javagiac.context) -> _Dialog
    long _Title(long,javagiac.gen,long,javagiac.context) -> _Title
    long _Text(long,javagiac.gen,long,javagiac.context) -> _Text
    long _Request(long,javagiac.gen,long,javagiac.context) -> _Request
    long _DropDown(long,javagiac.gen,long,javagiac.context) -> _DropDown
    long _Popup(long,javagiac.gen,long,javagiac.context) -> _Popup
    long _expr(long,javagiac.gen,long,javagiac.context) -> _expr
    long _string(long,javagiac.gen,long,javagiac.context) -> _string
    long _part(long,javagiac.gen,long,javagiac.context) -> _part
    long _Pause(long,javagiac.gen,long,javagiac.context) -> _Pause
    long _Row(long,javagiac.gen,long,javagiac.context) -> _Row
    long _Col(long,javagiac.gen,long,javagiac.context) -> _Col
    long _pointprod(long,javagiac.gen,long,javagiac.context) -> _pointprod
    long _pointdivision(long,javagiac.gen,long,javagiac.context) -> _pointdivision
    long _pointpow(long,javagiac.gen,long,javagiac.context) -> _pointpow
    long _pourcent(long,javagiac.gen,long,javagiac.context) -> _pourcent
    long _hash(long,javagiac.gen,long,javagiac.context) -> _hash
    long _interactive(long,javagiac.gen,long,javagiac.context) -> _interactive
    java.lang.String printassuffix(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printassuffix
    long _ti_semi(long,javagiac.gen,long,javagiac.context) -> _ti_semi
    long widget_size(long,javagiac.gen,long,javagiac.context) -> widget_size
    long keyboard(long,javagiac.gen,long,javagiac.context) -> keyboard
    long current_sheet(long,javagiac.gen,long,javagiac.context) -> current_sheet
    long window_switch(long,javagiac.gen,long,javagiac.context) -> window_switch
    long maple_lib(long,javagiac.gen,long,javagiac.context) -> maple_lib
    long maple_root(long,javagiac.gen,long,javagiac.context) -> maple_root
    long symb_unit(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> symb_unit
    java.lang.String printasDigits(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printasDigits
    long user_operator(long,javagiac.gen,long,javagiac.context) -> user_operator
    long _SetFold(long,javagiac.gen,long,javagiac.context) -> _SetFold
    long simplifier(long,javagiac.gen,long,javagiac.context) -> simplifier
    long _simplifier(long,javagiac.gen,long,javagiac.context) -> _simplifier
    long mksa_reduce(long,javagiac.gen,long,javagiac.context) -> mksa_reduce
    long find_or_make_symbol(java.lang.String,boolean,long,javagiac.context) -> find_or_make_symbol
    long mksa_convert(long,javagiac.gen,long,javagiac.context) -> mksa_convert
    long _ufactor(long,javagiac.gen,long,javagiac.context) -> _ufactor
    long _usimplify(long,javagiac.gen,long,javagiac.context) -> _usimplify
    long _piecewise(long,javagiac.gen,long,javagiac.context) -> _piecewise
    long when2piecewise(long,javagiac.gen,long,javagiac.context) -> when2piecewise
    long when2sign(long,javagiac.gen,long,javagiac.context) -> when2sign
    long piecewise2when(long,javagiac.gen,long,javagiac.context) -> piecewise2when
    long _geo2d(long,javagiac.gen,long,javagiac.context) -> _geo2d
    java.lang.String printasinnerbloc(long,javagiac.gen,long,javagiac.context) -> printasinnerbloc
    long symb_local__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> symb_local__SWIG_0
    long symb_local__SWIG_1(long,javagiac.gen,long,javagiac.context) -> symb_local__SWIG_1
    long symb_check_type(long,javagiac.gen,long,javagiac.context) -> symb_check_type
    long _quaternion(long,javagiac.gen,long,javagiac.context) -> _quaternion
    long risch(long,javagiac.gen,long,long,javagiac.gen,long,javagiac.context) -> risch
    long _risch(long,javagiac.gen,long,javagiac.context) -> _risch
    java.lang.String printasconstant(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printasconstant
    long _rpn(long,javagiac.gen,long,javagiac.context) -> _rpn
    long _alg(long,javagiac.gen,long,javagiac.context) -> _alg
    long _PERCENT(long,javagiac.gen,long,javagiac.context) -> _PERCENT
    long _ROLL(long,javagiac.gen,long,javagiac.context) -> _ROLL
    long _ROLLD(long,javagiac.gen,long,javagiac.context) -> _ROLLD
    long _SWAP(long,javagiac.gen,long,javagiac.context) -> _SWAP
    long _DUP(long,javagiac.gen,long,javagiac.context) -> _DUP
    long _OVER(long,javagiac.gen,long,javagiac.context) -> _OVER
    long _PICK(long,javagiac.gen,long,javagiac.context) -> _PICK
    long _DROP(long,javagiac.gen,long,javagiac.context) -> _DROP
    long _NOP(long,javagiac.gen,long,javagiac.context) -> _NOP
    long _IFTE(long,javagiac.gen,long,javagiac.context) -> _IFTE
    long _RPN_LOCAL(long,javagiac.gen,long,javagiac.context) -> _RPN_LOCAL
    long _RPN_FOR(long,javagiac.gen,long,javagiac.context) -> _RPN_FOR
    long _RPN_WHILE(long,javagiac.gen,long,javagiac.context) -> _RPN_WHILE
    long _RPN_UNTIL(long,javagiac.gen,long,javagiac.context) -> _RPN_UNTIL
    long _RPN_CASE(long,javagiac.gen,long,javagiac.context) -> _RPN_CASE
    long _RCL(long,javagiac.gen,long,javagiac.context) -> _RCL
    long _VARS(long,javagiac.gen,long,javagiac.context) -> _VARS
    long _purge(long,javagiac.gen,long,javagiac.context) -> _purge
    long _rpn_prog(long,javagiac.gen,long,javagiac.context) -> _rpn_prog
    long rpn_eval(long,javagiac.gen,long,long,javagiac.context) -> rpn_eval
    long _division(long,javagiac.gen,long,javagiac.context) -> _division
    long _binary_minus(long,javagiac.gen,long,javagiac.context) -> _binary_minus
    long _hp38(long,javagiac.gen,long,javagiac.context) -> _hp38
    long _ABS(long,javagiac.gen,long,javagiac.context) -> _ABS
    long _MODULO(long,javagiac.gen,long,javagiac.context) -> _MODULO
    long _RANDOM(long,javagiac.gen,long,javagiac.context) -> _RANDOM
    long _MAXREAL(long,javagiac.gen,long,javagiac.context) -> _MAXREAL
    long _MINREAL(long,javagiac.gen,long,javagiac.context) -> _MINREAL
    long _EXPM1(long,javagiac.gen,long,javagiac.context) -> _EXPM1
    long _LNP1(long,javagiac.gen,long,javagiac.context) -> _LNP1
    long _ADDROW(long,javagiac.gen,long,javagiac.context) -> _ADDROW
    long _ADDCOL(long,javagiac.gen,long,javagiac.context) -> _ADDCOL
    long _SCALE(long,javagiac.gen,long,javagiac.context) -> _SCALE
    long _SCALEADD(long,javagiac.gen,long,javagiac.context) -> _SCALEADD
    long _SWAPCOL(long,javagiac.gen,long,javagiac.context) -> _SWAPCOL
    long _SUB(long,javagiac.gen,long,javagiac.context) -> _SUB
    long _RANDMAT(long,javagiac.gen,long,javagiac.context) -> _RANDMAT
    long _REDIM(long,javagiac.gen,long,javagiac.context) -> _REDIM
    long _REPLACE(long,javagiac.gen,long,javagiac.context) -> _REPLACE
    long _EIGENVAL(long,javagiac.gen,long,javagiac.context) -> _EIGENVAL
    long _EIGENVV(long,javagiac.gen,long,javagiac.context) -> _EIGENVV
    long _SIZE(long,javagiac.gen,long,javagiac.context) -> _SIZE
    long _INT(long,javagiac.gen,long,javagiac.context) -> _INT
    long _HPDIFF(long,javagiac.gen,long,javagiac.context) -> _HPDIFF
    long _HPINT(long,javagiac.gen,long,javagiac.context) -> _HPINT
    long _HPSUM(long,javagiac.gen,long,javagiac.context) -> _HPSUM
    long _TAYLOR(long,javagiac.gen,long,javagiac.context) -> _TAYLOR
    long _POLYFORM(long,javagiac.gen,long,javagiac.context) -> _POLYFORM
    long _IS_LINEAR(long,javagiac.gen,long,javagiac.context) -> _IS_LINEAR
    long _SVD(long,javagiac.gen,long,javagiac.context) -> _SVD
    long _SVL(long,javagiac.gen,long,javagiac.context) -> _SVL
    long _SPECRAD(long,javagiac.gen,long,javagiac.context) -> _SPECRAD
    long _SPECNORM(long,javagiac.gen,long,javagiac.context) -> _SPECNORM
    long _COND(long,javagiac.gen,long,javagiac.context) -> _COND
    long _SCHUR(long,javagiac.gen,long,javagiac.context) -> _SCHUR
    long _LQ(long,javagiac.gen,long,javagiac.context) -> _LQ
    long _LU(long,javagiac.gen,long,javagiac.context) -> _LU
    long _QR(long,javagiac.gen,long,javagiac.context) -> _QR
    long _XPON(long,javagiac.gen,long,javagiac.context) -> _XPON
    long _MANT(long,javagiac.gen,long,javagiac.context) -> _MANT
    long _HMSX(long,javagiac.gen,long,javagiac.context) -> _HMSX
    long _XHMS(long,javagiac.gen,long,javagiac.context) -> _XHMS
    long _DEGXRAD(long,javagiac.gen,long,javagiac.context) -> _DEGXRAD
    long _RADXDEG(long,javagiac.gen,long,javagiac.context) -> _RADXDEG
    long _PERCENTCHANGE(long,javagiac.gen,long,javagiac.context) -> _PERCENTCHANGE
    long _PERCENTTOTAL(long,javagiac.gen,long,javagiac.context) -> _PERCENTTOTAL
    long _ITERATE(long,javagiac.gen,long,javagiac.context) -> _ITERATE
    long _MAKEMAT(long,javagiac.gen,long,javagiac.context) -> _MAKEMAT
    long _LSQ(long,javagiac.gen,long,javagiac.context) -> _LSQ
    long _isprime(long,javagiac.gen,long,javagiac.context) -> _isprime
    long _numer(long,javagiac.gen,long,javagiac.context) -> _numer
    long _denom(long,javagiac.gen,long,javagiac.context) -> _denom
    long _NTHROOT(long,javagiac.gen,long,javagiac.context) -> _NTHROOT
    long _Ans(long,javagiac.gen,long,javagiac.context) -> _Ans
    long _VIEWS(long,javagiac.gen,long,javagiac.context) -> _VIEWS
    void qualify(long,javagiac.gen,long,long,javagiac.gen,long,javagiac.context) -> qualify
    int seqapp_prepare__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context,int) -> seqapp_prepare__SWIG_0
    int seqapp_prepare__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context) -> seqapp_prepare__SWIG_1
    void lcmdeno(long,long,javagiac.gen,long,javagiac.context) -> lcmdeno
    long series(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> series
    long _series(long,javagiac.gen,long,javagiac.context) -> _series
    long _revert(long,javagiac.gen,long,javagiac.context) -> _revert
    long _bounded_function(long,javagiac.gen,long,javagiac.context) -> _bounded_function
    long bounded_function(long,javagiac.context) -> bounded_function
    long limit(long,javagiac.gen,long,long,javagiac.gen,int,long,javagiac.context) -> limit
    long _limit(long,javagiac.gen,long,javagiac.context) -> _limit
    long _euler_mac_laurin(long,javagiac.gen,long,javagiac.context) -> _euler_mac_laurin
    boolean convert_to_euler_mac_laurin(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> convert_to_euler_mac_laurin
    long find_singularities(long,javagiac.gen,long,int,long,javagiac.context) -> find_singularities
    long solve__SWIG_0(long,javagiac.gen,long,int,long,javagiac.context) -> solve__SWIG_0
    long solve__SWIG_1(long,javagiac.gen,long,javagiac.gen,int,long,javagiac.context) -> solve__SWIG_1
    void solve__SWIG_2(long,javagiac.gen,long,long,int,long,javagiac.context) -> solve__SWIG_2
    void in_solve(long,javagiac.gen,long,long,int,long,javagiac.context) -> in_solve
    boolean modpolyroot(long,long,javagiac.gen,long,boolean,long,javagiac.context) -> modpolyroot
    long solvepostprocess(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> solvepostprocess
    long _solve(long,javagiac.gen,long,javagiac.context) -> _solve
    long in_fsolve(long,long,javagiac.context) -> in_fsolve
    long _fsolve(long,javagiac.gen,long,javagiac.context) -> _fsolve
    long _linsolve(long,javagiac.gen,long,javagiac.context) -> _linsolve
    long _newton(long,javagiac.gen,long,javagiac.context) -> _newton
    long _greduce(long,javagiac.gen,long,javagiac.context) -> _greduce
    long _gbasis(long,javagiac.gen,long,javagiac.context) -> _gbasis
    long _in_ideal(long,javagiac.gen,long,javagiac.context) -> _in_ideal
    long solvepreprocess(long,javagiac.gen,boolean,long,javagiac.context) -> solvepreprocess
    long checkanglemode(long,javagiac.context) -> checkanglemode
    long degtorad(long,javagiac.gen,long,javagiac.context) -> degtorad
    long radtodeg(long,javagiac.gen,long,javagiac.context) -> radtodeg
    long subst__SWIG_0(long,long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> subst__SWIG_0
    long subst__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> subst__SWIG_1
    long subst__SWIG_2(long,javagiac.gen,long,long,boolean,long,javagiac.context) -> subst__SWIG_2
    long quotesubst(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> quotesubst
    long halftan(long,javagiac.gen,long,javagiac.context) -> halftan
    long _halftan(long,javagiac.gen,long,javagiac.context) -> _halftan
    long shift_phase(long,javagiac.gen,long,javagiac.context) -> shift_phase
    long _shift_phase(long,javagiac.gen,long,javagiac.context) -> _shift_phase
    long hyp2exp(long,javagiac.gen,long,javagiac.context) -> hyp2exp
    long _hyp2exp(long,javagiac.gen,long,javagiac.context) -> _hyp2exp
    long sincos(long,javagiac.gen,long,javagiac.context) -> sincos
    long _sincos(long,javagiac.gen,long,javagiac.context) -> _sincos
    long trig2exp(long,javagiac.gen,long,javagiac.context) -> trig2exp
    long _trig2exp(long,javagiac.gen,long,javagiac.context) -> _trig2exp
    long halftan_hyp2exp(long,javagiac.gen,long,javagiac.context) -> halftan_hyp2exp
    long _halftan_hyp2exp(long,javagiac.gen,long,javagiac.context) -> _halftan_hyp2exp
    long rewrite_hyper(long,javagiac.gen,long,javagiac.context) -> rewrite_hyper
    long asin2acos(long,javagiac.gen,long,javagiac.context) -> asin2acos
    long _asin2acos(long,javagiac.gen,long,javagiac.context) -> _asin2acos
    long asin2atan(long,javagiac.gen,long,javagiac.context) -> asin2atan
    long _asin2atan(long,javagiac.gen,long,javagiac.context) -> _asin2atan
    long acos2asin(long,javagiac.gen,long,javagiac.context) -> acos2asin
    long _acos2asin(long,javagiac.gen,long,javagiac.context) -> _acos2asin
    long acos2atan(long,javagiac.gen,long,javagiac.context) -> acos2atan
    long _acos2atan(long,javagiac.gen,long,javagiac.context) -> _acos2atan
    long atan2acos(long,javagiac.gen,long,javagiac.context) -> atan2acos
    long _atan2acos(long,javagiac.gen,long,javagiac.context) -> _atan2acos
    long atan2asin(long,javagiac.gen,long,javagiac.context) -> atan2asin
    long _atan2asin(long,javagiac.gen,long,javagiac.context) -> _atan2asin
    long as_linear_combination(long,javagiac.gen,long,long,javagiac.context) -> as_linear_combination
    long tsimplify_noexpln(long,javagiac.gen,int,int,long,javagiac.context) -> tsimplify_noexpln
    long tsimplify_common(long,javagiac.gen,long,javagiac.context) -> tsimplify_common
    long tsimplify(long,javagiac.gen,long,javagiac.context) -> tsimplify
    long _tsimplify(long,javagiac.gen,long,javagiac.context) -> _tsimplify
    long simplify__SWIG_1(long,javagiac.gen,long,javagiac.context) -> simplify__SWIG_1
    long trigcos(long,javagiac.gen,long,javagiac.context) -> trigcos
    long _trigcos(long,javagiac.gen,long,javagiac.context) -> _trigcos
    long trigsin(long,javagiac.gen,long,javagiac.context) -> trigsin
    long _trigsin(long,javagiac.gen,long,javagiac.context) -> _trigsin
    long trigtan(long,javagiac.gen,long,javagiac.context) -> trigtan
    long _trigtan(long,javagiac.gen,long,javagiac.context) -> _trigtan
    long tan2sincos(long,javagiac.gen,long,javagiac.context) -> tan2sincos
    long _tan2sincos(long,javagiac.gen,long,javagiac.context) -> _tan2sincos
    long tan2sincos2(long,javagiac.gen,long,javagiac.context) -> tan2sincos2
    long _tan2sincos2(long,javagiac.gen,long,javagiac.context) -> _tan2sincos2
    long tan2cossin2(long,javagiac.gen,long,javagiac.context) -> tan2cossin2
    long _tan2cossin2(long,javagiac.gen,long,javagiac.context) -> _tan2cossin2
    long tcollect(long,javagiac.gen,long,javagiac.context) -> tcollect
    long _tcollect(long,javagiac.gen,long,javagiac.context) -> _tcollect
    long lncollect(long,javagiac.gen,long,javagiac.context) -> lncollect
    long _lncollect(long,javagiac.gen,long,javagiac.context) -> _lncollect
    long _powexpand(long,javagiac.gen,long,javagiac.context) -> _powexpand
    long powexpand(long,javagiac.gen,long,javagiac.context) -> powexpand
    long exp2pow(long,javagiac.gen,long,javagiac.context) -> exp2pow
    long _exp2pow(long,javagiac.gen,long,javagiac.context) -> _exp2pow
    long _pow2exp(long,javagiac.gen,long,javagiac.context) -> _pow2exp
    long pow2expln__SWIG_0(long,javagiac.gen,long,javagiac.context) -> pow2expln__SWIG_0
    long simplifyfactorial(long,javagiac.gen,long,javagiac.context) -> simplifyfactorial
    long pow2expln__SWIG_1(long,javagiac.gen,long,long,javagiac.context) -> pow2expln__SWIG_1
    long gamma2factorial(long,javagiac.gen,long,javagiac.context) -> gamma2factorial
    long gammatofactorial(long,javagiac.gen,long,javagiac.context) -> gammatofactorial
    long factorial2gamma(long,javagiac.gen,long,javagiac.context) -> factorial2gamma
    long factorialtogamma(long,javagiac.gen,long,javagiac.context) -> factorialtogamma
    long factor_xn__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> factor_xn__SWIG_0
    long factor_xn__SWIG_1(long,javagiac.gen,long,javagiac.context) -> factor_xn__SWIG_1
    long _factor_xn(long,javagiac.gen,long,javagiac.context) -> _factor_xn
    long Heavisidetosign(long,javagiac.gen,long,javagiac.context) -> Heavisidetosign
    long _Heavisidetosign(long,javagiac.gen,long,javagiac.context) -> _Heavisidetosign
    long expln2trig(long,javagiac.gen,long,javagiac.context) -> expln2trig
    long _mult_conjugate(long,javagiac.gen,long,javagiac.context) -> _mult_conjugate
    long _mult_c_conjugate(long,javagiac.gen,long,javagiac.context) -> _mult_c_conjugate
    long sin2tan2(long,javagiac.gen,long,javagiac.context) -> sin2tan2
    long cos2tan2(long,javagiac.gen,long,javagiac.context) -> cos2tan2
    long tan2tan2(long,javagiac.gen,long,javagiac.context) -> tan2tan2
    long sinh2exp(long,javagiac.gen,long,javagiac.context) -> sinh2exp
    long cosh2exp(long,javagiac.gen,long,javagiac.context) -> cosh2exp
    long tanh2exp(long,javagiac.gen,long,javagiac.context) -> tanh2exp
    long inv_test_exp(long,javagiac.gen,long,javagiac.context) -> inv_test_exp
    long sin2exp(long,javagiac.gen,long,javagiac.context) -> sin2exp
    long cos2exp(long,javagiac.gen,long,javagiac.context) -> cos2exp
    long tan2exp(long,javagiac.gen,long,javagiac.context) -> tan2exp
    long exp2sincos(long,javagiac.gen,long,javagiac.context) -> exp2sincos
    long tantosincos(long,javagiac.gen,long,javagiac.context) -> tantosincos
    long tantosincos2(long,javagiac.gen,long,javagiac.context) -> tantosincos2
    long tantocossin2(long,javagiac.gen,long,javagiac.context) -> tantocossin2
    long asintoacos(long,javagiac.gen,long,javagiac.context) -> asintoacos
    long acostoasin(long,javagiac.gen,long,javagiac.context) -> acostoasin
    long asintoatan(long,javagiac.gen,long,javagiac.context) -> asintoatan
    long atantoasin(long,javagiac.gen,long,javagiac.context) -> atantoasin
    long acostoatan(long,javagiac.gen,long,javagiac.context) -> acostoatan
    long atantoacos(long,javagiac.gen,long,javagiac.context) -> atantoacos
    long trigcospow(long,javagiac.gen,long,javagiac.context) -> trigcospow
    long trigsinpow(long,javagiac.gen,long,javagiac.context) -> trigsinpow
    long trigtanpow(long,javagiac.gen,long,javagiac.context) -> trigtanpow
    long powtopowexpand(long,javagiac.gen,long,javagiac.context) -> powtopowexpand
    long exptopower(long,javagiac.gen,long,javagiac.context) -> exptopower
    long asin2ln(long,javagiac.gen,long,javagiac.context) -> asin2ln
    long acos2ln(long,javagiac.gen,long,javagiac.context) -> acos2ln
    long atan2ln(long,javagiac.gen,long,javagiac.context) -> atan2ln
    boolean guess_program(long,javagiac.gen,long,javagiac.context) -> guess_program
    long normal__SWIG_0(long,javagiac.gen,long,javagiac.context) -> normal__SWIG_0
    long normal__SWIG_1(long,javagiac.gen,boolean,long,javagiac.context) -> normal__SWIG_1
    long normalize_sqrt(long,javagiac.gen,long,javagiac.context) -> normalize_sqrt
    long recursive_normal__SWIG_0(long,javagiac.gen,long,javagiac.context) -> recursive_normal__SWIG_0
    long _recursive_normal(long,javagiac.gen,long,javagiac.context) -> _recursive_normal
    long recursive_normal__SWIG_1(long,javagiac.gen,boolean,long,javagiac.context) -> recursive_normal__SWIG_1
    long factor__SWIG_0(long,javagiac.gen,boolean,long,javagiac.context) -> factor__SWIG_0
    long ratfactor(long,javagiac.gen,boolean,long,javagiac.context) -> ratfactor
    long factor__SWIG_1(long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> factor__SWIG_1
    long _collect(long,javagiac.gen,long,javagiac.context) -> _collect
    long factorcollect(long,javagiac.gen,boolean,long,javagiac.context) -> factorcollect
    long partfrac__SWIG_0(long,javagiac.gen,long,boolean,long,javagiac.context) -> partfrac__SWIG_0
    long partfrac__SWIG_1(long,javagiac.gen,boolean,long,javagiac.context) -> partfrac__SWIG_1
    long partfrac__SWIG_2(long,javagiac.gen,long,boolean,long,javagiac.context) -> partfrac__SWIG_2
    long partfrac__SWIG_3(long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> partfrac__SWIG_3
    long _partfrac(long,javagiac.gen,long,javagiac.context) -> _partfrac
    long _resultant(long,javagiac.gen,long,javagiac.context) -> _resultant
    long cklvar(long,javagiac.gen,long,javagiac.context) -> cklvar
    long ckalgvar(long,javagiac.gen,long,javagiac.context) -> ckalgvar
    boolean sym2r__SWIG_0(long,javagiac.gen,long,long,long,long,int,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sym2r__SWIG_0
    boolean sym2r__SWIG_1(long,javagiac.gen,long,int,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sym2r__SWIG_1
    long e2r__SWIG_0(long,javagiac.gen,long,long,javagiac.context) -> e2r__SWIG_0
    long e2r__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> e2r__SWIG_1
    long _e2r(long,javagiac.gen,long,javagiac.context) -> _e2r
    long r2sym__SWIG_0(long,long,long,javagiac.context) -> r2sym__SWIG_0
    long r2sym__SWIG_1(long,javagiac.gen,long,long,javagiac.context) -> r2sym__SWIG_1
    long r2e__SWIG_0(long,javagiac.gen,long,long,javagiac.context) -> r2e__SWIG_0
    long r2e__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> r2e__SWIG_1
    long _r2e(long,javagiac.gen,long,javagiac.context) -> _r2e
    long r2sym__SWIG_2(long,long,long,javagiac.context) -> r2sym__SWIG_2
    long r2sym__SWIG_3(long,long,long,javagiac.context) -> r2sym__SWIG_3
    long add_print(long,long,javagiac.gen,long,javagiac.context) -> add_print
    void evalfdouble2reim(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> evalfdouble2reim
    java.lang.String gen2tex(long,javagiac.gen,long,javagiac.context) -> gen2tex
    long graph2tex(long,javagiac.gen,long,long,javagiac.context) -> graph2tex
    long _graph2tex(long,javagiac.gen,long,javagiac.context) -> _graph2tex
    long _graph3d2tex(long,javagiac.gen,long,javagiac.context) -> _graph3d2tex
    long _latex(long,javagiac.gen,long,javagiac.context) -> _latex
    long _seq(long,javagiac.gen,long,javagiac.context) -> _seq
    long _logb(long,javagiac.gen,long,javagiac.context) -> _logb
    long _getType(long,javagiac.gen,long,javagiac.context) -> _getType
    long _Define(long,javagiac.gen,long,javagiac.context) -> _Define
    long _Input(long,javagiac.gen,long,javagiac.context) -> _Input
    long _InputStr(long,javagiac.gen,long,javagiac.context) -> _InputStr
    long _Prompt(long,javagiac.gen,long,javagiac.context) -> _Prompt
    long _cSolve(long,javagiac.gen,long,javagiac.context) -> _cSolve
    long _cFactor(long,javagiac.gen,long,javagiac.context) -> _cFactor
    long _cpartfrac(long,javagiac.gen,long,javagiac.context) -> _cpartfrac
    long _nSolve(long,javagiac.gen,long,javagiac.context) -> _nSolve
    long _zeros(long,javagiac.gen,long,javagiac.context) -> _zeros
    long _cZeros(long,javagiac.gen,long,javagiac.context) -> _cZeros
    long _getDenom(long,javagiac.gen,long,javagiac.context) -> _getDenom
    long _getNum(long,javagiac.gen,long,javagiac.context) -> _getNum
    long _tExpand(long,javagiac.gen,long,javagiac.context) -> _tExpand
    long _comDenom(long,javagiac.gen,long,javagiac.context) -> _comDenom
    long _randPoly(long,javagiac.gen,long,javagiac.context) -> _randPoly
    long _nInt(long,javagiac.gen,long,javagiac.context) -> _nInt
    long _nDeriv(long,javagiac.gen,long,javagiac.context) -> _nDeriv
    long _avgRC(long,javagiac.gen,long,javagiac.context) -> _avgRC
    long _fMin(long,javagiac.gen,long,javagiac.context) -> _fMin
    long _fMax(long,javagiac.gen,long,javagiac.context) -> _fMax
    long _taylor(long,javagiac.gen,long,javagiac.context) -> _taylor
    long _arcLen(long,javagiac.gen,long,javagiac.context) -> _arcLen
    long _dim(long,javagiac.gen,long,javagiac.context) -> _dim
    long _format(long,javagiac.gen,long,javagiac.context) -> _format
    long _inString(long,javagiac.gen,long,javagiac.context) -> _inString
    long _left(long,javagiac.gen,long,javagiac.context) -> _left
    long _right(long,javagiac.gen,long,javagiac.context) -> _right
    long _mid(long,javagiac.gen,long,javagiac.context) -> _mid
    long _ord(long,javagiac.gen,long,javagiac.context) -> _ord
    long _rotate(long,javagiac.gen,long,javagiac.context) -> _rotate
    long _shift(long,javagiac.gen,long,javagiac.context) -> _shift
    long _augment(long,javagiac.gen,long,javagiac.context) -> _augment
    long _semi_augment(long,javagiac.gen,long,javagiac.context) -> _semi_augment
    long _cumSum(long,javagiac.gen,long,javagiac.context) -> _cumSum
    long _exp2list(long,javagiac.gen,long,javagiac.context) -> _exp2list
    long _list2mat(long,javagiac.gen,long,javagiac.context) -> _list2mat
    long _deltalist(long,javagiac.gen,long,javagiac.context) -> _deltalist
    long _mat2list(long,javagiac.gen,long,javagiac.context) -> _mat2list
    long _newList(long,javagiac.gen,long,javagiac.context) -> _newList
    long _polyEval(long,javagiac.gen,long,javagiac.context) -> _polyEval
    long _product(long,javagiac.gen,long,javagiac.context) -> _product
    long _SortA(long,javagiac.gen,long,javagiac.context) -> _SortA
    long _SortD(long,javagiac.gen,long,javagiac.context) -> _SortD
    long _int(long,javagiac.gen,long,javagiac.context) -> _int
    long _iPart(long,javagiac.gen,long,javagiac.context) -> _iPart
    long _Fill(long,javagiac.gen,long,javagiac.context) -> _Fill
    long _mRow(long,javagiac.gen,long,javagiac.context) -> _mRow
    long _mRowAdd(long,javagiac.gen,long,javagiac.context) -> _mRowAdd
    long _rowAdd(long,javagiac.gen,long,javagiac.context) -> _rowAdd
    long _rowSwap(long,javagiac.gen,long,javagiac.context) -> _rowSwap
    long _newMat(long,javagiac.gen,long,javagiac.context) -> _newMat
    long _ref(long,javagiac.gen,long,javagiac.context) -> _ref
    long _subMat(long,javagiac.gen,long,javagiac.context) -> _subMat
    long _unitV(long,javagiac.gen,long,javagiac.context) -> _unitV
    long _rowNorm(long,javagiac.gen,long,javagiac.context) -> _rowNorm
    long _colNorm(long,javagiac.gen,long,javagiac.context) -> _colNorm
    long _Archive(long,javagiac.gen,long,javagiac.context) -> _Archive
    long _Unarchiv(long,javagiac.gen,long,javagiac.context) -> _Unarchiv
    long _ClrIO(long,javagiac.gen,long,javagiac.context) -> _ClrIO
    long _Output(long,javagiac.gen,long,javagiac.context) -> _Output
    long _getKey(long,javagiac.gen,long,javagiac.context) -> _getKey
    long _DelFold(long,javagiac.gen,long,javagiac.context) -> _DelFold
    long _DispG(long,javagiac.gen,long,javagiac.context) -> _DispG
    long _DispHome(long,javagiac.gen,long,javagiac.context) -> _DispHome
    long _Exec(long,javagiac.gen,long,javagiac.context) -> _Exec
    long _NewFold(long,javagiac.gen,long,javagiac.context) -> _NewFold
    long _GetFold(long,javagiac.gen,long,javagiac.context) -> _GetFold
    long _StoPic(long,javagiac.gen,long,javagiac.context) -> _StoPic
    long _RclPic(long,javagiac.gen,long,javagiac.context) -> _RclPic
    long _RplcPic(long,javagiac.gen,long,javagiac.context) -> _RplcPic
    long _ClrGraph(long,javagiac.gen,long,javagiac.context) -> _ClrGraph
    long _PtOn(long,javagiac.gen,long,javagiac.context) -> _PtOn
    long _PtOff(long,javagiac.gen,long,javagiac.context) -> _PtOff
    long _Line(long,javagiac.gen,long,javagiac.context) -> _Line
    long _LineHorz(long,javagiac.gen,long,javagiac.context) -> _LineHorz
    long _LineVert(long,javagiac.gen,long,javagiac.context) -> _LineVert
    long _DrawSlp(long,javagiac.gen,long,javagiac.context) -> _DrawSlp
    long _Circle(long,javagiac.gen,long,javagiac.context) -> _Circle
    long _PtText(long,javagiac.gen,long,javagiac.context) -> _PtText
    long _NewPic(long,javagiac.gen,long,javagiac.context) -> _NewPic
    long _ZoomSto(long,javagiac.gen,long,javagiac.context) -> _ZoomSto
    long _ZoomRcl(long,javagiac.gen,long,javagiac.context) -> _ZoomRcl
    long _deSolve(long,javagiac.gen,long,javagiac.context) -> _deSolve
    long _LineTan(long,javagiac.gen,long,javagiac.context) -> _LineTan
    long _CyclePic(long,javagiac.gen,long,javagiac.context) -> _CyclePic
    long _RandSeed(long,javagiac.gen,long,javagiac.context) -> _RandSeed
    long exact(long,javagiac.gen,long,javagiac.context) -> exact
    long fPart(long,javagiac.gen,long,javagiac.context) -> fPart
    long simult(long,javagiac.gen,long,javagiac.context) -> simult
    long make_symbol(java.lang.String,long,javagiac.context) -> make_symbol
    long _unarchive_ti(long,javagiac.gen,long,javagiac.context) -> _unarchive_ti
    long _sialorssinon(long,javagiac.gen,long,javagiac.context) -> _sialorssinon
    long _pour(long,javagiac.gen,long,javagiac.context) -> _pour
    java.lang.String printsommetasoperator(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printsommetasoperator
    java.lang.String texprintsommetasoperator(long,javagiac.gen,java.lang.String,long,javagiac.context) -> texprintsommetasoperator
    long taylor(long,javagiac.gen,int,long,int,long,javagiac.gen,long,javagiac.context) -> taylor
    long apply(long,javagiac.gen,long,long,javagiac.context) -> apply
    long frac_neg_out(long,javagiac.gen,long,javagiac.context) -> frac_neg_out
    long _constant_one(long,javagiac.gen,long,javagiac.context) -> _constant_one
    long _constant_zero(long,javagiac.gen,long,javagiac.context) -> _constant_zero
    long _rm_a_z(long,javagiac.gen,long,javagiac.context) -> _rm_a_z
    long _id(long,javagiac.gen,long,javagiac.context) -> _id
    long _not(long,javagiac.gen,long,javagiac.context) -> _not
    long _neg(long,javagiac.gen,long,javagiac.context) -> _neg
    long _inv(long,javagiac.gen,long,javagiac.context) -> _inv
    long ln(long,javagiac.gen,long,javagiac.context) -> ln
    long log(long,javagiac.gen,long,javagiac.context) -> log
    long log10(long,javagiac.gen,long,javagiac.context) -> log10
    long alog10(long,javagiac.gen,long,javagiac.context) -> alog10
    long atan(long,javagiac.gen,long,javagiac.context) -> atan
    long exp(long,javagiac.gen,long,javagiac.context) -> exp
    java.lang.String gen2string(long,javagiac.gen,int,long,javagiac.context) -> gen2string
    java.lang.String print_with_parenthesis_if_required(long,javagiac.gen,int,long,javagiac.context) -> print_with_parenthesis_if_required
    void zint2simpldoublpos(long,javagiac.gen,long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context) -> zint2simpldoublpos
    long sqrt_noabs(long,javagiac.gen,long,javagiac.context) -> sqrt_noabs
    long sqrt(long,javagiac.gen,long,javagiac.context) -> sqrt
    long sqrt_mod(long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> sqrt_mod
    long sin(long,javagiac.gen,long,javagiac.context) -> sin
    long cos(long,javagiac.gen,long,javagiac.context) -> cos
    long tan(long,javagiac.gen,long,javagiac.context) -> tan
    long asin(long,javagiac.gen,long,javagiac.context) -> asin
    long acos(long,javagiac.gen,long,javagiac.context) -> acos
    long sinh(long,javagiac.gen,long,javagiac.context) -> sinh
    long cosh(long,javagiac.gen,long,javagiac.context) -> cosh
    long tanh(long,javagiac.gen,long,javagiac.context) -> tanh
    long asinh(long,javagiac.gen,long,javagiac.context) -> asinh
    long acosh(long,javagiac.gen,long,javagiac.context) -> acosh
    long atanh(long,javagiac.gen,long,javagiac.context) -> atanh
    long quote(long,javagiac.gen,long,javagiac.context) -> quote
    long unquote(long,javagiac.gen,long,javagiac.context) -> unquote
    long _sign(long,javagiac.gen,long,javagiac.context) -> _sign
    long order_size(long,javagiac.gen,long,javagiac.context) -> order_size
    long _and(long,javagiac.gen,long,javagiac.context) -> _and
    long _ou(long,javagiac.gen,long,javagiac.context) -> _ou
    long _xor(long,javagiac.gen,long,javagiac.context) -> _xor
    long xor2(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> xor2
    long _min(long,javagiac.gen,long,javagiac.context) -> _min
    long _max(long,javagiac.gen,long,javagiac.context) -> _max
    long _gcd(long,javagiac.gen,long,javagiac.context) -> _gcd
    long _lcm(long,javagiac.gen,long,javagiac.context) -> _lcm
    long _egcd(long,javagiac.gen,long,javagiac.context) -> _egcd
    long _iegcd(long,javagiac.gen,long,javagiac.context) -> _iegcd
    long _iquo(long,javagiac.gen,long,javagiac.context) -> _iquo
    long _irem(long,javagiac.gen,long,javagiac.context) -> _irem
    long _quote_pow(long,javagiac.gen,long,javagiac.context) -> _quote_pow
    long _iquorem(long,javagiac.gen,long,javagiac.context) -> _iquorem
    long _smod(long,javagiac.gen,long,javagiac.context) -> _smod
    long _rdiv(long,javagiac.gen,long,javagiac.context) -> _rdiv
    long _is_prime(long,javagiac.gen,long,javagiac.context) -> _is_prime
    long _is_pseudoprime(long,javagiac.gen,long,javagiac.context) -> _is_pseudoprime
    long nextprime1(long,javagiac.gen,long,javagiac.context) -> nextprime1
    long prevprime1(long,javagiac.gen,long,javagiac.context) -> prevprime1
    long _jacobi_symbol(long,javagiac.gen,long,javagiac.context) -> _jacobi_symbol
    long _legendre_symbol(long,javagiac.gen,long,javagiac.context) -> _legendre_symbol
    long _floor(long,javagiac.gen,long,javagiac.context) -> _floor
    long _ceil(long,javagiac.gen,long,javagiac.context) -> _ceil
    long ceil2floor(long,javagiac.gen,long,javagiac.context) -> ceil2floor
    long _round(long,javagiac.gen,long,javagiac.context) -> _round
    long _print(long,javagiac.gen,long,javagiac.context) -> _print
    long _ichinrem(long,javagiac.gen,long,javagiac.context) -> _ichinrem
    long double_is_int(long,javagiac.gen,long,javagiac.context) -> double_is_int
    long _fracmod(long,javagiac.gen,long,javagiac.context) -> _fracmod
    long _factorial(long,javagiac.gen,long,javagiac.context) -> _factorial
    long _perm(long,javagiac.gen,long,javagiac.context) -> _perm
    long comb__SWIG_1(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> comb__SWIG_1
    long _comb(long,javagiac.gen,long,javagiac.context) -> _comb
    long _chinrem(long,javagiac.gen,long,javagiac.context) -> _chinrem
    long _abs(long,javagiac.gen,long,javagiac.context) -> _abs
    long _cyclotomic(long,javagiac.gen,long,javagiac.context) -> _cyclotomic
    long _calc_mode(long,javagiac.gen,long,javagiac.context) -> _calc_mode
    long _quorem(long,javagiac.gen,long,javagiac.context) -> _quorem
    long _quo(long,javagiac.gen,long,javagiac.context) -> _quo
    long _rem(long,javagiac.gen,long,javagiac.context) -> _rem
    long sto__SWIG_0(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> sto__SWIG_0
    long sto__SWIG_1(long,javagiac.gen,long,javagiac.gen,boolean,long,javagiac.context) -> sto__SWIG_1
    boolean is_assumed_integer(long,javagiac.gen,long,javagiac.context) -> is_assumed_integer
    long giac_assume(long,javagiac.gen,long,javagiac.context) -> giac_assume
    long giac_additionally(long,javagiac.gen,long,javagiac.context) -> giac_additionally
    long doubleassume_and(long,long,javagiac.gen,int,boolean,long,javagiac.context) -> doubleassume_and
    long _equal(long,javagiac.gen,long,javagiac.context) -> _equal
    long _same(long,javagiac.gen,long,javagiac.context) -> _same
    long _inferieur_strict(long,javagiac.gen,long,javagiac.context) -> _inferieur_strict
    long _inferieur_egal(long,javagiac.gen,long,javagiac.context) -> _inferieur_egal
    long _superieur_strict(long,javagiac.gen,long,javagiac.context) -> _superieur_strict
    long _superieur_egal(long,javagiac.gen,long,javagiac.context) -> _superieur_egal
    long _different(long,javagiac.gen,long,javagiac.context) -> _different
    long check_symb_of(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> check_symb_of
    long _of(long,javagiac.gen,long,javagiac.context) -> _of
    long _at(long,javagiac.gen,long,javagiac.context) -> _at
    long _table(long,javagiac.gen,long,javagiac.context) -> _table
    long _plus(long,javagiac.gen,long,javagiac.context) -> _plus
    long _prod(long,javagiac.gen,long,javagiac.context) -> _prod
    java.lang.String cprintaspow(long,javagiac.gen,java.lang.String,long,javagiac.context) -> cprintaspow
    long _pow(long,javagiac.gen,long,javagiac.context) -> _pow
    long _powmod(long,javagiac.gen,long,javagiac.context) -> _powmod
    long _eval(long,javagiac.gen,long,javagiac.context) -> _eval
    long _evalf(long,javagiac.gen,long,javagiac.context) -> _evalf
    long _subst(long,javagiac.gen,long,javagiac.context) -> _subst
    long _subs(long,javagiac.gen,long,javagiac.context) -> _subs
    long _maple_subs(long,javagiac.gen,long,javagiac.context) -> _maple_subs
    long _ampersand_times(long,javagiac.gen,long,javagiac.context) -> _ampersand_times
    long _version(long,javagiac.gen,long,javagiac.context) -> _version
    long Gamma(long,javagiac.gen,long,javagiac.context) -> Gamma
    long _Gamma(long,javagiac.gen,long,javagiac.context) -> _Gamma
    long lngamma(long,javagiac.gen,long,javagiac.context) -> lngamma
    long Psi__SWIG_0(long,javagiac.gen,long,javagiac.context) -> Psi__SWIG_0
    long Psi__SWIG_1(long,javagiac.gen,int,long,javagiac.context) -> Psi__SWIG_1
    long _Psi(long,javagiac.gen,long,javagiac.context) -> _Psi
    long Zeta__SWIG_0(long,javagiac.gen,long,javagiac.context) -> Zeta__SWIG_0
    long _Zeta(long,javagiac.gen,long,javagiac.context) -> _Zeta
    long _erf(long,javagiac.gen,long,javagiac.context) -> _erf
    long erf(long,javagiac.gen,long,javagiac.context) -> erf
    long _erfc(long,javagiac.gen,long,javagiac.context) -> _erfc
    long erfc(long,javagiac.gen,long,javagiac.context) -> erfc
    long _Ci(long,javagiac.gen,long,javagiac.context) -> _Ci
    long _Si(long,javagiac.gen,long,javagiac.context) -> _Si
    long _Ei(long,javagiac.gen,long,javagiac.context) -> _Ei
    long _Heaviside(long,javagiac.gen,long,javagiac.context) -> _Heaviside
    long _Dirac(long,javagiac.gen,long,javagiac.context) -> _Dirac
    long _multistring(long,javagiac.gen,long,javagiac.context) -> _multistring
    long _normalmod(long,javagiac.gen,long,javagiac.context) -> _normalmod
    long alternate_series(long,javagiac.gen,long,javagiac.gen,int,long,javagiac.context) -> alternate_series
    long Eta__SWIG_0(long,javagiac.gen,int,long,javagiac.context) -> Eta__SWIG_0
    long Eta__SWIG_1(long,javagiac.gen,long,javagiac.context) -> Eta__SWIG_1
    long Zeta__SWIG_1(long,javagiac.gen,int,long,javagiac.context) -> Zeta__SWIG_1
    long _Eta(long,javagiac.gen,long,javagiac.context) -> _Eta
    long _erfs(long,javagiac.gen,long,javagiac.context) -> _erfs
    long _SiCi_f(long,javagiac.gen,long,javagiac.context) -> _SiCi_f
    long _SiCi_g(long,javagiac.gen,long,javagiac.context) -> _SiCi_g
    long _Ci0(long,javagiac.gen,long,javagiac.context) -> _Ci0
    long _Ei_f(long,javagiac.gen,long,javagiac.context) -> _Ei_f
    long Ei__SWIG_0(long,javagiac.gen,long,javagiac.context) -> Ei__SWIG_0
    long Ei__SWIG_1(long,javagiac.gen,int,long,javagiac.context) -> Ei__SWIG_1
    long _Ei0(long,javagiac.gen,long,javagiac.context) -> _Ei0
    long Ci_replace0(long,javagiac.gen,long,javagiac.context) -> Ci_replace0
    long Ei_replace0(long,javagiac.gen,long,javagiac.context) -> Ei_replace0
    java.lang.String printassubs(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printassubs
    java.lang.String printasmaple_subs(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printasmaple_subs
    java.lang.String printassto(long,javagiac.gen,java.lang.String,long,javagiac.context) -> printassto
    long _proot(long,javagiac.gen,long,javagiac.context) -> _proot
    long _pcoeff(long,javagiac.gen,long,javagiac.context) -> _pcoeff
    long _peval(long,javagiac.gen,long,javagiac.context) -> _peval
    long spread_convert(long,javagiac.gen,int,int,long,javagiac.context) -> spread_convert
    boolean iscell(long,javagiac.gen,long,long,long,javagiac.context) -> iscell
    long matrice_insert(long,int,int,int,int,long,javagiac.gen,long,javagiac.context) -> matrice_insert
    long cross(long,javagiac.gen,long,javagiac.gen,long,javagiac.context) -> cross
    long _tran(long,javagiac.gen,long,javagiac.context) -> _tran
    long ckmtrace(long,javagiac.gen,long,javagiac.context) -> ckmtrace
    boolean mrref(long,long,long,long,javagiac.gen,long,javagiac.context) -> mrref
