geogebra.AppletImplementationInterface -> geogebra.h: void dispose() -> k void initInBackground() -> l geogebra.AppletSplashScreen -> geogebra.k: java.awt.Font DEFAULT_FONT -> a 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 java.lang.Class class$0 -> 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.ClassPathManipulator -> geogebra.a: java.lang.Class class$0 -> a java.lang.Class class$1 -> b boolean addURL(java.net.URL,java.lang.ClassLoader) -> a geogebra.GeoGebra -> geogebra.GeoGebra: java.lang.Class class$0 -> a void main(java.lang.String[]) -> main void startGeoGebra(java.lang.String[]) -> a geogebra.GeoGebraApplet -> geogebra.GeoGebraApplet: geogebra.AppletImplementationInterface appletImplementation -> a geogebra.JarManager jarManager -> a boolean animationRunningAtLastStop -> a geogebra.AppletSplashScreen splashScreen -> a boolean appletIsIniting -> b void init() -> init void initAppletInBackground() -> b void start() -> start void stop() -> stop void destroy() -> destroy geogebra.AppletImplementationInterface getAppletImplementation() -> a void initAppletImplementation() -> a void paint(java.awt.Graphics) -> paint java.lang.String getDownloadStatusMessage() -> a void deleteObject(java.lang.String) -> deleteObject boolean evalCommand(java.lang.String) -> evalCommand void evalXML(java.lang.String) -> evalXML java.lang.String evalMathPiper(java.lang.String) -> evalMathPiper java.lang.String evalYacas(java.lang.String) -> evalYacas 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 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 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 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 registerRemoveListener(java.lang.String) -> registerRemoveListener void registerRenameListener(java.lang.String) -> registerRenameListener void registerUpdateListener(java.lang.String) -> registerUpdateListener 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 boolean isAnimationRunning() -> isAnimationRunning void reset() -> reset void setAxesVisible(boolean,boolean) -> setAxesVisible void setColor(java.lang.String,int,int,int) -> setColor void setLineThickness(java.lang.String,int) -> setLineThickness void setLineStyle(java.lang.String,int) -> setLineStyle void setFilling(java.lang.String,double) -> setFilling void setPointStyle(java.lang.String,int) -> setPointStyle 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 setLabelMode(java.lang.String,boolean) -> setLabelMode 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 setVisible(java.lang.String,boolean) -> setVisible boolean getVisible(java.lang.String) -> getVisible void setXML(java.lang.String) -> setXML void unregisterAddListener(java.lang.String) -> unregisterAddListener void unregisterClearListener(java.lang.String) -> unregisterClearListener void unregisterObjectUpdateListener(java.lang.String) -> unregisterObjectUpdateListener void unregisterRemoveListener(java.lang.String) -> unregisterRemoveListener void unregisterRenameListener(java.lang.String) -> unregisterRenameListener void unregisterUpdateListener(java.lang.String) -> unregisterUpdateListener void access$0(geogebra.GeoGebraApplet,geogebra.AppletSplashScreen) -> a void access$1(geogebra.GeoGebraApplet) -> a geogebra.AppletImplementationInterface access$2(geogebra.GeoGebraApplet) -> a geogebra.AppletSplashScreen access$3(geogebra.GeoGebraApplet) -> a geogebra.AppletImplementationInterface access$4(geogebra.GeoGebraApplet) -> b geogebra.GeoGebraApplet$1 -> geogebra.g: geogebra.GeoGebraApplet this$0 -> a void run() -> run geogebra.GeoGebraApplet$2 -> geogebra.f: geogebra.GeoGebraApplet this$0 -> a void run() -> run geogebra.GeoGebraApplet access$0(geogebra.GeoGebraApplet$2) -> a geogebra.GeoGebraApplet$3 -> geogebra.i: geogebra.GeoGebraApplet$2 this$1 -> a void run() -> run geogebra.JarConnectionManager -> geogebra.d: java.net.URL codebase -> a java.net.URLConnection[] connections -> a java.io.BufferedInputStream[] inputStreams -> a java.lang.Class class$0 -> a void initConnectionsInBackground() -> a void initCodeBase() -> b java.io.BufferedInputStream getInputStream(int) -> a java.net.URLConnection getURLConnection(int) -> a void initURLConnection(int) -> a java.net.URL getCodebase() -> a void access$0(geogebra.JarConnectionManager,int) -> a geogebra.JarConnectionManager$1 -> geogebra.c: geogebra.JarConnectionManager this$0 -> a void run() -> run geogebra.JarManager -> geogebra.b: java.lang.String[] JAR_FILES -> a boolean usedByApplet -> b java.lang.ClassLoader appClassLoader -> a geogebra.JarManager singleton -> a geogebra.JarConnectionManager jarConnectionManager -> a java.net.URL codebase -> a int main_app_type -> a java.io.File localJarDir -> a boolean useExistingCacheDir -> a boolean[] jarFileOnClasspath -> a boolean[] jarFileTriedToPutOnClasspath -> b java.lang.StringBuffer statusMessage -> a java.lang.String downloadJarFile -> a double downloadProgress -> a java.lang.String tempDir -> b java.lang.Class class$0 -> a geogebra.JarManager getSingleton(boolean) -> a java.net.URL getCodeBase() -> a java.lang.String getDownloadStatusMessage() -> a boolean addJarToClassPath(int) -> a boolean doAddJarToClassPath(int) -> c boolean checkJarFile(int,java.io.File) -> a boolean isJarFileReadable(java.io.File) -> a void initApplicationType() -> b void initLocalJarDir() -> a java.lang.String getTempDir() -> b java.io.File createLocalDir() -> a boolean downloadFile(int) -> b java.lang.String loadTextFile(java.lang.String) -> a void copyURLToFile(int,java.io.File) -> a void copyFile(java.io.File,java.io.File) -> a void copyAllJarsTo(java.lang.String) -> a geogebra.JavaScriptAPI -> geogebra.e: byte[] getGGBfile() -> getGGBfile java.lang.String getXML() -> getXML java.lang.String getXML(java.lang.String) -> getXML java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML void setXML(java.lang.String) -> setXML void evalXML(java.lang.String) -> evalXML boolean evalCommand(java.lang.String) -> evalCommand void debug(java.lang.String) -> debug java.lang.String evalMathPiper(java.lang.String) -> evalMathPiper 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 setLabelMode(java.lang.String,boolean) -> setLabelMode 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 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 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 boolean isAnimationRunning() -> isAnimationRunning boolean isDefined(java.lang.String) -> isDefined 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 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 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 geogebra.SplashWindow -> geogebra.j: 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.l: geogebra.SplashWindow this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked geogebra.cas.GeoGebraCAS -> geogebra.g.a: org.mathpiper.interpreters.Interpreter ggbMathPiper -> a jasymca.GeoGebraJasymca ggbJasymca -> a java.lang.StringBuffer sbInsertSpecial -> a java.lang.StringBuffer sbReplaceIndices -> b java.lang.StringBuffer sbPolyCoeffs -> c geogebra.main.Application app -> a org.mathpiper.interpreters.EvaluationResponse response -> a java.util.HashMap getPolynomialCoeffsCache -> a java.lang.StringBuffer getPolynomialCoeffsSB -> d java.lang.String evaluateJASYMCA(java.lang.String) -> b java.lang.String evaluateMathPiper(java.lang.String) -> a org.mathpiper.interpreters.Interpreter getMathPiper() -> a void initMyMathPiperFunctions() -> a java.lang.String[] getPolynomialCoeffs(java.lang.String,java.lang.String) -> a java.lang.String replaceIndices(java.lang.String) -> c java.lang.String insertSpecialChars(java.lang.String) -> d geogebra.euclidian.DrawAngle -> geogebra.b.b: geogebra.kernel.GeoAngle angle -> a geogebra.kernel.GeoPoint vertex -> a geogebra.kernel.GeoPoint point -> b geogebra.kernel.GeoLine line -> a geogebra.kernel.GeoLine line2 -> b geogebra.kernel.GeoVector vector -> a boolean isVisible -> a boolean labelVisible -> b boolean show90degrees -> c int angleDrawMode -> a java.awt.geom.Arc2D$Double drawArc -> a java.awt.geom.GeneralPath polygon -> a java.awt.geom.Ellipse2D$Double dot90degree -> a java.awt.Shape shape -> c double[] m -> a double[] coords -> b double[] firstVec -> c geogebra.kernel.GeoPoint tempPoint -> c boolean drawDot -> d geogebra.kernel.Kernel kernel -> a java.awt.Shape shapeArc1 -> d java.awt.Shape shapeArc2 -> e java.awt.geom.Arc2D$Double decoArc -> b java.awt.geom.Line2D$Double[] tick -> a double[] angleTick -> d double MAX_TICK_DISTANCE -> a java.awt.geom.GeneralPath square -> b void update() -> a void draw(java.awt.Graphics2D) -> a void updateTick(double,int,int) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawBoolean -> geogebra.b.l: geogebra.kernel.GeoBoolean geoBool -> a boolean isVisible -> a boolean hit -> b java.lang.String oldCaption -> a java.awt.Point textSize -> a geogebra.euclidian.DrawBoolean$CheckBoxIcon checkBoxIcon -> a void update() -> a void updateLabel() -> d void draw(java.awt.Graphics2D) -> a void remove() -> b boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a boolean hitLabel(int,int) -> b geogebra.kernel.GeoElement getGeoElement() -> a geogebra.euclidian.DrawBoolean$CheckBoxIcon -> geogebra.b.M: geogebra.euclidian.EuclidianView ev -> a java.awt.Color highlightBackground -> a void paintIcon(boolean,boolean,java.awt.Graphics,int,int) -> a geogebra.euclidian.DrawConic -> geogebra.b.m: geogebra.kernel.GeoConic conic -> a boolean isVisible -> i boolean labelVisible -> j int type -> a double[] labelCoords -> a boolean firstPoint -> a geogebra.kernel.GeoPoint point -> a geogebra.euclidian.DrawPoint drawPoint -> a boolean firstLines -> b geogebra.kernel.GeoLine[] lines -> a geogebra.euclidian.DrawLine[] drawLines -> a boolean firstCircle -> c geogebra.kernel.GeoVec2D midpoint -> a java.awt.geom.Arc2D$Double arc -> a java.awt.geom.GeneralPath arcFiller -> a java.awt.geom.GeneralPath gp -> b java.awt.geom.RectangularShape circle -> a double mx -> a double my -> b double radius -> c double yradius -> d double angSt -> e double angEnd -> f java.awt.geom.AffineTransform conicTransform -> a java.awt.geom.AffineTransform transform -> b java.awt.Shape shape -> c boolean firstEllipse -> d double[] halfAxes -> b java.awt.geom.Ellipse2D$Double ellipse -> a boolean firstParabola -> e double x0 -> g double y0 -> h int i -> b int k2 -> f geogebra.kernel.GeoVec2D vertex -> b java.awt.geom.QuadCurve2D$Double parabola -> a double[] parpoints -> c boolean firstHyperbola -> f double a -> i double b -> j double tsq -> k double step -> l double t -> m double denom -> n double x -> o double y -> p int index0 -> g int index1 -> h int n -> i int points -> j geogebra.euclidian.Polyline hypLeft -> a geogebra.euclidian.Polyline hypRight -> b boolean hypLeftOnScreen -> k boolean hypRightOnScreen -> l java.util.ArrayList prevPoints -> a java.util.ArrayList prevSegments -> b geogebra.kernel.GeoPoint[] previewTempPoints -> a geogebra.kernel.GeoNumeric previewTempRadius -> a int previewMode -> k int neededPrevPoints -> l void initConic(geogebra.kernel.GeoConic) -> a void update() -> a void updateSinglePoint() -> d void updateLines() -> e void updateCircle() -> f void updateEllipse() -> g void updateHyperbola() -> h void updateParabola() -> i void draw(java.awt.Graphics2D) -> a java.awt.Rectangle getBounds() -> a void drawTrace(java.awt.Graphics2D) -> b boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a void initPreview() -> j void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c geogebra.euclidian.DrawConicPart -> geogebra.b.w: geogebra.kernel.GeoConicPart conicPart -> a boolean isVisible -> a boolean labelVisible -> b java.awt.geom.Arc2D$Double arc -> a java.awt.Shape shape -> c double[] halfAxes -> a int closure -> a int draw_type -> b java.awt.geom.AffineTransform transform -> a geogebra.euclidian.DrawRay drawRay1 -> a geogebra.euclidian.DrawRay drawRay2 -> b geogebra.euclidian.DrawSegment drawSegment -> a double[] coords -> b java.util.ArrayList prevPoints -> a geogebra.kernel.GeoPoint[] previewTempPoints -> a int previewMode -> f int neededPrevPoints -> g void initConicPart(geogebra.kernel.GeoConicPart) -> a void update() -> a void updateEllipse() -> d void updateParallelLines() -> e void draw(java.awt.Graphics2D) -> a java.awt.Rectangle getBounds() -> a void drawTrace(java.awt.Graphics2D) -> b void initPreview() -> f void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a boolean hitLabel(int,int) -> b geogebra.kernel.GeoElement getGeoElement() -> a geogebra.euclidian.DrawImage -> geogebra.b.j: geogebra.kernel.GeoImage geoImage -> a boolean isVisible -> a java.awt.Image image -> a boolean absoluteLocation -> b java.awt.AlphaComposite alphaComp -> a float alpha -> a boolean isInBackground -> c java.awt.geom.AffineTransform at -> a java.awt.geom.AffineTransform atInverse -> b java.awt.geom.AffineTransform tempAT -> c int screenX -> a int screenY -> b java.awt.Rectangle boundingBox -> b double[] hitCoords -> a void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a java.awt.Rectangle getBounds() -> a boolean hitLabel(int,int) -> b geogebra.kernel.GeoElement getGeoElement() -> a geogebra.euclidian.DrawIntegral -> geogebra.b.i: geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b java.awt.geom.GeneralPath gp -> a boolean isVisible -> a boolean labelVisible -> b void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a java.awt.Rectangle getBounds() -> a geogebra.kernel.GeoElement getGeoElement() -> a geogebra.euclidian.DrawIntegralFunctions -> geogebra.b.H: geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b java.awt.geom.GeneralPath gp -> a boolean isVisible -> a boolean labelVisible -> b void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a java.awt.Rectangle getBounds() -> a geogebra.kernel.GeoElement getGeoElement() -> a geogebra.euclidian.DrawLine -> geogebra.b.B: geogebra.kernel.GeoLine g -> a java.awt.geom.Line2D$Float 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 -> a int p1Pos -> b int p2Pos -> f int x -> g int y -> h boolean isVisible -> a boolean labelVisible -> b java.util.ArrayList points -> a geogebra.kernel.GeoPoint startPoint -> a boolean[] attr1 -> a boolean[] attr2 -> b java.awt.geom.Point2D$Double endPoint -> a void update() -> a void setClippedLine() -> d void clipTopBottom() -> e void clipLeftRight() -> f void setLabelPosition() -> g void draw(java.awt.Graphics2D) -> a void drawTrace(java.awt.Graphics2D) -> b void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a void setGeoElement(geogebra.kernel.GeoElement) -> a geogebra.euclidian.DrawList -> geogebra.b.e: geogebra.kernel.GeoList geoList -> a java.util.ArrayList drawables -> a boolean isVisible -> a void update() -> a boolean addToDrawableList(geogebra.kernel.GeoElement,int,int) -> a geogebra.euclidian.Drawable getDrawable(geogebra.kernel.GeoElement) -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a java.awt.Rectangle getBounds() -> a geogebra.kernel.GeoElement getGeoElement() -> a geogebra.euclidian.DrawLocus -> geogebra.b.F: geogebra.kernel.GeoLocus locus -> a boolean isVisible -> a boolean labelVisible -> b java.awt.geom.GeneralPath gp -> a double[] lastPointCoords -> a void update() -> a void buildGeneralPath(java.util.ArrayList) -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawParametricCurve -> geogebra.b.h: long countEvaluations -> a geogebra.kernel.ParametricCurve curve -> a java.awt.geom.GeneralPath gp -> a boolean isVisible -> a boolean labelVisible -> b int countPoints -> a void update() -> a java.awt.Point plotCurve(geogebra.kernel.ParametricCurve,double,double,geogebra.euclidian.EuclidianView,java.awt.geom.GeneralPath,boolean,boolean) -> a boolean tooCloseOnScreen(geogebra.euclidian.EuclidianView,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> a java.awt.Point plotClosedCurve(geogebra.kernel.ParametricCurve,double,double,int,geogebra.euclidian.EuclidianView,java.awt.geom.GeneralPath,boolean,boolean,geogebra.kernel.GeoVec2D) -> a java.awt.Point splitAndPlotInterval(int,geogebra.kernel.ParametricCurve,double,double,geogebra.euclidian.EuclidianView,java.awt.geom.GeneralPath,boolean,boolean) -> a java.awt.Point plotInterval(geogebra.kernel.ParametricCurve,double,double,int,geogebra.euclidian.EuclidianView,java.awt.geom.GeneralPath,boolean,boolean) -> a boolean checkDistance(double,double) -> a boolean checkDistanceVeryLarge(double,double) -> b boolean checkAngle(double,double) -> c java.awt.Point plotProblemInterval(geogebra.kernel.ParametricCurve,double,double,int,geogebra.euclidian.EuclidianView,java.awt.geom.GeneralPath,boolean,boolean,java.awt.Point,double[]) -> a void getDefinedInterval(geogebra.kernel.ParametricCurve,double,double,double[]) -> a void moveTo(java.awt.geom.GeneralPath,double,double) -> a void lineTo(java.awt.geom.GeneralPath,double,double) -> b void drawTo(java.awt.geom.GeneralPath,double,double,boolean) -> a void draw(java.awt.Graphics2D) -> a void drawTrace(java.awt.Graphics2D) -> b boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawPoint -> geogebra.b.f: int SELECTION_OFFSET -> a geogebra.kernel.GeoPoint P -> a int diameter -> b int selDiameter -> f int pointSize -> g boolean isVisible -> a boolean labelVisible -> b java.awt.geom.Ellipse2D$Double circle -> a java.awt.geom.Ellipse2D$Double circleSel -> b java.awt.geom.Line2D$Double line1 -> a java.awt.geom.Line2D$Double line2 -> b java.awt.BasicStroke borderStroke -> d java.awt.BasicStroke[] crossStrokes -> a void update() -> a void draw(java.awt.Graphics2D) -> a void drawTrace(java.awt.Graphics2D) -> b boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a java.awt.Rectangle getBounds() -> a geogebra.kernel.GeoElement getGeoElement() -> a void setGeoElement(geogebra.kernel.GeoElement) -> a geogebra.euclidian.DrawPolygon -> geogebra.b.E: geogebra.kernel.GeoPolygon poly -> a boolean isVisible -> a boolean labelVisible -> b java.awt.geom.GeneralPath gp -> a java.awt.geom.GeneralPath gpPreview -> b double[] coords -> a java.util.ArrayList points -> a void update() -> a void draw(java.awt.Graphics2D) -> a void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawRay -> geogebra.b.K: geogebra.kernel.GeoLine ray -> a geogebra.kernel.GeoPoint A -> a boolean isVisible -> a boolean labelVisible -> b java.util.ArrayList points -> a java.awt.geom.Line2D$Double line -> a double[] a -> a double[] v -> b void update() -> a void update(boolean) -> a void setClippedLine() -> d void draw(java.awt.Graphics2D) -> a void setStroke(java.awt.BasicStroke) -> a void drawTrace(java.awt.Graphics2D) -> b void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a void setGeoElement(geogebra.kernel.GeoElement) -> a geogebra.euclidian.DrawSegment -> geogebra.b.C: geogebra.kernel.GeoLine s -> a geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b boolean isVisible -> a boolean labelVisible -> b java.util.ArrayList points -> a java.awt.geom.Line2D$Float line -> a double[] coordsA -> a double[] coordsB -> b java.awt.geom.Line2D$Double[] decoTicks -> a java.awt.geom.Point2D$Double endPoint -> a void update() -> a void draw(java.awt.Graphics2D) -> a void drawTrace(java.awt.Graphics2D) -> b void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a void setGeoElement(geogebra.kernel.GeoElement) -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawSlider -> geogebra.b.N: geogebra.kernel.GeoNumeric number -> a boolean isVisible -> a boolean labelVisible -> b double[] coordsRW -> a double[] coordsScreen -> b java.awt.geom.Line2D$Double line -> a geogebra.kernel.GeoPoint geoPoint -> a geogebra.euclidian.DrawPoint drawPoint -> a void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a boolean hitPoint(int,int) -> c boolean hitLabel(int,int) -> b boolean hitSlider(int,int) -> d geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawSlope -> geogebra.b.o: geogebra.kernel.GeoNumeric slope -> a geogebra.kernel.GeoLine g -> a boolean isVisible -> a boolean labelVisible -> b int xLabelHor -> a int yLabelHor -> b java.lang.String horLabel -> a double[] coords -> a java.awt.geom.GeneralPath gp -> a geogebra.kernel.Kernel kernel -> a void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawText -> geogebra.b.G: geogebra.kernel.GeoText text -> a boolean isVisible -> a boolean isLaTeX -> b int fontSize -> a int fontStyle -> b boolean serifFont -> c java.awt.Font textFont -> a geogebra.kernel.GeoPoint loc -> a int oldXpos -> f int oldYpos -> g boolean needsBoundingBoxOld -> d void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a boolean hitLabel(int,int) -> b geogebra.kernel.GeoElement getGeoElement() -> a void remove() -> b void updateFontSize() -> d_ boolean doUpdateFontSize() -> b java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawUpperLowerSum -> geogebra.b.s: geogebra.kernel.GeoNumeric sum -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b boolean isVisible -> a boolean labelVisible -> b geogebra.kernel.AlgoFunctionAreaSums algo -> a java.awt.geom.GeneralPath gp -> a double[] coords -> a boolean trapeziums -> c boolean histogram -> d boolean boxplot -> e boolean barchartFreqs -> f void update() -> a void updateBoxPlot() -> b void updateBarChart() -> c void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.DrawVector -> geogebra.b.I: geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoPoint P -> a double x1 -> a double y1 -> b double x2 -> c double y2 -> d double length -> e double fx -> f double fy -> g double vx -> h double vy -> i double factor -> j boolean isVisible -> a boolean labelVisible -> b boolean traceDrawingNeeded -> c java.awt.geom.Line2D$Float line -> a java.awt.geom.GeneralPath gp -> a double[] coords -> a java.util.ArrayList points -> a void update() -> a void setArrow(float) -> a void draw(java.awt.Graphics2D) -> a void drawTrace(java.awt.Graphics2D) -> b void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a java.awt.Rectangle getBounds() -> a geogebra.euclidian.Drawable -> geogebra.b.L: java.awt.BasicStroke objStroke -> a java.awt.BasicStroke selStroke -> b java.awt.BasicStroke decoStroke -> c int lineThickness -> a int lineType -> c geogebra.euclidian.EuclidianView view -> a geogebra.kernel.GeoElement geo -> a int xLabel -> d int yLabel -> e java.lang.String labelDesc -> b java.lang.String oldLabelDesc -> a boolean labelHasIndex -> a java.awt.Rectangle labelRectangle -> a java.awt.Shape strokedShape -> a java.awt.Shape strokedShape2 -> b int lastFontSize -> b boolean isTracing -> g boolean createdByDrawList -> h geogebra.gui.hoteqn.sHotEqn eqn -> a double[] coords -> a void update() -> a void draw(java.awt.Graphics2D) -> a boolean hit(int,int) -> a boolean isInside(java.awt.Rectangle) -> a geogebra.kernel.GeoElement getGeoElement() -> a double getxLabel() -> a double getyLabel() -> b void updateFontSize() -> d_ java.awt.Rectangle getBounds() -> a void drawLabel(java.awt.Graphics2D) -> d void ensureLabelDrawsOnScreen() -> k float textWidth(java.lang.String,java.awt.Font,java.awt.font.FontRenderContext) -> a void drawMultilineLaTeX(java.awt.Graphics2D,java.awt.Font,java.awt.Color,java.awt.Color) -> a java.awt.Dimension drawEquation(java.awt.Graphics2D,int,int,java.lang.String,java.awt.Font,java.awt.Color,java.awt.Color) -> a void drawMultilineText(java.awt.Graphics2D) -> e java.awt.Point drawIndexedString(java.awt.Graphics2D,java.lang.String,float,float) -> a java.awt.Font getIndexFont(java.awt.Font) -> a boolean addLabelOffset() -> a boolean addLabelOffset(boolean) -> a boolean hitLabel(int,int) -> b void updateStrokes(geogebra.kernel.GeoElement) -> b void drawWithValueStrokePure(java.awt.Shape,java.awt.Graphics2D) -> a void fillWithValueStrokePure(java.awt.Shape,java.awt.Graphics2D) -> b void recordToSpreadsheet(geogebra.kernel.GeoElement) -> c geogebra.euclidian.DrawableList -> geogebra.b.u: geogebra.euclidian.DrawableList$Link head -> a geogebra.euclidian.DrawableList$Link tail -> b int size -> a int size() -> a void add(geogebra.euclidian.Drawable) -> a void addUnique(geogebra.euclidian.Drawable) -> b boolean contains(geogebra.euclidian.Drawable) -> a void remove(geogebra.euclidian.Drawable) -> c void drawAll(java.awt.Graphics2D) -> a void updateAll() -> a void updateFontSizeAll() -> b void clear() -> c geogebra.euclidian.DrawableList$DrawableIterator getIterator() -> a geogebra.euclidian.DrawableList$Link access$0(geogebra.euclidian.DrawableList) -> a geogebra.euclidian.DrawableList$DrawableIterator -> geogebra.b.v: geogebra.euclidian.DrawableList$Link it -> a geogebra.euclidian.DrawableList this$0 -> a geogebra.euclidian.Drawable next() -> a boolean hasNext() -> a void reset() -> a geogebra.euclidian.DrawableList$Link -> geogebra.b.D: geogebra.euclidian.Drawable d -> a geogebra.euclidian.DrawableList$Link next -> a geogebra.euclidian.DrawableList this$0 -> a geogebra.euclidian.EuclidianController -> geogebra.b.p: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.euclidian.EuclidianView view -> a java.awt.Point startLoc -> a java.awt.Point mouseLoc -> b java.awt.Point lastMouseLoc -> c double xZeroOld -> a double yZeroOld -> b double xTemp -> c double yTemp -> d java.awt.Point oldLoc -> d double xRW -> e double yRW -> f double xRWold -> g double yRWold -> h java.awt.geom.Point2D$Double startPoint -> a boolean useLineEndPoint -> k java.awt.geom.Point2D$Double lineEndPoint -> b java.awt.Point selectionStartPoint -> e geogebra.kernel.GeoConic tempConic -> a geogebra.kernel.GeoFunction tempFunction -> a geogebra.kernel.GeoPoint movedGeoPoint -> a boolean movedGeoPointDragged -> a geogebra.kernel.GeoLine movedGeoLine -> a geogebra.kernel.GeoConic movedGeoConic -> b geogebra.kernel.GeoVector movedGeoVector -> a geogebra.kernel.GeoText movedGeoText -> a geogebra.kernel.GeoImage oldImage -> a geogebra.kernel.GeoImage movedGeoImage -> b geogebra.kernel.GeoFunction movedGeoFunction -> b geogebra.kernel.GeoNumeric movedGeoNumeric -> a boolean movedGeoNumericDragged -> b geogebra.kernel.GeoBoolean movedGeoBoolean -> a geogebra.kernel.GeoElement movedLabelGeoElement -> a geogebra.kernel.GeoElement movedGeoElement -> b geogebra.kernel.GeoElement rotGeoElement -> c geogebra.kernel.GeoElement rotStartGeo -> d geogebra.kernel.GeoPoint rotationCenter -> b geogebra.kernel.GeoElement recordObject -> e geogebra.kernel.arithmetic.MyDouble tempNum -> a double rotStartAngle -> i java.util.ArrayList translateableGeos -> a geogebra.kernel.GeoVector translationVec -> b java.util.ArrayList tempArrayList -> b java.util.ArrayList tempArrayList2 -> c java.util.ArrayList tempArrayList3 -> d java.util.ArrayList selectedPoints -> e java.util.ArrayList selectedNumbers -> f java.util.ArrayList selectedLines -> g java.util.ArrayList selectedSegments -> h java.util.ArrayList selectedConics -> i java.util.ArrayList selectedFunctions -> j java.util.ArrayList selectedCurves -> k java.util.ArrayList selectedVectors -> l java.util.ArrayList selectedPolygons -> m java.util.ArrayList selectedGeos -> n java.util.ArrayList selectedLists -> o java.util.LinkedList highlightedGeos -> a boolean selectionPreview -> c boolean TEMPORARY_MODE -> d boolean DONT_CLEAR_SELECTION -> e boolean DRAGGING_OCCURED -> f boolean POINT_CREATED -> g boolean moveModeSelectionHandled -> h int mode -> a int oldMode -> b int moveMode -> c geogebra.kernel.Macro macro -> a java.lang.Class[] macroInput -> a int DEFAULT_INITIAL_DELAY -> d boolean toggleModeChangedKernel -> i boolean altDown -> j java.lang.String defaultRotateAngle -> a double MOUSE_DRAG_MAX_DIST_SQUARE -> j int MAX_CONTINUITY_STEPS -> e java.util.ArrayList handleAddSelectedArrayList -> p java.lang.Class class$0 -> a java.lang.Class class$1 -> b java.lang.Class class$2 -> c java.lang.Class class$3 -> d java.lang.Class class$4 -> e java.lang.Class class$5 -> f java.lang.Class class$6 -> g java.lang.Class class$7 -> h java.lang.Class class$8 -> i java.lang.Class class$9 -> j java.lang.Class class$10 -> k java.lang.Class class$11 -> l java.lang.Class class$12 -> m java.lang.Class class$13 -> n java.lang.Class class$14 -> o java.lang.Class class$15 -> p java.lang.Class class$16 -> q java.lang.Class class$17 -> r java.lang.Class class$18 -> s geogebra.main.Application getApplication() -> a geogebra.kernel.Kernel getKernel() -> a void setView(geogebra.euclidian.EuclidianView) -> a void setMode(int) -> a void endOfMode(int) -> b void initNewMode(int) -> c void initShowMouseCoords() -> a void clearSelections() -> b void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked void handleSelectClick(java.util.ArrayList,boolean) -> a void mousePressed(java.awt.event.MouseEvent) -> mousePressed void handleMousePressedForRotateMode() -> c void handleMousePressedForMoveMode(java.awt.event.MouseEvent,boolean) -> a void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged boolean allowSelectionRectangle() -> a void handleMouseDragged(boolean) -> a void updateSelectionRectangle(boolean) -> b void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased boolean hitResetIcon() -> b boolean processZoomRectangle() -> c void processSelectionRectangle(java.awt.event.MouseEvent) -> b void processSelectionRectangleForTransformations(java.util.ArrayList,java.lang.Class) -> a void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved void doSingleHighlighting(geogebra.kernel.GeoElement) -> a boolean refreshHighlighting(java.util.ArrayList) -> a void setHighlightedGeos(boolean) -> c boolean processMode(java.util.ArrayList,java.awt.event.MouseEvent) -> a void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered void mouseExited(java.awt.event.MouseEvent) -> mouseExited void initToolTipManager() -> d void resetToolTipManager() -> e void rotateObject(boolean) -> d void moveLabel() -> f void movePoint(boolean) -> e void moveLine(boolean) -> f void moveVector(boolean) -> g void moveVectorStartPoint(boolean) -> h void moveText(boolean) -> i void moveImage(boolean) -> j void moveConic(boolean) -> k void moveFunction(boolean) -> l void moveBoolean(boolean) -> m void moveNumeric(boolean) -> n void moveSlider(boolean) -> o void moveDependent(boolean) -> p void moveMultipleObjects(boolean) -> q void transformCoords() -> g void calcRWcoords() -> h void setMouseLocation(java.awt.event.MouseEvent) -> c boolean createNewPoint(java.util.ArrayList,boolean,boolean,boolean) -> a boolean join(java.util.ArrayList) -> b void recordSingleObjectToSpreadSheet(geogebra.kernel.GeoElement) -> b void handleMousePressedForRecordToSpreadsheetMode(java.awt.event.MouseEvent) -> a boolean noPointsIn(java.util.ArrayList) -> R boolean record(java.util.ArrayList,java.awt.event.MouseEvent) -> d void resetSpreadsheetRecording() -> j boolean segment(java.util.ArrayList) -> d boolean vector(java.util.ArrayList) -> e boolean ray(java.util.ArrayList) -> f boolean polygon(java.util.ArrayList) -> g boolean intersect(java.util.ArrayList) -> h geogebra.kernel.GeoPoint getSingleIntersectionPoint(java.util.ArrayList) -> a boolean parallel(java.util.ArrayList) -> i boolean parabola(java.util.ArrayList) -> j boolean orthogonal(java.util.ArrayList) -> k boolean midpoint(java.util.ArrayList) -> l boolean lineBisector(java.util.ArrayList) -> m boolean angularBisector(java.util.ArrayList) -> n boolean threePoints(java.util.ArrayList,int) -> a boolean angle(java.util.ArrayList) -> o geogebra.kernel.GeoAngle createLineAngle(geogebra.kernel.GeoLine[]) -> a boolean circle2(java.util.ArrayList,int) -> b boolean locus(java.util.ArrayList) -> p boolean conic5(java.util.ArrayList) -> q boolean relation(java.util.ArrayList) -> r boolean distance(java.util.ArrayList,java.awt.event.MouseEvent) -> b geogebra.kernel.GeoText createDistanceText(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement,geogebra.kernel.GeoPoint,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoText createDynamicText(java.lang.String,geogebra.kernel.GeoElement,java.awt.Point) -> a java.lang.String removeUnderscores(java.lang.String) -> a boolean area(java.util.ArrayList,java.awt.event.MouseEvent) -> c java.lang.String descriptionPoints(java.lang.String,geogebra.kernel.GeoPolygon) -> a boolean slope(java.util.ArrayList) -> s boolean regularPolygon(java.util.ArrayList) -> t boolean showCheckBox(java.util.ArrayList) -> u boolean tangents(java.util.ArrayList) -> v boolean polarLine(java.util.ArrayList) -> w boolean delete(java.util.ArrayList) -> x boolean showHideObject(java.util.ArrayList) -> y boolean showHideLabel(java.util.ArrayList) -> z boolean copyVisualStyle(java.util.ArrayList) -> A boolean mirrorAtPoint(java.util.ArrayList) -> B void removeParentPoints(java.util.ArrayList) -> a boolean mirrorAtLine(java.util.ArrayList) -> C boolean mirrorAtCircle(java.util.ArrayList) -> D boolean translateByVector(java.util.ArrayList) -> E boolean rotateByAngle(java.util.ArrayList) -> F boolean dilateFromPoint(java.util.ArrayList) -> G boolean segmentFixed(java.util.ArrayList) -> H boolean fitLine(java.util.ArrayList) -> I boolean compasses(java.util.ArrayList) -> J boolean angleFixed(java.util.ArrayList) -> K boolean circlePointRadius(java.util.ArrayList) -> L boolean vectorFromPoint(java.util.ArrayList) -> M boolean macro(java.util.ArrayList) -> N boolean geoElementSelected(java.util.ArrayList,boolean) -> a boolean move(java.util.ArrayList) -> O boolean moveRotate(java.util.ArrayList) -> P boolean point(java.util.ArrayList) -> Q boolean textImage(java.util.ArrayList,int,boolean) -> a boolean slider() -> d geogebra.kernel.GeoElement[] getSelectedGeos() -> a geogebra.kernel.GeoPoint[] getSelectedPoints() -> a geogebra.kernel.GeoNumeric[] getSelectedNumbers() -> a geogebra.kernel.GeoList[] getSelectedLists() -> a geogebra.kernel.GeoPolygon[] getSelectedPolygons() -> a geogebra.kernel.GeoLine[] getSelectedLines() -> a geogebra.kernel.GeoSegment[] getSelectedSegments() -> a geogebra.kernel.GeoVector[] getSelectedVectors() -> a geogebra.kernel.GeoConic[] getSelectedConics() -> a geogebra.kernel.GeoFunction[] getSelectedFunctions() -> a geogebra.kernel.GeoCurveCartesian[] getSelectedCurves() -> a void clearSelection(java.util.ArrayList) -> b int addSelectedGeo(java.util.ArrayList,int,boolean) -> a int handleAddSelected(java.util.ArrayList,int,boolean,java.util.ArrayList,java.lang.Class) -> a int addSelectedPoint(java.util.ArrayList,int,boolean) -> b int addSelectedNumeric(java.util.ArrayList,int,boolean) -> c int addSelectedLine(java.util.ArrayList,int,boolean) -> d int addSelectedSegment(java.util.ArrayList,int,boolean) -> e int addSelectedVector(java.util.ArrayList,int,boolean) -> f int addSelectedConic(java.util.ArrayList,int,boolean) -> g int addSelectedFunction(java.util.ArrayList,int,boolean) -> h int addSelectedCurve(java.util.ArrayList,int,boolean) -> i int addSelectedPolygon(java.util.ArrayList,int,boolean) -> j int addSelectedList(java.util.ArrayList,int,boolean) -> k int selGeos() -> a int selPoints() -> b int selNumbers() -> c int selLists() -> d int selPolygons() -> e int selLines() -> f int selSegments() -> g int selVectors() -> h int selConics() -> i int selFunctions() -> j int selCurves() -> k int addToSelectionList(java.util.ArrayList,java.util.ArrayList,int,boolean) -> a int addToSelectionList(java.util.ArrayList,geogebra.kernel.GeoElement,int) -> a int addToHighlightedList(java.util.ArrayList,java.util.ArrayList,int) -> a geogebra.kernel.GeoElement chooseGeo(java.util.ArrayList,java.lang.Class) -> a geogebra.kernel.GeoElement chooseGeo(java.util.ArrayList,boolean) -> 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 void mouseWheelMoved(java.awt.event.MouseWheelEvent) -> mouseWheelMoved void zoomInOut(java.awt.event.KeyEvent) -> a void setLineEndPoint(java.awt.geom.Point2D$Double) -> a geogebra.euclidian.EuclidianView -> geogebra.b.y: int gridType -> n java.awt.Color colZoomRectangle -> a java.awt.Color colZoomRectangleFill -> b geogebra.euclidian.MyBasicStroke standardStroke -> a geogebra.euclidian.MyBasicStroke selStroke -> b java.awt.BasicStroke defAxesStroke -> a java.awt.BasicStroke boldAxesStroke -> b java.awt.BasicStroke axesStroke -> c java.awt.BasicStroke tickStroke -> d java.awt.BasicStroke gridStroke -> e java.awt.geom.Line2D$Double tempLine -> a java.awt.RenderingHints defRenderingHints -> a java.awt.Font fontPoint -> a java.awt.Font fontLine -> b java.awt.Font fontVector -> c java.awt.Font fontConic -> d java.awt.Font fontCoords -> e java.awt.Font fontAxes -> f java.awt.Font fontAngle -> g int fontSize -> a geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.euclidian.EuclidianController euclidianController -> a java.awt.geom.AffineTransform coordTransform -> a int width -> b int height -> c java.text.NumberFormat[] axesNumberFormat -> a java.text.NumberFormat printScaleNF -> a double xmin -> a double xmax -> b double ymin -> c double ymax -> d double invXscale -> e double invYscale -> f double xZero -> g double yZero -> h double xscale -> i double yscale -> j double scaleRatio -> k double[] AxesTickInterval -> a boolean showGrid -> a boolean antiAliasing -> b boolean showMouseCoords -> c boolean showAxesRatio -> d boolean highlightAnimationButtons -> g int pointCapturingMode -> d int rightAngleStyle -> e int pointStyle -> f int booleanSize -> g int mode -> h boolean[] showAxes -> a boolean[] showAxesNumbers -> b java.lang.String[] axesLabels -> a java.lang.String[] axesUnitLabels -> b boolean[] piAxisUnit -> c int[] axesTickStyles -> a boolean[] automaticAxesNumberingDistances -> d double[] axesNumberingDistances -> b boolean automaticGridDistance -> e double automaticGridDistanceFactor -> l double[] gridDistances -> c int gridLineStyle -> i int axesLineType -> j boolean gridIsBold -> f java.awt.Color axesColor -> c java.awt.Color gridColor -> d java.awt.Color bgColor -> e double printingScale -> m geogebra.util.FastHashMapKeyless DrawableMap -> a geogebra.euclidian.DrawableList allDrawableList -> a int MAX_LAYER_USED -> o geogebra.euclidian.DrawableList[] drawLayers -> a geogebra.euclidian.DrawableList bgImageList -> b geogebra.euclidian.Previewable previewDrawable -> a java.awt.Rectangle selectionRectangle -> a java.awt.image.BufferedImage bgImage -> a java.awt.Graphics2D bgGraphics -> a java.awt.Image resetImage -> a java.awt.Image playImage -> b java.awt.Image pauseImage -> c boolean firstPaint -> h java.awt.Graphics2D g2Dtemp -> b java.lang.StringBuffer sb -> a java.awt.Cursor defaultCursor -> a geogebra.euclidian.EuclidianView$MyZoomerRW zoomerRW -> a int SCREEN_BORDER -> k java.util.ArrayList tempArrayList -> a java.util.ArrayList foundHits -> b int TEST_MOVEABLE -> l int TEST_ROTATEMOVEABLE -> m java.util.ArrayList moveableList -> c java.util.ArrayList topHitsList -> d geogebra.euclidian.EuclidianView$MyZoomer zoomer -> a geogebra.euclidian.EuclidianView$MyAxesRatioZoomer axesRatioZoomer -> a geogebra.euclidian.EuclidianView$MyMover mover -> a java.lang.Class class$0 -> a java.lang.Integer[] getLineTypes() -> a geogebra.main.Application getApplication() -> a void updateRightAngleStyle(java.util.Locale) -> a void initView(boolean) -> a boolean hasPreferredSize() -> a void resetLists() -> a void attachView() -> b geogebra.kernel.Kernel getKernel() -> a int getPointCapturingMode() -> a void setPointCapturing(int) -> a int getGridType() -> b void setGridType(int) -> b java.awt.Rectangle getBounds() -> getBounds void setBooleanSize(int) -> c int getBooleanSize() -> c void setPointStyle(int) -> d int getPointStyle() -> d void setRightAngleStyle(int) -> e int getRightAngleStyle() -> e void addBackgroundImage(geogebra.euclidian.DrawImage) -> a void removeBackgroundImage(geogebra.euclidian.DrawImage) -> b geogebra.euclidian.MyBasicStroke getDefaultStroke() -> a geogebra.euclidian.MyBasicStroke getDefaultSelectionStroke() -> b java.awt.BasicStroke getStroke(float,int) -> a void updateFonts() -> c void setAntialiasing(boolean) -> b void setDragCursor() -> f void setMoveCursor() -> h void setHitCursor() -> i void setDefaultCursor() -> j void initCursor() -> k java.awt.Cursor getCursorForImage(java.awt.Image) -> a void setMode(int) -> f int getMode() -> f void resetMode() -> l void setPreview(geogebra.euclidian.Previewable) -> a int toScreenCoordX(double) -> a int toScreenCoordY(double) -> b double toScreenCoordXd(double) -> a double toScreenCoordYd(double) -> b int toClippedScreenCoordX(double) -> c int toClippedScreenCoordY(double) -> d void toScreenCoords(double[]) -> a boolean toClippedScreenCoords(double[],int) -> a double toRealWorldCoordX(double) -> c double toRealWorldCoordY(double) -> d void setCoordSystem(double,double,double,double) -> a void setRealWorldCoordSystem(double,double,double,double) -> b void setAnimatedRealWorldCoordSystem(double,double,double,double,int,boolean) -> a void setCoordSystem(double,double,double,double,boolean) -> a void updateSize() -> m void createImage(java.awt.GraphicsConfiguration) -> a void setRealWorldBounds() -> n void calcPrintingScale() -> o void setAxesIntervals(double,int) -> a double getXscale() -> a double getYscale() -> b double getScaleRatio() -> c java.lang.String getXYscaleRatioString() -> a double getXZero() -> d double getYZero() -> e void showAxes(boolean,boolean) -> a boolean isGridOrAxesShown() -> b boolean getShowXaxis() -> c boolean getShowYaxis() -> d void showGrid(boolean) -> c boolean getShowGrid() -> e void paint(java.awt.Graphics) -> paint void setAntialiasing(java.awt.Graphics2D) -> a void drawZoomRectangle(java.awt.Graphics2D) -> b int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print void exportPaint(java.awt.Graphics2D,double) -> a void exportPaintPre(java.awt.Graphics2D,double) -> b boolean isTracing() -> f boolean hasBackgroundImages() -> g java.awt.image.BufferedImage getExportImage(double) -> a java.awt.image.BufferedImage createBufferedImage(int,int) -> a java.awt.Graphics2D getBackgroundGraphics() -> a void updateBackground() -> p void updateBackgroundImage() -> q void drawBackgroundWithImages(java.awt.Graphics2D) -> l void drawBackground(java.awt.Graphics2D,boolean) -> a java.awt.Image getResetImage() -> a java.awt.Image getPlayImage() -> b java.awt.Image getPauseImage() -> c void clearBackground(java.awt.Graphics2D) -> c void drawAxes(java.awt.Graphics2D) -> d void drawGrid(java.awt.Graphics2D) -> e void drawMouseCoords(java.awt.Graphics2D) -> f void drawAxesRatio(java.awt.Graphics2D) -> g void drawAnimationButtons(java.awt.Graphics2D) -> h boolean hitAnimationButton(java.awt.event.MouseEvent) -> a boolean setAnimationButtonsHighlighted(boolean) -> a void changeLayer(geogebra.kernel.GeoElement,int,int) -> a void updateMaxLayerUsed(int) -> g int getMaxLayerUsed() -> g void drawObjectsPre(java.awt.Graphics2D) -> i void drawObjects(java.awt.Graphics2D) -> j void drawGeometricObjects(java.awt.Graphics2D) -> k void mouseMovedOver(geogebra.kernel.GeoElement) -> f void clickedGeo(geogebra.kernel.GeoElement,java.awt.event.MouseEvent) -> a geogebra.kernel.GeoElement getLabelHit(java.awt.Point) -> a java.util.ArrayList getHits(java.awt.Point) -> a java.util.ArrayList getHitsForNewPointMode(java.util.ArrayList) -> a java.util.ArrayList getPointVectorNumericHits(java.awt.Point) -> b java.util.ArrayList getHits(java.awt.Point,boolean) -> a java.util.ArrayList getHits(java.awt.Rectangle) -> a java.util.ArrayList getMoveableHits(java.awt.Point) -> c java.util.ArrayList getMoveableHits(java.util.ArrayList) -> b java.util.ArrayList getPointRotateableHits(java.util.ArrayList,geogebra.kernel.GeoPoint) -> a java.util.ArrayList getMoveables(java.util.ArrayList,int,geogebra.kernel.GeoPoint) -> a java.util.ArrayList getHits(java.awt.Point,java.lang.Class,java.util.ArrayList) -> a java.util.ArrayList getOtherHits(java.util.ArrayList,java.lang.Class,java.util.ArrayList) -> a java.util.ArrayList getHits(java.util.ArrayList,java.lang.Class,java.util.ArrayList) -> b java.util.ArrayList getHits(java.util.ArrayList,java.lang.Class,boolean,java.util.ArrayList) -> a java.util.ArrayList getTopHits(java.awt.Point) -> d java.util.ArrayList getTopHits(java.util.ArrayList) -> c boolean containsGeoPoint(java.util.ArrayList) -> a geogebra.euclidian.Drawable getDrawable(geogebra.kernel.GeoElement) -> a void add(geogebra.kernel.GeoElement) -> a geogebra.euclidian.Drawable createDrawable(geogebra.kernel.GeoElement) -> b void addToDrawableLists(geogebra.euclidian.Drawable) -> a void remove(geogebra.kernel.GeoElement) -> b void rename(geogebra.kernel.GeoElement) -> c void update(geogebra.kernel.GeoElement) -> d geogebra.euclidian.Drawable getDrawableFor(geogebra.kernel.GeoElement) -> c void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e void updateAllDrawables(boolean) -> d void updateDrawableFontSize() -> r void reset() -> g void clearView() -> d void repaintView() -> e java.lang.String getXML() -> b void zoom(double,double,double,int,boolean) -> a void zoomAxesRatio(double,boolean) -> a void setViewShowAllObjects(boolean) -> e void setStandardView(boolean) -> f void setAnimatedCoordSystem(double,double,double,int,boolean) -> b double getPrintingScale() -> f void setPrintingScale(double) -> a double getXmax() -> g double getXmin() -> h double getYmax() -> i double getYmin() -> j java.awt.Color getAxesColor() -> a void setAxesColor(java.awt.Color) -> a java.lang.String[] getAxesLabels() -> a void setAxesLabels(java.lang.String[]) -> a void setAutomaticAxesNumberingDistance(boolean,int) -> a boolean[] isAutomaticAxesNumberingDistance() -> a double[] getAxesNumberingDistances() -> a void setAxesNumberingDistance(double,int) -> b java.awt.Color getBackground() -> getBackground void setBackground(java.awt.Color) -> setBackground java.awt.Color getGridColor() -> b boolean getGridIsBold() -> h void setGridIsBold(boolean) -> g void setGridColor(java.awt.Color) -> b void setAutomaticGridDistance(boolean) -> h boolean isAutomaticGridDistance() -> i double[] getGridDistances() -> b void setGridDistances(double[]) -> b int getGridLineStyle() -> h void setGridLineStyle(int) -> h int getAxesLineStyle() -> i void setAxesLineStyle(int) -> i boolean[] getShowAxesNumbers() -> b void setShowAxesNumbers(boolean[]) -> a java.lang.String[] getAxesUnitLabels() -> b void setAxesUnitLabels(java.lang.String[]) -> b int[] getAxesTickStyles() -> a void setAxesTickStyles(int[]) -> a java.lang.String getModeText(int) -> a int getSelectedWidth() -> j int getSelectedHeight() -> k int getExportWidth() -> l int getExportHeight() -> m java.awt.Rectangle getSelectionRectangle() -> a void setSelectionRectangle(java.awt.Rectangle) -> a geogebra.euclidian.EuclidianController getEuclidianController() -> a java.awt.Graphics2D getTempGraphics2D() -> b boolean usesSelectionRectangleAsInput(int) -> a geogebra.euclidian.EuclidianView$1 -> geogebra.b.d: geogebra.euclidian.EuclidianView this$0 -> a void run() -> run geogebra.euclidian.EuclidianView$MyAxesRatioZoomer -> geogebra.b.t: javax.swing.Timer timer -> a double factor -> a int counter -> a double oldScale -> b double newScale -> c double add -> d long startTime -> a boolean storeUndo -> a geogebra.euclidian.EuclidianView this$0 -> a void init(double,boolean) -> a void startAnimation() -> a void stopAnimation() -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed boolean isRunning() -> a geogebra.euclidian.EuclidianView$MyMover -> geogebra.b.r: double dx -> a double dy -> b double add -> c int counter -> a double ox -> d double oy -> e javax.swing.Timer timer -> a long startTime -> a boolean storeUndo -> a geogebra.euclidian.EuclidianView this$0 -> a void init(double,double,boolean) -> a void startAnimation() -> a void stopAnimation() -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.euclidian.EuclidianView$MyZoomer -> geogebra.b.x: javax.swing.Timer timer -> 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 long startTime -> a boolean storeUndo -> a geogebra.euclidian.EuclidianView this$0 -> a void init(double,double,double,int,boolean) -> a void startAnimation() -> a void stopAnimation() -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.euclidian.EuclidianView$MyZoomerRW -> geogebra.b.c: javax.swing.Timer timer -> a int counter -> a int steps -> b long startTime -> a boolean storeUndo -> a double x0 -> a double x1 -> b double y0 -> c double y1 -> d double xminOld -> e double xmaxOld -> f double yminOld -> g double ymaxOld -> h geogebra.euclidian.EuclidianView this$0 -> a void init(double,double,double,double,int,boolean) -> a void