    long _rref(long,javagiac.gen,long,javagiac.context) -> _rref
    long _idn(long,javagiac.gen,long,javagiac.context) -> _idn
    long vranm(int,long,javagiac.gen,long,javagiac.context) -> vranm
    long mranm(int,int,long,javagiac.gen,long,javagiac.context) -> mranm
    long _ranm(long,javagiac.gen,long,javagiac.context) -> _ranm
    long _randvector(long,javagiac.gen,long,javagiac.context) -> _randvector
    long _padic_linsolve(long,javagiac.gen,long,javagiac.context) -> _padic_linsolve
    long mdet(long,long,javagiac.context) -> mdet
    long _det(long,javagiac.gen,long,javagiac.context) -> _det
    long _sylvester(long,javagiac.gen,long,javagiac.context) -> _sylvester
    long _hessenberg(long,javagiac.gen,long,javagiac.context) -> _hessenberg
    long _pcar_hessenberg(long,javagiac.gen,long,javagiac.context) -> _pcar_hessenberg
    long _pcar(long,javagiac.gen,long,javagiac.context) -> _pcar
    boolean egv(long,long,long,long,javagiac.context,boolean,boolean,boolean) -> egv
    long _egv(long,javagiac.gen,long,javagiac.context) -> _egv
    long _svd(long,javagiac.gen,long,javagiac.context) -> _svd
    long _egvl(long,javagiac.gen,long,javagiac.context) -> _egvl
    long _jordan(long,javagiac.gen,long,javagiac.context) -> _jordan
    long jordan(long,javagiac.gen,boolean,long,javagiac.context) -> jordan
    long _rat_jordan(long,javagiac.gen,long,javagiac.context) -> _rat_jordan
    long _rat_jordan_block(long,javagiac.gen,long,javagiac.context) -> _rat_jordan_block
    long diagonal_apply(long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context) -> diagonal_apply
    long analytic_apply(long,javagiac.gen,long,javagiac.gen,long,long,javagiac.context) -> analytic_apply
    long matpow(long,long,javagiac.gen,long,javagiac.context) -> matpow
    long _matpow(long,javagiac.gen,long,javagiac.context) -> _matpow
    long _ker(long,javagiac.gen,long,javagiac.context) -> _ker
    long _image(long,javagiac.gen,long,javagiac.context) -> _image
    long _cross(long,javagiac.gen,long,javagiac.context) -> _cross
    long lu(long,javagiac.gen,long,javagiac.context) -> lu
    long qr(long,javagiac.gen,long,javagiac.context) -> qr
    long _cholesky(long,javagiac.gen,long,javagiac.context) -> _cholesky
    long _basis(long,javagiac.gen,long,javagiac.context) -> _basis
    long _ibasis(long,javagiac.gen,long,javagiac.context) -> _ibasis
    long _cell(long,javagiac.gen,long,javagiac.context) -> _cell
    long l2norm(long,long,javagiac.context) -> l2norm
    long _lll(long,javagiac.gen,long,javagiac.context) -> _lll
    long _ihermite(long,javagiac.gen,long,javagiac.context) -> _ihermite
    long _ismith(long,javagiac.gen,long,javagiac.context) -> _ismith
    long _csv2gen(long,javagiac.gen,long,javagiac.context) -> _csv2gen
    long csv2gen(long,char,char,char,char,long,javagiac.context) -> csv2gen
javagiac.vectord -> javagiac.d:
    long swigCPtr -> a
    boolean swigCMemOwn -> a
    void finalize() -> finalize
    void delete() -> a
javagiac.vectorg -> javagiac.e:
    long swigCPtr -> a
    boolean swigCMemOwn -> a
    void finalize() -> finalize
    void delete() -> a
javagiac.vectori -> javagiac.f:
    long swigCPtr -> a
    boolean swigCMemOwn -> a
    void finalize() -> finalize
    void delete() -> a
javagiac.vectors -> javagiac.g:
    long swigCPtr -> a
    boolean swigCMemOwn -> a
    void finalize() -> finalize
    void delete() -> a
org.apache.commons.collections15.IteratorUtils -> org.a.a.a.a:
    java.util.Iterator unmodifiableIterator(java.util.Iterator) -> a
org.apache.commons.collections15.Transformer -> org.a.a.a.b:
    java.lang.Object transform(java.lang.Object) -> a
org.apache.commons.collections15.Unmodifiable -> org.a.a.a.c:
org.apache.commons.collections15.functors.ConstantTransformer -> org.a.a.a.a.a:
    org.apache.commons.collections15.Transformer NULL_INSTANCE -> a
    java.lang.Object iConstant -> a
    java.lang.Object transform(java.lang.Object) -> a
org.apache.commons.collections15.iterators.UnmodifiableIterator -> org.a.a.a.b.a:
    java.util.Iterator iterator -> a
    java.util.Iterator decorate(java.util.Iterator) -> a
    boolean hasNext() -> hasNext
    java.lang.Object next() -> next
    void remove() -> remove
org.apache.commons.math.ConvergenceException -> org.a.a.b.a:
org.apache.commons.math.ConvergingAlgorithm -> org.a.a.b.b:
    void setAbsoluteAccuracy(double) -> a
org.apache.commons.math.ConvergingAlgorithmImpl -> org.a.a.b.c:
    double absoluteAccuracy -> a
    double relativeAccuracy -> b
    int maximalIterationCount -> a
    double defaultAbsoluteAccuracy -> c
    double defaultRelativeAccuracy -> d
    int defaultMaximalIterationCount -> b
    int iterationCount -> c
    void setAbsoluteAccuracy(double) -> a
    void setMaximalIterationCount(int) -> a
    void setRelativeAccuracy(double) -> b
org.apache.commons.math.FunctionEvaluationException -> org.a.a.b.d:
    double[] argument -> a
org.apache.commons.math.MathException -> org.a.a.b.e:
    java.lang.String pattern -> a
    java.lang.Object[] arguments -> a
    java.lang.Object[] getArguments() -> a
    void printStackTrace() -> printStackTrace
    java.lang.String getSpecificPattern() -> a
    java.lang.Object getGeneralPattern() -> a
org.apache.commons.math.MathRuntimeException -> org.a.a.b.f:
    java.lang.String pattern -> a
    java.lang.Object[] arguments -> a
    java.lang.IllegalArgumentException createIllegalArgumentException(java.lang.String,java.lang.Object[]) -> a
    java.lang.IllegalStateException createIllegalStateException(java.lang.String,int) -> a
    java.lang.ArithmeticException createArithmeticException(java.lang.String,int,int) -> a
    java.lang.UnsupportedOperationException createUnsupportedOperationException(java.lang.String,java.lang.Object[]) -> a
org.apache.commons.math.MathRuntimeException$1 -> org.a.a.b.g:
    java.lang.String val$pattern -> a
    java.lang.String getMessage() -> getMessage
    java.lang.String getLocalizedMessage() -> getLocalizedMessage
org.apache.commons.math.MaxEvaluationsExceededException -> org.a.a.b.h:
    int maxEvaluations -> a
org.apache.commons.math.MaxIterationsExceededException -> org.a.a.b.i:
    int maxIterations -> a
org.apache.commons.math.analysis.BinaryFunction -> org.a.a.b.a.a:
    org.apache.commons.math.analysis.BinaryFunction ADD -> a
    org.apache.commons.math.analysis.BinaryFunction SUBTRACT -> b
    org.apache.commons.math.analysis.BinaryFunction MULTIPLY -> c
    org.apache.commons.math.analysis.BinaryFunction DIVIDE -> d
    org.apache.commons.math.analysis.BinaryFunction POW -> e
    org.apache.commons.math.analysis.BinaryFunction ATAN2 -> f
    double value(double,double) -> a
    org.apache.commons.math.analysis.ComposableFunction fix1stArgument(double) -> a
org.apache.commons.math.analysis.BinaryFunction$1 -> org.a.a.b.a.b:
    double value(double,double) -> a
org.apache.commons.math.analysis.BinaryFunction$2 -> org.a.a.b.a.c:
    double value(double,double) -> a
org.apache.commons.math.analysis.BinaryFunction$3 -> org.a.a.b.a.d:
    double value(double,double) -> a
org.apache.commons.math.analysis.BinaryFunction$4 -> org.a.a.b.a.e:
    double value(double,double) -> a
org.apache.commons.math.analysis.BinaryFunction$5 -> org.a.a.b.a.f:
    double value(double,double) -> a
org.apache.commons.math.analysis.BinaryFunction$6 -> org.a.a.b.a.g:
    double value(double,double) -> a
org.apache.commons.math.analysis.BinaryFunction$7 -> org.a.a.b.a.h:
    org.apache.commons.math.analysis.BinaryFunction this$0 -> a
    double val$fixedX -> a
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction -> org.a.a.b.a.i:
    org.apache.commons.math.analysis.ComposableFunction ZERO -> a
    org.apache.commons.math.analysis.ComposableFunction ONE -> b
    org.apache.commons.math.analysis.ComposableFunction IDENTITY -> c
    org.apache.commons.math.analysis.ComposableFunction ABS -> d
    org.apache.commons.math.analysis.ComposableFunction NEGATE -> e
    org.apache.commons.math.analysis.ComposableFunction INVERT -> f
    org.apache.commons.math.analysis.ComposableFunction SIN -> g
    org.apache.commons.math.analysis.ComposableFunction SQRT -> h
    org.apache.commons.math.analysis.ComposableFunction SINH -> i
    org.apache.commons.math.analysis.ComposableFunction EXP -> j
    org.apache.commons.math.analysis.ComposableFunction EXPM1 -> k
    org.apache.commons.math.analysis.ComposableFunction ASIN -> l
    org.apache.commons.math.analysis.ComposableFunction ATAN -> m
    org.apache.commons.math.analysis.ComposableFunction TAN -> n
    org.apache.commons.math.analysis.ComposableFunction TANH -> o
    org.apache.commons.math.analysis.ComposableFunction CBRT -> p
    org.apache.commons.math.analysis.ComposableFunction CEIL -> q
    org.apache.commons.math.analysis.ComposableFunction FLOOR -> r
    org.apache.commons.math.analysis.ComposableFunction LOG -> s
    org.apache.commons.math.analysis.ComposableFunction LOG10 -> t
    org.apache.commons.math.analysis.ComposableFunction LOG1P -> u
    org.apache.commons.math.analysis.ComposableFunction COS -> v
    org.apache.commons.math.analysis.ComposableFunction ACOS -> w
    org.apache.commons.math.analysis.ComposableFunction COSH -> x
    org.apache.commons.math.analysis.ComposableFunction RINT -> y
    org.apache.commons.math.analysis.ComposableFunction SIGNUM -> z
    org.apache.commons.math.analysis.ComposableFunction ULP -> A
org.apache.commons.math.analysis.ComposableFunction$1 -> org.a.a.b.a.j:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$10 -> org.a.a.b.a.k:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$11 -> org.a.a.b.a.l:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$12 -> org.a.a.b.a.m:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$13 -> org.a.a.b.a.n:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$14 -> org.a.a.b.a.o:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$15 -> org.a.a.b.a.p:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$16 -> org.a.a.b.a.q:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$17 -> org.a.a.b.a.r:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$18 -> org.a.a.b.a.s:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$19 -> org.a.a.b.a.t:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$2 -> org.a.a.b.a.u:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$20 -> org.a.a.b.a.v:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$21 -> org.a.a.b.a.w:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$22 -> org.a.a.b.a.x:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$23 -> org.a.a.b.a.y:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$24 -> org.a.a.b.a.z:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$25 -> org.a.a.b.a.A:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$26 -> org.a.a.b.a.B:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$27 -> org.a.a.b.a.C:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$3 -> org.a.a.b.a.D:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$4 -> org.a.a.b.a.E:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$5 -> org.a.a.b.a.F:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$6 -> org.a.a.b.a.G:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$7 -> org.a.a.b.a.H:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$8 -> org.a.a.b.a.I:
    double value(double) -> a
org.apache.commons.math.analysis.ComposableFunction$9 -> org.a.a.b.a.J:
    double value(double) -> a
org.apache.commons.math.analysis.DifferentiableMultivariateVectorialFunction -> org.a.a.b.a.K:
    org.apache.commons.math.analysis.MultivariateMatrixFunction jacobian() -> a
org.apache.commons.math.analysis.DifferentiableUnivariateRealFunction -> org.a.a.b.a.L:
    org.apache.commons.math.analysis.UnivariateRealFunction derivative() -> a
org.apache.commons.math.analysis.MultivariateMatrixFunction -> org.a.a.b.a.M:
    double[][] value(double[]) -> a
org.apache.commons.math.analysis.MultivariateVectorialFunction -> org.a.a.b.a.N:
    double[] value(double[]) -> a
org.apache.commons.math.analysis.UnivariateRealFunction -> org.a.a.b.a.O:
    double value(double) -> a
org.apache.commons.math.analysis.integration.LegendreGaussIntegrator -> org.a.a.b.a.a.a:
    double[] ABSCISSAS_2 -> a
    double[] WEIGHTS_2 -> b
    double[] ABSCISSAS_3 -> c
    double[] WEIGHTS_3 -> d
    double[] ABSCISSAS_4 -> e
    double[] WEIGHTS_4 -> f
    double[] ABSCISSAS_5 -> g
    double[] WEIGHTS_5 -> h
    double[] abscissas -> i
    double[] weights -> j
    double integrate(org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double stage(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,int) -> a
org.apache.commons.math.analysis.integration.UnivariateRealIntegrator -> org.a.a.b.a.a.b:
org.apache.commons.math.analysis.integration.UnivariateRealIntegratorImpl -> org.a.a.b.a.a.c:
    int minimalIterationCount -> d
    int defaultMinimalIterationCount -> e
    boolean resultComputed -> a
    double result -> e
    void setResult(double,int) -> a
    void clearResult() -> a
    void verifyInterval(double,double) -> a
    void verifyIterationCount() -> b
org.apache.commons.math.analysis.polynomials.PolynomialFunction -> org.a.a.b.a.b.a:
    double[] coefficients -> a
    double value(double) -> a
    int degree() -> a
    double[] getCoefficients() -> a
    double evaluate(double[],double) -> a
    org.apache.commons.math.analysis.polynomials.PolynomialFunction add(org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> a
    org.apache.commons.math.analysis.polynomials.PolynomialFunction subtract(org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> b
    org.apache.commons.math.analysis.polynomials.PolynomialFunction multiply(org.apache.commons.math.analysis.polynomials.PolynomialFunction) -> c
    double[] differentiate(double[]) -> a
    org.apache.commons.math.analysis.polynomials.PolynomialFunction polynomialDerivative() -> a
    org.apache.commons.math.analysis.UnivariateRealFunction derivative() -> a
    java.lang.String toString() -> toString
    int hashCode() -> hashCode
    boolean equals(java.lang.Object) -> equals
org.apache.commons.math.analysis.solvers.BrentSolver -> org.a.a.b.a.c.a:
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double,double,double,double) -> a
org.apache.commons.math.analysis.solvers.LaguerreSolver -> org.a.a.b.a.c.b:
    org.apache.commons.math.analysis.polynomials.PolynomialFunction p -> a
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    boolean isRootOK(double,double,org.apache.commons.math.complex.Complex) -> a
    org.apache.commons.math.complex.Complex[] solveAll(double[],double) -> a
    org.apache.commons.math.complex.Complex[] solveAll(org.apache.commons.math.complex.Complex[],org.apache.commons.math.complex.Complex) -> a
    org.apache.commons.math.complex.Complex solve(org.apache.commons.math.complex.Complex[],org.apache.commons.math.complex.Complex) -> a
org.apache.commons.math.analysis.solvers.NewtonSolver -> org.a.a.b.a.c.c:
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
org.apache.commons.math.analysis.solvers.UnivariateRealSolver -> org.a.a.b.a.c.d:
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
org.apache.commons.math.analysis.solvers.UnivariateRealSolverFactory -> org.a.a.b.a.c.e:
    org.apache.commons.math.analysis.solvers.UnivariateRealSolverFactory newInstance() -> a
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver newDefaultSolver() -> a
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver newBrentSolver() -> b
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver newNewtonSolver() -> c
org.apache.commons.math.analysis.solvers.UnivariateRealSolverFactoryImpl -> org.a.a.b.a.c.f:
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver newDefaultSolver() -> a
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver newBrentSolver() -> b
    org.apache.commons.math.analysis.solvers.UnivariateRealSolver newNewtonSolver() -> c
org.apache.commons.math.analysis.solvers.UnivariateRealSolverImpl -> org.a.a.b.a.c.g:
    double functionValueAccuracy -> e
    double defaultFunctionValueAccuracy -> f
    boolean resultComputed -> a
    double result -> g
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double) -> a
    double solve(int,org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    void setResult(double,int) -> a
    void clearResult() -> a
    boolean isBracketing(double,double,org.apache.commons.math.analysis.UnivariateRealFunction) -> a
    boolean isSequence(double,double,double) -> a
    void verifyInterval(double,double) -> a
    void verifySequence(double,double,double) -> a
    void verifyBracketing(double,double,org.apache.commons.math.analysis.UnivariateRealFunction) -> a
org.apache.commons.math.analysis.solvers.UnivariateRealSolverUtils -> org.a.a.b.a.c.h:
    double solve(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double[] bracket(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double) -> a
    double[] bracket(org.apache.commons.math.analysis.UnivariateRealFunction,double,double,double,int) -> a
    double midpoint(double,double) -> a
    void setup(org.apache.commons.math.analysis.UnivariateRealFunction) -> a
org.apache.commons.math.analysis.solvers.UnivariateRealSolverUtils$LazyHolder -> org.a.a.b.a.c.h$a:
    org.apache.commons.math.analysis.solvers.UnivariateRealSolverFactory FACTORY -> a
    org.apache.commons.math.analysis.solvers.UnivariateRealSolverFactory access$0() -> a
org.apache.commons.math.complex.Complex -> org.a.a.b.b.a:
    org.apache.commons.math.complex.Complex I -> a
    org.apache.commons.math.complex.Complex NaN -> b
    org.apache.commons.math.complex.Complex INF -> c
    org.apache.commons.math.complex.Complex ONE -> d
    org.apache.commons.math.complex.Complex ZERO -> e
    double imaginary -> a
    double real -> b
    boolean isNaN -> a
    boolean isInfinite -> b
    double abs() -> a
    org.apache.commons.math.complex.Complex add(org.apache.commons.math.complex.Complex) -> a
    org.apache.commons.math.complex.Complex conjugate() -> a
    org.apache.commons.math.complex.Complex divide(org.apache.commons.math.complex.Complex) -> b
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    double getImaginary() -> b
    double getReal() -> c
    boolean isNaN() -> a
    boolean isInfinite() -> b
    org.apache.commons.math.complex.Complex multiply(org.apache.commons.math.complex.Complex) -> c
    org.apache.commons.math.complex.Complex multiply(double) -> a
    org.apache.commons.math.complex.Complex subtract(org.apache.commons.math.complex.Complex) -> d
    org.apache.commons.math.complex.Complex cos() -> b
    org.apache.commons.math.complex.Complex cosh() -> c
    org.apache.commons.math.complex.Complex exp() -> d
    org.apache.commons.math.complex.Complex log() -> e
    org.apache.commons.math.complex.Complex pow(org.apache.commons.math.complex.Complex) -> e
    org.apache.commons.math.complex.Complex sin() -> f
    org.apache.commons.math.complex.Complex sinh() -> g
    org.apache.commons.math.complex.Complex sqrt() -> h
    org.apache.commons.math.complex.Complex tan() -> i
    org.apache.commons.math.complex.Complex tanh() -> j
    org.apache.commons.math.complex.Complex createComplex(double,double) -> a
org.apache.commons.math.distribution.AbstractContinuousDistribution -> org.a.a.b.c.a:
    double solverAbsoluteAccuracy -> a
    double inverseCumulativeProbability(double) -> b_
    double getInitialDomain(double) -> b
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.AbstractContinuousDistribution$1 -> org.a.a.b.c.b:
    org.apache.commons.math.distribution.AbstractContinuousDistribution this$0 -> a
    double val$p -> a
    double value(double) -> a
org.apache.commons.math.distribution.AbstractDistribution -> org.a.a.b.c.c:
org.apache.commons.math.distribution.AbstractIntegerDistribution -> org.a.a.b.c.d:
    double cumulativeProbability(double) -> a
    double cumulativeProbability(int) -> a
    double probability(double) -> b
    int inverseCumulativeProbability(double) -> a
    double checkedCumulativeProbability(int) -> c
    int getDomainLowerBound(double) -> b
    int getDomainUpperBound(double) -> c
org.apache.commons.math.distribution.BinomialDistribution -> org.a.a.b.c.e:
    int getNumberOfTrials() -> a
    double getProbabilityOfSuccess() -> a
org.apache.commons.math.distribution.BinomialDistributionImpl -> org.a.a.b.c.f:
    int numberOfTrials -> a
    double probabilityOfSuccess -> a
    int getNumberOfTrials() -> a
    double getProbabilityOfSuccess() -> a
    void setNumberOfTrialsInternal(int) -> a
    void setProbabilityOfSuccessInternal(double) -> a
    int getDomainLowerBound(double) -> b
    int getDomainUpperBound(double) -> c
    double cumulativeProbability(int) -> a
    double probability(int) -> b
    int inverseCumulativeProbability(double) -> a
org.apache.commons.math.distribution.CauchyDistribution -> org.a.a.b.c.g:
    double getMedian() -> b
    double getScale() -> c
org.apache.commons.math.distribution.CauchyDistributionImpl -> org.a.a.b.c.h:
    double median -> a
    double scale -> b
    double solverAbsoluteAccuracy -> c
    double cumulativeProbability(double) -> a
    double getMedian() -> b
    double getScale() -> c
    double inverseCumulativeProbability(double) -> b_
    void setMedianInternal(double) -> a
    void setScaleInternal(double) -> b
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.ChiSquaredDistribution -> org.a.a.b.c.i:
    double getDegreesOfFreedom() -> b
org.apache.commons.math.distribution.ChiSquaredDistributionImpl -> org.a.a.b.c.j:
    org.apache.commons.math.distribution.GammaDistribution gamma -> a
    double solverAbsoluteAccuracy -> a
    void setDegreesOfFreedomInternal(double) -> a
    double getDegreesOfFreedom() -> b
    double cumulativeProbability(double) -> a
    double inverseCumulativeProbability(double) -> b_
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    void setGammaInternal(org.apache.commons.math.distribution.GammaDistribution) -> a
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.ContinuousDistribution -> org.a.a.b.c.k:
    double inverseCumulativeProbability(double) -> b_
org.apache.commons.math.distribution.DiscreteDistribution -> org.a.a.b.c.l:
    double probability(double) -> b
org.apache.commons.math.distribution.Distribution -> org.a.a.b.c.m:
    double cumulativeProbability(double) -> a
org.apache.commons.math.distribution.ExponentialDistribution -> org.a.a.b.c.n:
    double getMean() -> b
org.apache.commons.math.distribution.ExponentialDistributionImpl -> org.a.a.b.c.o:
    double mean -> a
    double solverAbsoluteAccuracy -> b
    void setMeanInternal(double) -> a
    double getMean() -> b
    double cumulativeProbability(double) -> a
    double inverseCumulativeProbability(double) -> b_
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.FDistribution -> org.a.a.b.c.p:
    double getNumeratorDegreesOfFreedom() -> b
    double getDenominatorDegreesOfFreedom() -> c
org.apache.commons.math.distribution.FDistributionImpl -> org.a.a.b.c.q:
    double numeratorDegreesOfFreedom -> a
    double denominatorDegreesOfFreedom -> b
    double solverAbsoluteAccuracy -> c
    double cumulativeProbability(double) -> a
    double inverseCumulativeProbability(double) -> b_
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    void setNumeratorDegreesOfFreedomInternal(double) -> a
    double getNumeratorDegreesOfFreedom() -> b
    void setDenominatorDegreesOfFreedomInternal(double) -> b
    double getDenominatorDegreesOfFreedom() -> c
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.GammaDistribution -> org.a.a.b.c.r:
    void setAlpha(double) -> a
    double getAlpha() -> b
    double getBeta() -> c
org.apache.commons.math.distribution.GammaDistributionImpl -> org.a.a.b.c.s:
    double alpha -> a
    double beta -> b
    double solverAbsoluteAccuracy -> c
    double cumulativeProbability(double) -> a
    double inverseCumulativeProbability(double) -> b_
    void setAlpha(double) -> a
    void setAlphaInternal(double) -> b
    double getAlpha() -> b
    void setBetaInternal(double) -> c
    double getBeta() -> c
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.HypergeometricDistribution -> org.a.a.b.c.t:
    int getNumberOfSuccesses() -> a
    int getPopulationSize() -> b
    int getSampleSize() -> c
org.apache.commons.math.distribution.HypergeometricDistributionImpl -> org.a.a.b.c.u:
    int numberOfSuccesses -> a
    int populationSize -> b
    int sampleSize -> c
    double cumulativeProbability(int) -> a
    int[] getDomain(int,int,int) -> a
    int getDomainLowerBound(double) -> b
    int getDomainUpperBound(double) -> c
    int getLowerDomain(int,int,int) -> a
    int getNumberOfSuccesses() -> a
    int getPopulationSize() -> b
    int getSampleSize() -> c
    int getUpperDomain(int,int) -> a
    double probability(int) -> b
    double probability(int,int,int,int) -> a
    void setNumberOfSuccessesInternal(int) -> a
    void setPopulationSizeInternal(int) -> b
    void setSampleSizeInternal(int) -> c
    double innerCumulativeProbability(int,int,int,int,int,int) -> a
org.apache.commons.math.distribution.IntegerDistribution -> org.a.a.b.c.v:
    double probability(int) -> b
    int inverseCumulativeProbability(double) -> a
org.apache.commons.math.distribution.NormalDistribution -> org.a.a.b.c.w:
    double getMean() -> b
    void setMean(double) -> a
    double getStandardDeviation() -> c
    void setStandardDeviation(double) -> b
org.apache.commons.math.distribution.NormalDistributionImpl -> org.a.a.b.c.x:
    double SQRT2PI -> a
    double mean -> b
    double standardDeviation -> c
    double solverAbsoluteAccuracy -> d
    double getMean() -> b
    void setMean(double) -> a
    void setMeanInternal(double) -> c
    double getStandardDeviation() -> c
    void setStandardDeviation(double) -> b
    void setStandardDeviationInternal(double) -> d
    double cumulativeProbability(double) -> a
    double getSolverAbsoluteAccuracy() -> a
    double inverseCumulativeProbability(double) -> b_
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
org.apache.commons.math.distribution.PascalDistribution -> org.a.a.b.c.y:
    int getNumberOfSuccesses() -> a
    double getProbabilityOfSuccess() -> a
org.apache.commons.math.distribution.PascalDistributionImpl -> org.a.a.b.c.z:
    int numberOfSuccesses -> a
    double probabilityOfSuccess -> a
    int getNumberOfSuccesses() -> a
    double getProbabilityOfSuccess() -> a
    void setNumberOfSuccessesInternal(int) -> a
    void setProbabilityOfSuccessInternal(double) -> a
    int getDomainLowerBound(double) -> b
    int getDomainUpperBound(double) -> c
    double cumulativeProbability(int) -> a
    double probability(int) -> b
    int inverseCumulativeProbability(double) -> a
org.apache.commons.math.distribution.PoissonDistribution -> org.a.a.b.c.A:
    double getMean() -> a
org.apache.commons.math.distribution.PoissonDistributionImpl -> org.a.a.b.c.B:
    org.apache.commons.math.distribution.NormalDistribution normal -> a
    double mean -> a
    int maxIterations -> a
    double epsilon -> b
    double getMean() -> a
    void setNormalAndMeanInternal(org.apache.commons.math.distribution.NormalDistribution,double) -> a
    double probability(int) -> b
    double cumulativeProbability(int) -> a
    int getDomainLowerBound(double) -> b
    int getDomainUpperBound(double) -> c
org.apache.commons.math.distribution.SaddlePointExpansion -> org.a.a.b.c.C:
    double HALF_LOG_2_PI -> a
    double[] EXACT_STIRLING_ERRORS -> a
    double getStirlingError(double) -> a
    double getDeviancePart(double,double) -> a
    double logBinomialProbability(int,int,double,double) -> a
org.apache.commons.math.distribution.TDistribution -> org.a.a.b.c.D:
    void setDegreesOfFreedom(double) -> a
    double getDegreesOfFreedom() -> b
org.apache.commons.math.distribution.TDistributionImpl -> org.a.a.b.c.E:
    double degreesOfFreedom -> a
    double solverAbsoluteAccuracy -> b
    void setDegreesOfFreedom(double) -> a
    void setDegreesOfFreedomInternal(double) -> b
    double getDegreesOfFreedom() -> b
    double cumulativeProbability(double) -> a
    double inverseCumulativeProbability(double) -> b_
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.WeibullDistribution -> org.a.a.b.c.F:
    double getShape() -> b
    double getScale() -> c
org.apache.commons.math.distribution.WeibullDistributionImpl -> org.a.a.b.c.G:
    double shape -> a
    double scale -> b
    double solverAbsoluteAccuracy -> c
    double numericalMean -> d
    boolean numericalMeanIsCalculated -> a
    double numericalVariance -> e
    boolean numericalVarianceIsCalculated -> b
    double cumulativeProbability(double) -> a
    double getShape() -> b
    double getScale() -> c
    double inverseCumulativeProbability(double) -> b_
    void setShapeInternal(double) -> a
    void setScaleInternal(double) -> b
    double getDomainLowerBound(double) -> c
    double getDomainUpperBound(double) -> d
    double getInitialDomain(double) -> b
    double getSolverAbsoluteAccuracy() -> a
org.apache.commons.math.distribution.ZipfDistribution -> org.a.a.b.c.H:
    int getNumberOfElements() -> a
    double getExponent() -> a
org.apache.commons.math.distribution.ZipfDistributionImpl -> org.a.a.b.c.I:
    int numberOfElements -> a
    double exponent -> a
    int getNumberOfElements() -> a
    void setNumberOfElementsInternal(int) -> a
    double getExponent() -> a
    void setExponentInternal(double) -> a
    double probability(int) -> b
    double cumulativeProbability(int) -> a
    int getDomainLowerBound(double) -> b
    int getDomainUpperBound(double) -> c
    double generalizedHarmonic(int,double) -> a
org.apache.commons.math.exception.DimensionMismatchException -> org.a.a.b.d.a:
    int dimension -> a
org.apache.commons.math.exception.MathIllegalArgumentException -> org.a.a.b.d.b:
    java.lang.String specific -> a
    java.lang.String general -> b
    java.lang.Object[] arguments -> a
org.apache.commons.math.exception.MathIllegalNumberException -> org.a.a.b.d.c:
    java.lang.Number argument -> a
org.apache.commons.math.exception.MathIllegalStateException -> org.a.a.b.d.d:
org.apache.commons.math.exception.MathInternalError -> org.a.a.b.d.e:
org.apache.commons.math.exception.MathUnsupportedOperationException -> org.a.a.b.d.f:
org.apache.commons.math.exception.NoDataException -> org.a.a.b.d.g:
org.apache.commons.math.exception.NotPositiveException -> org.a.a.b.d.h:
org.apache.commons.math.exception.NullArgumentException -> org.a.a.b.d.i:
org.apache.commons.math.exception.NumberIsTooSmallException -> org.a.a.b.d.j:
    java.lang.Number min -> a
    boolean boundIsAllowed -> a
org.apache.commons.math.exception.util.ArgUtils -> org.a.a.b.d.a.a:
    java.lang.Object[] flatten(java.lang.Object[]) -> a
org.apache.commons.math.fraction.Fraction -> org.a.a.b.e.a:
    org.apache.commons.math.fraction.Fraction TWO -> a
    org.apache.commons.math.fraction.Fraction ONE -> b
    org.apache.commons.math.fraction.Fraction ZERO -> c
    org.apache.commons.math.fraction.Fraction FOUR_FIFTHS -> d
    org.apache.commons.math.fraction.Fraction ONE_FIFTH -> e
    org.apache.commons.math.fraction.Fraction ONE_HALF -> f
    org.apache.commons.math.fraction.Fraction ONE_QUARTER -> g
    org.apache.commons.math.fraction.Fraction ONE_THIRD -> h
    org.apache.commons.math.fraction.Fraction THREE_FIFTHS -> i
    org.apache.commons.math.fraction.Fraction THREE_QUARTERS -> j
    org.apache.commons.math.fraction.Fraction TWO_FIFTHS -> k
    org.apache.commons.math.fraction.Fraction TWO_QUARTERS -> l
    org.apache.commons.math.fraction.Fraction TWO_THIRDS -> m
    org.apache.commons.math.fraction.Fraction MINUS_ONE -> n
    int denominator -> a
    int numerator -> b
    int compareTo(org.apache.commons.math.fraction.Fraction) -> a
    double doubleValue() -> doubleValue
    boolean equals(java.lang.Object) -> equals
    float floatValue() -> floatValue
    int getDenominator() -> a
    int getNumerator() -> b
    int hashCode() -> hashCode
    int intValue() -> intValue
    long longValue() -> longValue
    java.lang.String toString() -> toString
    int compareTo(java.lang.Object) -> compareTo
org.apache.commons.math.linear.AbstractRealMatrix -> org.a.a.b.f.a:
    org.apache.commons.math.linear.DecompositionSolver lu -> a
    org.apache.commons.math.linear.RealMatrix createMatrix(int,int) -> a
    double[][] getData() -> a
    org.apache.commons.math.linear.RealMatrix getSubMatrix(int,int,int,int) -> a
    void copySubMatrix(int,int,int,int,double[][]) -> a
    void setSubMatrix(double[][],int,int) -> a
    org.apache.commons.math.linear.RealVector getColumnVector(int) -> a
    void setColumnVector(int,org.apache.commons.math.linear.RealVector) -> a
    void setRow(int,double[]) -> a
    double[] getColumn(int) -> a
    void setColumn(int,double[]) -> b
    double getEntry(int,int) -> a
    void setEntry(int,int,double) -> a
    org.apache.commons.math.linear.RealMatrix transpose() -> a
    double getDeterminant() -> b
    boolean isSquare() -> a
    int getRowDimension() -> a
    int getColumnDimension() -> b
    double[] operate(double[]) -> a
    org.apache.commons.math.linear.RealVector operate(org.apache.commons.math.linear.RealVector) -> a
    double walkInRowOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor) -> a
    double walkInRowOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor,int,int,int,int) -> a
    double walkInOptimizedOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor) -> b
    double walkInOptimizedOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor,int,int,int,int) -> b
    java.lang.String toString() -> toString
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
org.apache.commons.math.linear.AbstractRealMatrix$4 -> org.a.a.b.f.b:
    int startRow1 -> a
    int startColumn1 -> b
    org.apache.commons.math.linear.AbstractRealMatrix this$0 -> a
    double[][] val$destination -> a
    void start(int,int,int,int,int,int) -> a
    void visit(int,int,double) -> a
org.apache.commons.math.linear.AbstractRealMatrix$5 -> org.a.a.b.f.c:
    org.apache.commons.math.linear.AbstractRealMatrix this$0 -> a
    org.apache.commons.math.linear.RealMatrix val$out -> a
    void visit(int,int,double) -> a
org.apache.commons.math.linear.AbstractRealVector -> org.a.a.b.f.d:
    void checkVectorDimensions(org.apache.commons.math.linear.RealVector) -> a
    void checkVectorDimensions(int) -> a
    void checkIndex(int) -> b
    org.apache.commons.math.linear.AbstractRealVector copy() -> a
    double dotProduct(double[]) -> a
    double dotProduct(org.apache.commons.math.linear.RealVector) -> a
    org.apache.commons.math.linear.RealVector mapMultiply(double) -> a
    org.apache.commons.math.linear.RealVector mapMultiplyToSelf(double) -> b
    java.util.Iterator sparseIterator() -> a
    java.util.Iterator iterator() -> b
    org.apache.commons.math.linear.RealVector mapToSelf(org.apache.commons.math.analysis.UnivariateRealFunction) -> a
org.apache.commons.math.linear.AbstractRealVector$1 -> org.a.a.b.f.e:
    int i -> a
    org.apache.commons.math.linear.AbstractRealVector$EntryImpl e -> a
    org.apache.commons.math.linear.AbstractRealVector this$0 -> a
    int val$dim -> b
    boolean hasNext() -> hasNext
    org.apache.commons.math.linear.RealVector$Entry next() -> a
    void remove() -> remove
    java.lang.Object next() -> next
org.apache.commons.math.linear.AbstractRealVector$EntryImpl -> org.a.a.b.f.d$a:
    org.apache.commons.math.linear.AbstractRealVector this$0 -> a
    double getValue() -> a
    void setValue(double) -> a
org.apache.commons.math.linear.AbstractRealVector$SparseEntryIterator -> org.a.a.b.f.d$b:
    int dim -> a
    org.apache.commons.math.linear.AbstractRealVector$EntryImpl current -> a
    org.apache.commons.math.linear.AbstractRealVector$EntryImpl next -> b
    org.apache.commons.math.linear.AbstractRealVector this$0 -> a
    void advance(org.apache.commons.math.linear.AbstractRealVector$EntryImpl) -> a
    boolean hasNext() -> hasNext
    org.apache.commons.math.linear.RealVector$Entry next() -> a
    void remove() -> remove
    java.lang.Object next() -> next
org.apache.commons.math.linear.AnyMatrix -> org.a.a.b.f.f:
    boolean isSquare() -> a
    int getRowDimension() -> a
    int getColumnDimension() -> b
org.apache.commons.math.linear.Array2DRowRealMatrix -> org.a.a.b.f.g:
    double[][] data -> a
    org.apache.commons.math.linear.RealMatrix createMatrix(int,int) -> a
    double[][] getData() -> a
    void setSubMatrix(double[][],int,int) -> a
    double getEntry(int,int) -> a
    void setEntry(int,int,double) -> a
    void addToEntry(int,int,double) -> b
    int getRowDimension() -> a
    int getColumnDimension() -> b
    double[] operate(double[]) -> a
    double walkInRowOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor) -> a
    double walkInRowOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor,int,int,int,int) -> a
    double[][] copyOut() -> b
    void copyIn(double[][]) -> a
org.apache.commons.math.linear.ArrayRealVector -> org.a.a.b.f.h:
    double[] data -> a
    org.apache.commons.math.linear.AbstractRealVector copy() -> a
    org.apache.commons.math.linear.RealVector mapMultiplyToSelf(double) -> b
    double[] getDataRef() -> a
    double dotProduct(org.apache.commons.math.linear.RealVector) -> a
    double dotProduct(double[]) -> a
    double dotProduct(org.apache.commons.math.linear.ArrayRealVector) -> a
    double getEntry(int) -> a
    int getDimension() -> a
    void setEntry(int,double) -> a
    void checkVectorDimensions(org.apache.commons.math.linear.RealVector) -> a
    void checkVectorDimensions(int) -> a
    boolean isNaN() -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
org.apache.commons.math.linear.BlockRealMatrix -> org.a.a.b.f.i:
    double[][] blocks -> a
    int rows -> a
    int columns -> b
    int blockRows -> c
    int blockColumns -> d
    double[][] createBlocksLayout(int,int) -> a
    org.apache.commons.math.linear.BlockRealMatrix createMatrix(int,int) -> a
    double[][] getData() -> a
    org.apache.commons.math.linear.BlockRealMatrix getSubMatrix(int,int,int,int) -> a
    void copyBlockPart(double[],int,int,int,int,int,double[],int,int,int) -> a
    void setSubMatrix(double[][],int,int) -> a
    org.apache.commons.math.linear.RealVector getColumnVector(int) -> a
    void setColumnVector(int,org.apache.commons.math.linear.RealVector) -> a
    void setRow(int,double[]) -> a
    double[] getColumn(int) -> a
    void setColumn(int,double[]) -> b
    double getEntry(int,int) -> a
    void setEntry(int,int,double) -> a
    void addToEntry(int,int,double) -> b
    org.apache.commons.math.linear.BlockRealMatrix transpose() -> a
    int getRowDimension() -> a
    int getColumnDimension() -> b
    double[] operate(double[]) -> a
    double walkInRowOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor) -> a
    double walkInRowOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor,int,int,int,int) -> a
    double walkInOptimizedOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor) -> b
    double walkInOptimizedOrder(org.apache.commons.math.linear.RealMatrixPreservingVisitor,int,int,int,int) -> b
    int blockHeight(int) -> a
    int blockWidth(int) -> b
    org.apache.commons.math.linear.RealMatrix transpose() -> a
    org.apache.commons.math.linear.RealMatrix createMatrix(int,int) -> a
    org.apache.commons.math.linear.RealMatrix getSubMatrix(int,int,int,int) -> a
org.apache.commons.math.linear.DecompositionSolver -> org.a.a.b.f.j:
    double[] solve(double[]) -> a
    org.apache.commons.math.linear.RealMatrix solve(org.apache.commons.math.linear.RealMatrix) -> a
    boolean isNonSingular() -> a
    org.apache.commons.math.linear.RealMatrix getInverse() -> a
org.apache.commons.math.linear.DefaultRealMatrixPreservingVisitor -> org.a.a.b.f.k:
    void start(int,int,int,int,int,int) -> a
    void visit(int,int,double) -> a
    double end() -> a
org.apache.commons.math.linear.EigenDecomposition -> org.a.a.b.f.l:
    org.apache.commons.math.linear.RealMatrix getV() -> a
    double[] getRealEigenvalues() -> a
org.apache.commons.math.linear.EigenDecompositionImpl -> org.a.a.b.f.m:
    byte maxIter -> a
    double[] main -> a
    double[] secondary -> b
    org.apache.commons.math.linear.TriDiagonalTransformer transformer -> a
    double[] realEigenvalues -> c
    double[] imagEigenvalues -> d
    org.apache.commons.math.linear.ArrayRealVector[] eigenvectors -> a
    org.apache.commons.math.linear.RealMatrix cachedV -> a
    boolean isSymmetric(org.apache.commons.math.linear.RealMatrix) -> a
    org.apache.commons.math.linear.RealMatrix getV() -> a
    double[] getRealEigenvalues() -> a
    void transformToTridiagonal(org.apache.commons.math.linear.RealMatrix) -> a