startAnimation() -> a void stopAnimation() -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.euclidian.ListDialog -> geogebra.b.k: geogebra.kernel.GeoElement value -> a javax.swing.JList list -> a javax.swing.DefaultListModel listModel -> a geogebra.kernel.GeoElement showDialog(java.awt.Component,java.awt.Point) -> a void setValue(geogebra.kernel.GeoElement) -> a javax.swing.DefaultListModel access$0(geogebra.euclidian.ListDialog) -> a javax.swing.JList access$1(geogebra.euclidian.ListDialog) -> a void access$2(geogebra.euclidian.ListDialog,geogebra.kernel.GeoElement) -> a geogebra.euclidian.ListDialog$1 -> geogebra.b.z: geogebra.euclidian.ListDialog this$0 -> a int val$lineHeight -> a void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved geogebra.euclidian.ListDialog$2 -> geogebra.b.J: geogebra.euclidian.ListDialog this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked geogebra.euclidian.ListDialog$GeoLabel -> geogebra.b.a: geogebra.kernel.GeoElement geo -> a geogebra.euclidian.ListDialog this$0 -> a java.lang.String toString() -> toString geogebra.kernel.GeoElement access$0(geogebra.euclidian.ListDialog$GeoLabel) -> a geogebra.euclidian.MyBasicStroke -> geogebra.b.n: geogebra.euclidian.Polyline -> geogebra.b.g: 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 void transform(java.awt.geom.AffineTransform) -> a void draw(java.awt.Graphics2D) -> a void fill(java.awt.Graphics2D) -> b boolean intersects(double,double,double,double) -> a java.awt.Shape createStrokedShape(java.awt.Stroke) -> a geogebra.euclidian.Previewable -> geogebra.b.A: void updatePreview() -> b void updateMousePos(int,int) -> a void drawPreview(java.awt.Graphics2D) -> c void disposePreview() -> c geogebra.export.ConstructionProtocolExportDialog -> geogebra.d.A: javax.swing.JCheckBox cbDrawingPadPicture -> a javax.swing.JCheckBox cbScreenshotPicture -> b javax.swing.JCheckBox cbColor -> c geogebra.export.GraphicSizePanel sizePanel -> a boolean kernelChanged -> a geogebra.gui.view.consprotocol.ConstructionProtocol prot -> a geogebra.main.Application 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,int,boolean,boolean) -> a java.awt.image.BufferedImage getCenterPanelImage() -> a void access$0(geogebra.export.ConstructionProtocolExportDialog,boolean) -> a javax.swing.JCheckBox access$1(geogebra.export.ConstructionProtocolExportDialog) -> a geogebra.export.GraphicSizePanel access$2(geogebra.export.ConstructionProtocolExportDialog) -> a javax.swing.JCheckBox access$3(geogebra.export.ConstructionProtocolExportDialog) -> b geogebra.gui.view.consprotocol.ConstructionProtocol access$4(geogebra.export.ConstructionProtocolExportDialog) -> a javax.swing.JCheckBox access$5(geogebra.export.ConstructionProtocolExportDialog) -> c boolean access$6(geogebra.export.ConstructionProtocolExportDialog) -> a geogebra.main.Application access$7(geogebra.export.ConstructionProtocolExportDialog) -> a void access$8(geogebra.export.ConstructionProtocolExportDialog,boolean,int,boolean,boolean) -> a geogebra.export.ConstructionProtocolExportDialog$1 -> geogebra.d.O: geogebra.export.ConstructionProtocolExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.ConstructionProtocolExportDialog$2 -> geogebra.d.I: 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.c: geogebra.export.ConstructionProtocolExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.ConstructionProtocolExportDialog$5 -> geogebra.d.G: geogebra.export.ConstructionProtocolExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.ConstructionProtocolExportDialog$6 -> geogebra.d.N: geogebra.export.ConstructionProtocolExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.ConstructionProtocolExportDialog access$0(geogebra.export.ConstructionProtocolExportDialog$6) -> a geogebra.export.ConstructionProtocolExportDialog$7 -> geogebra.d.j: geogebra.export.ConstructionProtocolExportDialog$6 this$1 -> a void run() -> run geogebra.export.GraphicExportDialog -> geogebra.d.q: geogebra.main.Application app -> a javax.swing.JComboBox cbFormat -> a javax.swing.JComboBox cbDPI -> b 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 int FORMAT_PNG -> c int FORMAT_PDF -> d int FORMAT_EPS -> e int FORMAT_SVG -> f int FORMAT_EMF -> g void setVisible(boolean) -> setVisible void initGUI() -> a int getDPI() -> a void loadPreferences() -> b void savePreferences() -> c void updateSizeLabel() -> d void centerOnScreen() -> e boolean exportEPS(boolean) -> a boolean exportEMF(boolean) -> b boolean exportPDF(boolean) -> c boolean exportSVG(boolean) -> d boolean exportPNG(boolean) -> e 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 access$0(geogebra.export.GraphicExportDialog) -> a void access$1(geogebra.export.GraphicExportDialog,boolean) -> a javax.swing.JComboBox access$2(geogebra.export.GraphicExportDialog) -> a javax.swing.JComboBox access$3(geogebra.export.GraphicExportDialog) -> b boolean access$4(geogebra.export.GraphicExportDialog,boolean) -> a boolean access$5(geogebra.export.GraphicExportDialog,boolean) -> b boolean access$6(geogebra.export.GraphicExportDialog,boolean) -> c boolean access$7(geogebra.export.GraphicExportDialog,boolean) -> d geogebra.export.GraphicExportDialog$1 -> geogebra.d.i: 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.D: geogebra.export.GraphicExportDialog this$0 -> a javax.swing.JCheckBox val$textAsShapesCB -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.GraphicExportDialog$4 -> geogebra.d.Q: 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.JPanel val$p -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.GraphicExportDialog$5 -> geogebra.d.f: geogebra.export.GraphicExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.GraphicExportDialog$6 -> geogebra.d.o: geogebra.export.GraphicExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.GraphicExportDialog access$0(geogebra.export.GraphicExportDialog$6) -> a geogebra.export.GraphicExportDialog$7 -> geogebra.d.w: geogebra.export.GraphicExportDialog$6 this$1 -> a void run() -> run geogebra.export.GraphicExportDialog$8 -> geogebra.d.F: 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$9 -> geogebra.d.a: geogebra.export.GraphicExportDialog$8 this$1 -> a void run() -> run geogebra.export.GraphicSizePanel -> geogebra.d.s: int width -> a int height -> b double ratio -> a javax.swing.JTextField tfWidth -> a javax.swing.JTextField tfHeight -> b boolean keepRatio -> a void setValues(int,int,boolean) -> a int getSelectedWidth() -> a int getSelectedHeight() -> b void setEnabled(boolean) -> setEnabled void updateValues(java.lang.Object) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.export.PrintPreview -> geogebra.d.d: int m_orientation -> a int m_scale -> b java.awt.print.Printable m_target -> a javax.swing.JComboBox m_cbScale -> a javax.swing.JComboBox m_cbOrientation -> b javax.swing.JCheckBox cbEVscalePanel -> a javax.swing.JScrollPane ps -> a geogebra.export.PrintPreview$PreviewContainer m_preview -> a geogebra.main.Application app -> a boolean kernelChanged -> a java.awt.Graphics tempGraphics -> a void initPrintPreview(java.awt.print.Printable,int) -> a void loadPreferences() -> a void savePreferences() -> b void setVisible(boolean) -> setVisible void centerOnScreen() -> c void initPages() -> d java.awt.print.PageFormat getDefaultPageFormat() -> a void updatePages() -> e boolean pageExists(int) -> a void setOrientation(int) -> a void setScale(int) -> b void access$0(geogebra.export.PrintPreview,int) -> a void access$1(geogebra.export.PrintPreview,int) -> b void access$2(geogebra.export.PrintPreview) -> a geogebra.export.PrintPreview$1 -> geogebra.d.C: 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$10 -> geogebra.d.n: geogebra.export.PrintPreview this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.PrintPreview$2 -> geogebra.d.R: geogebra.export.PrintPreview$1 this$1 -> a void run() -> run geogebra.export.PrintPreview$3 -> geogebra.d.B: geogebra.export.PrintPreview this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.PrintPreview$4 -> geogebra.d.P: 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$5 -> geogebra.d.m: geogebra.export.PrintPreview$4 this$1 -> a void run() -> run geogebra.export.PrintPreview$6 -> geogebra.d.v: geogebra.export.PrintPreview this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$6) -> a geogebra.export.PrintPreview$7 -> geogebra.d.E: geogebra.export.PrintPreview$6 this$1 -> a void run() -> run geogebra.export.PrintPreview$8 -> geogebra.d.M: geogebra.export.PrintPreview this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.PrintPreview access$0(geogebra.export.PrintPreview$8) -> a geogebra.export.PrintPreview$9 -> geogebra.d.l: geogebra.export.PrintPreview$8 this$1 -> a void run() -> run geogebra.export.PrintPreview$PagePreview -> geogebra.d.x: 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 geogebra.export.PrintPreview this$0 -> a void setPageFormat(java.awt.print.PageFormat) -> a java.awt.print.PageFormat getPageFormat() -> a void setScale(int) -> a java.awt.Dimension getPreferredSize() -> getPreferredSize java.awt.Dimension getMaximumSize() -> getMaximumSize java.awt.Dimension getMinimumSize() -> getMinimumSize void updateBufferedImage() -> b void update() -> a void paint(java.awt.Graphics) -> paint geogebra.export.PrintPreview$PreviewContainer -> geogebra.d.k: 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.PrintScalePanel -> geogebra.d.p: javax.swing.JTextField tfScale1 -> a javax.swing.JTextField tfScale2 -> b java.util.Vector listeners -> a geogebra.euclidian.EuclidianView ev -> a java.text.NumberFormat nf -> a java.awt.event.ActionListener al -> a void updateTextFields() -> a void fireTextFieldUpdate(javax.swing.JTextField) -> a void addActionListener(java.awt.event.ActionListener) -> a void notifyListeners() -> b void access$0(geogebra.export.PrintScalePanel,javax.swing.JTextField) -> a geogebra.export.PrintScalePanel$1 -> geogebra.d.L: geogebra.export.PrintScalePanel this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.PrintScalePanel$2 -> geogebra.d.y: geogebra.export.PrintScalePanel this$0 -> a void focusLost(java.awt.event.FocusEvent) -> focusLost void focusGained(java.awt.event.FocusEvent) -> focusGained geogebra.export.SVGExtensions -> geogebra.d.b: void startGroup(java.lang.String) -> a void endGroup(java.lang.String) -> b geogebra.export.WorksheetExportDialog -> geogebra.d.J: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.gui.view.algebra.InputPanel textAbove -> a geogebra.gui.view.algebra.InputPanel textBelow -> b javax.swing.JCheckBox cbShowFrame -> a javax.swing.JCheckBox cbEnableRightClick -> b javax.swing.JCheckBox cbEnableLabelDrags -> c javax.swing.JCheckBox cbShowResetIcon -> d javax.swing.JCheckBox cbShowMenuBar -> e javax.swing.JCheckBox cbShowToolBar -> f javax.swing.JCheckBox cbShowToolBarHelp -> g javax.swing.JCheckBox cbShowInputField -> h javax.swing.JCheckBox cbOnlineArchive -> i geogebra.export.GraphicSizePanel sizePanel -> a boolean useWorksheet -> a boolean kernelChanged -> b javax.swing.JTabbedPane tabbedPane -> a geogebra.main.GeoGebraPreferences ggbPref -> a geogebra.main.GuiManager guiManager -> a void checkEuclidianView() -> a void initGUI() -> b void loadPreferences() -> c void addHeight() -> d void savePreferences() -> e javax.swing.JPanel createGeneralSettingsTab() -> a javax.swing.JPanel createAdvancedSettingsTab() -> b void appendAppletParameters(java.lang.StringBuffer) -> a void setVisible(boolean) -> setVisible void updateEnabledStates() -> f void centerOnScreen() -> g void exportHTML() -> h java.lang.String getHTML(java.io.File) -> a void access$0(geogebra.export.WorksheetExportDialog,boolean) -> a boolean access$1(geogebra.export.WorksheetExportDialog) -> a geogebra.main.Application access$2(geogebra.export.WorksheetExportDialog) -> a void access$3(geogebra.export.WorksheetExportDialog) -> a void access$4(geogebra.export.WorksheetExportDialog,boolean) -> b void access$5(geogebra.export.WorksheetExportDialog) -> b javax.swing.JCheckBox access$6(geogebra.export.WorksheetExportDialog) -> a geogebra.main.GuiManager access$7(geogebra.export.WorksheetExportDialog) -> a javax.swing.JCheckBox access$8(geogebra.export.WorksheetExportDialog) -> b javax.swing.JCheckBox access$9(geogebra.export.WorksheetExportDialog) -> c javax.swing.JCheckBox access$10(geogebra.export.WorksheetExportDialog) -> d geogebra.export.GraphicSizePanel access$11(geogebra.export.WorksheetExportDialog) -> a javax.swing.JCheckBox access$12(geogebra.export.WorksheetExportDialog) -> e geogebra.export.WorksheetExportDialog$1 -> geogebra.d.r: geogebra.export.WorksheetExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.WorksheetExportDialog$2 -> geogebra.d.e: geogebra.export.WorksheetExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.WorksheetExportDialog$3 -> geogebra.d.H: 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$4 -> geogebra.d.z: geogebra.export.WorksheetExportDialog$3 this$1 -> a void run() -> run geogebra.export.WorksheetExportDialog$5 -> geogebra.d.t: geogebra.export.WorksheetExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.WorksheetExportDialog$6 -> geogebra.d.g: geogebra.export.WorksheetExportDialog this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.WorksheetExportDialog$7 -> geogebra.d.K: geogebra.export.WorksheetExportDialog this$0 -> a java.io.File val$HTMLfile -> a void run() -> run geogebra.export.epsgraphics.EpsDocument -> geogebra.d.b.c: float minX -> a float minY -> b float maxX -> c float maxY -> d boolean _isClipSet -> a java.lang.String _title -> a java.io.StringWriter _stringWriter -> a java.io.BufferedWriter _bufferedWriter -> a geogebra.export.epsgraphics.EpsGraphics2D _lastG -> a void updateBounds(double,double) -> a void append(geogebra.export.epsgraphics.EpsGraphics2D,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.EpsException -> geogebra.d.b.a: geogebra.export.epsgraphics.EpsGraphics2D -> geogebra.d.b.b: java.awt.Color _color -> 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 _clipTransform -> a java.awt.geom.AffineTransform _transform -> b boolean _accurateTextMode -> a int _colorDepth -> a geogebra.export.epsgraphics.EpsDocument _document -> a java.awt.font.FontRenderContext _fontRenderContext -> a void methodNotSupported() -> c boolean getAccurateTextMode() -> a int getColorDepth() -> a void flush() -> a void close() -> b void append(java.lang.String) -> a java.awt.geom.Point2D transform(float,float) -> 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 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() -> create 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 geogebra.export.pstricks.ExportFrame -> geogebra.d.a.a: java.lang.String TEXT_XUNIT -> a java.lang.String TEXT_YUNIT -> b java.lang.String TEXT_WIDTH -> c java.lang.String TEXT_HEIGHT -> d java.lang.String TEXT_XMAX -> e java.lang.String TEXT_XMIN -> f java.lang.String TEXT_YMAX -> g java.lang.String TEXT_YMIN -> h 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 -> a javax.swing.JComboBox comboFontSize -> a javax.swing.JComboBox comboFormat -> b 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.JScrollPane js -> a javax.swing.JTextArea textarea -> a geogebra.main.Application app -> a double width -> a double height -> b javax.swing.JButton buttonSave -> c java.io.File currentFile -> a geogebra.export.pstricks.GeoGebraExport ggb -> a geogebra.export.pstricks.ExportFrame$ListenKey listenKey -> a void centerOnScreen() -> a boolean isGrayscale() -> a boolean getExportPointSymbol() -> b double getXUnit() -> a double getYUnit() -> b double getLatexHeight() -> c void write(java.lang.StringBuffer) -> a int getFontSize() -> a int getFormat() -> b boolean isLaTeX() -> c boolean isConTeXt() -> d boolean isBeamer() -> e geogebra.export.pstricks.GeoGebraExport access$0(geogebra.export.pstricks.ExportFrame) -> a geogebra.export.pstricks.ExportFrame$1 -> geogebra.d.a.j: geogebra.export.pstricks.ExportFrame this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.pstricks.ExportFrame$2 -> geogebra.d.a.c: geogebra.export.pstricks.ExportFrame this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.export.pstricks.ExportFrame$ListenKey -> geogebra.d.a.i: geogebra.export.pstricks.ExportFrame ef -> a geogebra.export.pstricks.ExportFrame this$0 -> b void keyReleased(java.awt.event.KeyEvent) -> keyReleased geogebra.export.pstricks.GeoGebraExport -> geogebra.d.a.e: int beamerSlideNumber -> a double PRECISION_XRANGE_FUNCTION -> a java.lang.StringBuffer code -> a java.lang.StringBuffer codePoint -> b java.lang.StringBuffer codePreamble -> c java.lang.StringBuffer codeFilledObject -> d java.lang.StringBuffer codeBeginDoc -> e geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction construction -> a geogebra.euclidian.EuclidianView euclidianView -> a geogebra.export.pstricks.ExportFrame 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 geogebra.main.Application getApp() -> 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 initGui() -> e void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed java.lang.String sci2dec(double) -> a java.lang.String createCustomColor(int,int,int) -> a void drawGeoElement(geogebra.kernel.GeoElement,boolean) -> a boolean isSinglePointConic(geogebra.kernel.GeoElement) -> a boolean isDoubleLineConic(geogebra.kernel.GeoElement) -> b boolean isEmpty(geogebra.kernel.GeoElement) -> c int resizePt(int) -> a void drawGeoPoint(geogebra.kernel.GeoPoint) -> a void drawGeoLine(geogebra.kernel.GeoLine) -> a void drawGeoRay(geogebra.kernel.GeoRay) -> a void drawGeoSegment(geogebra.kernel.GeoSegment) -> a void drawPolygon(geogebra.kernel.GeoPolygon) -> a void drawSlider(geogebra.kernel.GeoNumeric) -> a void drawSlope(geogebra.kernel.GeoNumeric) -> b void drawIntegral(geogebra.kernel.GeoNumeric) -> c void drawIntegralFunctions(geogebra.kernel.GeoNumeric) -> d void drawSumUpperLower(geogebra.kernel.GeoNumeric) -> e void drawSumTrapezoidal(geogebra.kernel.GeoNumeric) -> f void drawBoxPlot(geogebra.kernel.GeoNumeric) -> g void drawHistogram(geogebra.kernel.GeoNumeric) -> h void drawAngle(geogebra.kernel.GeoAngle) -> a void drawGeoVector(geogebra.kernel.GeoVector) -> a void drawGeoConic(geogebra.kernel.GeoConic) -> a void drawGeoConicPart(geogebra.kernel.GeoConicPart) -> a void drawLabel(geogebra.kernel.GeoElement,geogebra.euclidian.Drawable) -> a void drawFunction(geogebra.kernel.GeoFunction) -> a void drawText(geogebra.kernel.GeoText) -> a void drawLocus(geogebra.kernel.GeoLocus) -> a void drawLine(double,double,double,double,geogebra.kernel.GeoElement) -> a void drawArc(geogebra.kernel.GeoAngle,double[],double,double,double) -> a void drawTick(geogebra.kernel.GeoAngle,double[],double) -> a void drawArrowArc(geogebra.kernel.GeoAngle,double[],double,double,double,boolean) -> a void createFrame() -> b void generateAllCode() -> c 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.kernel.GeoElement) -> a void markAngle(geogebra.kernel.GeoAngle,double,double[],double,double) -> a void drawAllElements() -> d void startBeamer(java.lang.StringBuffer) -> a void endBeamer(java.lang.StringBuffer) -> b geogebra.export.pstricks.GeoGebraToPgf -> geogebra.d.a.f: int functionIdentifier -> c boolean forceGnuplot -> b void generateAllCode() -> c void drawLocus(geogebra.kernel.GeoLocus) -> a void drawBoxPlot(geogebra.kernel.GeoNumeric) -> g void drawHistogram(geogebra.kernel.GeoNumeric) -> h void drawSumTrapezoidal(geogebra.kernel.GeoNumeric) -> f void drawSumUpperLower(geogebra.kernel.GeoNumeric) -> e void drawIntegralFunctions(geogebra.kernel.GeoNumeric) -> d void drawIntegral(geogebra.kernel.GeoNumeric) -> c void drawSlope(geogebra.kernel.GeoNumeric) -> b void drawAngle(geogebra.kernel.GeoAngle) -> a void drawArrowArc(geogebra.kernel.GeoAngle,double[],double,double,double,boolean) -> a void drawArc(geogebra.kernel.GeoAngle,double[],double,double,double) -> a void drawTick(geogebra.kernel.GeoAngle,double[],double) -> a void drawSlider(geogebra.kernel.GeoNumeric) -> a void drawPolygon(geogebra.kernel.GeoPolygon) -> a void drawText(geogebra.kernel.GeoText) -> a void addText(java.lang.String,boolean,int,int) -> a void drawGeoConicPart(geogebra.kernel.GeoConicPart) -> a void drawFunction(geogebra.kernel.GeoFunction,java.lang.StringBuffer) -> a void drawFunction(geogebra.kernel.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 renameFunc(java.lang.StringBuffer,java.lang.String,java.lang.String) -> a double maxDefinedValue(geogebra.kernel.arithmetic.Function,double,double) -> a double firstDefinedValue(geogebra.kernel.arithmetic.Function,double,double) -> b void drawGeoVector(geogebra.kernel.GeoVector) -> a void drawCircle(geogebra.kernel.GeoConic) -> b void drawGeoConic(geogebra.kernel.GeoConic) -> a void drawGeoPoint(geogebra.kernel.GeoPoint) -> a void drawGeoLine(geogebra.kernel.GeoLine) -> a void drawGeoSegment(geogebra.kernel.GeoSegment) -> a void drawLine(double,double,double,double,geogebra.kernel.GeoElement) -> a void drawGeoRay(geogebra.kernel.GeoRay) -> a void drawLabel(geogebra.kernel.GeoElement,geogebra.euclidian.Drawable) -> a void drawGrid() -> e void drawAxis() -> f java.lang.String footnotesize(java.lang.String) -> b void writePoint(double,double,java.lang.StringBuffer) -> a java.lang.String LineOptionCode(geogebra.kernel.GeoElement,boolean) -> a void LinestyleCode(int,java.lang.StringBuffer) -> a void ColorCode(java.awt.Color,java.lang.StringBuffer) -> a void createFrame() -> b geogebra.export.pstricks.GeoGebraToPstricks -> geogebra.d.a.g: java.lang.StringBuffer codeBeginPic -> f void createFrame() -> b void generateAllCode() -> c void drawLocus(geogebra.kernel.GeoLocus) -> a void drawBoxPlot(geogebra.kernel.GeoNumeric) -> g void drawHistogram(geogebra.kernel.GeoNumeric) -> h void drawSumTrapezoidal(geogebra.kernel.GeoNumeric) -> f void drawSumUpperLower(geogebra.kernel.GeoNumeric) -> e void drawIntegralFunctions(geogebra.kernel.GeoNumeric) -> d void drawIntegral(geogebra.kernel.GeoNumeric) -> c void drawSlope(geogebra.kernel.GeoNumeric) -> b void drawAngle(geogebra.kernel.GeoAngle) -> a void drawArrowArc(geogebra.kernel.GeoAngle,double[],double,double,double,boolean) -> a void drawArc(geogebra.kernel.GeoAngle,double[],double,double,double) -> a void drawTick(geogebra.kernel.GeoAngle,double[],double) -> a void drawSlider(geogebra.kernel.GeoNumeric) -> a void drawPolygon(geogebra.kernel.GeoPolygon) -> a void drawText(geogebra.kernel.GeoText) -> a void drawGeoConicPart(geogebra.kernel.GeoConicPart) -> a void drawFunction(geogebra.kernel.GeoFunction) -> a java.lang.String killSpace(java.lang.String) -> a void renameFunc(java.lang.StringBuffer,java.lang.String,java.lang.String) -> a double maxDefinedValue(geogebra.kernel.arithmetic.Function,double,double) -> a double firstDefinedValue(geogebra.kernel.arithmetic.Function,double,double) -> b void drawGeoVector(geogebra.kernel.GeoVector) -> a void drawCircle(geogebra.kernel.GeoConic) -> b void drawGeoConic(geogebra.kernel.GeoConic) -> a void drawGeoPoint(geogebra.kernel.GeoPoint) -> a void drawGeoLine(geogebra.kernel.GeoLine) -> a void drawGeoSegment(geogebra.kernel.GeoSegment) -> a void drawLine(double,double,double,double,geogebra.kernel.GeoElement) -> a void drawGeoRay(geogebra.kernel.GeoRay) -> a void initUnitAndVariable() -> e void drawLabel(geogebra.kernel.GeoElement,geogebra.euclidian.Drawable) -> a void drawGrid() -> f void drawAxis() -> g void PointOptionCode(geogebra.kernel.GeoPoint) -> b java.lang.String LineOptionCode(geogebra.kernel.GeoElement,boolean) -> a void LinestyleCode(int,java.lang.StringBuffer) -> a void ColorCode(java.awt.Color,java.lang.StringBuffer) -> a void addText(java.lang.String,boolean,int,int,java.awt.Color) -> a geogebra.export.pstricks.PgfFrame -> geogebra.d.a.d: java.lang.String[] format -> b javax.swing.JCheckBox forceGnuplot -> c void initGui() -> b boolean getGnuplot() -> f boolean isBeamer() -> e boolean isLaTeX() -> c boolean isConTeXt() -> d geogebra.export.pstricks.PstricksFrame -> geogebra.d.a.b: java.lang.String[] format -> b void initGui() -> b boolean isBeamer() -> e boolean isLaTeX() -> c boolean isConTeXt() -> d geogebra.export.pstricks.TextValue -> geogebra.d.a.h: 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.gui.AngleInputDialog -> geogebra.gui.v: javax.swing.JRadioButton rbCounterClockWise -> a javax.swing.JRadioButton rbClockWise -> b boolean success -> a boolean isCounterClockWise() -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.AngleTextField -> geogebra.gui.aM: void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyTyped(java.awt.event.KeyEvent) -> keyTyped void keyReleased(java.awt.event.KeyEvent) -> keyReleased geogebra.gui.AnimationSpeedPanel -> geogebra.gui.bw: java.lang.Object[] geos -> a javax.swing.JTextField tfAnimSpeed -> a boolean partOfSliderPanel -> a javax.swing.JComboBox animationModeCB -> a geogebra.kernel.Kernel kernel -> a void setPartOfSliderPanel() -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed() -> b void setType(int) -> a void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.gui.AnimationStepPanel -> geogebra.gui.ao: java.lang.Object[] geos -> a geogebra.gui.AngleTextField tfAnimStep -> a boolean partOfSliderPanel -> a geogebra.kernel.Kernel kernel -> a void setPartOfSliderPanel() -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(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 geogebra.gui.CheckboxCreationDialog -> geogebra.gui.av: 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.Application app -> a geogebra.kernel.GeoBoolean geoBoolean -> a void initLists() -> a void geoElementSelected(geogebra.kernel.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.CheckboxCreationDialog) -> a geogebra.gui.CheckboxCreationDialog$1 -> geogebra.gui.bx: geogebra.gui.CheckboxCreationDialog this$0 -> a void addElement(java.lang.Object) -> addElement geogebra.gui.ColorFunctionPanel -> geogebra.gui.aQ: java.lang.Object[] geos -> a javax.swing.JTextField tfRed -> a javax.swing.JTextField tfGreen -> b javax.swing.JTextField tfBlue -> c javax.swing.JButton btRemove -> a javax.swing.JLabel nameLabelR -> a javax.swing.JLabel nameLabelG -> b javax.swing.JLabel nameLabelB -> c geogebra.kernel.Kernel kernel -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel propPanel -> a boolean processed -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed() -> a void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost java.lang.Object[] access$0(geogebra.gui.ColorFunctionPanel) -> a javax.swing.JTextField access$1(geogebra.gui.ColorFunctionPanel) -> a javax.swing.JTextField access$2(geogebra.gui.ColorFunctionPanel) -> b javax.swing.JTextField access$3(geogebra.gui.ColorFunctionPanel) -> c geogebra.gui.ColorFunctionPanel$1 -> geogebra.gui.az: geogebra.gui.ColorFunctionPanel this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement -> geogebra.gui.bn: java.awt.Color bgColor -> a java.awt.Color fgColor -> b geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoPoint point -> a geogebra.kernel.GeoLine line -> a geogebra.kernel.GeoVector vector -> a geogebra.kernel.GeoConic conic -> a geogebra.main.Application app -> a java.util.ArrayList tempArrayList -> a java.lang.Class class$0 -> a void addPointItems() -> a void addLineItems() -> b void addVectorItems() -> c void addConicItems() -> d void addNumberItems() -> e void addTextItems() -> f void addForAllItems() -> g void addAction(javax.swing.Action) -> a void addItem(javax.swing.JMenuItem) -> a void setTitle(java.lang.String) -> a geogebra.kernel.GeoPoint access$0(geogebra.gui.ContextMenuGeoElement) -> a geogebra.kernel.GeoLine access$1(geogebra.gui.ContextMenuGeoElement) -> a geogebra.kernel.GeoVector access$2(geogebra.gui.ContextMenuGeoElement) -> a geogebra.kernel.GeoConic access$3(geogebra.gui.ContextMenuGeoElement) -> a geogebra.kernel.GeoElement access$4(geogebra.gui.ContextMenuGeoElement) -> a java.util.ArrayList access$5(geogebra.gui.ContextMenuGeoElement) -> a geogebra.gui.ContextMenuGeoElement$1 -> geogebra.gui.R: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$10 -> geogebra.gui.bt: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$11 -> geogebra.gui.y: geogebra.gui.ContextMenuGeoElement this$0 -> a geogebra.kernel.GeoText val$geoText -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$12 -> geogebra.gui.ai: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$13 -> geogebra.gui.aL: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$14 -> geogebra.gui.bs: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$15 -> geogebra.gui.C: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$16 -> geogebra.gui.W: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$17 -> geogebra.gui.aH: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$18 -> geogebra.gui.aY: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$19 -> geogebra.gui.h: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$2 -> geogebra.gui.ap: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$20 -> geogebra.gui.n: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$21 -> geogebra.gui.aX: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$22 -> geogebra.gui.aN: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$23 -> geogebra.gui.ar: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$24 -> geogebra.gui.a: geogebra.gui.ContextMenuGeoElement this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked geogebra.gui.ContextMenuGeoElement$3 -> geogebra.gui.aR: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$4 -> geogebra.gui.bv: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$5 -> geogebra.gui.ac: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$6 -> geogebra.gui.aE: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$7 -> geogebra.gui.ba: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$8 -> geogebra.gui.o: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGeoElement$9 -> geogebra.gui.X: geogebra.gui.ContextMenuGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGraphicsWindow -> geogebra.gui.aJ: double px -> a double py -> b double[] zoomFactors -> a double[] axesRatios -> b javax.swing.ImageIcon iconZoom -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed 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.ContextMenuGraphicsWindow,double) -> a void access$1(geogebra.gui.ContextMenuGraphicsWindow,double) -> b geogebra.gui.ContextMenuGraphicsWindow$1 -> geogebra.gui.bi: geogebra.gui.ContextMenuGraphicsWindow this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ContextMenuGraphicsWindow$2 -> geogebra.gui.i: geogebra.gui.ContextMenuGraphicsWindow this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.DashListRenderer -> geogebra.gui.V: geogebra.util.FastHashMapKeyless dashStrokeMap -> a java.awt.BasicStroke dashStroke -> a boolean nullValue -> a java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent void paint(java.awt.Graphics) -> paint geogebra.gui.DecorationAngleListRenderer -> geogebra.gui.bj: java.awt.geom.Line2D$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.DecorationListRenderer -> geogebra.gui.S: 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.DefaultGuiManager -> geogebra.gui.ae: java.util.ResourceBundle rbJavaUI -> a geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.gui.PropertiesDialogGeoElement propDialog -> a geogebra.gui.view.consprotocol.ConstructionProtocol constProtocol -> a geogebra.gui.view.consprotocol.ConstructionProtocolNavigation constProtocolNavigation -> a geogebra.gui.inputbar.AlgebraInput algebraInput -> a geogebra.gui.view.algebra.AlgebraController algebraController -> a geogebra.gui.view.algebra.AlgebraView algebraView -> a geogebra.gui.view.spreadsheet.SpreadsheetView spreadsheetView -> a javax.swing.JFileChooser fileChooser -> a geogebra.gui.menubar.Menubar menuBar -> a geogebra.gui.toolbar.MyToolbar appToolbarPanel -> a java.lang.String strCustomToolbarDefinition -> a java.util.Locale currentLocale -> a javax.swing.AbstractAction showAxesAction -> a javax.swing.AbstractAction showGridAction -> b javax.swing.AbstractAction undoAction -> c javax.swing.AbstractAction redoAction -> d java.util.ArrayList tempGeos -> a boolean isPropertiesDialogSelectionListener() -> a boolean isInputFieldSelectionListener() -> i javax.swing.JComponent getAlgebraView() -> a void startEditing(geogebra.kernel.GeoElement) -> a void setScrollToShow(boolean) -> a boolean hasSpreadsheetView() -> h javax.swing.JComponent getSpreadsheetView() -> b void updateSpreadsheetColumnWidths() -> H int getHighestUsedSpreadsheetColumn() -> a int getSpreadsheetTraceRow(int) -> a void startCollectingSpreadsheetTraces() -> K void stopCollectingSpreadsheetTraces() -> L void traceToSpreadsheet(geogebra.kernel.GeoElement) -> c void attachSpreadsheetView() -> a void detachSpreadsheetView() -> b java.lang.String getSpreadsheetViewXML() -> a java.lang.String getConsProtocolXML() -> b void attachAlgebraView() -> c void detachAlgebraView() -> d void setShowAuxiliaryObjects(boolean) -> b void initAlgebraController() -> E javax.swing.JComponent getAlgebraInput() -> c javax.swing.text.JTextComponent getAlgebraInputTextField() -> a void updateAlgebraInput() -> e void initPropertiesDialog() -> f void reinitPropertiesDialog() -> I void doAfterRedefine(geogebra.kernel.GeoElement) -> b javax.swing.JComponent getToolbarPanel() -> d void updateToolbar() -> g void setShowToolBarHelp(boolean) -> c javax.swing.JComponent getConstructionProtocolNavigation() -> e void setShowConstructionProtocolNavigation(boolean) -> d void setShowConstructionProtocolNavigation(boolean,boolean,double,boolean) -> a boolean isConsProtNavigationPlayButtonVisible() -> b boolean isConsProtNavigationProtButtonVisible() -> c void showConstructionProtocol() -> h javax.swing.JDialog getConstructionProtocol() -> a void setConstructionStep(int) -> a void updateConstructionProtocol() -> i boolean isUsingConstructionProtocol() -> d int getToolBarHeight() -> b java.lang.String getDefaultToolbarString() -> c void updateFonts() -> j void setLabels() -> k void initMenubar() -> l void updateMenubar() -> m void updateMenubarSelection() -> n void updateMenuWindow() -> o void updateMenuFile() -> p void showAboutDialog() -> q void showPrintPreview() -> r void showDrawingPadPopup(java.awt.Component,java.awt.Point) -> a void showPopupMenu(geogebra.kernel.GeoElement,java.awt.Component,java.awt.Point) -> a void showPropertiesDialog(java.util.ArrayList) -> a void showPropertiesDialog() -> s void showDrawingPadPropertiesDialog() -> t void showToolbarConfigDialog() -> u void showRenameDialog(geogebra.kernel.GeoElement,boolean,java.lang.String,boolean) -> a void showTextDialog(geogebra.kernel.GeoText) -> a void showTextCreationDialog(geogebra.kernel.GeoPoint) -> a void showTextDialog(geogebra.kernel.GeoText,geogebra.kernel.GeoPoint) -> a javax.swing.JDialog createTextDialog(geogebra.kernel.GeoText,geogebra.kernel.GeoPoint) -> a void showRedefineDialog(geogebra.kernel.GeoElement,boolean) -> a boolean showSliderCreationDialog(int,int) -> a boolean loadImage(geogebra.kernel.GeoPoint,boolean) -> a java.awt.Color showColorChooser(java.awt.Color) -> a java.lang.String getImageFromClipboard() -> d void initFileChooser() -> v void updateJavaUILanguage() -> F java.lang.String getImageFromFile() -> e boolean saveCurrentFile() -> e boolean save() -> f boolean saveAs() -> g java.io.File showSaveDialog(java.lang.String,java.io.File,java.lang.String) -> a java.io.File showSaveDialog(java.lang.String[],java.io.File,java.lang.String[]) -> a java.io.File addExtension(java.io.File,java.lang.String) -> a java.io.File removeExtension(java.io.File) -> a void openFile() -> w void doOpenFiles(java.io.File[],boolean) -> a void doOpenFiles(java.io.File[],boolean,java.lang.String) -> a void allowGUIToRefresh() -> J boolean loadFile(java.io.File,boolean) -> a void updateGUIafterLoadFile(boolean) -> e void initActions() -> G void updateActions() -> x void redo() -> y void undo() -> z int getMenuBarHeight() -> c int getAlgebraInputHeight() -> d javax.swing.AbstractAction getShowAxesAction() -> a javax.swing.AbstractAction getShowGridAction() -> b void showBooleanCheckboxCreationDialog(java.awt.Point,geogebra.kernel.GeoBoolean) -> a geogebra.kernel.arithmetic.NumberValue showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String) -> a java.lang.Object[] showAngleInputDialog(java.lang.String,java.lang.String,java.lang.String) -> a void setToolBarDefinition(java.lang.String) -> a java.lang.String getToolBarDefinition() -> f void removeFromToolbarDefinition(int) -> b void addToToolbarDefinition(int) -> c void showURLinBrowser(java.net.URL) -> a void openHelp(java.lang.String) -> b void showURLinBrowser(java.lang.String) -> c java.net.URL getHelpURL(java.util.Locale,java.lang.String,java.lang.String) -> a java.net.URL getHelpURL(java.lang.String,java.lang.String) -> a java.lang.String getCreatedWithHTML() -> g void setMode(int) -> d void setToolbarMode(int) -> e java.lang.String getCustomToolbarDefinition() -> h void closeOpenDialogs() -> A javax.swing.AbstractAction getRedoAction() -> c javax.swing.AbstractAction getUndoAction() -> d void updateFrameSize() -> B void updateFrameTitle() -> C javax.swing.JFrame createFrame() -> a void exitAll() -> D void setColumnWidth(int,int) -> a javax.swing.JFileChooser access$0(geogebra.gui.DefaultGuiManager) -> a geogebra.kernel.Kernel access$1(geogebra.gui.DefaultGuiManager) -> a geogebra.main.Application access$2(geogebra.gui.DefaultGuiManager) -> a geogebra.gui.DefaultGuiManager$1 -> geogebra.gui.z: geogebra.gui.DefaultGuiManager this$0 -> a java.lang.Object run() -> a geogebra.gui.DefaultGuiManager$2 -> geogebra.gui.m: geogebra.gui.DefaultGuiManager this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.DefaultGuiManager$3 -> geogebra.gui.M: geogebra.gui.DefaultGuiManager this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.DefaultGuiManager$4 -> geogebra.gui.as: geogebra.gui.DefaultGuiManager this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.DefaultGuiManager$5 -> geogebra.gui.aW: geogebra.gui.DefaultGuiManager this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.DefaultGuiManager$FileFilterChangedListener -> geogebra.gui.aq: geogebra.gui.DefaultGuiManager this$0 -> a void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange java.lang.String getFileNameMAC(java.lang.String) -> a java.lang.String getFileName(java.lang.String) -> b geogebra.gui.DefaultGuiManager$NumberInputHandler -> geogebra.gui.e: geogebra.kernel.arithmetic.NumberValue num -> a geogebra.gui.DefaultGuiManager this$0 -> a boolean processInput(java.lang.String) -> a geogebra.gui.FileDropTargetListener -> geogebra.gui.Z: geogebra.main.Application 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 java.io.File getGGBfile(java.awt.dnd.DropTargetDropEvent) -> a geogebra.gui.GeoTreeCellRenderer -> geogebra.gui.bk: geogebra.main.Application app -> a javax.swing.ImageIcon iconShown -> a javax.swing.ImageIcon iconHidden -> b java.awt.Component getTreeCellRendererComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int,boolean) -> getTreeCellRendererComponent geogebra.gui.ImagePreview -> geogebra.gui.bf: javax.swing.JFileChooser jfc -> a java.awt.image.BufferedImage img -> a void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange void updateImage(java.io.File) -> a void paintComponent(java.awt.Graphics) -> paintComponent geogebra.gui.ImageResizer -> geogebra.gui.Q: java.awt.image.BufferedImage resizeImage(java.awt.image.BufferedImage,int,int) -> a geogebra.gui.InputDialog -> geogebra.gui.p: java.lang.String inputText -> a geogebra.gui.view.algebra.InputPanel inputPanel -> a javax.swing.JButton btApply -> a javax.swing.JButton btCancel -> b javax.swing.JButton btProperties -> c javax.swing.JButton btOK -> d javax.swing.JPanel optionPane -> a javax.swing.JPanel buttonsPanel -> b javax.swing.JPanel btPanel -> c javax.swing.JPanel btPanel2 -> d geogebra.main.GeoElementSelectionListener sl -> a javax.swing.JLabel msgLabel -> a java.lang.String initString -> b geogebra.main.Application app -> a geogebra.gui.InputHandler inputHandler -> a geogebra.kernel.GeoElement geo -> a java.util.ArrayList tempArrayList -> a javax.swing.JPanel getButtonPanel() -> a void createGUI(java.lang.String,java.lang.String,boolean,int,int,boolean,boolean,boolean,boolean,boolean,boolean) -> a void showSpecialCharacters(boolean) -> a void insertGeoElement(geogebra.kernel.GeoElement) -> a void insertString(java.lang.String) -> a void centerOnScreen() -> a void setRelativeCaretPosition(int) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed java.lang.String getText() -> a void setVisible(boolean) -> setVisible void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus geogebra.gui.InputDialog$1 -> geogebra.gui.at: geogebra.gui.InputDialog this$0 -> a void run() -> run geogebra.gui.InputDialog$2 -> geogebra.gui.aw: geogebra.gui.InputDialog this$0 -> a void geoElementSelected(geogebra.kernel.GeoElement,boolean) -> a geogebra.gui.InputHandler -> geogebra.gui.aV: boolean processInput(java.lang.String) -> a geogebra.gui.MathTextField -> geogebra.gui.ay: void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyTyped(java.awt.event.KeyEvent) -> keyTyped void keyReleased(java.awt.event.KeyEvent) -> keyReleased geogebra.gui.MyCellRenderer -> geogebra.gui.j: java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent geogebra.gui.MySmallJButton -> geogebra.gui.u: void setSmallSize(int,int) -> a geogebra.gui.NamePanel -> geogebra.gui.bp: geogebra.gui.inputbar.AutoCompleteTextField tfName -> a geogebra.gui.inputbar.AutoCompleteTextField tfDefinition -> b geogebra.gui.inputbar.AutoCompleteTextField tfCaption -> c javax.swing.JLabel nameLabel -> a javax.swing.JLabel defLabel -> b javax.swing.JLabel captionLabel -> c geogebra.gui.view.algebra.InputPanel inputPanelName -> a geogebra.gui.view.algebra.InputPanel inputPanelDef -> b geogebra.gui.view.algebra.InputPanel inputPanelCap -> c geogebra.gui.RenameInputHandler nameInputHandler -> a geogebra.gui.RedefineInputHandler defInputHandler -> a geogebra.kernel.GeoElement currentGeo -> a geogebra.main.Application app -> a boolean actionPerforming -> a void updateGUI(boolean,boolean) -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> 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 java.lang.String getDefText(geogebra.kernel.GeoElement) -> a java.lang.String getCaptionText(geogebra.kernel.GeoElement) -> b geogebra.gui.NumberComboBox -> geogebra.gui.ag: java.text.NumberFormat nf -> a geogebra.kernel.Kernel kernel -> a void setValue(double) -> a double getValue() -> a geogebra.gui.PropertiesDialogGeoElement -> geogebra.gui.l: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.gui.PropertiesDialogGeoElement$JTreeGeoElements geoTree -> a javax.swing.JButton closeButton -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel propPanel -> a javax.swing.JColorChooser colChooser -> a boolean firstTime -> a boolean viewActive -> b java.util.ArrayList selectionList -> a java.util.ArrayList tempArrayList -> b java.lang.Class class$0 -> a void initGUI() -> a void cancel() -> b void closeDialog() -> c void setVisibleWithGeos(java.util.ArrayList) -> a void setVisible(boolean) -> setVisible void setViewActive(boolean) -> a void selectionChanged() -> d java.util.ArrayList updateSelectedGeos(javax.swing.tree.TreePath[]) -> a void geoElementSelected(geogebra.kernel.GeoElement,boolean) -> a void deleteSelectedGeos() -> e void windowActivated(java.awt.event.WindowEvent) -> windowActivated void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated void windowClosing(java.awt.event.WindowEvent) -> windowClosing void windowClosed(java.awt.event.WindowEvent) -> windowClosed void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified void windowIconified(java.awt.event.WindowEvent) -> windowIconified void windowOpened(java.awt.event.WindowEvent) -> windowOpened void windowGainedFocus(java.awt.event.WindowEvent) -> windowGainedFocus void windowLostFocus(java.awt.event.WindowEvent) -> windowLostFocus void valueChanged(javax.swing.event.TreeSelectionEvent) -> valueChanged void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyReleased(java.awt.event.KeyEvent) -> keyReleased void keyTyped(java.awt.event.KeyEvent) -> keyTyped geogebra.main.Application access$0(geogebra.gui.PropertiesDialogGeoElement) -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel access$1(geogebra.gui.PropertiesDialogGeoElement) -> a javax.swing.JColorChooser access$2(geogebra.gui.PropertiesDialogGeoElement) -> a geogebra.kernel.Kernel access$3(geogebra.gui.PropertiesDialogGeoElement) -> a void access$4(geogebra.gui.PropertiesDialogGeoElement) -> a geogebra.gui.PropertiesDialogGeoElement$1 -> geogebra.gui.J: geogebra.gui.PropertiesDialogGeoElement this$0 -> a void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered geogebra.gui.PropertiesDialogGeoElement$2 -> geogebra.gui.aT: geogebra.gui.PropertiesDialogGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$3 -> geogebra.gui.bz: geogebra.gui.PropertiesDialogGeoElement this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$AbsoluteScreenLocationPanel -> geogebra.gui.bl: java.lang.Object[] geos -> a javax.swing.JCheckBox cbAbsScreenLoc -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$AllowOutlyingIntersectionsPanel -> geogebra.gui.ab: java.lang.Object[] geos -> a javax.swing.JCheckBox outlyingIntersectionsCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$AllowReflexAnglePanel -> geogebra.gui.aZ: java.lang.Object[] geos -> a javax.swing.JCheckBox reflexAngleCB -> a javax.swing.JCheckBox forcereflexAngleCB -> b geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$AnimatingPanel -> geogebra.gui.N: java.lang.Object[] geos -> a javax.swing.JCheckBox showAnimatingCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$ArcSizePanel -> geogebra.gui.b: java.lang.Object[] geos -> a javax.swing.JSlider slider -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a void setMinValue() -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged geogebra.gui.PropertiesDialogGeoElement$AuxiliaryObjectPanel -> geogebra.gui.G: java.lang.Object[] geos -> a javax.swing.JCheckBox auxCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$BackgroundImagePanel -> geogebra.gui.ax: java.lang.Object[] geos -> a javax.swing.JCheckBox isBGimage -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$CheckBoxFixPanel -> geogebra.gui.aK: java.lang.Object[] geos -> a javax.swing.JCheckBox checkboxFixCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$ColorPanel -> geogebra.gui.ah: java.lang.Object[] geos -> a javax.swing.JLabel previewLabel -> a javax.swing.JPanel previewPanel -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a void updateColor(java.awt.Color) -> a boolean checkGeos(java.lang.Object[]) -> a void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged geogebra.gui.PropertiesDialogGeoElement access$0(geogebra.gui.PropertiesDialogGeoElement$ColorPanel) -> a geogebra.gui.PropertiesDialogGeoElement$ColorPanel$PreviewPanel -> geogebra.gui.x: geogebra.gui.PropertiesDialogGeoElement$ColorPanel this$1 -> a void paintComponent(java.awt.Graphics) -> paintComponent geogebra.gui.PropertiesDialogGeoElement$ConicEqnPanel -> geogebra.gui.f: java.lang.Object[] geos -> a javax.swing.DefaultComboBoxModel eqnCBmodel -> a javax.swing.JComboBox eqnCB -> a javax.swing.JLabel eqnLabel -> a int implicitIndex -> a int explicitIndex -> b int specificIndex -> c geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$CoordPanel -> geogebra.gui.aP: java.lang.Object[] geos -> a javax.swing.JComboBox coordCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$CornerPointsPanel -> geogebra.gui.bg: java.lang.Object[] geos -> a javax.swing.JComboBox[] cbLocation -> a javax.swing.DefaultComboBoxModel[] cbModel -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed(java.lang.Object) -> a void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.gui.PropertiesDialogGeoElement$DecoAnglePanel -> geogebra.gui.bu: javax.swing.JComboBox decoCombo -> a java.lang.Object[] geos -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$DecoSegmentPanel -> geogebra.gui.H: javax.swing.JComboBox decoCombo -> a java.lang.Object[] geos -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$FillingPanel -> geogebra.gui.aj: java.lang.Object[] geos -> a javax.swing.JSlider slider -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged geogebra.gui.PropertiesDialogGeoElement$FixPanel -> geogebra.gui.P: java.lang.Object[] geos -> a javax.swing.JCheckBox showFixCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$JTreeGeoElements -> geogebra.gui.al: javax.swing.tree.DefaultTreeModel treeModel -> a javax.swing.tree.DefaultMutableTreeNode root -> a java.util.HashMap typeNodesMap -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a void setExpandedState(javax.swing.tree.TreePath,boolean) -> setExpandedState void expandAll() -> a void collapseAll() -> b void setSelected(java.util.ArrayList,boolean) -> a void selectFirstElement() -> c javax.swing.tree.TreePath getGeoPath(geogebra.kernel.GeoElement) -> a void clearSelection() -> clearSelection void clear() -> f void add(geogebra.kernel.GeoElement) -> a void remove(geogebra.kernel.GeoElement) -> b void remove(geogebra.kernel.GeoElement,boolean) -> a javax.swing.tree.TreePath getTreePath(geogebra.kernel.GeoElement) -> b void rename(geogebra.kernel.GeoElement) -> c void update(geogebra.kernel.GeoElement) -> d void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e void reset() -> g void clearView() -> d void repaintView() -> e 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 javax.swing.tree.DefaultMutableTreeNode access$0(geogebra.gui.PropertiesDialogGeoElement$JTreeGeoElements) -> a void access$1(geogebra.gui.PropertiesDialogGeoElement$JTreeGeoElements) -> a javax.swing.tree.TreePath access$2(geogebra.gui.PropertiesDialogGeoElement$JTreeGeoElements,geogebra.kernel.GeoElement) -> a geogebra.gui.PropertiesDialogGeoElement$LabelPanel -> geogebra.gui.c: java.lang.Object[] geos -> a javax.swing.JCheckBox showLabelCB -> a javax.swing.JComboBox labelModeCB -> a boolean showNameValueComboBox -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$LayerPanel -> geogebra.gui.au: java.lang.Object[] geos -> a javax.swing.JComboBox layerModeCB -> a javax.swing.JLabel layerLabel -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$LineEqnPanel -> geogebra.gui.O: java.lang.Object[] geos -> a javax.swing.DefaultComboBoxModel eqnCBmodel -> a javax.swing.JComboBox eqnCB -> a javax.swing.JLabel eqnLabel -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$LineStylePanel -> geogebra.gui.ak: java.lang.Object[] geos -> a javax.swing.JSlider slider -> a javax.swing.JComboBox dashCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a boolean allPolygons(java.lang.Object[]) -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> b void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$PointSizePanel -> geogebra.gui.s: java.lang.Object[] geos -> a javax.swing.JSlider slider -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged geogebra.gui.PropertiesDialogGeoElement$PointStylePanel -> geogebra.gui.bh: java.lang.Object[] geos -> a javax.swing.JRadioButton[] buttons -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel -> geogebra.gui.E: geogebra.gui.NamePanel namePanel -> a geogebra.gui.PropertiesDialogGeoElement$ShowObjectPanel showObjectPanel -> a geogebra.gui.PropertiesDialogGeoElement$ColorPanel colorPanel -> a geogebra.gui.PropertiesDialogGeoElement$LabelPanel labelPanel -> a geogebra.gui.PropertiesDialogGeoElement$LayerPanel layerPanel -> a geogebra.gui.PropertiesDialogGeoElement$CoordPanel coordPanel -> a geogebra.gui.PropertiesDialogGeoElement$LineEqnPanel lineEqnPanel -> a geogebra.gui.PropertiesDialogGeoElement$ConicEqnPanel conicEqnPanel -> a geogebra.gui.PropertiesDialogGeoElement$PointSizePanel pointSizePanel -> a geogebra.gui.PropertiesDialogGeoElement$PointStylePanel pointStylePanel -> a geogebra.gui.PropertiesDialogGeoElement$TextOptionsPanel textOptionsPanel -> a geogebra.gui.PropertiesDialogGeoElement$ArcSizePanel arcSizePanel -> a geogebra.gui.PropertiesDialogGeoElement$LineStylePanel lineStylePanel -> a geogebra.gui.PropertiesDialogGeoElement$DecoSegmentPanel decoSegmentPanel -> a geogebra.gui.PropertiesDialogGeoElement$DecoAnglePanel decoAnglePanel -> a geogebra.gui.PropertiesDialogGeoElement$RightAnglePanel rightAnglePanel -> a geogebra.gui.PropertiesDialogGeoElement$FillingPanel fillingPanel -> a geogebra.gui.PropertiesDialogGeoElement$TracePanel tracePanel -> a geogebra.gui.PropertiesDialogGeoElement$AnimatingPanel animatingPanel -> a geogebra.gui.PropertiesDialogGeoElement$FixPanel fixPanel -> a geogebra.gui.PropertiesDialogGeoElement$CheckBoxFixPanel checkBoxFixPanel -> a geogebra.gui.PropertiesDialogGeoElement$AllowReflexAnglePanel allowReflexAnglePanel -> a geogebra.gui.PropertiesDialogGeoElement$AllowOutlyingIntersectionsPanel allowOutlyingIntersectionsPanel -> a geogebra.gui.PropertiesDialogGeoElement$AuxiliaryObjectPanel auxPanel -> a geogebra.gui.AnimationStepPanel animStepPanel -> a geogebra.gui.AnimationSpeedPanel animSpeedPanel -> a geogebra.gui.SliderPanel sliderPanel -> a geogebra.gui.PropertiesDialogGeoElement$SlopeTriangleSizePanel slopeTriangleSizePanel -> a geogebra.gui.PropertiesDialogGeoElement$StartPointPanel startPointPanel -> a geogebra.gui.PropertiesDialogGeoElement$CornerPointsPanel cornerPointsPanel -> a geogebra.gui.PropertiesDialogGeoElement$TextEditPanel textEditPanel -> a geogebra.gui.PropertiesDialogGeoElement$BackgroundImagePanel bgImagePanel -> a geogebra.gui.PropertiesDialogGeoElement$AbsoluteScreenLocationPanel absScreenLocPanel -> a geogebra.gui.ShowConditionPanel showConditionPanel -> a geogebra.gui.ColorFunctionPanel colorFunctionPanel -> a javax.swing.JTabbedPane tabs -> a java.util.ArrayList tabPanelList -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a void setSliderMinValue() -> a void initTabs() -> b void updateTabs(java.lang.Object[]) -> b boolean updateTabPanel(geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel$TabPanel,java.util.ArrayList,java.lang.Object[]) -> a void updateSelection(java.lang.Object[]) -> a boolean access$0(geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel,geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel$TabPanel,java.util.ArrayList,java.lang.Object[]) -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel$TabPanel -> geogebra.gui.w: java.lang.String title -> a java.util.ArrayList panelList -> a boolean makeVisible -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel this$1 -> a void update(java.lang.Object[]) -> a void addToTabbedPane(javax.swing.JTabbedPane) -> a geogebra.gui.PropertiesDialogGeoElement$RightAnglePanel -> geogebra.gui.K: javax.swing.JCheckBox emphasizeRightAngle -> a java.lang.Object[] geos -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$ShowObjectPanel -> geogebra.gui.k: java.lang.Object[] geos -> a javax.swing.JCheckBox showObjectCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGeoElement$SlopeTriangleSizePanel -> geogebra.gui.t: java.lang.Object[] geos -> a javax.swing.JSlider slider -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged geogebra.gui.PropertiesDialogGeoElement$StartPointPanel -> geogebra.gui.aG: java.lang.Object[] geos -> a javax.swing.JComboBox cbLocation -> a javax.swing.DefaultComboBoxModel cbModel -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed() -> a void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.gui.PropertiesDialogGeoElement$TextEditPanel -> geogebra.gui.bo: geogebra.gui.TextInputDialog td -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$TextOptionsPanel -> geogebra.gui.g: java.lang.Object[] geos -> 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.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.PropertiesDialogGeoElement$TextOptionsPanel$ComboBoxRenderer -> geogebra.gui.L: javax.swing.JSeparator separator -> a geogebra.gui.PropertiesDialogGeoElement$TextOptionsPanel this$1 -> a java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent geogebra.gui.PropertiesDialogGeoElement$TracePanel -> geogebra.gui.aO: java.lang.Object[] geos -> a javax.swing.JCheckBox showTraceCB -> a geogebra.gui.PropertiesDialogGeoElement this$0 -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged geogebra.gui.PropertiesDialogGraphicsWindow -> geogebra.gui.Y: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.euclidian.EuclidianView view -> a javax.swing.JButton closeButton -> a javax.swing.JButton btBackgroundColor -> b javax.swing.JButton btAxesColor -> c javax.swing.JButton btGridColor -> d javax.swing.JCheckBox cbShowAxes -> a javax.swing.JCheckBox cbShowGrid -> b javax.swing.JCheckBox cbBoldGrid -> c javax.swing.JCheckBox cbIsometric -> d javax.swing.JCheckBox cbGridManualTick -> e javax.swing.JComboBox cbAxesStyle -> a javax.swing.JComboBox cbGridStyle -> b javax.swing.JTextField tfAxesRatioX -> a javax.swing.JTextField tfAxesRatioY -> b java.text.NumberFormat nfAxesRatio -> a geogebra.gui.NumberComboBox ncbGridTickX -> a geogebra.gui.NumberComboBox ncbGridTickY -> b geogebra.gui.PropertiesDialogGraphicsWindow$AxisPanel xAxisPanel -> a geogebra.gui.PropertiesDialogGraphicsWindow$AxisPanel yAxisPanel -> b void setVisible(boolean) -> setVisible void initGUI() -> a javax.swing.JPanel buildGridPanel() -> a void updateDialog() -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed(java.lang.Object) -> a double parseDouble(java.lang.String) -> a void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged void packDialog() -> c void windowActivated(java.awt.event.WindowEvent) -> windowActivated void windowDeactivated(java.awt.event.WindowEvent) -> windowDeactivated void windowClosing(java.awt.event.WindowEvent) -> windowClosing void windowClosed(java.awt.event.WindowEvent) -> windowClosed void windowDeiconified(java.awt.event.WindowEvent) -> windowDeiconified void windowIconified(java.awt.event.WindowEvent) -> windowIconified void windowOpened(java.awt.event.WindowEvent) -> windowOpened void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.main.Application access$0(geogebra.gui.PropertiesDialogGraphicsWindow) -> a geogebra.euclidian.EuclidianView access$1(geogebra.gui.PropertiesDialogGraphicsWindow) -> a void access$2(geogebra.gui.PropertiesDialogGraphicsWindow) -> a geogebra.gui.PropertiesDialogGraphicsWindow$AxisPanel -> geogebra.gui.aa: int axis -> a javax.swing.JCheckBox cbShowAxis -> a javax.swing.JCheckBox cbAxisNumber -> b javax.swing.JCheckBox cbManualTicks -> c geogebra.gui.NumberComboBox ncbTickDist -> a geogebra.gui.NumberComboBox ncbMin -> b geogebra.gui.NumberComboBox ncbMax -> c javax.swing.JComboBox cbTickStyle -> a javax.swing.JComboBox cbAxisLabel -> b javax.swing.JComboBox cbUnitLabel -> c geogebra.gui.PropertiesDialogGraphicsWindow this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void itemStateChanged(java.awt.event.ItemEvent) -> itemStateChanged void updatePanel() -> a geogebra.gui.RedefineInputHandler -> geogebra.gui.ad: geogebra.kernel.GeoElement geo -> a geogebra.main.Application app -> a java.lang.String oldString -> a void setGeoElement(geogebra.kernel.GeoElement) -> a boolean processInput(java.lang.String) -> a geogebra.gui.RenameInputHandler -> geogebra.gui.U: geogebra.kernel.GeoElement geo -> a boolean storeUndo -> a geogebra.main.Application app -> a java.lang.String[] invalidFunctionNames -> a void setGeoElement(geogebra.kernel.GeoElement) -> a boolean processInput(java.lang.String) -> a boolean checkName(geogebra.kernel.GeoElement,java.lang.String) -> a geogebra.gui.RestrictedFileSystemView -> geogebra.gui.bm: 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.RestrictedFileSystemView$FileSystemRoot -> geogebra.gui.q: boolean isDirectory() -> isDirectory java.lang.String getName() -> getName geogebra.gui.ShowConditionPanel -> geogebra.gui.r: java.lang.Object[] geos -> a javax.swing.JTextField tfCondition -> a geogebra.kernel.Kernel kernel -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel propPanel -> a boolean processed -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed() -> a void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.gui.SliderDialog -> geogebra.gui.aF: javax.swing.JButton btApply -> a javax.swing.JButton btCancel -> b javax.swing.JRadioButton rbNumber -> a javax.swing.JRadioButton rbAngle -> b geogebra.gui.view.algebra.InputPanel tfLabel -> a javax.swing.JPanel optionPane -> a geogebra.main.Application app -> a geogebra.gui.SliderPanel sliderPanel -> a geogebra.kernel.GeoElement geoResult -> a geogebra.kernel.GeoNumeric number -> a geogebra.kernel.GeoAngle angle -> a void createGUI() -> a geogebra.kernel.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.SliderPanel -> geogebra.gui.af: java.lang.Object[] geos -> a geogebra.gui.AngleTextField tfMin -> a geogebra.gui.AngleTextField tfMax -> b javax.swing.JTextField tfWidth -> a javax.swing.JTextField[] tfields -> a javax.swing.JCheckBox cbSliderFixed -> a javax.swing.JComboBox coSliderHorizontal -> a geogebra.main.Application app -> a geogebra.gui.PropertiesDialogGeoElement$PropertiesPanel propPanel -> a geogebra.gui.AnimationStepPanel stepPanel -> a geogebra.gui.AnimationSpeedPanel speedPanel -> a geogebra.kernel.Kernel kernel -> a javax.swing.JPanel update(java.lang.Object[]) -> a boolean checkGeos(java.lang.Object[]) -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doCheckBoxActionPerformed(javax.swing.JCheckBox) -> a 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 geogebra.gui.TextInputDialog -> geogebra.gui.A: javax.swing.JCheckBox cbLaTeX -> a javax.swing.JComboBox cbLaTeXshortcuts -> a javax.swing.JPanel latexPanel -> a geogebra.kernel.GeoText text -> a boolean isLaTeX -> a geogebra.kernel.GeoPoint startPoint -> a void setGeoText(geogebra.kernel.GeoText) -> a javax.swing.JPanel getLaTeXPanel() -> b javax.swing.JPanel getInputPanel() -> c void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void insertGeoElement(geogebra.kernel.GeoElement) -> a int countChar(char,java.lang.String) -> a javax.swing.JComboBox access$0(geogebra.gui.TextInputDialog) -> a geogebra.kernel.GeoText access$1(geogebra.gui.TextInputDialog) -> a boolean access$2(geogebra.gui.TextInputDialog) -> a geogebra.kernel.GeoPoint access$3(geogebra.gui.TextInputDialog) -> a geogebra.gui.TextInputDialog$ComboBoxListener -> geogebra.gui.by: geogebra.gui.TextInputDialog this$0 -> a void doActionPerformed(java.lang.Object) -> a geogebra.gui.TextInputDialog$TextInputHandler -> geogebra.gui.bq: geogebra.kernel.Kernel kernel -> a geogebra.euclidian.EuclidianView euclidianView -> a geogebra.gui.TextInputDialog this$0 -> a boolean processInput(java.lang.String) -> a geogebra.gui.TitlePanel -> geogebra.gui.aS: javax.swing.JTextField titleField -> a javax.swing.JTextField authorField -> b javax.swing.JFormattedTextField dateField -> a java.util.ArrayList listeners -> a geogebra.kernel.Construction cons -> 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() -> a void access$0(geogebra.gui.TitlePanel,javax.swing.JTextField) -> a geogebra.gui.TitlePanel$1 -> geogebra.gui.be: geogebra.gui.TitlePanel this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.TitlePanel$2 -> geogebra.gui.aD: geogebra.gui.TitlePanel this$0 -> a void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.gui.ToolCreationDialog -> geogebra.gui.aU: geogebra.main.Application app -> a javax.swing.JTabbedPane tabbedPane -> a geogebra.gui.ToolNameIconPanel namePanel -> a geogebra.gui.ToolCreationDialog$OutputListModel outputList -> a geogebra.gui.ToolCreationDialog$InputListModel inputList -> a javax.swing.DefaultComboBoxModel cbInputAddList -> a javax.swing.DefaultComboBoxModel cbOutputAddList -> b geogebra.kernel.Macro newTool -> a void setVisible(boolean) -> setVisible boolean createTool() -> a void finish() -> a void updateInputList() -> b javax.swing.JComboBox removeListeningJComboBox(javax.swing.DefaultComboBoxModel) -> a geogebra.kernel.GeoElement[] toGeoElements(javax.swing.DefaultListModel) -> a void initLists() -> c boolean possibleInput(geogebra.kernel.GeoElement) -> a void initGUI() -> d javax.swing.JPanel createNavigationPanel() -> a javax.swing.JPanel createInputOutputPanel(geogebra.main.Application,javax.swing.DefaultListModel,javax.swing.DefaultComboBoxModel,boolean) -> a javax.swing.JPanel createListUpDownRemovePanel(geogebra.main.Application,javax.swing.JList,javax.swing.JComboBox,boolean,boolean) -> a void geoElementSelected(geogebra.kernel.GeoElement,boolean) -> a javax.swing.JComboBox access$0(geogebra.gui.ToolCreationDialog,javax.swing.DefaultComboBoxModel) -> a boolean access$1(geogebra.gui.ToolCreationDialog,geogebra.kernel.GeoElement) -> a geogebra.gui.ToolCreationDialog$OutputListModel access$2(geogebra.gui.ToolCreationDialog) -> a javax.swing.JTabbedPane access$3(geogebra.gui.ToolCreationDialog) -> a void access$4(geogebra.gui.ToolCreationDialog) -> a void access$5(geogebra.gui.ToolCreationDialog) -> b geogebra.main.Application access$6(geogebra.gui.ToolCreationDialog) -> a boolean access$7(geogebra.gui.ToolCreationDialog) -> a geogebra.gui.ToolCreationDialog$InputListModel access$8(geogebra.gui.ToolCreationDialog) -> a geogebra.gui.ToolNameIconPanel access$9(geogebra.gui.ToolCreationDialog) -> a geogebra.gui.ToolCreationDialog$1 -> geogebra.gui.aC: geogebra.gui.ToolCreationDialog this$0 -> a void removeElement(java.lang.Object) -> removeElement geogebra.gui.ToolCreationDialog$2 -> geogebra.gui.D: geogebra.gui.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.ToolCreationDialog$3 -> geogebra.gui.d: geogebra.gui.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.ToolCreationDialog$4 -> geogebra.gui.bd: javax.swing.JComboBox val$cbAdd -> a javax.swing.DefaultListModel val$listModel -> a void doActionPerformed(java.lang.Object) -> a geogebra.gui.ToolCreationDialog$5 -> geogebra.gui.aB: javax.swing.JList val$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 void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ToolCreationDialog$InputListModel -> geogebra.gui.bb: javax.swing.DefaultComboBoxModel cbInputAddList -> a geogebra.gui.ToolCreationDialog this$0 -> a void addElement(java.lang.Object) -> addElement geogebra.gui.ToolCreationDialog$OutputListModel -> geogebra.gui.bA: javax.swing.DefaultComboBoxModel cbOutputAddList -> a geogebra.gui.ToolCreationDialog this$0 -> a void addElement(java.lang.Object) -> addElement geogebra.gui.ToolManagerDialog -> geogebra.gui.F: geogebra.main.Application app -> a javax.swing.DefaultListModel toolsModel -> a void setVisible(boolean) -> setVisible void updateToolBar(javax.swing.DefaultListModel) -> a void deleteTools(javax.swing.JList,javax.swing.DefaultListModel) -> a void saveTools(javax.swing.JList) -> a void initGUI() -> a void insertTools(javax.swing.DefaultListModel) -> b geogebra.main.Application access$0(geogebra.gui.ToolManagerDialog) -> a javax.swing.DefaultListModel access$1(geogebra.gui.ToolManagerDialog) -> a void access$2(geogebra.gui.ToolManagerDialog,javax.swing.JList,javax.swing.DefaultListModel) -> a void access$3(geogebra.gui.ToolManagerDialog,javax.swing.JList) -> a geogebra.gui.ToolManagerDialog$1 -> geogebra.gui.T: geogebra.gui.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$toolList -> a javax.swing.JButton val$btSave -> c void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ToolManagerDialog$2 -> geogebra.gui.aA: geogebra.gui.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.ToolManagerDialog$MacroCellRenderer -> geogebra.gui.I: geogebra.gui.ToolManagerDialog this$0 -> a java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent geogebra.gui.ToolNameIconPanel -> geogebra.gui.aI: 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.Application app -> a geogebra.gui.ToolManagerDialog managerDialog -> a geogebra.kernel.Macro macro -> a void updateMacro() -> a void init(geogebra.gui.ToolManagerDialog,geogebra.kernel.Macro) -> a void requestFocus() -> requestFocus java.lang.String getCommandName() -> a java.lang.String getToolName() -> b java.lang.String getToolHelp() -> c boolean showInToolBar() -> a 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 void access$1(geogebra.gui.ToolNameIconPanel,java.lang.String) -> a javax.swing.JLabel access$2(geogebra.gui.ToolNameIconPanel) -> a void access$3(geogebra.gui.ToolNameIconPanel) -> a javax.swing.JCheckBox access$4(geogebra.gui.ToolNameIconPanel) -> a javax.swing.JButton access$5(geogebra.gui.ToolNameIconPanel) -> a geogebra.gui.ToolNameIconPanel$1 -> geogebra.gui.bc: 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.an: 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.B: geogebra.gui.ToolNameIconPanel this$0 -> a geogebra.main.Application val$app -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.ToolNameIconPanel$4 -> geogebra.gui.br: geogebra.gui.ToolNameIconPanel this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.UpdateablePanel -> geogebra.gui.am: javax.swing.JPanel update(java.lang.Object[]) -> a void setVisible(boolean) -> setVisible geogebra.gui.app.GeoGebraFrame -> geogebra.gui.f.a: java.util.ArrayList instances -> a geogebra.gui.app.GeoGebraFrame activeInstance -> a geogebra.main.Application app -> a void dispose() -> dispose geogebra.main.Application getApplication() -> a void setApplication(geogebra.main.Application) -> 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(java.lang.String[]) -> a geogebra.gui.app.GeoGebraFrame getActiveInstance() -> a void initMacSpecifics() -> b geogebra.gui.app.GeoGebraFrame createNewWindow(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.app.GeoGebraFrame$1 -> geogebra.gui.f.d: geogebra.main.Application val$app -> a void run() -> run geogebra.gui.app.MacApplicationListener -> geogebra.gui.f.b: 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.f.c: java.util.Hashtable 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 getDescription() -> getDescription void setDescription(java.lang.String) -> b boolean isExtensionListInDescription() -> a java.lang.String getExtension() -> a geogebra.gui.hoteqn.ColorMaskFilter -> geogebra.gui.hoteqn.e: java.awt.Color color -> a boolean maskORinvert -> a int filterRGB(int,int,int) -> filterRGB geogebra.gui.hoteqn.EqScanner -> geogebra.gui.hoteqn.b: java.lang.String equation -> a int count -> a int countT -> b geogebra.gui.hoteqn.EqToken token -> a boolean EOF -> a java.util.Vector TokenV -> a boolean selectB -> b boolean collectB -> c int selectCount1 -> c int selectCount2 -> d java.lang.StringBuffer selectSB -> a void setEquation(java.lang.String) -> a void start() -> a int get_count() -> a void set_count(int) -> a geogebra.gui.hoteqn.EqToken nextToken() -> a boolean EoT() -> a char getChar() -> a void advance() -> b geogebra.gui.hoteqn.EqToken ScanNextToken() -> b geogebra.gui.hoteqn.EqToken -> geogebra.gui.hoteqn.d: int typ -> a java.lang.String stringS -> a geogebra.gui.hoteqn.SymbolLoader -> geogebra.gui.hoteqn.SymbolLoader: java.awt.image.ImageProducer[] imageSources -> a java.lang.String[] fontsizes -> a java.util.Hashtable fontdesH -> a boolean kLocalFonts -> a java.lang.Class class$0 -> a java.awt.Image getImage(boolean,boolean,java.lang.String,java.awt.Graphics,java.applet.Applet) -> getImage java.awt.image.ImageProducer getBigImage(boolean,boolean,java.lang.String,java.applet.Applet) -> getBigImage java.awt.image.ImageProducer getLocalImageSource(java.lang.String) -> getLocalImageSource geogebra.gui.hoteqn.cHotEqnImpl -> geogebra.gui.hoteqn.f: java.awt.Component component -> a java.lang.String nameS -> a java.lang.String equation -> b java.lang.String Fontname -> c geogebra.gui.hoteqn.EqScanner eqScan -> a geogebra.gui.hoteqn.EqToken eqTok -> a boolean italic -> d int fontStyle -> a java.awt.Font f1 -> a java.awt.Font f2 -> b java.awt.Font f3 -> c java.awt.Font f4 -> d int[] GreekFontSizes -> a int[] GreekFontDescents -> b int[] GreekSize -> c int[] GreekDescent -> d int[] EmbedFontSizes -> e java.awt.Graphics2D g2Dtemp -> a boolean imageOK -> e int localWidth -> b int localHeight -> c java.awt.Color BGColor -> a java.awt.Color EnvColor -> b java.awt.Color FGColor -> c java.awt.Color BorderColor -> d boolean borderB -> f boolean roundRectBorderB -> g int border -> d java.lang.String halign -> d java.lang.String valign -> e int xpos -> e int ypos -> f boolean drawn -> h geogebra.gui.hoteqn.SymbolLoader symbolLoader -> a java.awt.MediaTracker tracker -> a java.util.Hashtable imageH -> a java.applet.Applet app -> a boolean appletB -> a boolean beanB -> b boolean debug -> c boolean editMode -> i boolean editableB -> j int mouse1X -> g int mouse1Y -> h int mouse2X -> i int mouse2Y -> j int xOFF -> k int yOFF -> l int y0 -> m int x0 -> n int y1 -> o int x1 -> p int editModeRec -> q boolean editModeFind -> k int editModeCount1 -> r int editModeCount2 -> s void setEquationImpl(java.lang.String) -> a void printStatusImpl(java.lang.String) -> b void displayStatus(java.lang.String) -> d void setDebugImpl(boolean) -> a void setFontnameImpl(java.lang.String) -> c void setFontStyle(int) -> a void setFontsizesImpl(int,int,int,int) -> a void setBackgroundImpl(java.awt.Color) -> a java.awt.Color getBackgroundImpl() -> a void setForegroundImpl(java.awt.Color) -> b java.awt.Color getForegroundImpl() -> b void setEditableImpl(boolean) -> b void processMouseEventImpl(java.awt.event.MouseEvent) -> a void processMouseMotionEventImpl(java.awt.event.MouseEvent) -> b java.awt.Dimension getPreferredSizeImpl() -> a java.awt.Dimension getMinimumSizeImpl() -> b void generateImageImpl(java.awt.Graphics,int,int) -> a java.awt.Dimension getSizeImpl() -> c geogebra.gui.hoteqn.cHotEqnImpl$BoxC eqn(int,int,boolean,java.awt.Graphics,int) -> a geogebra.gui.hoteqn.cHotEqnImpl$BoxC eqn(int,int,boolean,java.awt.Graphics,int,boolean) -> a geogebra.gui.hoteqn.cHotEqnImpl$BoxC ACCENT(int,int,boolean,java.awt.Graphics,int) -> b geogebra.gui.hoteqn.cHotEqnImpl$BoxC ANGLE(int,int,boolean,java.awt.Graphics) -> a geogebra.gui.hoteqn.cHotEqnImpl$BoxC ARRAY(int,int,boolean,java.awt.Graphics,int) -> c geogebra.gui.hoteqn.cHotEqnImpl$BoxC BEGIN(int,int,boolean,java.awt.Graphics,int) -> d geogebra.gui.hoteqn.cHotEqnImpl$BoxC FBOX(int,int,boolean,java.awt.Graphics,int) -> e geogebra.gui.hoteqn.cHotEqnImpl$BoxC FG_BGColor(int,int,boolean,java.awt.Graphics,int,boolean) -> b geogebra.gui.hoteqn.cHotEqnImpl$BoxC FRAC(int,int,boolean,java.awt.Graphics,int,boolean) -> c geogebra.gui.hoteqn.cHotEqnImpl$BoxC Id(int,int,boolean,java.awt.Graphics) -> b void arc(java.awt.Graphics,int,int,int,int,int) -> a void drawBracket(java.awt.Graphics,java.lang.String,int,int,int,int,int,int) -> a geogebra.gui.hoteqn.cHotEqnImpl$BoxC LEFT(int,int,boolean,java.awt.Graphics,int) -> f geogebra.gui.hoteqn.cHotEqnImpl$BoxC LIM(int,int,boolean,java.awt.Graphics,int) -> g geogebra.gui.hoteqn.cHotEqnImpl$BoxC MBOX(int,int,boolean,java.awt.Graphics) -> c geogebra.gui.hoteqn.cHotEqnImpl$BoxC NOT(int,int,boolean,java.awt.Graphics,int) -> h geogebra.gui.hoteqn.cHotEqnImpl$BoxC Op(int,int,boolean,java.awt.Graphics) -> d geogebra.gui.hoteqn.cHotEqnImpl$BoxC OverBRACE(int,int,boolean,java.awt.Graphics,int) -> i geogebra.gui.hoteqn.cHotEqnImpl$BoxC UnderBRACE(int,int,boolean,java.awt.Graphics,int) -> j geogebra.gui.hoteqn.cHotEqnImpl$BoxC OverUnderLINE(int,int,boolean,java.awt.Graphics,int,boolean) -> d geogebra.gui.hoteqn.cHotEqnImpl$BoxC Paren(int,int,boolean,java.awt.Graphics) -> e geogebra.gui.hoteqn.cHotEqnImpl$BoxC Plain(int,int,boolean,java.awt.Graphics) -> f geogebra.gui.hoteqn.cHotEqnImpl$BoxC SPACE(int,int,boolean,java.awt.Graphics) -> g geogebra.gui.hoteqn.cHotEqnImpl$BoxC SQRT(int,int,boolean,java.awt.Graphics,int) -> k geogebra.gui.hoteqn.cHotEqnImpl$BoxC STACKREL(int,int,boolean,java.awt.Graphics,int) -> l geogebra.gui.hoteqn.cHotEqnImpl$BoxC SUB(int,int,boolean,java.awt.Graphics,int,boolean) -> e geogebra.gui.hoteqn.cHotEqnImpl$BoxC SUP(int,int,boolean,java.awt.Graphics,int,boolean) -> f java.awt.Image getSymbol(java.awt.Graphics,int) -> a geogebra.gui.hoteqn.cHotEqnImpl$BoxC SYMBOP(int,int,boolean,java.awt.Graphics,int,boolean) -> g geogebra.gui.hoteqn.cHotEqnImpl$BoxC SYMBOLBIG(int,int,boolean,java.awt.Graphics,int) -> m geogebra.gui.hoteqn.cHotEqnImpl$BoxC VEC(int,int,boolean,java.awt.Graphics,int) -> n boolean expect(int) -> a boolean expect(int,java.lang.String) -> a boolean expect(int,int,java.lang.String) -> a void rec_Font(java.awt.Graphics,int) -> a geogebra.gui.hoteqn.cHotEqnImpl$BoxC -> geogebra.gui.hoteqn.c: int dx -> a int dy_pos -> b int dy_neg -> c geogebra.gui.hoteqn.sHotEqn -> geogebra.gui.hoteqn.a: geogebra.gui.hoteqn.cHotEqnImpl impl -> a void setEquation(java.lang.String) -> a void setDebug(boolean) -> a void setFontname(java.lang.String) -> b void setFontsizes(int,int,int,int) -> a void setFontStyle(int) -> a void setBackground(java.awt.Color) -> setBackground java.awt.Color getBackground() -> getBackground void setForeground(java.awt.Color) -> setForeground java.awt.Color getForeground() -> getForeground void setEditable(boolean) -> b 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 void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void processMouseEvent(java.awt.event.MouseEvent) -> processMouseEvent void processMouseMotionEvent(java.awt.event.MouseEvent) -> processMouseMotionEvent java.awt.Dimension getPreferredSize() -> getPreferredSize java.awt.Dimension getSize() -> getSize java.awt.Dimension getMinimumSize() -> getMinimumSize void paintComponent(java.awt.Graphics,int,int) -> a void paintComponent(java.awt.Graphics) -> paintComponent geogebra.gui.inputbar.AlgebraInput -> geogebra.gui.e.a: geogebra.main.Application app -> a javax.swing.JLabel inputLabel -> a javax.swing.JLabel helpIcon -> b javax.swing.JComboBox cmdCB -> a geogebra.gui.inputbar.AutoCompleteTextField inputField -> a void initGUI() -> a boolean requestFocusInWindow() -> requestFocusInWindow void requestFocus() -> requestFocus boolean hasFocus() -> hasFocus void clear() -> b geogebra.gui.inputbar.AutoCompleteTextField getTextField() -> a void setLabels() -> c void updateFonts() -> d void insertCommand(java.lang.String) -> a void setCommandNames() -> e 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 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 focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost geogebra.gui.inputbar.AutoCompleteTextField -> geogebra.gui.e.b: geogebra.main.Application app -> a java.lang.StringBuffer curWord -> a int curWordStart -> a geogebra.util.AutoCompleteDictionary dict -> a boolean autoComplete -> a int historyIndex -> b java.util.ArrayList history -> a boolean handleEscapeKey -> c boolean ctrlC -> b void setDictionary(geogebra.util.AutoCompleteDictionary) -> a void setAutoComplete(boolean) -> a boolean getAutoComplete() -> a java.lang.String getCurrentWord() -> a void geoElementSelected(geogebra.kernel.GeoElement,boolean) -> a void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyReleased(java.awt.event.KeyEvent) -> keyReleased java.lang.String lookup(java.lang.String) -> a void updateCurrentWord() -> a java.lang.String getWordAtPos(java.lang.String,int) -> a boolean isLetterOrDigit(char) -> a void updateAutoCompletion() -> b boolean processAutoCompletionKey() -> b void addToHistory(java.lang.String) -> a java.lang.String getPreviousInput() -> b java.lang.String getNextInput() -> c void showCommandHelp(boolean) -> b java.lang.String getCmdSyntax(java.lang.String) -> b geogebra.gui.menubar.GeoGebraMenuBar -> geogebra.gui.a.P: void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.LoadFileListener -> geogebra.gui.a.ac: geogebra.main.Application app -> a java.io.File file -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.Menubar -> geogebra.gui.a.I: void initMenubar() -> a void updateMenubar() -> b void updateMenuFile() -> c void updateMenuWindow() -> d void updateSelection() -> e void updateActions() -> g geogebra.gui.menubar.MenubarImpl -> geogebra.gui.a.ab: javax.swing.AbstractAction refreshAction -> a javax.swing.AbstractAction recomputeAllViews -> b javax.swing.AbstractAction drawingPadToClipboardAction -> c javax.swing.AbstractAction deleteAll -> d javax.swing.AbstractAction newWindowAction -> e javax.swing.AbstractAction propertiesAction -> f javax.swing.AbstractAction constProtocolAction -> g javax.swing.AbstractAction drawingPadPropAction -> h javax.swing.AbstractAction toolbarConfigAction -> i javax.swing.AbstractAction showAlgebraViewAction -> j javax.swing.AbstractAction showAlgebraInputAction -> k javax.swing.AbstractAction showSpreadsheetAction -> l javax.swing.AbstractAction showCmdListAction -> m javax.swing.AbstractAction horizontalSplitAction -> n javax.swing.AbstractAction showAuxiliaryObjectsAction -> o javax.swing.AbstractAction showConsProtNavigationAction -> p javax.swing.AbstractAction showConsProtNavigationPlayAction -> q javax.swing.AbstractAction showConsProtNavigationOpenProtAction -> r javax.swing.AbstractAction loadAction -> s javax.swing.AbstractAction saveAction -> t javax.swing.AbstractAction saveAsAction -> u javax.swing.AbstractAction printEuclidianViewAction -> v javax.swing.AbstractAction exitAction -> w javax.swing.AbstractAction exitAllAction -> x javax.swing.AbstractAction helpAction -> y javax.swing.AbstractAction infoAction -> z javax.swing.AbstractAction exportGraphicAction -> A javax.swing.AbstractAction exportWorksheet -> B javax.swing.AbstractAction exportPSTricksAction -> C javax.swing.AbstractAction exportPgfAction -> D javax.swing.AbstractAction showCreateToolsAction -> E javax.swing.AbstractAction showManageToolsAction -> F javax.swing.AbstractAction savePreferencesAction -> G javax.swing.AbstractAction clearPreferencesAction -> H javax.swing.AbstractAction selectAllAction -> I javax.swing.AbstractAction deleteAction -> J javax.swing.AbstractAction websiteAction -> K javax.swing.AbstractAction forumAction -> L javax.swing.AbstractAction wikiAction -> M javax.swing.AbstractAction selectCurrentLayerAction -> N javax.swing.AbstractAction selectAllDescendantsAction -> O javax.swing.AbstractAction selectAllAncestorsAction -> P javax.swing.JCheckBoxMenuItem cbShowAxes -> a javax.swing.JCheckBoxMenuItem cbShowGrid -> b javax.swing.JCheckBoxMenuItem cbShowAlgebraView -> c javax.swing.JCheckBoxMenuItem cbShowSpreadsheet -> d javax.swing.JCheckBoxMenuItem cbShowAuxiliaryObjects -> e javax.swing.JCheckBoxMenuItem cbHorizontalSplit -> f javax.swing.JCheckBoxMenuItem cbShowConsProtNavigation -> g javax.swing.JCheckBoxMenuItem cbShowConsProtNavigationPlay -> h javax.swing.JCheckBoxMenuItem cbShowConsProtNavigationOpenProt -> i javax.swing.JCheckBoxMenuItem cbShowAlgebraInput -> j javax.swing.JCheckBoxMenuItem cbShowCmdList -> k javax.swing.JMenu menuAngleUnit -> a javax.swing.JMenu menuPointCapturing -> b javax.swing.JMenu menuDecimalPlaces -> c javax.swing.JMenu menuContinuity -> d javax.swing.JMenu menuPointStyle -> e javax.swing.JMenu menuBooleanSize -> f javax.swing.JMenu menuRightAngleStyle -> g javax.swing.JMenu menuCoordStyle -> h javax.swing.JMenu menuLabeling -> i javax.swing.JMenu menuWindow -> j javax.swing.JMenu menuFile -> k javax.swing.JMenu menuTools -> l geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a void updateMenubar() -> b void updateMenuFile() -> c void initMenubar() -> a void initActions() -> f int getSelectedLayer() -> a void showPrintPreview(geogebra.main.Application) -> a void showAboutDialog(geogebra.main.Application) -> b void updateSelection() -> e void updateActions() -> g void setMenuShortCutAccelerator(javax.swing.JMenuItem,char) -> a void setMenuShortCutShiftAccelerator(javax.swing.JMenuItem,char) -> b void updateMenuWindow() -> d void updateMenuAngleUnit() -> h void updateMenuPointStyle() -> i void updateMenuBooleanSize() -> j void updateMenuRightAngleStyle() -> k void updateMenuCoordStyle() -> l void updateMenuLabeling() -> m void updateMenuPointCapturing() -> n void updateMenuDecimalPlaces() -> o void updateMenuContinuity() -> p void addLanguageMenuItems(javax.swing.JMenu,java.awt.event.ActionListener) -> a void addRadioButtonMenuItems(javax.swing.JMenu,java.awt.event.ActionListener,java.lang.String[],java.lang.String[],int) -> a geogebra.gui.menubar.MenubarImpl$1 -> geogebra.gui.a.U: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$10 -> geogebra.gui.a.q: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$11 -> geogebra.gui.a.e: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$12 -> geogebra.gui.a.n: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$13 -> geogebra.gui.a.C: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$14 -> geogebra.gui.a.o: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$15 -> geogebra.gui.a.a: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl access$0(geogebra.gui.menubar.MenubarImpl$15) -> a geogebra.gui.menubar.MenubarImpl$16 -> geogebra.gui.a.p: geogebra.gui.menubar.MenubarImpl$15 this$1 -> a void run() -> run geogebra.gui.menubar.MenubarImpl$17 -> geogebra.gui.a.D: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$18 -> geogebra.gui.a.W: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl access$0(geogebra.gui.menubar.MenubarImpl$18) -> a geogebra.gui.menubar.MenubarImpl$19 -> geogebra.gui.a.d: geogebra.gui.menubar.MenubarImpl$18 this$1 -> a void run() -> run geogebra.gui.menubar.MenubarImpl$2 -> geogebra.gui.a.j: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$20 -> geogebra.gui.a.K: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$21 -> geogebra.gui.a.N: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$22 -> geogebra.gui.a.i: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$23 -> geogebra.gui.a.Z: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$24 -> geogebra.gui.a.H: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$25 -> geogebra.gui.a.v: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$26 -> geogebra.gui.a.g: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$27 -> geogebra.gui.a.af: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$28 -> geogebra.gui.a.O: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$29 -> geogebra.gui.a.y: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$3 -> geogebra.gui.a.u: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$30 -> geogebra.gui.a.B: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$31 -> geogebra.gui.a.r: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl access$0(geogebra.gui.menubar.MenubarImpl$31) -> a geogebra.gui.menubar.MenubarImpl$32 -> geogebra.gui.a.G: geogebra.gui.menubar.MenubarImpl$31 this$1 -> a void run() -> run geogebra.gui.menubar.MenubarImpl$33 -> geogebra.gui.a.X: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl access$0(geogebra.gui.menubar.MenubarImpl$33) -> a geogebra.gui.menubar.MenubarImpl$34 -> geogebra.gui.a.A: geogebra.gui.menubar.MenubarImpl$33 this$1 -> a void run() -> run geogebra.gui.menubar.MenubarImpl$35 -> geogebra.gui.a.R: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$36 -> geogebra.gui.a.ah: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$37 -> geogebra.gui.a.m: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl access$0(geogebra.gui.menubar.MenubarImpl$37) -> a geogebra.gui.menubar.MenubarImpl$38 -> geogebra.gui.a.h: geogebra.gui.menubar.MenubarImpl$37 this$1 -> a void run() -> run geogebra.gui.menubar.MenubarImpl$39 -> geogebra.gui.a.Y: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$4 -> geogebra.gui.a.E: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$40 -> geogebra.gui.a.L: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$41 -> geogebra.gui.a.k: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$42 -> geogebra.gui.a.z: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$43 -> geogebra.gui.a.Q: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$44 -> geogebra.gui.a.ae: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$45 -> geogebra.gui.a.l: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$46 -> geogebra.gui.a.x: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$47 -> geogebra.gui.a.M: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$48 -> geogebra.gui.a.ad: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$49 -> geogebra.gui.a.f: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$5 -> geogebra.gui.a.S: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$50 -> geogebra.gui.a.T: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$51 -> geogebra.gui.a.F: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$52 -> geogebra.gui.a.V: geogebra.main.Application val$app -> a void run() -> run geogebra.gui.menubar.MenubarImpl$53 -> geogebra.gui.a.c: javax.swing.JDialog val$dialog -> a geogebra.main.Application val$app -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$6 -> geogebra.gui.a.b: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$7 -> geogebra.gui.a.w: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$8 -> geogebra.gui.a.J: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$9 -> geogebra.gui.a.aa: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.MenubarImpl$LanguageActionListener -> geogebra.gui.a.s: geogebra.gui.menubar.MenubarImpl this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.menubar.RequestFocusListener -> geogebra.gui.a.ag: javax.swing.JFrame frame -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.toolbar.ModeCellRenderer -> geogebra.gui.c.d: geogebra.main.Application 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.c.b: javax.swing.JPopupMenu activePopMenu -> a void setActivePopupMenu(javax.swing.JPopupMenu) -> a javax.swing.JPopupMenu getActivePopupMenu() -> a geogebra.gui.toolbar.ModeToggleMenu -> geogebra.gui.c.h: geogebra.gui.toolbar.ModeToggleButtonGroup bg -> a geogebra.gui.toolbar.MyJToggleButton tbutton -> a javax.swing.JPopupMenu popMenu -> a java.util.ArrayList menuItemList -> a java.awt.event.ActionListener popupMenuItemListener -> a geogebra.main.Application app -> a int size -> 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 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.c.e: geogebra.gui.toolbar.ModeToggleMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.toolbar.MyJToggleButton -> geogebra.gui.c.f: int BORDER -> a int iconWidth -> b int iconHeight -> c java.awt.geom.GeneralPath gp -> a boolean showToolTipText -> a boolean popupTriangleHighlighting -> b geogebra.gui.toolbar.ModeToggleMenu menu -> a java.awt.Color arrowColor -> a java.awt.Color selColor -> b java.awt.BasicStroke selStroke -> 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 mouseExited(java.awt.event.MouseEvent) -> mouseExited void mousePressed(java.awt.event.MouseEvent) -> mousePressed void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased void doClick() -> doClick void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved geogebra.gui.toolbar.MyToolbar -> geogebra.gui.c.i: java.lang.Integer TOOLBAR_SEPARATOR -> a geogebra.main.Application app -> a java.util.ArrayList modeToggleMenus -> a boolean showToolBarHelp -> a javax.swing.JLabel modeNameLabel -> a javax.swing.JPanel toolbarHelpPanel -> a int selectedMode -> b int oldWidth -> a void initToolbar() -> a boolean setSelectedMode(int) -> a int getSelectedMode() -> a int getFirstMode() -> b void updateToolbarHelpText() -> b java.lang.String wrappedModeText(java.lang.String,java.lang.String,javax.swing.JPanel) -> a void addCustomModesToToolbar(javax.swing.JToolBar,geogebra.gui.toolbar.ModeToggleButtonGroup) -> a java.util.Vector createToolBarVec(java.lang.String) -> a java.lang.String getDefaultToolbarString() -> a void setShowToolBarHelp(boolean) -> 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 geogebra.gui.toolbar.ToolbarConfigDialog -> geogebra.gui.c.c: geogebra.main.Application app -> a geogebra.gui.toolbar.ToolbarConfigPanel confPanel -> a void apply() -> a javax.swing.JPanel createButtonPanel() -> a void access$0(geogebra.gui.toolbar.ToolbarConfigDialog) -> a geogebra.main.Application access$1(geogebra.gui.toolbar.ToolbarConfigDialog) -> a geogebra.gui.toolbar.ToolbarConfigDialog$1 -> geogebra.gui.c.j: 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.ToolbarConfigPanel -> geogebra.gui.c.