    void findEigenVectors(double[][]) -> a
org.apache.commons.math.linear.InvalidMatrixException -> org.a.a.b.f.n:
org.apache.commons.math.linear.LUDecompositionImpl -> org.a.a.b.f.o:
    double[][] lu -> a
    int[] pivot -> a
    boolean even -> a
    boolean singular -> b
    org.apache.commons.math.linear.RealMatrix cachedL -> a
    org.apache.commons.math.linear.RealMatrix cachedU -> b
    org.apache.commons.math.linear.RealMatrix cachedP -> c
    double getDeterminant() -> a
    org.apache.commons.math.linear.DecompositionSolver getSolver() -> a
org.apache.commons.math.linear.LUDecompositionImpl$Solver -> org.a.a.b.f.o$a:
    double[][] lu -> a
    int[] pivot -> a
    boolean singular -> a
    boolean isNonSingular() -> a
    double[] solve(double[]) -> a
    org.apache.commons.math.linear.RealMatrix solve(org.apache.commons.math.linear.RealMatrix) -> a
    org.apache.commons.math.linear.RealMatrix getInverse() -> a
org.apache.commons.math.linear.MatrixIndexException -> org.a.a.b.f.p:
org.apache.commons.math.linear.MatrixUtils -> org.a.a.b.f.q:
    org.apache.commons.math.linear.RealMatrix createRealMatrix(int,int) -> a
    org.apache.commons.math.linear.RealMatrix createRealIdentityMatrix(int) -> a
    void checkRowIndex(org.apache.commons.math.linear.AnyMatrix,int) -> a
    void checkColumnIndex(org.apache.commons.math.linear.AnyMatrix,int) -> b
    void checkSubMatrixIndex(org.apache.commons.math.linear.AnyMatrix,int,int,int,int) -> a
org.apache.commons.math.linear.MatrixVisitorException -> org.a.a.b.f.r:
org.apache.commons.math.linear.NonSquareMatrixException -> org.a.a.b.f.s:
org.apache.commons.math.linear.QRDecompositionImpl -> org.a.a.b.f.t:
    double[][] qrt -> a
    double[] rDiag -> a
    org.apache.commons.math.linear.RealMatrix cachedQ -> a
    org.apache.commons.math.linear.RealMatrix cachedQT -> b
    org.apache.commons.math.linear.RealMatrix cachedR -> c
    org.apache.commons.math.linear.RealMatrix cachedH -> d
    org.apache.commons.math.linear.DecompositionSolver getSolver() -> a
org.apache.commons.math.linear.QRDecompositionImpl$Solver -> org.a.a.b.f.t$a:
    double[][] qrt -> a
    double[] rDiag -> a
    boolean isNonSingular() -> a
    double[] solve(double[]) -> a
    org.apache.commons.math.linear.RealMatrix solve(org.apache.commons.math.linear.RealMatrix) -> a
    org.apache.commons.math.linear.RealMatrix getInverse() -> a
org.apache.commons.math.linear.RealMatrix -> org.a.a.b.f.u:
    double[][] getData() -> a
    org.apache.commons.math.linear.RealMatrix getSubMatrix(int,int,int,int) -> a
    void copySubMatrix(int,int,int,int,double[][]) -> a
    org.apache.commons.math.linear.RealVector getColumnVector(int) -> a
    void setColumnVector(int,org.apache.commons.math.linear.RealVector) -> a
    void setRow(int,double[]) -> a
    double[] getColumn(int) -> a
    void setColumn(int,double[]) -> b
    double getEntry(int,int) -> a
    void setEntry(int,int,double) -> a
    void addToEntry(int,int,double) -> b
    org.apache.commons.math.linear.RealMatrix transpose() -> a
    org.apache.commons.math.linear.RealVector operate(org.apache.commons.math.linear.RealVector) -> a
org.apache.commons.math.linear.RealMatrixPreservingVisitor -> org.a.a.b.f.v:
    void start(int,int,int,int,int,int) -> a
    void visit(int,int,double) -> a
    double end() -> a
org.apache.commons.math.linear.RealVector -> org.a.a.b.f.w:
    java.util.Iterator sparseIterator() -> a
    org.apache.commons.math.linear.RealVector mapMultiply(double) -> a
    double dotProduct(org.apache.commons.math.linear.RealVector) -> a
    double getEntry(int) -> a
    void setEntry(int,double) -> a
    int getDimension() -> a
    boolean isNaN() -> a
org.apache.commons.math.linear.RealVector$Entry -> org.a.a.b.f.w$a:
    int index -> a
    double getValue() -> a
    void setValue(double) -> a
    int getIndex() -> a
    void setIndex(int) -> a
org.apache.commons.math.linear.SingularMatrixException -> org.a.a.b.f.x:
org.apache.commons.math.linear.SingularValueDecomposition -> org.a.a.b.f.y:
    org.apache.commons.math.linear.RealMatrix getV() -> a
org.apache.commons.math.linear.SingularValueDecompositionImpl -> org.a.a.b.f.z:
    int m -> a
    int n -> b
    org.apache.commons.math.linear.EigenDecomposition eigenDecomposition -> a
    double[] singularValues -> a
    org.apache.commons.math.linear.RealMatrix cachedU -> a
    org.apache.commons.math.linear.RealMatrix cachedS -> b
    org.apache.commons.math.linear.RealMatrix cachedV -> c
    org.apache.commons.math.linear.RealMatrix cachedVt -> d
    org.apache.commons.math.linear.RealMatrix getV() -> a
org.apache.commons.math.linear.TriDiagonalTransformer -> org.a.a.b.f.A:
    double[][] householderVectors -> a
    double[] main -> a
    double[] secondary -> b
    org.apache.commons.math.linear.RealMatrix cachedQ -> a
    org.apache.commons.math.linear.RealMatrix cachedQt -> b
    org.apache.commons.math.linear.RealMatrix cachedT -> c
    org.apache.commons.math.linear.RealMatrix getQ() -> a
    org.apache.commons.math.linear.RealMatrix getQT() -> b
    double[] getMainDiagonalRef() -> a
    double[] getSecondaryDiagonalRef() -> b
    void transform() -> a
org.apache.commons.math.ode.AbstractIntegrator -> org.a.a.b.g.a:
    java.util.Collection stepHandlers -> a
    double stepStart -> a
    double stepSize -> b
    boolean isLastStep -> a
    boolean resetOccurred -> b
    java.util.Collection eventsStates -> b
    boolean statesInitialized -> c
    java.lang.String name -> a
    int maxEvaluations -> a
    int evaluations -> b
    org.apache.commons.math.ode.FirstOrderDifferentialEquations equations -> a
    void addStepHandler(org.apache.commons.math.ode.sampling.StepHandler) -> a
    boolean requiresDenseOutput() -> a
    void setMaxEvaluations(int) -> a
    void resetEvaluations() -> a
    void setEquations(org.apache.commons.math.ode.FirstOrderDifferentialEquations) -> a
    void computeDerivatives(double,double[],double[]) -> a
    void setStateInitialized(boolean) -> a
    double acceptStep(org.apache.commons.math.ode.sampling.AbstractStepInterpolator,double[],double[],double) -> a
    void sanityChecks(org.apache.commons.math.ode.FirstOrderDifferentialEquations,double,double[],double,double[]) -> a
org.apache.commons.math.ode.AbstractIntegrator$1 -> org.a.a.b.g.b:
    org.apache.commons.math.ode.AbstractIntegrator this$0 -> a
    int val$orderingSign -> a
    int compare(org.apache.commons.math.ode.events.EventState,org.apache.commons.math.ode.events.EventState) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
org.apache.commons.math.ode.DerivativeException -> org.a.a.b.g.c:
org.apache.commons.math.ode.ExtendedFirstOrderDifferentialEquations -> org.a.a.b.g.d:
    int getMainSetDimension() -> b
org.apache.commons.math.ode.FirstOrderDifferentialEquations -> org.a.a.b.g.e:
    int getDimension() -> a
    void computeDerivatives(double,double[],double[]) -> a
org.apache.commons.math.ode.FirstOrderIntegrator -> org.a.a.b.g.f:
    double integrate(org.apache.commons.math.ode.FirstOrderDifferentialEquations,double,double[],double,double[]) -> a
org.apache.commons.math.ode.IntegratorException -> org.a.a.b.g.g:
org.apache.commons.math.ode.ODEIntegrator -> org.a.a.b.g.h:
    void addStepHandler(org.apache.commons.math.ode.sampling.StepHandler) -> a
org.apache.commons.math.ode.events.EventException -> org.a.a.b.g.a.a:
org.apache.commons.math.ode.events.EventHandler -> org.a.a.b.g.a.b:
    double g(double,double[]) -> a
    int eventOccurred(double,double[],boolean) -> a
    void resetState(double,double[]) -> a
org.apache.commons.math.ode.events.EventState -> org.a.a.b.g.a.c:
    org.apache.commons.math.ode.events.EventHandler handler -> a
    double maxCheckInterval -> a
    double convergence -> b
    int maxIterationCount -> a
    double t0 -> c
    double g0 -> d
    boolean g0Positive -> a
    boolean pendingEvent -> b
    double pendingEventTime -> e
    double previousEventTime -> f
    boolean forward -> c
    boolean increasing -> d
    int nextAction -> b
    double getConvergence() -> a
    void reinitializeBegin(org.apache.commons.math.ode.sampling.StepInterpolator) -> a
    boolean evaluateStep(org.apache.commons.math.ode.sampling.StepInterpolator) -> a
    double getEventTime() -> b
    void stepAccepted(double,double[]) -> a
    boolean stop() -> a
    boolean reset(double,double[]) -> a
    org.apache.commons.math.ode.events.EventHandler access$0(org.apache.commons.math.ode.events.EventState) -> a
org.apache.commons.math.ode.events.EventState$1 -> org.a.a.b.g.a.d:
    org.apache.commons.math.ode.events.EventState this$0 -> a
    org.apache.commons.math.ode.sampling.StepInterpolator val$interpolator -> a
    double value(double) -> a
org.apache.commons.math.ode.events.EventState$EmbeddedDerivativeException -> org.a.a.b.g.a.c$a:
    org.apache.commons.math.ode.DerivativeException derivativeException -> a
    org.apache.commons.math.ode.DerivativeException getDerivativeException() -> a
org.apache.commons.math.ode.events.EventState$EmbeddedEventException -> org.a.a.b.g.a.c$b:
    org.apache.commons.math.ode.events.EventException eventException -> a
    org.apache.commons.math.ode.events.EventException getEventException() -> a
org.apache.commons.math.ode.nonstiff.AdaptiveStepsizeIntegrator -> org.a.a.b.g.b.a:
    double scalAbsoluteTolerance -> c
    double scalRelativeTolerance -> d
    double[] vecAbsoluteTolerance -> a
    double[] vecRelativeTolerance -> b
    int mainSetDimension -> a
    double initialStep -> e
    double minStep -> f
    double maxStep -> g
    void sanityChecks(org.apache.commons.math.ode.FirstOrderDifferentialEquations,double,double[],double,double[]) -> a
    double initializeStep(org.apache.commons.math.ode.FirstOrderDifferentialEquations,boolean,int,double[],double,double[],double[],double[],double[]) -> a
    double filterStep(double,boolean,boolean) -> a
    void resetInternalState() -> b
    double getMinStep() -> a
    double getMaxStep() -> b
org.apache.commons.math.ode.nonstiff.ClassicalRungeKuttaIntegrator -> org.a.a.b.g.b.b:
    double[] STATIC_C -> a
    double[][] STATIC_A -> a
    double[] STATIC_B -> b
org.apache.commons.math.ode.nonstiff.ClassicalRungeKuttaStepInterpolator -> org.a.a.b.g.b.c:
    org.apache.commons.math.ode.sampling.StepInterpolator doCopy() -> a
    void computeInterpolatedStateAndDerivatives(double,double) -> a
org.apache.commons.math.ode.nonstiff.DormandPrince54Integrator -> org.a.a.b.g.b.d:
    double[] STATIC_C -> c
    double[][] STATIC_A -> a
    double[] STATIC_B -> d
    int getOrder() -> a
    double estimateError(double[][],double[],double[],double) -> a
org.apache.commons.math.ode.nonstiff.DormandPrince54StepInterpolator -> org.a.a.b.g.b.e:
    double[] v1 -> d
    double[] v2 -> e
    double[] v3 -> f
    double[] v4 -> g
    boolean vectorsInitialized -> a
    org.apache.commons.math.ode.sampling.StepInterpolator doCopy() -> a
    void reinitialize(org.apache.commons.math.ode.AbstractIntegrator,double[],double[][],boolean) -> a
    void storeTime(double) -> a
    void computeInterpolatedStateAndDerivatives(double,double) -> a
org.apache.commons.math.ode.nonstiff.EmbeddedRungeKuttaIntegrator -> org.a.a.b.g.b.f:
    boolean fsal -> c
    double[] c -> c
    double[][] a -> a
    double[] b -> d
    org.apache.commons.math.ode.nonstiff.RungeKuttaStepInterpolator prototype -> a
    double exp -> e
    double safety -> f
    double minReduction -> g
    double maxGrowth -> h
    int getOrder() -> a
    void setSafety(double) -> a
    double integrate(org.apache.commons.math.ode.FirstOrderDifferentialEquations,double,double[],double,double[]) -> a
    void setMinReduction(double) -> b
    void setMaxGrowth(double) -> c
    double estimateError(double[][],double[],double[],double) -> a
org.apache.commons.math.ode.nonstiff.RungeKuttaIntegrator -> org.a.a.b.g.b.g:
    double[] c -> a
    double[][] a -> a
    double[] b -> b
    org.apache.commons.math.ode.nonstiff.RungeKuttaStepInterpolator prototype -> a
    double step -> c
    double integrate(org.apache.commons.math.ode.FirstOrderDifferentialEquations,double,double[],double,double[]) -> a
org.apache.commons.math.ode.nonstiff.RungeKuttaStepInterpolator -> org.a.a.b.g.b.h:
    double[][] yDotK -> a
    org.apache.commons.math.ode.AbstractIntegrator integrator -> a
    void reinitialize(org.apache.commons.math.ode.AbstractIntegrator,double[],double[][],boolean) -> a
org.apache.commons.math.ode.sampling.AbstractStepInterpolator -> org.a.a.b.g.c.a:
    double h -> a
    double[] currentState -> a
    double interpolatedTime -> b
    double[] interpolatedState -> b
    double[] interpolatedDerivatives -> c
    double globalPreviousTime -> c
    double globalCurrentTime -> d
    double softPreviousTime -> e
    double softCurrentTime -> f
    boolean finalized -> a
    boolean forward -> b
    boolean dirtyState -> c
    void reinitialize(double[],boolean) -> a
    org.apache.commons.math.ode.sampling.StepInterpolator copy() -> b
    org.apache.commons.math.ode.sampling.StepInterpolator doCopy() -> a
    void shift() -> a
    void storeTime(double) -> a
    void setSoftPreviousTime(double) -> b
    void setSoftCurrentTime(double) -> c
    double getGlobalPreviousTime() -> a
    double getGlobalCurrentTime() -> b
    double getPreviousTime() -> c
    double getCurrentTime() -> d
    void setInterpolatedTime(double) -> d
    boolean isForward() -> a
    void computeInterpolatedStateAndDerivatives(double,double) -> a
    double[] getInterpolatedState() -> a
    void finalizeStep() -> b
    void doFinalize() -> c
org.apache.commons.math.ode.sampling.DummyStepInterpolator -> org.a.a.b.g.c.b:
    double[] currentDerivative -> d
    org.apache.commons.math.ode.sampling.StepInterpolator doCopy() -> a
    void computeInterpolatedStateAndDerivatives(double,double) -> a
org.apache.commons.math.ode.sampling.StepHandler -> org.a.a.b.g.c.c:
    boolean requiresDenseOutput() -> a
    void reset() -> a
    void handleStep(org.apache.commons.math.ode.sampling.StepInterpolator,boolean) -> a
org.apache.commons.math.ode.sampling.StepInterpolator -> org.a.a.b.g.c.d:
    double getPreviousTime() -> c
    double getCurrentTime() -> d
    void setInterpolatedTime(double) -> d
    double[] getInterpolatedState() -> a
    boolean isForward() -> a
org.apache.commons.math.optimization.DifferentiableMultivariateVectorialOptimizer -> org.a.a.b.h.a:
    org.apache.commons.math.optimization.VectorialPointValuePair optimize(org.apache.commons.math.analysis.DifferentiableMultivariateVectorialFunction,double[],double[],double[]) -> a
org.apache.commons.math.optimization.OptimizationException -> org.a.a.b.h.b:
org.apache.commons.math.optimization.SimpleVectorialValueChecker -> org.a.a.b.h.c:
    double relativeThreshold -> a
    double absoluteThreshold -> b
    boolean converged(int,org.apache.commons.math.optimization.VectorialPointValuePair,org.apache.commons.math.optimization.VectorialPointValuePair) -> a
org.apache.commons.math.optimization.VectorialConvergenceChecker -> org.a.a.b.h.d:
    boolean converged(int,org.apache.commons.math.optimization.VectorialPointValuePair,org.apache.commons.math.optimization.VectorialPointValuePair) -> a
org.apache.commons.math.optimization.VectorialPointValuePair -> org.a.a.b.h.e:
    double[] point -> a
    double[] value -> b
    double[] getPointRef() -> a
    double[] getValueRef() -> b
org.apache.commons.math.optimization.fitting.CurveFitter -> org.a.a.b.h.a.a:
    org.apache.commons.math.optimization.DifferentiableMultivariateVectorialOptimizer optimizer -> a
    java.util.List observations -> a
    void addObservedPoint(double,double,double) -> a
    void clearObservations() -> a
    double[] fit(org.apache.commons.math.optimization.fitting.ParametricRealFunction,double[]) -> a
    java.util.List access$0(org.apache.commons.math.optimization.fitting.CurveFitter) -> a
org.apache.commons.math.optimization.fitting.CurveFitter$TheoreticalValuesFunction -> org.a.a.b.h.a.a$a:
    org.apache.commons.math.optimization.fitting.ParametricRealFunction f -> a
    org.apache.commons.math.optimization.fitting.CurveFitter this$0 -> a
    org.apache.commons.math.analysis.MultivariateMatrixFunction jacobian() -> a
    double[] value(double[]) -> a
    org.apache.commons.math.optimization.fitting.ParametricRealFunction access$0(org.apache.commons.math.optimization.fitting.CurveFitter$TheoreticalValuesFunction) -> a
    org.apache.commons.math.optimization.fitting.CurveFitter access$1(org.apache.commons.math.optimization.fitting.CurveFitter$TheoreticalValuesFunction) -> a
org.apache.commons.math.optimization.fitting.CurveFitter$TheoreticalValuesFunction$1 -> org.a.a.b.h.a.b:
    org.apache.commons.math.optimization.fitting.CurveFitter$TheoreticalValuesFunction this$1 -> a
    double[][] value(double[]) -> a
org.apache.commons.math.optimization.fitting.ParametricRealFunction -> org.a.a.b.h.a.c:
    double value(double,double[]) -> a
    double[] gradient(double,double[]) -> a
org.apache.commons.math.optimization.fitting.WeightedObservedPoint -> org.a.a.b.h.a.d:
    double weight -> a
    double x -> b
    double y -> c
    double getWeight() -> a
    double getX() -> b
    double getY() -> c
org.apache.commons.math.optimization.general.AbstractLeastSquaresOptimizer -> org.a.a.b.h.b.a:
    org.apache.commons.math.optimization.VectorialConvergenceChecker checker -> a
    double[][] jacobian -> a
    int cols -> a
    int rows -> b
    double[] targetValues -> a
    double[] residualsWeights -> b
    double[] point -> c
    double[] objective -> d
    double[] residuals -> e
    double[][] wjacobian -> b
    double[] wresiduals -> f
    double cost -> a
    int maxIterations -> c
    int iterations -> d
    int maxEvaluations -> e
    int objectiveEvaluations -> f
    int jacobianEvaluations -> g
    org.apache.commons.math.analysis.DifferentiableMultivariateVectorialFunction function -> a
    org.apache.commons.math.analysis.MultivariateMatrixFunction jF -> a
    void setMaxIterations(int) -> a
    int getIterations() -> a
    void setMaxEvaluations(int) -> b
    void setConvergenceChecker(org.apache.commons.math.optimization.VectorialConvergenceChecker) -> a
    void incrementIterationsCounter() -> a
    void updateJacobian() -> b
    void updateResidualsAndCost() -> c
    org.apache.commons.math.optimization.VectorialPointValuePair optimize(org.apache.commons.math.analysis.DifferentiableMultivariateVectorialFunction,double[],double[],double[]) -> a
    org.apache.commons.math.optimization.VectorialPointValuePair doOptimize() -> a
org.apache.commons.math.optimization.general.LevenbergMarquardtOptimizer -> org.a.a.b.h.b.b:
    int solvedCols -> c
    double[] diagR -> g
    double[] jacNorm -> h
    double[] beta -> i
    int[] permutation -> a
    int rank -> d
    double lmPar -> b
    double[] lmDir -> j
    double initialStepBoundFactor -> c
    double costRelativeTolerance -> d
    double parRelativeTolerance -> e
    double orthoTolerance -> f
    double qrRankingThreshold -> g
    void setInitialStepBoundFactor(double) -> a
    void setCostRelativeTolerance(double) -> b
    void setParRelativeTolerance(double) -> c
    void setOrthoTolerance(double) -> d
    void setQRRankingThreshold(double) -> e
    org.apache.commons.math.optimization.VectorialPointValuePair doOptimize() -> a
    void determineLMParameter(double[],double,double[],double[],double[],double[]) -> a
    void determineLMDirection(double[],double[],double[],double[]) -> a
    void qrDecomposition() -> d
    void qTy(double[]) -> a
org.apache.commons.math.special.Beta -> org.a.a.b.i.a:
    double regularizedBeta(double,double,double) -> a
    double regularizedBeta(double,double,double,double,int) -> a
    double logBeta(double,double) -> a
    double logBeta(double,double,double,int) -> a
org.apache.commons.math.special.Beta$1 -> org.a.a.b.i.b:
    double val$b -> a
    double val$a -> b
    double getB(int,double) -> a
    double getA(int,double) -> b
org.apache.commons.math.special.Erf -> org.a.a.b.i.c:
    double erf(double) -> a
org.apache.commons.math.special.Gamma -> org.a.a.b.i.d:
    double[] LANCZOS -> a
    double HALF_LOG_2_PI -> a
    double logGamma(double) -> a
    double regularizedGammaP(double,double) -> a
    double regularizedGammaP(double,double,double,int) -> a
    double regularizedGammaQ(double,double,double,int) -> b
    double digamma(double) -> b
    double trigamma(double) -> c
org.apache.commons.math.special.Gamma$1 -> org.a.a.b.i.e:
    double val$a -> a
    double getA(int,double) -> b
    double getB(int,double) -> a
org.apache.commons.math.stat.Frequency -> org.a.a.b.j.a:
    java.util.TreeMap freqTable -> a
    java.lang.String toString() -> toString
    void addValue(java.lang.Comparable) -> a
    void clear() -> a
    java.util.Iterator valuesIterator() -> a
    long getSumFreq() -> a
    long getCount(java.lang.Comparable) -> a
    long getCount(long) -> a
    double getPct(java.lang.Comparable) -> a
    long getCumFreq(java.lang.Comparable) -> b
    long getCumFreq(long) -> b
    double getCumPct(java.lang.Comparable) -> b
    int hashCode() -> hashCode
    boolean equals(java.lang.Object) -> equals
org.apache.commons.math.stat.Frequency$NaturalComparator -> org.a.a.b.j.a$a:
    int compare(java.lang.Comparable,java.lang.Comparable) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
org.apache.commons.math.stat.StatUtils -> org.a.a.b.j.b:
    org.apache.commons.math.stat.descriptive.UnivariateStatistic SUM -> a
    org.apache.commons.math.stat.descriptive.UnivariateStatistic SUM_OF_SQUARES -> b
    org.apache.commons.math.stat.descriptive.UnivariateStatistic PRODUCT -> c
    org.apache.commons.math.stat.descriptive.UnivariateStatistic SUM_OF_LOGS -> d
    org.apache.commons.math.stat.descriptive.UnivariateStatistic MIN -> e
    org.apache.commons.math.stat.descriptive.UnivariateStatistic MAX -> f
    org.apache.commons.math.stat.descriptive.UnivariateStatistic MEAN -> g
    org.apache.commons.math.stat.descriptive.moment.Variance VARIANCE -> a
    org.apache.commons.math.stat.descriptive.rank.Percentile PERCENTILE -> a
    org.apache.commons.math.stat.descriptive.moment.GeometricMean GEOMETRIC_MEAN -> a
    double mean(double[]) -> a
    double variance(double[]) -> b
    double sumDifference(double[],double[]) -> a
    double meanDifference(double[],double[]) -> b
    double varianceDifference(double[],double[],double) -> a
org.apache.commons.math.stat.correlation.PearsonsCorrelation -> org.a.a.b.j.a.a:
    org.apache.commons.math.linear.RealMatrix correlationMatrix -> a
    int nObs -> a
    double correlation(double[],double[]) -> a
org.apache.commons.math.stat.correlation.SpearmansCorrelation -> org.a.a.b.j.a.b:
    org.apache.commons.math.linear.RealMatrix data -> a
    org.apache.commons.math.stat.ranking.RankingAlgorithm rankingAlgorithm -> a
    org.apache.commons.math.stat.correlation.PearsonsCorrelation rankCorrelation -> a
    double correlation(double[],double[]) -> a
org.apache.commons.math.stat.descriptive.AbstractStorelessUnivariateStatistic -> org.a.a.b.j.b.a:
    double evaluate(double[]) -> a
    double evaluate(double[],int,int) -> a
    void clear() -> a
    double getResult() -> a
    void increment(double) -> a
    void incrementAll(double[],int,int) -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
org.apache.commons.math.stat.descriptive.AbstractUnivariateStatistic -> org.a.a.b.j.b.b:
    double[] storedData -> a
    void setData(double[]) -> a
    double[] getDataRef() -> a
    double evaluate(double[]) -> a
    double evaluate(double[],int,int) -> a
    boolean test(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.StatisticalSummary -> org.a.a.b.j.b.c:
    double getMean() -> a
    double getVariance() -> b
    long getN() -> a
org.apache.commons.math.stat.descriptive.StatisticalSummaryValues -> org.a.a.b.j.b.d:
    double mean -> a
    double variance -> b
    long n -> a
    double max -> c
    double min -> d
    double sum -> e
    double getMax() -> c
    double getMean() -> a
    double getMin() -> d
    long getN() -> a
    double getSum() -> e
    double getStandardDeviation() -> f
    double getVariance() -> b
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
    java.lang.String toString() -> toString
org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic -> org.a.a.b.j.b.e:
    void increment(double) -> a
    double getResult() -> a
    long getN() -> a
    void clear() -> a
org.apache.commons.math.stat.descriptive.SummaryStatistics -> org.a.a.b.j.b.f:
    long n -> a
    org.apache.commons.math.stat.descriptive.moment.SecondMoment secondMoment -> a
    org.apache.commons.math.stat.descriptive.summary.Sum sum -> a
    org.apache.commons.math.stat.descriptive.summary.SumOfSquares sumsq -> a
    org.apache.commons.math.stat.descriptive.rank.Min min -> a
    org.apache.commons.math.stat.descriptive.rank.Max max -> a
    org.apache.commons.math.stat.descriptive.summary.SumOfLogs sumLog -> a
    org.apache.commons.math.stat.descriptive.moment.GeometricMean geoMean -> a
    org.apache.commons.math.stat.descriptive.moment.Mean mean -> a
    org.apache.commons.math.stat.descriptive.moment.Variance variance -> a
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic sumImpl -> a
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic sumsqImpl -> b
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic minImpl -> c
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic maxImpl -> d
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic sumLogImpl -> e
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic geoMeanImpl -> f
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic meanImpl -> g
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic varianceImpl -> h
    void addValue(double) -> a
    long getN() -> a
    double getSum() -> c
    double getSumsq() -> d
    double getMean() -> a
    double getStandardDeviation() -> e
    double getVariance() -> b
    double getMax() -> f
    double getMin() -> g
    double getGeometricMean() -> h
    double getSumOfLogs() -> i
    java.lang.String toString() -> toString
    void clear() -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
org.apache.commons.math.stat.descriptive.UnivariateStatistic -> org.a.a.b.j.b.g:
    double evaluate(double[]) -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.moment.FirstMoment -> org.a.a.b.j.b.a.a:
    long n -> a
    double m1 -> a
    double dev -> b
    double nDev -> c
    void increment(double) -> a
    void clear() -> a
    double getResult() -> a
    long getN() -> a
org.apache.commons.math.stat.descriptive.moment.GeometricMean -> org.a.a.b.j.b.a.b:
    org.apache.commons.math.stat.descriptive.StorelessUnivariateStatistic sumOfLogs -> a
    void increment(double) -> a
    double getResult() -> a
    void clear() -> a
    double evaluate(double[],int,int) -> a
    long getN() -> a
org.apache.commons.math.stat.descriptive.moment.Mean -> org.a.a.b.j.b.a.c:
    org.apache.commons.math.stat.descriptive.moment.FirstMoment moment -> a
    boolean incMoment -> a
    void increment(double) -> a
    void clear() -> a
    double getResult() -> a
    long getN() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.moment.SecondMoment -> org.a.a.b.j.b.a.d:
    double m2 -> d
    void increment(double) -> a
    void clear() -> a
    double getResult() -> a
org.apache.commons.math.stat.descriptive.moment.Variance -> org.a.a.b.j.b.a.e:
    org.apache.commons.math.stat.descriptive.moment.SecondMoment moment -> a
    boolean incMoment -> a
    boolean isBiasCorrected -> b
    void increment(double) -> a
    double getResult() -> a
    long getN() -> a
    void clear() -> a
    double evaluate(double[]) -> a
    double evaluate(double[],int,int) -> a
    double evaluate(double[],double,int,int) -> a
org.apache.commons.math.stat.descriptive.rank.Max -> org.a.a.b.j.b.b.a:
    long n -> a
    double value -> a
    void increment(double) -> a
    void clear() -> a
    double getResult() -> a
    long getN() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.rank.Min -> org.a.a.b.j.b.b.b:
    long n -> a
    double value -> a
    void increment(double) -> a
    void clear() -> a
    double getResult() -> a
    long getN() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.rank.Percentile -> org.a.a.b.j.b.b.c:
    double quantile -> a
    int[] cachedPivots -> a
    void setData(double[]) -> a
    double evaluate(double) -> a
    double evaluate(double[],double) -> a
    double evaluate(double[],int,int) -> a
    double evaluate(double[],int,int,double) -> a
    double select(double[],int[],int) -> a
    int medianOf3(double[],int,int) -> a
    int partition(double[],int,int,int) -> a
    void insertionSort(double[],int,int) -> a
    void setQuantile(double) -> a
org.apache.commons.math.stat.descriptive.summary.Product -> org.a.a.b.j.b.c.a:
    long n -> a
    double value -> a
    void increment(double) -> a
    double getResult() -> a
    long getN() -> a
    void clear() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.summary.Sum -> org.a.a.b.j.b.c.b:
    long n -> a
    double value -> a
    void increment(double) -> a
    double getResult() -> a
    long getN() -> a
    void clear() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.summary.SumOfLogs -> org.a.a.b.j.b.c.c:
    int n -> a
    double value -> a
    void increment(double) -> a
    double getResult() -> a
    long getN() -> a
    void clear() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.descriptive.summary.SumOfSquares -> org.a.a.b.j.b.c.d:
    long n -> a
    double value -> a
    void increment(double) -> a
    double getResult() -> a
    long getN() -> a
    void clear() -> a
    double evaluate(double[],int,int) -> a
org.apache.commons.math.stat.inference.OneWayAnovaImpl -> org.a.a.b.j.c.a:
    double anovaFValue(java.util.Collection) -> a
    double anovaPValue(java.util.Collection) -> b
    org.apache.commons.math.stat.inference.OneWayAnovaImpl$AnovaStats anovaStats(java.util.Collection) -> a
org.apache.commons.math.stat.inference.OneWayAnovaImpl$AnovaStats -> org.a.a.b.j.c.a$a:
    int dfbg -> a
    int dfwg -> b
    double F -> a
    double access$0(org.apache.commons.math.stat.inference.OneWayAnovaImpl$AnovaStats) -> a
    int access$1(org.apache.commons.math.stat.inference.OneWayAnovaImpl$AnovaStats) -> a
    int access$2(org.apache.commons.math.stat.inference.OneWayAnovaImpl$AnovaStats) -> b
org.apache.commons.math.stat.inference.TTestImpl -> org.a.a.b.j.c.b:
    org.apache.commons.math.distribution.TDistribution distribution -> a
    double pairedT(double[],double[]) -> a
    double pairedTTest(double[],double[]) -> b
    double t(double,double[]) -> a
    double t(double,org.apache.commons.math.stat.descriptive.StatisticalSummary) -> a
    double homoscedasticT(double[],double[]) -> c
    double t(double[],double[]) -> d
    double t(org.apache.commons.math.stat.descriptive.StatisticalSummary,org.apache.commons.math.stat.descriptive.StatisticalSummary) -> a
    double homoscedasticT(org.apache.commons.math.stat.descriptive.StatisticalSummary,org.apache.commons.math.stat.descriptive.StatisticalSummary) -> b
    double tTest(double,double[]) -> b
    double tTest(double,org.apache.commons.math.stat.descriptive.StatisticalSummary) -> b
    double tTest(double[],double[]) -> e
    double homoscedasticTTest(double[],double[]) -> f
    double tTest(org.apache.commons.math.stat.descriptive.StatisticalSummary,org.apache.commons.math.stat.descriptive.StatisticalSummary) -> c
    double homoscedasticTTest(org.apache.commons.math.stat.descriptive.StatisticalSummary,org.apache.commons.math.stat.descriptive.StatisticalSummary) -> d
    double df(double,double,double,double) -> a
    double t(double,double,double,double) -> b
    double t(double,double,double,double,double,double) -> a
    double homoscedasticT(double,double,double,double,double,double) -> b
    double tTest(double,double,double,double) -> c
    double tTest(double,double,double,double,double,double) -> c
    double homoscedasticTTest(double,double,double,double,double,double) -> d
    void setDistribution(org.apache.commons.math.distribution.TDistribution) -> a
    void checkSampleData(double[]) -> a
    void checkSampleData(org.apache.commons.math.stat.descriptive.StatisticalSummary) -> a
org.apache.commons.math.stat.ranking.NaNStrategy -> org.a.a.b.j.d.a:
    org.apache.commons.math.stat.ranking.NaNStrategy MINIMAL -> a
    org.apache.commons.math.stat.ranking.NaNStrategy MAXIMAL -> b
    org.apache.commons.math.stat.ranking.NaNStrategy REMOVED -> c
    org.apache.commons.math.stat.ranking.NaNStrategy FIXED -> d
    org.apache.commons.math.stat.ranking.NaNStrategy[] ENUM$VALUES -> a
    org.apache.commons.math.stat.ranking.NaNStrategy[] values() -> values
    org.apache.commons.math.stat.ranking.NaNStrategy valueOf(java.lang.String) -> valueOf
org.apache.commons.math.stat.ranking.NaturalRanking -> org.a.a.b.j.d.b:
    org.apache.commons.math.stat.ranking.NaNStrategy DEFAULT_NAN_STRATEGY -> a
    org.apache.commons.math.stat.ranking.TiesStrategy DEFAULT_TIES_STRATEGY -> a
    org.apache.commons.math.stat.ranking.NaNStrategy nanStrategy -> b
    org.apache.commons.math.stat.ranking.TiesStrategy tiesStrategy -> b
    int[] $SWITCH_TABLE$org$apache$commons$math$stat$ranking$NaNStrategy -> a
    int[] $SWITCH_TABLE$org$apache$commons$math$stat$ranking$TiesStrategy -> b
    double[] rank(double[]) -> a
    org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair[] removeNaNs(org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair[]) -> a
    void recodeNaNs(org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair[],double) -> a
    boolean containsNaNs(org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair[]) -> a
    void resolveTie(double[],java.util.List) -> a
    void fill(double[],java.util.List,double) -> a
    void restoreNaNs(double[],java.util.List) -> b
    java.util.List getNanPositions(org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair[]) -> a
    int[] $SWITCH_TABLE$org$apache$commons$math$stat$ranking$NaNStrategy() -> a
    int[] $SWITCH_TABLE$org$apache$commons$math$stat$ranking$TiesStrategy() -> b
org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair -> org.a.a.b.j.d.b$a:
    double value -> a
    int position -> a
    int compareTo(org.apache.commons.math.stat.ranking.NaturalRanking$IntDoublePair) -> a
    double getValue() -> a
    int getPosition() -> a
    int compareTo(java.lang.Object) -> compareTo
org.apache.commons.math.stat.ranking.RankingAlgorithm -> org.a.a.b.j.d.c:
    double[] rank(double[]) -> a
org.apache.commons.math.stat.ranking.TiesStrategy -> org.a.a.b.j.d.d:
    org.apache.commons.math.stat.ranking.TiesStrategy SEQUENTIAL -> a
    org.apache.commons.math.stat.ranking.TiesStrategy MINIMUM -> b
    org.apache.commons.math.stat.ranking.TiesStrategy MAXIMUM -> c
    org.apache.commons.math.stat.ranking.TiesStrategy AVERAGE -> d
    org.apache.commons.math.stat.ranking.TiesStrategy[] ENUM$VALUES -> a
    org.apache.commons.math.stat.ranking.TiesStrategy[] values() -> values
    org.apache.commons.math.stat.ranking.TiesStrategy valueOf(java.lang.String) -> valueOf
org.apache.commons.math.stat.regression.SimpleRegression -> org.a.a.b.j.e.a:
    org.apache.commons.math.distribution.TDistribution distribution -> a
    double sumX -> a
    double sumXX -> b
    double sumY -> c
    double sumYY -> d
    double sumXY -> e
    long n -> a
    double xbar -> f
    double ybar -> g
    void addData(double,double) -> a
    double getSlope() -> a
    double getSumSquaredErrors() -> b
    double getTotalSumSquares() -> c
    double getR() -> d
    double getRSquare() -> e
    void setDistribution(org.apache.commons.math.distribution.TDistribution) -> a
org.apache.commons.math.util.ContinuedFraction -> org.a.a.b.k.a:
    double getA(int,double) -> b
    double getB(int,double) -> a
    double evaluate(double,double,int) -> a
org.apache.commons.math.util.FastMath -> org.a.a.b.k.b:
    double[] EXP_INT_TABLE_A -> a
    double[] EXP_INT_TABLE_B -> b
    double[] EXP_FRAC_TABLE_A -> c
    double[] EXP_FRAC_TABLE_B -> d
    double[] FACT -> e
    double[][] LN_MANT -> a
    double[][] LN_SPLIT_COEF -> b
    double[][] LN_QUICK_COEF -> c
    double[][] LN_HI_PREC_COEF -> d
    double[] SINE_TABLE_A -> f
    double[] SINE_TABLE_B -> g
    double[] COSINE_TABLE_A -> h
    double[] COSINE_TABLE_B -> i
    double[] TANGENT_TABLE_A -> j
    double[] TANGENT_TABLE_B -> k
    long[] RECIP_2PI -> a
    long[] PI_O_4_BITS -> b
    double[] EIGHTHS -> l
    double[] CBRTTWO -> m
    double doubleHighPart(double) -> j
    double sqrt(double) -> a
    double exp(double) -> b
    double exp(double,double,double[]) -> a
    double slowexp(double,double[]) -> a
    void split(double,double[]) -> a
    void resplit(double[]) -> a
    void splitMult(double[],double[],double[]) -> a
    void splitAdd(double[],double[],double[]) -> b
    void splitReciprocal(double[],double[]) -> a
    void quadMult(double[],double[],double[]) -> c
    double expint(int,double[]) -> a
    double log(double) -> c
    double log(double,double[]) -> b
    double pow(double,double) -> a
    double[] slowLog(double) -> a
    double slowSin(double,double[]) -> c
    double slowCos(double,double[]) -> d
    void buildSinCosTables() -> a
    double polySine(double) -> k
    double polyCosine(double) -> l
    double sinQ(double,double) -> f
    double cosQ(double,double) -> g
    double tanQ(double,double,boolean) -> a
    void reducePayneHanek(double,double[]) -> b
    double sin(double) -> d
    double cos(double) -> e
    double tan(double) -> f
    double atan(double) -> g
    double atan(double,double,boolean) -> b
    double atan2(double,double) -> b
    int abs(int) -> a
    long abs(long) -> a
    double abs(double) -> h
    double floor(double) -> i
    long round(double) -> a
    int min(int,int) -> a
    double min(double,double) -> c
    int max(int,int) -> b
    double max(double,double) -> d
    double copySign(double,double) -> e
org.apache.commons.math.util.MathUtils -> org.a.a.b.k.c:
    long[] FACTORIALS -> a
    boolean $assertionsDisabled -> a
    long binomialCoefficient(int,int) -> a
    double binomialCoefficientDouble(int,int) -> a
    double binomialCoefficientLog(int,int) -> b
    void checkBinomial(int,int) -> a
    double cosh(double) -> a
    boolean equalsIncludingNaN(float,float) -> a
    boolean equals(float,float,int) -> a
    boolean equalsIncludingNaN(double,double) -> a
    boolean equals(double,double,int) -> a
    int gcd(int,int) -> a
    int hash(double) -> a
    int hash(double[]) -> a
    double indicator(double) -> b
    long mulAndCheck(long,long) -> a
    double sinh(double) -> c
org.freehep.graphics2d.AbstractVectorGraphics -> org.freehep.a.a:
    org.freehep.util.UserProperties properties -> a
    java.lang.String creator -> a
    boolean isDeviceIndependent -> a
    org.freehep.graphics2d.SymbolShape cachedShape -> a
    int colorMode -> a
    java.awt.Color backgroundColor -> a
    java.awt.Color currentColor -> b
    java.awt.Paint currentPaint -> a
    java.awt.Font currentFont -> a
    void initProperties(java.util.Properties) -> a
    java.util.Properties getProperties() -> a
    java.lang.String getProperty(java.lang.String) -> a
    java.awt.Color getPropertyColor(java.lang.String) -> a
    java.awt.Insets getPropertyInsets(java.lang.String) -> a
    java.awt.Dimension getPropertyDimension(java.lang.String) -> a
    boolean isProperty(java.lang.String) -> a
    java.lang.String getCreator() -> a
    boolean isDeviceIndependent() -> a
    java.awt.Font getFont() -> getFont
    void setFont(java.awt.Font) -> setFont
    void clearRect(int,int,int,int) -> clearRect
    void drawLine(int,int,int,int) -> drawLine
    void drawRect(int,int,int,int) -> drawRect
    void fillRect(int,int,int,int) -> fillRect
    void drawArc(int,int,int,int,int,int) -> drawArc
    void fillArc(int,int,int,int,int,int) -> fillArc
    void drawOval(int,int,int,int) -> drawOval
    void fillOval(int,int,int,int) -> fillOval
    void drawRoundRect(int,int,int,int,int,int) -> drawRoundRect
    void fillRoundRect(int,int,int,int,int,int) -> fillRoundRect
    void translate(int,int) -> translate
    void setLineWidth(double) -> a
    void drawString(java.lang.String,int,int) -> drawString
    void drawString(java.lang.String,float,float) -> drawString
    void drawString(java.text.AttributedCharacterIterator,int,int) -> drawString
    java.awt.geom.Point2D drawFrameAndBanner(java.awt.font.TextLayout,double,double,int,int,boolean,java.awt.Color,double,boolean,java.awt.Color) -> a
    void drawString(org.freehep.graphics2d.TagString,double,double,int,int,boolean,java.awt.Color,double,boolean,java.awt.Color) -> a