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 geogebra.main.Application app -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed boolean containsTool(javax.swing.tree.DefaultMutableTreeNode,java.lang.Integer) -> a void setToolBarString(java.lang.String) -> a java.lang.String getToolBarString() -> a void collapseAllRows() -> a java.util.Vector generateToolsVector() -> a javax.swing.JTree generateTree() -> a javax.swing.tree.DefaultMutableTreeNode generateRootNode(java.util.Vector) -> a void treeCollapsed(javax.swing.event.TreeExpansionEvent) -> treeCollapsed void treeExpanded(javax.swing.event.TreeExpansionEvent) -> treeExpanded geogebra.gui.toolbar.ToolbarConfigPanel$1 -> geogebra.gui.c.g: geogebra.gui.toolbar.ToolbarConfigPanel this$0 -> a void setExpandedState(javax.swing.tree.TreePath,boolean) -> setExpandedState geogebra.gui.util.BrowserLauncher -> geogebra.gui.d.a: java.lang.Class class$0 -> a java.lang.Class class$1 -> b void openURL(java.lang.String) -> a geogebra.gui.util.FileTransferable -> geogebra.gui.d.d: java.awt.datatransfer.DataFlavor[] dataFlavors -> a java.util.List files -> a java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData geogebra.gui.util.GeoGebraFileChooser -> geogebra.gui.d.g: int currentMode -> a geogebra.gui.util.GeoGebraFileChooser$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$PreviewPanel -> geogebra.gui.d.e: geogebra.gui.util.GeoGebraFileChooser fileChooser -> b java.awt.image.BufferedImage img -> a geogebra.gui.util.GeoGebraFileChooser$PreviewPanel$ImagePanel imagePanel -> a java.awt.Label fileLabel -> a geogebra.gui.util.GeoGebraFileChooser this$0 -> a void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange void updateImage(java.io.File) -> a java.awt.image.BufferedImage access$0(geogebra.gui.util.GeoGebraFileChooser$PreviewPanel) -> a geogebra.gui.util.GeoGebraFileChooser$PreviewPanel$ImagePanel -> geogebra.gui.d.f: geogebra.gui.util.GeoGebraFileChooser$PreviewPanel this$1 -> a void paintComponent(java.awt.Graphics) -> paintComponent geogebra.gui.util.ImageSelection -> geogebra.gui.d.c: java.awt.Image image -> a java.awt.datatransfer.DataFlavor[] getTransferDataFlavors() -> getTransferDataFlavors boolean isDataFlavorSupported(java.awt.datatransfer.DataFlavor) -> isDataFlavorSupported java.lang.Object getTransferData(java.awt.datatransfer.DataFlavor) -> getTransferData geogebra.gui.util.SpringUtilities -> geogebra.gui.d.b: javax.swing.SpringLayout$Constraints getConstraintsForCell(int,int,java.awt.Container,int) -> a void makeCompactGrid(java.awt.Container,int,int,int,int,int,int) -> a geogebra.gui.util.foxtrot.AbstractSyncWorker -> geogebra.gui.d.a.c: geogebra.gui.util.foxtrot.EventPump eventPump -> a geogebra.gui.util.foxtrot.EventPump eventPump() -> a void eventPump(geogebra.gui.util.foxtrot.EventPump) -> a geogebra.gui.util.foxtrot.EventPump createDefaultEventPump() -> b java.lang.Object post(geogebra.gui.util.foxtrot.Task,geogebra.gui.util.foxtrot.WorkerThread,geogebra.gui.util.foxtrot.EventPump) -> a java.lang.Object post(geogebra.gui.util.foxtrot.Job,geogebra.gui.util.foxtrot.WorkerThread,geogebra.gui.util.foxtrot.EventPump) -> a geogebra.gui.util.foxtrot.AbstractWorker -> geogebra.gui.d.a.h: geogebra.gui.util.foxtrot.WorkerThread workerThread -> a geogebra.gui.util.foxtrot.WorkerThread workerThread() -> c void workerThread(geogebra.gui.util.foxtrot.WorkerThread) -> a geogebra.gui.util.foxtrot.WorkerThread createDefaultWorkerThread() -> b geogebra.gui.util.foxtrot.AbstractWorkerThread -> geogebra.gui.d.a.i: void runTask(geogebra.gui.util.foxtrot.Task) -> c geogebra.gui.util.foxtrot.AbstractWorkerThread$1 -> geogebra.gui.d.a.j: geogebra.gui.util.foxtrot.AbstractWorkerThread this$0 -> a geogebra.gui.util.foxtrot.Task val$task -> a java.lang.Object run() -> run geogebra.gui.util.foxtrot.EventPump -> geogebra.gui.d.a.f: void pumpEvents(geogebra.gui.util.foxtrot.Task) -> a geogebra.gui.util.foxtrot.JREVersion -> geogebra.gui.d.a.b: java.lang.Boolean jre141 -> a java.lang.Boolean jre140 -> b java.lang.Boolean jre13 -> c java.lang.Boolean jre12 -> d boolean isJRE141() -> a boolean isJRE140() -> b boolean isJRE13() -> c boolean isJRE12() -> d java.lang.Class loadClass(java.lang.String) -> a java.lang.Boolean hasGetFirst(java.lang.Class) -> a geogebra.gui.util.foxtrot.JREVersion$1 -> geogebra.gui.d.a.a: java.lang.Class val$cls -> a java.lang.Object run() -> run geogebra.gui.util.foxtrot.Job -> geogebra.gui.d.a.l: java.lang.Object run() -> a geogebra.gui.util.foxtrot.Task -> geogebra.gui.d.a.e: java.lang.Object result -> a java.lang.Throwable throwable -> a boolean completed -> a java.security.AccessControlContext securityContext -> a java.lang.Object run() -> a java.lang.Object getResultOrThrow() -> b java.lang.Object getResult() -> c void setResult(java.lang.Object) -> a java.lang.Throwable getThrowable() -> a void setThrowable(java.lang.Throwable) -> a boolean isCompleted() -> a void setCompleted(boolean) -> a java.security.AccessControlContext getSecurityContext() -> a void reset() -> a void postRun() -> b geogebra.gui.util.foxtrot.Task$1 -> geogebra.gui.d.a.k: geogebra.gui.util.foxtrot.Task this$0 -> a void run() -> run geogebra.gui.util.foxtrot.Worker -> geogebra.gui.d.a.d: geogebra.gui.util.foxtrot.Worker instance -> a geogebra.gui.util.foxtrot.WorkerThread getWorkerThread() -> a geogebra.gui.util.foxtrot.WorkerThread createDefaultWorkerThread() -> b geogebra.gui.util.foxtrot.EventPump getEventPump() -> c java.lang.Object post(geogebra.gui.util.foxtrot.Job) -> a geogebra.gui.util.foxtrot.WorkerThread -> geogebra.gui.d.a.g: boolean isWorkerThread() -> b void postTask(geogebra.gui.util.foxtrot.Task) -> a void runTask(geogebra.gui.util.foxtrot.Task) -> c geogebra.gui.util.foxtrot.pumps.ConditionalEventPump -> geogebra.gui.d.a.a.l: java.lang.Class conditionalClass -> c java.lang.reflect.Method pumpEventsMethod -> a geogebra.gui.util.foxtrot.pumps.EventFilter filter -> a java.lang.Class class$0 -> a java.lang.Class class$1 -> b void pumpEvents(geogebra.gui.util.foxtrot.Task) -> a void waitForTask(geogebra.gui.util.foxtrot.Task) -> b java.lang.Boolean pumpEvent(geogebra.gui.util.foxtrot.Task) -> a boolean canPumpEvent(java.awt.AWTEvent) -> a java.awt.EventQueue getEventQueue() -> a java.awt.AWTEvent getNextEvent() -> b java.awt.AWTEvent waitForEvent() -> a java.awt.AWTEvent peekEvent(java.awt.EventQueue) -> a void access$0(java.lang.Class) -> a java.lang.Class access$1() -> a void access$2(java.lang.reflect.Method) -> a java.lang.reflect.Method access$3() -> a java.lang.Boolean access$4(geogebra.gui.util.foxtrot.pumps.ConditionalEventPump,geogebra.gui.util.foxtrot.Task) -> a geogebra.gui.util.foxtrot.pumps.ConditionalEventPump$1 -> geogebra.gui.d.a.a.e: java.lang.Object run() -> run geogebra.gui.util.foxtrot.pumps.ConditionalEventPump$2 -> geogebra.gui.d.a.a.c: geogebra.gui.util.foxtrot.pumps.ConditionalEventPump this$0 -> a java.lang.Object run() -> run geogebra.gui.util.foxtrot.pumps.ConditionalEventPump$Conditional -> geogebra.gui.d.a.a.b: geogebra.gui.util.foxtrot.Task task -> a geogebra.gui.util.foxtrot.pumps.ConditionalEventPump this$0 -> a java.lang.Object invoke(java.lang.Object,java.lang.reflect.Method,java.lang.Object[]) -> invoke geogebra.gui.util.foxtrot.pumps.ConditionalEventPump$ThrowableHandler -> geogebra.gui.d.a.a.g: geogebra.gui.util.foxtrot.pumps.EventFilter -> geogebra.gui.d.a.a.m: boolean accept(java.awt.AWTEvent) -> a geogebra.gui.util.foxtrot.pumps.QueueEventPump -> geogebra.gui.d.a.a.k: geogebra.gui.util.foxtrot.pumps.EventFilter filter -> a java.lang.Class class$0 -> a void pumpEvents(geogebra.gui.util.foxtrot.Task) -> a void dispatchEvent(java.awt.EventQueue,java.awt.AWTEvent) -> a void handleThrowable(java.lang.Throwable) -> a java.awt.EventQueue getEventQueue() -> a geogebra.gui.util.foxtrot.pumps.QueueEventPump$1 -> geogebra.gui.d.a.a.a: geogebra.gui.util.foxtrot.pumps.QueueEventPump this$0 -> a java.lang.Object run() -> run geogebra.gui.util.foxtrot.pumps.QueueEventPump$2 -> geogebra.gui.d.a.a.d: geogebra.gui.util.foxtrot.pumps.QueueEventPump this$0 -> a java.lang.Object run() -> run geogebra.gui.util.foxtrot.pumps.SunJDK140ConditionalEventPump -> geogebra.gui.d.a.a.f: java.lang.Class sequencedEventClass -> c java.lang.reflect.Field listField -> a boolean canPumpEvent(java.awt.AWTEvent) -> a void access$0(java.lang.Class) -> a java.lang.Class access$1() -> a void access$2(java.lang.reflect.Field) -> a java.lang.reflect.Field access$3() -> a geogebra.gui.util.foxtrot.pumps.SunJDK140ConditionalEventPump$1 -> geogebra.gui.d.a.a.h: java.lang.Object run() -> run geogebra.gui.util.foxtrot.pumps.SunJDK141ConditionalEventPump -> geogebra.gui.d.a.a.n: java.lang.Class sequencedEventClass -> c java.lang.reflect.Method getFirstMethod -> a boolean canPumpEvent(java.awt.AWTEvent) -> a void access$0(java.lang.Class) -> a java.lang.Class access$1() -> a void access$2(java.lang.reflect.Method) -> a java.lang.reflect.Method access$3() -> a geogebra.gui.util.foxtrot.pumps.SunJDK141ConditionalEventPump$1 -> geogebra.gui.d.a.a.j: java.lang.Object run() -> run geogebra.gui.util.foxtrot.pumps.SunJDK14ConditionalEventPump -> geogebra.gui.d.a.a.i: java.awt.AWTEvent waitForEvent() -> a geogebra.gui.util.foxtrot.workers.SingleWorkerThread -> geogebra.gui.d.a.b.a: int sequence -> a java.lang.Thread thread -> a geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link current -> a boolean pending -> a void start() -> a java.lang.String getThreadName() -> a int nextSequence() -> a void stop() -> b boolean isAlive() -> a boolean isWorkerThread() -> b void postTask(geogebra.gui.util.foxtrot.Task) -> a geogebra.gui.util.foxtrot.Task takeTask() -> a boolean hasTasks() -> d boolean isThreadInterrupted() -> c void run() -> run void run(geogebra.gui.util.foxtrot.Task) -> b geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link -> geogebra.gui.d.a.b.b: geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link next -> a geogebra.gui.util.foxtrot.Task task -> a geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link access$0(geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link) -> a void access$2(geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link,geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link) -> a geogebra.gui.util.foxtrot.Task access$3(geogebra.gui.util.foxtrot.workers.SingleWorkerThread$Link) -> a geogebra.gui.view.algebra.AlgebraController -> geogebra.gui.b.c.d: geogebra.kernel.Kernel kernel -> a geogebra.main.Application app -> a geogebra.gui.view.algebra.AlgebraView view -> a void setView(geogebra.gui.view.algebra.AlgebraView) -> a geogebra.main.Application getApplication() -> a geogebra.kernel.Kernel getKernel() -> 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 void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved geogebra.gui.view.algebra.AlgebraView -> geogebra.gui.b.c.h: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a javax.swing.tree.DefaultTreeModel model -> a geogebra.gui.view.algebra.MyRenderer renderer -> a geogebra.gui.view.algebra.AlgebraView$MyDefaultTreeCellEditor editor -> a javax.swing.JTextField editTF -> a geogebra.util.FastHashMapKeyless nodeTable -> a javax.swing.tree.DefaultMutableTreeNode root -> a javax.swing.tree.DefaultMutableTreeNode depNode -> b javax.swing.tree.DefaultMutableTreeNode indNode -> c javax.swing.tree.DefaultMutableTreeNode auxiliaryNode -> d javax.swing.tree.TreePath tpInd -> a javax.swing.tree.TreePath tpDep -> b javax.swing.tree.TreePath tpAux -> c geogebra.kernel.GeoElement selectedGeoElement -> a javax.swing.tree.DefaultMutableTreeNode selectedNode -> e java.awt.BasicStroke crossStroke -> a int crossBorder -> a int crossOffset -> b boolean highlightCross -> a boolean attached -> b void attachView() -> a void detachView() -> b void updateFonts() -> c void initTreeCellRendererEditor() -> h void clearSelection() -> clearSelection boolean showAuxiliaryObjects() -> a void setShowAuxiliaryObjects(boolean) -> a void paint(java.awt.Graphics) -> paint void drawClosingCross(java.awt.Graphics2D) -> a boolean hitClosingCross(int,int) -> a void setClosingCrossHighlighted(boolean) -> b geogebra.kernel.GeoElement getGeoElementForLocation(javax.swing.JTree,int,int) -> a geogebra.kernel.GeoElement getGeoElementForPath(javax.swing.tree.TreePath) -> a void setToolTipText(java.lang.String) -> setToolTipText void startEditing(geogebra.kernel.GeoElement) -> f void setLabels() -> f void setNodeLabel(javax.swing.tree.DefaultMutableTreeNode,java.lang.String) -> a void add(geogebra.kernel.GeoElement) -> a int getInsertPosition(javax.swing.tree.DefaultMutableTreeNode,geogebra.kernel.GeoElement) -> a int binarySearchGeo(javax.swing.tree.DefaultMutableTreeNode,java.lang.String) -> a int linearSearchGeo(javax.swing.tree.DefaultMutableTreeNode,java.lang.String) -> b void remove(geogebra.kernel.GeoElement) -> b void clearView() -> d void repaintView() -> e void rename(geogebra.kernel.GeoElement) -> c void reset() -> g void removeFromModel(javax.swing.tree.DefaultMutableTreeNode) -> a void update(geogebra.kernel.GeoElement) -> d void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e javax.swing.tree.DefaultMutableTreeNode access$0(geogebra.gui.view.algebra.AlgebraView) -> a geogebra.kernel.GeoElement access$1(geogebra.gui.view.algebra.AlgebraView) -> a geogebra.kernel.Kernel access$2(geogebra.gui.view.algebra.AlgebraView) -> a void access$3(geogebra.gui.view.algebra.AlgebraView,geogebra.kernel.GeoElement) -> a javax.swing.tree.DefaultTreeModel access$4(geogebra.gui.view.algebra.AlgebraView) -> a void access$5(geogebra.gui.view.algebra.AlgebraView,javax.swing.tree.DefaultMutableTreeNode) -> a geogebra.gui.view.algebra.AlgebraView$MyDefaultTreeCellEditor -> geogebra.gui.b.c.e: geogebra.gui.view.algebra.AlgebraView 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 geogebra.gui.view.algebra.InputPanel -> geogebra.gui.b.c.a: java.lang.String[] displayChars -> c java.lang.String[] specialChars -> d java.lang.String[] greekLowerCase -> a java.lang.String[] greekUpperCase -> b javax.swing.text.JTextComponent textComponent -> a javax.swing.JComboBox cbSpecialChars -> a javax.swing.JComboBox cbGreekLetters -> b void showSpecialChars(boolean) -> a javax.swing.text.JTextComponent getTextComponent() -> a java.lang.String getText() -> a java.lang.String getSelectedText() -> b void selectText() -> a void setText(java.lang.String) -> a void insertString(java.lang.String) -> b javax.swing.JComboBox access$0(geogebra.gui.view.algebra.InputPanel) -> a javax.swing.JComboBox access$1(geogebra.gui.view.algebra.InputPanel) -> b geogebra.gui.view.algebra.InputPanel$ComboBoxListener -> geogebra.gui.b.c.b: geogebra.gui.view.algebra.InputPanel this$0 -> a void doActionPerformed(java.lang.Object) -> a geogebra.gui.view.algebra.MyCellEditor -> geogebra.gui.b.c.c: java.awt.Component getTreeCellEditorComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int) -> getTreeCellEditorComponent geogebra.gui.view.algebra.MyComboBoxListener -> geogebra.gui.b.c.g: void mousePressed(java.awt.event.MouseEvent) -> mousePressed void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void doActionPerformed(java.lang.Object) -> a geogebra.gui.view.algebra.MyRenderer -> geogebra.gui.b.c.f: geogebra.main.Application app -> a javax.swing.ImageIcon iconShown -> a javax.swing.ImageIcon iconHidden -> b java.awt.Component getTreeCellRendererComponent(javax.swing.JTree,java.lang.Object,boolean,boolean,boolean,int,boolean) -> getTreeCellRendererComponent geogebra.gui.view.consprotocol.ConstructionProtocol -> geogebra.gui.b.a.u: java.awt.Color COLOR_STEP_HIGHLIGHT -> a java.awt.Color COLOR_DRAG_HIGHLIGHT -> b java.awt.Color COLOR_DROP_HIGHLIGHT -> c javax.swing.JTable table -> a geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData data -> a geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a javax.swing.JMenuBar menuBar -> a javax.swing.JCheckBoxMenuItem cbUseColors -> a javax.swing.JCheckBoxMenuItem cbShowOnlyBreakpoints -> b javax.swing.table.TableColumn[] tableColumns -> a javax.swing.JDialog thisDialog -> a javax.swing.AbstractAction printPreviewAction -> a javax.swing.AbstractAction exportHtmlAction -> b boolean useColors -> b boolean dragging -> a int dragIndex -> a int dropIndex -> b int maxNumPage -> c boolean isViewAttached -> c java.util.ArrayList navigationBars -> a geogebra.gui.view.consprotocol.ConstructionProtocolNavigation protNavBar -> a geogebra.main.Application getApplication() -> a void registerNavigationBar(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation) -> a void unregisterNavigationBar(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation) -> b void updateNavigationBars() -> i int getLastStepNumber() -> a int getCurrentStepNumber() -> b void setConstructionStep(int) -> a void nextStep() -> a void previousStep() -> b void firstStep() -> c void lastStep() -> d void initGUI() -> e void updateMenubar() -> f void setUseColors(boolean) -> a void update() -> g void setMenuBar() -> j void initActions() -> k boolean isColumnInModel(javax.swing.table.TableColumn) -> a void setVisible(boolean) -> setVisible void scrollToConstructionStep() -> h int print(java.awt.Graphics,java.awt.print.PageFormat,int) -> print java.lang.String getHTML(java.io.File) -> a java.lang.String getConsProtocolXML() -> a geogebra.kernel.Kernel access$0(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a geogebra.main.Application access$1(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a javax.swing.JTable access$2(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData access$3(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a void access$4(geogebra.gui.view.consprotocol.ConstructionProtocol,int) -> a void access$5(geogebra.gui.view.consprotocol.ConstructionProtocol,int) -> b int access$6(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a int access$7(geogebra.gui.view.consprotocol.ConstructionProtocol) -> b javax.swing.JCheckBoxMenuItem access$8(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a javax.swing.JDialog access$9(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a boolean access$10(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a java.awt.Color access$11() -> a java.awt.Color access$12() -> b java.awt.Color access$13() -> c boolean access$14(geogebra.gui.view.consprotocol.ConstructionProtocol) -> b void access$15(geogebra.gui.view.consprotocol.ConstructionProtocol,boolean) -> a java.util.ArrayList access$16(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a void access$17(geogebra.gui.view.consprotocol.ConstructionProtocol) -> a javax.swing.JCheckBoxMenuItem access$18(geogebra.gui.view.consprotocol.ConstructionProtocol) -> b void access$19(geogebra.gui.view.consprotocol.ConstructionProtocol,boolean) -> b geogebra.gui.view.consprotocol.ConstructionProtocol$1 -> geogebra.gui.b.a.q: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol$2 -> geogebra.gui.b.a.c: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol$3 -> geogebra.gui.b.a.h: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol$4 -> geogebra.gui.b.a.m: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol$5 -> geogebra.gui.b.a.t: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol access$0(geogebra.gui.view.consprotocol.ConstructionProtocol$5) -> a geogebra.gui.view.consprotocol.ConstructionProtocol$6 -> geogebra.gui.b.a.e: geogebra.gui.view.consprotocol.ConstructionProtocol$5 this$1 -> a void run() -> run geogebra.gui.view.consprotocol.ConstructionProtocol$7 -> geogebra.gui.b.a.k: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol access$0(geogebra.gui.view.consprotocol.ConstructionProtocol$7) -> a geogebra.gui.view.consprotocol.ConstructionProtocol$8 -> geogebra.gui.b.a.l: geogebra.gui.view.consprotocol.ConstructionProtocol$7 this$1 -> a void run() -> run geogebra.gui.view.consprotocol.ConstructionProtocol$ColumnData -> geogebra.gui.b.a.j: java.lang.String title -> a boolean isVisible -> a int prefWidth -> a int minWidth -> b int alignment -> c boolean initShow -> b geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a java.lang.String getTitle() -> a int getPreferredWidth() -> a int getMinWidth() -> b int getAlignment() -> c boolean getInitShow() -> a geogebra.gui.view.consprotocol.ConstructionProtocol$ColumnKeeper -> geogebra.gui.b.a.i: javax.swing.table.TableColumn column -> a geogebra.gui.view.consprotocol.ConstructionProtocol$ColumnData colData -> a boolean isBreakPointColumn -> a geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionKeyListener -> geogebra.gui.b.a.s: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void keyPressed(java.awt.event.KeyEvent) -> keyPressed geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionMouseListener -> geogebra.gui.b.a.b: int minIndex -> a int maxIndex -> b geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked void mousePressed(java.awt.event.MouseEvent) -> mousePressed void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered void mouseExited(java.awt.event.MouseEvent) -> mouseExited geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableCellRenderer -> geogebra.gui.b.a.p: javax.swing.JCheckBox cbTemp -> a geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData -> geogebra.gui.b.a.f: geogebra.gui.view.consprotocol.ConstructionProtocol$ColumnData[] columns -> a java.util.ArrayList rowList -> a geogebra.util.FastHashMapKeyless geoMap -> a int columnsCount -> a geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a int getLastStepNumber() -> a int getCurrentStepNumber() -> b void setConstructionStepForRow(int) -> a boolean moveInConstructionList(int,int) -> a geogebra.kernel.GeoElement getGeoElement(int) -> a int getConstructionIndex(int) -> a geogebra.gui.view.consprotocol.ConstructionProtocol$RowData getRow(int) -> a void initView() -> a void attachView() -> b void detachView() -> c int getRowCount() -> getRowCount int getColumnCount() -> getColumnCount java.lang.String getColumnName(int) -> getColumnName int getColumnNumber(geogebra.gui.view.consprotocol.ConstructionProtocol$ColumnData) -> a boolean isCellEditable(int,int) -> isCellEditable java.awt.Color getColorAt(int,int) -> a java.lang.Object getValueAt(int,int) -> getValueAt java.lang.String getPlainTextAt(int,int) -> a java.lang.String getPlainHTMLAt(int,int) -> b void add(geogebra.kernel.GeoElement) -> a void remove(geogebra.kernel.GeoElement) -> b void clearView() -> d void repaintView() -> e void updateRowNumbers(int) -> b void updateIndices() -> h void rename(geogebra.kernel.GeoElement) -> c void repaint() -> f void updateAll() -> i void update(geogebra.kernel.GeoElement) -> d void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e void reset() -> g int access$0(geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData) -> a void access$1(geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData,int) -> a void access$2(geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData) -> a java.awt.Color access$3(geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData,int,int) -> a geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData$ColumnMovementListener -> geogebra.gui.b.a.o: geogebra.gui.view.consprotocol.ConstructionProtocol$ConstructionTableData this$1 -> a void columnAdded(javax.swing.event.TableColumnModelEvent) -> columnAdded void columnRemoved(javax.swing.event.TableColumnModelEvent) -> columnRemoved void columnMarginChanged(javax.swing.event.ChangeEvent) -> columnMarginChanged void columnMoved(javax.swing.event.TableColumnModelEvent) -> columnMoved void columnSelectionChanged(javax.swing.event.ListSelectionEvent) -> columnSelectionChanged geogebra.gui.view.consprotocol.ConstructionProtocol$HeaderRenderer -> geogebra.gui.b.a.n: geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent geogebra.gui.view.consprotocol.ConstructionProtocol$RowData -> geogebra.gui.b.a.v: int rowNumber -> a int index -> b geogebra.kernel.GeoElement geo -> a java.lang.String name -> a java.lang.String algebra -> b java.lang.String definition -> c java.lang.String command -> d boolean includesIndex -> a java.lang.Boolean consProtocolVisible -> a geogebra.gui.view.consprotocol.ConstructionProtocol this$0 -> a void updateAlgebraAndName() -> a void updateAll() -> b geogebra.gui.view.consprotocol.ConstructionProtocolNavigation -> geogebra.gui.b.a.d: javax.swing.JButton btFirst -> a javax.swing.JButton btPrev -> b javax.swing.JButton btPlay -> c javax.swing.JButton btNext -> d javax.swing.JButton btLast -> e javax.swing.JButton btOpenWindow -> f javax.swing.JLabel lbSteps -> a javax.swing.JSpinner spDelay -> a double playDelay -> a javax.swing.JPanel playPanel -> a geogebra.main.Application app -> a geogebra.gui.view.consprotocol.ConstructionProtocol prot -> a boolean showPlayButton -> a boolean showConsProtButton -> b geogebra.gui.view.consprotocol.ConstructionProtocolNavigation$AutomaticPlayer player -> a boolean isPlaying -> c boolean isPlayButtonVisible() -> a void setPlayButtonVisible(boolean) -> a boolean isConsProtButtonVisible() -> b void setConsProtButtonVisible(boolean) -> b double getPlayDelay() -> a void setPlayDelay(double) -> a void initGUI() -> a void setLabels() -> b void update() -> c void register() -> d void unregister() -> e void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed void setComponentsEnabled(boolean) -> c geogebra.main.Application access$0(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation) -> a javax.swing.JButton access$1(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation) -> a void access$2(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation,boolean) -> a void access$3(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation,boolean) -> b geogebra.gui.view.consprotocol.ConstructionProtocol access$4(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation) -> a javax.swing.JSpinner access$5(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation) -> a void access$6(geogebra.gui.view.consprotocol.ConstructionProtocolNavigation,double) -> a geogebra.gui.view.consprotocol.ConstructionProtocolNavigation$1 -> geogebra.gui.b.a.r: geogebra.gui.view.consprotocol.ConstructionProtocolNavigation this$0 -> a void stateChanged(javax.swing.event.ChangeEvent) -> stateChanged geogebra.gui.view.consprotocol.ConstructionProtocolNavigation$2 -> geogebra.gui.b.a.a: geogebra.gui.view.consprotocol.ConstructionProtocolNavigation this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.consprotocol.ConstructionProtocolNavigation$AutomaticPlayer -> geogebra.gui.b.a.g: javax.swing.Timer timer -> a geogebra.gui.view.consprotocol.ConstructionProtocolNavigation this$0 -> a void startAnimation() -> a void stopAnimation() -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu -> geogebra.gui.b.b.c: java.awt.Color bgColor -> a geogebra.gui.view.spreadsheet.MyTable table -> a int row1 -> a int row2 -> b int column1 -> c int column2 -> d boolean[] selectedColumns -> a geogebra.main.Application app -> a void initMenu() -> a java.lang.String removeComma(java.lang.String) -> b java.lang.String access$0(java.lang.String) -> a geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerClear -> geogebra.gui.b.b.B: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerCopy -> geogebra.gui.b.b.K: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerCreateList -> geogebra.gui.b.b.u: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerCreateMatrix -> geogebra.gui.b.b.d: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerCreatePoints -> geogebra.gui.b.b.E: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerCut -> geogebra.gui.b.b.k: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerPaste -> geogebra.gui.b.b.p: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenu$ActionListenerProperties -> geogebra.gui.b.b.C: geogebra.gui.view.spreadsheet.ContextMenu this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenuCol -> geogebra.gui.b.b.M: void initMenu() -> a geogebra.gui.view.spreadsheet.ContextMenuCol$ActionListenerClearColumns -> geogebra.gui.b.b.D: geogebra.gui.view.spreadsheet.ContextMenuCol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenuCol$InsertLeft -> geogebra.gui.b.b.I: geogebra.gui.view.spreadsheet.ContextMenuCol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenuCol$InsertRight -> geogebra.gui.b.b.q: geogebra.gui.view.spreadsheet.ContextMenuCol this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenuRow -> geogebra.gui.b.b.G: void initMenu() -> a geogebra.gui.view.spreadsheet.ContextMenuRow$ActionListenerClearRows -> geogebra.gui.b.b.m: geogebra.gui.view.spreadsheet.ContextMenuRow this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenuRow$InsertAbove -> geogebra.gui.b.b.O: geogebra.gui.view.spreadsheet.ContextMenuRow this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.ContextMenuRow$InsertBelow -> geogebra.gui.b.b.g: geogebra.gui.view.spreadsheet.ContextMenuRow this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.gui.view.spreadsheet.CopyPasteCut -> geogebra.gui.b.b.z: geogebra.kernel.Kernel kernel -> a geogebra.main.Application app -> a geogebra.gui.view.spreadsheet.MyTable table -> a java.lang.String externalBuf -> a geogebra.kernel.GeoElement[][] internalBuf -> a int bufColumn -> a int bufRow -> b java.lang.Object[] constructionIndexes -> a java.util.regex.Pattern pattern1 -> a java.util.regex.Pattern pattern2 -> b java.util.Comparator comparator -> a void copy(int,int,int,int,boolean) -> a boolean cut(int,int,int,int) -> a boolean paste(int,int,int,int) -> b boolean pasteInternal(int,int,int,int) -> c java.lang.String[][] parseData(java.lang.String) -> a java.lang.String checkDecimalComma(java.lang.String) -> a boolean pasteExternalMultiple(java.lang.String,int,int,int,int) -> a boolean pasteExternal(java.lang.String[][],int,int,int,int) -> a boolean delete(int,int,int,int) -> d java.util.Comparator getComparator() -> a geogebra.gui.view.spreadsheet.CopyPasteCut$1 -> geogebra.gui.b.b.Q: boolean foundTable -> a boolean firstInRow -> b boolean firstColumn -> c boolean finished -> d geogebra.gui.view.spreadsheet.CopyPasteCut this$0 -> a java.lang.StringBuffer val$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.CopyPasteCut$2 -> geogebra.gui.b.b.N: int compare(java.lang.Object,java.lang.Object) -> compare geogebra.gui.view.spreadsheet.CopyPasteCut$Record -> geogebra.gui.b.b.P: int id -> a int x1 -> b int y1 -> c int x2 -> d int y2 -> e geogebra.gui.view.spreadsheet.CopyPasteCut this$0 -> a int getx1() -> a int getx2() -> b int gety1() -> c int gety2() -> d geogebra.gui.view.spreadsheet.MyCellEditor -> geogebra.gui.b.b.v: geogebra.kernel.Kernel kernel -> a geogebra.main.Application app -> a geogebra.kernel.GeoElement value -> a geogebra.gui.view.spreadsheet.MyTable table -> a int column -> a int row -> b boolean editing -> a boolean errorOnStopEditing -> c geogebra.gui.inputbar.AutoCompleteTextField textField -> a boolean escape -> b java.awt.Component getTableCellEditorComponent(javax.swing.JTable,java.lang.Object,boolean,int,int) -> getTableCellEditorComponent java.lang.String getEditorInitString(geogebra.kernel.GeoElement) -> a boolean isEditing() -> a int getCaretPosition() -> a void addLabel(java.lang.String) -> a void setLabel(java.lang.String) -> b java.lang.String getEditingValue() -> a java.lang.Object getCellEditorValue() -> getCellEditorValue void cancelCellEditing() -> cancelCellEditing boolean stopCellEditing() -> stopCellEditing boolean stopCellEditing(int,int) -> a void moveSelectedCell(int,int) -> a geogebra.kernel.GeoElement prepareNewValue(geogebra.kernel.Kernel,java.lang.String,java.lang.String) -> a geogebra.kernel.GeoElement updateOldValue(geogebra.kernel.Kernel,geogebra.kernel.GeoElement,java.lang.String,java.lang.String) -> a geogebra.kernel.GeoElement prepareAddingValueToTableNoStoringUndoInfo(geogebra.kernel.Kernel,geogebra.gui.view.spreadsheet.MyTable,java.lang.String,geogebra.kernel.GeoElement,int,int) -> a void focusGained(java.awt.event.FocusEvent) -> focusGained void focusLost(java.awt.event.FocusEvent) -> focusLost javax.swing.DefaultCellEditor$EditorDelegate access$0(geogebra.gui.view.spreadsheet.MyCellEditor) -> a geogebra.gui.inputbar.AutoCompleteTextField access$1(geogebra.gui.view.spreadsheet.MyCellEditor) -> a geogebra.gui.view.spreadsheet.MyCellEditor$KeyListener4 -> geogebra.gui.b.b.w: geogebra.gui.view.spreadsheet.MyCellEditor this$0 -> a void keyTyped(java.awt.event.KeyEvent) -> keyTyped void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyReleased(java.awt.event.KeyEvent) -> keyReleased void checkCursorKeys(java.awt.event.KeyEvent) -> a geogebra.gui.view.spreadsheet.MyCellRenderer -> geogebra.gui.b.b.R: geogebra.main.Application app -> a java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent geogebra.gui.view.spreadsheet.MyTable -> geogebra.gui.b.b.H: java.awt.Color SELECTED_BACKGROUND_COLOR -> a java.awt.Color SELECTED_BACKGROUND_COLOR_HEADER -> b java.awt.Color BACKGROUND_COLOR_HEADER -> c java.awt.Color TABLE_GRID_COLOR -> d geogebra.kernel.Kernel kernel -> a geogebra.main.Application app -> a geogebra.gui.view.spreadsheet.MyCellEditor editor -> a geogebra.gui.view.spreadsheet.RelativeCopy relativeCopy -> a geogebra.gui.view.spreadsheet.CopyPasteCut copyPasteCut -> a geogebra.gui.view.spreadsheet.MyTable$MyColumnHeaderRenderer columnHeader -> a geogebra.gui.view.spreadsheet.SpreadsheetView view -> a javax.swing.table.DefaultTableModel tableModel -> a int Column -> a int minSelectionRow -> b int maxSelectionRow -> c int minSelectionColumn -> d int maxSelectionColumn -> e boolean isDragingDot -> a int dragingToRow -> f int dragingToColumn -> g boolean[] selectedColumns -> a boolean selectionChangedNonResponsive -> b long selectionTime -> a java.lang.String name0 -> a java.lang.String prefix0 -> b java.lang.String postfix0 -> c boolean isDragging2 -> c int minColumn2 -> h int maxColumn2 -> i int minRow2 -> j int maxRow2 -> k int column0 -> l boolean isResizing -> d boolean allowEditing -> e java.lang.Class class$0 -> a geogebra.gui.view.spreadsheet.SpreadsheetView getView() -> a void setMyColumnCount(int) -> a void selectionChanged() -> a java.awt.Point getPixel(int,int,boolean) -> a java.awt.Point getMinSelectionPixel() -> a java.awt.Point getMaxSelectionPixel() -> b java.awt.Point getIndexFromPixel(int,int) -> a void paint(java.awt.Graphics) -> paint boolean editCellAt(int,int) -> editCellAt int convertColumnIndexToModel(int) -> convertColumnIndexToModel boolean isCellEditable(int,int) -> isCellEditable void access$0(geogebra.gui.view.spreadsheet.MyTable,boolean) -> a geogebra.gui.view.spreadsheet.MyTable$1 -> geogebra.gui.b.b.o: geogebra.gui.view.spreadsheet.MyTable$KeyListener1 this$1 -> a javax.swing.text.JTextComponent val$f -> a void run() -> run geogebra.gui.view.spreadsheet.MyTable$ColumnSelectionListener -> geogebra.gui.b.b.J: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged geogebra.gui.view.spreadsheet.MyTable$KeyListener1 -> geogebra.gui.b.b.a: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void keyTyped(java.awt.event.KeyEvent) -> keyTyped void keyPressed(java.awt.event.KeyEvent) -> keyPressed void letterOrDigitTyped() -> a void keyReleased(java.awt.event.KeyEvent) -> keyReleased geogebra.gui.view.spreadsheet.MyTable$KeyListener2 -> geogebra.gui.b.b.n: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void keyTyped(java.awt.event.KeyEvent) -> keyTyped void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyReleased(java.awt.event.KeyEvent) -> keyReleased geogebra.gui.view.spreadsheet.MyTable$MouseListener1 -> geogebra.gui.b.b.r: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered void mouseExited(java.awt.event.MouseEvent) -> mouseExited void mousePressed(java.awt.event.MouseEvent) -> mousePressed void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased geogebra.gui.view.spreadsheet.MyTable$MouseListener2 -> geogebra.gui.b.b.b: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered void mouseExited(java.awt.event.MouseEvent) -> mouseExited void mousePressed(java.awt.event.MouseEvent) -> mousePressed void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased geogebra.gui.view.spreadsheet.MyTable$MouseMotionListener1 -> geogebra.gui.b.b.i: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved geogebra.gui.view.spreadsheet.MyTable$MouseMotionListener2 -> geogebra.gui.b.b.y: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved geogebra.gui.view.spreadsheet.MyTable$MyColumnHeaderRenderer -> geogebra.gui.b.b.j: java.awt.Color defaultBackground -> a geogebra.gui.view.spreadsheet.MyTable this$0 -> a java.awt.Component getTableCellRendererComponent(javax.swing.JTable,java.lang.Object,boolean,boolean,int,int) -> getTableCellRendererComponent void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged geogebra.gui.view.spreadsheet.MyTable$RowSelectionListener -> geogebra.gui.b.b.e: geogebra.gui.view.spreadsheet.MyTable this$0 -> a void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged geogebra.gui.view.spreadsheet.RelativeCopy -> geogebra.gui.b.b.L: geogebra.kernel.Kernel kernel -> a geogebra.gui.view.spreadsheet.MyTable table -> a java.util.regex.Pattern pattern2 -> a boolean doCopy(int,int,int,int,int,int,int,int) -> a void doCopyVerticalNoStoringUndoInfo1(int,int,int,int,int) -> a void doCopyHorizontalNoStoringUndoInfo1(int,int,int,int,int) -> b geogebra.kernel.GeoElement doCopyNoStoringUndoInfo0(geogebra.kernel.Kernel,geogebra.gui.view.spreadsheet.MyTable,geogebra.kernel.GeoElement,geogebra.kernel.GeoElement,int,int) -> a java.lang.String updateCellReferences(geogebra.kernel.GeoElement,java.lang.String,int,int) -> a void doCopyNoStoringUndoInfo1(geogebra.kernel.Kernel,geogebra.gui.view.spreadsheet.MyTable,java.lang.String,geogebra.kernel.GeoElement,int,int) -> a java.lang.String replaceAll(java.util.regex.Pattern,java.lang.String,java.lang.String,java.lang.String) -> a geogebra.kernel.GeoElement[] getDependentObjects(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement[][] getValues(geogebra.gui.view.spreadsheet.MyTable,int,int,int,int) -> a geogebra.kernel.GeoElement getValue(geogebra.gui.view.spreadsheet.MyTable,int,int) -> a geogebra.gui.view.spreadsheet.SpreadsheetView -> geogebra.gui.b.b.s: geogebra.gui.view.spreadsheet.MyTable table -> a javax.swing.table.DefaultTableModel tableModel -> a javax.swing.JList rowHeader -> a geogebra.gui.view.spreadsheet.SpreadsheetView$RowHeaderRenderer rowHeaderRenderer -> a geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a int MAX_COLUMNS -> a int MAX_ROWS -> b int highestUsedColumn -> f short[] traceRow -> a int DEFAULT_COLUMN_WIDTH -> g boolean collectingTraces -> b java.util.HashMap traces -> a double[] coords -> a boolean scrollToShow -> a java.util.HashSet selectedElems -> a int minSelectionRow -> c int maxSelectionRow -> d int row0 -> e void attachView() -> a void detachView() -> b geogebra.main.Application getApplication() -> a int getHighestUsedColumn() -> a void resetTraceRow(int) -> a int getTraceRow(int) -> a void startCollectingSpreadsheetTraces() -> h void stopCollectingSpreadsheetTraces() -> i void traceToSpreadsheet(geogebra.kernel.GeoElement) -> f void add(geogebra.kernel.GeoElement) -> a void setScrollToShow(boolean) -> a void remove(geogebra.kernel.GeoElement) -> b void doRemove(geogebra.kernel.GeoElement,int,int) -> a void checkColumnEmpty(int) -> b void rename(geogebra.kernel.GeoElement) -> c void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e void repaintView() -> e void clearView() -> d void reset() -> g void update(geogebra.kernel.GeoElement) -> d java.lang.String getXML() -> a void setColumnWidth(int,int) -> a void updateFonts() -> c void updateColumnWidths() -> f geogebra.gui.view.spreadsheet.SpreadsheetView$1 -> geogebra.gui.b.b.f: geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked geogebra.gui.view.spreadsheet.SpreadsheetView$Corner -> geogebra.gui.b.b.l: geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a void paintComponent(java.awt.Graphics) -> paintComponent geogebra.gui.view.spreadsheet.SpreadsheetView$KeyListener1 -> geogebra.gui.b.b.h: geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a void keyTyped(java.awt.event.KeyEvent) -> keyTyped void keyPressed(java.awt.event.KeyEvent) -> keyPressed void keyReleased(java.awt.event.KeyEvent) -> keyReleased geogebra.gui.view.spreadsheet.SpreadsheetView$MouseListener1 -> geogebra.gui.b.b.F: geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked void mouseEntered(java.awt.event.MouseEvent) -> mouseEntered void mouseExited(java.awt.event.MouseEvent) -> mouseExited void mousePressed(java.awt.event.MouseEvent) -> mousePressed void mouseReleased(java.awt.event.MouseEvent) -> mouseReleased geogebra.gui.view.spreadsheet.SpreadsheetView$MouseMotionListener1 -> geogebra.gui.b.b.x: geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a void mouseDragged(java.awt.event.MouseEvent) -> mouseDragged void mouseMoved(java.awt.event.MouseEvent) -> mouseMoved geogebra.gui.view.spreadsheet.SpreadsheetView$MyListModel -> geogebra.gui.b.b.t: javax.swing.table.DefaultTableModel model -> a int getSize() -> getSize java.lang.Object getElementAt(int) -> getElementAt geogebra.gui.view.spreadsheet.SpreadsheetView$RowHeaderRenderer -> geogebra.gui.b.b.A: javax.swing.table.JTableHeader header -> a javax.swing.JList rowHeader -> a javax.swing.ListSelectionModel selectionModel -> a java.awt.Color defaultBackground -> a geogebra.gui.view.spreadsheet.SpreadsheetView this$0 -> a java.awt.Component getListCellRendererComponent(javax.swing.JList,java.lang.Object,int,boolean,boolean) -> getListCellRendererComponent void valueChanged(javax.swing.event.ListSelectionEvent) -> valueChanged geogebra.io.DocHandler -> geogebra.f.e: void startElement(java.lang.String,java.util.LinkedHashMap) -> a void endElement(java.lang.String) -> b void startDocument() -> a void endDocument() -> b void text(java.lang.String) -> a int getConsStep() -> a geogebra.io.MyI2GHandler -> geogebra.f.g: int mode -> a int subMode -> b geogebra.kernel.GeoElement geo -> a geogebra.kernel.arithmetic.Command cmd -> a java.lang.String cmdName -> a geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.Kernel origKernel -> b geogebra.kernel.Construction cons -> a geogebra.kernel.Construction origCons -> b geogebra.kernel.parser.Parser parser -> a geogebra.kernel.parser.Parser origParser -> b int coord -> c geogebra.kernel.complex.Complex[] coords -> a java.lang.String label -> b java.lang.String lastType -> c void reset() -> c void initKernelVars() -> d int getConsStep() -> a void startDocument() -> a void startElement(java.lang.String,java.util.LinkedHashMap) -> a void text(java.lang.String) -> a void endElement(java.lang.String) -> b void endDocument() -> b void startConstruction(java.lang.String,java.util.LinkedHashMap) -> b void endConstruction(java.lang.String) -> c void startElements(java.lang.String,java.util.LinkedHashMap) -> c void textElements(java.lang.String) -> d void endElements(java.lang.String) -> e void startConstraints(java.lang.String,java.util.LinkedHashMap) -> d void textConstraints(java.lang.String) -> f void endConstraints(java.lang.String) -> g void handleConstraintsStart(java.lang.String,java.util.LinkedHashMap,java.lang.String,int,java.lang.String[],int[]) -> a boolean handleConstraintsCheck(java.lang.String,int) -> a void handleConstraintsEnd(java.lang.String,int,int) -> a void handleConstraintsEnd(java.lang.String,int,int,boolean) -> a void handleConstraintsOutput(java.lang.String) -> h void handleConstraintsInput(java.lang.String) -> i boolean handleConstraintsOutputInput(java.lang.String,int) -> b void startDisplay(java.lang.String,java.util.LinkedHashMap) -> e void textDisplay(java.lang.String) -> j void endDisplay(java.lang.String) -> k void debug(java.lang.String,java.lang.String) -> a geogebra.io.MyImageIO -> geogebra.f.a: void write(java.awt.image.BufferedImage,java.lang.String,float,java.io.File) -> a geogebra.io.MyXMLHandler -> geogebra.f.b: double FORMAT -> b int mode -> a int constMode -> b int casSessionMode -> c java.lang.Object casTableCellValueElement -> a geogebra.kernel.GeoElement geo -> a geogebra.kernel.arithmetic.Command cmd -> a geogebra.kernel.Macro macro -> a java.lang.String[] macroInputLabels -> a java.lang.String[] macroOutputLabels -> b geogebra.kernel.GeoElement[] cmdOutput -> a geogebra.main.Application app -> a boolean startAnimation -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.Kernel origKernel -> b geogebra.kernel.Construction cons -> a geogebra.kernel.Construction origCons -> b geogebra.kernel.parser.Parser parser -> a geogebra.kernel.parser.Parser origParser -> b java.util.LinkedList startPointList -> a java.util.LinkedList cellPairList -> b java.util.LinkedList showObjectConditionList -> c java.util.LinkedList dynamicColorList -> d java.util.LinkedList animationSpeedList -> e int consStep -> d double ggbFileFormat -> a void reset(boolean) -> a void initKernelVars() -> d int getConsStep() -> a void text(java.lang.String) -> a void startDocument() -> a void endDocument() -> b void startElement(java.lang.String,java.util.LinkedHashMap) -> a void endElement(java.lang.String) -> b void endCASSessionElement(java.lang.String) -> c void processCellPairList() -> e void startGeoGebraElement(java.lang.String,java.util.LinkedHashMap) -> b void startMacroElement(java.lang.String,java.util.LinkedHashMap) -> c void startEuclidianViewElement(java.lang.String,java.util.LinkedHashMap) -> d void startSpreadsheetViewElement(java.lang.String,java.util.LinkedHashMap) -> e void startCASViewElement(java.lang.String,java.util.LinkedHashMap) -> f boolean handleCoordSystem(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> a boolean handleEvSettings(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> b boolean handleEvSize(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> c boolean handleSpreadsheetSize(java.lang.Object,java.util.LinkedHashMap) -> a boolean handleSpreadsheetColumn(java.lang.Object,java.util.LinkedHashMap) -> b boolean handleCASSize(geogebra.main.CasManager,java.util.LinkedHashMap) -> a boolean handleBgColor(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> d boolean handleAxesColor(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> e boolean handleGridColor(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> f boolean handleLineStyle(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> g boolean handleGrid(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> h boolean handleAxis(geogebra.euclidian.EuclidianView,java.util.LinkedHashMap) -> i void startKernelElement(java.lang.String,java.util.LinkedHashMap) -> g boolean handleAngleUnit(java.util.LinkedHashMap) -> a boolean handleKernelCoordStyle(java.util.LinkedHashMap) -> b boolean handleKernelDecimals(java.util.LinkedHashMap) -> c boolean handleKernelStartAnimation(java.util.LinkedHashMap) -> d boolean handleKernelFigures(java.util.LinkedHashMap) -> e boolean handleKernelContinuous(java.util.LinkedHashMap) -> f void startGUIElement(java.lang.String,java.util.LinkedHashMap) -> h boolean handleConsProtColumns(geogebra.main.Application,java.util.LinkedHashMap) -> a boolean handleConsProtocol(geogebra.main.Application,java.util.LinkedHashMap) -> b boolean handleConsProtNavigationBar(geogebra.main.Application,java.util.LinkedHashMap) -> c boolean handleGUIShow(geogebra.main.Application,java.util.LinkedHashMap) -> d boolean handleFont(geogebra.main.Application,java.util.LinkedHashMap) -> e boolean handleLabelingStyle(geogebra.main.Application,java.util.LinkedHashMap) -> f boolean handleSplitDivider(geogebra.main.Application,java.util.LinkedHashMap) -> g boolean handleToolbar(geogebra.main.Application,java.util.LinkedHashMap) -> h void handleConstruction(java.util.LinkedHashMap) -> a void initMacro(java.util.LinkedHashMap) -> b void endMacro() -> f void handleWorksheetText(java.util.LinkedHashMap) -> c void startCASSessionElement(java.lang.String,java.util.LinkedHashMap) -> i void startCellOutputElement(java.lang.String,java.util.LinkedHashMap) -> j void startCellInputElement(java.lang.String,java.util.LinkedHashMap) -> k void startConstructionElement(java.lang.String,java.util.LinkedHashMap) -> l void endConstructionElement(java.lang.String) -> d geogebra.kernel.GeoElement getGeoElement(java.util.LinkedHashMap) -> a void startGeoElement(java.lang.String,java.util.LinkedHashMap) -> m boolean handleShow(java.util.LinkedHashMap) -> g boolean handleObjColor(java.util.LinkedHashMap) -> h java.awt.Color handleColorAttrs(java.util.LinkedHashMap) -> a boolean handleLineStyle(java.util.LinkedHashMap) -> i boolean handleDecoration(java.util.LinkedHashMap) -> j boolean handleEqnStyle(java.util.LinkedHashMap) -> k boolean handleCoords(java.util.LinkedHashMap) -> l boolean handleCoordStyle(java.util.LinkedHashMap) -> m boolean handleCaption(java.util.LinkedHashMap) -> n boolean handleCondition(java.util.LinkedHashMap) -> o boolean handleCheckbox(java.util.LinkedHashMap) -> p boolean handleValue(java.util.LinkedHashMap) -> q boolean handlePointSize(java.util.LinkedHashMap) -> r boolean handlePointStyle(java.util.LinkedHashMap) -> s boolean handleLayer(java.util.LinkedHashMap) -> t boolean handleInputExpression(java.util.LinkedHashMap) -> u boolean handleOutExpression(java.util.LinkedHashMap) -> v boolean handleCASPairColor(java.util.LinkedHashMap) -> w boolean handleSlider(java.util.LinkedHashMap) -> x boolean handleTrace(java.util.LinkedHashMap) -> y boolean handleSpreadsheetTrace(java.util.LinkedHashMap) -> z boolean handleAnimation(java.util.LinkedHashMap) -> A boolean handleFixed(java.util.LinkedHashMap) -> B boolean handleBreakpoint(java.util.LinkedHashMap) -> C boolean handleFile(java.util.LinkedHashMap) -> D boolean handleTextFont(java.util.LinkedHashMap) -> E boolean handleTextDecimals(java.util.LinkedHashMap) -> F boolean handleTextFigures(java.util.LinkedHashMap) -> G boolean handleInBackground(java.util.LinkedHashMap) -> H boolean handleAuxiliary(java.util.LinkedHashMap) -> I boolean handleIsLaTeX(java.util.LinkedHashMap) -> J boolean handleArcSize(java.util.LinkedHashMap) -> K boolean handleAbsoluteScreenLocation(java.util.LinkedHashMap) -> L boolean handleAllowReflexAngle(java.util.LinkedHashMap) -> M boolean handleEmphasizeRightAngle(java.util.LinkedHashMap) -> Y boolean handleForceReflexAngle(java.util.LinkedHashMap) -> N boolean handleOutlyingIntersections(java.util.LinkedHashMap) -> O boolean handleKeepTypeOnTransform(java.util.LinkedHashMap) -> P boolean handleSlopeTriangleSize(java.util.LinkedHashMap) -> Q boolean handleStartPoint(java.util.LinkedHashMap) -> R void processStartPointList() -> g void processShowObjectConditionList() -> h void processAnimationSpeedList() -> c void processDynamicColorList() -> i boolean handleEigenvectors(java.util.LinkedHashMap) -> S boolean handleMatrix(java.util.LinkedHashMap) -> T boolean handleLabelOffset(java.util.LinkedHashMap) -> U boolean handleLabelMode(java.util.LinkedHashMap) -> V geogebra.kernel.arithmetic.Command getCommand(java.util.LinkedHashMap) -> a void startCommandElement(java.lang.String,java.util.LinkedHashMap) -> n boolean handleCmdInput(java.util.LinkedHashMap) -> W boolean handleCmdOutput(java.util.LinkedHashMap) -> X java.lang.String[] getAttributeStrings(java.util.LinkedHashMap) -> a void startExpressionElement(java.lang.String,java.util.LinkedHashMap) -> o boolean parseBoolean(java.lang.String) -> a geogebra.io.MyXMLHandler$GeoExpPair -> geogebra.f.c: geogebra.kernel.GeoElement geo -> a java.lang.String exp -> a geogebra.io.MyXMLHandler this$0 -> a geogebra.io.MyXMLHandler$LocateableExpPair -> geogebra.f.h: geogebra.kernel.Locateable locateable -> a java.lang.String exp -> a geogebra.kernel.GeoPoint point -> a int number -> a geogebra.io.MyXMLHandler this$0 -> a geogebra.io.MyXMLio -> geogebra.f.d: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.io.DocHandler handler -> a geogebra.io.DocHandler ggbDocHandler -> b geogebra.io.DocHandler i2gDocHandler -> c geogebra.io.QDParser xmlParser -> a geogebra.kernel.Construction cons -> a geogebra.io.DocHandler getGGBHandler() -> a geogebra.io.DocHandler getI2GHandler() -> b void readZipFromInputStream(java.io.InputStream,boolean) -> a java.awt.image.BufferedImage getPreviewImage(java.io.File) -> a void processXMLBuffer(byte[],boolean,boolean) -> a void doParseXML(java.io.Reader,boolean,boolean) -> a void readZipFromMemory(java.io.InputStream) -> a void processXMLString(java.lang.String,boolean,boolean) -> a void writeGeoGebraFile(java.io.File) -> a void writeGeoGebraFile(java.io.OutputStream) -> a void writeIntergeoFile(java.io.OutputStream) -> b void writeMacroFile(java.io.File,java.util.ArrayList) -> a void writeMacroStream(java.io.OutputStream,java.util.ArrayList) -> a void writeConstructionImages(geogebra.kernel.Construction,java.util.zip.ZipOutputStream) -> a void writeConstructionImages(geogebra.kernel.Construction,java.util.zip.ZipOutputStream,java.lang.String) -> a void writeThumbnail(geogebra.