    void drawString(org.freehep.graphics2d.TagString,double,double,int,int) -> a
    java.awt.Color getBackground() -> getBackground
    void setBackground(java.awt.Color) -> setBackground
    void setColor(java.awt.Color) -> setColor
    java.awt.Color getColor() -> getColor
    void setPaint(java.awt.Paint) -> setPaint
    java.awt.Paint getPaint() -> getPaint
    java.awt.Color getPrintColor(java.awt.Color) -> a
    void rotate(double,double,double) -> rotate
    void drawArc(double,double,double,double,double,double) -> a
    void drawLine(double,double,double,double) -> a
    void drawOval(double,double,double,double) -> b
    void drawPolyline(int[],int[],int) -> drawPolyline
    void drawPolygon(int[],int[],int) -> drawPolygon
    void drawRect(double,double,double,double) -> c
    void drawRoundRect(double,double,double,double,double,double) -> b
    void fillArc(double,double,double,double,double,double) -> c
    void fillOval(double,double,double,double) -> d
    void fillPolygon(int[],int[],int) -> fillPolygon
    void fillRect(double,double,double,double) -> e
    void fillRoundRect(double,double,double,double,double,double) -> d
    java.awt.Shape createShape(int[],int[],int,boolean,boolean) -> a
org.freehep.graphics2d.GenericTagHandler -> org.freehep.a.b:
    java.lang.Integer UNDERLINE_OVERLINE -> a
    java.awt.Graphics2D graphics -> a
    java.lang.StringBuffer clearedText -> a
    java.util.Vector attributes -> a
    java.util.Hashtable tags -> a
    java.util.Stack fontFamilyStack -> a
    double superscriptCorrection -> a
    void print(org.freehep.graphics2d.TagString,double,double,double) -> a
    java.awt.font.TextLayout createTextLayout(org.freehep.graphics2d.TagString,double) -> a
    java.lang.String openTag(java.lang.String) -> a
    java.lang.String closeTag(java.lang.String) -> b
    java.lang.String text(java.lang.String) -> c
org.freehep.graphics2d.GenericTagHandler$AttributeEntry -> org.freehep.a.b$a:
    int begin -> a
    int end -> b
    java.awt.font.TextAttribute textAttribute -> a
    java.lang.Object value -> a
    org.freehep.graphics2d.GenericTagHandler this$0 -> a
    void apply(java.text.AttributedString) -> a
org.freehep.graphics2d.PixelGraphics2D -> org.freehep.a.c:
    java.awt.RenderingHints$Key KEY_SYMBOL_BLIT -> a
    java.lang.Object VALUE_SYMBOL_BLIT_ON -> a
    java.lang.Object VALUE_SYMBOL_BLIT_OFF -> b
    java.awt.Graphics2D hostGraphics -> a
    double lineWidth -> a
    int resolution -> a
    org.freehep.graphics2d.GenericTagHandler tagHandler -> a
    java.util.Map symbols -> a
    org.freehep.graphics2d.WebColor webColor -> a
    boolean displayX11 -> a
    boolean displayLocal -> b
    void setHostGraphics(java.awt.Graphics) -> a
    void startExport() -> a
    void endExport() -> b
    void clearRect(int,int,int,int) -> clearRect
    void clipRect(int,int,int,int) -> clipRect
    void copyArea(int,int,int,int,int,int) -> copyArea
    java.awt.Graphics create() -> create
    void dispose() -> dispose
    void drawArc(int,int,int,int,int,int) -> drawArc
    boolean drawImage(java.awt.Image,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,int,int,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,int,int,int,int,java.awt.image.ImageObserver) -> drawImage
    void drawLine(int,int,int,int) -> drawLine
    void drawOval(int,int,int,int) -> drawOval
    void drawPolygon(int[],int[],int) -> drawPolygon
    void drawPolygon(java.awt.Polygon) -> drawPolygon
    void drawPolyline(int[],int[],int) -> drawPolyline
    void drawRect(int,int,int,int) -> drawRect
    void drawString(java.lang.String,int,int) -> drawString
    void fillArc(int,int,int,int,int,int) -> fillArc
    void fillOval(int,int,int,int) -> fillOval
    void fillPolygon(int[],int[],int) -> fillPolygon
    void fillPolygon(java.awt.Polygon) -> fillPolygon
    void fillRect(int,int,int,int) -> fillRect
    void setLineWidth(double) -> a
    java.awt.Shape getClip() -> getClip
    java.awt.Rectangle getClipBounds() -> getClipBounds
    java.awt.Rectangle getClipBounds(java.awt.Rectangle) -> getClipBounds
    java.awt.FontMetrics getFontMetrics(java.awt.Font) -> getFontMetrics
    void setClip(int,int,int,int) -> setClip
    void setClip(java.awt.Shape) -> setClip
    void setFont(java.awt.Font) -> setFont
    void setColor(java.awt.Color) -> setColor
    void setPaint(java.awt.Paint) -> setPaint
    void setPaintMode() -> setPaintMode
    void setXORMode(java.awt.Color) -> setXORMode
    void translate(int,int) -> translate
    void addRenderingHints(java.util.Map) -> addRenderingHints
    void clip(java.awt.Shape) -> clip
    void draw(java.awt.Shape) -> draw
    void drawGlyphVector(java.awt.font.GlyphVector,float,float) -> drawGlyphVector
    void drawImage(java.awt.image.BufferedImage,java.awt.image.BufferedImageOp,int,int) -> drawImage
    boolean drawImage(java.awt.Image,java.awt.geom.AffineTransform,java.awt.image.ImageObserver) -> drawImage
    void drawRenderableImage(java.awt.image.renderable.RenderableImage,java.awt.geom.AffineTransform) -> drawRenderableImage
    void drawRenderedImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform) -> drawRenderedImage
    void drawString(java.text.AttributedCharacterIterator,float,float) -> drawString
    void drawString(java.text.AttributedCharacterIterator,int,int) -> drawString
    void drawString(java.lang.String,float,float) -> drawString
    void fill(java.awt.Shape) -> fill
    java.awt.Composite getComposite() -> getComposite
    java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration
    java.awt.font.FontRenderContext getFontRenderContext() -> getFontRenderContext
    java.lang.Object getRenderingHint(java.awt.RenderingHints$Key) -> getRenderingHint
    java.awt.RenderingHints getRenderingHints() -> getRenderingHints
    java.awt.Stroke getStroke() -> getStroke
    java.awt.geom.AffineTransform getTransform() -> getTransform
    boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit
    void rotate(double) -> rotate
    void rotate(double,double,double) -> rotate
    void scale(double,double) -> scale
    void setBackground(java.awt.Color) -> setBackground
    void setComposite(java.awt.Composite) -> setComposite
    void setRenderingHint(java.awt.RenderingHints$Key,java.lang.Object) -> setRenderingHint
    void setRenderingHints(java.util.Map) -> setRenderingHints
    void setStroke(java.awt.Stroke) -> setStroke
    void setTransform(java.awt.geom.AffineTransform) -> setTransform
    void shear(double,double) -> shear
    void transform(java.awt.geom.AffineTransform) -> transform
    void translate(double,double) -> translate
    void clearRect(double,double,double,double) -> f
    void drawString(java.lang.String,double,double) -> a
    java.lang.String toString() -> toString
org.freehep.graphics2d.PixelGraphics2D$SymbolBlitKey -> org.freehep.a.c$a:
    boolean isCompatibleValue(java.lang.Object) -> isCompatibleValue
    java.lang.String toString() -> toString
org.freehep.graphics2d.PrintColor -> org.freehep.a.d:
    java.awt.Color[] defaultColors -> a
    float asGray -> a
    boolean asBlack -> a
    void testColorValueRange(float) -> a
    float getAsGray() -> a
    boolean getAsBlack() -> a
    org.freehep.graphics2d.PrintColor getColor(int) -> a
    org.freehep.graphics2d.PrintColor createPrintColor(java.awt.Color) -> a
    java.awt.Color mixColor(java.awt.Color,java.awt.Color) -> a
    int hashCode() -> hashCode
    boolean equals(java.lang.Object) -> equals
    java.lang.String toString() -> toString
    org.freehep.graphics2d.PrintColor invert(java.awt.Color) -> b
org.freehep.graphics2d.SymbolShape -> org.freehep.a.e:
    double SQRT_2 -> a
    double SQRT_3 -> b
    double[] points -> a
    int[] type -> a
    org.freehep.graphics2d.SymbolShape$ArrayPathIterator pathIterator -> a
    double x -> c
    double y -> d
    double size -> e
    int symbol -> a
    boolean contains(double,double) -> contains
    boolean contains(double,double,double,double) -> contains
    boolean contains(java.awt.geom.Point2D) -> contains
    boolean contains(java.awt.geom.Rectangle2D) -> contains
    boolean intersects(double,double,double,double) -> intersects
    boolean intersects(java.awt.geom.Rectangle2D) -> intersects
    java.awt.geom.PathIterator getPathIterator(java.awt.geom.AffineTransform,double) -> getPathIterator
    java.awt.geom.Rectangle2D getBounds2D() -> getBounds2D
    java.awt.Rectangle getBounds() -> getBounds
    java.awt.geom.PathIterator getPathIterator(java.awt.geom.AffineTransform) -> getPathIterator
    java.lang.String toString() -> toString
    void ensureNumberOfPoints(int) -> a
org.freehep.graphics2d.SymbolShape$ArrayPathIterator -> org.freehep.a.e$a:
    int currentPoint -> a
    double[] points -> a
    int[] type -> a
    int numberOfPoints -> b
    org.freehep.graphics2d.SymbolShape this$0 -> a
    boolean isDone() -> isDone
    void next() -> next
    int currentSegment(double[]) -> currentSegment
    int currentSegment(float[]) -> currentSegment
    int getWindingRule() -> getWindingRule
    void reset() -> a
    double[] access$1(org.freehep.graphics2d.SymbolShape$ArrayPathIterator) -> a
    void access$2(org.freehep.graphics2d.SymbolShape$ArrayPathIterator) -> a
org.freehep.graphics2d.TagHandler -> org.freehep.a.f:
    java.lang.String parse(org.freehep.graphics2d.TagString) -> a
    java.lang.String defaultEntity(java.lang.String) -> d
    java.lang.String entity(java.lang.String) -> e
    java.lang.String openTag(java.lang.String) -> a
    java.lang.String closeTag(java.lang.String) -> b
    java.lang.String text(java.lang.String) -> c
org.freehep.graphics2d.TagString -> org.freehep.a.g:
    java.lang.String string -> a
    int hashCode() -> hashCode
    boolean equals(java.lang.Object) -> equals
    java.lang.String toString() -> toString
org.freehep.graphics2d.VectorGraphics -> org.freehep.a.h:
    java.util.Hashtable symbols -> a
    java.util.Hashtable alignments -> b
    void initProperties(java.util.Properties) -> a
    java.util.Properties getProperties() -> a
    java.awt.Graphics create(int,int,int,int) -> create
    void draw(java.awt.Shape) -> draw
    void drawString(java.text.AttributedCharacterIterator,float,float) -> drawString
    void fill(java.awt.Shape) -> fill
    java.awt.Stroke getStroke() -> getStroke
    void rotate(double) -> rotate
    void setStroke(java.awt.Stroke) -> setStroke
    void translate(double,double) -> translate
    void clearRect(double,double,double,double) -> f
    void drawString(java.lang.String,double,double) -> a
    void endExport() -> b
    void startExport() -> a
org.freehep.graphics2d.WebColor -> org.freehep.a.i:
    org.freehep.graphics2d.WebColor white -> a
    org.freehep.graphics2d.WebColor WHITE -> b
    org.freehep.graphics2d.WebColor lightGray -> c
    org.freehep.graphics2d.WebColor LIGHT_GRAY -> d
    org.freehep.graphics2d.WebColor gray -> e
    org.freehep.graphics2d.WebColor GRAY -> f
    org.freehep.graphics2d.WebColor darkGray -> g
    org.freehep.graphics2d.WebColor DARK_GRAY -> h
    org.freehep.graphics2d.WebColor black -> i
    org.freehep.graphics2d.WebColor BLACK -> j
    org.freehep.graphics2d.WebColor red -> k
    org.freehep.graphics2d.WebColor RED -> l
    org.freehep.graphics2d.WebColor pink -> m
    org.freehep.graphics2d.WebColor PINK -> n
    org.freehep.graphics2d.WebColor orange -> o
    org.freehep.graphics2d.WebColor ORANGE -> p
    org.freehep.graphics2d.WebColor yellow -> q
    org.freehep.graphics2d.WebColor YELLOW -> r
    org.freehep.graphics2d.WebColor green -> s
    org.freehep.graphics2d.WebColor GREEN -> t
    org.freehep.graphics2d.WebColor magenta -> u
    org.freehep.graphics2d.WebColor MAGENTA -> v
    org.freehep.graphics2d.WebColor cyan -> w
    org.freehep.graphics2d.WebColor CYAN -> x
    org.freehep.graphics2d.WebColor blue -> y
    org.freehep.graphics2d.WebColor BLUE -> z
    org.freehep.graphics2d.WebColor create(java.awt.Color) -> a
org.freehep.graphics2d.font.AbstractCharTable -> org.freehep.a.a.a:
    int toEncoding(char) -> a
    java.lang.String toName(char) -> a
org.freehep.graphics2d.font.CharTable -> org.freehep.a.a.b:
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    int toEncoding(char) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.Expert -> org.freehep.a.a.c:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.FontEncoder -> org.freehep.a.a.d:
    java.lang.String getEncodedString(java.lang.String,java.lang.String) -> a
    java.lang.String getEncodedString(java.lang.String,org.freehep.graphics2d.font.CharTable) -> a
org.freehep.graphics2d.font.ISOLatin -> org.freehep.a.a.e:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.Lookup -> org.freehep.a.a.f:
    org.freehep.graphics2d.font.Lookup instance -> a
    org.freehep.graphics2d.font.CharTable[] tables -> a
    int ntables -> a
    org.freehep.graphics2d.font.Lookup getInstance() -> a
    org.freehep.graphics2d.font.CharTable getTable(java.lang.String) -> a
org.freehep.graphics2d.font.MACLatin -> org.freehep.a.a.g:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.PDFLatin -> org.freehep.a.a.h:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.STDLatin -> org.freehep.a.a.i:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.Symbol -> org.freehep.a.a.j:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.WINLatin -> org.freehep.a.a.k:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphics2d.font.Zapfdingbats -> org.freehep.a.a.l:
    java.util.Hashtable unicodeToName -> a
    java.util.Hashtable nameToUnicode -> b
    java.util.Hashtable nameToEnc -> c
    java.lang.String[] encToName -> a
    java.lang.String toName(java.lang.Character) -> a
    java.lang.String toName(int) -> a
    int toEncoding(java.lang.String) -> a
    char toUnicode(java.lang.String) -> a
    java.lang.String getName() -> a
    java.lang.String getEncoding() -> b
org.freehep.graphicsio.AbstractPathConstructor -> org.freehep.graphicsio.a:
    double currentX -> a
    double currentY -> b
    void flush() -> a
    boolean addPath(java.awt.Shape) -> a
    boolean addPath(java.awt.Shape,java.awt.geom.AffineTransform) -> a
    boolean addPath(org.freehep.graphicsio.PathConstructor,java.awt.Shape,java.awt.geom.AffineTransform) -> a
    boolean isEvenOdd(java.awt.Shape) -> b
org.freehep.graphicsio.AbstractVectorGraphicsIO -> org.freehep.graphicsio.b:
    java.lang.String rootKey -> e
    java.lang.String EMIT_WARNINGS -> a
    java.lang.String TEXT_AS_SHAPES -> b
    java.lang.String EMIT_ERRORS -> c
    java.lang.String CLIP -> d
    java.awt.Dimension size -> a
    java.awt.Component component -> a
    boolean doRestoreOnDispose -> a
    java.awt.Rectangle deviceClip -> a
    java.awt.geom.Area userClip -> a
    java.awt.geom.AffineTransform currentTransform -> a
    java.awt.geom.AffineTransform oldTransform -> b
    java.awt.Composite currentComposite -> a
    java.awt.Stroke currentStroke -> a
    java.awt.RenderingHints hints -> a
    java.awt.Dimension getSize() -> a
    java.awt.Component getComponent() -> a
    void startExport() -> a
    void endExport() -> b
    void writeHeader() -> c
    void writeGraphicsState() -> d
    void writeBackground() -> e
    void writeTrailer() -> f
    void closeStream() -> g
    void resetClip(java.awt.Rectangle) -> a
    void dispose() -> dispose
    void writeGraphicsSave() -> h
    void writeGraphicsRestore() -> i
    boolean drawImage(java.awt.Image,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,int,int,int,int,int,int,int,int,java.awt.image.ImageObserver) -> drawImage
    boolean drawImage(java.awt.Image,java.awt.geom.AffineTransform,java.awt.image.ImageObserver) -> drawImage
    void drawImage(java.awt.image.BufferedImage,java.awt.image.BufferedImageOp,int,int) -> drawImage
    void drawRenderableImage(java.awt.image.renderable.RenderableImage,java.awt.geom.AffineTransform) -> drawRenderableImage
    boolean drawImage(java.awt.Image,int,int,int,int,int,int,int,int,java.awt.Color,java.awt.image.ImageObserver) -> drawImage
    void drawRenderedImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform) -> drawRenderedImage
    void writeImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform,java.awt.Color) -> a
    void clearRect(double,double,double,double) -> f
    void drawString(java.lang.String,double,double) -> a
    void writeString(java.lang.String,double,double) -> b
    void drawGlyphVector(java.awt.font.GlyphVector,float,float) -> drawGlyphVector
    void drawString(java.text.AttributedCharacterIterator,float,float) -> drawString
    java.awt.geom.AffineTransform getTransform() -> getTransform
    void setTransform(java.awt.geom.AffineTransform) -> setTransform
    void transform(java.awt.geom.AffineTransform) -> transform
    void translate(double,double) -> translate
    void rotate(double) -> rotate
    void scale(double,double) -> scale
    void shear(double,double) -> shear
    void writeTransform(java.awt.geom.AffineTransform) -> a
    void writeSetTransform(java.awt.geom.AffineTransform) -> b
    java.awt.Shape getClip() -> getClip
    java.awt.Rectangle getClipBounds() -> getClipBounds
    java.awt.Rectangle getClipBounds(java.awt.Rectangle) -> getClipBounds
    void clipRect(int,int,int,int) -> clipRect
    void setClip(int,int,int,int) -> setClip
    void setClip(java.awt.Shape) -> setClip
    void clip(java.awt.Shape) -> clip
    void writeClip(java.awt.Shape) -> a
    void writeSetClip(java.awt.Shape) -> b
    java.awt.Stroke getStroke() -> getStroke
    void setStroke(java.awt.Stroke) -> setStroke
    void writeStroke(java.awt.Stroke) -> a
    void writeWidth(float) -> a
    void writeCap(int) -> a
    void writeJoin(int) -> b
    void writeMiterLimit(float) -> b
    void writeDash(float[],float) -> a
    void writeDash(double[],double) -> a
    void setColor(java.awt.Color) -> setColor
    void setPaint(java.awt.Paint) -> setPaint
    void writePaint(java.awt.Color) -> a
    void writePaint(java.awt.GradientPaint) -> a
    void writePaint(java.awt.TexturePaint) -> a
    void writePaint(java.awt.Paint) -> a
    java.awt.font.FontRenderContext getFontRenderContext() -> getFontRenderContext
    java.awt.FontMetrics getFontMetrics(java.awt.Font) -> getFontMetrics
    java.awt.RenderingHints getRenderingHints() -> getRenderingHints
    void addRenderingHints(java.util.Map) -> addRenderingHints
    void setRenderingHints(java.util.Map) -> setRenderingHints
    java.lang.Object getRenderingHint(java.awt.RenderingHints$Key) -> getRenderingHint
    void setRenderingHint(java.awt.RenderingHints$Key,java.lang.Object) -> setRenderingHint
    void setFont(java.awt.Font) -> setFont
    void writeFont(java.awt.Font) -> a
    java.awt.Composite getComposite() -> getComposite
    void setComposite(java.awt.Composite) -> setComposite
    void handleException(java.lang.Exception) -> a
    void writeWarning(java.lang.Exception) -> b
    void writeWarning(java.lang.String) -> c
    void writeError(java.lang.Exception) -> c
    java.awt.Shape transformShape(java.awt.geom.AffineTransform,java.awt.Shape) -> a
    java.awt.Shape transformShape(java.awt.Shape) -> a
    java.awt.Shape untransformShape(java.awt.Shape) -> b
org.freehep.graphicsio.ImageGraphics2D -> org.freehep.graphicsio.c:
    java.lang.String[] alwaysCompressedFormats -> a
    java.lang.String[] nonTransparentFormats -> b
    java.util.Map defaultProperties -> a
    java.io.OutputStream os -> a
    java.awt.image.BufferedImage image -> a
    java.lang.String format -> a
    java.awt.font.FontRenderContext getFontRenderContext() -> getFontRenderContext
    void setHintsOnGraphics() -> e
    java.awt.Graphics create() -> create
    void startExport() -> a
    void endExport() -> b
    void write() -> c
    void closeStream() -> d
    void handleException(java.lang.Exception) -> a
    java.awt.image.BufferedImage generateThumbnail(java.awt.Component,java.awt.Dimension) -> a
    void writeImage(java.awt.image.RenderedImage,java.lang.String,java.util.Properties,java.io.OutputStream) -> a
    javax.imageio.ImageWriter getPreferredImageWriter(java.lang.String) -> a
    java.util.SortedSet getImageWriters(java.util.Iterator) -> a
    boolean canWriteUncompressed(java.lang.String) -> b
org.freehep.graphicsio.ImageGraphics2D$1 -> org.freehep.graphicsio.d:
    int order(java.lang.Object) -> a
    int compare(java.lang.Object,java.lang.Object) -> compare
org.freehep.graphicsio.ImageParamConverter -> org.freehep.graphicsio.e:
    javax.imageio.ImageWriteParam getWriteParam(java.util.Properties) -> a
org.freehep.graphicsio.MultiPageDocument -> org.freehep.graphicsio.f:
org.freehep.graphicsio.PageConstants -> org.freehep.graphicsio.g:
    java.util.Map sizeTable -> a
    java.util.Map marginTable -> b
    java.awt.Dimension getSize(java.lang.String,java.lang.String) -> a
    java.awt.Insets getMargins(java.lang.String) -> a
    java.awt.Insets getMargins(java.awt.Insets,java.lang.String) -> a
org.freehep.graphicsio.PathConstructor -> org.freehep.graphicsio.h:
    void move(double,double) -> a
    void line(double,double) -> b
    void quad(double,double,double,double) -> a
    void cubic(double,double,double,double,double,double) -> a
    void closePath(double,double) -> c
    void flush() -> a
org.freehep.graphicsio.QuadToCubicPathConstructor -> org.freehep.graphicsio.i:
    void move(double,double) -> a
    void line(double,double) -> b
    void quad(double,double,double,double) -> a
    void cubic(double,double,double,double,double,double) -> a
    void closePath(double,double) -> c
org.freehep.graphicsio.VectorGraphicsIO -> org.freehep.graphicsio.j:
org.freehep.graphicsio.emf.EMFGraphics2D -> org.freehep.graphicsio.a.a:
    org.freehep.graphicsio.emf.EMFHandleManager handleManager -> a
    int penHandle -> a
    int brushHandle -> b
    java.awt.Rectangle imageBounds -> a
    java.io.OutputStream ros -> a
    org.freehep.graphicsio.emf.EMFOutputStream os -> a
    java.awt.Color textColor -> b
    java.awt.Color penColor -> c
    java.awt.Color brushColor -> d
    java.util.Map fontTable -> a
    java.util.Map unitFontTable -> b
    org.freehep.graphicsio.emf.EMFPathConstructor pathConstructor -> a
    boolean evenOdd -> a
    java.awt.Rectangle dummy -> b
    java.lang.String rootKey -> h
    java.lang.String TRANSPARENT -> e
    java.lang.String BACKGROUND -> f
    java.lang.String BACKGROUND_COLOR -> g
    org.freehep.util.UserProperties defaultProperties -> a
    java.awt.Point[] points -> a
    java.awt.Color invisible -> a
    java.util.Properties replaceFonts -> a
    void init(java.io.OutputStream) -> a
    void writeHeader() -> c
    void writeGraphicsState() -> d
    void writeBackground() -> e
    void writeTrailer() -> f
    void closeStream() -> g
    java.awt.Graphics create() -> create
    void writeGraphicsSave() -> h
    void writeGraphicsRestore() -> i
    void draw(java.awt.Shape) -> draw
    void fill(java.awt.Shape) -> fill
    void copyArea(int,int,int,int,int,int) -> copyArea
    void writeImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform,java.awt.Color) -> a
    void writeString(java.lang.String,double,double) -> b
    void writeTransform(java.awt.geom.AffineTransform) -> a
    void writeSetTransform(java.awt.geom.AffineTransform) -> b
    void writeSetClip(java.awt.Shape) -> b
    void writeClip(java.awt.Shape) -> a
    void writeStroke(java.awt.Stroke) -> a
    void setPaintMode() -> setPaintMode
    void setXORMode(java.awt.Color) -> setXORMode
    void writePaint(java.awt.Color) -> a
    void writePaint(java.awt.GradientPaint) -> a
    void writePaint(java.awt.TexturePaint) -> a
    void writePaint(java.awt.Paint) -> a
    void writeFont(java.awt.Font) -> a
    java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration
    boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit
    java.lang.String toString() -> toString
    boolean writePath(java.awt.Shape) -> a
    void writePen(java.awt.BasicStroke,java.awt.Color) -> a
    void writeBrush(java.awt.Color) -> b
    int toUnit(double) -> a
org.freehep.graphicsio.emf.EMFHandleManager -> org.freehep.graphicsio.a.b:
    java.util.BitSet handles -> a
    int maxHandle -> a
    int getHandle() -> a
    int freeHandle(int) -> a
    int nextClearBit() -> d
    int highestHandleInUse() -> b
    int maxHandlesUsed() -> c
org.freehep.graphicsio.emf.EMFHeader -> org.freehep.graphicsio.a.c:
    java.awt.Dimension screenMM -> a
    int type -> a
    java.awt.Rectangle bounds -> a
    java.awt.Rectangle frame -> b
    java.lang.String signature -> a
    int versionMajor -> b
    int versionMinor -> c
    int bytes -> d
    int records -> e
    int handles -> f
    java.lang.String description -> b
    int palEntries -> g
    java.awt.Dimension device -> b
    java.awt.Dimension millimeters -> c
    java.awt.Dimension micrometers -> d
    boolean openGL -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    int size() -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.EMFInputStream -> org.freehep.graphicsio.a.d:
    int DEFAULT_VERSION -> a
    int readDWORD() -> a
    int[] readDWORD(int) -> a
    int readWORD() -> b
    int readLONG() -> c
    float readFLOAT() -> a
    int readUINT() -> d
    int readULONG() -> e
    java.awt.Color readCOLORREF() -> a
    java.awt.Color readCOLOR16() -> b
    java.awt.Color readCOLOR() -> c
    java.awt.geom.AffineTransform readXFORM() -> a
    java.awt.Rectangle readRECTL() -> a
    java.awt.Point readPOINTL() -> a
    java.awt.Point[] readPOINTL(int) -> a
    java.awt.Point readPOINTS() -> b
    java.awt.Point[] readPOINTS(int) -> b
    java.awt.Dimension readSIZEL() -> a
    int readBYTE() -> f
    byte[] readBYTE(int) -> a
    boolean readBOOLEAN() -> a
    java.lang.String readWCHAR(int) -> a
    org.freehep.util.io.TagHeader readTagHeader() -> a
org.freehep.graphicsio.emf.EMFOutputStream -> org.freehep.graphicsio.a.e:
    java.lang.String application -> a
    java.lang.String name -> b
    int recordCount -> b
    java.awt.Rectangle imageBounds -> a
    int version -> c
    org.freehep.graphicsio.emf.EMFHandleManager handles -> a
    java.awt.Dimension device -> a
    void close() -> close
    void writeDWORD(int) -> a
    void writeDWORD(int[]) -> a
    void writeWORD(int) -> b
    void writeFLOAT(float) -> a
    void writeCOLORREF(java.awt.Color) -> a
    void writeCOLOR16(java.awt.Color) -> b
    void writeCOLOR(java.awt.Color) -> c
    void writeXFORM(java.awt.geom.AffineTransform) -> a
    void writePOINTS(java.awt.Point[]) -> a
    void writePOINTS(int,java.awt.Point[]) -> a
    void writePOINTS(java.awt.Point) -> a
    void writePOINTL(java.awt.Point[]) -> b
    void writePOINTL(int,java.awt.Point[]) -> b
    void writePOINTL(java.awt.Point) -> b
    void writeRECTL(java.awt.Rectangle) -> a
    void writeSIZEL(java.awt.Dimension) -> a
    void writeUINT(int) -> c
    void writeULONG(int) -> d
    void writeLONG(int) -> e
    void writeSHORT(short) -> a
    void writeBYTE(byte[]) -> a
    void writeBYTE(int) -> f
    void writeBYTE(boolean) -> a
    void writeDWORD(boolean) -> b
    void writeWCHAR(java.lang.String) -> a
    void writeWCHAR(java.lang.String,int) -> a
    int getTagAlignment() -> a
    org.freehep.util.io.TagHeader createTagHeader(org.freehep.util.io.Tag,long) -> a
    void writeTagHeader(org.freehep.util.io.TagHeader) -> a
    void writeTag(org.freehep.util.io.Tag) -> a
    void writeTag(org.freehep.util.io.Tag,boolean) -> a
    void writeHeader(org.freehep.graphicsio.emf.EMFHeader) -> a
    int getVersion() -> b
org.freehep.graphicsio.emf.EMFPathConstructor -> org.freehep.graphicsio.a.f:
    org.freehep.graphicsio.emf.EMFOutputStream os -> a
    java.awt.Rectangle imageBounds -> a
    boolean curved -> a
    int pointIndex -> a
    boolean wide -> b
    java.awt.Point[] points -> a
    void move(double,double) -> a
    void addPoint(int,double,double) -> a
    void line(double,double) -> b
    void cubic(double,double,double,double,double,double) -> a
    void closePath(double,double) -> c
    void flush() -> a
    int toUnit(double) -> a
org.freehep.graphicsio.emf.EMFPlusGraphics2D -> org.freehep.graphicsio.a.g:
    java.io.OutputStream ros -> a
    org.freehep.graphicsio.emf.EMFOutputStream os -> a
    java.awt.Rectangle imageBounds -> a
    org.freehep.graphicsio.emf.EMFHandleManager handleManager -> a
    org.freehep.util.Value containerIndex -> a
    java.awt.Paint restorePaint -> a
    java.lang.String rootKey -> h
    java.lang.String TRANSPARENT -> e
    java.lang.String BACKGROUND -> f
    java.lang.String BACKGROUND_COLOR -> g
    org.freehep.util.UserProperties defaultProperties -> a
    java.awt.font.FontRenderContext getFontRenderContext() -> getFontRenderContext
    void init(java.io.OutputStream) -> a
    void writeHeader() -> c
    void writeBackground() -> e
    void writeTrailer() -> f
    void closeStream() -> g
    java.awt.Graphics create() -> create
    void writeGraphicsSave() -> h
    void writeGraphicsRestore() -> i
    void draw(java.awt.Shape) -> draw
    void fill(java.awt.Shape) -> fill
    void copyArea(int,int,int,int,int,int) -> copyArea
    void writeImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform,java.awt.Color) -> a
    void writeString(java.lang.String,double,double) -> b
    void writeTransform(java.awt.geom.AffineTransform) -> a
    void writeSetTransform(java.awt.geom.AffineTransform) -> b
    void writeClip(java.awt.Shape) -> a
    void writeSetClip(java.awt.Shape) -> b
    void writeWidth(float) -> a
    void writeCap(int) -> a
    void writeJoin(int) -> b
    void writeMiterLimit(float) -> b
    void writeDash(float[],float) -> a
    void setPaintMode() -> setPaintMode
    void setXORMode(java.awt.Color) -> setXORMode
    void writePaint(java.awt.Color) -> a
    void writePaint(java.awt.GradientPaint) -> a
    void writePaint(java.awt.TexturePaint) -> a
    void writePaint(java.awt.Paint) -> a
    void writeFont(java.awt.Font) -> a
    java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration
    boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit
    void writeWarning(java.lang.String) -> c
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.EMFTag -> org.freehep.graphicsio.a.h:
    int flags -> a
    org.freehep.util.io.Tag read(int,org.freehep.util.io.TaggedInputStream,int) -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.util.io.TaggedOutputStream) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    int getFlags() -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.EMFTagHeader -> org.freehep.graphicsio.a.i:
    int flags -> b
    int getFlags() -> a
org.freehep.graphicsio.emf.EMFTagSet -> org.freehep.graphicsio.a.j:
org.freehep.graphicsio.emf.gdi.AbortPath -> org.freehep.graphicsio.a.a.a:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.AlphaBlend -> org.freehep.graphicsio.a.a.b:
    java.awt.Rectangle bounds -> a
    int x -> b
    int y -> c
    int width -> d
    int height -> e
    org.freehep.graphicsio.emf.gdi.BlendFunction dwROP -> a
    int xSrc -> f
    int ySrc -> g
    java.awt.geom.AffineTransform transform -> a
    java.awt.Color bkg -> a
    int usage -> h
    org.freehep.graphicsio.emf.gdi.BitmapInfo bmi -> a
    java.awt.image.RenderedImage image -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.AngleArc -> org.freehep.graphicsio.a.a.c:
    java.awt.Point center -> a
    int radius -> b
    float startAngle -> a
    float sweepAngle -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Arc -> org.freehep.graphicsio.a.a.d:
    java.awt.Rectangle bounds -> a
    java.awt.Point start -> a
    java.awt.Point end -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ArcTo -> org.freehep.graphicsio.a.a.e:
    java.awt.Rectangle bounds -> a
    java.awt.Point start -> a
    java.awt.Point end -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.BeginPath -> org.freehep.graphicsio.a.a.f:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.BitBlt -> org.freehep.graphicsio.a.a.g:
    java.awt.Rectangle bounds -> a
    int x -> b
    int y -> c
    int width -> d
    int height -> e
    int dwROP -> f
    int xSrc -> g
    int ySrc -> h
    java.awt.geom.AffineTransform transform -> a
    java.awt.Color bkg -> a
    int usage -> i
    org.freehep.graphicsio.emf.gdi.BitmapInfo bmi -> a
    java.awt.image.RenderedImage image -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.BitmapInfo -> org.freehep.graphicsio.a.a.h:
    org.freehep.graphicsio.emf.gdi.BitmapInfoHeader header -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.BitmapInfoHeader -> org.freehep.graphicsio.a.a.i:
    int width -> a
    int height -> b
    int planes -> c
    int bitCount -> d
    int compression -> e
    int sizeImage -> f
    int xPelsPerMeter -> g
    int yPelsPerMeter -> h
    int clrUsed -> i
    int clrImportant -> j
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.BlendFunction -> org.freehep.graphicsio.a.a.j:
    int blendOp -> a
    int blendFlags -> b
    int sourceConstantAlpha -> c
    int alphaFormat -> d
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Chord -> org.freehep.graphicsio.a.a.k:
    java.awt.Rectangle bounds -> a
    java.awt.Point start -> a
    java.awt.Point end -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.CloseFigure -> org.freehep.graphicsio.a.a.l:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.CreateBrushIndirect -> org.freehep.graphicsio.a.a.m:
    int index -> b
    org.freehep.graphicsio.emf.gdi.LogBrush32 brush -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.CreatePen -> org.freehep.graphicsio.a.a.n:
    int index -> b
    org.freehep.graphicsio.emf.gdi.LogPen pen -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.DeleteObject -> org.freehep.graphicsio.a.a.o:
    int index -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.EMFPolygon -> org.freehep.graphicsio.a.a.p:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.EMFRectangle -> org.freehep.graphicsio.a.a.q:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.EOF -> org.freehep.graphicsio.a.a.r:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdi.Ellipse -> org.freehep.graphicsio.a.a.s:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.EndPath -> org.freehep.graphicsio.a.a.t:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.ExcludeClipRect -> org.freehep.graphicsio.a.a.u:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtCreateFontIndirectW -> org.freehep.graphicsio.a.a.v:
    int index -> b
    org.freehep.graphicsio.emf.gdi.ExtLogFontW font -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtCreatePen -> org.freehep.graphicsio.a.a.w:
    int index -> b
    org.freehep.graphicsio.emf.gdi.ExtLogPen pen -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtFloodFill -> org.freehep.graphicsio.a.a.x:
    java.awt.Point start -> a
    java.awt.Color color -> a
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtLogFontW -> org.freehep.graphicsio.a.a.y:
    org.freehep.graphicsio.emf.gdi.LogFontW font -> a
    java.lang.String fullName -> a
    java.lang.String style -> b
    int version -> a
    int styleSize -> b
    int match -> c
    byte[] vendorID -> a
    int culture -> d
    org.freehep.graphicsio.emf.gdi.Panose panose -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtLogPen -> org.freehep.graphicsio.a.a.z:
    int penStyle -> a
    int width -> b
    int brushStyle -> c
    java.awt.Color color -> a
    int hatch -> d
    int[] style -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtSelectClipRgn -> org.freehep.graphicsio.a.a.A:
    int mode -> b
    org.freehep.graphicsio.emf.gdi.Region rgn -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtTextOutA -> org.freehep.graphicsio.a.a.B:
    java.awt.Rectangle bounds -> a
    int mode -> b
    float xScale -> a
    float yScale -> b
    org.freehep.graphicsio.emf.gdi.Text text -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ExtTextOutW -> org.freehep.graphicsio.a.a.C:
    java.awt.Rectangle bounds -> a
    int mode -> b
    float xScale -> a
    float yScale -> b
    org.freehep.graphicsio.emf.gdi.TextW text -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.FillPath -> org.freehep.graphicsio.a.a.D:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.FlattenPath -> org.freehep.graphicsio.a.a.E:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.GDIComment -> org.freehep.graphicsio.a.a.F:
    byte[] bytes -> a
    org.freehep.graphicsio.emf.EMFTag tag -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Gradient -> org.freehep.graphicsio.a.a.G:
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdi.GradientFill -> org.freehep.graphicsio.a.a.H:
    java.awt.Rectangle bounds -> a
    int mode -> b
    org.freehep.graphicsio.emf.gdi.TriVertex[] vertices -> a
    org.freehep.graphicsio.emf.gdi.Gradient[] gradients -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.GradientRectangle -> org.freehep.graphicsio.a.a.I:
    int upperLeft -> a
    int lowerRight -> b
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.GradientTriangle -> org.freehep.graphicsio.a.a.J:
    int vertex1 -> a
    int vertex2 -> b
    int vertex3 -> c
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.IntersectClipRect -> org.freehep.graphicsio.a.a.K:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.LineTo -> org.freehep.graphicsio.a.a.L:
    java.awt.Point point -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.LogBrush32 -> org.freehep.graphicsio.a.a.M:
    int style -> a
    java.awt.Color color -> a
    int hatch -> b
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.LogFontW -> org.freehep.graphicsio.a.a.N:
    int height -> a
    int width -> b
    int escapement -> c
    int orientation -> d
    int weight -> e
    boolean italic -> a
    boolean underline -> b
    boolean strikeout -> c
    int charSet -> f
    int outPrecision -> g
    int clipPrecision -> h
    int quality -> i
    int pitchAndFamily -> j
    java.lang.String faceFamily -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.LogPen -> org.freehep.graphicsio.a.a.O:
    int penStyle -> a
    int width -> b
    java.awt.Color color -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ModifyWorldTransform -> org.freehep.graphicsio.a.a.P:
    java.awt.geom.AffineTransform transform -> a
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.MoveToEx -> org.freehep.graphicsio.a.a.Q:
    java.awt.Point point -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.OffsetClipRgn -> org.freehep.graphicsio.a.a.R:
    java.awt.Point offset -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Panose -> org.freehep.graphicsio.a.a.S:
    int familyType -> a
    int serifStyle -> b
    int weight -> c
    int proportion -> d
    int contrast -> e
    int strokeVariation -> f
    int armStyle -> g
    int letterForm -> h
    int midLine -> i
    int xHeight -> j
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Pie -> org.freehep.graphicsio.a.a.T:
    java.awt.Rectangle bounds -> a
    java.awt.Point start -> a
    java.awt.Point end -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyBezier -> org.freehep.graphicsio.a.a.U:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyBezier16 -> org.freehep.graphicsio.a.a.V:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyBezierTo -> org.freehep.graphicsio.a.a.W:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyBezierTo16 -> org.freehep.graphicsio.a.a.X:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyDraw -> org.freehep.graphicsio.a.a.Y:
    java.awt.Rectangle bounds -> a
    java.awt.Point[] points -> a
    byte[] types -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyDraw16 -> org.freehep.graphicsio.a.a.Z:
    java.awt.Rectangle bounds -> a
    java.awt.Point[] points -> a
    byte[] types -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyPolygon -> org.freehep.graphicsio.a.a.aa:
    java.awt.Rectangle bounds -> a
    int start -> b
    int end -> c
    int[] numberOfPoints -> a
    java.awt.Point[][] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyPolygon16 -> org.freehep.graphicsio.a.a.ab:
    java.awt.Rectangle bounds -> a
    int numberOfPolys -> b
    int[] numberOfPoints -> a
    java.awt.Point[][] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyPolyline -> org.freehep.graphicsio.a.a.ac:
    java.awt.Rectangle bounds -> a
    int start -> b
    int end -> c
    int[] numberOfPoints -> a
    java.awt.Point[][] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolyPolyline16 -> org.freehep.graphicsio.a.a.ad:
    java.awt.Rectangle bounds -> a
    int numberOfPolys -> b
    int[] numberOfPoints -> a