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.StringBuffer) -> a java.lang.String getFullXML() -> a java.lang.String getFullI2G() -> b java.lang.String getPreferencesXML() -> c java.lang.String getFullMacroXML(java.util.ArrayList) -> a java.lang.StringBuffer getUndoXML(geogebra.kernel.Construction) -> a geogebra.io.QDParser -> geogebra.f.f: java.util.LinkedHashMap attrs -> a java.util.Stack stack -> a java.lang.StringBuffer sb -> a java.lang.StringBuffer etag -> b void reset() -> a int popMode(java.util.Stack) -> a void parse(geogebra.io.DocHandler,java.io.Reader) -> a void exc(java.lang.String,int,int) -> a geogebra.kernel.AbsoluteScreenLocateable -> geogebra.a.dE: void setAbsoluteScreenLoc(int,int) -> a int getAbsoluteScreenLocX() -> e int getAbsoluteScreenLocY() -> b_ void setRealWorldLoc(double,double) -> a double getRealWorldLocX() -> a_ double getRealWorldLocY() -> b void setAbsoluteScreenLocActive(boolean) -> d boolean isAbsoluteScreenLocActive() -> x boolean isAbsoluteScreenLocateable() -> y geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.AlgoAffineRatio -> geogebra.a.dz: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoNumeric M -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoAngleConic -> geogebra.a.et: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoAngle angle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoAngle getAngle() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAngleLines -> geogebra.a.cX: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoLine h -> b geogebra.kernel.GeoAngle angle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoAngle getAngle() -> a geogebra.kernel.GeoLine getg() -> a geogebra.kernel.GeoLine geth() -> b void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAngleNumeric -> geogebra.a.df: geogebra.kernel.GeoNumeric num -> a geogebra.kernel.GeoAngle angle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoAngle getAngle() -> a void compute() -> b geogebra.kernel.AlgoAnglePoints -> geogebra.a.j: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoAngle angle -> a geogebra.kernel.AlgoAnglePolygon algoAnglePoly -> a double bx -> a double by -> b double vx -> c double vy -> d double wx -> e double wy -> f java.lang.String getClassName() -> a void setAlgoAnglePolygon(geogebra.kernel.AlgoAnglePolygon) -> a void setInputOutput() -> a void remove() -> d int getConstructionIndex() -> a geogebra.kernel.GeoAngle getAngle() -> a geogebra.kernel.GeoPoint getA() -> a geogebra.kernel.GeoPoint getB() -> b void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAnglePolygon -> geogebra.a.cD: geogebra.kernel.GeoPolygon poly -> a geogebra.kernel.GeoAngle[] angles -> a geogebra.kernel.AlgoAnglePoints[] algos -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoAngle[] getAngles() -> a geogebra.kernel.GeoPolygon getPolygon() -> a void createAngles() -> i void update() -> e void compute() -> b void remove() -> d java.lang.String toString() -> toString geogebra.kernel.AlgoAngleVector -> geogebra.a.l: geogebra.kernel.GeoVec3D vec -> a geogebra.kernel.GeoAngle angle -> a double[] coords -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoAngle getAngle() -> a geogebra.kernel.GeoVec3D getVec3D() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAngleVectors -> geogebra.a.dj: geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoVector w -> b geogebra.kernel.GeoAngle angle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoAngle getAngle() -> a geogebra.kernel.GeoVector getv() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAngularBisectorLines -> geogebra.a.bI: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoLine h -> b geogebra.kernel.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.kernel.GeoVector[] wv -> a geogebra.kernel.GeoPoint B -> a boolean infiniteB -> a int index -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine[] getLines() -> a boolean isNearToAlgorithm() -> b void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAngularBisectorPoints -> geogebra.a.dR: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoLine bisector -> a geogebra.kernel.GeoLine g -> b geogebra.kernel.GeoLine h -> c geogebra.kernel.GeoVector wv -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAppend -> geogebra.a.cT: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoList outputList -> b int size -> a int order -> b int ADD_OBJECT_AT_START -> c int ADD_OBJECT_AT_END -> d java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoAreaConic -> geogebra.a.aY: geogebra.kernel.GeoConic conic -> a geogebra.kernel.GeoNumeric area -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getArea() -> a void compute() -> b geogebra.kernel.AlgoAreaPoints -> geogebra.a.cs: geogebra.kernel.GeoPoint[] P -> a geogebra.kernel.GeoNumeric area -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getArea() -> a void compute() -> b geogebra.kernel.AlgoAsymptote -> geogebra.a.R: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine[] asymptotes -> a geogebra.kernel.GeoVec2D[] eigenvec -> a double[] halfAxes -> a geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoPoint P -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine[] getAsymptotes() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAxes -> geogebra.a.dt: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine[] axes -> a geogebra.kernel.GeoVec2D[] eigenvec -> a geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoPoint P -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine[] getAxes() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAxisFirst -> geogebra.a.ef: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine axis -> a geogebra.kernel.GeoVec2D[] eigenvec -> a geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoPoint P -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getAxis() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAxisFirstLength -> geogebra.a.dT: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAxisSecond -> geogebra.a.cJ: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine axis -> a geogebra.kernel.GeoVec2D[] eigenvec -> a geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoPoint P -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getAxis() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAxisSecondLength -> geogebra.a.aI: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoAxisStepX -> geogebra.a.dc: geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void euclidianViewUpdate() -> c void compute() -> b geogebra.kernel.AlgoAxisStepY -> geogebra.a.bx: geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void euclidianViewUpdate() -> c void compute() -> b geogebra.kernel.AlgoBarChart -> geogebra.a.A: java.lang.String getClassName() -> a geogebra.kernel.AlgoBinomial -> geogebra.a.cw: double Binom(double,double) -> a double BinomBig(double,double) -> b double BinomLog(double,double) -> c java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoBoxPlot -> geogebra.a.dv: java.lang.String getClassName() -> a geogebra.kernel.AlgoCellRange -> geogebra.a.cn: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoElement startCell -> a geogebra.kernel.GeoElement endCell -> b java.lang.String toStringOutput -> a java.lang.String getClassName() -> a void remove() -> d void clearGeoList() -> i void setInputOutput() -> a java.util.ArrayList initCellRangeList(java.awt.Point,java.awt.Point) -> a geogebra.kernel.GeoList getList() -> a void compute() -> b java.lang.String getCommandDescription() -> c java.lang.String toString() -> toString geogebra.kernel.AlgoCenterConic -> geogebra.a.au: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoPoint midpoint -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoCentroidPolygon -> geogebra.a.bk: geogebra.kernel.GeoPolygon p -> a geogebra.kernel.GeoPoint centroid -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoCirclePointRadius -> geogebra.a.T: geogebra.kernel.GeoPoint M -> a geogebra.kernel.arithmetic.NumberValue r -> a geogebra.kernel.GeoElement rgeo -> a geogebra.kernel.GeoConic circle -> a int type -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getCircle() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoCircleThreePoints -> geogebra.a.al: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoConic circle -> a geogebra.kernel.GeoLine s0 -> a geogebra.kernel.GeoLine s1 -> b geogebra.kernel.GeoPoint center -> d 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 java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getCircle() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoCircleTwoPoints -> geogebra.a.dI: geogebra.kernel.GeoPoint M -> a geogebra.kernel.GeoPoint P -> b geogebra.kernel.GeoConic circle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getCircle() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoCircumferenceConic -> geogebra.a.c: geogebra.kernel.GeoConic conic -> a geogebra.kernel.GeoNumeric circum -> a geogebra.kernel.integration.EllipticArcLength ellipticArcLength -> a java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b geogebra.kernel.GeoNumeric getCircumference() -> a geogebra.kernel.AlgoColumn -> geogebra.a.cg: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoColumnName -> geogebra.a.bz: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getGeoText() -> a void compute() -> b geogebra.kernel.AlgoConicFivePoints -> geogebra.a.dH: geogebra.kernel.GeoPoint[] P -> a geogebra.kernel.GeoConic conic -> a double[][] A -> a double[][] B -> b double[][] C -> c double l -> a double m -> b geogebra.kernel.GeoVec3D[] line -> a int i -> a int j -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getConic() -> a void compute() -> b void degCone(geogebra.kernel.GeoVec3D,geogebra.kernel.GeoVec3D,double[][]) -> a double evalMatrix(double[][],geogebra.kernel.GeoPoint) -> a void linComb(double[][],double[][],double,double,double[][]) -> a java.lang.String toString() -> toString geogebra.kernel.AlgoConicFociLength -> geogebra.a.dp: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.GeoElement ageo -> a geogebra.kernel.GeoConic conic -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getConic() -> a void compute() -> b geogebra.kernel.AlgoConicPart -> geogebra.a.aP: geogebra.kernel.GeoConic conic -> a geogebra.kernel.arithmetic.NumberValue startParam -> a geogebra.kernel.arithmetic.NumberValue endParam -> b geogebra.kernel.GeoConicPart conicPart -> a int type -> a java.lang.String getClassName() -> a geogebra.kernel.GeoConicPart getConicPart() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoConicPartCircle -> geogebra.a.ar: geogebra.kernel.GeoPoint center -> a geogebra.kernel.GeoPoint startPoint -> b geogebra.kernel.GeoPoint endPoint -> c geogebra.kernel.GeoPoint P -> d geogebra.kernel.GeoPoint Q -> e geogebra.kernel.GeoPoint getStartPoint() -> a geogebra.kernel.GeoPoint getEndPoint() -> b geogebra.kernel.GeoPoint getCenter() -> c java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b geogebra.kernel.AlgoConicPartCircumcircle -> geogebra.a.cd: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoLine line -> a java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b void computeDegenerate() -> i void computeCircle() -> k geogebra.kernel.AlgoConicPartConicParameters -> geogebra.a.dG: void setInputOutput() -> a geogebra.kernel.AlgoConicPartConicPoints -> geogebra.a.ad: geogebra.kernel.GeoPoint startPoint -> a geogebra.kernel.GeoPoint endPoint -> b geogebra.kernel.GeoPoint P -> c geogebra.kernel.GeoPoint Q -> d geogebra.kernel.GeoPoint getStartPoint() -> a geogebra.kernel.GeoPoint getEndPoint() -> b geogebra.kernel.GeoConic getConic() -> a void setInputOutput() -> a void compute() -> b geogebra.kernel.AlgoConstructionStep -> geogebra.a.aM: geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a boolean wantsConstructionProtocolUpdate() -> a void compute() -> b geogebra.kernel.AlgoCountIf -> geogebra.a.dJ: geogebra.kernel.GeoFunction boolFun -> a geogebra.kernel.GeoList list -> a geogebra.kernel.GeoNumeric result -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoCrossRatio -> geogebra.a.co: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoPoint D -> d geogebra.kernel.GeoNumeric M -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoCurvature -> geogebra.a.Y: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoNumeric K -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoCurvatureCurve -> geogebra.a.em: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoCurveCartesian f -> a geogebra.kernel.GeoNumeric K -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoCurvatureVector -> geogebra.a.eo: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction f1 -> b geogebra.kernel.GeoFunction f2 -> c geogebra.kernel.GeoVector v -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b geogebra.kernel.AlgoCurvatureVectorCurve -> geogebra.a.e: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoCurveCartesian f -> a geogebra.kernel.GeoCurveCartesian f1 -> b geogebra.kernel.GeoCurveCartesian f2 -> c geogebra.kernel.GeoVector v -> a double[] f1eval -> a double[] f2eval -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b geogebra.kernel.AlgoCurveCartesian -> geogebra.a.n: geogebra.kernel.arithmetic.NumberValue xcoord -> a geogebra.kernel.arithmetic.NumberValue ycoord -> b geogebra.kernel.arithmetic.NumberValue from -> c geogebra.kernel.arithmetic.NumberValue to -> d geogebra.kernel.GeoNumeric localVar -> a geogebra.kernel.GeoCurveCartesian curve -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoCurveCartesian getCurve() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDefined -> geogebra.a.dN: geogebra.kernel.GeoElement inputGeo -> a geogebra.kernel.GeoBoolean outputBoolean -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoBoolean getResult() -> a void compute() -> b geogebra.kernel.AlgoDependentBoolean -> geogebra.a.bl: geogebra.kernel.arithmetic.ExpressionNode root -> a geogebra.kernel.GeoBoolean bool -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoBoolean getGeoBoolean() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentConic -> geogebra.a.dw: geogebra.kernel.arithmetic.Equation equation -> a geogebra.kernel.arithmetic.ExpressionValue[] ev -> a geogebra.kernel.GeoConic conic -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getConic() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentFunction -> geogebra.a.X: geogebra.kernel.arithmetic.Function fun -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.Function expandedFun -> b geogebra.kernel.arithmetic.ExpressionNode expression -> a boolean expContainsFunctions -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFunction() -> a void compute() -> b geogebra.kernel.arithmetic.ExpressionValue expandFunctionDerivativeNodes(geogebra.kernel.arithmetic.ExpressionValue) -> a boolean containsFunctions(geogebra.kernel.arithmetic.ExpressionValue) -> a java.lang.String toString() -> toString java.lang.String getDerivativeLabel(geogebra.kernel.arithmetic.Function) -> a geogebra.kernel.AlgoDependentGeoCopy -> geogebra.a.de: geogebra.kernel.arithmetic.ExpressionNode origGeoNode -> a geogebra.kernel.GeoElement origGeo -> a geogebra.kernel.GeoElement copyGeo -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getGeo() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentLine -> geogebra.a.cY: geogebra.kernel.arithmetic.Equation equation -> a geogebra.kernel.arithmetic.ExpressionValue[] ev -> a geogebra.kernel.GeoLine g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentList -> geogebra.a.B: java.util.ArrayList listItems -> a geogebra.kernel.GeoList geoList -> a boolean isCellRange -> a java.lang.String getClassName() -> a void setInputOutput() -> a void remove() -> d geogebra.kernel.GeoList getGeoList() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentListExpression -> geogebra.a.cc: geogebra.kernel.arithmetic.ExpressionNode root -> a geogebra.kernel.GeoList list -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getList() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentNumber -> geogebra.a.bW: geogebra.kernel.arithmetic.ExpressionNode root -> a geogebra.kernel.GeoNumeric number -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getNumber() -> a geogebra.kernel.arithmetic.ExpressionNode getExpression() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentPoint -> geogebra.a.aQ: geogebra.kernel.arithmetic.ExpressionNode root -> a geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoVec2D temp -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a geogebra.kernel.arithmetic.ExpressionNode getExpressionNode() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentText -> geogebra.a.dM: geogebra.kernel.arithmetic.ExpressionNode root -> a geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getGeoText() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDependentVector -> geogebra.a.dB: geogebra.kernel.arithmetic.ExpressionNode root -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoVec2D temp -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDerivative -> geogebra.a.bU: geogebra.kernel.GeoElement fgeo -> a geogebra.kernel.GeoElement ggeo -> b geogebra.kernel.GeoDeriveable f -> a geogebra.kernel.arithmetic.NumberValue order -> a geogebra.kernel.GeoDeriveable g -> b geogebra.kernel.GeoElement orderGeo -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getDerivative() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDeterminant -> geogebra.a.ei: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoDiameterLine -> geogebra.a.bh: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoLine diameter -> b geogebra.kernel.GeoVector v -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getDiameter() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDiameterVector -> geogebra.a.ds: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoLine diameter -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getDiameter() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDilate -> geogebra.a.aT: geogebra.kernel.GeoPoint S -> a geogebra.kernel.Dilateable B -> a geogebra.kernel.arithmetic.NumberValue r -> a geogebra.kernel.GeoElement Ageo -> a geogebra.kernel.GeoElement Bgeo -> b geogebra.kernel.GeoElement rgeo -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDirection -> geogebra.a.ax: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoVector v -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDirectrix -> geogebra.a.cI: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine directrix -> a geogebra.kernel.GeoVec2D[] eigenvec -> a geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoPoint P -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getDirectrix() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDistanceLineLine -> geogebra.a.O: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoLine h -> b geogebra.kernel.GeoNumeric dist -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getDistance() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDistancePointLine -> geogebra.a.bn: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoNumeric dist -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getDistance() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDistancePoints -> geogebra.a.cG: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoPoint Q -> b geogebra.kernel.GeoNumeric dist -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getDistance() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoDiv -> geogebra.a.M: java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoDrawingPadCorner -> geogebra.a.ea: geogebra.kernel.GeoPoint corner -> a geogebra.kernel.arithmetic.NumberValue number -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getCorner() -> a void compute() -> b void euclidianViewUpdate() -> c java.lang.String toString() -> toString geogebra.kernel.AlgoElement -> geogebra.a.bi: java.util.ResourceBundle rbalgo2command -> a java.util.ResourceBundle rbalgo2intergeo -> b geogebra.kernel.GeoElement[] input -> a geogebra.kernel.GeoElement[] output -> b geogebra.kernel.GeoElement[] efficientInput -> c boolean isPrintedInXML -> a boolean stopUpdateCascade -> b java.util.TreeSet tempSet -> a java.util.ArrayList freeInputPoints -> a java.util.ArrayList inputPoints -> b geogebra.kernel.AlgoElement updateAfterAlgo -> a void initAlgo2CommandBundle(geogebra.main.Application) -> a java.lang.String getCommandString(java.lang.String) -> a java.lang.String getIntergeoString(java.lang.String) -> b void compute() -> b void initForNearToRelationship() -> h boolean isNearToAlgorithm() -> b void update() -> e void updateCascadeAlgos(java.util.ArrayList) -> a java.util.TreeSet getTempSet() -> a geogebra.kernel.GeoElement[] getOutput() -> b geogebra.kernel.GeoElement[] getInput() -> c geogebra.kernel.GeoElement[] getInputForUpdateSetPropagation() -> d void setDependencies() -> j void doSetDependencies() -> l void setEfficientDependencies(geogebra.kernel.GeoElement[],geogebra.kernel.GeoElement[]) -> a void setOutputDependencies() -> k void euclidianViewUpdate() -> c void remove() -> d void remove(geogebra.kernel.GeoElement) -> b void removeOutputExcept(geogebra.kernel.GeoElement) -> a void notifyAdd() -> g void notifyRemove() -> f geogebra.kernel.GeoElement[] getGeoElements() -> a boolean hasSingleOutputType() -> d boolean isAlgoElement() -> l boolean isGeoElement() -> k boolean isConsProtocolBreakpoint() -> i int compareTo(java.lang.Object) -> compareTo int getConstructionIndex() -> a int getMinConstructionIndex() -> c int getMaxConstructionIndex() -> d void addPredecessorsToSet(java.util.TreeSet,boolean) -> a java.util.ArrayList getFreeInputPoints() -> a java.util.ArrayList getInputPoints() -> b boolean isIndependent() -> j java.lang.String getCommandDescription() -> c java.lang.String getCommandName() -> b java.lang.String getIntergeoName() -> d java.lang.String getXML() -> e java.lang.String getXML(boolean) -> a java.lang.String getI2G(int) -> a java.lang.String getExpXML() -> f java.lang.String getCmdXML(java.lang.String) -> c java.lang.String getCmdI2G(java.lang.String) -> d java.lang.String getXMLtypeString(geogebra.kernel.GeoElement) -> a void setPrintedInXML(boolean) -> a boolean isPrintedInXML() -> e java.lang.String toString() -> toString void setStopUpdateCascade(boolean) -> b boolean wantsConstructionProtocolUpdate() -> a void setUpdateAfterAlgo(geogebra.kernel.AlgoElement) -> a geogebra.kernel.AlgoElement getUpdateAfterAlgo() -> a geogebra.kernel.AlgoEllipseFociLength -> geogebra.a.C: java.lang.String getClassName() -> a java.lang.String toString() -> toString geogebra.kernel.AlgoEllipseFociPoint -> geogebra.a.G: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoConic ellipse -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getEllipse() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoExcentricity -> geogebra.a.aF: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getExcentricity() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoExpand -> geogebra.a.dg: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoExtremumPolynomial -> geogebra.a.ay: java.lang.String getClassName() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoFactor -> geogebra.a.dS: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b java.lang.StringBuffer sb -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoFirst -> geogebra.a.u: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoFocus -> geogebra.a.ek: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoPoint[] focus -> a double temp1 -> a double temp2 -> b geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoVec2D[] eigenvec -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint[] getFocus() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoFractionText -> geogebra.a.aC: geogebra.kernel.GeoNumeric num -> a geogebra.kernel.GeoText text -> a double[] frac -> a java.lang.StringBuffer sb -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getResult() -> a void compute() -> b double[] DecimalToFraction(double,double) -> a geogebra.kernel.AlgoFunctionAreaSums -> geogebra.a.bM: double xVisibleWidth -> a int type -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.arithmetic.NumberValue n -> c geogebra.kernel.arithmetic.NumberValue width -> d geogebra.kernel.GeoList list1 -> a geogebra.kernel.GeoList list2 -> b geogebra.kernel.GeoList tempList -> c geogebra.kernel.GeoElement ageo -> a geogebra.kernel.GeoElement bgeo -> b geogebra.kernel.GeoElement ngeo -> c geogebra.kernel.GeoElement minGeo -> d geogebra.kernel.GeoElement maxGeo -> e geogebra.kernel.GeoElement Q1geo -> f geogebra.kernel.GeoElement Q3geo -> g geogebra.kernel.GeoElement medianGeo -> h geogebra.kernel.GeoElement widthgeo -> i geogebra.kernel.GeoNumeric sum -> a int N -> b double STEP -> b double[] yval -> a double[] leftBorder -> b geogebra.kernel.optimization.ExtremumFinder extrFinder -> a void euclidianViewUpdate() -> c java.lang.String getClassName() -> a void setInputOutput() -> a int getIntervals() -> b double getStep() -> a double[] getValues() -> a double[] getLeftBorders() -> b geogebra.kernel.GeoNumeric getSum() -> a geogebra.kernel.arithmetic.NumberValue getA() -> a geogebra.kernel.arithmetic.NumberValue getB() -> b void compute() -> b void calcBoxPlot() -> i java.lang.String toString() -> toString boolean useTrapeziums() -> f boolean isHistogram() -> g int getType() -> e boolean isBoxPlot() -> m geogebra.kernel.AlgoFunctionInterval -> geogebra.a.ex: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.GeoElement ageo -> a geogebra.kernel.GeoElement bgeo -> b geogebra.kernel.GeoFunction g -> b geogebra.kernel.arithmetic.ExpressionNode exp -> a geogebra.kernel.arithmetic.ExpressionNode exp2 -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFunction() -> a void compute() -> b boolean hasEqualExpressions(geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction) -> a java.lang.String toString() -> toString geogebra.kernel.AlgoGCD -> geogebra.a.Q: java.lang.StringBuffer sb -> a java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoHistogram -> geogebra.a.cZ: java.lang.String getClassName() -> a geogebra.kernel.AlgoHyperbolaFociLength -> geogebra.a.dD: java.lang.String getClassName() -> a java.lang.String toString() -> toString geogebra.kernel.AlgoHyperbolaFociPoint -> geogebra.a.eb: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoPoint C -> c geogebra.kernel.GeoConic hyperbola -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getHyperbola() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIf -> geogebra.a.F: geogebra.kernel.GeoBoolean condition -> a geogebra.kernel.GeoElement ifGeo -> a geogebra.kernel.GeoElement elseGeo -> b geogebra.kernel.GeoElement result -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getGeoElement() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIfFunction -> geogebra.a.es: geogebra.kernel.GeoFunction boolFun -> a geogebra.kernel.GeoFunction ifFun -> b geogebra.kernel.GeoFunction elseFun -> c geogebra.kernel.GeoFunctionConditional result -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getGeoFunction() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoImageCorner -> geogebra.a.cf: geogebra.kernel.GeoImage img -> a geogebra.kernel.GeoPoint corner -> a geogebra.kernel.arithmetic.NumberValue number -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getCorner() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoInsert -> geogebra.a.bC: geogebra.kernel.GeoElement inputGeo -> a geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoList outputList -> b int size -> a int insertPoint -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoIntegral -> geogebra.a.ca: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getIntegral() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIntegralDefinite -> geogebra.a.bQ: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.GeoElement ageo -> a geogebra.kernel.GeoElement bgeo -> b geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoFunction symbIntegral -> b geogebra.kernel.integration.GaussQuadIntegration firstGauss -> a geogebra.kernel.integration.GaussQuadIntegration secondGauss -> b int adaptiveGaussQuadCounter -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getIntegral() -> a geogebra.kernel.GeoFunction getFunction() -> a geogebra.kernel.arithmetic.NumberValue getA() -> a geogebra.kernel.arithmetic.NumberValue getB() -> b void compute() -> b double adaptiveGaussQuad(geogebra.kernel.roots.RealRootFunction,double,double) -> a double doAdaptiveGaussQuad(geogebra.kernel.roots.RealRootFunction,double,double) -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIntegralFunctions -> geogebra.a.eu: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.GeoElement ageo -> a geogebra.kernel.GeoElement bgeo -> b geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoNumeric intF -> b geogebra.kernel.GeoNumeric intG -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getIntegral() -> a geogebra.kernel.GeoFunction getF() -> a geogebra.kernel.GeoFunction getG() -> b geogebra.kernel.arithmetic.NumberValue getA() -> a geogebra.kernel.arithmetic.NumberValue getB() -> b void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIntersect -> geogebra.a.dy: int numberOfUsers -> a boolean[] didSetIntersectionPoint -> a void noUndefinedPointsInAlgebraView() -> k void addUser() -> l void removeUser() -> m int getClosestPointIndex(double,double) -> a geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a geogebra.kernel.GeoPoint[] getLastDefinedIntersectionPoints() -> b void setIntersectionPoint(int,geogebra.kernel.GeoPoint) -> a boolean didSetIntersectionPoint(int) -> b java.lang.String toString() -> toString void remove() -> d geogebra.kernel.AlgoIntersectConics -> geogebra.a.cM: geogebra.kernel.GeoConic A -> a geogebra.kernel.GeoConic B -> b geogebra.kernel.GeoPoint[] P -> a geogebra.kernel.GeoPoint[] D -> b geogebra.kernel.GeoPoint[] Q -> c geogebra.kernel.GeoConic degConic -> c geogebra.kernel.GeoLine tempLine -> a int[] age -> a int[] permutation -> b double[][] distTable -> a boolean[] isQonPath -> a boolean[] isPalive -> b boolean firstIntersection -> a int i -> a boolean isLimitedPathSituation -> b boolean isPermutationNeeded -> c boolean possibleSpecialCase -> d int specialCasePointOnCircleIndex -> b geogebra.kernel.PointPairList pointList -> a geogebra.kernel.EquationSolver eqnSolver -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a geogebra.kernel.GeoPoint[] getLastDefinedIntersectionPoints() -> b boolean isNearToAlgorithm() -> b void initForNearToRelationship() -> h void compute() -> b boolean handleSpecialCase() -> f geogebra.kernel.GeoPoint getPointFrom1on2(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic) -> a void computeNonContinous() -> n void computeContinous() -> i void handleLimitedPaths() -> o void updateQonPath() -> p boolean pointLiesOnBothPaths(geogebra.kernel.GeoPoint) -> a boolean isSingularitySituation() -> g void intersectConics(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[]) -> a void moveDefinedPointsToFront(geogebra.kernel.GeoPoint[]) -> a void intersectWithDegenerate(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[]) -> b boolean testPoints(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[],double) -> a boolean calcIntersectionPoints(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[],double) -> b boolean intersectConicsWithEqualSubmatrixS(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[]) -> a void normalizeArray(double[]) -> a void distanceTable(geogebra.kernel.GeoPoint[],int[],geogebra.kernel.GeoPoint[],double[][]) -> a void setNearTo(geogebra.kernel.GeoPoint[],boolean[],geogebra.kernel.GeoPoint[],boolean[],double[][],geogebra.kernel.PointPairList,int[]) -> a geogebra.kernel.AlgoIntersectFunctionLineNewton -> geogebra.a.ae: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoLine line -> a geogebra.kernel.GeoPoint startPoint -> a geogebra.kernel.GeoPoint rootPoint -> b geogebra.kernel.arithmetic.Function diffFunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b geogebra.kernel.GeoPoint getIntersectionPoint() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIntersectFunctionsNewton -> geogebra.a.cb: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b geogebra.kernel.GeoPoint startPoint -> a geogebra.kernel.GeoPoint rootPoint -> b geogebra.kernel.arithmetic.Function diffFunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b geogebra.kernel.GeoPoint getIntersectionPoint() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIntersectLineConic -> geogebra.a.W: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoPoint[] P -> a geogebra.kernel.GeoPoint[] D -> b geogebra.kernel.GeoPoint[] Q -> c int[] age -> a int[] permutation -> b double[][] distTable -> a boolean[] isQonPath -> a boolean[] isPalive -> b int i -> a boolean isTangent -> a boolean firstIntersection -> b boolean isPermutationNeeded -> c geogebra.kernel.GeoPoint tangentPoint -> a geogebra.kernel.PointPairList pointList -> a boolean isLimitedPathSituation -> d boolean possibleSpecialCase -> e int specialCasePointOnCircleIndex -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a geogebra.kernel.GeoPoint[] getLastDefinedIntersectionPoints() -> b boolean isNearToAlgorithm() -> b void initForNearToRelationship() -> h void compute() -> b boolean handleSpecialCase() -> f void computeNonContinous() -> i void computeContinous() -> n void handleLimitedPaths() -> o void updateQonPath() -> p boolean pointLiesOnBothPaths(geogebra.kernel.GeoPoint) -> a int intersect(geogebra.kernel.GeoConic,geogebra.kernel.GeoLine,geogebra.kernel.GeoPoint[]) -> a int intersectLineConic(geogebra.kernel.GeoLine,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[]) -> a boolean testPoints(geogebra.kernel.GeoLine,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint[],double) -> a geogebra.kernel.AlgoIntersectLines -> geogebra.a.w: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoLine h -> b geogebra.kernel.GeoPoint S -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoIntersectPolynomialLine -> geogebra.a.ao: java.lang.String getClassName() -> a geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a java.lang.String toString() -> toString geogebra.kernel.AlgoIntersectPolynomials -> geogebra.a.aX: java.lang.String getClassName() -> a geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a java.lang.String toString() -> toString geogebra.kernel.AlgoIntersectSingle -> geogebra.a.dA: geogebra.kernel.AlgoIntersect algo -> a int index -> a geogebra.kernel.GeoPoint point -> a geogebra.kernel.GeoPoint[] parentOutput -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a geogebra.kernel.GeoPoint[] getLastDefinedIntersectionPoints() -> b boolean isNearToAlgorithm() -> b void initForNearToRelationship() -> h void compute() -> b void remove() -> d geogebra.kernel.AlgoIntersection -> geogebra.a.av: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList inputList2 -> b geogebra.kernel.GeoList outputList -> c int size -> a int size2 -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoInvert -> geogebra.a.ep: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoIsInteger -> geogebra.a.dx: geogebra.kernel.GeoNumeric inputGeo -> a geogebra.kernel.GeoBoolean outputBoolean -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoBoolean getResult() -> a void compute() -> b geogebra.kernel.AlgoIteration -> geogebra.a.dO: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue startValue -> a geogebra.kernel.arithmetic.NumberValue n -> b geogebra.kernel.GeoElement startValueGeo -> a geogebra.kernel.GeoElement nGeo -> b geogebra.kernel.GeoNumeric result -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoIterationList -> geogebra.a.by: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue startValue -> a geogebra.kernel.arithmetic.NumberValue n -> b geogebra.kernel.GeoElement startValueGeo -> a geogebra.kernel.GeoElement nGeo -> b geogebra.kernel.GeoList list -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b void setListElement(int,double) -> a geogebra.kernel.AlgoJoin -> geogebra.a.eg: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b int size -> a int size2 -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoJoinPoints -> geogebra.a.aO: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoPoint Q -> b geogebra.kernel.GeoLine g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoJoinPointsRay -> geogebra.a.as: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoPoint Q -> b geogebra.kernel.GeoRay ray -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoRay getRay() -> a geogebra.kernel.GeoPoint getP() -> a geogebra.kernel.GeoPoint getQ() -> b void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoJoinPointsSegment -> geogebra.a.bv: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoPoint Q -> b geogebra.kernel.GeoSegment s -> a geogebra.kernel.GeoPolygon poly -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoSegment getSegment() -> a geogebra.kernel.GeoPolygon getPoly() -> a void compute() -> b void remove() -> d void removeSegmentOnly() -> i int getConstructionIndex() -> a java.lang.String toString() -> toString geogebra.kernel.AlgoKeepIf -> geogebra.a.dd: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b geogebra.kernel.GeoFunction boolFun -> a int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoLCM -> geogebra.a.cK: java.lang.StringBuffer sb -> a java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoLaTeX -> geogebra.a.bH: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoBoolean substituteVars -> a geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getGeoText() -> a void compute() -> b geogebra.kernel.AlgoLast -> geogebra.a.bq: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric n -> a geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoLengthCurve -> geogebra.a.bF: geogebra.kernel.GeoNumeric t0 -> a geogebra.kernel.GeoNumeric t1 -> b geogebra.kernel.GeoCurveCartesian c -> a geogebra.kernel.GeoCurveCartesian c1 -> b geogebra.kernel.GeoNumeric length -> c geogebra.kernel.roots.RealRootFunction lengthCurve -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b geogebra.kernel.GeoCurveCartesian access$0(geogebra.kernel.AlgoLengthCurve) -> a geogebra.kernel.AlgoLengthCurve$LengthCurve -> geogebra.a.dL: geogebra.kernel.AlgoLengthCurve this$0 -> a double evaluate(double) -> a geogebra.kernel.AlgoLengthCurve2Points -> geogebra.a.V: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoCurveCartesian c -> a geogebra.kernel.GeoCurveCartesian derivative -> b geogebra.kernel.GeoNumeric length -> a geogebra.kernel.roots.RealRootFunction lengthCurve -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b geogebra.kernel.GeoCurveCartesian access$0(geogebra.kernel.AlgoLengthCurve2Points) -> a geogebra.kernel.AlgoLengthCurve2Points$LengthCurve -> geogebra.a.aE: double[] f1eval -> a geogebra.kernel.AlgoLengthCurve2Points this$0 -> a double evaluate(double) -> a geogebra.kernel.AlgoLengthFunction -> geogebra.a.dh: geogebra.kernel.GeoNumeric A -> a geogebra.kernel.GeoNumeric B -> b geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction f1 -> b geogebra.kernel.GeoNumeric length -> c geogebra.kernel.roots.RealRootFunction lengthFunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b geogebra.kernel.GeoFunction access$0(geogebra.kernel.AlgoLengthFunction) -> a geogebra.kernel.AlgoLengthFunction$LengthFunction -> geogebra.a.m: geogebra.kernel.AlgoLengthFunction this$0 -> a double evaluate(double) -> a geogebra.kernel.AlgoLengthFunction2Points -> geogebra.a.dZ: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction f1 -> b geogebra.kernel.GeoNumeric length -> a geogebra.kernel.roots.RealRootFunction lengthFunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b geogebra.kernel.GeoFunction access$0(geogebra.kernel.AlgoLengthFunction2Points) -> a geogebra.kernel.AlgoLengthFunction2Points$LengthFunction -> geogebra.a.aD: geogebra.kernel.AlgoLengthFunction2Points this$0 -> a double evaluate(double) -> a geogebra.kernel.AlgoLengthVector -> geogebra.a.N: geogebra.kernel.GeoVec3D v -> a geogebra.kernel.GeoNumeric num -> a double[] coords -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoLetterToUnicode -> geogebra.a.br: geogebra.kernel.GeoText text -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoLineBisector -> geogebra.a.cp: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoLine g -> a double ax -> a double ay -> b double bx -> c double by -> d geogebra.kernel.GeoPoint midPoint -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoLineBisectorSegment -> geogebra.a.aq: geogebra.kernel.GeoSegment s -> a geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoPoint midPoint -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoLinePointLine -> geogebra.a.at: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoLine l -> a geogebra.kernel.GeoLine g -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoLinePointVector -> geogebra.a.o: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoLine g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoListElement -> geogebra.a.cW: geogebra.kernel.GeoList geoList -> a geogebra.kernel.arithmetic.NumberValue num -> a geogebra.kernel.GeoElement numGeo -> a geogebra.kernel.GeoElement element -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getElement() -> a void compute() -> b geogebra.kernel.AlgoListGCD -> geogebra.a.bj: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getGCD() -> a void compute() -> b geogebra.kernel.AlgoListLCM -> geogebra.a.aL: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLCM() -> a void compute() -> b geogebra.kernel.AlgoListLength -> geogebra.a.ci: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric length -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getLength() -> a void compute() -> b geogebra.kernel.AlgoListMax -> geogebra.a.ba: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric max -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getMax() -> a void compute() -> b geogebra.kernel.AlgoListMin -> geogebra.a.i: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric min -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getMin() -> a void compute() -> b geogebra.kernel.AlgoLocus -> geogebra.a.Z: int MAX_TIME_FOR_ONE_STEP -> a int MAX_X_PIXEL_DIST -> c int MAX_Y_PIXEL_DIST -> d geogebra.kernel.GeoPoint movingPoint -> a geogebra.kernel.GeoPoint locusPoint -> b geogebra.kernel.GeoLocus locus -> a geogebra.kernel.GeoElement[] efficientInput -> c geogebra.kernel.GeoElement[] standardInput -> d geogebra.kernel.Path path -> a geogebra.kernel.PathMover pathMover -> a int pointCount -> e geogebra.kernel.GeoPoint Pcopy -> c geogebra.kernel.GeoPoint Qcopy -> d geogebra.kernel.GeoPoint PstartPos -> e geogebra.kernel.GeoPoint QstartPos -> f 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 java.awt.geom.Rectangle2D$Double nearToScreenRect -> a boolean continuous -> b boolean lastFarAway -> a boolean foundDefined -> c boolean maxTimeExceeded -> d geogebra.kernel.Construction macroCons -> b geogebra.kernel.MacroKernel macroKernel -> a java.util.TreeSet locusConsOrigElements -> a java.util.TreeSet Qin -> b long countUpdates -> a double[] paramCache -> a java.awt.geom.Point2D$Double[] qcopyCache -> a int cacheIndex -> b long useCache -> b java.lang.String getClassName() -> a void init() -> i void setInputOutput() -> a java.lang.String toString() -> toString geogebra.kernel.GeoLocus getLocus() -> a void buildLocusMacroConstruction(java.util.TreeSet) -> a void resetMacroConstruction() -> k void compute() -> b void pcopyUpdateCascade() -> m void clearCache() -> n java.awt.geom.Point2D$Double getCachedPoint(double) -> a void putCachedPoint(double,geogebra.kernel.GeoPoint) -> a void insertPoint(double,double,boolean) -> a boolean isFarAway(double,double) -> a boolean distanceOK(geogebra.kernel.GeoPoint) -> a boolean distanceSmall(geogebra.kernel.GeoPoint) -> b void updateScreenBorders() -> l void euclidianViewUpdate() -> c geogebra.kernel.AlgoMacro -> geogebra.a.I: geogebra.kernel.Macro macro -> a geogebra.kernel.GeoElement[] macroInput -> c geogebra.kernel.GeoElement[] macroOutput -> d geogebra.util.FastHashMapKeyless macroToAlgoMap -> a java.util.ArrayList macroOutputAndReferencedGeos -> a java.util.ArrayList algoOutputAndReferencedGeos -> b void remove() -> d java.lang.String getClassName() -> a java.lang.String getCommandName() -> b void setInputOutput() -> a void compute() -> b java.lang.String toString() -> toString boolean isMacroInputObject(geogebra.kernel.GeoElement) -> a void setMacroConstructionState() -> c_ void getMacroConstructionState() -> i void createOutputObjects() -> k void initMap() -> l void map(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement getAlgoGeo(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement createAlgoCopy(geogebra.kernel.GeoElement) -> b void initSpecialReferences(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> b void initLine(geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> a void initConic(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic) -> a void initLocateable(geogebra.kernel.Locateable,geogebra.kernel.Locateable) -> a void initPolygon(geogebra.kernel.GeoPolygon,geogebra.kernel.GeoPolygon) -> a void initList(geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a void initFunction(geogebra.kernel.arithmetic.Function) -> a void replaceReferencedMacroObjects(geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.AlgoMax -> geogebra.a.cR: java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoMidpoint -> geogebra.a.ah: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoPoint Q -> b geogebra.kernel.GeoPoint M -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoMidpointSegment -> geogebra.a.a: geogebra.kernel.GeoSegment segment -> a geogebra.kernel.GeoPoint M -> a geogebra.kernel.GeoPoint P -> b geogebra.kernel.GeoPoint Q -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getPoint() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoMin -> geogebra.a.p: java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoMirror -> geogebra.a.aN: geogebra.kernel.Mirrorable out -> a geogebra.kernel.GeoElement geoIn -> a geogebra.kernel.GeoElement geoOut -> b geogebra.kernel.GeoLine mirrorLine -> a geogebra.kernel.GeoPoint mirrorPoint -> a geogebra.kernel.GeoConic mirrorConic -> a geogebra.kernel.GeoElement mirror -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoMod -> geogebra.a.dX: java.lang.String getClassName() -> a void compute() -> b geogebra.kernel.AlgoName -> geogebra.a.ap: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getGeoText() -> a void compute() -> b geogebra.kernel.AlgoObject -> geogebra.a.ct: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoText text -> a java.lang.String currentLabel -> a geogebra.kernel.GeoElement refObject -> b geogebra.kernel.GeoElement[] inputForUpdateSetPropagation -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b void updateReferencedObject() -> i geogebra.kernel.GeoElement[] getInputForUpdateSetPropagation() -> d geogebra.kernel.AlgoOrthoLinePointLine -> geogebra.a.bV: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoLine l -> a geogebra.kernel.GeoLine g -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoOrthoLinePointVector -> geogebra.a.bG: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoLine g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoOrthoVectorLine -> geogebra.a.aJ: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoVector n -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoOrthoVectorVector -> geogebra.a.an: geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoVector n -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoOsculatingCircle -> geogebra.a.cm: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint R -> b geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoNumeric curv -> a geogebra.kernel.GeoConic circle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getCircle() -> a void compute() -> b geogebra.kernel.AlgoOsculatingCircleCurve -> geogebra.a.cq: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint R -> b geogebra.kernel.GeoCurveCartesian f -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoNumeric curv -> a geogebra.kernel.GeoConic circle -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getCircle() -> a void compute() -> b geogebra.kernel.AlgoParabolaParameter -> geogebra.a.bB: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getParameter() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoParabolaPointLine -> geogebra.a.cr: geogebra.kernel.GeoPoint F -> a geogebra.kernel.GeoLine l -> a geogebra.kernel.GeoConic parabola -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConic getParabola() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoPerimeterPoly -> geogebra.a.bY: geogebra.kernel.GeoPolygon polygon -> a geogebra.kernel.GeoNumeric circum -> a java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b geogebra.kernel.GeoNumeric getCircumference() -> a geogebra.kernel.AlgoPointOnPath -> geogebra.a.db: geogebra.kernel.Path path -> a geogebra.kernel.GeoPoint P -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getP() -> a geogebra.kernel.Path getPath() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoPointVector -> geogebra.a.d: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoPoint Q -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getQ() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoPolarLine -> geogebra.a.dF: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoLine polar -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getLine() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoPolygon -> geogebra.a.ed: geogebra.kernel.GeoPoint[] points -> a geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoPolygon poly -> a java.lang.String getClassName() -> a void updatePointArray(geogebra.kernel.GeoList) -> a void setInputOutput() -> a void setOutput() -> i void update() -> e geogebra.kernel.GeoPoint[] getPoints() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoPolygonRegular -> geogebra.a.aH: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.arithmetic.NumberValue num -> a geogebra.kernel.GeoPolygon poly -> a geogebra.kernel.GeoPoint[] points -> a geogebra.kernel.GeoPoint centerPoint -> c geogebra.kernel.arithmetic.MyDouble rotAngle -> a boolean labelPointsAndSegments -> a java.lang.String getClassName() -> a void setInputOutput() -> a void setOutput() -> i void compute() -> b void updatePointsArray(int) -> a void removePoint(geogebra.kernel.GeoPoint) -> a void removeOutputExcept(geogebra.kernel.GeoElement) -> a geogebra.kernel.AlgoPolynomialFromCoordinates -> geogebra.a.s: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoFunction g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getPolynomial() -> a void compute() -> b geogebra.kernel.arithmetic.Function buildPolyFunctionExpression(geogebra.kernel.Kernel,double[]) -> a java.lang.String toString() -> toString void polcoe(double[],double[],int,double[]) -> a void polcoeBig(double[],double[],int,double[]) -> b geogebra.kernel.AlgoPolynomialFromFunction -> geogebra.a.bg: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b geogebra.kernel.parser.Parser parser -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getPolynomial() -> a void compute() -> b double evaluateToDouble(java.lang.String) -> a java.lang.String toString() -> toString geogebra.kernel.AlgoRadius -> geogebra.a.bp: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getRadius() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoRayPointVector -> geogebra.a.D: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoRay ray -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoRay getRay() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoRemoveUndefined -> geogebra.a.q: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoReverse -> geogebra.a.bZ: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoRootInterval -> geogebra.a.bw: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.GeoPoint rootPoint -> a geogebra.kernel.GeoElement aGeo -> a geogebra.kernel.GeoElement bGeo -> b geogebra.kernel.roots.RealRoot rootFinder -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getRootPoint() -> a void compute() -> b double calcRoot() -> a java.lang.String toString() -> toString geogebra.kernel.AlgoRootNewton -> geogebra.a.z: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue start -> a geogebra.kernel.GeoPoint rootPoint -> a geogebra.kernel.GeoElement startGeo -> a geogebra.kernel.roots.RealRoot rootFinder -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getRootPoint() -> a void compute() -> b double calcRoot(geogebra.kernel.arithmetic.Function,double) -> a double[] getDomain(geogebra.kernel.arithmetic.Function,double) -> a java.lang.String toString() -> toString geogebra.kernel.AlgoRootsPolynomial -> geogebra.a.en: int mode -> b geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b geogebra.kernel.GeoLine line -> a geogebra.kernel.GeoPoint[] rootPoints -> a java.lang.String[] labels -> a boolean initLabels -> a boolean setLabels -> b geogebra.kernel.EquationSolver eqnSolver -> a double[] curRoots -> a int curRealRoots -> a geogebra.kernel.arithmetic.Function yValFunction -> a geogebra.kernel.arithmetic.Function diffFunction -> b geogebra.kernel.GeoPoint tempPoint -> a void setLabels(java.lang.String[]) -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint[] getRootPoints() -> c geogebra.kernel.GeoPoint[] getIntersectionPoints() -> a geogebra.kernel.GeoPoint[] getLastDefinedIntersectionPoints() -> b void compute() -> b void computeRoots() -> i void computePolynomialIntersection() -> n void computePolyLineIntersection() -> o void calcRoots(geogebra.kernel.arithmetic.Function,int) -> a void ensureSignChanged(geogebra.kernel.roots.RealRootFunction) -> a void addToCurrentRoots(double[],int) -> b void removeRoot(int) -> a void setRootPoints(double[],int) -> a void updateLabels(int) -> c void remove(geogebra.kernel.GeoElement) -> b void initRootPoints(int) -> d void removeRootPoint(int) -> e java.lang.String toString() -> toString geogebra.kernel.AlgoRotate -> geogebra.a.bP: geogebra.kernel.Rotateable B -> a geogebra.kernel.arithmetic.NumberValue angle -> a geogebra.kernel.GeoElement Ageo -> a geogebra.kernel.GeoElement Bgeo -> b geogebra.kernel.GeoElement angleGeo -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoRotatePoint -> geogebra.a.ai: geogebra.kernel.GeoPoint Q -> a geogebra.kernel.PointRotateable B -> a geogebra.kernel.arithmetic.NumberValue angle -> a geogebra.kernel.GeoElement Ageo -> a geogebra.kernel.GeoElement Bgeo -> b geogebra.kernel.GeoElement angleGeo -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoRow -> geogebra.a.P: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoSemicircle -> geogebra.a.cv: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoPoint B -> b geogebra.kernel.GeoConicPart conicPart -> a geogebra.kernel.GeoPoint M -> c geogebra.kernel.GeoConic conic -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoConicPart getSemicircle() -> a geogebra.kernel.GeoPoint getA() -> a geogebra.kernel.GeoPoint getB() -> b void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoSequence -> geogebra.a.aK: geogebra.kernel.GeoElement expression -> a geogebra.kernel.GeoNumeric var -> a geogebra.kernel.arithmetic.NumberValue var_from -> a geogebra.kernel.arithmetic.NumberValue var_to -> b geogebra.kernel.arithmetic.NumberValue var_step -> c geogebra.kernel.GeoElement var_from_geo -> b geogebra.kernel.GeoElement var_to_geo -> c geogebra.kernel.GeoElement var_step_geo -> d geogebra.kernel.GeoList list -> a double last_from -> a double last_to -> b double last_step -> c boolean expIsFunctionOrCurve -> a boolean expIsRandom -> c boolean isEmpty -> b geogebra.kernel.AlgoElement expressionParentAlgo -> a java.util.ArrayList randomNumberPredecessors -> a java.lang.String getClassName() -> a void setInputOutput() -> a void compute() -> b void createNewList(double,double,double) -> a geogebra.kernel.GeoElement createNewListElement() -> a void updateListItems(double,double,double) -> b void updateLocalVar(double) -> a java.lang.String toString() -> toString geogebra.kernel.AlgoSimplify -> geogebra.a.bL: geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoFunction g -> b java.lang.StringBuffer sb -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoSlope -> geogebra.a.bR: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoNumeric slope -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getSlope() -> a geogebra.kernel.GeoLine getg() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoSort -> geogebra.a.el: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoStepObject -> geogebra.a.v: geogebra.kernel.GeoElement inputGeo -> a geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a boolean wantsConstructionProtocolUpdate() -> a void compute() -> b geogebra.kernel.AlgoSumFunctions -> geogebra.a.r: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric Truncate -> a geogebra.kernel.GeoFunction resultFun -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b geogebra.kernel.AlgoSumLower -> geogebra.a.cz: java.lang.String getClassName() -> a geogebra.kernel.AlgoSumPoints -> geogebra.a.ag: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric Truncate -> a geogebra.kernel.GeoElement result -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b geogebra.kernel.AlgoSumText -> geogebra.a.b: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric Truncate -> a geogebra.kernel.GeoText result -> a java.lang.StringBuffer sb -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getResult() -> a void compute() -> b geogebra.kernel.AlgoSumTrapezoidal -> geogebra.a.dm: java.lang.String getClassName() -> a geogebra.kernel.AlgoSumUpper -> geogebra.a.ab: java.lang.String getClassName() -> a geogebra.kernel.AlgoTableText -> geogebra.a.bA: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoText text -> a geogebra.kernel.GeoText args -> b geogebra.kernel.GeoList[] geoLists -> a java.lang.StringBuffer sb -> a int VERTICAL -> a int HORIZONTAL -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getResult() -> a void compute() -> b void addCell(int,int) -> a geogebra.kernel.AlgoTake -> geogebra.a.cQ: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric m -> a geogebra.kernel.GeoNumeric n -> b geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoTangentCurve -> geogebra.a.ew: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoCurveCartesian f -> a geogebra.kernel.GeoCurveCartesian df -> b geogebra.kernel.GeoLine tangent -> a geogebra.kernel.GeoPoint T -> b boolean pointOnCurve -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getTangent() -> a void compute() -> b geogebra.kernel.AlgoTangentFunctionNumber -> geogebra.a.cB: geogebra.kernel.arithmetic.NumberValue n -> a geogebra.kernel.GeoElement ngeo -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoLine tangent -> a geogebra.kernel.GeoPoint T -> a geogebra.kernel.GeoFunction deriv -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getTangent() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTangentFunctionPoint -> geogebra.a.dP: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoFunction f -> a geogebra.kernel.GeoLine tangent -> a geogebra.kernel.GeoPoint T -> b boolean pointOnFunction -> a geogebra.kernel.GeoFunction deriv -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getTangent() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTangentLine -> geogebra.a.cO: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine[] tangents -> a geogebra.kernel.GeoLine diameter -> b geogebra.kernel.GeoVector direction -> a geogebra.kernel.AlgoIntersectLineConic algoIntersect -> a geogebra.kernel.GeoPoint[] tangentPoints -> a int i -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine[] getTangents() -> a geogebra.kernel.GeoPoint getTangentPoint(geogebra.kernel.GeoConic,geogebra.kernel.GeoLine) -> a void initForNearToRelationship() -> h void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTangentPoint -> geogebra.a.K: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoLine[] tangents -> a geogebra.kernel.GeoLine polar -> a geogebra.kernel.AlgoIntersectLineConic algoIntersect -> a geogebra.kernel.GeoPoint[] tangentPoints -> a boolean equalLines -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine[] getTangents() -> a geogebra.kernel.GeoPoint getTangentPoint(geogebra.kernel.GeoConic,geogebra.kernel.GeoLine) -> a void initForNearToRelationship() -> h void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTaylorSeries -> geogebra.a.aU: geogebra.kernel.GeoFunction f -> a geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue n -> b geogebra.kernel.GeoFunction g -> b geogebra.kernel.GeoElement ageo -> a geogebra.kernel.GeoElement ngeo -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getPolynomial() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoText -> geogebra.a.dY: geogebra.kernel.GeoElement geo -> a geogebra.kernel.GeoBoolean substituteVars -> a geogebra.kernel.GeoPoint startPoint -> a geogebra.kernel.GeoPoint startPointCopy -> b geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getGeoText() -> a void compute() -> b geogebra.kernel.AlgoTextCorner -> geogebra.a.h: geogebra.kernel.GeoText txt -> a geogebra.kernel.GeoPoint corner -> a geogebra.kernel.arithmetic.NumberValue number -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint getCorner() -> a void compute() -> b void euclidianViewUpdate() -> c java.lang.String toString() -> toString geogebra.kernel.AlgoTextToUnicode -> geogebra.a.cV: geogebra.kernel.GeoText text -> a geogebra.kernel.GeoList list -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoTransformation -> geogebra.a.bX: geogebra.kernel.AlgoTranslate -> geogebra.a.dV: geogebra.kernel.Translateable out -> a geogebra.kernel.GeoElement inGeo -> a geogebra.kernel.GeoElement outGeo -> b geogebra.kernel.GeoVector v -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoElement getResult() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTranslateVector -> geogebra.a.du: geogebra.kernel.GeoPoint A -> a geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoVector w -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getTranslatedVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTranspose -> geogebra.a.aw: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b geogebra.kernel.AlgoTurningPointPolynomial -> geogebra.a.ce: java.lang.String getClassName() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoTwoNumFunction -> geogebra.a.f: geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.AlgoUnicodeToLetter -> geogebra.a.az: geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getResult() -> a void compute() -> b geogebra.kernel.AlgoUnicodeToText -> geogebra.a.ch: geogebra.kernel.GeoList list -> a geogebra.kernel.GeoText text -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoText getResult() -> a void compute() -> b geogebra.kernel.AlgoUnion -> geogebra.a.bo: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList inputList2 -> b geogebra.kernel.GeoList outputList -> c int size -> a int size2 -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b void addToOutputList(geogebra.kernel.GeoElement) -> c geogebra.kernel.AlgoUnitOrthoVectorLine -> geogebra.a.bc: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoVector n -> a double length -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoUnitOrthoVectorVector -> geogebra.a.J: geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoVector n -> b double length -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoUnitVectorLine -> geogebra.a.bm: geogebra.kernel.GeoLine g -> a geogebra.kernel.GeoVector u -> a double length -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoUnitVectorVector -> geogebra.a.ck: geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoVector u -> b double length -> a void setInputOutput() -> a java.lang.String getClassName() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgoVector -> geogebra.a.ev: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoPoint Q -> b geogebra.kernel.GeoVector v -> a geogebra.kernel.GeoPoint initialUnlabeledStartPoint -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b geogebra.kernel.AlgoVectorPoint -> geogebra.a.er: geogebra.kernel.GeoPoint P -> a geogebra.kernel.GeoVector v -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoVector getVector() -> a void compute() -> b geogebra.kernel.AlgoVertex -> geogebra.a.dn: geogebra.kernel.GeoConic c -> a geogebra.kernel.GeoPoint[] vertex -> a double temp1 -> a double temp2 -> b geogebra.kernel.GeoVec2D b -> a geogebra.kernel.GeoVec2D[] eigenvec -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoPoint[] getVertex() -> a void compute() -> b java.lang.String toString() -> toString geogebra.kernel.AlgorithmSet -> geogebra.a.aZ: geogebra.util.FastHashMapKeyless hashMap -> a geogebra.kernel.AlgorithmSet$Link head -> a geogebra.kernel.AlgorithmSet$Link tail -> b int size -> a boolean add(geogebra.kernel.AlgoElement) -> a boolean contains(geogebra.kernel.AlgoElement) -> b boolean remove(geogebra.kernel.AlgoElement) -> c void updateAll() -> a void updateAllUntil(geogebra.kernel.AlgoElement) -> a void addAllToCollection(java.util.Collection) -> a java.lang.String toString() -> toString geogebra.kernel.AlgorithmSet$AlgorithmSetIterator getIterator() -> a geogebra.kernel.AlgorithmSet$Link access$0(geogebra.kernel.AlgorithmSet) -> a geogebra.kernel.AlgorithmSet$AlgorithmSetIterator -> geogebra.a.eq: geogebra.kernel.AlgorithmSet$Link cur -> a geogebra.kernel.AlgorithmSet this$0 -> a void remove() -> remove boolean hasNext() -> hasNext java.lang.Object next() -> next geogebra.kernel.AlgorithmSet$Link -> geogebra.a.bf: geogebra.kernel.AlgoElement algo -> a geogebra.kernel.AlgorithmSet$Link next -> a geogebra.kernel.AlgorithmSet this$0 -> a geogebra.kernel.Animatable -> geogebra.a.dq: boolean doAnimationStep(double) -> a geogebra.kernel.AnimationManager -> geogebra.a.bb: geogebra.kernel.Kernel kernel -> a java.util.ArrayList animatedGeos -> a java.util.ArrayList changedGeos -> b javax.swing.Timer timer -> a double frameRate -> a boolean needToShowAnimationButton -> a java.util.TreeSet tempSet -> a void startAnimation() -> a void stopAnimation() -> b void clearAnimatedGeos() -> c boolean isRunning() -> a boolean isPaused() -> b boolean needToShowAnimationButton() -> c void udpateNeedToShowAnimationButton() -> d void addAnimatedGeo(geogebra.kernel.GeoElement) -> a void removeAnimatedGeo(geogebra.kernel.GeoElement) -> b void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed java.util.TreeSet getTempSet() -> a void adaptFrameRate(long) -> a geogebra.kernel.CircularDefinitionException -> geogebra.a.cL: geogebra.kernel.Construction -> geogebra.a.E: java.lang.String title -> a java.lang.String author -> b java.lang.String date -> c java.lang.String[] worksheetText -> a java.util.ArrayList ceList -> a java.util.ArrayList algoList -> b java.util.HashMap geoTable -> a java.util.HashMap localVariableTable -> b java.util.TreeSet geoSet -> a java.util.TreeSet geoSetLabelOrder -> b java.util.TreeSet randomNumbers -> c geogebra.util.FastHashMapKeyless geoSetsTypeMap -> a java.util.ArrayList usedMacros -> c java.util.ArrayList euclidianViewAlgos -> d geogebra.kernel.UndoManager undoManager -> a int step -> b boolean supressLabelCreation -> a boolean collectRedefineCalls -> c java.util.HashMap redefineMap -> c boolean showOnlyBreakpoints -> b int angleUnit -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.GeoAxis xAxis -> a geogebra.kernel.GeoAxis yAxis -> b java.lang.String xAxisLocalName -> d java.lang.String yAxisLocalName -> e geogebra.kernel.ConstructionDefaults consDefaults -> a geogebra.kernel.GeoElement getLastGeoElement() -> a geogebra.kernel.ConstructionDefaults getConstructionDefaults() -> a void initGeoTable() -> j void updateLocalAxesNames() -> a geogebra.kernel.Kernel getKernel() -> a geogebra.main.Application getApplication() -> a geogebra.kernel.EquationSolver getEquationSolver() -> a geogebra.kernel.optimization.ExtremumFinder getExtremumFinder() -> a geogebra.kernel.GeoAxis getXAxis() -> a geogebra.kernel.GeoAxis getYAxis() -> b void setSuppressLabelCreation(boolean) -> a boolean isSuppressLabelsActive() -> a void setShowOnlyBreakpoints(boolean) -> b boolean showOnlyBreakpoints() -> b geogebra.kernel.ConstructionElement getConstructionElement(int) -> a java.util.TreeSet getGeoSetConstructionOrder() -> a java.util.TreeSet getGeoSetLabelOrder() -> b java.util.TreeSet getGeoSetLabelOrder(int) -> a java.util.TreeSet getGeoSetNameDescriptionOrder() -> c void addToConstructionList(geogebra.kernel.ConstructionElement,boolean) -> a void removeFromConstructionList(geogebra.kernel.ConstructionElement) -> a void addToAlgorithmList(geogebra.kernel.AlgoElement) -> a void removeFromAlgorithmList(geogebra.kernel.AlgoElement) -> b boolean moveInConstructionList(geogebra.kernel.GeoElement,int) -> a boolean moveInConstructionList(int,int) -> a void updateConstructionIndex(int) -> b void clearConstruction() -> b void updateConstruction() -> c void updateAllAlgorithms() -> d void registerEuclidianViewAlgo(geogebra.kernel.EuclidianViewAlgo) -> a boolean notifyEuclidianViewAlgos() -> h boolean hasEuclidianViewAlgos() -> i boolean updateAllConstructionProtocolAlgorithms() -> c boolean isEmpty() -> d int steps() -> a void setStep(int) -> a int getStep() -> b void putLabel(geogebra.kernel.GeoElement) -> a void removeLabel(geogebra.kernel.GeoElement) -> b void addToGeoSets(geogebra.kernel.GeoElement) -> c java.util.TreeSet createTypeSet(int) -> b void removeFromGeoSets(geogebra.kernel.GeoElement) -> d void addLocalVariable(java.lang.String,geogebra.kernel.GeoElement) -> a void removeLocalVariable(java.lang.String) -> a geogebra.kernel.GeoElement lookupLabel(java.lang.String) -> a geogebra.kernel.GeoElement lookupLabel(java.lang.String,boolean) -> a geogebra.kernel.GeoElement autoCreateGeoElement(java.lang.String) -> c geogebra.kernel.GeoElement createSpreadsheetGeoElement(geogebra.kernel.GeoElement,java.lang.String) -> a geogebra.kernel.GeoElement geoTabelVarLookup(java.lang.String) -> b boolean isFreeLabel(java.lang.String) -> a void initUndoInfo() -> e void storeUndoInfo() -> f void restoreCurrentUndoInfo() -> g void redo() -> h void undo() -> i boolean undoPossible() -> e boolean redoPossible() -> f void replace(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a void prepareReplace(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> c void updateConstructionOrder(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> b void startCollectingRedefineCalls() -> k void stopCollectingRedefineCalls() -> l void processCollectedRedefineCalls() -> m void doReplaceInXML(java.lang.StringBuffer,geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a void buildConstruction(java.lang.StringBuffer) -> a java.lang.String getXML() -> a java.lang.String getI2G(int) -> a java.lang.String getConstructionXML() -> b java.lang.String getConstructionI2G(int) -> b java.lang.StringBuffer getCurrentUndoXML() -> a java.lang.String getAuthor() -> d java.lang.String getDate() -> e java.lang.String getTitle() -> f void setAuthor(java.lang.String) -> b void setDate(java.lang.String) -> c void setTitle(java.lang.String) -> d java.lang.String getWorksheetText(int) -> c void setWorksheetText(java.lang.String,int) -> a boolean worksheetTextDefined() -> g void addUsedMacro(geogebra.kernel.Macro) -> a java.util.ArrayList getUsedMacros() -> a void addRandomNumber(geogebra.kernel.GeoNumeric) -> a void removeRandomNumber(geogebra.kernel.GeoNumeric) -> b void updateAllRandomNumbers() -> n geogebra.kernel.Construction$LabelComparator -> geogebra.a.am: geogebra.kernel.Construction this$0 -> a int compare(java.lang.Object,java.lang.Object) -> compare geogebra.kernel.ConstructionDefaults -> geogebra.a.be: java.awt.Color colPoint -> c java.awt.Color colDepPoint -> d java.awt.Color colPathPoint -> e java.awt.Color colLine -> f java.awt.Color colConic -> g java.awt.Color colPolygon -> h java.awt.Color colAngle -> i java.awt.Color colLocus -> j java.awt.Color colFunction -> k java.awt.Color colList -> l java.awt.Color colNumber -> m java.awt.Color colPreview -> a java.awt.Color colPreviewFill -> b geogebra.kernel.Construction cons -> a geogebra.util.FastHashMapKeyless defaultGeoElements -> a int lineThickness -> a int pointSize -> b int angleSize -> c void createDefaultGeoElements() -> a geogebra.kernel.GeoElement getDefaultGeo(int) -> a void setDefaultVisualStyles(geogebra.kernel.GeoElement) -> a void adaptDefaultsToFontSize(int) -> a geogebra.kernel.ConstructionElement -> geogebra.a.x: geogebra.kernel.Construction cons -> a geogebra.kernel.Kernel kernel -> a geogebra.main.Application app -> a int constIndex -> a long ceIDcounter -> a long ceID -> b void setConstruction(geogebra.kernel.Construction) -> a geogebra.kernel.Construction getConstruction() -> a geogebra.kernel.Kernel getKernel() -> a int getMinConstructionIndex() -> c int getMaxConstructionIndex() -> d int getConstructionIndex() -> a void setConstructionIndex(int) -> b boolean isInConstructionList() -> h boolean isConsProtocolBreakpoint() -> i boolean isAvailableAtConstructionStep(int) -> a boolean isIndependent() -> j java.lang.String getXML() -> e java.lang.String getI2G(int) -> a void remove() -> d void update() -> e void notifyRemove() -> f void notifyAdd() -> g geogebra.kernel.GeoElement[] getGeoElements() -> a boolean isGeoElement() -> k boolean isAlgoElement() -> l java.lang.String getClassName() -> a int compareTo(java.lang.Object) -> compareTo boolean equals(java.lang.Object) -> equals geogebra.kernel.Dilateable -> geogebra.a.bK: void dilate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.EquationSolver -> geogebra.a.cN: double epsilon -> a geogebra.kernel.roots.RealRoot rootPolisher -> a void setEpsilon(double) -> a int polynomialRoots(double[]) -> a int solveQuadratic(double[],double[]) -> a int solveCubic(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 geogebra.kernel.EuclidianViewAlgo -> geogebra.a.ee: void euclidianViewUpdate() -> c geogebra.kernel.GeoAngle -> geogebra.a.H: int arcSize -> a boolean emphasizeRightAngle -> b double rawValue -> g int angleStyle -> i java.lang.Integer[] getDecoTypes() -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b boolean isGeoAngle() -> p_ boolean isAngle() -> aA void set(geogebra.kernel.GeoElement) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b void setValue(double) -> a double calcAngleValue(double) -> a void setIntervalMax(double) -> b void setIntervalMin(double) -> c void setEuclidianVisible(boolean) -> b geogebra.kernel.GeoElement copy() -> a void setAllowReflexAngle(boolean) -> c void setForceReflexAngle(boolean) -> a_ void setAngleStyle(int) -> a int getAngleStyle() -> a_ double getRawAngle() -> a int angleStyle() -> f java.lang.String toValueString() -> c geogebra.kernel.arithmetic.MyDouble getNumber() -> a int getArcSize() -> g void setArcSize(int) -> c java.lang.String getXMLtags() -> d java.lang.String getXMLAllowReflexAngleTag() -> h java.lang.String getXMLEmphasizeRightAngleTag() -> f void setDecorationType(int) -> d boolean isEmphasizeRightAngle() -> n void setEmphasizeRightAngle(boolean) -> e void setZero() -> c geogebra.kernel.GeoAxis -> geogebra.a.af: geogebra.kernel.GeoPoint origin -> c int type -> a int getType() -> e boolean isAvailableAtConstructionStep(int) -> a java.lang.String getLabel() -> a_ int getGeoClassType() -> b geogebra.kernel.GeoBoolean -> geogebra.a.aV: boolean value -> a boolean isDefined -> b boolean checkboxFixed -> i java.util.ArrayList condListenersShowObject -> a java.lang.StringBuffer sbToString -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b void setValue(boolean) -> c boolean getBoolean() -> m geogebra.kernel.arithmetic.MyBoolean getMyBoolean() -> a geogebra.kernel.GeoElement copy() -> a void registerConditionListener(geogebra.kernel.GeoElement) -> c void unregisterConditionListener(geogebra.kernel.GeoElement) -> d void update() -> e void doRemove() -> h void resolveVariables() -> a boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ boolean isFixable() -> u void set(geogebra.kernel.GeoElement) -> a void setUndefined() -> j boolean isDefined() -> a java.lang.String toValueString() -> c java.lang.String toString() -> toString java.lang.StringBuffer getSbToString() -> a boolean isConstant() -> c boolean isLeaf() -> d java.util.HashSet getVariables() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.lang.String getXMLtags() -> d boolean isBooleanValue() -> t_ boolean isGeoBoolean() -> o_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ double getRealWorldLocX() -> a_ double getRealWorldLocY() -> b boolean isAbsoluteScreenLocActive() -> x boolean isAbsoluteScreenLocateable() -> y void setAbsoluteScreenLoc(int,int) -> a int getAbsoluteScreenLocX() -> e int getAbsoluteScreenLocY() -> b_ void setAbsoluteScreenLocActive(boolean) -> d void setRealWorldLoc(double,double) -> a boolean isCheckboxFixed() -> D void setCheckboxFixed(boolean) -> e boolean isEqual(geogebra.kernel.GeoElement) -> a boolean isNumberValue() -> d_ double getDouble() -> e geogebra.kernel.arithmetic.MyDouble getNumber() -> a geogebra.kernel.GeoConic -> geogebra.a.bE: java.lang.String[] vars -> a boolean KEEP_LEADING_SIGN -> b int type -> a double[] matrix -> a double maxCoeffAbs -> f java.awt.geom.AffineTransform transform -> a java.awt.geom.AffineTransform oldTransform -> b boolean trace -> a double eigenvecX -> a double eigenvecY -> b geogebra.kernel.GeoVec2D[] eigenvec -> a geogebra.kernel.GeoVec2D b -> a double[] halfAxes -> b double excent -> c double p -> d geogebra.kernel.GeoLine[] lines -> a geogebra.kernel.GeoPoint singlePoint -> a geogebra.kernel.GeoPoint[] startPoints -> a boolean defined -> i java.util.ArrayList pointsOnConic -> a geogebra.kernel.EquationSolver eqnSolver -> 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 -> i double[] eigenval -> c double[] mu -> d geogebra.kernel.GeoVec2D c -> b double[] coeffs -> e java.lang.StringBuffer sbToString -> a java.lang.StringBuffer sbToValueString -> b boolean eigenvectorsSetOnLoad -> j java.lang.String getClassName() -> a int getGeoClassType() -> b java.lang.String getTypeString() -> b geogebra.kernel.GeoElement copy() -> a boolean isFillable() -> v boolean isTraceable() -> l_ void setTrace(boolean) -> d boolean getTrace() -> x boolean isPath() -> f java.util.ArrayList getPointsOnConic() -> a void setPointsOnConic(java.util.ArrayList) -> a void addPointOnConic(geogebra.kernel.GeoPoint) -> a void removePointOnConic(geogebra.kernel.GeoPoint) -> h void set(geogebra.kernel.GeoElement) -> a void update() -> e void setToStringMode(int) -> d_ int getToStringMode() -> e int getType() -> f boolean isCircle() -> D void setToSpecific() -> b void setToImplicit() -> i void setToExplicit() -> k boolean isSpecificPossible() -> q_ boolean isExplicitPossible() -> F boolean isDefined() -> a void setUndefined() -> j boolean checkDefined() -> au boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ boolean isLineConic() -> G boolean isDegenerate() -> H void setCoeffs(double[]) -> a void setCoeffs(double,double,double,double,double,double) -> a java.lang.String toString() -> toString java.lang.StringBuffer getSbToString() -> a java.lang.String toValueString() -> c java.lang.StringBuffer buildValueString() -> b java.lang.StringBuffer sbToValueString() -> c double[] getHalfAxes() -> a geogebra.kernel.GeoLine[] getLines() -> a geogebra.kernel.GeoPoint getSinglePoint() -> a java.awt.geom.AffineTransform getAffineTransform() -> a void setAffineTransform() -> w geogebra.kernel.GeoVec2D getTranslationVector() -> a void coordsEVtoRW(geogebra.kernel.GeoPoint) -> b void coordsRWtoEV(geogebra.kernel.GeoPoint) -> f void setMatrix(double[]) -> b void setDegenerateMatrixFromArray(double[]) -> c void setMatrix(double[][]) -> a void setCircle(geogebra.kernel.GeoPoint,double) -> a void setCircle(geogebra.kernel.GeoPoint,geogebra.kernel.GeoSegment) -> a void setCircle(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a void setCircleMatrix(geogebra.kernel.GeoPoint,double) -> b void setParabola(geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a void setEllipseHyperbola(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,double) -> a void translate(geogebra.kernel.GeoVector) -> a boolean isTranslateable() -> b_ void translate(double,double) -> a void doTranslate(double,double) -> b void rotate(geogebra.kernel.arithmetic.NumberValue) -> a void rotate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b void rotate(double) -> a void dilate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a void doDilate(double) -> b void mirror(geogebra.kernel.GeoPoint) -> c void mirror(geogebra.kernel.GeoLine) -> a void mirror(double) -> c void updateDegenerates() -> x void setEigenvectors(double,double,double,double,double,double) -> b void setEigenvectors() -> y void setParabolicEigenvectors() -> z void makePathParametersInvalid() -> H void classifyConic() -> A void classifyConic(boolean) -> c boolean isDetSzero() -> g void classifyMidpointConic(boolean) -> e void singlePoint() -> B void intersectingLines(double[]) -> d void ellipse(double[]) -> e void hyperbola(double[]) -> f void empty() -> C void classifyParabolicConic(boolean) -> p void doubleLine() -> D void enforceDoubleLine() -> l void handleSzero() -> E void parallelLines(double[]) -> g void setStartPointsForLines() -> I void parabola() -> F boolean hasPositiveEigenvectorOrientation() -> m void setPositiveEigenvectorOrientation(boolean) -> q boolean isIntersectionPointIncident(geogebra.kernel.GeoPoint,double) -> a boolean isOnFullConic(geogebra.kernel.GeoPoint,double) -> b boolean isEqual(geogebra.kernel.GeoElement) -> a double evaluate(double,double) -> a void polarLine(geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> b void diameterLine(geogebra.kernel.GeoVector,geogebra.kernel.GeoLine) -> a java.lang.String getXMLtags() -> d java.lang.String getSpecificEquation() -> g void pointChanged(geogebra.kernel.GeoPoint) -> d void pathChanged(geogebra.kernel.GeoPoint) -> e boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a boolean isClosedPath() -> e boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isGeoConic() -> I void setZero() -> c geogebra.kernel.GeoConicPart -> geogebra.a.eh: double paramStart -> f double paramEnd -> g double paramExtent -> h boolean posOrientation -> b int conic_part_type -> i double value -> i double area -> j boolean value_defined -> i geogebra.kernel.integration.EllipticArcLength ellipticArcLength -> a boolean allowOutlyingIntersections -> j boolean keepTypeOnGeometricTransform -> k java.lang.StringBuffer sbToString -> a geogebra.kernel.PathParameter tempPP -> a java.lang.String getClassName() -> a int getGeoClassType() -> b java.lang.String getTypeString() -> b geogebra.kernel.GeoElement copyInternal(geogebra.kernel.Construction) -> a void set(geogebra.kernel.GeoElement) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b int getConicPartType() -> g double getParameterStart() -> c double getParameterEnd() -> d double getParameterExtent() -> j boolean positiveOrientation() -> au boolean isEqual(geogebra.kernel.GeoElement) -> a void setParameters(double,double,boolean) -> a boolean isDefined() -> a void setUndefined() -> j double getValue() -> k double getArea() -> l java.lang.String toString() -> toString java.lang.String toValueString() -> c boolean allowOutlyingIntersections() -> g void setAllowOutlyingIntersections(boolean) -> a void setKeepTypeOnGeometricTransform(boolean) -> b_ boolean isLimitedPath() -> K boolean isIntersectionPointIncident(geogebra.kernel.GeoPoint,double) -> a boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c geogebra.kernel.PathParameter getTempPathParameter() -> a boolean isClosedPath() -> e void pointChanged(geogebra.kernel.GeoPoint) -> d void setEllipseParameter(geogebra.kernel.GeoPoint) -> f void clipEllipseParameter(geogebra.kernel.GeoPoint) -> g void pathChanged(geogebra.kernel.GeoPoint) -> e double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a java.lang.String getXMLtags() -> d geogebra.kernel.arithmetic.MyDouble getNumber() -> a double getDouble() -> e boolean isNumberValue() -> d_ boolean isGeoConicPart() -> aj geogebra.kernel.GeoElement[] createTransformedObject(int,java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement copy() -> a geogebra.kernel.GeoCurveCartesian -> geogebra.a.di: geogebra.kernel.arithmetic.Function funX -> a geogebra.kernel.arithmetic.Function funY -> b double startParam -> b double endParam -> c boolean isDefined -> a boolean isClosedPath -> b boolean trace -> i boolean spreadsheetTrace -> j double CURVATURE_COLOR -> a geogebra.kernel.ParametricCurveDistanceFunction distFun -> a java.lang.StringBuffer sbToString -> a java.lang.StringBuffer sbTemp -> b java.lang.String getClassName() -> a java.lang.String getTypeString() -> b java.lang.String translatedTypeString() -> q int getGeoClassType() -> b geogebra.kernel.GeoElement copy() -> a void setFunctionX(geogebra.kernel.arithmetic.Function) -> a void setFunctionY(geogebra.kernel.arithmetic.Function) -> b void replaceChildrenByValues(geogebra.kernel.GeoElement) -> c void setInterval(double,double) -> a void set(geogebra.kernel.GeoElement) -> a void setDerivative(geogebra.kernel.GeoDeriveable,int) -> a geogebra.kernel.roots.RealRootFunction getRealRootFunctionX() -> a geogebra.kernel.roots.RealRootFunction getRealRootFunctionY() -> b geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a void translate(geogebra.kernel.GeoVector) -> a boolean isTranslateable() -> b_ boolean isDefined() -> a void setUndefined() -> j boolean showInAlgebraView() -> a_ boolean showInEuclidianView() -> b java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toSymbolicString() -> g java.lang.String toLaTeXString(boolean) -> a java.lang.String getXMLtags() -> d void pointChanged(geogebra.kernel.GeoPoint) -> d boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c void pathChanged(geogebra.kernel.GeoPoint) -> e boolean isPath() -> f double getClosestParameter(geogebra.kernel.GeoPoint,double) -> a double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a boolean isClosedPath() -> e boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isGeoCurveCartesian() -> ap boolean isTraceable() -> l_ boolean getTrace() -> x void setTrace(boolean) -> d void evaluateCurve(double,double[]) -> a geogebra.kernel.GeoVec2D evaluateCurve(double) -> a double evaluateCurvature(double) -> a boolean isGeoCurveable() -> aq boolean isGeoDeriveable() -> C java.lang.String getVarString() -> h boolean isFunctionInX() -> D boolean isEqual(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoDeriveable -> geogebra.a.bt: void setDerivative(geogebra.kernel.GeoDeriveable,int) -> a java.lang.String toSymbolicString() -> g java.lang.String getVarString() -> h geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.GeoElement -> geogebra.a.cl: char[] complexLabels -> h char[] pointLabels -> a char[] functionLabels -> b char[] lineLabels -> c char[] vectorLabels -> d char[] conicLabels -> e char[] lowerCaseLabels -> f char[] greekLowerCase -> g java.lang.String label -> a java.lang.String oldLabel -> b java.lang.String caption -> c boolean labelWanted -> c boolean labelSet -> d boolean localVarLabelSet -> e boolean euclidianVisible -> a boolean algebraVisible -> f boolean labelVisible -> b boolean isConsProtBreakpoint -> i boolean isAlgoMacroOutput -> j boolean fixed -> k int labelMode -> a int toStringMode -> b java.awt.Color objColor -> a java.awt.Color selColor -> b java.awt.Color labelColor -> c java.awt.Color fillColor -> d int layer -> c double animationIncrement -> e geogebra.kernel.arithmetic.NumberValue animationSpeedObj -> a boolean animating -> l int animationType -> i int animationDirection -> j float alphaValue -> a int labelOffsetX -> d int labelOffsetY -> e boolean auxiliaryObject -> m java.awt.Point spreadsheetCoords -> a java.awt.Point oldSpreadsheetCoords -> b int cellRangeUsers -> k geogebra.kernel.GeoBoolean condShowObject -> a geogebra.kernel.GeoList colFunction -> a boolean useVisualDefaults -> n boolean isColorSet -> o boolean highlighted -> g boolean selected -> p java.lang.String strAlgebraDescription -> d java.lang.String strAlgebraDescTextOrHTML -> e java.lang.String strAlgebraDescriptionHTML -> f java.lang.String strLabelTextOrHTML -> g boolean strAlgebraDescriptionNeedsUpdate -> q boolean strAlgebraDescTextOrHTMLneedsUpdate -> r boolean strAlgebraDescriptionHTMLneedsUpdate -> s boolean strLabelTextOrHTMLUpdate -> t boolean strLaTeXneedsUpdate -> u int lineThickness -> f int lineType -> g int decorationType -> h geogebra.kernel.AlgoElement algoParent -> a java.util.ArrayList algorithmList -> a geogebra.kernel.AlgorithmSet algoUpdateSet -> a java.lang.StringBuffer captionSB -> j java.util.regex.Pattern spreadsheetPattern -> a java.lang.StringBuffer sbDefaultLabel -> a java.lang.StringBuffer sbIndexLabel -> b geogebra.kernel.GeoElement[] myGeoElements -> a java.lang.StringBuffer sbLongDesc -> c java.lang.StringBuffer sbLongDescHTML -> d java.lang.StringBuffer sbToolTipDesc -> e java.lang.StringBuffer sbAlgebraDesc -> f java.lang.String subBegin -> h java.lang.String subEnd -> i java.lang.StringBuffer sbIndicesToHTML -> g java.lang.StringBuffer sbNameDescription -> h java.lang.String strHasIndexLabel -> j boolean hasIndexLabel -> v java.lang.StringBuffer sbNameDescriptionHTML -> i java.util.ArrayList moveObjectsUpdateList -> b java.util.TreeSet tempSet -> a java.util.ArrayList tempMoveObjectList -> c int traceColumn1 -> l double lastTrace1 -> b double lastTrace2 -> c boolean inTree -> h java.lang.String getLabel() -> a_ void copyLabel(geogebra.kernel.GeoElement) -> f void setLabelMode(int) -> k int getLabelMode() -> p int getGeoClassType() -> b geogebra.kernel.GeoElement copy() -> a geogebra.kernel.GeoElement copyInternal(geogebra.kernel.Construction) -> a geogebra.kernel.GeoPoint[] copyPoints(geogebra.kernel.Construction,geogebra.kernel.GeoPoint[]) -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a void resolveVariables() -> a void set(geogebra.kernel.GeoElement) -> a boolean isDefined() -> a void setUndefined() -> j java.lang.String toValueString() -> c java.lang.String getRedefineString(boolean,boolean) -> d java.lang.String getDefinitionForInputBar() -> m java.lang.String getValueForInputBar() -> K void setZero() -> c java.lang.String toOutputValueString() -> i void setConstructionDefaults() -> m void setObjColor(java.awt.Color) -> a boolean isColorSet() -> J java.awt.Color getRGBFromList(float) -> a java.awt.Color getRGBFromList(int) -> a java.awt.Color getSelColor() -> a java.awt.Color getFillColor() -> b java.awt.Color getAlgebraColor() -> c java.awt.Color getLabelColor() -> d void setLabelColor(java.awt.Color) -> b java.awt.Color getObjectColor() -> e void setLayer(int) -> e int getLayer() -> q long getDrawingPriority() -> b void setAlphaValue(float) -> a float getAlphaValue() -> a boolean isLimitedPath() -> K boolean isPath() -> f boolean isGeoList() -> n_ void setAllVisualProperties(geogebra.kernel.GeoElement) -> g void setVisualStyle(geogebra.kernel.GeoElement) -> b void setLabelOffset(int,int) -> b boolean isVisible() -> L boolean isEuclidianVisible() -> M void setEuclidianVisible(boolean) -> b boolean isSetEuclidianVisible() -> N boolean isConsProtocolBreakpoint() -> i void setConsProtocolBreakpoint(boolean) -> f boolean isDrawable() -> g_ boolean isFillable() -> v boolean isTraceable() -> l_ boolean isFixed() -> O void setFixed(boolean) -> g boolean isFixable() -> u void removeOrSetUndefinedIfHasFixedDescendent() -> G boolean isAuxiliaryObject() -> P geogebra.kernel.GeoElement toGeoElement() -> b void setAuxiliaryObject(boolean) -> h void setLabelVisible(boolean) -> i boolean isLabelVisible() -> Q boolean isLabelShowable() -> R boolean isLabelValueShowable() -> S boolean isAlgebraVisible() -> T boolean showToolTipText() -> k_ void setAlgebraVisible(boolean) -> j boolean isSetAlgebraVisible() -> U boolean showInAlgebraView() -> a_ boolean showInEuclidianView() -> b boolean isEuclidianShowable() -> V boolean isAlgebraShowable() -> W void setParentAlgorithm(geogebra.kernel.AlgoElement) -> a geogebra.kernel.AlgoElement getParentAlgorithm() -> a java.util.ArrayList getAlgorithmList() -> b boolean isIndependent() -> j boolean isChangeable() -> X boolean isPointOnPath() -> Y boolean isRedefineable() -> Z boolean isMoveable() -> s boolean hasMoveableInputPoints() -> aa java.util.ArrayList getFreeInputPoints() -> c boolean hasOnlyFreeInputPoints() -> ab boolean containsOnlyMoveableGeos(java.util.ArrayList) -> a boolean isTranslateable() -> b_ boolean isRotateMoveable() -> t boolean hasProperties() -> ac void setAnimationStep(double) -> d double getAnimationStep() -> f geogebra.kernel.GeoElement getAnimationSpeedObject() -> d double getAnimationSpeed() -> g void setAnimationSpeedObject(geogebra.kernel.arithmetic.NumberValue) -> b void setAnimationSpeed(double) -> e void initAnimationSpeedObject() -> k int getAnimationType() -> r void setAnimationType(int) -> l int getAnimationDirection() -> s void changeAnimationDirection() -> n void setAnimating(boolean) -> k boolean isAnimating() -> ad boolean isAnimatable() -> ae java.lang.String toLaTeXString(boolean) -> a void addCellRangeUser() -> o void removeCellRangeUser() -> p boolean isRenameable() -> af boolean rename(java.lang.String) -> a boolean isLabelSet() -> ag void setLabel(java.lang.String) -> b void setLoadedLabel(java.lang.String) -> c boolean setCaption(java.lang.String) -> b java.lang.String getCaption() -> j java.lang.String getRawCaption() -> L void setLocalVariableLabel(java.lang.String) -> d void doSetLabel(java.lang.String) -> a void updateSpreadsheetCoordinates() -> b java.awt.Point getSpreadsheetCoordsForLabel(java.lang.String) -> a java.lang.String getSpreadsheetCellName(int,int) -> a java.lang.String getSpreadsheetColumnName(int) -> b java.lang.String getSpreadsheetColumnName(java.lang.String) -> a java.lang.String getSpreadsheetLabelWithDollars(boolean,boolean) -> a boolean isSpreadsheetLabel(java.lang.String) -> c int getSpreadsheetColumn(java.util.regex.Matcher) -> a int getSpreadsheetRow(java.util.regex.Matcher) -> b void doRenameLabel(java.lang.String) -> e java.lang.String getOldLabel() -> k void setLabels(java.lang.String,geogebra.kernel.GeoElement[]) -> a void setLabels(java.lang.String[],geogebra.kernel.GeoElement[]) -> a void setLabels(java.lang.String[],geogebra.kernel.GeoElement[],boolean) -> a java.lang.String getFreeLabel(java.lang.String) -> b java.lang.String getDefaultLabel() -> l java.lang.String getIndexLabel(java.lang.String) -> c void remove() -> d void doRemove() -> h void notifyAdd() -> g void notifyRemove() -> f void notifyUpdate() -> q void notifyUpdateAuxiliaryObject() -> r void addAlgorithm(geogebra.kernel.AlgoElement) -> b void addToAlgorithmListOnly(geogebra.kernel.AlgoElement) -> c void addToUpdateSetOnly(geogebra.kernel.AlgoElement) -> d void removeAlgorithm(geogebra.kernel.AlgoElement) -> e geogebra.kernel.AlgorithmSet getAlgoUpdateSet() -> a void addToUpdateSets(geogebra.kernel.AlgoElement) -> g void removeFromUpdateSets(geogebra.kernel.AlgoElement) -> f void update() -> e void algebraStringsNeedUpdate() -> i void updateCascade() -> s void updateCascade(java.util.ArrayList,java.util.TreeSet) -> a void updateRepaint() -> b_ void updateCascadeParentAlgo() -> t java.lang.String toString() -> toString boolean isConstant() -> c boolean isLeaf() -> d geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.util.HashSet getVariables() -> a java.util.ArrayList getRandomNumberPredecessorsWithoutLabels() -> d java.util.TreeSet getAllPredecessors() -> a void addPredecessorsToSet(java.util.TreeSet,boolean) -> a boolean isParentOf(geogebra.kernel.GeoElement) -> b boolean hasChildren() -> ah boolean