    java.awt.Point[][] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Polygon16 -> org.freehep.graphicsio.a.a.ae:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Polyline -> org.freehep.graphicsio.a.a.af:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Polyline16 -> org.freehep.graphicsio.a.a.ag:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolylineTo -> org.freehep.graphicsio.a.a.ah:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.PolylineTo16 -> org.freehep.graphicsio.a.a.ai:
    java.awt.Rectangle bounds -> a
    int numberOfPoints -> b
    java.awt.Point[] points -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.RealizePalette -> org.freehep.graphicsio.a.a.aj:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.Region -> org.freehep.graphicsio.a.a.ak:
    java.awt.Rectangle bounds -> a
    java.awt.Rectangle region -> b
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    int length() -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ResizePalette -> org.freehep.graphicsio.a.a.al:
    int index -> b
    int entries -> c
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.RestoreDC -> org.freehep.graphicsio.a.a.am:
    int savedDC -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.RoundRect -> org.freehep.graphicsio.a.a.an:
    java.awt.Rectangle bounds -> a
    java.awt.Dimension corner -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SaveDC -> org.freehep.graphicsio.a.a.ao:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.ScaleViewportExtEx -> org.freehep.graphicsio.a.a.ap:
    int xNum -> b
    int xDenom -> c
    int yNum -> d
    int yDenom -> e
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.ScaleWindowExtEx -> org.freehep.graphicsio.a.a.aq:
    int xNum -> b
    int xDenom -> c
    int yNum -> d
    int yDenom -> e
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SelectClipPath -> org.freehep.graphicsio.a.a.ar:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SelectObject -> org.freehep.graphicsio.a.a.as:
    int index -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SelectPalette -> org.freehep.graphicsio.a.a.at:
    int index -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetArcDirection -> org.freehep.graphicsio.a.a.au:
    int direction -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetBkColor -> org.freehep.graphicsio.a.a.av:
    java.awt.Color color -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetBkMode -> org.freehep.graphicsio.a.a.aw:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetBrushOrgEx -> org.freehep.graphicsio.a.a.ax:
    java.awt.Point point -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetICMMode -> org.freehep.graphicsio.a.a.ay:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetMapMode -> org.freehep.graphicsio.a.a.az:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetMapperFlags -> org.freehep.graphicsio.a.a.aA:
    int flags -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetMetaRgn -> org.freehep.graphicsio.a.a.aB:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdi.SetMiterLimit -> org.freehep.graphicsio.a.a.aC:
    int limit -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetPixelV -> org.freehep.graphicsio.a.a.aD:
    java.awt.Point point -> a
    java.awt.Color color -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetPolyFillMode -> org.freehep.graphicsio.a.a.aE:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetROP2 -> org.freehep.graphicsio.a.a.aF:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetStretchBltMode -> org.freehep.graphicsio.a.a.aG:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetTextAlign -> org.freehep.graphicsio.a.a.aH:
    int mode -> b
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetTextColor -> org.freehep.graphicsio.a.a.aI:
    java.awt.Color color -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetViewportExtEx -> org.freehep.graphicsio.a.a.aJ:
    java.awt.Dimension size -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetViewportOrgEx -> org.freehep.graphicsio.a.a.aK:
    java.awt.Point point -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetWindowExtEx -> org.freehep.graphicsio.a.a.aL:
    java.awt.Dimension size -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetWindowOrgEx -> org.freehep.graphicsio.a.a.aM:
    java.awt.Point point -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.SetWorldTransform -> org.freehep.graphicsio.a.a.aN:
    java.awt.geom.AffineTransform transform -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.StretchDIBits -> org.freehep.graphicsio.a.a.aO:
    java.awt.Rectangle bounds -> a
    int x -> b
    int y -> c
    int width -> d
    int height -> e
    int xSrc -> f
    int ySrc -> g
    int widthSrc -> h
    int heightSrc -> i
    int usage -> j
    int dwROP -> k
    java.awt.Color bkg -> a
    org.freehep.graphicsio.emf.gdi.BitmapInfo bmi -> a
    java.awt.image.RenderedImage image -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.StrokeAndFillPath -> org.freehep.graphicsio.a.a.aP:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.StrokePath -> org.freehep.graphicsio.a.a.aQ:
    java.awt.Rectangle bounds -> a
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.Text -> org.freehep.graphicsio.a.a.aR:
    java.awt.Point pos -> a
    java.lang.String string -> a
    int options -> a
    int[] widths -> a
    java.awt.Rectangle bounds -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.TextW -> org.freehep.graphicsio.a.a.aS:
    java.awt.Point pos -> a
    java.lang.String string -> a
    int options -> a
    int[] widths -> a
    java.awt.Rectangle bounds -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.TriVertex -> org.freehep.graphicsio.a.a.aT:
    int x -> a
    int y -> b
    java.awt.Color color -> a
    void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdi.WidenPath -> org.freehep.graphicsio.a.a.aU:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
org.freehep.graphicsio.emf.gdiplus.Clear -> org.freehep.graphicsio.a.b.a:
    java.awt.Color color -> a
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.DrawEllipse -> org.freehep.graphicsio.a.b.b:
    float x -> a
    float y -> b
    float w -> c
    float h -> d
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.DrawImage -> org.freehep.graphicsio.a.b.c:
    java.awt.image.RenderedImage image -> a
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.DrawLines -> org.freehep.graphicsio.a.b.d:
    float[] x -> a
    float[] y -> b
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.DrawPath -> org.freehep.graphicsio.a.b.e:
    int penIndex -> b
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.EMFPlusPathConstructor -> org.freehep.graphicsio.a.b.f:
    java.util.List path -> a
    void move(double,double) -> a
    void line(double,double) -> b
    void cubic(double,double,double,double,double,double) -> a
    void closePath(double,double) -> c
    void reset() -> b
    org.freehep.graphicsio.emf.gdiplus.PathPoint[] getPath() -> a
org.freehep.graphicsio.emf.gdiplus.EMFPlusTag -> org.freehep.graphicsio.a.b.g:
    org.freehep.graphicsio.emf.EMFTag read(int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.EndOfFile -> org.freehep.graphicsio.a.b.h:
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.FillEllipse -> org.freehep.graphicsio.a.b.i:
    int brushIndex -> b
    java.awt.Color brushColor -> a
    float x -> a
    float y -> b
    float w -> c
    float h -> d
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.FillPath -> org.freehep.graphicsio.a.b.j:
    java.awt.Color brushColor -> a
    int brushIndex -> b
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.GDIPlusObject -> org.freehep.graphicsio.a.b.k:
    java.awt.Paint brush -> a
    java.awt.BasicStroke stroke -> a
    org.freehep.graphicsio.emf.gdiplus.PathPoint[] path -> a
    int pathFillMode -> b
    java.awt.image.RenderedImage image -> a
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
    java.awt.Paint readBrush(org.freehep.graphicsio.emf.EMFInputStream) -> a
    void writeBrush(org.freehep.graphicsio.emf.EMFOutputStream,java.awt.Paint) -> a
    void writeTransform(org.freehep.graphicsio.emf.EMFOutputStream,java.awt.geom.AffineTransform) -> a
    void writeImage(org.freehep.graphicsio.emf.EMFOutputStream,java.awt.image.RenderedImage) -> a
org.freehep.graphicsio.emf.gdiplus.Header -> org.freehep.graphicsio.a.b.l:
    int hDpi -> b
    int vDpi -> c
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.MultiplyWorldTransform -> org.freehep.graphicsio.a.b.m:
    java.awt.geom.AffineTransform transform -> a
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.PathPoint -> org.freehep.graphicsio.a.b.n:
    float x -> a
    float y -> b
    int type -> a
    void setType(int) -> a
    int getType() -> a
    void setX(float) -> a
    float getX() -> a
    void setY(float) -> b
    float getY() -> b
org.freehep.graphicsio.emf.gdiplus.ResetClip -> org.freehep.graphicsio.a.b.o:
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.Restore -> org.freehep.graphicsio.a.b.p:
    int containerIndex -> b
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.Save -> org.freehep.graphicsio.a.b.q:
    int containerIndex -> b
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.emf.gdiplus.SetAntiAliasMode -> org.freehep.graphicsio.a.b.r:
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.SetClipPath -> org.freehep.graphicsio.a.b.s:
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
org.freehep.graphicsio.emf.gdiplus.SetWorldTransform -> org.freehep.graphicsio.a.b.t:
    java.awt.geom.AffineTransform transform -> a
    org.freehep.graphicsio.emf.gdiplus.EMFPlusTag read(int,int,org.freehep.graphicsio.emf.EMFInputStream,int) -> a
    void write(int,int,org.freehep.graphicsio.emf.EMFOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.graphicsio.font.CharstringEncoder -> org.freehep.graphicsio.b.a:
    java.io.OutputStream out -> a
    int currentX -> a
    int currentY -> b
    int writeNumber(double) -> a
    void writeNumber(int) -> b
    void writeCommand(int) -> a
    void writePoint(double,double) -> e
    void writeX(double) -> a
    void writeY(double) -> b
    void startChar(double,double) -> d
    void endchar() -> b
    int to(double,double) -> a
    void move(double,double) -> a
    void line(double,double) -> b
    void cubic(double,double,double,double,double,double) -> a
    void closePath(double,double) -> c
    void drawPath(java.awt.Shape) -> a
org.freehep.graphicsio.font.FontEmbedder -> org.freehep.graphicsio.b.b:
    double[] widths -> a
    java.awt.font.GlyphVector glyphs -> a
    java.awt.Font font -> a
    void writeGlyph(java.lang.String,java.awt.Shape,java.awt.font.GlyphMetrics) -> a
    void writeWidths(double[]) -> a
    void openGlyphs() -> a
    void closeGlyphs() -> b
    void closeEmbedFont() -> c
    double[] getAdvanceWidths() -> a
    java.awt.Shape getGlyph(int) -> a
    java.awt.font.GlyphMetrics getGlyphMetrics(int) -> a
    void includeFont(java.awt.Font,org.freehep.graphics2d.font.CharTable,java.lang.String) -> a
    java.awt.Shape createUndefined() -> a
org.freehep.graphicsio.font.FontEmbedderType1 -> org.freehep.graphicsio.b.c:
    java.io.PrintStream fontFile -> a
    java.io.PrintStream encrypted -> b
    org.freehep.util.io.CountedByteOutputStream byteCounter -> a
    int asciiEnd -> a
    int encEnd -> b
    boolean addZeros -> a
    void writeWidths(double[]) -> a
    void writeEncoding(org.freehep.graphics2d.font.CharTable) -> a
    void openIncludeFont() -> d
    void closeIncludeFont() -> e
    void openGlyphs() -> a
    void closeGlyphs() -> b
    void closeEmbedFont() -> c
    void writeGlyph(java.lang.String,java.awt.Shape,java.awt.font.GlyphMetrics) -> a
    int getAsciiLength() -> a
    int getEncryptedLength() -> b
org.freehep.graphicsio.font.FontIncluder -> org.freehep.graphicsio.b.d:
    java.awt.font.FontRenderContext context -> a
    java.awt.geom.Rectangle2D fontBBox -> a
    java.awt.Font font -> a
    java.lang.String fontName -> a
    org.freehep.graphics2d.font.CharTable charTable -> a
    char[] unicode -> a
    java.lang.String[] charName -> a
    int noDefinedChars -> a
    void openIncludeFont() -> d
    void writeEncoding(org.freehep.graphics2d.font.CharTable) -> a
    void closeIncludeFont() -> e
    java.awt.font.FontRenderContext getContext() -> a
    java.lang.String getFontName() -> a
    java.awt.Font getFont() -> a
    org.freehep.graphics2d.font.CharTable getEncodingTable() -> a
    java.awt.geom.Rectangle2D getFontBBox() -> a
    java.lang.String getCharName(int) -> a
    char getUnicode(int) -> a
    char[] getUnicode() -> a
    int getNODefinedChars() -> c
    void includeFont(java.awt.Font,org.freehep.graphics2d.font.CharTable,java.lang.String) -> a
    double getUndefinedWidth() -> a
org.freehep.graphicsio.font.FontTable -> org.freehep.graphicsio.b.e:
    java.util.Hashtable table -> a
    org.freehep.graphics2d.font.CharTable getEncodingTable() -> a
    void firstRequest(org.freehep.graphicsio.font.FontTable$Entry,boolean,java.lang.String) -> a
    java.lang.String createFontReference(java.awt.Font) -> a
    java.awt.Font substituteFont(java.awt.Font) -> a
    java.lang.String fontReference(java.awt.Font,boolean,java.lang.String) -> a
    java.lang.String getKey(java.awt.Font) -> b
    void normalize(java.util.Map) -> a
    java.util.Collection getEntries() -> a
    org.freehep.graphics2d.font.CharTable getEncodingTable(java.awt.Font) -> a
org.freehep.graphicsio.font.FontTable$Entry -> org.freehep.graphicsio.b.e$a:
    java.awt.Font font -> a
    java.lang.String ref -> a
    org.freehep.graphics2d.font.CharTable encoding -> a
    boolean written -> a
    org.freehep.graphicsio.font.FontTable this$0 -> a
    java.awt.Font getFont() -> a
    java.lang.String getReference() -> a
    org.freehep.graphics2d.font.CharTable getEncoding() -> a
    void setWritten(boolean) -> a
    boolean isWritten() -> a
    java.lang.String toString() -> toString
    java.lang.String access$1(org.freehep.graphicsio.font.FontTable$Entry) -> a
org.freehep.graphicsio.font.FontUtilities -> org.freehep.graphicsio.b.f:
    java.util.Properties windowsFonts -> a
    org.freehep.graphics2d.font.CharTable[] STANDARD_CHAR_TABLES -> a
    java.awt.Font[] STANDARD_FONT -> a
    java.lang.String getWindowsFontName(java.lang.String) -> a
    void showString(java.awt.Font,java.lang.String,org.freehep.graphics2d.font.CharTable,org.freehep.graphicsio.font.FontUtilities$ShowString) -> a
org.freehep.graphicsio.font.FontUtilities$ShowString -> org.freehep.graphicsio.b.f$a:
    void showString(java.awt.Font,java.lang.String) -> a
org.freehep.graphicsio.pdf.PDF -> org.freehep.graphicsio.c.a:
    int generationNumber -> a
    java.util.Hashtable refsByName -> a
    java.util.Vector refsByNumber -> a
    java.util.Vector xrefsByNumber -> b
    int startXref -> b
    org.freehep.graphicsio.pdf.PDFByteWriter out -> a
    org.freehep.graphicsio.pdf.PDFName name(java.lang.String) -> a
    org.freehep.graphicsio.pdf.PDFRef ref(java.lang.String) -> a
    void setXRef(int,int) -> a
    void xref() -> a
    void trailer(java.lang.String,java.lang.String) -> a
    void startxref() -> b
org.freehep.graphicsio.pdf.PDFByteWriter -> org.freehep.graphicsio.c.b:
    int indent -> a
    java.lang.String indentString -> b
    void write(java.lang.String) -> a
    void close() -> close
    void print(java.lang.String) -> b
    void printPlain(java.lang.String) -> c
    void println() -> a
    void indent() -> b
    void outdent() -> c
    void println(java.lang.String) -> d
    void print(int) -> a
    void println(int) -> b
    void printPlain(java.lang.Object) -> a
org.freehep.graphicsio.pdf.PDFCatalog -> org.freehep.graphicsio.c.c:
    void setViewerPreferences(java.lang.String) -> a
    void setPageMode(java.lang.String) -> b
    void setOutlines(java.lang.String) -> c
    void setOpenAction(java.lang.Object[]) -> a
org.freehep.graphicsio.pdf.PDFCharTableWriter -> org.freehep.graphicsio.c.d:
    org.freehep.graphicsio.pdf.PDFCharTableWriter ctw -> a
    org.freehep.graphicsio.pdf.PDFCharTableWriter getInstance() -> a
    void writeObject(java.lang.Object,org.freehep.graphicsio.pdf.PDFRef,org.freehep.graphicsio.pdf.PDFWriter) -> a
org.freehep.graphicsio.pdf.PDFConstants -> org.freehep.graphicsio.c.e:
    java.lang.String EOL -> a
    java.text.SimpleDateFormat dateFormat -> a
org.freehep.graphicsio.pdf.PDFDictionary -> org.freehep.graphicsio.c.f:
    java.lang.String open -> b
    org.freehep.graphicsio.pdf.PDFByteWriter out -> a
    boolean ok -> a
    org.freehep.graphicsio.pdf.PDFObject object -> a
    org.freehep.graphicsio.pdf.PDF pdf -> a
    void close() -> a
    void entry(java.lang.String,java.lang.String) -> a
    void entry(java.lang.String,org.freehep.graphicsio.pdf.PDFName) -> a
    void entry(java.lang.String,int) -> a
    void entry(java.lang.String,double) -> a
    void entry(java.lang.String,boolean) -> a
    void entry(java.lang.String,org.freehep.graphicsio.pdf.PDFRef) -> a
    void entry(java.lang.String,java.util.Calendar) -> a
    void entry(java.lang.String,java.lang.Object[]) -> a
    void entry(java.lang.String,double[]) -> a
    void entry(java.lang.String,boolean[]) -> a
    org.freehep.graphicsio.pdf.PDFDictionary openDictionary(java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFDictionary) -> a
org.freehep.graphicsio.pdf.PDFDocInfo -> org.freehep.graphicsio.c.g:
    void setTitle(java.lang.String) -> a
    void setAuthor(java.lang.String) -> b
    void setSubject(java.lang.String) -> c
    void setKeywords(java.lang.String) -> d
    void setCreator(java.lang.String) -> e
    void setProducer(java.lang.String) -> f
    void setCreationDate(java.util.Calendar) -> a
    void setModificationDate(java.util.Calendar) -> b
    void setTrapped(java.lang.String) -> g
org.freehep.graphicsio.pdf.PDFFontEmbedder -> org.freehep.graphicsio.c.h:
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    org.freehep.graphicsio.pdf.PDFDictionary fontDict -> a
    java.lang.String reference -> a
    org.freehep.graphicsio.pdf.PDFRedundanceTracker redundanceTracker -> a
    java.lang.String getSubtype() -> b
    void addAdditionalEntries(org.freehep.graphicsio.pdf.PDFDictionary) -> a
    void addAdditionalInitDicts() -> f
    java.lang.String getReference() -> c
    void openIncludeFont() -> d
    void closeEmbedFont() -> c
    void writeWidths(double[]) -> a
    void writeEncoding(org.freehep.graphics2d.font.CharTable) -> a
    java.lang.String createCharacterReference(java.lang.String) -> a
org.freehep.graphicsio.pdf.PDFFontEmbedderType1 -> org.freehep.graphicsio.c.i:
    java.io.ByteArrayOutputStream byteBuffer -> a
    java.lang.String reference -> a
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    org.freehep.graphicsio.pdf.PDFStream fontFile -> a
    org.freehep.graphicsio.pdf.PDFRedundanceTracker redundanceTracker -> a
    org.freehep.graphicsio.pdf.PDFFontEmbedderType1 create(java.awt.font.FontRenderContext,org.freehep.graphicsio.pdf.PDFWriter,java.lang.String,org.freehep.graphicsio.pdf.PDFRedundanceTracker) -> a
    java.lang.String getReference() -> b
    void openIncludeFont() -> d
    void writeWidths(double[]) -> a
    void openGlyphs() -> a
    void closeEmbedFont() -> c
org.freehep.graphicsio.pdf.PDFFontEmbedderType3 -> org.freehep.graphicsio.c.j:
    java.lang.String getSubtype() -> b
    void addAdditionalEntries(org.freehep.graphicsio.pdf.PDFDictionary) -> a
    void addAdditionalInitDicts() -> f
    void writeGlyph(java.lang.String,java.awt.Shape,java.awt.font.GlyphMetrics) -> a
org.freehep.graphicsio.pdf.PDFFontIncluder -> org.freehep.graphicsio.c.k:
    java.lang.String[][] STANDARD_FONT -> a
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    java.lang.String reference -> a
    org.freehep.graphicsio.pdf.PDFRedundanceTracker redundanceTracker -> a
    void openIncludeFont() -> d
    void writeEncoding(org.freehep.graphics2d.font.CharTable) -> a
    boolean isStandardFont(java.awt.Font) -> a
    int getFontBaseIndex(java.awt.Font) -> a
    int getFontStyle(java.awt.Font) -> b
org.freehep.graphicsio.pdf.PDFFontTable -> org.freehep.graphicsio.c.l:
    int currentFontIndex -> a
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    org.freehep.graphicsio.pdf.PDFRedundanceTracker tracker -> a
    java.util.Properties replaceFonts -> a
    int addFontDictionary() -> a
    void embedAll(java.awt.font.FontRenderContext,boolean,java.lang.String) -> a
    org.freehep.graphics2d.font.CharTable getEncodingTable() -> a
    void firstRequest(org.freehep.graphicsio.font.FontTable$Entry,boolean,java.lang.String) -> a
    java.awt.Font substituteFont(java.awt.Font) -> a
    java.lang.String createFontReference(java.awt.Font) -> a
org.freehep.graphicsio.pdf.PDFGraphics2D -> org.freehep.graphicsio.c.m:
    java.lang.String rootKey -> w
    java.lang.String TRANSPARENT -> e
    java.lang.String BACKGROUND -> f
    java.lang.String BACKGROUND_COLOR -> g
    java.lang.String PAGE_SIZE -> h
    java.lang.String PAGE_MARGINS -> i
    java.lang.String ORIENTATION -> j
    java.lang.String FIT_TO_PAGE -> k
    java.lang.String EMBED_FONTS -> l
    java.lang.String EMBED_FONTS_AS -> m
    java.lang.String THUMBNAILS -> n
    java.lang.String THUMBNAIL_SIZE -> o
    java.lang.String COMPRESS -> p
    java.lang.String VERSION -> q
    java.lang.String WRITE_IMAGES_AS -> r
    java.lang.String AUTHOR -> s
    java.lang.String TITLE -> t
    java.lang.String SUBJECT -> u
    java.lang.String KEYWORDS -> v
    org.freehep.util.UserProperties defaultProperties -> a
    java.lang.String[] COMPRESS_FILTERS -> a
    java.lang.String[] NO_FILTERS -> b
    java.io.OutputStream ros -> a
    org.freehep.graphicsio.pdf.PDFWriter os -> a
    org.freehep.graphicsio.pdf.PDFStream pageStream -> a
    org.freehep.graphicsio.pdf.PDFFontTable fontTable -> a
    org.freehep.graphicsio.pdf.PDFImageDelayQueue delayImageQueue -> a
    org.freehep.graphicsio.pdf.PDFPaintDelayQueue delayPaintQueue -> a
    int currentPage -> b
    boolean multiPage -> a
    org.freehep.graphics2d.TagString[] headerText -> a
    int headerUnderline -> c
    java.awt.Font headerFont -> a
    org.freehep.graphics2d.TagString[] footerText -> b
    int footerUnderline -> d
    java.awt.Font footerFont -> b
    java.util.List titles -> a
    int alphaIndex -> a
    java.util.Map extGStates -> a
    java.awt.Dimension pageSize -> a
    java.util.Properties getDefaultProperties() -> b
    void setDefaultProperties(java.util.Properties) -> b
    void init(java.io.OutputStream) -> a
    boolean isMultiPage() -> b
    void writeHeader() -> c
    void writeBackground() -> e
    void writeTrailer() -> f
    void closeStream() -> g
    void processDelayed() -> k
    void openPage(java.awt.Dimension,java.lang.String,java.awt.Component) -> a
    void closePage() -> j
    void writeHeadline(java.awt.geom.AffineTransform) -> c
    void writeFootline(java.awt.geom.AffineTransform) -> d
    void writeLine(java.awt.geom.AffineTransform,java.awt.Font,org.freehep.graphics2d.TagString[],double,int,double,int) -> a
    java.awt.Graphics create() -> create
    void writeGraphicsSave() -> h
    void writeGraphicsRestore() -> i
    void draw(java.awt.Shape) -> draw
    void fill(java.awt.Shape) -> fill
    void copyArea(int,int,int,int,int,int) -> copyArea
    void writeImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform,java.awt.Color) -> a
    void writeString(java.lang.String,double,double) -> b
    void writeTransform(java.awt.geom.AffineTransform) -> a
    void writeSetClip(java.awt.Shape) -> b
    void writeClip(java.awt.Shape) -> a
    void writeWidth(float) -> a
    void writeCap(int) -> a
    void writeJoin(int) -> b
    void writeMiterLimit(float) -> b
    void writeDash(float[],float) -> a
    void setPaintMode() -> setPaintMode
    void setXORMode(java.awt.Color) -> setXORMode
    void writePaint(java.awt.Color) -> a
    void writePaint(java.awt.GradientPaint) -> a
    void writePaint(java.awt.TexturePaint) -> a
    void writePaint(java.awt.Paint) -> a
    void writeFont(java.awt.Font) -> a
    java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration
    boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit
    java.lang.String toString() -> toString
    void showString(java.awt.Font,java.lang.String) -> a
    void showCharacterCodes(java.lang.String) -> a
    double getWidth() -> a
    double getHeight() -> b
    java.awt.Dimension getSize(java.lang.String,java.lang.String) -> a
    void setPageSize(java.awt.Dimension) -> a
org.freehep.graphicsio.pdf.PDFImageDelayQueue -> org.freehep.graphicsio.c.n:
    int currentNumber -> a
    java.util.Map imageMap -> a
    java.util.List imageList -> a
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    org.freehep.graphicsio.pdf.PDFName delayImage(java.awt.image.RenderedImage,java.awt.Color,java.lang.String) -> a
    void processAll() -> a
    int addXObjects() -> a
    int access$0(org.freehep.graphicsio.pdf.PDFImageDelayQueue) -> a
    void access$1(org.freehep.graphicsio.pdf.PDFImageDelayQueue,int) -> a
org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry -> org.freehep.graphicsio.c.n$a:
    java.awt.image.RenderedImage image -> a
    java.lang.String name -> a
    java.lang.String maskName -> b
    java.awt.Color bkg -> a
    java.lang.String writeAs -> c
    boolean written -> a
    org.freehep.graphicsio.pdf.PDFImageDelayQueue this$0 -> a
    java.lang.String access$1(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> a
    boolean access$2(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> a
    void access$3(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry,boolean) -> a
    java.lang.String access$4(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> b
    java.lang.String access$5(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> c
    java.awt.image.RenderedImage access$6(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> a
    java.awt.Color access$7(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> a
org.freehep.graphicsio.pdf.PDFName -> org.freehep.graphicsio.c.o:
    java.lang.String name -> b
    java.lang.String toString() -> toString
org.freehep.graphicsio.pdf.PDFObject -> org.freehep.graphicsio.c.p:
    org.freehep.graphicsio.pdf.PDF pdf -> a
    org.freehep.graphicsio.pdf.PDFByteWriter out -> a
    java.lang.String open -> b
    boolean ok -> a
    void close() -> a
    void entry(int) -> a
    void entry(java.lang.Object[]) -> a
    org.freehep.graphicsio.pdf.PDFDictionary openDictionary() -> a
    org.freehep.graphicsio.pdf.PDFStream openStream(java.lang.String,java.lang.String[]) -> a
    org.freehep.graphicsio.pdf.PDFDocInfo openDocInfo(org.freehep.graphicsio.pdf.PDF) -> a
    org.freehep.graphicsio.pdf.PDFCatalog openCatalog(org.freehep.graphicsio.pdf.PDF,org.freehep.graphicsio.pdf.PDFRef) -> a
    org.freehep.graphicsio.pdf.PDFPageTree openPageTree(org.freehep.graphicsio.pdf.PDF,org.freehep.graphicsio.pdf.PDFRef) -> a
    org.freehep.graphicsio.pdf.PDFPage openPage(org.freehep.graphicsio.pdf.PDF,org.freehep.graphicsio.pdf.PDFRef) -> a
    org.freehep.graphicsio.pdf.PDFViewerPreferences openViewerPreferences(org.freehep.graphicsio.pdf.PDF) -> a
    org.freehep.graphicsio.pdf.PDFOutlineList openOutlineList(org.freehep.graphicsio.pdf.PDF,org.freehep.graphicsio.pdf.PDFRef,org.freehep.graphicsio.pdf.PDFRef) -> a
    org.freehep.graphicsio.pdf.PDFOutline openOutline(org.freehep.graphicsio.pdf.PDF,org.freehep.graphicsio.pdf.PDFRef,java.lang.String,org.freehep.graphicsio.pdf.PDFRef,org.freehep.graphicsio.pdf.PDFRef) -> a
org.freehep.graphicsio.pdf.PDFOutline -> org.freehep.graphicsio.c.q:
    void setDest(java.lang.Object[]) -> a
org.freehep.graphicsio.pdf.PDFOutlineList -> org.freehep.graphicsio.c.r:
org.freehep.graphicsio.pdf.PDFPage -> org.freehep.graphicsio.c.s:
    void setContents(java.lang.String) -> a
    void setThumb(java.lang.String) -> b
org.freehep.graphicsio.pdf.PDFPageBase -> org.freehep.graphicsio.c.t:
    void setResources(java.lang.String) -> c
    void setMediaBox(double,double,double,double) -> a
org.freehep.graphicsio.pdf.PDFPageTree -> org.freehep.graphicsio.c.u:
    java.util.Vector pages -> a
    void addPage(java.lang.String) -> a
    void close() -> a
org.freehep.graphicsio.pdf.PDFPaintDelayQueue -> org.freehep.graphicsio.c.v:
    int currentNumber -> a
    java.util.List paintList -> a
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    java.awt.geom.AffineTransform pageMatrix -> a
    void setPageMatrix(java.awt.geom.AffineTransform) -> a
    org.freehep.graphicsio.pdf.PDFName delayPaint(java.awt.Paint,java.awt.geom.AffineTransform,java.lang.String) -> a
    void processAll() -> a
    int addPatterns() -> a
    void addGradientPaint(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> a
    void addLinearFunction(java.lang.String,double[],double[],double[]) -> a
    void addTexturePaint(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> b
    void setMatrix(org.freehep.graphicsio.pdf.PDFDictionary,org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry,double,double) -> a
    int access$0() -> b
    void access$1(int) -> a
org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry -> org.freehep.graphicsio.c.v$a:
    java.awt.Paint paint -> a
    java.lang.String name -> a
    java.awt.geom.AffineTransform trafo -> a
    java.lang.String writeAs -> b
    boolean written -> a
    org.freehep.graphicsio.pdf.PDFPaintDelayQueue this$0 -> a
    java.lang.String access$1(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> a
    boolean access$2(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> a
    void access$3(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry,boolean) -> a
    java.awt.Paint access$4(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> a
    java.lang.String access$5(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> b
    java.awt.geom.AffineTransform access$6(org.freehep.graphicsio.pdf.PDFPaintDelayQueue$Entry) -> a
org.freehep.graphicsio.pdf.PDFPathConstructor -> org.freehep.graphicsio.c.w:
    org.freehep.graphicsio.pdf.PDFStream stream -> a
    void move(double,double) -> a
    void line(double,double) -> b
    void cubic(double,double,double,double,double,double) -> a
    void closePath(double,double) -> c
org.freehep.graphicsio.pdf.PDFRedundanceTracker -> org.freehep.graphicsio.c.x:
    int refCount -> a
    org.freehep.graphicsio.pdf.PDFWriter pdf -> a
    java.util.Map objects -> a
    java.util.Vector orderedObjects -> a
    org.freehep.graphicsio.pdf.PDFRef getReference(java.lang.Object,java.lang.Object,org.freehep.graphicsio.pdf.PDFRedundanceTracker$Writer) -> a
    org.freehep.graphicsio.pdf.PDFRef getReference(java.lang.Object,org.freehep.graphicsio.pdf.PDFRedundanceTracker$Writer) -> a
    void writeAll() -> a
    org.freehep.graphicsio.pdf.PDFWriter access$0(org.freehep.graphicsio.pdf.PDFRedundanceTracker) -> a
    int access$1() -> a
    void access$2(int) -> a
org.freehep.graphicsio.pdf.PDFRedundanceTracker$Entry -> org.freehep.graphicsio.c.x$a:
    java.lang.Object object -> a
    org.freehep.graphicsio.pdf.PDFRedundanceTracker$Writer writer -> a
    boolean written -> a
    org.freehep.graphicsio.pdf.PDFRef reference -> a
    java.lang.Object groupID -> b
    org.freehep.graphicsio.pdf.PDFRedundanceTracker this$0 -> a
    org.freehep.graphicsio.pdf.PDFRef access$0(org.freehep.graphicsio.pdf.PDFRedundanceTracker$Entry) -> a
    boolean access$2(org.freehep.graphicsio.pdf.PDFRedundanceTracker$Entry) -> a
    org.freehep.graphicsio.pdf.PDFRedundanceTracker$Writer access$3(org.freehep.graphicsio.pdf.PDFRedundanceTracker$Entry) -> a
    java.lang.Object access$4(org.freehep.graphicsio.pdf.PDFRedundanceTracker$Entry) -> a
    void access$5(org.freehep.graphicsio.pdf.PDFRedundanceTracker$Entry,boolean) -> a
org.freehep.graphicsio.pdf.PDFRedundanceTracker$Writer -> org.freehep.graphicsio.c.x$b:
    void writeObject(java.lang.Object,org.freehep.graphicsio.pdf.PDFRef,org.freehep.graphicsio.pdf.PDFWriter) -> a
org.freehep.graphicsio.pdf.PDFRef -> org.freehep.graphicsio.c.y:
    java.lang.String name -> b
    int objectNumber -> a
    int generationNumber -> b
    java.lang.String getName() -> a
    int getObjectNumber() -> a
    int getGenerationNumber() -> b
    java.lang.String toString() -> toString
org.freehep.graphicsio.pdf.PDFStream -> org.freehep.graphicsio.c.z:
    java.lang.String name -> b
    org.freehep.graphicsio.pdf.PDFObject object -> a
    boolean dictionaryOpen -> a
    java.io.OutputStream[] stream -> a
    org.freehep.util.io.CountedByteOutputStream byteCountStream -> a
    java.lang.String[] encode -> a
    int gStates -> a
    boolean textOpen -> b
    boolean fontWasSet -> c
    boolean compatibilityOpen -> d
    void startStream() -> m
    void startStream(java.lang.String[]) -> a
    void write(int) -> c
    void write(byte[]) -> a
    org.freehep.graphicsio.pdf.PDFName[] decodeFilters(java.lang.String[]) -> a
    java.io.OutputStream[] openFilters(java.io.OutputStream,java.lang.String[]) -> a
    void closeFilters(java.io.OutputStream[]) -> a
    void write(java.lang.String) -> d
    void close() -> a
    java.lang.String getName() -> a
    int getLength() -> a
    void print(java.lang.String) -> a
    void println(java.lang.String) -> b
    void save() -> b
    void restore() -> c
    void matrix(java.awt.geom.AffineTransform) -> a
    void matrix(double,double,double,double,double,double) -> a
    void width(double) -> a
    void cap(int) -> a
    void join(int) -> b
    void mitterLimit(double) -> b
    void dash(float[],double) -> a
    void state(org.freehep.graphicsio.pdf.PDFName) -> a
    void cubic(double,double,double,double,double,double) -> b
    void move(double,double) -> a
    void line(double,double) -> b
    void closePath() -> d
    void stroke() -> e
    void fill() -> f
    void fillEvenOdd() -> g
    void endPath() -> h
    void clip() -> i
    void clipEvenOdd() -> j
    void beginText() -> k
    void endText() -> l
    void font(org.freehep.graphicsio.pdf.PDFName,double) -> a
    void text(double,double) -> c
    void show(java.lang.String) -> c
    void glyph(double,double,double,double,double,double) -> c
    void colorSpace(org.freehep.graphicsio.pdf.PDFName) -> b
    void colorSpaceStroke(org.freehep.graphicsio.pdf.PDFName) -> c
    void colorSpace(double[],org.freehep.graphicsio.pdf.PDFName) -> a
    void colorSpaceStroke(double[],org.freehep.graphicsio.pdf.PDFName) -> b
    void colorSpace(double,double,double) -> a
    void colorSpaceStroke(double,double,double) -> b
    void image(java.awt.image.RenderedImage,java.awt.Color,java.lang.String[]) -> a
    void imageMask(java.awt.image.RenderedImage,java.lang.String[]) -> a
    void inlineImage(java.awt.image.RenderedImage,java.awt.Color,java.lang.String[]) -> b
    byte[] imageToBytes(java.awt.image.RenderedImage,java.awt.Color,java.lang.String[]) -> a
    void imageInfo(java.lang.String,int) -> b
    void imageInfo(java.lang.String,org.freehep.graphicsio.pdf.PDFName) -> b
    void imageInfo(java.lang.String,java.lang.Object[]) -> b
    boolean drawPath(java.awt.Shape) -> a
    void xObject(org.freehep.graphicsio.pdf.PDFName) -> d
org.freehep.graphicsio.pdf.PDFUtil -> org.freehep.graphicsio.c.A:
    geogebra.util.ScientificFormat scientific -> a
    java.lang.String escape(java.lang.String) -> a
    java.lang.String date(java.util.Calendar) -> a
    java.lang.String fixedPrecision(double) -> a
org.freehep.graphicsio.pdf.PDFViewerPreferences -> org.freehep.graphicsio.c.B:
    void setFitWindow(boolean) -> a
    void setCenterWindow(boolean) -> b
org.freehep.graphicsio.pdf.PDFWriter -> org.freehep.graphicsio.c.C:
    java.lang.String open -> b
    java.lang.String catalogName -> c
    java.lang.String docInfoName -> d
    void close(java.lang.String,java.lang.String) -> b
    void object(java.lang.String,java.lang.Object[]) -> a
    void object(java.lang.String,int) -> a
    org.freehep.graphicsio.pdf.PDFObject openObject(java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFObject) -> a
    org.freehep.graphicsio.pdf.PDFDictionary openDictionary(java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFDictionary) -> a
    org.freehep.graphicsio.pdf.PDFStream openStream(java.lang.String) -> a
    org.freehep.graphicsio.pdf.PDFStream openStream(java.lang.String,java.lang.String[]) -> a
    void close(org.freehep.graphicsio.pdf.PDFStream) -> a
    void close() -> c
    org.freehep.graphicsio.pdf.PDFDocInfo openDocInfo(java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFDocInfo) -> a
    org.freehep.graphicsio.pdf.PDFCatalog openCatalog(java.lang.String,java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFCatalog) -> a
    org.freehep.graphicsio.pdf.PDFPageTree openPageTree(java.lang.String,java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFPageTree) -> a
    org.freehep.graphicsio.pdf.PDFPage openPage(java.lang.String,java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFPage) -> a
    org.freehep.graphicsio.pdf.PDFViewerPreferences openViewerPreferences(java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFViewerPreferences) -> a
    org.freehep.graphicsio.pdf.PDFOutlineList openOutlineList(java.lang.String,java.lang.String,java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFOutlineList) -> a
    org.freehep.graphicsio.pdf.PDFOutline openOutline(java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String) -> a
    void close(org.freehep.graphicsio.pdf.PDFOutline) -> a
org.freehep.graphicsio.raw.RawImageWriteParam -> org.freehep.graphicsio.raw.a:
    java.lang.String rootKey -> d
    java.lang.String BACKGROUND -> a
    java.lang.String CODE -> b
    java.lang.String PAD -> c
    java.awt.Color bkg -> a
    java.lang.String code -> e
    int pad -> a
    javax.imageio.ImageWriteParam getWriteParam(java.util.Properties) -> a
    java.awt.Color getBackground() -> a
    void setBackground(java.awt.Color) -> a
    java.lang.String getCode() -> a
    void setCode(java.lang.String) -> a
    int getPad() -> a
    void setPad(int) -> a
org.freehep.graphicsio.raw.RawImageWriter -> org.freehep.graphicsio.raw.b:
    void write(javax.imageio.metadata.IIOMetadata,javax.imageio.IIOImage,javax.imageio.ImageWriteParam) -> write
    javax.imageio.metadata.IIOMetadata convertStreamMetadata(javax.imageio.metadata.IIOMetadata,javax.imageio.ImageWriteParam) -> convertStreamMetadata
    javax.imageio.metadata.IIOMetadata convertImageMetadata(javax.imageio.metadata.IIOMetadata,javax.imageio.ImageTypeSpecifier,javax.imageio.ImageWriteParam) -> convertImageMetadata
    javax.imageio.metadata.IIOMetadata getDefaultImageMetadata(javax.imageio.ImageTypeSpecifier,javax.imageio.ImageWriteParam) -> getDefaultImageMetadata
    javax.imageio.metadata.IIOMetadata getDefaultStreamMetadata(javax.imageio.ImageWriteParam) -> getDefaultStreamMetadata
    javax.imageio.ImageWriteParam getDefaultWriteParam() -> getDefaultWriteParam
org.freehep.graphicsio.raw.RawImageWriterSpi -> org.freehep.graphicsio.raw.RawImageWriterSpi:
    java.lang.String getDescription(java.util.Locale) -> getDescription
    javax.imageio.ImageWriter createWriterInstance(java.lang.Object) -> createWriterInstance
    boolean canEncodeImage(javax.imageio.ImageTypeSpecifier) -> canEncodeImage
org.freehep.graphicsio.svg.SVGFontTable -> org.freehep.graphicsio.d.a:
    java.util.Hashtable glyphs -> a
    java.util.Properties replaceFonts -> a
    org.freehep.graphicsio.svg.SVGGlyph addGlyph(int,java.awt.Font) -> a
    org.freehep.graphicsio.svg.SVGGlyph createGlyph(int,java.awt.Font) -> b
    void addGlyphs(java.lang.String,java.awt.Font) -> a
    java.util.Hashtable getGlyphs(java.awt.Font) -> a
    java.lang.String toString() -> toString
    java.awt.Font untransform(java.awt.Font) -> a
    void normalize(java.util.Map) -> a
org.freehep.graphicsio.svg.SVGGlyph -> org.freehep.graphicsio.d.b:
    int FONT_SIZE -> a
    int UNITS_PER_EM -> b
    java.awt.Shape glyph -> a
    int unicode -> c
    java.awt.font.GlyphMetrics glyphMetrics -> a
    java.awt.geom.AffineTransform defaultTransform -> a
    java.lang.String toString() -> toString
    java.lang.String getPathString() -> a
    java.lang.String getHorizontalAdvanceXString() -> b
    java.lang.String getHorizontalAdvanceYString() -> c
org.freehep.graphicsio.svg.SVGGraphics2D -> org.freehep.graphicsio.d.c:
    java.lang.String rootKey -> r
    java.lang.String TRANSPARENT -> e
    java.lang.String BACKGROUND -> f
    java.lang.String BACKGROUND_COLOR -> g
    java.lang.String VERSION -> h
    java.lang.String COMPRESS -> i
    java.lang.String STYLABLE -> j
    java.lang.String IMAGE_SIZE -> k
    java.lang.String EXPORT_IMAGES -> l
    java.lang.String EXPORT_SUFFIX -> m
    java.lang.String WRITE_IMAGES_AS -> n
    java.lang.String FOR -> o
    java.lang.String TITLE -> p
    java.awt.BasicStroke defaultStroke -> a
    java.lang.String EMBED_FONTS -> q
    org.freehep.graphicsio.svg.SVGFontTable fontTable -> a
    org.freehep.util.UserProperties defaultProperties -> a
    java.lang.String filename -> s
    int bbx -> a
    int bby -> b
    int bbw -> c
    int bbh -> d
    java.io.OutputStream ros -> a
    java.io.PrintWriter os -> a
    java.util.Hashtable gradients -> a
    java.util.Hashtable textures -> b
    java.util.Stack closeTags -> a
    int imageNumber -> e
    org.freehep.util.Value clipNumber -> a
    int width -> f
    int height -> g
    geogebra.util.ScientificFormat scientific -> a
    java.util.Properties getDefaultProperties() -> b
    void setDefaultProperties(java.util.Properties) -> b
    void init(java.io.OutputStream) -> a
    void setBoundingBox() -> j
    void writeHeader() -> c
    void writeBackground() -> e
    void writeTrailer() -> f
    void closeStream() -> g
    java.awt.Graphics create() -> create
    void writeGraphicsSave() -> h
    void writeGraphicsRestore() -> i
    void draw(java.awt.Shape) -> draw
    void fill(java.awt.Shape) -> fill
    void writePathIterator(java.awt.geom.PathIterator,java.util.Properties) -> a
    void copyArea(int,int,int,int,int,int) -> copyArea
    void writeImage(java.awt.image.RenderedImage,java.awt.geom.AffineTransform,java.awt.Color) -> a
    void writeString(java.lang.String,double,double) -> b
    java.util.Properties getFontProperties(java.awt.Font) -> a
    void writeTransform(java.awt.geom.AffineTransform) -> a
    void writeSetTransform(java.awt.geom.AffineTransform) -> b
    void writeClip(java.awt.Shape) -> a
    void writeSetClip(java.awt.Shape) -> b
    void writeWidth(float) -> a
    void writeCap(int) -> a
    void writeJoin(int) -> b
    void writeMiterLimit(float) -> b
    void writeDash(float[],float) -> a
    java.util.Properties getStrokeProperties(java.awt.Stroke,boolean) -> a
    void setPaintMode() -> setPaintMode
    void setXORMode(java.awt.Color) -> setXORMode
    void writePaint(java.awt.Color) -> a
    void writePaint(java.awt.GradientPaint) -> a
    void writePaint(java.awt.TexturePaint) -> a
    void writePaint(java.awt.Paint) -> a
    void writeFont(java.awt.Font) -> a
    java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration
    boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit
    java.lang.String toString() -> toString
    java.lang.String getTransformedString(java.awt.geom.AffineTransform,java.lang.String) -> a
    java.lang.String getClippedString(java.lang.String) -> b
    float alphaColor(java.awt.Paint) -> a
    java.lang.String hexColor(java.awt.Paint) -> a
    java.lang.String hexColor(java.awt.Color) -> a
    java.lang.String hexColor(java.awt.GradientPaint) -> a
    java.lang.String hexColor(java.awt.TexturePaint) -> a
    java.lang.String getPathContent(java.awt.geom.PathIterator) -> a
    java.lang.String getPath(java.awt.geom.PathIterator) -> b
    java.lang.String style(java.util.Properties) -> a
    java.lang.String fixedPrecision(double) -> a
org.freehep.util.UserProperties -> org.freehep.b.a:
    java.util.Properties altDefaults -> a
    java.util.Enumeration propertyNames() -> propertyNames
    void setProperties(java.util.Properties) -> a
    java.lang.Object setProperty(java.lang.String,java.lang.String) -> setProperty
    java.lang.Object setProperty(java.lang.String,java.awt.Color) -> a
    java.lang.Object setProperty(java.util.Properties,java.lang.String,java.awt.Color) -> a
    java.lang.Object setProperty(java.lang.String,java.awt.Insets) -> a
    java.lang.Object setProperty(java.util.Properties,java.lang.String,java.awt.Insets) -> a
    java.lang.Object setProperty(java.lang.String,java.awt.Dimension) -> a
    java.lang.Object setProperty(java.util.Properties,java.lang.String,java.awt.Dimension) -> a
    java.lang.Object setProperty(java.lang.String,int) -> a
    java.lang.Object setProperty(java.util.Properties,java.lang.String,int) -> a
    java.lang.Object setProperty(java.lang.String,boolean) -> a
    java.lang.Object setProperty(java.util.Properties,java.lang.String,boolean) -> a
    java.lang.String getProperty(java.lang.String) -> getProperty
    java.lang.String getProperty(java.lang.String,java.lang.String) -> getProperty
    java.awt.Color getPropertyColor(java.lang.String) -> a
    java.awt.Color getPropertyColor(java.lang.String,java.awt.Color) -> a
    java.awt.Insets getPropertyInsets(java.lang.String) -> a
    java.awt.Insets getPropertyInsets(java.lang.String,java.awt.Insets) -> a
    java.awt.Dimension getPropertyDimension(java.lang.String) -> a
    java.awt.Dimension getPropertyDimension(java.lang.String,java.awt.Dimension) -> a
    int getPropertyInt(java.lang.String,int) -> a
    float getPropertyFloat(java.lang.String) -> a
    float getPropertyFloat(java.lang.String,float) -> a
    boolean isProperty(java.lang.String) -> a
    boolean isProperty(java.lang.String,boolean) -> a
org.freehep.util.Value -> org.freehep.b.b:
    int intValue -> a
    short shortValue -> a
    long longValue -> a
    float floatValue -> a
    double doubleValue -> a
    boolean boolValue -> a
    byte byteValue -> a
    char charValue -> a
    java.lang.Object obj -> a
    java.lang.Class type -> k
    java.lang.Class TYPE_INTEGER -> a
    java.lang.Class TYPE_SHORT -> b
    java.lang.Class TYPE_LONG -> c
    java.lang.Class TYPE_FLOAT -> d
    java.lang.Class TYPE_DOUBLE -> e
    java.lang.Class TYPE_BOOLEAN -> f
    java.lang.Class TYPE_BYTE -> g
    java.lang.Class TYPE_CHAR -> h
    java.lang.Class TYPE_STRING -> i
    java.lang.Class TYPE_DATE -> j
    org.freehep.util.Value set(int) -> a
    int getInt() -> a
    java.lang.String getString() -> a
    java.lang.String toString() -> toString
org.freehep.util.images.ImageUtilities -> org.freehep.b.a.a:
    java.awt.image.RenderedImage createRenderedImage(java.awt.Image,java.awt.image.ImageObserver,java.awt.Color) -> a
    byte[] getBytes(java.awt.image.RenderedImage,java.awt.Color,java.lang.String,int) -> a
org.freehep.util.io.ASCII85OutputStream -> org.freehep.b.b.a:
    boolean end -> a
    int characters -> a
    int[] b -> a
    int bIndex -> b
    int[] c -> b
    java.lang.String newline -> a
    void write(int) -> write
    void finish() -> finish
    void close() -> close
    void writeTuple() -> a
    void writeEOD() -> b
    void writeChar(int) -> a
    void writeNewLine() -> c
org.freehep.util.io.ASCIIHexOutputStream -> org.freehep.b.b.b:
    int characters -> a
    boolean end -> a
    java.lang.String newline -> a
    void write(int) -> write
    void finish() -> finish
    void close() -> close
    void writeChar(int) -> a
    void writeNewLine() -> a
org.freehep.util.io.ActionSet -> org.freehep.b.b.c:
org.freehep.util.io.Base64OutputStream -> org.freehep.b.b.d:
    int MAX_LINE_LENGTH -> a
    int position -> b
    byte[] buffer -> a
    int lineLength -> c
    char[] intToBase64 -> a
    java.lang.String newline -> a
    void write(int) -> write
    void finish() -> finish
    void close() -> close
    void writeTuple() -> a
    void writeNewLine() -> b
org.freehep.util.io.BitInputStream -> org.freehep.b.b.e:
    int[] BIT_MASK -> a
    int[] FIELD_MASK -> b
    int bits -> a
    int validBits -> b
    void byteAlign() -> a
org.freehep.util.io.BitOutputStream -> org.freehep.b.b.f:
    int bits -> a
    int bitPos -> b
    void write(int) -> write
    void finish() -> finish
    void close() -> close
    void flushByte() -> a
    void byteAlign() -> b
org.freehep.util.io.ByteCountInputStream -> org.freehep.b.b.g:
    int index -> a
    int[] size -> c
    long len -> a
    int read() -> read
    void pushBuffer(int) -> a
    byte[] popBuffer() -> a
org.freehep.util.io.ByteCountOutputStream -> org.freehep.b.b.h:
    int currentBuffer -> b
    java.util.List bufferList -> a
    void write(int) -> write
    void pushBuffer() -> c
    int popBuffer() -> c
    int getBufferLength() -> d
    void append() -> d
    void close() -> close
org.freehep.util.io.ByteCountOutputStream$Buffer -> org.freehep.b.b.h$a:
    byte[] buffer -> a
    int len -> a
    void add(byte) -> a
    void add(org.freehep.util.io.ByteCountOutputStream$Buffer) -> a
    int getLength() -> a
    byte[] getBytes() -> a
org.freehep.util.io.ByteOrderInputStream -> org.freehep.b.b.i:
    boolean little -> a
    void readFully(byte[]) -> readFully
    void readFully(byte[],int,int) -> readFully
    int skipBytes(int) -> skipBytes
    boolean readBoolean() -> readBoolean
    char readChar() -> readChar
    byte readByte() -> readByte
    byte[] readByte(int) -> b
    int readUnsignedByte() -> readUnsignedByte
    int[] readUnsignedByte(int) -> b
    short readShort() -> readShort
    int readUnsignedShort() -> readUnsignedShort
    int readInt() -> readInt
    long readUnsignedInt() -> a
    long readLong() -> readLong
    float readFloat() -> readFloat
    double readDouble() -> readDouble
    java.lang.String readLine() -> readLine
    java.lang.String readUTF() -> readUTF
org.freehep.util.io.ByteOrderOutputStream -> org.freehep.b.b.j:
    boolean little -> a
    int written -> a
    void write(int) -> write
    void writeBoolean(boolean) -> writeBoolean
    void writeChar(int) -> writeChar
    void writeByte(int) -> writeByte
    void writeByte(byte[]) -> b
    void writeUnsignedByte(int) -> g
    void writeUnsignedByte(int[]) -> b
    void writeShort(int) -> writeShort
    void writeUnsignedShort(int) -> h
    void writeInt(int) -> writeInt
    void writeUnsignedInt(long) -> a
    void writeLong(long) -> writeLong
    void writeFloat(float) -> writeFloat
    void writeDouble(double) -> writeDouble
    void writeBytes(java.lang.String) -> writeBytes
    void writeChars(java.lang.String) -> writeChars
    void writeUTF(java.lang.String) -> writeUTF
    void writeUTF(java.lang.String,java.io.DataOutput) -> a
org.freehep.util.io.CompressableOutputStream -> org.freehep.b.b.k:
    boolean compress -> a
    java.util.zip.DeflaterOutputStream dos -> a
    void write(int) -> write
    void write(byte[],int,int) -> write
    void finish() -> finish
    void close() -> close
org.freehep.util.io.CountedByteOutputStream -> org.freehep.b.b.l:
    int count -> a
    void write(int) -> write
    void write(byte[]) -> write
    void write(byte[],int,int) -> write
    int getCount() -> a
org.freehep.util.io.DecompressableInputStream -> org.freehep.b.b.m:
    boolean decompress -> a
    java.util.zip.InflaterInputStream iis -> a
    java.io.InputStream in -> a
    int read() -> read
    long skip(long) -> skip
org.freehep.util.io.EEXECEncryption -> org.freehep.b.b.n:
    int n -> a
    int c1 -> b
    int c2 -> c
    int r -> d
    java.io.OutputStream out -> a
    boolean first -> a
    int encrypt(int) -> a
    void write(int) -> write
    void flush() -> flush
    void close() -> close
org.freehep.util.io.FinishableOutputStream -> org.freehep.b.b.o:
    void finish() -> finish
org.freehep.util.io.FlateOutputStream -> org.freehep.b.b.p:
    void finish() -> finish
org.freehep.util.io.IncompleteTagException -> org.freehep.b.b.q:
    org.freehep.util.io.Tag tag -> a
    byte[] rest -> a
org.freehep.util.io.NoCloseOutputStream -> org.freehep.b.b.r:
    void close() -> close
org.freehep.util.io.Tag -> org.freehep.b.b.s:
    int tagID -> a
    java.lang.String name -> a
    int version -> b
    int getTag() -> b
    java.lang.String getName() -> a
    org.freehep.util.io.Tag read(int,org.freehep.util.io.TaggedInputStream,int) -> a
    void write(int,org.freehep.util.io.TaggedOutputStream) -> a
org.freehep.util.io.TagHeader -> org.freehep.b.b.t:
    int tagID -> a
    long length -> a
    int getTag() -> b
    long getLength() -> a
org.freehep.util.io.TagSet -> org.freehep.b.b.u:
    java.util.Map tags -> a
    org.freehep.util.io.Tag defaultTag -> a
    void addTag(org.freehep.util.io.Tag) -> a
    org.freehep.util.io.Tag get(int) -> a
    boolean exists(int) -> a
org.freehep.util.io.TaggedInputStream -> org.freehep.b.b.v:
    org.freehep.util.io.TagSet tagSet -> a
    org.freehep.util.io.ActionSet actionSet -> a
    org.freehep.util.io.TagHeader tagHeader -> a
    org.freehep.util.io.TagHeader readTagHeader() -> a
    org.freehep.util.io.Tag readTag() -> a
    org.freehep.util.io.TagHeader getTagHeader() -> b
org.freehep.util.io.TaggedOutputStream -> org.freehep.b.b.w:
    org.freehep.util.io.TagSet tagSet -> a
    org.freehep.util.io.ActionSet actionSet -> a
    void writeTagHeader(org.freehep.util.io.TagHeader) -> a
    int getTagAlignment() -> a
    void writeTag(org.freehep.util.io.Tag) -> a
    org.freehep.util.io.TagHeader createTagHeader(org.freehep.util.io.Tag,long) -> a
org.freehep.util.io.UndefinedTag -> org.freehep.b.b.x:
    int[] bytes -> a
    org.freehep.util.io.Tag read(int,org.freehep.util.io.TaggedInputStream,int) -> a
    void write(int,org.freehep.util.io.TaggedOutputStream) -> a
    java.lang.String toString() -> toString
org.freehep.util.io.UndefinedTagException -> org.freehep.b.b.y:
org.freehep.util.io.WriterOutputStream -> org.freehep.b.b.z:
    java.io.Writer writer -> a
    void write(int) -> write
    void write(byte[]) -> write
    void write(byte[],int,int) -> write
    void close() -> close
    void flush() -> flush
org.freehep.xml.util.XMLWriter -> org.freehep.c.a.a:
    java.lang.String normalizeText(java.lang.String) -> a
org.jfugue.ChannelPressure -> org.b.a:
    byte pressure -> a
    void setPressure(byte) -> a
    byte getPressure() -> a
org.jfugue.Controller -> org.b.b:
    byte index -> a
    byte value -> b
    byte getIndex() -> a
    byte getValue() -> b
org.jfugue.Instrument -> org.b.c:
    byte instrument -> a
    java.lang.String[] INSTRUMENT_NAME -> a
    void setInstrument(byte) -> a
    byte getInstrument() -> a
org.jfugue.JFugueDefinitions -> org.b.d:
    void populateDictionary(java.util.Map) -> a
org.jfugue.JFugueElement -> org.b.e:
org.jfugue.JFugueException -> org.b.f:
org.jfugue.KeySignature -> org.b.g:
    byte keySig -> a
    byte scale -> b
    java.lang.String[] majorSigs -> a
    java.lang.String[] minorSigs -> b
    void setKeySig(byte) -> a
    void setScale(byte) -> b
    byte getKeySig() -> a
    byte getScale() -> b
org.jfugue.Layer -> org.b.h:
    byte layer -> a
    void setLayer(byte) -> a
    byte getLayer() -> a
org.jfugue.Measure -> org.b.i:
org.jfugue.MidiEventManager -> org.b.j:
    int CHANNELS -> a
    int LAYERS -> b
    byte currentTrack -> a
    byte[] currentLayer -> a
    long[][] time -> a
    javax.sound.midi.Sequence sequence -> a
    javax.sound.midi.Track[] track -> a
    void setCurrentTrack(byte) -> a
    void setCurrentLayer(byte) -> b
    void advanceTrackTimer(long) -> a
    void setTrackTimer(long) -> b
    long getTrackTimer() -> a
    void addMetaMessage(int,byte[]) -> a
    void addEvent(int,int) -> a
    void addEvent(int,int,int) -> a
    void addNoteEvent(int,int,int,long,boolean,boolean) -> a
    javax.sound.midi.Sequence getSequence() -> a
org.jfugue.MidiRenderer -> org.b.k:
    org.jfugue.MidiEventManager eventManager -> a
    long initialNoteTime -> a
    float sequenceTiming -> a
    int resolution -> a
    void reset(float,int) -> a
    void reset() -> a
    javax.sound.midi.Sequence getSequence() -> a
    void voiceEvent(org.jfugue.Voice) -> a
    void tempoEvent(org.jfugue.Tempo) -> a
    void instrumentEvent(org.jfugue.Instrument) -> a
    void layerEvent(org.jfugue.Layer) -> a
    void timeEvent(org.jfugue.Time) -> a
    void measureEvent(org.jfugue.Measure) -> a
    void keySignatureEvent(org.jfugue.KeySignature) -> a
    void controllerEvent(org.jfugue.Controller) -> a
    void channelPressureEvent(org.jfugue.ChannelPressure) -> a
    void polyphonicPressureEvent(org.jfugue.PolyphonicPressure) -> a
    void pitchBendEvent(org.jfugue.PitchBend) -> a
    void noteEvent(org.jfugue.Note) -> a
    void sequentialNoteEvent(org.jfugue.Note) -> b
    void parallelNoteEvent(org.jfugue.Note) -> c
org.jfugue.MusicStringParser -> org.b.l:
    java.util.Map dictionaryMap -> a
    byte keySig -> a
    void parse(org.jfugue.Pattern) -> a
    void parseToken(java.lang.String) -> a
    void parseVoiceElement(java.lang.String) -> b
    void parseTempoElement(java.lang.String) -> c
    void parseInstrumentElement(java.lang.String) -> d
    void parseLayerElement(java.lang.String) -> e
    void parseTimeElement(java.lang.String) -> f
    void parseKeySignatureElement(java.lang.String) -> g
    void parseMeasureElement(java.lang.String) -> h
    void parseControllerElement(java.lang.String) -> i
    void parseChannelPressureElement(java.lang.String) -> j
    void parsePolyPressureElement(java.lang.String) -> k
    void parsePitchBendElement(java.lang.String) -> l
    void parseDictionaryElement(java.lang.String) -> m
    void parseNoteElement(java.lang.String) -> n
    void decideSequentialOrParallel(org.jfugue.MusicStringParser$NoteContext) -> a
    int parseNoteRoot(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> a
    int parseNumericNote(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> b
    int parseRest(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> c
    int parseLetterNote(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> d
    int parseNoteOctave(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> e
    int parseNoteChord(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> f
    void computeNoteValue(org.jfugue.MusicStringParser$NoteContext) -> b
    int parseNoteChordInversion(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> g
    int parseNoteDuration(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> h
    int parseLetterDuration(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> i
    int parseNumericDuration(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> j
    int parseTuplet(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> k
    int parseNoteVelocity(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> l
    java.lang.String parseNoteConnector(java.lang.String,int,int,org.jfugue.MusicStringParser$NoteContext) -> a
    void fireNoteEvents(org.jfugue.MusicStringParser$NoteContext) -> c
    java.lang.String dictionaryLookup(java.lang.String) -> a
    byte getByteFromDictionary(java.lang.String) -> a
    long getLongFromDictionary(java.lang.String) -> a
    int getIntFromDictionary(java.lang.String) -> a
    double getDoubleFromDictionary(java.lang.String) -> a
org.jfugue.MusicStringParser$NoteContext -> org.b.l$a:
    boolean isRest -> a
    boolean isNumericNote -> b
    boolean isChord -> c
    boolean isFirstNote -> d
    boolean isSequentialNote -> e
    boolean isParallelNote -> f
    boolean isNatural -> g
    boolean existAnotherNote -> h
    boolean anotherNoteIsSequential -> i
    boolean anotherNoteIsParallel -> j
    boolean isStartOfTie -> k
    boolean isEndOfTie -> l
    byte[] halfsteps -> a
    byte numHalfsteps -> a
    byte noteNumber -> b
    int octaveNumber -> a
    double decimalDuration -> a
    long duration -> a
    byte attackVelocity -> c
    byte decayVelocity -> d
    org.jfugue.MusicStringParser this$0 -> a
org.jfugue.Note -> org.b.m:
    byte value -> a
    long duration -> a
    double decimalDuration -> a
    boolean isStartOfTie -> a
    boolean isEndOfTie -> b
    byte attackVelocity -> b
    byte decayVelocity -> c
    boolean rest -> c
    byte type -> d
    boolean accompanyingNotes -> d
    java.lang.String[] NOTES -> a
    void setRest(boolean) -> a
    boolean isRest() -> a
    void setValue(byte) -> a
    byte getValue() -> a
    void setDuration(long) -> a
    long getDuration() -> a
    void setDecimalDuration(double) -> a
    void setStartOfTie(boolean) -> b
    boolean isStartOfTie() -> b
    void setEndOfTie(boolean) -> c
    boolean isEndOfTie() -> c
    void setAttackVelocity(byte) -> b
    byte getAttackVelocity() -> b
    void setDecayVelocity(byte) -> c
    byte getDecayVelocity() -> c
    void setHasAccompanyingNotes(boolean) -> d
    void setType(byte) -> d
org.jfugue.Parser -> org.b.n:
    int tracing -> a
    javax.swing.event.EventListenerList progressListenerList -> a
    javax.swing.event.EventListenerList listenerList -> b
    int getTracing() -> a
    void trace(java.lang.Object[]) -> a
    void fireProgressReported(java.lang.String,long,long) -> a
    void addParserListener(org.jfugue.ParserListener) -> a
    void fireVoiceEvent(org.jfugue.Voice) -> a
    void fireTempoEvent(org.jfugue.Tempo) -> a
    void fireInstrumentEvent(org.jfugue.Instrument) -> a
    void fireLayerEvent(org.jfugue.Layer) -> a
    void fireTimeEvent(org.jfugue.Time) -> a
    void fireKeySignatureEvent(org.jfugue.KeySignature) -> a
    void fireMeasureEvent(org.jfugue.Measure) -> a
    void fireControllerEvent(org.jfugue.Controller) -> a
    void fireChannelPressureEvent(org.jfugue.ChannelPressure) -> a
    void firePolyphonicPressureEvent(org.jfugue.PolyphonicPressure) -> a
    void firePitchBendEvent(org.jfugue.PitchBend) -> a
    void fireNoteEvent(org.jfugue.Note) -> a
    void fireSequentialNoteEvent(org.jfugue.Note) -> b
    void fireParallelNoteEvent(org.jfugue.Note) -> c
org.jfugue.ParserListener -> org.b.o:
    void voiceEvent(org.jfugue.Voice) -> a
    void tempoEvent(org.jfugue.Tempo) -> a
    void instrumentEvent(org.jfugue.Instrument) -> a
    void layerEvent(org.jfugue.Layer) -> a
    void measureEvent(org.jfugue.Measure) -> a
    void timeEvent(org.jfugue.Time) -> a
    void keySignatureEvent(org.jfugue.KeySignature) -> a
    void controllerEvent(org.jfugue.Controller) -> a
    void channelPressureEvent(org.jfugue.ChannelPressure) -> a
    void polyphonicPressureEvent(org.jfugue.PolyphonicPressure) -> a
    void pitchBendEvent(org.jfugue.PitchBend) -> a
    void noteEvent(org.jfugue.Note) -> a
    void sequentialNoteEvent(org.jfugue.Note) -> b
    void parallelNoteEvent(org.jfugue.Note) -> c
org.jfugue.ParserListenerAdapter -> org.b.p:
    void voiceEvent(org.jfugue.Voice) -> a
    void tempoEvent(org.jfugue.Tempo) -> a
    void instrumentEvent(org.jfugue.Instrument) -> a
    void layerEvent(org.jfugue.Layer) -> a
    void measureEvent(org.jfugue.Measure) -> a
    void timeEvent(org.jfugue.Time) -> a
    void keySignatureEvent(org.jfugue.KeySignature) -> a
    void controllerEvent(org.jfugue.Controller) -> a
    void channelPressureEvent(org.jfugue.ChannelPressure) -> a
    void polyphonicPressureEvent(org.jfugue.PolyphonicPressure) -> a
    void pitchBendEvent(org.jfugue.PitchBend) -> a
    void noteEvent(org.jfugue.Note) -> a
    void sequentialNoteEvent(org.jfugue.Note) -> b
    void parallelNoteEvent(org.jfugue.Note) -> c
org.jfugue.ParserProgressListener -> org.b.q:
    void progressReported(java.lang.String,long,long) -> a
org.jfugue.Pattern -> org.b.r:
    java.lang.StringBuilder musicString -> a
    java.util.Map properties -> a
    javax.swing.event.EventListenerList listenerList -> a
    void setMusicString(java.lang.String) -> a
    java.lang.String getMusicString() -> a
    java.lang.String[] getTokens() -> a
    java.lang.String toString() -> toString
org.jfugue.PitchBend -> org.b.s:
    byte lsb -> a
    byte msb -> b
    void setPitchBend(byte,byte) -> a
    byte[] getBend() -> a
org.jfugue.Player -> org.b.t:
    javax.sound.midi.Sequencer sequencer -> a
    org.jfugue.MusicStringParser parser -> a
    org.jfugue.MidiRenderer renderer -> a
    float sequenceTiming -> a
    int resolution -> a
    boolean paused -> a
    boolean started -> b
    boolean finished -> c
    void initParser() -> b
    void initSequencer() -> c
    void openSequencer() -> d
    void play(org.jfugue.Pattern) -> a
    void play(javax.sound.midi.Sequence) -> a
    void close() -> a
    void setStarted(boolean) -> a
    void setFinished(boolean) -> b
    boolean isPlaying() -> a
    boolean isPaused() -> b
    javax.sound.midi.Sequencer getSequencer() -> a
    void setSequencer(javax.sound.midi.Sequencer) -> a
    javax.sound.midi.Sequence getSequence(org.jfugue.Pattern) -> a
org.jfugue.Player$1 -> org.b.u:
    org.jfugue.Player this$0 -> a
    void meta(javax.sound.midi.MetaMessage) -> meta
org.jfugue.PolyphonicPressure -> org.b.v:
    byte key -> a
    byte pressure -> b
    void setKey(byte) -> a
    void setPressure(byte) -> b
    byte getKey() -> a
    byte getPressure() -> b
org.jfugue.Tempo -> org.b.w:
    int tempo -> a
    void setTempo(int) -> a
    int getTempo() -> a
org.jfugue.Time -> org.b.x:
    long time -> a
    void setTime(long) -> a
    long getTime() -> a
org.jfugue.TimeFactor -> org.b.y:
    double DEFAULT_BPM -> a
    int QUARTER_DURATIONS_IN_WHOLE -> a
    byte[] convertToThreeTempoBytes(int) -> a
    double convertBPMToMicrosecondsPerBeat(int) -> a
org.jfugue.Voice -> org.b.z:
    byte voice -> a
    void setVoice(byte) -> a
    byte getVoice() -> a
org.json.JSONArray -> org.c.a:
    java.util.ArrayList myArrayList -> a
    java.lang.Object get(int) -> a
    org.json.JSONObject getJSONObject(int) -> a
    java.lang.String getString(int) -> a
    int length() -> a
    java.lang.Object opt(int) -> b
    org.json.JSONArray put(java.lang.Object) -> a
    java.lang.String toString() -> toString
    java.lang.String toString(int) -> b
    java.io.Writer write(java.io.Writer,int,int) -> a
org.json.JSONException -> org.c.b:
    java.lang.Throwable cause -> a
    java.lang.Throwable getCause() -> getCause
org.json.JSONObject -> org.c.c:
    java.util.Map map -> a
    java.lang.Object NULL -> a
    java.lang.Object get(java.lang.String) -> a
    double getDouble(java.lang.String) -> a
    int getInt(java.lang.String) -> a
    org.json.JSONArray getJSONArray(java.lang.String) -> a
    org.json.JSONObject getJSONObject(java.lang.String) -> a
    java.lang.String getString(java.lang.String) -> a
    boolean has(java.lang.String) -> a
    java.util.Iterator keys() -> a
    java.util.Set keySet() -> a
    int length() -> a
    java.lang.String numberToString(java.lang.Number) -> a
    java.lang.Object opt(java.lang.String) -> b
    void populateMap(java.lang.Object) -> b
    org.json.JSONObject put(java.lang.String,java.lang.Object) -> a
    org.json.JSONObject putOnce(java.lang.String,java.lang.Object) -> b
    java.lang.String quote(java.lang.String) -> b
    java.io.Writer quote(java.lang.String,java.io.Writer) -> a
    java.lang.Object remove(java.lang.String) -> c
    java.lang.Object stringToValue(java.lang.String) -> d
    void testValidity(java.lang.Object) -> a
    java.lang.String toString() -> toString
    java.lang.String toString(int) -> a
    java.lang.Object wrap(java.lang.Object) -> a
    java.io.Writer writeValue(java.io.Writer,java.lang.Object,int,int) -> a
    void indent(java.io.Writer,int) -> a
    java.io.Writer write(java.io.Writer,int,int) -> a
org.json.JSONObject$Null -> org.c.c$a:
    java.lang.Object clone() -> clone
    boolean equals(java.lang.Object) -> equals
    java.lang.String toString() -> toString
org.json.JSONString -> org.c.d:
    java.lang.String toJSONString() -> a
org.json.JSONTokener -> org.c.e:
    long character -> a
    boolean eof -> a
    long index -> b
    long line -> c
    char previous -> a
    java.io.Reader reader -> a
    boolean usePrevious -> b
    void back() -> a
    boolean end() -> a
    char next() -> a
    java.lang.String next(int) -> a
    char nextClean() -> b
    java.lang.String nextString(char) -> a
    java.lang.Object nextValue() -> a
    org.json.JSONException syntaxError(java.lang.String) -> a
    java.lang.String toString() -> toString
org.scilab.forge.jlatexmath.AccentedAtom -> org.scilab.forge.jlatexmath.AccentedAtom:
    org.scilab.forge.jlatexmath.SymbolAtom accent -> a
    boolean acc -> a
    boolean changeSize -> b
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Atom underbase -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.AlphabetRegistration -> org.scilab.forge.jlatexmath.AlphabetRegistration:
    java.lang.Character$UnicodeBlock[] JLM_GREEK -> a
    java.lang.Character$UnicodeBlock[] JLM_CYRILLIC -> b
    java.lang.Character$UnicodeBlock[] getUnicodeBlock() -> getUnicodeBlock
    java.lang.Object getPackage() -> getPackage
    java.lang.String getTeXFontFileName() -> getTeXFontFileName
org.scilab.forge.jlatexmath.AlphabetRegistrationException -> org.scilab.forge.jlatexmath.AlphabetRegistrationException:
org.scilab.forge.jlatexmath.ArrayOfAtoms -> org.scilab.forge.jlatexmath.ArrayOfAtoms:
    java.util.LinkedList array -> a
    int col -> a
    int row -> b
    void addCol() -> addCol
    void addCol(int) -> addCol
    void addRow() -> addRow
    int getRows() -> getRows
    int getCols() -> getCols
    org.scilab.forge.jlatexmath.VRowAtom getAsVRow() -> getAsVRow
    void checkDimensions() -> checkDimensions
org.scilab.forge.jlatexmath.Atom -> org.scilab.forge.jlatexmath.Atom:
    int type -> a
    int type_limits -> b
    int alignment -> c
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    org.scilab.forge.jlatexmath.Atom clone() -> clone
    java.lang.Object clone() -> clone
org.scilab.forge.jlatexmath.BigDelimiterAtom -> org.scilab.forge.jlatexmath.BigDelimiterAtom:
    org.scilab.forge.jlatexmath.SymbolAtom delim -> a
    int size -> d
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.BigOperatorAtom -> org.scilab.forge.jlatexmath.BigOperatorAtom:
    org.scilab.forge.jlatexmath.Atom under -> b
    org.scilab.forge.jlatexmath.Atom over -> c
    org.scilab.forge.jlatexmath.Atom base -> a
    boolean limitsSet -> a
    boolean limits -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    org.scilab.forge.jlatexmath.Box changeWidth(org.scilab.forge.jlatexmath.Box,float) -> changeWidth
org.scilab.forge.jlatexmath.BoldAtom -> org.scilab.forge.jlatexmath.BoldAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.Box -> org.scilab.forge.jlatexmath.Box:
    boolean DEBUG -> a
    java.awt.Color foreground -> a
    java.awt.Color background -> b
    java.awt.Color prevColor -> d
    float width -> a
    float height -> b
    float depth -> c
    float shift -> d
    int type -> a
    java.util.LinkedList children -> a
    org.scilab.forge.jlatexmath.Box parent -> a
    org.scilab.forge.jlatexmath.Box elderParent -> b
    java.awt.Color markForDEBUG -> c
    void add(org.scilab.forge.jlatexmath.Box) -> add
    void add(int,org.scilab.forge.jlatexmath.Box) -> add
    void setParent(org.scilab.forge.jlatexmath.Box) -> setParent
    org.scilab.forge.jlatexmath.Box getParent() -> getParent
    void setElderParent(org.scilab.forge.jlatexmath.Box) -> setElderParent
    org.scilab.forge.jlatexmath.Box getElderParent() -> getElderParent
    float getWidth() -> getWidth
    void negWidth() -> negWidth
    float getHeight() -> getHeight
    float getDepth() -> getDepth
    float getShift() -> getShift
    void setWidth(float) -> setWidth
    void setDepth(float) -> setDepth
    void setHeight(float) -> setHeight
    void setShift(float) -> setShift
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
    void startDraw(java.awt.Graphics2D,float,float) -> startDraw
    void drawDebug(java.awt.Graphics2D,float,float,boolean) -> drawDebug
    void drawDebug(java.awt.Graphics2D,float,float) -> drawDebug
    void endDraw(java.awt.Graphics2D) -> endDraw
org.scilab.forge.jlatexmath.BreakFormula -> org.scilab.forge.jlatexmath.BreakFormula:
    org.scilab.forge.jlatexmath.Box split(org.scilab.forge.jlatexmath.Box,float,float) -> split
    org.scilab.forge.jlatexmath.Box split(org.scilab.forge.jlatexmath.HorizontalBox,float,float) -> split
    org.scilab.forge.jlatexmath.Box split(org.scilab.forge.jlatexmath.VerticalBox,float,float) -> split
    float canBreak(java.util.Stack,org.scilab.forge.jlatexmath.HorizontalBox,float) -> canBreak
    int getBreakPosition(org.scilab.forge.jlatexmath.HorizontalBox,int) -> getBreakPosition
org.scilab.forge.jlatexmath.BreakFormula$Position -> org.scilab.forge.jlatexmath.BreakFormula$Position:
    int index -> a
    org.scilab.forge.jlatexmath.HorizontalBox hbox -> a
org.scilab.forge.jlatexmath.BreakMarkAtom -> org.scilab.forge.jlatexmath.BreakMarkAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.CedillaAtom -> org.scilab.forge.jlatexmath.CedillaAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.Char -> org.scilab.forge.jlatexmath.Char:
    char c -> a
    java.awt.Font font -> a
    org.scilab.forge.jlatexmath.Metrics m -> a
    int fontCode -> a
    org.scilab.forge.jlatexmath.CharFont getCharFont() -> getCharFont
    char getChar() -> getChar
    java.awt.Font getFont() -> getFont
    int getFontCode() -> getFontCode
    float getWidth() -> getWidth
    float getItalic() -> getItalic
    float getHeight() -> getHeight
    float getDepth() -> getDepth
    org.scilab.forge.jlatexmath.Metrics getMetrics() -> getMetrics
org.scilab.forge.jlatexmath.CharAtom -> org.scilab.forge.jlatexmath.CharAtom:
    char c -> a
    java.lang.String textStyle -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    char getCharacter() -> getCharacter
    org.scilab.forge.jlatexmath.Char getChar(org.scilab.forge.jlatexmath.TeXFont,int,boolean) -> getChar
    org.scilab.forge.jlatexmath.CharFont getCharFont(org.scilab.forge.jlatexmath.TeXFont) -> getCharFont
    java.lang.String toString() -> toString
org.scilab.forge.jlatexmath.CharBox -> org.scilab.forge.jlatexmath.CharBox:
    org.scilab.forge.jlatexmath.CharFont cf -> a
    float size -> e
    char[] arr -> a
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
    java.lang.String toString() -> toString
org.scilab.forge.jlatexmath.CharFont -> org.scilab.forge.jlatexmath.CharFont:
    char c -> a
    int fontId -> a
    int boldFontId -> b
org.scilab.forge.jlatexmath.CharSymbol -> org.scilab.forge.jlatexmath.CharSymbol:
    boolean textSymbol -> a
    void markAsTextSymbol() -> markAsTextSymbol
    void removeMark() -> removeMark
    boolean isMarkedAsTextSymbol() -> isMarkedAsTextSymbol
    org.scilab.forge.jlatexmath.CharFont getCharFont(org.scilab.forge.jlatexmath.TeXFont) -> getCharFont
org.scilab.forge.jlatexmath.ColorAtom -> org.scilab.forge.jlatexmath.ColorAtom:
    java.util.Map Colors -> a
    java.awt.Color background -> a
    java.awt.Color color -> b
    org.scilab.forge.jlatexmath.RowAtom elements -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    void setPreviousAtom(org.scilab.forge.jlatexmath.Dummy) -> setPreviousAtom
    java.awt.Color getColor(java.lang.String) -> getColor
    void initColors() -> initColors
    java.awt.Color convColor(float,float,float,float) -> convColor
org.scilab.forge.jlatexmath.CumulativeScriptsAtom -> org.scilab.forge.jlatexmath.CumulativeScriptsAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.RowAtom sup -> a
    org.scilab.forge.jlatexmath.RowAtom sub -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.DdotsAtom -> org.scilab.forge.jlatexmath.DdotsAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.DefaultTeXFont -> org.scilab.forge.jlatexmath.DefaultTeXFont:
    java.lang.String[] defaultTextStyleMappings -> a
    java.util.Map textStyleMappings -> b
    java.util.Map symbolMappings -> c
    org.scilab.forge.jlatexmath.FontInfo[] fontInfo -> a
    java.util.Map parameters -> d
    java.util.Map generalSettings -> e
    boolean magnificationEnable -> f
    java.util.List loadedAlphabets -> a
    java.util.Map registeredAlphabets -> a
    float factor -> a
    boolean isBold -> a
    boolean isRoman -> b
    boolean isSs -> c
    boolean isTt -> d
    boolean isIt -> e
    float size -> b
    void addTeXFontDescription(java.lang.String) -> addTeXFontDescription
    void addTeXFontDescription(java.io.InputStream,java.lang.String) -> addTeXFontDescription
    void addTeXFontDescription(java.lang.Object,java.io.InputStream,java.lang.String) -> addTeXFontDescription
    void addAlphabet(java.lang.Character$UnicodeBlock,java.io.InputStream,java.lang.String,java.io.InputStream,java.lang.String,java.io.InputStream,java.lang.String) -> addAlphabet
    void addAlphabet(java.lang.Object,java.lang.Character$UnicodeBlock[],java.lang.String) -> addAlphabet
    void addAlphabet(java.lang.Character$UnicodeBlock,java.lang.String) -> addAlphabet
    void addAlphabet(org.scilab.forge.jlatexmath.AlphabetRegistration) -> addAlphabet
    void registerAlphabet(org.scilab.forge.jlatexmath.AlphabetRegistration) -> registerAlphabet
    org.scilab.forge.jlatexmath.TeXFont copy() -> copy
    org.scilab.forge.jlatexmath.TeXFont deriveFont(float) -> deriveFont
    org.scilab.forge.jlatexmath.TeXFont scaleFont(float) -> scaleFont
    float getScaleFactor() -> getScaleFactor
    float getAxisHeight(int) -> getAxisHeight
    float getBigOpSpacing1(int) -> getBigOpSpacing1
    float getBigOpSpacing2(int) -> getBigOpSpacing2
    float getBigOpSpacing3(int) -> getBigOpSpacing3
    float getBigOpSpacing4(int) -> getBigOpSpacing4
    float getBigOpSpacing5(int) -> getBigOpSpacing5
    org.scilab.forge.jlatexmath.Char getChar(char,org.scilab.forge.jlatexmath.CharFont[],int) -> getChar
    org.scilab.forge.jlatexmath.Char getChar(char,java.lang.String,int) -> getChar
    org.scilab.forge.jlatexmath.Char getChar(org.scilab.forge.jlatexmath.CharFont,int) -> getChar
    org.scilab.forge.jlatexmath.Char getChar(java.lang.String,int) -> getChar
    org.scilab.forge.jlatexmath.Char getDefaultChar(char,int) -> getDefaultChar
    float getDefaultRuleThickness(int) -> getDefaultRuleThickness
    float getDenom1(int) -> getDenom1
    float getDenom2(int) -> getDenom2
    org.scilab.forge.jlatexmath.Extension getExtension(org.scilab.forge.jlatexmath.Char,int) -> getExtension
    float getKern(org.scilab.forge.jlatexmath.CharFont,org.scilab.forge.jlatexmath.CharFont,int) -> getKern
    org.scilab.forge.jlatexmath.CharFont getLigature(org.scilab.forge.jlatexmath.CharFont,org.scilab.forge.jlatexmath.CharFont) -> getLigature
    org.scilab.forge.jlatexmath.Metrics getMetrics(org.scilab.forge.jlatexmath.CharFont,float) -> getMetrics
    int getMuFontId() -> getMuFontId
    org.scilab.forge.jlatexmath.Char getNextLarger(org.scilab.forge.jlatexmath.Char,int) -> getNextLarger
    float getNum1(int) -> getNum1
    float getNum2(int) -> getNum2
    float getNum3(int) -> getNum3
    float getQuad(int,int) -> getQuad
    float getSize() -> getSize
    float getSkew(org.scilab.forge.jlatexmath.CharFont,int) -> getSkew
    float getSpace(int) -> getSpace
    float getSub1(int) -> getSub1
    float getSub2(int) -> getSub2
    float getSubDrop(int) -> getSubDrop
    float getSup1(int) -> getSup1
    float getSup2(int) -> getSup2
    float getSup3(int) -> getSup3
    float getSupDrop(int) -> getSupDrop
    float getXHeight(int,int) -> getXHeight
    float getEM(int) -> getEM
    boolean hasNextLarger(org.scilab.forge.jlatexmath.Char) -> hasNextLarger
    void setBold(boolean) -> setBold
    boolean getBold() -> getBold
    void setRoman(boolean) -> setRoman
    boolean getRoman() -> getRoman
    void setTt(boolean) -> setTt
    boolean getTt() -> getTt
    void setIt(boolean) -> setIt
    boolean getIt() -> getIt
    void setSs(boolean) -> setSs
    boolean getSs() -> getSs
    boolean hasSpace(int) -> hasSpace
    boolean isExtensionChar(org.scilab.forge.jlatexmath.Char) -> isExtensionChar
    void setMathSizes(float,float,float,float) -> setMathSizes
    void setMagnification(float) -> setMagnification
    void enableMagnification(boolean) -> enableMagnification
    float getParameter(java.lang.String) -> getParameter
    float getSizeFactor(int) -> getSizeFactor
org.scilab.forge.jlatexmath.DefaultTeXFontParser -> org.scilab.forge.jlatexmath.DefaultTeXFontParser:
    boolean registerFontExceptionDisplayed -> a
    boolean shouldRegisterFonts -> b
    javax.xml.parsers.DocumentBuilderFactory factory -> a
    java.util.ArrayList Font_ID -> a
    java.util.Map rangeTypeMappings -> a
    java.util.Map charChildParsers -> b
    java.util.Map parsedTextStyles -> c
    org.w3c.dom.Element root -> a
    java.lang.Object base -> a
    void setCharChildParsers() -> setCharChildParsers
    org.scilab.forge.jlatexmath.FontInfo[] parseFontDescriptions(org.scilab.forge.jlatexmath.FontInfo[],java.io.InputStream,java.lang.String) -> parseFontDescriptions
    org.scilab.forge.jlatexmath.FontInfo[] parseFontDescriptions(org.scilab.forge.jlatexmath.FontInfo[]) -> parseFontDescriptions
    void parseExtraPath() -> parseExtraPath
    void processCharElement(org.w3c.dom.Element,org.scilab.forge.jlatexmath.FontInfo) -> processCharElement
    void registerFonts(boolean) -> registerFonts
    java.awt.Font createFont(java.lang.String) -> createFont
    java.awt.Font createFont(java.io.InputStream,java.lang.String) -> createFont
    java.util.Map parseSymbolMappings() -> parseSymbolMappings
    java.lang.String[] parseDefaultTextStyleMappings() -> parseDefaultTextStyleMappings
    java.util.Map parseParameters() -> parseParameters
    java.util.Map parseGeneralSettings() -> parseGeneralSettings
    java.util.Map parseTextStyleMappings() -> parseTextStyleMappings
    java.util.Map parseStyleMappings() -> parseStyleMappings
    void setRangeTypeMappings() -> setRangeTypeMappings