isChildOf(geogebra.kernel.GeoElement) -> c java.util.TreeSet getAllChildren() -> b geogebra.kernel.GeoElement[] getGeoElements() -> a boolean isAlgoElement() -> l boolean isGeoElement() -> k int getConstructionIndex() -> a int getMinConstructionIndex() -> c int getMaxConstructionIndex() -> d java.lang.String getDefinitionDescription() -> n java.lang.String getDefinitionDescriptionHTML(boolean) -> b java.lang.String getCommandDescription() -> o java.lang.String getCommandDescriptionHTML(boolean) -> c java.lang.String getTypeString() -> b java.lang.String getObjectType() -> p java.lang.String translatedTypeString() -> q java.lang.String getLongDescription() -> r java.lang.String getLongDescriptionHTML(boolean,boolean) -> b java.lang.String getToolTipDescriptionHTML(java.util.ArrayList,boolean,boolean) -> a java.lang.String getLabelDescription() -> s java.lang.String toDefinedValueString() -> t java.lang.String getAlgebraDescriptionTextOrHTML() -> u java.lang.String getAlgebraDescriptionHTML(boolean) -> d java.lang.String getLabelTextOrHTML() -> v java.lang.String getAlgebraDescription() -> w java.lang.String indicesToHTML(java.lang.String,boolean) -> a java.lang.String getNameDescription() -> x java.lang.String getNameDescriptionTextOrHTML() -> y boolean hasIndexLabel() -> ai java.lang.String getNameDescriptionHTML(boolean,boolean) -> c java.lang.String getXMLtypeString() -> z java.lang.String getXML() -> e java.lang.String getCaptionXML() -> J java.lang.String getI2G(int) -> a java.lang.String getAuxiliaryXML() -> A java.lang.String getXMLvisualTags() -> B java.lang.String getXMLvisualTags(boolean) -> e java.lang.String getXMLanimationTags() -> C java.lang.String getXMLfixedTag() -> D java.lang.String getXMLtags() -> d java.lang.String getI2Gtags() -> E java.lang.String getLineStyleXML() -> F java.lang.String getBreakpointXML() -> G java.lang.String getShowObjectConditionXML() -> g int getLineThickness() -> h int getLineType() -> i void setLineThickness(int) -> b_ void setLineType(int) -> c_ void setDecorationType(int) -> d boolean isGeoAngle() -> p_ boolean isGeoBoolean() -> o_ boolean isGeoConic() -> I boolean isGeoConicPart() -> aj boolean isGeoFunction() -> z boolean isGeoFunctionConditional() -> r_ boolean isGeoFunctionable() -> A boolean isGeoImage() -> w boolean isGeoLine() -> c_ boolean isGeoLocus() -> E boolean isGeoNumeric() -> ak boolean isGeoPoint() -> al boolean isGeoPolygon() -> m_ boolean isGeoRay() -> am boolean isGeoSegment() -> an boolean isGeoText() -> ao boolean isGeoVector() -> r boolean isGeoCurveCartesian() -> ap boolean isGeoCurveable() -> aq boolean isGeoDeriveable() -> C boolean isExpressionNode() -> h_ boolean isVariable() -> o boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a void setSelected(boolean) -> l void setHighlighted(boolean) -> m boolean doHighlighting() -> ar boolean isNumberValue() -> d_ boolean isAngle() -> aA boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isListValue() -> j_ void setUseVisualDefaults(boolean) -> n boolean isAbsoluteScreenLocateable() -> y geogebra.kernel.GeoBoolean getShowObjectCondition() -> a void setShowObjectCondition(geogebra.kernel.GeoBoolean) -> a void removeCondition(geogebra.kernel.GeoBoolean) -> b geogebra.kernel.GeoList getColorFunction() -> a void setColorFunction(geogebra.kernel.GeoList) -> a void removeColorFunction() -> u boolean moveObjects(java.util.ArrayList,geogebra.kernel.GeoVector,java.awt.geom.Point2D$Double) -> a java.util.TreeSet getTempSet() -> c boolean moveObject(geogebra.kernel.GeoVector,java.awt.geom.Point2D$Double,java.util.ArrayList) -> a java.awt.Point getSpreadsheetCoords() -> a java.awt.Point getOldSpreadsheetCoords() -> b boolean isAlgoMacroOutput() -> as void setAlgoMacroOutput(boolean) -> o boolean isEqual(geogebra.kernel.GeoElement) -> a java.lang.String getFormulaString(int,boolean) -> a void resetTraceColumns() -> v java.lang.String getTraceColumn1() -> H java.lang.String getTraceColumn2() -> I int getTraceRow() -> t double getLastTrace1() -> h double getLastTrace2() -> i void setLastTrace1(double) -> f void setLastTrace2(double) -> g geogebra.kernel.GeoElement getGeoElementForPropertiesDialog() -> c boolean isTextCommand() -> at void setInTree(boolean) -> c_ geogebra.kernel.GeoFunction -> geogebra.a.ak: geogebra.kernel.arithmetic.Function fun -> a boolean isDefined -> a boolean trace -> b java.lang.String varStr -> b boolean includesDivisionByVar -> i double CURVATURE_COLOR -> a geogebra.kernel.GeoFunction derivGeoFun -> a geogebra.kernel.arithmetic.Function includesDivisionByVarFun -> b java.lang.StringBuffer sbToString -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b geogebra.kernel.GeoElement copy() -> a void set(geogebra.kernel.GeoElement) -> a void setFunction(geogebra.kernel.arithmetic.Function) -> a geogebra.kernel.arithmetic.Function getFunction() -> a boolean setInterval(double,double) -> a geogebra.kernel.arithmetic.ExpressionNode getFunctionExpression() -> a void replaceChildrenByValues(geogebra.kernel.GeoElement) -> c geogebra.kernel.arithmetic.Function getFunction(double) -> a void setDerivative(geogebra.kernel.GeoDeriveable,int) -> a void setIntegral(geogebra.kernel.GeoFunction) -> a void setExpanded(geogebra.kernel.GeoFunction) -> b double evaluate(double) -> a boolean evaluateBoolean(double) -> a geogebra.kernel.GeoFunction getGeoDerivative(int) -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a void translate(geogebra.kernel.GeoVector) -> a boolean isTranslateable() -> b_ void translate(double,double) -> a boolean isPolynomialFunction(boolean,boolean) -> a boolean isPolynomialFunction(boolean) -> a boolean includesDivisionByVar() -> p boolean isDefined() -> a void setDefined(boolean) -> c void setUndefined() -> j boolean showInAlgebraView() -> a_ boolean showInEuclidianView() -> b java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toSymbolicString() -> g java.lang.String toLaTeXString(boolean) -> a java.lang.String getXML() -> e java.lang.String getXMLtags() -> d void pointChanged(geogebra.kernel.GeoPoint) -> d boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c void pathChanged(geogebra.kernel.GeoPoint) -> e boolean isPath() -> f double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a boolean isClosedPath() -> e boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isTraceable() -> l_ boolean getTrace() -> x void setTrace(boolean) -> d geogebra.kernel.GeoFunction getGeoFunction() -> a boolean isGeoFunction() -> z boolean isGeoFunctionable() -> A boolean isBooleanFunction() -> B void evaluateCurve(double,double[]) -> a double evaluateCurvature(double) -> b geogebra.kernel.roots.RealRootFunction getRealRootFunctionX() -> a geogebra.kernel.roots.RealRootFunction getRealRootFunctionY() -> b geogebra.kernel.GeoVec2D evaluateCurve(double) -> a boolean isGeoDeriveable() -> C java.lang.String getVarString() -> h boolean isFunctionInX() -> D boolean isEqual(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoFunction add(geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoFunction$1 -> geogebra.a.ec: geogebra.kernel.GeoFunction this$0 -> a double evaluate(double) -> a geogebra.kernel.GeoFunction$2 -> geogebra.a.aa: geogebra.kernel.GeoFunction this$0 -> a double evaluate(double) -> a geogebra.kernel.GeoFunctionConditional -> geogebra.a.bS: boolean isDefined -> i geogebra.kernel.GeoFunction condFun -> a geogebra.kernel.GeoFunction ifFun -> b geogebra.kernel.GeoFunction elseFun -> c geogebra.kernel.GeoFunctionConditional derivGeoFun -> a java.lang.StringBuffer sbToString -> a geogebra.kernel.GeoElement copy() -> a void set(geogebra.kernel.GeoElement) -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b boolean isDefined() -> a geogebra.kernel.GeoFunction getIfFunction() -> b geogebra.kernel.GeoFunction getElseFunction() -> c boolean setInterval(double,double) -> a void replaceChildrenByValues(geogebra.kernel.GeoElement) -> c void setDerivative(geogebra.kernel.GeoDeriveable,int) -> a void setIntegral(geogebra.kernel.GeoFunction) -> a double evaluate(double) -> a void translate(double,double) -> a geogebra.kernel.arithmetic.Function getFunction(double) -> a geogebra.kernel.GeoFunction getGeoDerivative(int) -> a boolean isPolynomialFunction(boolean,boolean) -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toSymbolicString() -> g java.lang.String toString(boolean) -> f java.lang.String toLaTeXString(boolean) -> a void pointChanged(geogebra.kernel.GeoPoint) -> d boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c boolean isGeoFunction() -> z boolean isGeoFunctionConditional() -> r_ boolean isBooleanFunction() -> B boolean isEqual(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoFunctionable -> geogebra.a.bN: geogebra.kernel.GeoFunction getGeoFunction() -> a geogebra.kernel.GeoImage -> geogebra.a.ac: java.lang.String fileName -> b geogebra.kernel.GeoPoint[] corners -> a java.awt.image.BufferedImage image -> a int pixelWidth -> a int pixelHeight -> i boolean inBackground -> b boolean hasAbsoluteLocation -> i int screenX -> j int screenY -> k boolean hasAbsoluteScreenLocation -> a geogebra.kernel.GeoPoint[] tempPoints -> b java.util.Vector instances -> a double[] tempCoords -> a geogebra.kernel.GeoElement copy() -> a void initTempPoints() -> k void set(geogebra.kernel.GeoElement) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b void updateInstances() -> i boolean showToolTipText() -> k_ boolean isInBackground() -> p void setInBackground(boolean) -> c void setFileName(java.lang.String) -> a java.lang.String getFileName() -> f java.awt.image.BufferedImage getImage() -> a void setStartPoint(geogebra.kernel.GeoPoint) -> b void removeStartPoint(geogebra.kernel.GeoPoint) -> a void setStartPoint(geogebra.kernel.GeoPoint,int) -> a void initStartPoint(geogebra.kernel.GeoPoint,int) -> b void setCorner(geogebra.kernel.GeoPoint,int) -> c void updateHasAbsoluteLocation() -> l void doRemove() -> h geogebra.kernel.GeoPoint getStartPoint() -> a geogebra.kernel.GeoPoint[] getStartPoints() -> a geogebra.kernel.GeoPoint getCorner(int) -> a boolean hasAbsoluteLocation() -> q void setWaitForStartPoint() -> b boolean isDefined() -> a void setUndefined() -> j java.lang.String toValueString() -> c java.lang.String toString() -> toString boolean showInAlgebraView() -> a_ boolean showInEuclidianView() -> b java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b boolean isMoveable() -> s boolean isRotateMoveable() -> t boolean isFixable() -> u boolean isFillable() -> v boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isGeoImage() -> w boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ java.lang.String getXMLtags() -> d java.lang.String getXMLabsScreenLoc() -> g java.lang.String getCornerPointXML(int) -> c void setAbsoluteScreenLoc(int,int) -> a int getAbsoluteScreenLocX() -> e int getAbsoluteScreenLocY() -> b_ void setRealWorldLoc(double,double) -> a double getRealWorldLocX() -> a_ double getRealWorldLocY() -> b void setAbsoluteScreenLocActive(boolean) -> d boolean isAbsoluteScreenLocActive() -> x boolean isAbsoluteScreenLocateable() -> y void calculateCornerPoint(geogebra.kernel.GeoPoint,int) -> d void getInternalCornerPointCoords(double[],int) -> a boolean initTransformPoints() -> G void rotate(geogebra.kernel.arithmetic.NumberValue) -> a void rotate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b void mirror(geogebra.kernel.GeoPoint) -> c void mirror(geogebra.kernel.GeoLine) -> a void translate(geogebra.kernel.GeoVector) -> a boolean isTranslateable() -> b_ void dilate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a boolean isEqual(geogebra.kernel.GeoElement) -> a boolean isAlwaysFixed() -> g geogebra.kernel.GeoLine -> geogebra.a.k: java.lang.String parameter -> b geogebra.kernel.GeoPoint startPoint -> a geogebra.kernel.GeoPoint endPoint -> b boolean KEEP_LEADING_SIGN -> i java.lang.String[] vars -> a geogebra.kernel.PathParameter tempPP -> a java.lang.StringBuffer sbToString -> a java.lang.StringBuffer sbBuildValueString -> b java.lang.StringBuffer sbToStringLHS -> c java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b geogebra.kernel.GeoElement copy() -> a void setCoords(double,double,double) -> a void setCoords(geogebra.kernel.GeoVec3D) -> a boolean isIntersectionPointIncident(geogebra.kernel.GeoPoint,double) -> a boolean isOnFullLine(geogebra.kernel.GeoPoint,double) -> b boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c geogebra.kernel.PathParameter getTempPathParameter() -> a boolean isParallel(geogebra.kernel.GeoLine) -> a boolean isPerpendicular(geogebra.kernel.GeoLine) -> b double distance(geogebra.kernel.GeoPoint) -> a double distanceHom(geogebra.kernel.GeoPoint) -> b double distance(geogebra.kernel.GeoLine) -> a void getDirection(geogebra.kernel.GeoVec3D) -> b void getDirection(double[]) -> a void getInhomPointOnLine(double[]) -> b void getPointOnLine(geogebra.kernel.GeoPoint) -> g void setStartPoint(geogebra.kernel.GeoPoint) -> a void setEndPoint(geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoPoint getStartPoint() -> a geogebra.kernel.GeoPoint getEndPoint() -> b boolean isDefined() -> a boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ void set(geogebra.kernel.GeoElement) -> a boolean isEqual(geogebra.kernel.GeoElement) -> a boolean isDefinedTangent(geogebra.kernel.GeoConic) -> a boolean isDefinedAsymptote(geogebra.kernel.GeoConic) -> b void translate(geogebra.kernel.GeoVector) -> a boolean isTranslateable() -> b_ void dilate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a void rotate(geogebra.kernel.arithmetic.NumberValue) -> a void rotate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b void mirror(geogebra.kernel.GeoPoint) -> c void mirror(geogebra.kernel.GeoLine) -> a void setToParametric(java.lang.String) -> a void setToExplicit() -> a_ void setToImplicit() -> b void setMode(int) -> a_ java.lang.String toString() -> toString java.lang.StringBuffer getSbToString() -> b java.lang.String toValueString() -> c java.lang.StringBuffer buildValueString() -> c java.lang.StringBuffer getSbBuildValueString() -> d java.lang.StringBuffer toStringLHS() -> a java.lang.String getXMLtags() -> d boolean isClosedPath() -> e void pointChanged(geogebra.kernel.GeoPoint) -> d void doPointChanged(geogebra.kernel.GeoPoint) -> f void pathChanged(geogebra.kernel.GeoPoint) -> e boolean isPath() -> f boolean isGeoLine() -> c_ void setZero() -> c double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a geogebra.kernel.GeoLine$PathMoverLine -> geogebra.a.L: geogebra.kernel.GeoPoint moverStartPoint -> a geogebra.kernel.GeoLine this$0 -> a void init(geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoList -> geogebra.a.bJ: java.lang.String STR_OPEN -> b java.lang.String STR_CLOSE -> a_ java.util.ArrayList geoList -> a java.util.ArrayList cacheList -> b boolean isDefined -> b boolean isDrawable -> i int elementType -> i java.util.ArrayList colorFunctionListener -> c java.lang.StringBuffer sbToString -> a java.lang.StringBuffer sbBuildValueString -> b int pointSize -> a int pointStyle -> j boolean serifFont -> j int fontStyle -> k int fontSize -> l int printDecimals -> m int printFigures -> n boolean useSignificantFigures -> a void setParentAlgorithm(geogebra.kernel.AlgoElement) -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b int getElementType() -> e geogebra.kernel.GeoElement copy() -> a void set(geogebra.kernel.GeoElement) -> a void copyListElements(geogebra.kernel.GeoList) -> b geogebra.kernel.GeoElement getCopyForList(geogebra.kernel.GeoElement) -> a void applyVisualStyle(geogebra.kernel.GeoElement) -> h void setColorFunction(geogebra.kernel.GeoList) -> a void setShowObjectCondition(geogebra.kernel.GeoBoolean) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b void setObjColor(java.awt.Color) -> a void setEuclidianVisible(boolean) -> b void setElementEuclidianVisible(geogebra.kernel.GeoElement,boolean) -> a geogebra.kernel.arithmetic.MyList getMyList() -> a boolean isDefined() -> a void setDefined(boolean) -> c void setUndefined() -> j boolean showInEuclidianView() -> b boolean isDrawable() -> g_ boolean showInAlgebraView() -> a_ void clear() -> b void clearCache() -> i void add(geogebra.kernel.GeoElement) -> c geogebra.kernel.GeoElement get(int) -> a void ensureCapacity(int) -> f int size() -> f int getCacheSize() -> g geogebra.kernel.GeoElement getCached(int) -> b java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.StringBuffer buildValueString() -> a boolean isGeoList() -> n_ boolean isListValue() -> j_ java.lang.String getXML() -> e void registerColorFunctionListener(geogebra.kernel.GeoElement) -> d void unregisterColorFunctionListener(geogebra.kernel.GeoElement) -> e void update() -> e void doRemove() -> h boolean isEqual(geogebra.kernel.GeoElement) -> a void setZero() -> c void setLineThickness(int) -> b_ int getLineThickness() -> h void setLineType(int) -> c_ int getLineType() -> i void setPointSize(int) -> g int getPointSize() -> j void setPointStyle(int) -> h float getAlphaValue() -> a void setAlphaValue(float) -> a int getPointStyle() -> k boolean isFillable() -> v geogebra.kernel.GeoElement getGeoElementForPropertiesDialog() -> c boolean isMatrix() -> s_ int getFontSize() -> l void setFontSize(int) -> i int getFontStyle() -> m void setFontStyle(int) -> j int getPrintDecimals() -> n int getPrintFigures() -> o void setPrintDecimals(int,boolean) -> a void setPrintFigures(int,boolean) -> b boolean useSignificantFigures() -> F boolean isSerifFont() -> G void setSerifFont(boolean) -> d_ geogebra.kernel.GeoLocus -> geogebra.a.bO: boolean defined -> a java.util.ArrayList myPointList -> a double closestPointDist -> a int closestPointIndex -> a geogebra.kernel.GeoElement copy() -> a void set(geogebra.kernel.GeoElement) -> a void clearPoints() -> b void insertPoint(double,double,boolean) -> a java.util.ArrayList getMyPointList() -> a java.lang.String toString() -> toString boolean showInAlgebraView() -> a_ java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b boolean showToolTipText() -> k_ java.lang.String getXMLtags() -> d boolean isDefined() -> a void setDefined(boolean) -> c void setUndefined() -> j java.lang.String toValueString() -> c boolean showInEuclidianView() -> b boolean isGeoLocus() -> E geogebra.kernel.PathMover createPathMover() -> a double getMaxParameter() -> b double getMinParameter() -> a boolean isClosedPath() -> e boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c geogebra.kernel.MyPoint getClosestPoint(geogebra.kernel.GeoPoint) -> a void pathChanged(geogebra.kernel.GeoPoint) -> e void pointChanged(geogebra.kernel.GeoPoint) -> d boolean isPath() -> f boolean isEqual(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoNumeric -> geogebra.a.cH: int DEFAULT_SLIDER_WIDTH_RW -> a int DEFAULT_SLIDER_WIDTH_PIXEL -> i double DEFAULT_SLIDER_MIN -> a double DEFAULT_SLIDER_MAX -> b double DEFAULT_SLIDER_MIN_ANGLE -> c double DEFAULT_SLIDER_MAX_ANGLE -> d double value -> f boolean isDrawable -> b boolean isRandomNumber -> i int slopeTriangleSize -> j boolean intervalMinActive -> j boolean intervalMaxActive -> k double intervalMin -> g double intervalMax -> h double sliderWidth -> i double sliderX -> j double sliderY -> k boolean sliderFixed -> l boolean sliderHorizontal -> m double animationValue -> l boolean hasAbsoluteScreenLocation -> a java.lang.StringBuffer sbToString -> a java.util.Comparator comparator -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b geogebra.kernel.GeoElement copy() -> a void setZero() -> c boolean isDrawable() -> g_ boolean isFillable() -> v void setDrawable(boolean) -> p void setEuclidianVisible(boolean) -> b int countSliders() -> g boolean isSlider() -> az boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ void set(geogebra.kernel.GeoElement) -> a void setUndefined() -> j boolean isDefined() -> a boolean isInfinite() -> G boolean isEqual(geogebra.kernel.GeoElement) -> a void setValue(double) -> a void doSetValue(double) -> i double getValue() -> c java.lang.String toString() -> toString java.lang.String toValueString() -> c geogebra.kernel.arithmetic.MyDouble getNumber() -> a double getDouble() -> e boolean isConstant() -> c boolean isLeaf() -> d java.util.HashSet getVariables() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a void setAllVisualProperties(geogebra.kernel.GeoElement) -> g void setVisualStyle(geogebra.kernel.GeoElement) -> b java.lang.String getXMLtags() -> d boolean isSliderable() -> H boolean isFixable() -> u java.lang.String getXMLsliderTag() -> g boolean isNumberValue() -> d_ boolean isGeoNumeric() -> ak boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ int getSlopeTriangleSize() -> j void setSlopeTriangleSize(int) -> f boolean isTextValue() -> i_ void setIntervalMax(double) -> b void setIntervalMin(double) -> c void setSliderWidth(double) -> h void setSliderLocation(double,double) -> b double getIntervalMax() -> d double getIntervalMin() -> j double getSliderWidth() -> k double getSliderX() -> l double getSliderY() -> m boolean isIntervalMaxActive() -> au boolean isIntervalMinActive() -> av void setIntervalMaxInactive() -> b void setIntervalMinInactive() -> i boolean isSliderFixed() -> aw void setSliderFixed(boolean) -> q boolean isSliderHorizontal() -> ax void setSliderHorizontal(boolean) -> r void setAbsoluteScreenLoc(int,int) -> a int getAbsoluteScreenLocX() -> e int getAbsoluteScreenLocY() -> b_ void setRealWorldLoc(double,double) -> a double getRealWorldLocX() -> a_ double getRealWorldLocY() -> b void setAbsoluteScreenLocActive(boolean) -> d boolean isAbsoluteScreenLocActive() -> x boolean isAbsoluteScreenLocateable() -> y geogebra.kernel.GeoFunction getGeoFunction() -> a boolean isGeoFunctionable() -> A void doRemove() -> h void update() -> e boolean isAnimatable() -> ae void setAnimating(boolean) -> k boolean doAnimationStep(double) -> a java.util.Comparator getComparator() -> a double getDefaultSliderMin() -> n double getDefaultSliderMax() -> o void setRandomNumber(boolean) -> a boolean isRandomNumber() -> e void updateRandomNumber() -> k geogebra.kernel.GeoNumeric$1 -> geogebra.a.bs: int compare(java.lang.Object,java.lang.Object) -> compare geogebra.kernel.GeoPoint -> geogebra.a.cC: int pointSize -> a int pointStyle -> i geogebra.kernel.Path path -> a geogebra.kernel.PathParameter pathParameter -> a double inhomX -> a double inhomY -> b boolean isInfinite -> i boolean isDefined -> j boolean showUndefinedInAlgebraView -> k java.util.ArrayList locateableList -> a java.util.ArrayList changeableCoordNumbers -> b boolean hasPolarParentNumbers -> l geogebra.kernel.PathParameter tempPathParameter -> b java.lang.StringBuffer sbToString -> a java.lang.StringBuffer sbBuildValueString -> b java.util.TreeSet tempSet -> a java.util.Comparator comparatorX -> a void setZero() -> c void clearPathParameter() -> x geogebra.kernel.PathParameter getPathParameter() -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b void set(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement copy() -> a void setPointSize(int) -> g int getPointSize() -> j int getPointStyle() -> k void setPointStyle(int) -> h boolean isChangeable() -> X boolean hasChangeableCoordParentNumbers() -> G java.util.ArrayList getCoordParentNumbers() -> a boolean hasPolarParentNumbers() -> H geogebra.kernel.GeoNumeric getCoordNumber(geogebra.kernel.arithmetic.ExpressionValue,boolean) -> a boolean isPointOnPath() -> Y boolean hasPath() -> au geogebra.kernel.Path getPath() -> a void setPath(geogebra.kernel.Path) -> a void addToPathParameter(double) -> a boolean isInfinite() -> av boolean isFinite() -> aw boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ boolean isDefined() -> a boolean isFixable() -> u void setCoords(double,double,double) -> a geogebra.kernel.PathParameter getTempPathparameter() -> b void updateCoords() -> b void setCoords(geogebra.kernel.GeoVec3D) -> a void setCoords(geogebra.kernel.GeoVec2D) -> a boolean isEqual(geogebra.kernel.GeoElement) -> a void getInhomCoords(double[]) -> a_ void getPolarCoords(double[]) -> a double getInhomX() -> a double getInhomY() -> b double distance(geogebra.kernel.GeoPoint) -> a double distanceSqr(geogebra.kernel.GeoPoint) -> b boolean collinear(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a double det(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a double affineRatio(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a void translate(geogebra.kernel.GeoVector) -> a boolean isTranslateable() -> b_ void dilate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a void rotate(geogebra.kernel.arithmetic.NumberValue) -> a void rotate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b void mirror(geogebra.kernel.GeoPoint) -> c void mirror(geogebra.kernel.GeoConic) -> a void mirror(geogebra.kernel.GeoLine) -> a void mirror(double) -> b java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.StringBuffer buildValueString() -> a geogebra.kernel.GeoVec2D getVector() -> a boolean isConstant() -> c boolean isLeaf() -> d java.util.HashSet getVariables() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.lang.String getXMLtags() -> d java.lang.String getStartPointXML() -> g boolean isAbsoluteStartPoint() -> ax boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ void update() -> e java.util.TreeSet getTempSet() -> c void registerLocateable(geogebra.kernel.Locateable) -> a void unregisterLocateable(geogebra.kernel.Locateable) -> b void doRemove() -> h void setVisualStyle(geogebra.kernel.GeoElement) -> b boolean isGeoPoint() -> al void showUndefinedInAlgebraView(boolean) -> c java.util.Comparator getComparatorX() -> a geogebra.kernel.GeoPoint$1 -> geogebra.a.cx: int compare(java.lang.Object,java.lang.Object) -> compare geogebra.kernel.GeoPolygon -> geogebra.a.aG: geogebra.kernel.GeoPoint[] points -> a geogebra.kernel.GeoSegment[] segments -> a double area -> a boolean defined -> a boolean initLabelsCalled -> b java.lang.StringBuffer sbToString -> a java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b void setPoints(geogebra.kernel.GeoPoint[]) -> a void initLabels(java.lang.String[]) -> a boolean wasInitLabelsCalled() -> g void defaultSegmentLabels() -> i void setLabel(geogebra.kernel.GeoSegment,geogebra.kernel.GeoPoint) -> a void updateSegments() -> k geogebra.kernel.GeoElement copy() -> a geogebra.kernel.GeoElement copyInternal(geogebra.kernel.Construction) -> a void set(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoPoint[] getPoints() -> a geogebra.kernel.GeoSegment[] getSegments() -> a boolean isFillable() -> v void calcArea() -> b double getArea() -> c double calcArea(geogebra.kernel.GeoPoint[]) -> a double calcAreaWithSign(geogebra.kernel.GeoPoint[]) -> b void calcCentroid(geogebra.kernel.GeoPoint) -> a double pointsClosedX(int) -> a double pointsClosedY(int) -> b double getAreaWithSign() -> d boolean isDefined() -> a void setUndefined() -> j boolean showInAlgebraView() -> a_ boolean isEqual(geogebra.kernel.GeoElement) -> a void setEuclidianVisible(boolean) -> b void setObjColor(java.awt.Color) -> a void setLineType(int) -> c_ void setLineThickness(int) -> b_ java.lang.String toString() -> toString java.lang.String toValueString() -> c geogebra.kernel.arithmetic.MyDouble getNumber() -> a double getDouble() -> e boolean isConstant() -> c boolean isLeaf() -> d java.util.HashSet getVariables() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a boolean showInEuclidianView() -> b boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isGeoPolygon() -> m_ boolean isPath() -> f geogebra.kernel.PathMover createPathMover() -> a double getMaxParameter() -> b double getMinParameter() -> a boolean isClosedPath() -> e boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c void pathChanged(geogebra.kernel.GeoPoint) -> e void pointChanged(geogebra.kernel.GeoPoint) -> d geogebra.kernel.GeoRay -> geogebra.a.dr: boolean allowOutlyingIntersections -> i boolean keepTypeOnGeometricTransform -> j java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b geogebra.kernel.GeoElement copyInternal(geogebra.kernel.Construction) -> a void set(geogebra.kernel.GeoElement) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b void pointChanged(geogebra.kernel.GeoPoint) -> d void pathChanged(geogebra.kernel.GeoPoint) -> e boolean allowOutlyingIntersections() -> g void setAllowOutlyingIntersections(boolean) -> a void setKeepTypeOnGeometricTransform(boolean) -> b_ boolean isLimitedPath() -> K boolean isIntersectionPointIncident(geogebra.kernel.GeoPoint,double) -> a double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a java.lang.String getXMLtags() -> d geogebra.kernel.GeoElement[] createTransformedObject(int,java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a boolean isGeoRay() -> am boolean isEqual(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoSegment -> geogebra.a.do: double length -> a boolean defined -> i boolean allowOutlyingIntersections -> j boolean keepTypeOnGeometricTransform -> k java.lang.StringBuffer sbToString -> a java.lang.Integer[] getDecoTypes() -> a void setDecorationType(int) -> d java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b geogebra.kernel.GeoElement copyInternal(geogebra.kernel.Construction) -> a void set(geogebra.kernel.GeoElement) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b void calcLength() -> x double getLength() -> k boolean isDefined() -> a void setUndefined() -> j boolean showInAlgebraView() -> a_ boolean showInEuclidianView() -> b boolean isEqual(geogebra.kernel.GeoElement) -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c geogebra.kernel.arithmetic.MyDouble getNumber() -> a double getDouble() -> e boolean isConstant() -> c boolean isLeaf() -> d java.util.HashSet getVariables() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean allowOutlyingIntersections() -> g void setAllowOutlyingIntersections(boolean) -> a void setKeepTypeOnGeometricTransform(boolean) -> b_ boolean isLimitedPath() -> K boolean isIntersectionPointIncident(geogebra.kernel.GeoPoint,double) -> a void pointChanged(geogebra.kernel.GeoPoint) -> d void pathChanged(geogebra.kernel.GeoPoint) -> e double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a java.lang.String getXMLtags() -> d geogebra.kernel.GeoElement[] createTransformedObject(int,java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a boolean isGeoSegment() -> an void setZero() -> c geogebra.kernel.GeoText -> geogebra.a.dC: java.lang.String str -> b geogebra.kernel.GeoPoint startPoint -> a boolean isLaTeX -> k java.awt.geom.Rectangle2D boundingBox -> a boolean needsUpdatedBoundingBox -> l boolean serifFont -> m int fontStyle -> a int fontSize -> i int printDecimals -> j int printFigures -> k boolean useSignificantFigures -> a boolean hasAbsoluteScreenLocation -> b java.lang.StringBuffer sbToString -> a boolean isTextCommand -> i boolean alwaysFixed -> j java.util.Comparator compare -> a java.util.Comparator comparator -> b geogebra.kernel.GeoElement copy() -> a void set(geogebra.kernel.GeoElement) -> a void setVisualStyle(geogebra.kernel.GeoElement) -> b void setTextString(java.lang.String) -> a java.lang.String getTextString() -> g void initStartPoint(geogebra.kernel.GeoPoint,int) -> b void setStartPoint(geogebra.kernel.GeoPoint,int) -> a void removeStartPoint(geogebra.kernel.GeoPoint) -> a void setStartPoint(geogebra.kernel.GeoPoint) -> b void doRemove() -> h geogebra.kernel.GeoPoint getStartPoint() -> a geogebra.kernel.GeoPoint[] getStartPoints() -> a boolean hasAbsoluteLocation() -> H void setWaitForStartPoint() -> b void update() -> e boolean isDefined() -> a void setUndefined() -> j java.lang.String toValueString() -> c java.lang.String toOutputValueString() -> i java.lang.String toString() -> toString boolean showInAlgebraView() -> a_ boolean showInEuclidianView() -> b java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b boolean isMoveable() -> s void setIsCommand(boolean) -> c boolean isTextCommand() -> at void setAlwaysFixed(boolean) -> e boolean isFixable() -> u boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isGeoText() -> ao geogebra.kernel.arithmetic.MyStringBuffer getText() -> a java.lang.String getXML() -> e java.lang.String getXMLtags() -> d java.lang.String getXMLlocation() -> h void setAllVisualProperties(geogebra.kernel.GeoElement) -> g void setSameLocation(geogebra.kernel.GeoText) -> a boolean isLaTeX() -> au void setLaTeX(boolean,boolean) -> a void setAbsoluteScreenLoc(int,int) -> a int getAbsoluteScreenLocX() -> e int getAbsoluteScreenLocY() -> b_ double getRealWorldLocX() -> a_ double getRealWorldLocY() -> b void setRealWorldLoc(double,double) -> a void setAbsoluteScreenLocActive(boolean) -> d boolean isAbsoluteScreenLocActive() -> x boolean isAbsoluteScreenLocateable() -> y int getFontSize() -> l void setFontSize(int) -> i int getFontStyle() -> m void setFontStyle(int) -> j int getPrintDecimals() -> n int getPrintFigures() -> o void setPrintDecimals(int,boolean) -> a void setPrintFigures(int,boolean) -> b boolean useSignificantFigures() -> F boolean isSerifFont() -> G void setSerifFont(boolean) -> d_ void calculateCornerPoint(geogebra.kernel.GeoPoint,int) -> c java.awt.geom.Rectangle2D getBoundingBox() -> a void setBoundingBox(java.awt.geom.Rectangle2D) -> a void setBoundingBox(double,double,double,double) -> a boolean isNeedsUpdatedBoundingBox() -> av void setNeedsUpdatedBoundingBox(boolean) -> p boolean isEqual(geogebra.kernel.GeoElement) -> a void setZero() -> c java.util.Comparator getComparator() -> a void setTemporaryPrintAccuracy() -> i void restorePrintAccuracy() -> k boolean isAlwaysFixed() -> g geogebra.kernel.GeoText$1 -> geogebra.a.cu: int compare(java.lang.Object,java.lang.Object) -> compare geogebra.kernel.GeoText$2 -> geogebra.a.S: int compare(java.lang.Object,java.lang.Object) -> compare geogebra.kernel.GeoVec2D -> geogebra.a.ej: double x -> a double y -> b int mode -> a geogebra.kernel.Kernel kernel -> a java.lang.StringBuffer sbToString -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a void resolveVariables() -> a void setCoords(geogebra.kernel.GeoVec2D) -> a double getX() -> a double getY() -> b double length(double,double) -> a boolean equals(geogebra.kernel.GeoVec2D) -> a void rotate(double) -> a void mirror(geogebra.kernel.GeoPoint) -> a void mirror(double) -> b void add(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> a void add(geogebra.kernel.GeoVec2D,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoVec2D) -> a void add(geogebra.kernel.GeoVec2D,geogebra.kernel.arithmetic.ListValue,geogebra.kernel.GeoVec2D) -> a void sub(geogebra.kernel.GeoVec2D,geogebra.kernel.arithmetic.ListValue,geogebra.kernel.GeoVec2D,boolean) -> a void sub(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> a void sub(geogebra.kernel.GeoVec2D,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoVec2D) -> b void sub(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> b void mult(double) -> c void mult(geogebra.kernel.GeoVec2D,double,geogebra.kernel.GeoVec2D) -> a void complexDivide(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> c void complexDivide(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> b void complexMultiply(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> d void complexPower(geogebra.kernel.GeoVec2D,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoVec2D) -> c void complexPower(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> c void complexExp(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> a void complexLog(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> b double complexAbs(geogebra.kernel.GeoVec2D) -> a void complexPower(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D) -> e void inner(geogebra.kernel.GeoVec2D,geogebra.kernel.GeoVec2D,geogebra.kernel.arithmetic.MyDouble) -> a void div(geogebra.kernel.GeoVec2D,double,geogebra.kernel.GeoVec2D) -> b boolean isDefined() -> a java.lang.String toString() -> toString geogebra.kernel.GeoVec2D getVector() -> a boolean isConstant() -> c boolean isLeaf() -> d int getMode() -> b geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.util.HashSet getVariables() -> a void setMode(int) -> a java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a void multiplyMatrix(geogebra.kernel.arithmetic.MyList) -> a void multiplyMatrixAffine(geogebra.kernel.arithmetic.MyList,geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.GeoVec3D -> geogebra.a.cE: double x -> c double y -> d double z -> f boolean trace -> a boolean spreadsheetTrace -> b java.lang.StringBuffer sbToString -> a boolean isDefined() -> a void setUndefined() -> j boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ void set(geogebra.kernel.GeoElement) -> a void setCoords(double,double,double) -> a double getX() -> c double getY() -> d double getZ() -> j void getCoords(double[]) -> c void getInhomCoords(double[]) -> a_ int getMode() -> f void setMode(int) -> a_ void setPolar() -> i void setCartesian() -> k void setComplex() -> l boolean isTraceable() -> l_ void setTrace(boolean) -> d boolean getTrace() -> x void setSpreadsheetTrace(boolean) -> e boolean getSpreadsheetTrace() -> ay boolean linDep(geogebra.kernel.GeoVec3D) -> b boolean isZero() -> az void cross(geogebra.kernel.GeoVec3D,geogebra.kernel.GeoVec3D,geogebra.kernel.GeoVec3D) -> a void lineThroughPoints(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a void lineThroughPointVector(geogebra.kernel.GeoPoint,geogebra.kernel.GeoVec3D,geogebra.kernel.GeoLine) -> a void cross(geogebra.kernel.GeoVec3D,double,double,double,geogebra.kernel.GeoVec3D) -> a void changeSign() -> w java.lang.String toString() -> toString java.lang.String getXMLtags() -> d java.lang.String getI2Gtags() -> E boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ void setZero() -> c geogebra.kernel.GeoVector -> geogebra.a.U: geogebra.kernel.GeoPoint startPoint -> a geogebra.kernel.GeoSegment pathSegment -> a geogebra.kernel.GeoPoint pathStartPoint -> b geogebra.kernel.GeoPoint pathEndPoint -> c boolean waitingForStartPoint -> i java.util.HashSet waitingPointSet -> a java.lang.StringBuffer sbToString -> a java.lang.StringBuffer sbBuildValueString -> b java.lang.String getClassName() -> a java.lang.String getTypeString() -> b int getGeoClassType() -> b void setCoords(double,double,double) -> a void setCoords(geogebra.kernel.GeoVec3D) -> a void set(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement copy() -> a geogebra.kernel.GeoPoint getStartPoint() -> a geogebra.kernel.GeoPoint[] getStartPoints() -> a boolean hasAbsoluteLocation() -> n void setStartPoint(geogebra.kernel.GeoPoint,int) -> a void initStartPoint(geogebra.kernel.GeoPoint,int) -> b void removeStartPoint(geogebra.kernel.GeoPoint) -> a void setStartPoint(geogebra.kernel.GeoPoint) -> b void setWaitForStartPoint() -> b void doRemove() -> h boolean isFinite() -> p boolean isInfinite() -> q boolean showInEuclidianView() -> b boolean showInAlgebraView() -> a_ boolean isEqual(geogebra.kernel.GeoElement) -> a void rotate(geogebra.kernel.arithmetic.NumberValue) -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.StringBuffer buildValueString() -> a geogebra.kernel.GeoVec2D getVector() -> a boolean isConstant() -> c boolean isLeaf() -> d java.util.HashSet getVariables() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.lang.String getXMLtags() -> d boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isClosedPath() -> e void pointChanged(geogebra.kernel.GeoPoint) -> d void pathChanged(geogebra.kernel.GeoPoint) -> e boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c boolean isPath() -> f double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.PathMover createPathMover() -> a void initPathSegment() -> x void updatePathSegment() -> y boolean isGeoVector() -> r void update() -> e boolean isAlwaysFixed() -> g geogebra.kernel.Kernel -> geogebra.a.cy: double EPSILON -> b int coordStyle -> a double SQRT_2_HALF -> a double PRINT_PRECISION -> c java.text.NumberFormat nf -> a geogebra.util.ScientificFormat sf -> a boolean useSignificantFigures -> a double ROUND_HALF_UP_FACTOR -> j java.util.Stack useSignificantFiguresList -> a java.util.Stack noOfSignificantFiguresList -> b java.util.Stack noOfDecimalPlacesList -> c int casPrintForm -> b java.lang.String casPrintFormPI -> a boolean arcusFunctionCreatesAngle -> b boolean translateCommandName -> c boolean undoActive -> d boolean notifyViewsActive -> e boolean viewReiniting -> f boolean allowVisibilitySideEffects -> g boolean silentMode -> h boolean resolveVariablesForCASactive -> i double xmin -> d double xmax -> e double ymin -> f double ymax -> g double xscale -> h double yscale -> i geogebra.main.View[] views -> a int viewCnt -> c geogebra.kernel.Construction cons -> a geogebra.main.Application app -> a geogebra.kernel.commands.AlgebraProcessor algProcessor -> a geogebra.kernel.EquationSolver eqnSolver -> a geogebra.kernel.statistics.RegressionMath regMath -> a geogebra.kernel.optimization.ExtremumFinder extrFinder -> a geogebra.kernel.parser.Parser parser -> a java.lang.Object ggbCAS -> a boolean continuous -> j geogebra.kernel.MacroManager macroManager -> a java.util.ArrayList renameListenerAlgos -> b int oldViewCnt -> d boolean notifyRepaint -> k java.util.ArrayList intersectionAlgos -> c double[] temp -> a java.lang.StringBuffer sbBuildImplicitVarPart -> a java.lang.StringBuffer sbBuildImplicitEquation -> b java.lang.StringBuffer sbBuildLHS -> c java.lang.StringBuffer sbBuildExplicitConicEquation -> d java.lang.StringBuffer sbBuildExplicitLineEquation -> e java.lang.StringBuffer sbFormatSF -> f java.lang.StringBuffer sbFormat -> g java.lang.StringBuffer sbFormatSigned -> h java.lang.StringBuffer sbFormatAngle -> i geogebra.kernel.AnimationManager animationManager -> a geogebra.kernel.commands.AlgebraProcessor getAlgebraProcessor() -> a geogebra.kernel.GeoElement lookupLabel(java.lang.String) -> a geogebra.kernel.GeoElement lookupLabel(java.lang.String,boolean) -> a geogebra.kernel.GeoElement getGeoAt(int,int) -> a geogebra.kernel.GeoAxis getXAxis() -> a geogebra.kernel.GeoAxis getYAxis() -> b boolean isAxis(geogebra.kernel.GeoElement) -> a void updateLocalAxesNames() -> a geogebra.main.Application getApplication() -> a void setShowOnlyBreakpoints(boolean) -> a boolean showOnlyBreakpoints() -> a geogebra.kernel.EquationSolver getEquationSolver() -> a geogebra.kernel.optimization.ExtremumFinder getExtremumFinder() -> a geogebra.kernel.statistics.RegressionMath getRegressionMath() -> a geogebra.kernel.parser.Parser getParser() -> a java.lang.String evaluateJASYMCA(java.lang.String) -> b java.lang.String evaluateMathPiper(java.lang.String) -> a java.lang.Object getGeoGebraCAS() -> a java.lang.String[] getPolynomialCoeffs(java.lang.String,java.lang.String) -> a void setEpsilon(double) -> a double getEpsilon() -> a void setMinPrecision() -> b void resetPrecision() -> c void setEuclidianViewBounds(double,double,double,double,double,double) -> a double getXmax() -> b double getXmin() -> c double getXscale() -> d double getYmax() -> e double getYmin() -> f double getYscale() -> g void registerRenameListenerAlgo(geogebra.kernel.AlgoElement) -> a void notifyRenameListenerAlgos() -> u void setAngleUnit(int) -> a int getAngleUnit() -> a void setCASPrintForm(int) -> b int getCASPrintForm() -> b void setPrintDecimals(int) -> c int getPrintDecimals() -> c void setPrintFigures(int) -> d boolean ensureTemporaryPrintAccuracy(int) -> a void setTemporaryPrintFigures(int) -> e void setTemporaryPrintDecimals(int) -> f void storeTemporaryRoundingInfoInList() -> v void restorePrintAccuracy() -> f int getPrintFigures() -> d int getCoordStyle() -> e void setCoordStyle(int) -> g geogebra.kernel.GeoElement createGeoElement(geogebra.kernel.Construction,java.lang.String) -> a geogebra.kernel.Construction getConstruction() -> a geogebra.kernel.ConstructionElement getConstructionElement(int) -> a void setConstructionStep(int) -> h int getConstructionStep() -> f int getLastConstructionStep() -> g void firstStep() -> g void lastStep() -> h void nextStep() -> i int getNextBreakpoint(int) -> a void previousStep() -> j int getPreviousBreakpoint(int) -> b boolean moveInConstructionList(int,int) -> a void clearConstruction() -> k void updateConstruction() -> l boolean isEmpty() -> c void setUndoActive(boolean) -> b boolean isUndoActive() -> b void storeUndoInfo() -> m void initUndoInfo() -> n void redo() -> o void undo() -> p boolean undoPossible() -> d boolean redoPossible() -> e void attach(geogebra.main.View) -> a void detach(geogebra.main.View) -> b void notifyAddAll(geogebra.main.View) -> c void notifyAddAll(geogebra.main.View,int) -> a void notifyAdd(geogebra.kernel.GeoElement) -> a void notifyRemove(geogebra.kernel.GeoElement) -> b void notifyUpdate(geogebra.kernel.GeoElement) -> c void notifyUpdateAuxiliaryObject(geogebra.kernel.GeoElement) -> d void notifyRename(geogebra.kernel.GeoElement) -> e void setNotifyViewsActive(boolean) -> c boolean isNotifyViewsActive() -> f boolean isViewReiniting() -> g void setNotifyRepaintActive(boolean) -> d boolean isNotifyRepaintActive() -> h void notifyRepaint() -> q void notifyReset() -> r void notifyClearView() -> s void addMacro(geogebra.kernel.Macro) -> a void removeMacro(geogebra.kernel.Macro) -> b void removeAllMacros() -> t boolean setMacroCommandName(geogebra.kernel.Macro,java.lang.String) -> a geogebra.kernel.Macro getMacro(java.lang.String) -> a int getMacroNumber() -> h java.util.ArrayList getAllMacros() -> a geogebra.kernel.Macro getMacro(int) -> a int getMacroID(geogebra.kernel.Macro) -> a geogebra.kernel.GeoElement[] useMacro(java.lang.String[],geogebra.kernel.Macro,geogebra.kernel.GeoElement[]) -> a java.lang.String getMacroXML(java.util.ArrayList) -> a boolean hasMacros() -> i geogebra.kernel.GeoPoint Point(java.lang.String,double,double) -> a geogebra.kernel.GeoPoint Point(java.lang.String,double,double,boolean) -> a geogebra.kernel.GeoVector Vector(java.lang.String,double,double) -> a geogebra.kernel.GeoLine Line(java.lang.String,double,double,double) -> a geogebra.kernel.GeoConic Conic(java.lang.String,double,double,double,double,double,double) -> a geogebra.kernel.GeoAngle Angle(java.lang.String,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoFunction Function(java.lang.String,geogebra.kernel.arithmetic.Function) -> a geogebra.kernel.GeoText Text(java.lang.String,java.lang.String) -> a geogebra.kernel.GeoBoolean Boolean(java.lang.String,boolean) -> a geogebra.kernel.GeoList List(java.lang.String,java.util.ArrayList,boolean) -> a geogebra.kernel.GeoList ListExpression(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoList CellRange(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement If(java.lang.String,geogebra.kernel.GeoBoolean,geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoFunction If(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoNumeric CountIf(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement[] Sequence(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoNumeric,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoCurveCartesian CurveCartesian(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoNumeric,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.arithmetic.ExpressionNode convertNumberValueToExpressionNode(geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric DependentNumber(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode,boolean) -> a geogebra.kernel.GeoPoint DependentPoint(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode,boolean) -> a geogebra.kernel.GeoVector DependentVector(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoLine DependentLine(java.lang.String,geogebra.kernel.arithmetic.Equation) -> a geogebra.kernel.GeoConic DependentConic(java.lang.String,geogebra.kernel.arithmetic.Equation) -> a geogebra.kernel.GeoFunction DependentFunction(java.lang.String,geogebra.kernel.arithmetic.Function) -> b geogebra.kernel.GeoText DependentText(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoElement DependentGeoCopy(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoText Name(java.lang.String,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement Object(java.lang.String,geogebra.kernel.GeoText) -> a geogebra.kernel.GeoText ColumnName(java.lang.String,geogebra.kernel.GeoElement) -> b