    java.lang.String getAttrValueAndCheckIfNotNull(java.lang.String,org.w3c.dom.Element) -> getAttrValueAndCheckIfNotNull
    float getFloatAndCheck(java.lang.String,org.w3c.dom.Element) -> getFloatAndCheck
    int getIntAndCheck(java.lang.String,org.w3c.dom.Element) -> getIntAndCheck
    int getOptionalInt(java.lang.String,org.w3c.dom.Element,int) -> getOptionalInt
    float getOptionalFloat(java.lang.String,org.w3c.dom.Element,float) -> getOptionalFloat
    java.lang.String access$000(java.lang.String,org.w3c.dom.Element) -> access$000
org.scilab.forge.jlatexmath.DefaultTeXFontParser$CharChildParser -> org.scilab.forge.jlatexmath.DefaultTeXFontParser$CharChildParser:
    void parse(org.w3c.dom.Element,char,org.scilab.forge.jlatexmath.FontInfo) -> parse
org.scilab.forge.jlatexmath.DefaultTeXFontParser$ExtensionParser -> org.scilab.forge.jlatexmath.DefaultTeXFontParser$ExtensionParser:
    void parse(org.w3c.dom.Element,char,org.scilab.forge.jlatexmath.FontInfo) -> parse
org.scilab.forge.jlatexmath.DefaultTeXFontParser$KernParser -> org.scilab.forge.jlatexmath.DefaultTeXFontParser$KernParser:
    void parse(org.w3c.dom.Element,char,org.scilab.forge.jlatexmath.FontInfo) -> parse
org.scilab.forge.jlatexmath.DefaultTeXFontParser$LigParser -> org.scilab.forge.jlatexmath.DefaultTeXFontParser$LigParser:
    void parse(org.w3c.dom.Element,char,org.scilab.forge.jlatexmath.FontInfo) -> parse
org.scilab.forge.jlatexmath.DefaultTeXFontParser$NextLargerParser -> org.scilab.forge.jlatexmath.DefaultTeXFontParser$NextLargerParser:
    void parse(org.w3c.dom.Element,char,org.scilab.forge.jlatexmath.FontInfo) -> parse
org.scilab.forge.jlatexmath.DelimiterFactory -> org.scilab.forge.jlatexmath.DelimiterFactory:
    org.scilab.forge.jlatexmath.Box create(org.scilab.forge.jlatexmath.SymbolAtom,org.scilab.forge.jlatexmath.TeXEnvironment,int) -> create
    org.scilab.forge.jlatexmath.Box create(java.lang.String,org.scilab.forge.jlatexmath.TeXEnvironment,float) -> create
org.scilab.forge.jlatexmath.DelimiterMappingNotFoundException -> org.scilab.forge.jlatexmath.DelimiterMappingNotFoundException:
org.scilab.forge.jlatexmath.DoubleFramedAtom -> org.scilab.forge.jlatexmath.DoubleFramedAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.Dummy -> org.scilab.forge.jlatexmath.Dummy:
    org.scilab.forge.jlatexmath.Atom el -> a
    boolean textSymbol -> a
    int type -> a
    void setType(int) -> setType
    int getType() -> getType
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    boolean isCharSymbol() -> isCharSymbol
    org.scilab.forge.jlatexmath.CharFont getCharFont(org.scilab.forge.jlatexmath.TeXFont) -> getCharFont
    void changeAtom(org.scilab.forge.jlatexmath.FixedCharAtom) -> changeAtom
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    void markAsTextSymbol() -> markAsTextSymbol
    boolean isKern() -> isKern
    void setPreviousAtom(org.scilab.forge.jlatexmath.Dummy) -> setPreviousAtom
org.scilab.forge.jlatexmath.EmptyAtom -> org.scilab.forge.jlatexmath.EmptyAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.EmptyFormulaException -> org.scilab.forge.jlatexmath.EmptyFormulaException:
org.scilab.forge.jlatexmath.Extension -> org.scilab.forge.jlatexmath.Extension:
    org.scilab.forge.jlatexmath.Char top -> a
    org.scilab.forge.jlatexmath.Char middle -> b
    org.scilab.forge.jlatexmath.Char bottom -> c
    org.scilab.forge.jlatexmath.Char repeat -> d
    boolean hasTop() -> hasTop
    boolean hasMiddle() -> hasMiddle
    boolean hasBottom() -> hasBottom
    org.scilab.forge.jlatexmath.Char getTop() -> getTop
    org.scilab.forge.jlatexmath.Char getMiddle() -> getMiddle
    org.scilab.forge.jlatexmath.Char getRepeat() -> getRepeat
    org.scilab.forge.jlatexmath.Char getBottom() -> getBottom
org.scilab.forge.jlatexmath.FBoxAtom -> org.scilab.forge.jlatexmath.FBoxAtom:
    float INTERSPACE -> a
    org.scilab.forge.jlatexmath.Atom base -> a
    java.awt.Color bg -> a
    java.awt.Color line -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.FcscoreAtom -> org.scilab.forge.jlatexmath.FcscoreAtom:
    int N -> d
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.FcscoreBox -> org.scilab.forge.jlatexmath.FcscoreBox:
    int N -> b
    boolean strike -> b
    float space -> e
    float thickness -> f
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.FencedAtom -> org.scilab.forge.jlatexmath.FencedAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.SymbolAtom left -> a
    org.scilab.forge.jlatexmath.SymbolAtom right -> b
    java.util.List middle -> a
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    void center(org.scilab.forge.jlatexmath.Box,float) -> center
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.FixedCharAtom -> org.scilab.forge.jlatexmath.FixedCharAtom:
    org.scilab.forge.jlatexmath.CharFont cf -> a
    org.scilab.forge.jlatexmath.CharFont getCharFont(org.scilab.forge.jlatexmath.TeXFont) -> getCharFont
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.FontAlreadyLoadedException -> org.scilab.forge.jlatexmath.FontAlreadyLoadedException:
org.scilab.forge.jlatexmath.FontInfo -> org.scilab.forge.jlatexmath.FontInfo:
    java.util.Map fonts -> a
    int fontId -> a
    java.awt.Font font -> a
    java.lang.Object base -> a
    java.lang.String path -> f
    java.lang.String fontName -> g
    java.util.Map lig -> b
    java.util.Map kern -> c
    float[][] metrics -> a
    org.scilab.forge.jlatexmath.CharFont[] nextLarger -> a
    int[][] extensions -> a
    java.util.HashMap unicode -> a
    char skewChar -> a
    float xHeight -> a
    float space -> b
    float quad -> c
    int boldId -> b
    int romanId -> c
    int ssId -> d
    int ttId -> e
    int itId -> f
    java.lang.String boldVersion -> a
    java.lang.String romanVersion -> b
    java.lang.String ssVersion -> c
    java.lang.String ttVersion -> d
    java.lang.String itVersion -> e
    void addKern(char,char,float) -> addKern
    void addLigature(char,char,char) -> addLigature
    int[] getExtension(char) -> getExtension
    float getKern(char,char,float) -> getKern
    org.scilab.forge.jlatexmath.CharFont getLigature(char,char) -> getLigature
    float[] getMetrics(char) -> getMetrics
    org.scilab.forge.jlatexmath.CharFont getNextLarger(char) -> getNextLarger
    float getQuad(float) -> getQuad
    char getSkewChar() -> getSkewChar
    float getSpace(float) -> getSpace
    float getXHeight(float) -> getXHeight
    boolean hasSpace() -> hasSpace
    void setExtension(char,int[]) -> setExtension
    void setMetrics(char,float[]) -> setMetrics
    void setNextLarger(char,char,int) -> setNextLarger
    void setSkewChar(char) -> setSkewChar
    int getId() -> getId
    int getBoldId() -> getBoldId
    int getRomanId() -> getRomanId
    int getTtId() -> getTtId
    int getItId() -> getItId
    int getSsId() -> getSsId
    void setSsId(int) -> setSsId
    void setTtId(int) -> setTtId
    void setItId(int) -> setItId
    void setRomanId(int) -> setRomanId
    void setBoldId(int) -> setBoldId
    java.awt.Font getFont() -> getFont
    java.awt.Font getFont(int) -> getFont
org.scilab.forge.jlatexmath.FontInfo$CharCouple -> org.scilab.forge.jlatexmath.FontInfo$CharCouple:
    char left -> a
    char right -> b
    org.scilab.forge.jlatexmath.FontInfo this$0 -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
org.scilab.forge.jlatexmath.FormulaNotFoundException -> org.scilab.forge.jlatexmath.FormulaNotFoundException:
org.scilab.forge.jlatexmath.FractionAtom -> org.scilab.forge.jlatexmath.FractionAtom:
    boolean noDefault -> a
    int unit -> d
    int numAlign -> e
    int denomAlign -> f
    org.scilab.forge.jlatexmath.Atom numerator -> a
    org.scilab.forge.jlatexmath.Atom denominator -> b
    float thickness -> a
    float defFactor -> b
    boolean defFactorSet -> b
    int checkAlignment(int) -> checkAlignment
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.FramedBox -> org.scilab.forge.jlatexmath.FramedBox:
    org.scilab.forge.jlatexmath.Box box -> c
    float thickness -> e
    float space -> f
    java.awt.Color line -> d
    java.awt.Color bg -> e
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.GeoGebraLogoAtom -> org.scilab.forge.jlatexmath.GeoGebraLogoAtom:
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.GeoGebraLogoBox -> org.scilab.forge.jlatexmath.GeoGebraLogoBox:
    java.awt.Color gray -> d
    java.awt.Color blue -> e
    java.awt.BasicStroke st -> a
    java.awt.BasicStroke stC -> b
    void draw(java.awt.Graphics2D,float,float) -> draw
    void drawCircle(java.awt.Graphics2D,float,float) -> drawCircle
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.Glue -> org.scilab.forge.jlatexmath.Glue:
    float space -> a
    float stretch -> b
    float shrink -> c
    java.lang.String name -> a
    org.scilab.forge.jlatexmath.Glue[] glueTypes -> a
    int[][][] glueTable -> a
    java.lang.String getName() -> getName
    org.scilab.forge.jlatexmath.Box get(int,int,org.scilab.forge.jlatexmath.TeXEnvironment) -> get
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.GlueBox -> org.scilab.forge.jlatexmath.GlueBox:
    float stretch -> e
    float shrink -> f
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.GlueSettingsParser -> org.scilab.forge.jlatexmath.GlueSettingsParser:
    java.util.Map typeMappings -> a
    java.util.Map glueTypeMappings -> b
    org.scilab.forge.jlatexmath.Glue[] glueTypes -> a
    java.util.Map styleMappings -> c
    org.w3c.dom.Element root -> a
    void setStyleMappings() -> setStyleMappings
    void parseGlueTypes() -> parseGlueTypes
    org.scilab.forge.jlatexmath.Glue createGlue(org.w3c.dom.Element,java.lang.String) -> createGlue
    void setTypeMappings() -> setTypeMappings
    org.scilab.forge.jlatexmath.Glue[] getGlueTypes() -> getGlueTypes
    int[][][] createGlueTable() -> createGlueTable
    void checkMapping(java.lang.Object,java.lang.String,java.lang.String,java.lang.String) -> checkMapping
    java.lang.String getAttrValueAndCheckIfNotNull(java.lang.String,org.w3c.dom.Element) -> getAttrValueAndCheckIfNotNull
org.scilab.forge.jlatexmath.GraphicsAtom -> org.scilab.forge.jlatexmath.GraphicsAtom:
    java.awt.Image image -> a
    java.awt.image.BufferedImage bimage -> a
    java.awt.Label c -> a
    int w -> d
    int h -> e
    org.scilab.forge.jlatexmath.Atom base -> a
    boolean first -> a
    int interp -> f
    void buildAtom(java.lang.String) -> buildAtom
    void draw() -> draw
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.GraphicsBox -> org.scilab.forge.jlatexmath.GraphicsBox:
    java.awt.image.BufferedImage image -> a
    float scl -> e
    java.lang.Object interp -> a
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.HdotsforAtom -> org.scilab.forge.jlatexmath.HdotsforAtom:
    org.scilab.forge.jlatexmath.Atom ldotp -> b
    org.scilab.forge.jlatexmath.Atom thin -> c
    float coeff -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.HlineAtom -> org.scilab.forge.jlatexmath.HlineAtom:
    float width -> a
    float shift -> b
    void setWidth(float) -> setWidth
    void setShift(float) -> setShift
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.HorizontalBox -> org.scilab.forge.jlatexmath.HorizontalBox:
    float curPos -> e
    java.util.List breakPositions -> a
    org.scilab.forge.jlatexmath.HorizontalBox cloneBox() -> cloneBox
    void draw(java.awt.Graphics2D,float,float) -> draw
    void add(org.scilab.forge.jlatexmath.Box) -> add
    void add(int,org.scilab.forge.jlatexmath.Box) -> add
    void recalculate(org.scilab.forge.jlatexmath.Box) -> recalculate
    int getLastFontId() -> getLastFontId
    void addBreakPosition(int) -> addBreakPosition
    org.scilab.forge.jlatexmath.HorizontalBox[] split(int) -> split
    org.scilab.forge.jlatexmath.HorizontalBox[] splitRemove(int) -> splitRemove
    org.scilab.forge.jlatexmath.HorizontalBox[] split(int,int) -> split
org.scilab.forge.jlatexmath.HorizontalRule -> org.scilab.forge.jlatexmath.HorizontalRule:
    java.awt.Color color -> d
    float speShift -> e
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.IJAtom -> org.scilab.forge.jlatexmath.IJAtom:
    boolean upper -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.IddotsAtom -> org.scilab.forge.jlatexmath.IddotsAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.InvalidAtomTypeException -> org.scilab.forge.jlatexmath.InvalidAtomTypeException:
org.scilab.forge.jlatexmath.InvalidDelimiterException -> org.scilab.forge.jlatexmath.InvalidDelimiterException:
org.scilab.forge.jlatexmath.InvalidDelimiterTypeException -> org.scilab.forge.jlatexmath.InvalidDelimiterTypeException:
org.scilab.forge.jlatexmath.InvalidMatrixException -> org.scilab.forge.jlatexmath.InvalidMatrixException:
org.scilab.forge.jlatexmath.InvalidSymbolTypeException -> org.scilab.forge.jlatexmath.InvalidSymbolTypeException:
org.scilab.forge.jlatexmath.InvalidTeXFormulaException -> org.scilab.forge.jlatexmath.InvalidTeXFormulaException:
org.scilab.forge.jlatexmath.InvalidUnitException -> org.scilab.forge.jlatexmath.InvalidUnitException:
org.scilab.forge.jlatexmath.ItAtom -> org.scilab.forge.jlatexmath.ItAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.JMathTeXException -> org.scilab.forge.jlatexmath.JMathTeXException:
org.scilab.forge.jlatexmath.JavaFontRenderingAtom -> org.scilab.forge.jlatexmath.JavaFontRenderingAtom:
    java.lang.String str -> a
    int type -> d
    org.scilab.forge.jlatexmath.TeXFormula$FontInfos fontInfos -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.JavaFontRenderingBox -> org.scilab.forge.jlatexmath.JavaFontRenderingBox:
    java.awt.Graphics2D TEMPGRAPHIC -> a
    java.awt.Font font -> a
    java.lang.String str -> a
    java.awt.font.TextLayout text -> a
    float size -> e
    java.awt.font.TextAttribute KERNING -> a
    java.lang.Integer KERNING_ON -> a
    java.awt.font.TextAttribute LIGATURES -> b
    java.lang.Integer LIGATURES_ON -> b
    void setFont(java.lang.String) -> setFont
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.LCaronAtom -> org.scilab.forge.jlatexmath.LCaronAtom:
    boolean upper -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.LaTeXAtom -> org.scilab.forge.jlatexmath.LaTeXAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.LapedAtom -> org.scilab.forge.jlatexmath.LapedAtom:
    org.scilab.forge.jlatexmath.Atom at -> a
    char type -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.MacroInfo -> org.scilab.forge.jlatexmath.MacroInfo:
    java.util.HashMap Commands -> a
    java.util.HashMap Packages -> b
    java.lang.Object pack -> a
    java.lang.reflect.Method macro -> a
    int nbArgs -> a
    boolean hasOptions -> a
    int posOpts -> b
    java.lang.Object invoke(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> invoke
org.scilab.forge.jlatexmath.MathAtom -> org.scilab.forge.jlatexmath.MathAtom:
    int style -> d
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.MatrixAtom -> org.scilab.forge.jlatexmath.MatrixAtom:
    org.scilab.forge.jlatexmath.SpaceAtom hsep -> a
    org.scilab.forge.jlatexmath.SpaceAtom semihsep -> b
    org.scilab.forge.jlatexmath.SpaceAtom vsep_in -> c
    org.scilab.forge.jlatexmath.SpaceAtom vsep_ext_top -> d
    org.scilab.forge.jlatexmath.SpaceAtom vsep_ext_bot -> e
    org.scilab.forge.jlatexmath.Box nullBox -> a
    org.scilab.forge.jlatexmath.ArrayOfAtoms matrix -> a
    int[] position -> a
    java.util.Map vlines -> a
    int type -> d
    boolean isPartial -> a
    boolean spaceAround -> b
    org.scilab.forge.jlatexmath.SpaceAtom align -> f
    void parsePositions(java.lang.StringBuffer) -> parsePositions
    org.scilab.forge.jlatexmath.Box[] getColumnSep(org.scilab.forge.jlatexmath.TeXEnvironment,float) -> getColumnSep
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    org.scilab.forge.jlatexmath.Box generateMulticolumn(org.scilab.forge.jlatexmath.TeXEnvironment,org.scilab.forge.jlatexmath.Box[],float[],int,int) -> generateMulticolumn
org.scilab.forge.jlatexmath.Metrics -> org.scilab.forge.jlatexmath.Metrics:
    float w -> a
    float h -> b
    float d -> c
    float i -> d
    float s -> e
    float getWidth() -> getWidth
    float getHeight() -> getHeight
    float getDepth() -> getDepth
    float getItalic() -> getItalic
    float getSize() -> getSize
org.scilab.forge.jlatexmath.MiddleAtom -> org.scilab.forge.jlatexmath.MiddleAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box box -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.MonoScaleAtom -> org.scilab.forge.jlatexmath.MonoScaleAtom:
    float factor -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.MulticolumnAtom -> org.scilab.forge.jlatexmath.MulticolumnAtom:
    int n -> d
    int align -> e
    float w -> a
    org.scilab.forge.jlatexmath.Atom cols -> a
    int beforeVlines -> f
    int afterVlines -> g
    int row -> h
    int col -> i
    void setWidth(float) -> setWidth
    int getSkipped() -> getSkipped
    boolean hasRightVline() -> hasRightVline
    void setRowColumn(int,int) -> setRowColumn
    int getRow() -> getRow
    int getCol() -> getCol
    int parseAlign(java.lang.String) -> parseAlign
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.MultlineAtom -> org.scilab.forge.jlatexmath.MultlineAtom:
    org.scilab.forge.jlatexmath.SpaceAtom vsep_in -> a
    org.scilab.forge.jlatexmath.ArrayOfAtoms column -> a
    int type -> d
    boolean isPartial -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.NewCommandMacro -> org.scilab.forge.jlatexmath.NewCommandMacro:
    java.util.HashMap macrocode -> a
    java.util.HashMap macroreplacement -> b
    void addNewCommand(java.lang.String,java.lang.String,int) -> addNewCommand
    void addNewCommand(java.lang.String,java.lang.String,int,java.lang.String) -> addNewCommand
    boolean isMacro(java.lang.String) -> isMacro
    void addReNewCommand(java.lang.String,java.lang.String,int) -> addReNewCommand
    java.lang.String executeMacro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> executeMacro
org.scilab.forge.jlatexmath.NewEnvironmentMacro -> org.scilab.forge.jlatexmath.NewEnvironmentMacro:
    void addNewEnvironment(java.lang.String,java.lang.String,java.lang.String,int) -> addNewEnvironment
    void addReNewEnvironment(java.lang.String,java.lang.String,java.lang.String,int) -> addReNewEnvironment
org.scilab.forge.jlatexmath.NthRoot -> org.scilab.forge.jlatexmath.NthRoot:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Atom root -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.OgonekAtom -> org.scilab.forge.jlatexmath.OgonekAtom:
    org.scilab.forge.jlatexmath.SymbolAtom ogonek -> a
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.OvalAtom -> org.scilab.forge.jlatexmath.OvalAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.OvalBox -> org.scilab.forge.jlatexmath.OvalBox:
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.OverBar -> org.scilab.forge.jlatexmath.OverBar:
    int getLastFontId() -> getLastFontId
    int getSize() -> getSize
    void draw(java.awt.Graphics2D,float,float) -> draw
    void add(int,org.scilab.forge.jlatexmath.Box) -> add
org.scilab.forge.jlatexmath.OverUnderBox -> org.scilab.forge.jlatexmath.OverUnderBox:
    org.scilab.forge.jlatexmath.Box base -> c
    org.scilab.forge.jlatexmath.Box del -> d
    org.scilab.forge.jlatexmath.Box script -> e
    float kern -> e
    boolean over -> b
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.OverUnderDelimiter -> org.scilab.forge.jlatexmath.OverUnderDelimiter:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Atom script -> b
    org.scilab.forge.jlatexmath.SymbolAtom symbol -> a
    org.scilab.forge.jlatexmath.SpaceAtom kern -> a
    boolean over -> a
    void addScript(org.scilab.forge.jlatexmath.Atom) -> addScript
    boolean isOver() -> isOver
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    float getMaxWidth(org.scilab.forge.jlatexmath.Box,org.scilab.forge.jlatexmath.Box,org.scilab.forge.jlatexmath.Box) -> getMaxWidth
org.scilab.forge.jlatexmath.OverlinedAtom -> org.scilab.forge.jlatexmath.OverlinedAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ParseException -> org.scilab.forge.jlatexmath.ParseException:
org.scilab.forge.jlatexmath.ParseOption -> org.scilab.forge.jlatexmath.ParseOption:
    java.util.Map parseMap(java.lang.String) -> parseMap
org.scilab.forge.jlatexmath.PhantomAtom -> org.scilab.forge.jlatexmath.PhantomAtom:
    org.scilab.forge.jlatexmath.RowAtom elements -> a
    boolean w -> a
    boolean h -> b
    boolean d -> c
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    void setPreviousAtom(org.scilab.forge.jlatexmath.Dummy) -> setPreviousAtom
org.scilab.forge.jlatexmath.PredefMacroInfo -> org.scilab.forge.jlatexmath.PredefMacroInfo:
    int id -> c
    java.lang.Object invoke(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> invoke
    java.lang.Object invokeID(int,org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> invokeID
org.scilab.forge.jlatexmath.PredefMacros -> org.scilab.forge.jlatexmath.PredefMacros:
    org.scilab.forge.jlatexmath.Atom fcscore_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> fcscore_macro
    org.scilab.forge.jlatexmath.Atom st_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> st_macro
    org.scilab.forge.jlatexmath.Atom Braket_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Braket_macro
    org.scilab.forge.jlatexmath.Atom Set_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Set_macro
    org.scilab.forge.jlatexmath.Atom spATbreve_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> spATbreve_macro
    org.scilab.forge.jlatexmath.Atom spAThat_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> spAThat_macro
    org.scilab.forge.jlatexmath.Atom hvspace_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> hvspace_macro
    org.scilab.forge.jlatexmath.Atom clrlap_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> clrlap_macro
    org.scilab.forge.jlatexmath.Atom mathclrlap_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathclrlap_macro
    org.scilab.forge.jlatexmath.Atom includegraphics_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> includegraphics_macro
    org.scilab.forge.jlatexmath.Atom rule_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> rule_macro
    org.scilab.forge.jlatexmath.Atom cfrac_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> cfrac_macro
    org.scilab.forge.jlatexmath.Atom frac_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> frac_macro
    org.scilab.forge.jlatexmath.Atom sfrac_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> sfrac_macro
    org.scilab.forge.jlatexmath.Atom genfrac_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> genfrac_macro
    org.scilab.forge.jlatexmath.Atom over_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> over_macro
    org.scilab.forge.jlatexmath.Atom overwithdelims_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overwithdelims_macro
    org.scilab.forge.jlatexmath.Atom atop_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> atop_macro
    org.scilab.forge.jlatexmath.Atom atopwithdelims_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> atopwithdelims_macro
    org.scilab.forge.jlatexmath.Atom choose_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> choose_macro
    org.scilab.forge.jlatexmath.Atom binom_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> binom_macro
    org.scilab.forge.jlatexmath.Atom above_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> above_macro
    org.scilab.forge.jlatexmath.Atom abovewithdelims_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> abovewithdelims_macro
    org.scilab.forge.jlatexmath.Atom textstyle_macros(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> textstyle_macros
    org.scilab.forge.jlatexmath.Atom mbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mbox_macro
    org.scilab.forge.jlatexmath.Atom text_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> text_macro
    org.scilab.forge.jlatexmath.Atom underscore_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underscore_macro
    org.scilab.forge.jlatexmath.Atom accent_macros(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> accent_macros
    org.scilab.forge.jlatexmath.Atom grkaccent_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> grkaccent_macro
    org.scilab.forge.jlatexmath.Atom accent_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> accent_macro
    org.scilab.forge.jlatexmath.Atom accentbis_macros(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> accentbis_macros
    org.scilab.forge.jlatexmath.Atom cedilla_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> cedilla_macro
    org.scilab.forge.jlatexmath.Atom IJ_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> IJ_macro
    org.scilab.forge.jlatexmath.Atom TStroke_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> TStroke_macro
    org.scilab.forge.jlatexmath.Atom LCaron_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> LCaron_macro
    org.scilab.forge.jlatexmath.Atom tcaron_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> tcaron_macro
    org.scilab.forge.jlatexmath.Atom ogonek_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> ogonek_macro
    org.scilab.forge.jlatexmath.Atom nbsp_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> nbsp_macro
    org.scilab.forge.jlatexmath.Atom sqrt_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> sqrt_macro
    org.scilab.forge.jlatexmath.Atom overrightarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overrightarrow_macro
    org.scilab.forge.jlatexmath.Atom overleftarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overleftarrow_macro
    org.scilab.forge.jlatexmath.Atom overleftrightarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overleftrightarrow_macro
    org.scilab.forge.jlatexmath.Atom underrightarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underrightarrow_macro
    org.scilab.forge.jlatexmath.Atom underleftarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underleftarrow_macro
    org.scilab.forge.jlatexmath.Atom underleftrightarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underleftrightarrow_macro
    org.scilab.forge.jlatexmath.Atom xleftarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> xleftarrow_macro
    org.scilab.forge.jlatexmath.Atom xrightarrow_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> xrightarrow_macro
    org.scilab.forge.jlatexmath.Atom sideset_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> sideset_macro
    org.scilab.forge.jlatexmath.Atom prescript_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> prescript_macro
    org.scilab.forge.jlatexmath.Atom underbrace_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underbrace_macro
    org.scilab.forge.jlatexmath.Atom overbrace_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overbrace_macro
    org.scilab.forge.jlatexmath.Atom underbrack_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underbrack_macro
    org.scilab.forge.jlatexmath.Atom overbrack_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overbrack_macro
    org.scilab.forge.jlatexmath.Atom underparen_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underparen_macro
    org.scilab.forge.jlatexmath.Atom overparen_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overparen_macro
    org.scilab.forge.jlatexmath.Atom overline_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overline_macro
    org.scilab.forge.jlatexmath.Atom underline_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underline_macro
    org.scilab.forge.jlatexmath.Atom mathop_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathop_macro
    org.scilab.forge.jlatexmath.Atom mathpunct_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathpunct_macro
    org.scilab.forge.jlatexmath.Atom mathord_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathord_macro
    org.scilab.forge.jlatexmath.Atom mathrel_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathrel_macro
    org.scilab.forge.jlatexmath.Atom mathinner_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathinner_macro
    org.scilab.forge.jlatexmath.Atom mathbin_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathbin_macro
    org.scilab.forge.jlatexmath.Atom mathopen_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathopen_macro
    org.scilab.forge.jlatexmath.Atom mathclose_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathclose_macro
    org.scilab.forge.jlatexmath.Atom joinrel_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> joinrel_macro
    org.scilab.forge.jlatexmath.Atom smash_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> smash_macro
    org.scilab.forge.jlatexmath.Atom vdots_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> vdots_macro
    org.scilab.forge.jlatexmath.Atom ddots_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> ddots_macro
    org.scilab.forge.jlatexmath.Atom iddots_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> iddots_macro
    org.scilab.forge.jlatexmath.Atom nolimits_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> nolimits_macro
    org.scilab.forge.jlatexmath.Atom limits_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> limits_macro
    org.scilab.forge.jlatexmath.Atom normal_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> normal_macro
    org.scilab.forge.jlatexmath.Atom left_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> left_macro
    org.scilab.forge.jlatexmath.Atom leftparenthesis_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> leftparenthesis_macro
    org.scilab.forge.jlatexmath.Atom leftbracket_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> leftbracket_macro
    org.scilab.forge.jlatexmath.Atom middle_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> middle_macro
    org.scilab.forge.jlatexmath.Atom cr_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> cr_macro
    org.scilab.forge.jlatexmath.Atom backslashcr_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> backslashcr_macro
    org.scilab.forge.jlatexmath.Atom intertext_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> intertext_macro
    org.scilab.forge.jlatexmath.Atom smallmatrixATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> smallmatrixATATenv_macro
    org.scilab.forge.jlatexmath.Atom matrixATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> matrixATATenv_macro
    org.scilab.forge.jlatexmath.Atom multicolumn_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> multicolumn_macro
    org.scilab.forge.jlatexmath.Atom hdotsfor_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> hdotsfor_macro
    org.scilab.forge.jlatexmath.Atom arrayATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> arrayATATenv_macro
    org.scilab.forge.jlatexmath.Atom alignATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> alignATATenv_macro
    org.scilab.forge.jlatexmath.Atom flalignATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> flalignATATenv_macro
    org.scilab.forge.jlatexmath.Atom alignatATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> alignatATATenv_macro
    org.scilab.forge.jlatexmath.Atom alignedATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> alignedATATenv_macro
    org.scilab.forge.jlatexmath.Atom alignedatATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> alignedatATATenv_macro
    org.scilab.forge.jlatexmath.Atom multlineATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> multlineATATenv_macro
    org.scilab.forge.jlatexmath.Atom gatherATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> gatherATATenv_macro
    org.scilab.forge.jlatexmath.Atom gatheredATATenv_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> gatheredATATenv_macro
    org.scilab.forge.jlatexmath.Atom shoveright_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> shoveright_macro
    org.scilab.forge.jlatexmath.Atom shoveleft_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> shoveleft_macro
    org.scilab.forge.jlatexmath.Atom newcommand_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> newcommand_macro
    org.scilab.forge.jlatexmath.Atom renewcommand_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> renewcommand_macro
    org.scilab.forge.jlatexmath.Atom makeatletter_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> makeatletter_macro
    org.scilab.forge.jlatexmath.Atom makeatother_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> makeatother_macro
    org.scilab.forge.jlatexmath.Atom newenvironment_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> newenvironment_macro
    org.scilab.forge.jlatexmath.Atom renewenvironment_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> renewenvironment_macro
    org.scilab.forge.jlatexmath.Atom fbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> fbox_macro
    org.scilab.forge.jlatexmath.Atom stackrel_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> stackrel_macro
    org.scilab.forge.jlatexmath.Atom stackbin_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> stackbin_macro
    org.scilab.forge.jlatexmath.Atom overset_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> overset_macro
    org.scilab.forge.jlatexmath.Atom underset_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underset_macro
    org.scilab.forge.jlatexmath.Atom accentset_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> accentset_macro
    org.scilab.forge.jlatexmath.Atom underaccent_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> underaccent_macro
    org.scilab.forge.jlatexmath.Atom undertilde_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> undertilde_macro
    org.scilab.forge.jlatexmath.Atom boldsymbol_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> boldsymbol_macro
    org.scilab.forge.jlatexmath.Atom mathrm_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathrm_macro
    org.scilab.forge.jlatexmath.Atom rm_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> rm_macro
    org.scilab.forge.jlatexmath.Atom mathbf_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathbf_macro
    org.scilab.forge.jlatexmath.Atom bf_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> bf_macro
    org.scilab.forge.jlatexmath.Atom mathtt_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathtt_macro
    org.scilab.forge.jlatexmath.Atom tt_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> tt_macro
    org.scilab.forge.jlatexmath.Atom mathit_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathit_macro
    org.scilab.forge.jlatexmath.Atom it_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> it_macro
    org.scilab.forge.jlatexmath.Atom mathsf_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> mathsf_macro
    org.scilab.forge.jlatexmath.Atom sf_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> sf_macro
    org.scilab.forge.jlatexmath.Atom LaTeX_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> LaTeX_macro
    org.scilab.forge.jlatexmath.Atom GeoGebra_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> GeoGebra_macro
    org.scilab.forge.jlatexmath.Atom hphantom_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> hphantom_macro
    org.scilab.forge.jlatexmath.Atom vphantom_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> vphantom_macro
    org.scilab.forge.jlatexmath.Atom phantom_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> phantom_macro
    org.scilab.forge.jlatexmath.Atom big_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> big_macro
    org.scilab.forge.jlatexmath.Atom Big_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Big_macro
    org.scilab.forge.jlatexmath.Atom bigg_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> bigg_macro
    org.scilab.forge.jlatexmath.Atom Bigg_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Bigg_macro
    org.scilab.forge.jlatexmath.Atom bigl_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> bigl_macro
    org.scilab.forge.jlatexmath.Atom Bigl_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Bigl_macro
    org.scilab.forge.jlatexmath.Atom biggl_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> biggl_macro
    org.scilab.forge.jlatexmath.Atom Biggl_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Biggl_macro
    org.scilab.forge.jlatexmath.Atom bigr_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> bigr_macro
    org.scilab.forge.jlatexmath.Atom Bigr_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Bigr_macro
    org.scilab.forge.jlatexmath.Atom biggr_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> biggr_macro
    org.scilab.forge.jlatexmath.Atom Biggr_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Biggr_macro
    org.scilab.forge.jlatexmath.Atom displaystyle_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> displaystyle_macro
    org.scilab.forge.jlatexmath.Atom scriptstyle_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> scriptstyle_macro
    org.scilab.forge.jlatexmath.Atom textstyle_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> textstyle_macro
    org.scilab.forge.jlatexmath.Atom scriptscriptstyle_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> scriptscriptstyle_macro
    org.scilab.forge.jlatexmath.Atom rotatebox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> rotatebox_macro
    org.scilab.forge.jlatexmath.Atom reflectbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> reflectbox_macro
    org.scilab.forge.jlatexmath.Atom scalebox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> scalebox_macro
    org.scilab.forge.jlatexmath.Atom resizebox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> resizebox_macro
    org.scilab.forge.jlatexmath.Atom raisebox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> raisebox_macro
    org.scilab.forge.jlatexmath.Atom shadowbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> shadowbox_macro
    org.scilab.forge.jlatexmath.Atom ovalbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> ovalbox_macro
    org.scilab.forge.jlatexmath.Atom doublebox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> doublebox_macro
    org.scilab.forge.jlatexmath.Atom definecolor_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> definecolor_macro
    org.scilab.forge.jlatexmath.Atom fgcolor_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> fgcolor_macro
    org.scilab.forge.jlatexmath.Atom bgcolor_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> bgcolor_macro
    org.scilab.forge.jlatexmath.Atom textcolor_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> textcolor_macro
    org.scilab.forge.jlatexmath.Atom colorbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> colorbox_macro
    org.scilab.forge.jlatexmath.Atom fcolorbox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> fcolorbox_macro
    org.scilab.forge.jlatexmath.Atom cong_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> cong_macro
    org.scilab.forge.jlatexmath.Atom doteq_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> doteq_macro
    org.scilab.forge.jlatexmath.Atom jlmDynamic_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmDynamic_macro
    org.scilab.forge.jlatexmath.Atom jlmExternalFont_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmExternalFont_macro
    org.scilab.forge.jlatexmath.Atom jlmText_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmText_macro
    org.scilab.forge.jlatexmath.Atom jlmTextit_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmTextit_macro
    org.scilab.forge.jlatexmath.Atom jlmTextbf_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmTextbf_macro
    org.scilab.forge.jlatexmath.Atom jlmTextitbf_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmTextitbf_macro
    org.scilab.forge.jlatexmath.Atom DeclareMathSizes_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> DeclareMathSizes_macro
    org.scilab.forge.jlatexmath.Atom magnification_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> magnification_macro
    org.scilab.forge.jlatexmath.Atom hline_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> hline_macro
    org.scilab.forge.jlatexmath.Atom size_macros(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> size_macros
    org.scilab.forge.jlatexmath.Atom jlatexmathcumsup_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlatexmathcumsup_macro
    org.scilab.forge.jlatexmath.Atom jlatexmathcumsub_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlatexmathcumsub_macro
    org.scilab.forge.jlatexmath.Atom dotminus_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> dotminus_macro
    org.scilab.forge.jlatexmath.Atom ratio_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> ratio_macro
    org.scilab.forge.jlatexmath.Atom geoprop_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> geoprop_macro
    org.scilab.forge.jlatexmath.Atom minuscolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> minuscolon_macro
    org.scilab.forge.jlatexmath.Atom minuscoloncolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> minuscoloncolon_macro
    org.scilab.forge.jlatexmath.Atom simcolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> simcolon_macro
    org.scilab.forge.jlatexmath.Atom simcoloncolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> simcoloncolon_macro
    org.scilab.forge.jlatexmath.Atom approxcolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> approxcolon_macro
    org.scilab.forge.jlatexmath.Atom approxcoloncolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> approxcoloncolon_macro
    org.scilab.forge.jlatexmath.Atom equalscolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> equalscolon_macro
    org.scilab.forge.jlatexmath.Atom equalscoloncolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> equalscoloncolon_macro
    org.scilab.forge.jlatexmath.Atom colonminus_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> colonminus_macro
    org.scilab.forge.jlatexmath.Atom coloncolonminus_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> coloncolonminus_macro
    org.scilab.forge.jlatexmath.Atom colonequals_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> colonequals_macro
    org.scilab.forge.jlatexmath.Atom coloncolonequals_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> coloncolonequals_macro
    org.scilab.forge.jlatexmath.Atom coloncolon_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> coloncolon_macro
    org.scilab.forge.jlatexmath.Atom colonsim_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> colonsim_macro
    org.scilab.forge.jlatexmath.Atom coloncolonsim_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> coloncolonsim_macro
    org.scilab.forge.jlatexmath.Atom colonapprox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> colonapprox_macro
    org.scilab.forge.jlatexmath.Atom coloncolonapprox_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> coloncolonapprox_macro
    org.scilab.forge.jlatexmath.Atom smallfrowneq_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> smallfrowneq_macro
    org.scilab.forge.jlatexmath.Atom hstrok_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> hstrok_macro
    org.scilab.forge.jlatexmath.Atom Hstrok_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Hstrok_macro
    org.scilab.forge.jlatexmath.Atom dstrok_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> dstrok_macro
    org.scilab.forge.jlatexmath.Atom Dstrok_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> Dstrok_macro
    org.scilab.forge.jlatexmath.Atom kern_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> kern_macro
    org.scilab.forge.jlatexmath.Atom char_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> char_macro
    org.scilab.forge.jlatexmath.Atom T_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> T_macro
    org.scilab.forge.jlatexmath.Atom romannumeral_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> romannumeral_macro
    org.scilab.forge.jlatexmath.Atom textcircled_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> textcircled_macro
    org.scilab.forge.jlatexmath.Atom textsc_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> textsc_macro
    org.scilab.forge.jlatexmath.Atom sc_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> sc_macro
    org.scilab.forge.jlatexmath.Atom quad_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> quad_macro
    org.scilab.forge.jlatexmath.Atom muskip_macros(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> muskip_macros
    org.scilab.forge.jlatexmath.Atom surd_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> surd_macro
    org.scilab.forge.jlatexmath.Atom int_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> int_macro
    org.scilab.forge.jlatexmath.Atom oint_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> oint_macro
    org.scilab.forge.jlatexmath.Atom iint_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> iint_macro
    org.scilab.forge.jlatexmath.Atom iiint_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> iiint_macro
    org.scilab.forge.jlatexmath.Atom iiiint_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> iiiint_macro
    org.scilab.forge.jlatexmath.Atom idotsint_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> idotsint_macro
    org.scilab.forge.jlatexmath.Atom lmoustache_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> lmoustache_macro
    org.scilab.forge.jlatexmath.Atom rmoustache_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> rmoustache_macro
    org.scilab.forge.jlatexmath.Atom insertBreakMark_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> insertBreakMark_macro
    org.scilab.forge.jlatexmath.Atom jlmXML_macro(org.scilab.forge.jlatexmath.TeXParser,java.lang.String[]) -> jlmXML_macro
org.scilab.forge.jlatexmath.PredefinedCommands -> org.scilab.forge.jlatexmath.PredefinedCommands:
org.scilab.forge.jlatexmath.PredefinedTeXFormulaParser -> org.scilab.forge.jlatexmath.PredefinedTeXFormulaParser:
    org.w3c.dom.Element root -> a
    java.lang.String type -> a
    void parse(java.util.Map) -> parse
    java.lang.String getAttrValueAndCheckIfNotNull(java.lang.String,org.w3c.dom.Element) -> getAttrValueAndCheckIfNotNull
org.scilab.forge.jlatexmath.PredefinedTeXFormulas -> org.scilab.forge.jlatexmath.PredefinedTeXFormulas:
org.scilab.forge.jlatexmath.RaiseAtom -> org.scilab.forge.jlatexmath.RaiseAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    int runit -> d
    int hunit -> e
    int dunit -> f
    float r -> a
    float h -> b
    float d -> c
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ReflectAtom -> org.scilab.forge.jlatexmath.ReflectAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ReflectBox -> org.scilab.forge.jlatexmath.ReflectBox:
    org.scilab.forge.jlatexmath.Box box -> c
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.ResizeAtom -> org.scilab.forge.jlatexmath.ResizeAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    int wunit -> d
    int hunit -> e
    float w -> a
    float h -> b
    boolean keepaspectratio -> a
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ResourceParseException -> org.scilab.forge.jlatexmath.ResourceParseException:
org.scilab.forge.jlatexmath.RomanAtom -> org.scilab.forge.jlatexmath.RomanAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.RotateAtom -> org.scilab.forge.jlatexmath.RotateAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    double angle -> a
    int option -> d
    int xunit -> e
    int yunit -> f
    float x -> a
    float y -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.RotateBox -> org.scilab.forge.jlatexmath.RotateBox:
    double angle -> a
    org.scilab.forge.jlatexmath.Box box -> c
    float xmax -> e
    float xmin -> f
    float ymax -> g
    float ymin -> h
    float shiftX -> i
    float shiftY -> j
    int getOrigin(java.lang.String) -> getOrigin
    java.awt.geom.Point2D$Float calculateShift(org.scilab.forge.jlatexmath.Box,int) -> calculateShift
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.Row -> org.scilab.forge.jlatexmath.Row:
    void setPreviousAtom(org.scilab.forge.jlatexmath.Dummy) -> setPreviousAtom
org.scilab.forge.jlatexmath.RowAtom -> org.scilab.forge.jlatexmath.RowAtom:
    java.util.LinkedList elements -> a
    boolean lookAtLastAtom -> a
    org.scilab.forge.jlatexmath.Dummy previousAtom -> a
    java.util.BitSet binSet -> a
    java.util.BitSet ligKernSet -> b
    org.scilab.forge.jlatexmath.Atom getLastAtom() -> getLastAtom
    void add(org.scilab.forge.jlatexmath.Atom) -> add
    void changeToOrd(org.scilab.forge.jlatexmath.Dummy,org.scilab.forge.jlatexmath.Dummy,org.scilab.forge.jlatexmath.Atom) -> changeToOrd
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    void setPreviousAtom(org.scilab.forge.jlatexmath.Dummy) -> setPreviousAtom
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
org.scilab.forge.jlatexmath.RuleAtom -> org.scilab.forge.jlatexmath.RuleAtom:
    int wunit -> d
    int hunit -> e
    int runit -> f
    float w -> a
    float h -> b
    float r -> c
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ScaleAtom -> org.scilab.forge.jlatexmath.ScaleAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    double xscl -> a
    double yscl -> b
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ScaleBox -> org.scilab.forge.jlatexmath.ScaleBox:
    org.scilab.forge.jlatexmath.Box box -> c
    double xscl -> a
    double yscl -> b
    float factor -> e
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.ScriptsAtom -> org.scilab.forge.jlatexmath.ScriptsAtom:
    org.scilab.forge.jlatexmath.SpaceAtom SCRIPT_SPACE -> a
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Atom subscript -> b
    org.scilab.forge.jlatexmath.Atom superscript -> c
    int align -> d
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
org.scilab.forge.jlatexmath.ShadowAtom -> org.scilab.forge.jlatexmath.ShadowAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.ShadowBox -> org.scilab.forge.jlatexmath.ShadowBox:
    float shadowRule -> g
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.SmallCapAtom -> org.scilab.forge.jlatexmath.SmallCapAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.SmashedAtom -> org.scilab.forge.jlatexmath.SmashedAtom:
    org.scilab.forge.jlatexmath.Atom at -> a
    boolean h -> a
    boolean d -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.SpaceAtom -> org.scilab.forge.jlatexmath.SpaceAtom:
    java.util.Map units -> a
    org.scilab.forge.jlatexmath.SpaceAtom$UnitConversion[] unitConversions -> a
    boolean blankSpace -> a
    int blankType -> d
    float width -> a
    float height -> b
    float depth -> c
    int wUnit -> e
    int hUnit -> f
    int dUnit -> g
    void checkUnit(int) -> checkUnit
    int getUnit(java.lang.String) -> getUnit
    float[] getLength(java.lang.String) -> getLength
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    float getFactor(int,org.scilab.forge.jlatexmath.TeXEnvironment) -> getFactor
org.scilab.forge.jlatexmath.SpaceAtom$1 -> org.scilab.forge.jlatexmath.SpaceAtom$1:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$10 -> org.scilab.forge.jlatexmath.SpaceAtom$10:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$11 -> org.scilab.forge.jlatexmath.SpaceAtom$11:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$12 -> org.scilab.forge.jlatexmath.SpaceAtom$12:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$13 -> org.scilab.forge.jlatexmath.SpaceAtom$13:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$2 -> org.scilab.forge.jlatexmath.SpaceAtom$2:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$3 -> org.scilab.forge.jlatexmath.SpaceAtom$3:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$4 -> org.scilab.forge.jlatexmath.SpaceAtom$4:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$5 -> org.scilab.forge.jlatexmath.SpaceAtom$5:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$6 -> org.scilab.forge.jlatexmath.SpaceAtom$6:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$7 -> org.scilab.forge.jlatexmath.SpaceAtom$7:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$8 -> org.scilab.forge.jlatexmath.SpaceAtom$8:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$9 -> org.scilab.forge.jlatexmath.SpaceAtom$9:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SpaceAtom$UnitConversion -> org.scilab.forge.jlatexmath.SpaceAtom$UnitConversion:
    float getPixelConversion(org.scilab.forge.jlatexmath.TeXEnvironment) -> getPixelConversion
org.scilab.forge.jlatexmath.SsAtom -> org.scilab.forge.jlatexmath.SsAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.StrikeThroughAtom -> org.scilab.forge.jlatexmath.StrikeThroughAtom:
    org.scilab.forge.jlatexmath.Atom at -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.StrutBox -> org.scilab.forge.jlatexmath.StrutBox:
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.StyleAtom -> org.scilab.forge.jlatexmath.StyleAtom:
    int style -> d
    org.scilab.forge.jlatexmath.Atom at -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.SymbolAtom -> org.scilab.forge.jlatexmath.SymbolAtom:
    boolean delimiter -> a
    java.lang.String name -> a
    java.util.Map symbols -> a
    java.util.BitSet validSymbolTypes -> a
    char unicode -> a
    org.scilab.forge.jlatexmath.SymbolAtom setUnicode(char) -> setUnicode
    char getUnicode() -> getUnicode
    void addSymbolAtom(java.lang.String) -> addSymbolAtom
    void addSymbolAtom(java.io.InputStream,java.lang.String) -> addSymbolAtom
    void addSymbolAtom(org.scilab.forge.jlatexmath.SymbolAtom) -> addSymbolAtom
    org.scilab.forge.jlatexmath.SymbolAtom get(java.lang.String) -> get
    boolean isDelimiter() -> isDelimiter
    java.lang.String getName() -> getName
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    org.scilab.forge.jlatexmath.CharFont getCharFont(org.scilab.forge.jlatexmath.TeXFont) -> getCharFont
org.scilab.forge.jlatexmath.SymbolMappingNotFoundException -> org.scilab.forge.jlatexmath.SymbolMappingNotFoundException:
org.scilab.forge.jlatexmath.SymbolNotFoundException -> org.scilab.forge.jlatexmath.SymbolNotFoundException:
org.scilab.forge.jlatexmath.TStrokeAtom -> org.scilab.forge.jlatexmath.TStrokeAtom:
    boolean upper -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.TeXConstants -> org.scilab.forge.jlatexmath.TeXConstants:
org.scilab.forge.jlatexmath.TeXEnvironment -> org.scilab.forge.jlatexmath.TeXEnvironment:
    java.awt.Color background -> a
    java.awt.Color color -> b
    int style -> a
    org.scilab.forge.jlatexmath.TeXFont tf -> a
    int lastFontId -> b
    float textwidth -> a
    java.lang.String textStyle -> a
    boolean smallCap -> b
    float scaleFactor -> b
    int interlineUnit -> c
    float interline -> c
    boolean isColored -> a
    void setInterline(int,float) -> setInterline
    float getInterline() -> getInterline
    void setTextwidth(int,float) -> setTextwidth
    float getTextwidth() -> getTextwidth
    void setScaleFactor(float) -> setScaleFactor
    float getScaleFactor() -> getScaleFactor
    org.scilab.forge.jlatexmath.TeXEnvironment copy() -> copy
    org.scilab.forge.jlatexmath.TeXEnvironment copy(org.scilab.forge.jlatexmath.TeXFont) -> copy
    org.scilab.forge.jlatexmath.TeXEnvironment crampStyle() -> crampStyle
    org.scilab.forge.jlatexmath.TeXEnvironment denomStyle() -> denomStyle
    java.awt.Color getBackground() -> getBackground
    java.awt.Color getColor() -> getColor
    float getSize() -> getSize
    int getStyle() -> getStyle
    void setStyle(int) -> setStyle
    java.lang.String getTextStyle() -> getTextStyle
    void setTextStyle(java.lang.String) -> setTextStyle
    boolean getSmallCap() -> getSmallCap
    void setSmallCap(boolean) -> setSmallCap
    org.scilab.forge.jlatexmath.TeXFont getTeXFont() -> getTeXFont
    org.scilab.forge.jlatexmath.TeXEnvironment numStyle() -> numStyle
    void reset() -> reset
    org.scilab.forge.jlatexmath.TeXEnvironment rootStyle() -> rootStyle
    void setBackground(java.awt.Color) -> setBackground
    void setColor(java.awt.Color) -> setColor
    org.scilab.forge.jlatexmath.TeXEnvironment subStyle() -> subStyle
    org.scilab.forge.jlatexmath.TeXEnvironment supStyle() -> supStyle
    float getSpace() -> getSpace
    void setLastFontId(int) -> setLastFontId
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.TeXFont -> org.scilab.forge.jlatexmath.TeXFont:
    org.scilab.forge.jlatexmath.TeXFont deriveFont(float) -> deriveFont
    org.scilab.forge.jlatexmath.TeXFont scaleFont(float) -> scaleFont
    float getScaleFactor() -> getScaleFactor
    float getAxisHeight(int) -> getAxisHeight
    float getBigOpSpacing1(int) -> getBigOpSpacing1
    float getBigOpSpacing2(int) -> getBigOpSpacing2
    float getBigOpSpacing3(int) -> getBigOpSpacing3
    float getBigOpSpacing4(int) -> getBigOpSpacing4
    float getBigOpSpacing5(int) -> getBigOpSpacing5
    org.scilab.forge.jlatexmath.Char getChar(char,java.lang.String,int) -> getChar
    org.scilab.forge.jlatexmath.Char getChar(org.scilab.forge.jlatexmath.CharFont,int) -> getChar
    org.scilab.forge.jlatexmath.Char getChar(java.lang.String,int) -> getChar
    org.scilab.forge.jlatexmath.Char getDefaultChar(char,int) -> getDefaultChar
    float getDefaultRuleThickness(int) -> getDefaultRuleThickness
    float getDenom1(int) -> getDenom1
    float getDenom2(int) -> getDenom2
    org.scilab.forge.jlatexmath.Extension getExtension(org.scilab.forge.jlatexmath.Char,int) -> getExtension
    float getKern(org.scilab.forge.jlatexmath.CharFont,org.scilab.forge.jlatexmath.CharFont,int) -> getKern
    org.scilab.forge.jlatexmath.CharFont getLigature(org.scilab.forge.jlatexmath.CharFont,org.scilab.forge.jlatexmath.CharFont) -> getLigature
    int getMuFontId() -> getMuFontId
    org.scilab.forge.jlatexmath.Char getNextLarger(org.scilab.forge.jlatexmath.Char,int) -> getNextLarger
    float getNum1(int) -> getNum1
    float getNum2(int) -> getNum2
    float getNum3(int) -> getNum3
    float getQuad(int,int) -> getQuad
    float getSize() -> getSize
    float getSkew(org.scilab.forge.jlatexmath.CharFont,int) -> getSkew
    float getSpace(int) -> getSpace
    float getSub1(int) -> getSub1
    float getSub2(int) -> getSub2
    float getSubDrop(int) -> getSubDrop
    float getSup1(int) -> getSup1
    float getSup2(int) -> getSup2
    float getSup3(int) -> getSup3
    float getSupDrop(int) -> getSupDrop
    float getXHeight(int,int) -> getXHeight
    float getEM(int) -> getEM
    boolean hasNextLarger(org.scilab.forge.jlatexmath.Char) -> hasNextLarger
    boolean hasSpace(int) -> hasSpace
    void setBold(boolean) -> setBold
    boolean getBold() -> getBold
    void setRoman(boolean) -> setRoman
    boolean getRoman() -> getRoman
    void setTt(boolean) -> setTt
    boolean getTt() -> getTt
    void setIt(boolean) -> setIt
    boolean getIt() -> getIt
    void setSs(boolean) -> setSs
    boolean getSs() -> getSs
    boolean isExtensionChar(org.scilab.forge.jlatexmath.Char) -> isExtensionChar
    org.scilab.forge.jlatexmath.TeXFont copy() -> copy
org.scilab.forge.jlatexmath.TeXFormula -> org.scilab.forge.jlatexmath.TeXFormula:
    java.lang.String[][] delimiterNames -> a
    float PIXELS_PER_POINT -> a
    java.util.Map predefinedTeXFormulas -> a
    java.util.Map predefinedTeXFormulasAsString -> b
    java.lang.String[] symbolMappings -> a
    java.lang.String[] symbolTextMappings -> b
    java.lang.String[] symbolFormulaMappings -> c
    java.util.Map externalFontMap -> c
    java.util.List middle -> a
    java.util.Map jlmXMLMap -> d
    org.scilab.forge.jlatexmath.TeXParser parser -> a
    org.scilab.forge.jlatexmath.Atom root -> a
    java.lang.String textStyle -> a
    boolean isColored -> a
    void addSymbolMappings(java.lang.String) -> addSymbolMappings
    void addSymbolMappings(java.io.InputStream,java.lang.String) -> addSymbolMappings
    boolean isRegisteredBlock(java.lang.Character$UnicodeBlock) -> isRegisteredBlock
    org.scilab.forge.jlatexmath.TeXFormula$FontInfos getExternalFont(java.lang.Character$UnicodeBlock) -> getExternalFont
    void registerExternalFont(java.lang.Character$UnicodeBlock,java.lang.String,java.lang.String) -> registerExternalFont
    void registerExternalFont(java.lang.Character$UnicodeBlock,java.lang.String) -> registerExternalFont
    void setDPITarget(float) -> setDPITarget
    void setDefaultDPI() -> setDefaultDPI
    org.scilab.forge.jlatexmath.TeXFormula getAsText(java.lang.String,int) -> getAsText
    org.scilab.forge.jlatexmath.TeXFormula getPartialTeXFormula(java.lang.String) -> getPartialTeXFormula
    void registerFonts(boolean) -> registerFonts
    void setLaTeX(java.lang.String) -> setLaTeX
    org.scilab.forge.jlatexmath.TeXFormula add(org.scilab.forge.jlatexmath.Atom) -> add
    org.scilab.forge.jlatexmath.TeXFormula add(java.lang.String) -> add
    org.scilab.forge.jlatexmath.TeXFormula append(java.lang.String) -> append
    org.scilab.forge.jlatexmath.TeXFormula append(boolean,java.lang.String) -> append
    org.scilab.forge.jlatexmath.TeXFormula add(org.scilab.forge.jlatexmath.TeXFormula) -> add
    void addImpl(org.scilab.forge.jlatexmath.TeXFormula) -> addImpl
    void setLookAtLastAtom(boolean) -> setLookAtLastAtom
    boolean getLookAtLastAtom() -> getLookAtLastAtom
    org.scilab.forge.jlatexmath.TeXFormula centerOnAxis() -> centerOnAxis
    void addPredefinedTeXFormula(java.io.InputStream) -> addPredefinedTeXFormula
    void addPredefinedCommands(java.io.InputStream) -> addPredefinedCommands
    org.scilab.forge.jlatexmath.TeXFormula addStrut(int,float,float,float) -> addStrut
    org.scilab.forge.jlatexmath.TeXFormula addStrut(int) -> addStrut
    org.scilab.forge.jlatexmath.TeXFormula addStrut(int,float,int,float,int,float) -> addStrut
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    org.scilab.forge.jlatexmath.DefaultTeXFont createFont(float,int) -> createFont
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,int) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,int,java.awt.Color) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,boolean) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,int,float,int) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,int,int,float,int) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,int,float,int,int,float) -> createTeXIcon
    org.scilab.forge.jlatexmath.TeXIcon createTeXIcon(int,float,int,int,float,int,int,float) -> createTeXIcon
    void createImage(java.lang.String,int,float,java.lang.String,java.awt.Color,java.awt.Color,boolean) -> createImage
    void createPNG(int,float,java.lang.String,java.awt.Color,java.awt.Color) -> createPNG
    void createGIF(int,float,java.lang.String,java.awt.Color,java.awt.Color) -> createGIF
    void createJPEG(int,float,java.lang.String,java.awt.Color,java.awt.Color) -> createJPEG
    java.awt.Image createBufferedImage(java.lang.String,int,float,java.awt.Color,java.awt.Color) -> createBufferedImage
    java.awt.Image createBufferedImage(int,float,java.awt.Color,java.awt.Color) -> createBufferedImage
    void setDEBUG(boolean) -> setDEBUG
    org.scilab.forge.jlatexmath.TeXFormula setBackground(java.awt.Color) -> setBackground
    org.scilab.forge.jlatexmath.TeXFormula setColor(java.awt.Color) -> setColor
    org.scilab.forge.jlatexmath.TeXFormula setFixedTypes(int,int) -> setFixedTypes
    org.scilab.forge.jlatexmath.TeXFormula get(java.lang.String) -> get
    org.scilab.forge.jlatexmath.DefaultTeXFont access$000(org.scilab.forge.jlatexmath.TeXFormula,float,int) -> access$000
    org.scilab.forge.jlatexmath.Box access$100(org.scilab.forge.jlatexmath.TeXFormula,org.scilab.forge.jlatexmath.TeXEnvironment) -> access$100
org.scilab.forge.jlatexmath.TeXFormula$FontInfos -> org.scilab.forge.jlatexmath.TeXFormula$FontInfos:
    java.lang.String sansserif -> a
    java.lang.String serif -> b
org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder -> org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder:
    java.lang.Integer style -> a
    java.lang.Float size -> a
    java.lang.Integer type -> b
    java.awt.Color fgcolor -> a
    boolean trueValues -> a
    java.lang.Integer widthUnit -> c
    java.lang.Float textWidth -> b
    java.lang.Integer align -> d
    boolean isMaxWidth -> b
    java.lang.Integer interLineUnit -> e
    java.lang.Float interLineSpacing -> c
    org.scilab.forge.jlatexmath.TeXFormula this$0 -> a
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setStyle(int) -> setStyle
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setSize(float) -> setSize
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setType(int) -> setType
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setFGColor(java.awt.Color) -> setFGColor
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setTrueValues(boolean) -> setTrueValues
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setWidth(int,float,int) -> setWidth
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setIsMaxWidth(boolean) -> setIsMaxWidth
    org.scilab.forge.jlatexmath.TeXFormula$TeXIconBuilder setInterLineSpacing(int,float) -> setInterLineSpacing
    org.scilab.forge.jlatexmath.TeXIcon build() -> build
org.scilab.forge.jlatexmath.TeXFormulaParser -> org.scilab.forge.jlatexmath.TeXFormulaParser:
    java.util.Map classMappings -> a
    java.util.Map argValueParsers -> b
    java.util.Map actionParsers -> c
    java.util.Map tempFormulas -> d
    java.util.Map tempCommands -> e
    java.lang.Object result -> a
    java.lang.String formulaName -> a
    org.w3c.dom.Element formula -> a
    int type -> a
    java.lang.Object parse() -> parse
    java.lang.Object[] getArgumentValues(org.w3c.dom.NodeList) -> getArgumentValues
    java.lang.Class[] getArgumentClasses(org.w3c.dom.NodeList) -> getArgumentClasses
    void checkNullValue(java.lang.String,java.lang.String) -> checkNullValue
    java.lang.String getAttrValueAndCheckIfNotNull(java.lang.String,org.w3c.dom.Element) -> getAttrValueAndCheckIfNotNull
    java.lang.String access$000(java.lang.String,org.w3c.dom.Element) -> access$000
    java.util.Map access$100(org.scilab.forge.jlatexmath.TeXFormulaParser) -> access$100
    java.lang.Class[] access$200(org.w3c.dom.NodeList) -> access$200
    java.lang.Object[] access$300(org.scilab.forge.jlatexmath.TeXFormulaParser,org.w3c.dom.NodeList) -> access$300
    java.lang.String access$400(org.scilab.forge.jlatexmath.TeXFormulaParser) -> access$400
    java.util.Map access$500(org.scilab.forge.jlatexmath.TeXFormulaParser) -> access$500
    void access$600(java.lang.String,java.lang.String) -> access$600
    int access$700(org.scilab.forge.jlatexmath.TeXFormulaParser) -> access$700
    java.lang.Object access$802(org.scilab.forge.jlatexmath.TeXFormulaParser,java.lang.Object) -> access$802
org.scilab.forge.jlatexmath.TeXFormulaParser$ActionParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$ActionParser:
    void parse(org.w3c.dom.Element) -> parse
org.scilab.forge.jlatexmath.TeXFormulaParser$ArgumentValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$ArgumentValueParser:
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$BooleanValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$BooleanValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$CharValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$CharValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$ColorConstantValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$ColorConstantValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$CreateCommandParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$CreateCommandParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    void parse(org.w3c.dom.Element) -> parse
org.scilab.forge.jlatexmath.TeXFormulaParser$CreateTeXFormulaParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$CreateTeXFormulaParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    void parse(org.w3c.dom.Element) -> parse
org.scilab.forge.jlatexmath.TeXFormulaParser$FloatValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$FloatValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$IntValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$IntValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$MethodInvocationParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$MethodInvocationParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    void parse(org.w3c.dom.Element) -> parse
org.scilab.forge.jlatexmath.TeXFormulaParser$ReturnParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$ReturnParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    void parse(org.w3c.dom.Element) -> parse
org.scilab.forge.jlatexmath.TeXFormulaParser$StringValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$StringValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$TeXConstantsValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$TeXConstantsValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaParser$TeXFormulaValueParser -> org.scilab.forge.jlatexmath.TeXFormulaParser$TeXFormulaValueParser:
    org.scilab.forge.jlatexmath.TeXFormulaParser this$0 -> a
    java.lang.Object parseValue(java.lang.String,java.lang.String) -> parseValue
org.scilab.forge.jlatexmath.TeXFormulaSettingsParser -> org.scilab.forge.jlatexmath.TeXFormulaSettingsParser:
    org.w3c.dom.Element root -> a
    void parseSymbolToFormulaMappings(java.lang.String[],java.lang.String[]) -> parseSymbolToFormulaMappings
    void parseSymbolMappings(java.lang.String[],java.lang.String[]) -> parseSymbolMappings
    void addToMap(org.w3c.dom.NodeList,java.lang.String[],java.lang.String[]) -> addToMap
    void addFormulaToMap(org.w3c.dom.NodeList,java.lang.String[],java.lang.String[]) -> addFormulaToMap
org.scilab.forge.jlatexmath.TeXIcon -> org.scilab.forge.jlatexmath.TeXIcon:
    java.awt.Color defaultColor -> a
    float defaultSize -> a
    float magFactor -> b
    org.scilab.forge.jlatexmath.Box box -> a
    float size -> c
    java.awt.Insets insets -> a
    java.awt.Color fg -> b
    boolean isColored -> a
    void setForeground(java.awt.Color) -> setForeground
    java.awt.Insets getInsets() -> getInsets
    void setInsets(java.awt.Insets,boolean) -> setInsets
    void setInsets(java.awt.Insets) -> setInsets
    void setIconWidth(int,int) -> setIconWidth
    void setIconHeight(int,int) -> setIconHeight
    int getIconHeight() -> getIconHeight
    int getIconDepth() -> getIconDepth
    int getIconWidth() -> getIconWidth
    float getTrueIconHeight() -> getTrueIconHeight
    float getTrueIconDepth() -> getTrueIconDepth
    float getTrueIconWidth() -> getTrueIconWidth
    float getBaseLine() -> getBaseLine
    org.scilab.forge.jlatexmath.Box getBox() -> getBox
    void paintIcon(java.awt.Component,java.awt.Graphics,int,int) -> paintIcon
org.scilab.forge.jlatexmath.TeXParser -> org.scilab.forge.jlatexmath.TeXParser:
    org.scilab.forge.jlatexmath.TeXFormula formula -> a
    java.lang.StringBuffer parseString -> a
    int pos -> a
    int spos -> b
    int line -> c
    int col -> d
    int len -> e
    int group -> f
    boolean insertion -> b
    int atIsLetter -> g
    boolean arrayMode -> c
    boolean ignoreWhiteSpace -> d
    boolean isPartial -> e
    boolean isLoading -> a
    java.util.Set unparsedContents -> a
    void reset(java.lang.String) -> reset
    boolean getIsPartial() -> getIsPartial
    int getLine() -> getLine
    int getCol() -> getCol
    org.scilab.forge.jlatexmath.Atom getLastAtom() -> getLastAtom
    org.scilab.forge.jlatexmath.Atom getFormulaAtom() -> getFormulaAtom
    void addAtom(org.scilab.forge.jlatexmath.Atom) -> addAtom
    void makeAtLetter() -> makeAtLetter
    void makeAtOther() -> makeAtOther
    boolean isAtLetter() -> isAtLetter
    boolean isArrayMode() -> isArrayMode
    void setArrayMode(boolean) -> setArrayMode
    boolean isIgnoreWhiteSpace() -> isIgnoreWhiteSpace
    boolean isMathMode() -> isMathMode
    int getPos() -> getPos
    int rewind(int) -> rewind
    java.lang.String getStringFromCurrentPos() -> getStringFromCurrentPos
    void finish() -> finish
    void addRow() -> addRow
    void firstpass() -> firstpass
    void parse() -> parse
    org.scilab.forge.jlatexmath.Atom getScripts(char) -> getScripts
    java.lang.String getDollarGroup(char) -> getDollarGroup
    java.lang.String getGroup(char,char) -> getGroup
    java.lang.String getGroup(java.lang.String,java.lang.String) -> getGroup
    org.scilab.forge.jlatexmath.Atom getArgument() -> getArgument
    java.lang.String getOverArgument() -> getOverArgument
    float[] getLength() -> getLength
    org.scilab.forge.jlatexmath.Atom convertCharacter(char,boolean) -> convertCharacter
    java.lang.String getCommand() -> getCommand
    org.scilab.forge.jlatexmath.Atom processEscape() -> processEscape
    void insert(int,int,java.lang.String) -> insert
    java.lang.String[] getOptsArgs(int,int) -> getOptsArgs
    java.lang.String getCommandWithArgs(java.lang.String) -> getCommandWithArgs
    org.scilab.forge.jlatexmath.Atom processCommands(java.lang.String) -> processCommands
    boolean isValidName(java.lang.String) -> isValidName
    boolean isValidCharacterInCommand(char) -> isValidCharacterInCommand
    void skipWhiteSpace() -> skipWhiteSpace
    char convertToRomanNumber(char) -> convertToRomanNumber
org.scilab.forge.jlatexmath.TeXSymbolParser -> org.scilab.forge.jlatexmath.TeXSymbolParser:
    java.util.Map typeMappings -> a
    org.w3c.dom.Element root -> a
    java.util.Map readSymbols() -> readSymbols
    void setTypeMappings() -> setTypeMappings
    java.lang.String getAttrValueAndCheckIfNotNull(java.lang.String,org.w3c.dom.Element) -> getAttrValueAndCheckIfNotNull
org.scilab.forge.jlatexmath.TextCircledAtom -> org.scilab.forge.jlatexmath.TextCircledAtom:
    org.scilab.forge.jlatexmath.Atom at -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.TextStyleAtom -> org.scilab.forge.jlatexmath.TextStyleAtom:
    java.lang.String style -> a
    org.scilab.forge.jlatexmath.Atom at -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.TextStyleMappingNotFoundException -> org.scilab.forge.jlatexmath.TextStyleMappingNotFoundException:
org.scilab.forge.jlatexmath.TtAtom -> org.scilab.forge.jlatexmath.TtAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.TypedAtom -> org.scilab.forge.jlatexmath.TypedAtom:
    int leftType -> d
    int rightType -> e
    org.scilab.forge.jlatexmath.Atom atom -> a
    org.scilab.forge.jlatexmath.Atom getBase() -> getBase
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
org.scilab.forge.jlatexmath.URLAlphabetRegistration -> org.scilab.forge.jlatexmath.URLAlphabetRegistration:
    java.net.URL url -> a
    java.lang.String language -> a
    org.scilab.forge.jlatexmath.AlphabetRegistration pack -> a
    java.lang.Character$UnicodeBlock[] blocks -> c
    void register(java.net.URL,java.lang.String,java.lang.Character$UnicodeBlock[]) -> register
    java.lang.Character$UnicodeBlock[] getUnicodeBlock() -> getUnicodeBlock
    java.lang.Object getPackage() -> getPackage
    java.lang.String getTeXFontFileName() -> getTeXFontFileName
org.scilab.forge.jlatexmath.UnderOverArrowAtom -> org.scilab.forge.jlatexmath.UnderOverArrowAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    java.lang.String arrow -> a
    boolean over -> a
    boolean left -> b
    boolean dble -> c
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.UnderOverAtom -> org.scilab.forge.jlatexmath.UnderOverAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Atom under -> b
    org.scilab.forge.jlatexmath.Atom over -> c
    float underSpace -> a
    float overSpace -> b
    int underUnit -> d
    int overUnit -> e
    boolean underScriptSize -> a
    boolean overScriptSize -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
    org.scilab.forge.jlatexmath.Box changeWidth(org.scilab.forge.jlatexmath.Box,float) -> changeWidth
    int getLeftType() -> getLeftType
    int getRightType() -> getRightType
org.scilab.forge.jlatexmath.UnderlinedAtom -> org.scilab.forge.jlatexmath.UnderlinedAtom:
    org.scilab.forge.jlatexmath.Atom base -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.UnderscoreAtom -> org.scilab.forge.jlatexmath.UnderscoreAtom:
    org.scilab.forge.jlatexmath.SpaceAtom w -> a
    org.scilab.forge.jlatexmath.SpaceAtom s -> b
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.VCenteredAtom -> org.scilab.forge.jlatexmath.VCenteredAtom:
    org.scilab.forge.jlatexmath.Atom atom -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.VRowAtom -> org.scilab.forge.jlatexmath.VRowAtom:
    java.util.LinkedList elements -> a
    org.scilab.forge.jlatexmath.SpaceAtom raise -> a
    boolean addInterline -> a
    void setAddInterline(boolean) -> setAddInterline
    boolean getAddInterline() -> getAddInterline
    void setRaise(int,float) -> setRaise
    org.scilab.forge.jlatexmath.Atom getLastAtom() -> getLastAtom
    void add(org.scilab.forge.jlatexmath.Atom) -> add
    void append(org.scilab.forge.jlatexmath.Atom) -> append
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.VdotsAtom -> org.scilab.forge.jlatexmath.VdotsAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.VerticalBox -> org.scilab.forge.jlatexmath.VerticalBox:
    float leftMostPos -> e
    float rightMostPos -> f
    void add(org.scilab.forge.jlatexmath.Box) -> add
    void add(org.scilab.forge.jlatexmath.Box,float) -> add
    void recalculateWidth(org.scilab.forge.jlatexmath.Box) -> recalculateWidth
    void add(int,org.scilab.forge.jlatexmath.Box) -> add
    void draw(java.awt.Graphics2D,float,float) -> draw
    int getSize() -> getSize
    int getLastFontId() -> getLastFontId
org.scilab.forge.jlatexmath.VlineAtom -> org.scilab.forge.jlatexmath.VlineAtom:
    float height -> a
    float shift -> b
    int n -> d
    void setHeight(float) -> setHeight
    void setShift(float) -> setShift
    float getWidth(org.scilab.forge.jlatexmath.TeXEnvironment) -> getWidth
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.WebStartAlphabetRegistration -> org.scilab.forge.jlatexmath.WebStartAlphabetRegistration:
    java.lang.Character$UnicodeBlock[] blocks -> c
    org.scilab.forge.jlatexmath.AlphabetRegistration reg -> a
    void register(java.lang.Character$UnicodeBlock[]) -> register
    java.lang.Character$UnicodeBlock[] getUnicodeBlock() -> getUnicodeBlock
    java.lang.Object getPackage() -> getPackage
    java.lang.String getTeXFontFileName() -> getTeXFontFileName
org.scilab.forge.jlatexmath.XArrowAtom -> org.scilab.forge.jlatexmath.XArrowAtom:
    org.scilab.forge.jlatexmath.Atom over -> a
    org.scilab.forge.jlatexmath.Atom under -> b
    boolean left -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.XLeftRightArrowFactory -> org.scilab.forge.jlatexmath.XLeftRightArrowFactory:
    org.scilab.forge.jlatexmath.Atom MINUS -> a
    org.scilab.forge.jlatexmath.Atom LEFT -> b
    org.scilab.forge.jlatexmath.Atom RIGHT -> c
    org.scilab.forge.jlatexmath.Box create(boolean,org.scilab.forge.jlatexmath.TeXEnvironment,float) -> create
    org.scilab.forge.jlatexmath.Box create(org.scilab.forge.jlatexmath.TeXEnvironment,float) -> create
org.scilab.forge.jlatexmath.XMLResourceParseException -> org.scilab.forge.jlatexmath.XMLResourceParseException:
org.scilab.forge.jlatexmath.cache.JLaTeXMathCache -> org.scilab.forge.jlatexmath.a.a:
    java.awt.geom.AffineTransform identity -> a
    java.util.concurrent.ConcurrentMap cache -> a
    int max -> a
    java.lang.ref.ReferenceQueue queue -> a
    void setMaxCachedObjects(int) -> a
    int[] getCachedTeXFormulaDimensions(java.lang.Object) -> a
    java.lang.Object getCachedTeXFormula(java.lang.String,int,int,int,int,java.awt.Color) -> a
    void clearCache() -> a
    void removeCachedTeXFormula(java.lang.Object) -> a
    java.awt.Image getCachedTeXFormulaImage(java.lang.Object) -> a
    java.lang.ref.SoftReference makeImage(org.scilab.forge.jlatexmath.cache.JLaTeXMathCache$CachedTeXFormula) -> a
org.scilab.forge.jlatexmath.cache.JLaTeXMathCache$CachedImage -> org.scilab.forge.jlatexmath.a.a$a:
    java.awt.Image image -> a
    org.scilab.forge.jlatexmath.cache.JLaTeXMathCache$CachedTeXFormula cachedTf -> a
org.scilab.forge.jlatexmath.cache.JLaTeXMathCache$CachedTeXFormula -> org.scilab.forge.jlatexmath.a.a$b:
    java.lang.String f -> a
    int style -> a
    int type -> b
    int size -> c
    int inset -> d
    int width -> e
    int height -> f
    int depth -> g
    java.awt.Color fgcolor -> a
    void setDimensions(int,int,int) -> a
    boolean equals(java.lang.Object) -> equals
    int hashCode() -> hashCode
org.scilab.forge.jlatexmath.dynamic.DynamicAtom -> org.scilab.forge.jlatexmath.b.a:
    org.scilab.forge.jlatexmath.dynamic.ExternalConverterFactory ecFactory -> a
    org.scilab.forge.jlatexmath.dynamic.ExternalConverter converter -> a
    org.scilab.forge.jlatexmath.TeXFormula formula -> a
    java.lang.String externalCode -> a
    boolean insert -> a
    boolean refreshed -> b
    boolean hasAnExternalConverterFactory() -> a
    void setExternalConverterFactory(org.scilab.forge.jlatexmath.dynamic.ExternalConverterFactory) -> a
    boolean getInsertMode() -> b
    org.scilab.forge.jlatexmath.Atom getAtom() -> a
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
org.scilab.forge.jlatexmath.dynamic.ExternalConverter -> org.scilab.forge.jlatexmath.b.b:
    java.lang.String getLaTeXString(java.lang.String) -> a
org.scilab.forge.jlatexmath.dynamic.ExternalConverterFactory -> org.scilab.forge.jlatexmath.b.c:
    org.scilab.forge.jlatexmath.dynamic.ExternalConverter getExternalConverter() -> a
org.scilab.forge.jlatexmath.tcaronAtom -> org.scilab.forge.jlatexmath.tcaronAtom:
    org.scilab.forge.jlatexmath.Box createBox(org.scilab.forge.jlatexmath.TeXEnvironment) -> createBox