geogebra.kernel.GeoText LaTeX(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoBoolean) -> a geogebra.kernel.GeoText LaTeX(java.lang.String,geogebra.kernel.GeoElement) -> c geogebra.kernel.GeoText Text(java.lang.String,geogebra.kernel.GeoElement) -> d geogebra.kernel.GeoText Text(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoBoolean) -> b geogebra.kernel.GeoText Text(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoPoint,geogebra.kernel.GeoBoolean) -> a geogebra.kernel.GeoText Text(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoNumeric Row(java.lang.String,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoNumeric Column(java.lang.String,geogebra.kernel.GeoElement) -> b geogebra.kernel.GeoNumeric LetterToUnicode(java.lang.String,geogebra.kernel.GeoText) -> a geogebra.kernel.GeoList TextToUnicode(java.lang.String,geogebra.kernel.GeoText) -> a geogebra.kernel.GeoText UnicodeToLetter(java.lang.String,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoText UnicodeToText(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoNumeric AxisStepX(java.lang.String) -> a geogebra.kernel.GeoNumeric AxisStepY(java.lang.String) -> b geogebra.kernel.GeoNumeric ConstructionStep(java.lang.String) -> c geogebra.kernel.GeoNumeric ConstructionStep(java.lang.String,geogebra.kernel.GeoElement) -> c geogebra.kernel.GeoBoolean DependentBoolean(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoPoint Point(java.lang.String,geogebra.kernel.Path,double,double) -> a geogebra.kernel.GeoPoint Point(java.lang.String,geogebra.kernel.Path) -> a geogebra.kernel.GeoPoint Point(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoPoint ProjectedPoint(geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoPoint Midpoint(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoPoint Midpoint(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoPoint Midpoint(java.lang.String,geogebra.kernel.GeoSegment) -> a geogebra.kernel.GeoSegment Segment(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoLine Line(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoLine Line(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoRay Ray(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoRay Ray(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoLine Line(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoLine OrthogonalLine(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoVector) -> b geogebra.kernel.GeoLine OrthogonalLine(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> b geogebra.kernel.GeoLine LineBisector(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoLine LineBisector(java.lang.String,geogebra.kernel.GeoSegment) -> a geogebra.kernel.GeoLine AngularBisector(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoLine[] AngularBisector(java.lang.String[],geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoVector Vector(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoVector Vector(java.lang.String,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoVector Direction(java.lang.String,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoNumeric Slope(java.lang.String,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoNumeric BarChart(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoNumeric BarChart(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoNumeric BarChart(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric BarChart(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoNumeric BarChart(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoElement,geogebra.kernel.GeoNumeric,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric BoxPlot(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoNumeric BoxPlot(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric Histogram(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoNumeric UpperSum(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric TrapezoidalSum(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoNumeric LowerSum(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> c geogebra.kernel.GeoVector UnitVector(java.lang.String,geogebra.kernel.GeoLine) -> b geogebra.kernel.GeoVector UnitVector(java.lang.String,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoVector OrthogonalVector(java.lang.String,geogebra.kernel.GeoLine) -> c geogebra.kernel.GeoVector OrthogonalVector(java.lang.String,geogebra.kernel.GeoVector) -> b geogebra.kernel.GeoVector UnitOrthogonalVector(java.lang.String,geogebra.kernel.GeoLine) -> d geogebra.kernel.GeoVector UnitOrthogonalVector(java.lang.String,geogebra.kernel.GeoVector) -> c geogebra.kernel.GeoNumeric Length(java.lang.String,geogebra.kernel.GeoVec3D) -> a geogebra.kernel.GeoNumeric Distance(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoNumeric Distance(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoNumeric Distance(java.lang.String,geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoNumeric Area(java.lang.String,geogebra.kernel.GeoPoint[]) -> a geogebra.kernel.GeoNumeric Area(java.lang.String,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoNumeric Mod(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric Div(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoNumeric Min(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> c geogebra.kernel.GeoNumeric Min(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoNumeric Max(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> d geogebra.kernel.GeoNumeric Max(java.lang.String,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoNumeric LCM(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> e geogebra.kernel.GeoNumeric LCM(java.lang.String,geogebra.kernel.GeoList) -> c geogebra.kernel.GeoNumeric GCD(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> f geogebra.kernel.GeoNumeric GCD(java.lang.String,geogebra.kernel.GeoList) -> d geogebra.kernel.GeoNumeric SigmaXY(java.lang.String,geogebra.kernel.GeoList) -> e geogebra.kernel.GeoNumeric SigmaYY(java.lang.String,geogebra.kernel.GeoList) -> f geogebra.kernel.GeoNumeric Covariance(java.lang.String,geogebra.kernel.GeoList) -> g geogebra.kernel.GeoNumeric SXX(java.lang.String,geogebra.kernel.GeoList) -> h geogebra.kernel.GeoNumeric SXY(java.lang.String,geogebra.kernel.GeoList) -> i geogebra.kernel.GeoNumeric SYY(java.lang.String,geogebra.kernel.GeoList) -> j geogebra.kernel.GeoNumeric MeanX(java.lang.String,geogebra.kernel.GeoList) -> k geogebra.kernel.GeoNumeric MeanY(java.lang.String,geogebra.kernel.GeoList) -> l geogebra.kernel.GeoNumeric PMCC(java.lang.String,geogebra.kernel.GeoList) -> m geogebra.kernel.GeoNumeric Covariance(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> c geogebra.kernel.GeoNumeric SXX(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> d geogebra.kernel.GeoNumeric SXY(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> f geogebra.kernel.GeoNumeric PMCC(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> g geogebra.kernel.GeoLine FitLineY(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoLine FitLineX(java.lang.String,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoFunction FitPoly(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoFunction FitExp(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoFunction FitLog(java.lang.String,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoFunction FitPow(java.lang.String,geogebra.kernel.GeoList) -> c geogebra.kernel.GeoFunction FitSin(java.lang.String,geogebra.kernel.GeoList) -> d geogebra.kernel.GeoFunction FitLogistic(java.lang.String,geogebra.kernel.GeoList) -> e geogebra.kernel.GeoNumeric Binomial(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> g geogebra.kernel.GeoNumeric RandomNormal(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> h geogebra.kernel.GeoNumeric Random(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> i geogebra.kernel.GeoNumeric RandomBinomial(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> j geogebra.kernel.GeoNumeric RandomPoisson(java.lang.String,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric InverseNormal(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric Normal(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoList Sort(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoList First(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoList Last(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> b geogebra.kernel.GeoList Take(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoList Append(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoList Append(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoList Join(java.lang.String,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoList Union(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoList Intersection(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoList Insert(java.lang.String,geogebra.kernel.GeoElement,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoList RemoveUndefined(java.lang.String,geogebra.kernel.GeoList) -> c geogebra.kernel.GeoList KeepIf(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoBoolean Defined(java.lang.String,geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoBoolean IsInteger(java.lang.String,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoList Mode(java.lang.String,geogebra.kernel.GeoList) -> d geogebra.kernel.GeoList Invert(java.lang.String,geogebra.kernel.GeoList) -> e geogebra.kernel.GeoList Transpose(java.lang.String,geogebra.kernel.GeoList) -> f geogebra.kernel.GeoNumeric Determinant(java.lang.String,geogebra.kernel.GeoList) -> n geogebra.kernel.GeoList Reverse(java.lang.String,geogebra.kernel.GeoList) -> g geogebra.kernel.GeoNumeric Product(java.lang.String,geogebra.kernel.GeoList) -> o geogebra.kernel.GeoElement Sum(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement Sum(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoElement SumFunctions(java.lang.String,geogebra.kernel.GeoList) -> b geogebra.kernel.GeoElement SumFunctions(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> b geogebra.kernel.GeoElement SumPoints(java.lang.String,geogebra.kernel.GeoList) -> c geogebra.kernel.GeoElement SumPoints(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoNumeric) -> c geogebra.kernel.GeoElement SumText(java.lang.String,geogebra.kernel.GeoList) -> d geogebra.kernel.GeoText TableText(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoText) -> a geogebra.kernel.GeoText FractionText(java.lang.String,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoNumeric Mean(java.lang.String,geogebra.kernel.GeoList) -> p geogebra.kernel.GeoNumeric Variance(java.lang.String,geogebra.kernel.GeoList) -> q geogebra.kernel.GeoNumeric StandardDeviation(java.lang.String,geogebra.kernel.GeoList) -> r geogebra.kernel.GeoNumeric SigmaXX(java.lang.String,geogebra.kernel.GeoList) -> s geogebra.kernel.GeoNumeric Median(java.lang.String,geogebra.kernel.GeoList) -> t geogebra.kernel.GeoNumeric Q1(java.lang.String,geogebra.kernel.GeoList) -> u geogebra.kernel.GeoNumeric Q3(java.lang.String,geogebra.kernel.GeoList) -> v geogebra.kernel.GeoNumeric Iteration(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoList IterationList(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement Element(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoNumeric Length(java.lang.String,geogebra.kernel.GeoList) -> w geogebra.kernel.GeoNumeric Perimeter(java.lang.String,geogebra.kernel.GeoPolygon) -> a geogebra.kernel.GeoNumeric Circumference(java.lang.String,geogebra.kernel.GeoConic) -> b geogebra.kernel.GeoElement[] Polygon(java.lang.String[],geogebra.kernel.GeoPoint[]) -> a geogebra.kernel.GeoElement[] RegularPolygon(java.lang.String[],geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement[] Segment(java.lang.String[],geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement[] Angle(java.lang.String[],geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoElement[] Angle(java.lang.String[],geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue,boolean) -> a geogebra.kernel.GeoAngle Angle(java.lang.String,geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoAngle Angle(java.lang.String,geogebra.kernel.GeoVector,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoAngle Angle(java.lang.String,geogebra.kernel.GeoVec3D) -> a geogebra.kernel.GeoAngle Angle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoAngle[] Angles(java.lang.String[],geogebra.kernel.GeoPolygon) -> a geogebra.kernel.GeoPoint IntersectLines(java.lang.String,geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoPoint IntersectFunctions(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoPoint IntersectFunctionLine(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoLine,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoConic Circle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoConic Circle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,boolean) -> a geogebra.kernel.GeoConic Circle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoSegment) -> a geogebra.kernel.GeoConic Circle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoConicPart Semicircle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoLocus Locus(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoConic Circle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoConicPart ConicArc(java.lang.String,geogebra.kernel.GeoConic,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoConicPart ConicArc(java.lang.String,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoConicPart ConicSector(java.lang.String,geogebra.kernel.GeoConic,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoConicPart ConicSector(java.lang.String,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoConicPart CircumcircleArc(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoConicPart CircumcircleSector(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoConicPart CircleArc(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> c geogebra.kernel.GeoConicPart CircleSector(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> d geogebra.kernel.GeoPoint[] Focus(java.lang.String[],geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoPoint[] Vertex(java.lang.String[],geogebra.kernel.GeoConic) -> b geogebra.kernel.GeoPoint Center(java.lang.String,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoPoint Centroid(java.lang.String,geogebra.kernel.GeoPolygon) -> a geogebra.kernel.GeoPoint Corner(java.lang.String,geogebra.kernel.GeoImage,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint Corner(java.lang.String,geogebra.kernel.GeoText,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint CornerOfDrawingPad(java.lang.String,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoConic Parabola(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoConic Ellipse(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoConic Ellipse(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoConic Hyperbola(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoConic Hyperbola(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> c geogebra.kernel.GeoConic Conic(java.lang.String,geogebra.kernel.GeoPoint[]) -> a geogebra.kernel.GeoPoint[] IntersectLineConic(java.lang.String[],geogebra.kernel.GeoLine,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoPoint[] IntersectConics(java.lang.String[],geogebra.kernel.GeoConic,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoPoint[] IntersectPolynomials(java.lang.String[],geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoPoint IntersectPolynomialsSingle(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction,double,double) -> a geogebra.kernel.GeoPoint IntersectPolynomialsSingle(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint[] IntersectPolynomialLine(java.lang.String[],geogebra.kernel.GeoFunction,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoPoint IntersectPolynomialLineSingle(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoLine,double,double) -> a geogebra.kernel.GeoPoint IntersectPolynomialLineSingle(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoLine,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint IntersectLineConicSingle(java.lang.String,geogebra.kernel.GeoLine,geogebra.kernel.GeoConic,double,double) -> a geogebra.kernel.GeoPoint IntersectLineConicSingle(java.lang.String,geogebra.kernel.GeoLine,geogebra.kernel.GeoConic,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint IntersectConicsSingle(java.lang.String,geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,double,double) -> a geogebra.kernel.GeoPoint IntersectConicsSingle(java.lang.String,geogebra.kernel.GeoConic,geogebra.kernel.GeoConic,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.AlgoIntersectLineConic getIntersectionAlgorithm(geogebra.kernel.GeoLine,geogebra.kernel.GeoConic) -> a geogebra.kernel.AlgoIntersectConics getIntersectionAlgorithm(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic) -> a geogebra.kernel.AlgoIntersectPolynomials getIntersectionAlgorithm(geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction) -> a geogebra.kernel.AlgoIntersectPolynomialLine getIntersectionAlgorithm(geogebra.kernel.GeoFunction,geogebra.kernel.GeoLine) -> a geogebra.kernel.AlgoElement findExistingIntersectionAlgorithm(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a void removeIntersectionAlgorithm(geogebra.kernel.AlgoIntersect) -> a geogebra.kernel.GeoLine PolarLine(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine DiameterLine(java.lang.String,geogebra.kernel.GeoLine,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine DiameterLine(java.lang.String,geogebra.kernel.GeoVector,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine[] Tangent(java.lang.String[],geogebra.kernel.GeoPoint,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine[] Tangent(java.lang.String[],geogebra.kernel.GeoLine,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine Tangent(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoLine Tangent(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoLine[] Asymptote(java.lang.String[],geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine[] Axes(java.lang.String[],geogebra.kernel.GeoConic) -> b geogebra.kernel.GeoLine FirstAxis(java.lang.String,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoLine SecondAxis(java.lang.String,geogebra.kernel.GeoConic) -> b geogebra.kernel.GeoLine Directrix(java.lang.String,geogebra.kernel.GeoConic) -> c geogebra.kernel.GeoNumeric Excentricity(java.lang.String,geogebra.kernel.GeoConic) -> c geogebra.kernel.GeoNumeric FirstAxisLength(java.lang.String,geogebra.kernel.GeoConic) -> d geogebra.kernel.GeoNumeric SecondAxisLength(java.lang.String,geogebra.kernel.GeoConic) -> e geogebra.kernel.GeoNumeric Parameter(java.lang.String,geogebra.kernel.GeoConic) -> f geogebra.kernel.GeoNumeric Radius(java.lang.String,geogebra.kernel.GeoConic) -> g geogebra.kernel.GeoAngle Angle(java.lang.String,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoElement[] Translate(java.lang.String,geogebra.kernel.Translateable,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoVector Translate(java.lang.String,geogebra.kernel.GeoVector,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement[] Rotate(java.lang.String,geogebra.kernel.Rotateable,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement[] Rotate(java.lang.String,geogebra.kernel.PointRotateable,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement[] Dilate(java.lang.String,geogebra.kernel.Dilateable,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement[] Mirror(java.lang.String,geogebra.kernel.Mirrorable,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement[] Mirror(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoConic) -> a geogebra.kernel.GeoElement[] Mirror(java.lang.String,geogebra.kernel.Mirrorable,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoElement[] Translate(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoPoint[] translatePoints(geogebra.kernel.GeoPoint[],geogebra.kernel.GeoVector) -> a java.lang.String transformedGeoLabel(geogebra.kernel.GeoElement) -> a geogebra.kernel.GeoElement[] Rotate(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement[] Rotate(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoPoint[] rotPoints(geogebra.kernel.GeoPoint[],geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement[] Dilate(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoPoint[] dilatePoints(geogebra.kernel.GeoPoint[],geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b geogebra.kernel.GeoElement[] Mirror(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoElement[] Mirror(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoPoint[] mirrorPoints(geogebra.kernel.GeoPoint[],geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoElement[] transformPoly(java.lang.String,geogebra.kernel.GeoPolygon,geogebra.kernel.GeoPoint[]) -> a geogebra.kernel.GeoPoint[] transformPoints(int,geogebra.kernel.GeoPoint[],geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoLine getTransformedLine(int,geogebra.kernel.GeoLine,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoConic getTransformedConic(int,geogebra.kernel.GeoConic,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoFunction Function(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement Derivative(java.lang.String,geogebra.kernel.GeoDeriveable) -> a geogebra.kernel.GeoElement Derivative(java.lang.String,geogebra.kernel.GeoDeriveable,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoFunction PolynomialFunction(java.lang.String,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoFunction PolynomialFunction(java.lang.String,geogebra.kernel.GeoList) -> f geogebra.kernel.GeoElement Expand(java.lang.String,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoElement Simplify(java.lang.String,geogebra.kernel.GeoFunction) -> b geogebra.kernel.GeoFunction Factor(java.lang.String,geogebra.kernel.GeoFunction) -> b geogebra.kernel.GeoFunction TaylorSeries(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoFunction Integral(java.lang.String,geogebra.kernel.GeoFunction) -> c geogebra.kernel.GeoNumeric Integral(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> b geogebra.kernel.GeoNumeric Integral(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint[] Root(java.lang.String[],geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoPoint Root(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint Root(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoPoint[] Extremum(java.lang.String[],geogebra.kernel.GeoFunction) -> b geogebra.kernel.GeoPoint[] TurningPoint(java.lang.String[],geogebra.kernel.GeoFunction) -> c geogebra.kernel.GeoNumeric AffineRatio(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoNumeric CrossRatio(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoVector CurvatureVector(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoVector CurvatureVectorCurve(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoCurveCartesian) -> a geogebra.kernel.GeoNumeric Curvature(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoNumeric CurvatureCurve(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoCurveCartesian) -> a geogebra.kernel.GeoConic OsculatingCircle(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoFunction) -> a geogebra.kernel.GeoConic OsculatingCircleCurve(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoCurveCartesian) -> a geogebra.kernel.GeoNumeric FunctionLength(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoNumeric,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoNumeric FunctionLength2Points(java.lang.String,geogebra.kernel.GeoFunction,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoNumeric CurveLength(java.lang.String,geogebra.kernel.GeoCurveCartesian,geogebra.kernel.GeoNumeric,geogebra.kernel.GeoNumeric) -> a geogebra.kernel.GeoNumeric CurveLength2Points(java.lang.String,geogebra.kernel.GeoCurveCartesian,geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoLine Tangent(java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoCurveCartesian) -> a boolean isZero(double) -> a boolean isEqual(double,double) -> a boolean isEqual(double,double,double) -> a boolean isGreater(double,double) -> b boolean isGreaterEqual(double,double) -> c boolean isInteger(double) -> b double convertToAngleValue(double) -> a void copy(double[],double[]) -> a void negative(double[],double[]) -> b void divide(double[],double,double[]) -> a java.lang.StringBuffer buildImplicitVarPart(double[],java.lang.String[],boolean) -> c java.lang.StringBuffer buildImplicitEquation(double[],java.lang.String[],boolean) -> a java.lang.StringBuffer buildLHS(double[],java.lang.String[],boolean) -> b java.lang.StringBuffer buildExplicitConicEquation(double[],java.lang.String[],int,boolean) -> a java.lang.StringBuffer buildExplicitLineEquation(double[],java.lang.String[]) -> a java.lang.String formatCoeff(double) -> b java.lang.String format(double) -> a java.lang.String formatNF(double) -> c java.lang.String formatSF(double) -> d java.lang.String formatPiE(double,java.text.NumberFormat) -> a java.lang.String formatSignedCoefficient(double) -> e java.lang.StringBuffer formatSigned(double) -> a java.lang.StringBuffer formatAngle(double) -> b char sign(double) -> a long gcd(long,long) -> a double gcd(double[]) -> a double roundToScale(double,double) -> a double checkDecimalFraction(double) -> b java.lang.String getConstructionXML() -> a java.lang.String getConstructionI2G() -> b java.lang.String getDisplayI2G() -> c boolean isTranslateCommandName() -> j void setTranslateCommandName(boolean) -> e boolean isContinuous() -> k void setContinuous(boolean) -> f boolean isAllowVisibilitySideEffects() -> l void setAllowVisibilitySideEffects(boolean) -> g boolean isMacroKernel() -> m geogebra.kernel.AnimationManager getAnimatonManager() -> a boolean isAnimationRunning() -> n boolean isAnimationPaused() -> o boolean needToShowAnimationButton() -> p void udpateNeedToShowAnimationButton() -> e geogebra.kernel.LimitedPath -> geogebra.a.da: boolean allowOutlyingIntersections() -> g void setAllowOutlyingIntersections(boolean) -> a void setKeepTypeOnGeometricTransform(boolean) -> b_ geogebra.kernel.GeoElement[] createTransformedObject(int,java.lang.String,geogebra.kernel.GeoPoint,geogebra.kernel.GeoLine,geogebra.kernel.GeoVector,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.Locateable -> geogebra.a.bu: void setStartPoint(geogebra.kernel.GeoPoint) -> b void removeStartPoint(geogebra.kernel.GeoPoint) -> a geogebra.kernel.GeoPoint getStartPoint() -> a void setStartPoint(geogebra.kernel.GeoPoint,int) -> a geogebra.kernel.GeoPoint[] getStartPoints() -> a void initStartPoint(geogebra.kernel.GeoPoint,int) -> b boolean isAlwaysFixed() -> g void setWaitForStartPoint() -> b geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.Macro -> geogebra.a.aR: geogebra.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.kernel.Construction macroCons -> a geogebra.kernel.GeoElement[] macroInput -> a geogebra.kernel.GeoElement[] macroOutput -> b java.lang.String[] macroInputLabels -> a java.lang.String[] macroOutputLabels -> b java.lang.Class[] inputTypes -> a java.util.LinkedList usingAlgos -> a geogebra.kernel.GeoElement[] getMacroInput() -> a geogebra.kernel.GeoElement[] getMacroOutput() -> b boolean isInMacroConstruction(geogebra.kernel.GeoElement) -> a geogebra.kernel.Construction getMacroConstruction() -> a void initMacro(geogebra.kernel.Construction,java.lang.String[],java.lang.String[]) -> a void initInputOutput() -> b void initMacro(geogebra.kernel.GeoElement[],geogebra.kernel.GeoElement[]) -> a void addDependentElement(geogebra.kernel.GeoElement,java.util.TreeSet) -> a void addSpecialInputElement(geogebra.kernel.GeoElement,java.util.TreeSet) -> b java.lang.String buildMacroXML(geogebra.kernel.Kernel,java.util.TreeSet) -> a geogebra.kernel.Construction createMacroConstruction(java.lang.String) -> a void registerAlgorithm(geogebra.kernel.AlgoMacro) -> a void unregisterAlgorithm(geogebra.kernel.AlgoMacro) -> b boolean isUsed() -> a void setUnused() -> a java.lang.Class[] 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 java.lang.String getXML() -> g boolean isShowInToolBar() -> b void setShowInToolBar(boolean) -> a java.util.ArrayList getUsedMacros() -> a geogebra.kernel.MacroConstruction -> geogebra.a.aW: geogebra.kernel.Construction parentCons -> a java.util.HashSet reservedLabels -> a boolean globalVariableLookup -> a void loadXML(java.lang.String) -> e void addReservedLabel(java.lang.String) -> f geogebra.kernel.GeoElement lookupLabel(java.lang.String,boolean) -> a boolean isReservedLabel(java.lang.String) -> b void setGlobalVariableLookup(boolean) -> c geogebra.kernel.MacroKernel -> geogebra.a.dQ: geogebra.kernel.Kernel parentKernel -> a geogebra.kernel.MacroConstruction macroCons -> a boolean isMacroKernel() -> m geogebra.kernel.Kernel getParentKernel() -> a void addReservedLabel(java.lang.String) -> a void setGlobalVariableLookup(boolean) -> h void loadXML(java.lang.String) -> b double getXmax() -> b double getXmin() -> c double getXscale() -> d double getYmax() -> e double getYmin() -> f double getYscale() -> g void addMacro(geogebra.kernel.Macro) -> a geogebra.kernel.Macro getMacro(java.lang.String) -> a geogebra.kernel.MacroManager -> geogebra.a.cj: java.util.HashMap macroMap -> a java.util.ArrayList macroList -> a void addMacro(geogebra.kernel.Macro) -> a geogebra.kernel.Macro getMacro(java.lang.String) -> a void removeMacro(geogebra.kernel.Macro) -> b void removeAllMacros() -> a void setMacroCommandName(geogebra.kernel.Macro,java.lang.String) -> a geogebra.kernel.Macro getMacro(int) -> a int getMacroID(geogebra.kernel.Macro) -> a void setAllMacrosUnused() -> b int getMacroNumber() -> a java.util.ArrayList getAllMacros() -> a void notifyEuclidianViewAlgos() -> c java.lang.String getMacroXML(java.util.ArrayList) -> a geogebra.kernel.Mirrorable -> geogebra.a.dl: void mirror(geogebra.kernel.GeoPoint) -> c void mirror(geogebra.kernel.GeoLine) -> a geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.MyPoint -> geogebra.a.aS: double x -> a double y -> b boolean lineTo -> a double distSqr(double,double) -> a boolean isEqual(double,double) -> a java.lang.String toString() -> toString geogebra.kernel.NameDescriptionComparator -> geogebra.a.t: int compare(java.lang.Object,java.lang.Object) -> compare geogebra.kernel.ParametricCurve -> geogebra.a.bT: double getMinParameter() -> a double getMaxParameter() -> b geogebra.kernel.roots.RealRootFunction getRealRootFunctionX() -> a geogebra.kernel.roots.RealRootFunction getRealRootFunctionY() -> b void evaluateCurve(double,double[]) -> a geogebra.kernel.GeoVec2D evaluateCurve(double) -> a boolean isFunctionInX() -> D geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.ParametricCurveDistanceFunction -> geogebra.a.y: double px -> a double py -> b geogebra.kernel.roots.RealRootFunction funX -> a geogebra.kernel.roots.RealRootFunction funY -> b void setDistantPoint(double,double) -> a double evaluate(double) -> a geogebra.kernel.Path -> geogebra.a.aj: void pointChanged(geogebra.kernel.GeoPoint) -> d void pathChanged(geogebra.kernel.GeoPoint) -> e boolean isOnPath(geogebra.kernel.GeoPoint,double) -> c geogebra.kernel.GeoElement toGeoElement() -> b double getMinParameter() -> a double getMaxParameter() -> b boolean isClosedPath() -> e geogebra.kernel.PathMover createPathMover() -> a geogebra.kernel.PathMover -> geogebra.a.g: void init(geogebra.kernel.GeoPoint) -> a boolean getNext(geogebra.kernel.GeoPoint) -> a boolean hasNext() -> a void resetStartParameter() -> a boolean hasPositiveOrientation() -> b boolean smallerStep() -> c boolean biggerStep() -> d void stepBack() -> b geogebra.kernel.PathMoverGeneric -> geogebra.a.dK: geogebra.kernel.Path path -> a double start_param -> a double start_paramUP -> b double curr_param -> c double last_param -> d double param_extent -> e double min_param -> f double max_param -> g double max_step_width -> h double step_width -> j double offset -> k int mode -> a boolean posOrientation -> a boolean maxBorderSet -> b boolean minBorderSet -> c void init(geogebra.kernel.GeoPoint) -> a void init(double) -> a void resetStartParameter() -> a boolean getNext(geogebra.kernel.GeoPoint) -> a void calcPoint(geogebra.kernel.GeoPoint) -> b boolean hasNext() -> a boolean hasPositiveOrientation() -> b boolean smallerStep() -> c boolean biggerStep() -> d boolean changeStep(double) -> a void stepBack() -> b double infFunction(double) -> a double inverseInfFunction(double) -> b geogebra.kernel.PathMoverLocus -> geogebra.a.aB: java.util.ArrayList myPointList -> a void calcPoint(geogebra.kernel.GeoPoint) -> b geogebra.kernel.PathParameter -> geogebra.a.cF: double t -> a int pathType -> b void set(geogebra.kernel.PathParameter) -> a geogebra.kernel.PointPair -> geogebra.a.cS: int indexP -> a boolean isPalive -> a int indexQ -> b boolean isQonPath -> b double dist -> a geogebra.kernel.PointPair next -> a geogebra.kernel.PointPairList -> geogebra.a.cA: geogebra.kernel.PointPair head -> a boolean isEmpty() -> a void clear() -> a void insertPointPair(int,boolean,int,boolean,double) -> a boolean smallerThan(geogebra.kernel.PointPair,geogebra.kernel.PointPair) -> a boolean smallerThan2(geogebra.kernel.PointPair,geogebra.kernel.PointPair) -> b void removeAllPairs(geogebra.kernel.PointPair) -> a geogebra.kernel.PointPair getHead() -> a geogebra.kernel.PointProperties -> geogebra.a.cP: void setPointSize(int) -> g int getPointSize() -> j void setPointStyle(int) -> h int getPointStyle() -> k void updateRepaint() -> b_ geogebra.kernel.PointRotateable -> geogebra.a.aA: void rotate(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.GeoPoint) -> b geogebra.kernel.Relation -> geogebra.a.dk: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction cons -> a java.lang.String relation(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a java.lang.String relation(geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a java.lang.String relation(geogebra.kernel.GeoSegment,geogebra.kernel.GeoSegment) -> a java.lang.String relation(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPoint) -> a java.lang.String relation(geogebra.kernel.GeoVector,geogebra.kernel.GeoVector) -> a java.lang.String relation(geogebra.kernel.GeoPoint,geogebra.kernel.GeoPolygon) -> a java.lang.String relation(geogebra.kernel.GeoPoint,geogebra.kernel.Path) -> a java.lang.String relation(geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> a java.lang.String relation(geogebra.kernel.GeoLine,geogebra.kernel.GeoConic) -> a java.lang.String relation(geogebra.kernel.GeoConicPart,geogebra.kernel.GeoConicPart) -> a java.lang.String relation(geogebra.kernel.GeoConic,geogebra.kernel.GeoConic) -> a java.lang.String relation(geogebra.kernel.GeoFunction,geogebra.kernel.GeoFunction) -> a java.lang.String equalityString(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement,boolean) -> a java.lang.String linDependencyString(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement,boolean) -> b java.lang.String incidenceString(geogebra.kernel.GeoPoint,geogebra.kernel.GeoElement,boolean) -> a java.lang.String incidencePerimeterString(geogebra.kernel.GeoPoint,geogebra.kernel.GeoElement,boolean) -> b java.lang.String parallelString(geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> b java.lang.String perpendicularString(geogebra.kernel.GeoLine,geogebra.kernel.GeoLine) -> c java.lang.String intersectString(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement,boolean) -> c java.lang.String lineConicString(geogebra.kernel.GeoLine,geogebra.kernel.GeoConic,int) -> a geogebra.kernel.Rotateable -> geogebra.a.cU: void rotate(geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.TextProperties -> geogebra.a.dU: int getFontSize() -> l void setFontSize(int) -> i int getFontStyle() -> m void setFontStyle(int) -> j int getPrintDecimals() -> n int getPrintFigures() -> o void setPrintDecimals(int,boolean) -> a void setPrintFigures(int,boolean) -> b boolean isSerifFont() -> G void setSerifFont(boolean) -> d_ boolean useSignificantFigures() -> F geogebra.kernel.Traceable -> geogebra.a.bD: boolean getTrace() -> x void setTrace(boolean) -> d void updateRepaint() -> b_ geogebra.kernel.Translateable -> geogebra.a.bd: void translate(geogebra.kernel.GeoVector) -> a geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.UndoManager -> geogebra.a.dW: geogebra.kernel.Construction construction -> a java.util.LinkedList undoInfoList -> a java.util.ListIterator iterator -> a geogebra.io.MyXMLio xmlio -> a int lastUndoXMLlength -> a geogebra.main.Application app -> a void updateUndoActions() -> f void initUndoInfo() -> a void clearUndoInfo() -> g void undo() -> b void redo() -> c void restoreCurrentUndoInfo() -> d void storeUndoInfo() -> e void doStoreUndoInfo(java.lang.StringBuffer) -> a java.io.File createTempFile(java.lang.StringBuffer) -> a void loadUndoInfo(java.lang.Object) -> a boolean undoPossible() -> a boolean redoPossible() -> b void processXML(java.lang.String) -> a void access$0(geogebra.kernel.UndoManager,java.lang.StringBuffer) -> a geogebra.kernel.UndoManager$1 -> geogebra.a.ey: geogebra.kernel.UndoManager this$0 -> a java.lang.StringBuffer val$currentUndoXML -> a void run() -> run geogebra.kernel.arithmetic.BooleanValue -> geogebra.a.e.i: geogebra.kernel.arithmetic.MyBoolean getMyBoolean() -> a boolean getBoolean() -> m geogebra.kernel.arithmetic.Command -> geogebra.a.e.w: java.util.ArrayList args -> a java.lang.String name -> a geogebra.kernel.Kernel kernel -> a geogebra.main.Application app -> a geogebra.kernel.GeoElement[] evalGeos -> a geogebra.kernel.Macro macro -> a geogebra.kernel.Kernel getKernel() -> a void addArgument(geogebra.kernel.arithmetic.ExpressionNode) -> a java.lang.String getVariableName(int) -> b geogebra.kernel.arithmetic.ExpressionNode[] getArguments() -> a geogebra.kernel.arithmetic.ExpressionNode getArgument(int) -> a void setArgument(int,geogebra.kernel.arithmetic.ExpressionNode) -> a int getArgumentNumber() -> b java.lang.String getName() -> b java.lang.String toString() -> toString geogebra.kernel.GeoElement[] evaluateMultiple() -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a void resolveVariables() -> a boolean isConstant() -> c boolean isLeaf() -> d boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a void replaceChildrenByValues(geogebra.kernel.GeoElement) -> a java.util.HashSet getVariables() -> a java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a boolean isExpressionNode() -> h_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a boolean isListValue() -> j_ geogebra.kernel.Macro getMacro() -> a void setMacro(geogebra.kernel.Macro) -> a geogebra.kernel.arithmetic.Equation -> geogebra.a.e.v: geogebra.kernel.arithmetic.ExpressionNode lhs -> a geogebra.kernel.arithmetic.ExpressionNode rhs -> b geogebra.kernel.arithmetic.Polynomial leftPoly -> a geogebra.kernel.arithmetic.Polynomial rightPoly -> b geogebra.kernel.arithmetic.Polynomial normalForm -> c geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionNode getRHS() -> a geogebra.kernel.arithmetic.ExpressionNode getLHS() -> b void initEquation() -> a geogebra.kernel.arithmetic.Polynomial getNormalForm() -> a int degree() -> b geogebra.kernel.GeoElement[] getGeoElementVariables() -> a boolean isExplicit(java.lang.String) -> a java.lang.String toString() -> toString geogebra.kernel.arithmetic.ExpressionNode -> geogebra.a.e.g: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionValue left -> a geogebra.kernel.arithmetic.ExpressionValue right -> b int operation -> a boolean forceVector -> a boolean forcePoint -> b boolean holdsLaTeXtext -> c boolean leaf -> d geogebra.kernel.Kernel getKernel() -> a int getOperation() -> b void setOperation(int) -> a void setHoldsLaTeXtext(boolean) -> b geogebra.kernel.arithmetic.ExpressionValue getLeft() -> b void setLeft(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.ExpressionNode getLeftTree() -> a geogebra.kernel.arithmetic.ExpressionValue getRight() -> c void setRight(geogebra.kernel.arithmetic.ExpressionValue) -> b geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.ExpressionNode getCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.ExpressionValue copy(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.Kernel) -> a void simplifyLeafs() -> f void simplifyAndEvalCommands() -> g void simplifyConstantIntegers() -> b geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a geogebra.kernel.arithmetic.MyBoolean evalEquals(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> a void resolveVariables() -> a void doResolveVariables() -> h boolean includesPolynomial() -> a boolean shouldEvaluateToGeoVector() -> e boolean isFunctionInX() -> b boolean includesDivisionBy(geogebra.kernel.arithmetic.ExpressionValue) -> b int replacePolynomials(geogebra.kernel.arithmetic.FunctionVariable) -> a geogebra.kernel.arithmetic.ExpressionNode replace(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> a void replaceChildrenByValues(geogebra.kernel.GeoElement) -> a boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a void makePolynomialTree() -> c boolean isConstant() -> c boolean isVectorValue() -> e_ void setForceVector() -> d boolean isForcedVector() -> f void setForcePoint() -> e boolean isForcedPoint() -> g boolean hasOperations() -> m java.util.HashSet getVariables() -> a geogebra.kernel.GeoElement[] getGeoElementVariables() -> a boolean isLeaf() -> d boolean isSingleVariable() -> n java.lang.String getCASstring(int,boolean) -> a java.lang.String printCASstring(boolean) -> b java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a java.lang.String operationToString(java.lang.String,java.lang.String,boolean) -> a int opID(geogebra.kernel.arithmetic.ExpressionValue) -> a boolean isNumberValue() -> d_ boolean isBooleanValue() -> t_ boolean isListValue() -> j_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ geogebra.kernel.arithmetic.ExpressionValue -> geogebra.a.e.e: boolean isConstant() -> c boolean isLeaf() -> d boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isListValue() -> j_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ boolean isGeoElement() -> k boolean isVariable() -> o void setInTree(boolean) -> c_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.util.HashSet getVariables() -> a java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a void resolveVariables() -> a geogebra.kernel.arithmetic.Function -> geogebra.a.e.a: geogebra.kernel.arithmetic.ExpressionNode expression -> a geogebra.kernel.arithmetic.FunctionVariable fVar -> a boolean isBooleanFunction -> a boolean isConstantFunction -> b geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a boolean interval -> c double a -> a double b -> b java.lang.StringBuffer sb -> a geogebra.kernel.arithmetic.ExpressionNode factorParentExp -> b java.util.LinkedList symbolicPolyFactorList -> a java.util.LinkedList numericPolyFactorList -> b boolean symbolicPolyFactorListDefined -> d geogebra.kernel.arithmetic.ExpressionNode diffParentExp -> c geogebra.kernel.arithmetic.ExpressionNode intParentExp -> d geogebra.kernel.arithmetic.ExpressionNode expandParentExp -> e geogebra.util.FastHashMapKeyless derivativeMap -> a geogebra.kernel.arithmetic.Function integralFun -> a geogebra.kernel.arithmetic.Function expandedFun -> b geogebra.kernel.GeoFunction geoDeriv -> a geogebra.kernel.Kernel getKernel() -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.ExpressionNode getExpression() -> a void resolveVariables() -> a void replaceChildrenByValues(geogebra.kernel.GeoElement) -> a void setExpression(geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.arithmetic.Function getFunction() -> a geogebra.kernel.arithmetic.FunctionVariable getFunctionVariable() -> a void initFunction() -> b void initType() -> c boolean isBooleanFunction() -> a boolean isConstantFunction() -> b boolean isConstant() -> c boolean isLeaf() -> d geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a double evaluate(double) -> a boolean setInterval(double,double) -> a boolean evaluateBoolean(double) -> a java.util.HashSet getVariables() -> a geogebra.kernel.GeoElement[] getGeoElementVariables() -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a void translate(double,double) -> a void translateX(geogebra.kernel.arithmetic.ExpressionNode,double) -> a geogebra.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.kernel.arithmetic.PolyFunction getNumericPolynomialDerivative(int) -> a java.util.LinkedList getSymbolicPolynomialFactors(boolean) -> b java.util.LinkedList getNumericPolynomialFactors(boolean) -> c boolean addPolynomialFactors(geogebra.kernel.arithmetic.ExpressionValue,java.util.List,boolean,boolean) -> a geogebra.kernel.arithmetic.PolyFunction expandToPolyFunction(geogebra.kernel.arithmetic.ExpressionValue,boolean) -> a geogebra.kernel.arithmetic.ExpressionNode evaluateToExpressionNode(java.lang.String) -> a geogebra.kernel.GeoFunction getGeoDerivative(int) -> a geogebra.kernel.arithmetic.Function getDerivative(int) -> a geogebra.kernel.arithmetic.Function getIntegral() -> b geogebra.kernel.arithmetic.Function getExpanded() -> c geogebra.kernel.arithmetic.Function derivative(int) -> b void difference(geogebra.kernel.arithmetic.Function,geogebra.kernel.arithmetic.Function,geogebra.kernel.arithmetic.Function) -> a void difference(geogebra.kernel.arithmetic.Function,geogebra.kernel.GeoLine,geogebra.kernel.arithmetic.Function) -> a geogebra.kernel.arithmetic.Function integral() -> d geogebra.kernel.arithmetic.Function integralMathPiper() -> f geogebra.kernel.arithmetic.Function expand() -> e boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isListValue() -> j_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.roots.RealRootDerivFunction getRealRootDerivFunction() -> a double getIntervalMin() -> a double getIntervalMax() -> b boolean hasInterval() -> m boolean includesDivisionByVariable() -> n geogebra.kernel.arithmetic.Function$DerivFunction -> geogebra.a.e.m: geogebra.kernel.arithmetic.Function fun -> b geogebra.kernel.arithmetic.Function derivative -> c double[] ret -> a geogebra.kernel.arithmetic.Function this$0 -> a double[] evaluateDerivFunc(double) -> a double evaluate(double) -> a geogebra.kernel.arithmetic.FunctionVariable -> geogebra.a.e.n: java.lang.String varStr -> a boolean isConstant() -> c void setVarString(java.lang.String) -> c java.lang.String toString() -> toString geogebra.kernel.arithmetic.Functional -> geogebra.a.e.p: double evaluate(double) -> a geogebra.kernel.arithmetic.Function getFunction() -> a geogebra.kernel.GeoFunction getGeoDerivative(int) -> a geogebra.kernel.arithmetic.ListValue -> geogebra.a.e.j: geogebra.kernel.arithmetic.MyList getMyList() -> a geogebra.kernel.arithmetic.MyBoolean -> geogebra.a.e.k: boolean value -> a void setValue(boolean) -> b java.lang.String toString() -> toString boolean isConstant() -> c boolean isLeaf() -> d void resolveVariables() -> a boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.util.HashSet getVariables() -> a java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a boolean isExpressionNode() -> h_ boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.MyBoolean getMyBoolean() -> a boolean getBoolean() -> m geogebra.kernel.arithmetic.MyDouble -> geogebra.a.e.o: double val -> a boolean isAngle -> a geogebra.kernel.Kernel kernel -> a double LARGEST_INTEGER -> b geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a void set(double) -> a void resolveVariables() -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a void setAngle() -> b boolean isAngle() -> a void add(geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble) -> a void sub(geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble) -> b void mult(geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble) -> c void div(geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble) -> d void pow(geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble,geogebra.kernel.arithmetic.MyDouble) -> e geogebra.kernel.arithmetic.MyDouble cos() -> b geogebra.kernel.arithmetic.MyDouble sin() -> c geogebra.kernel.arithmetic.MyDouble tan() -> d geogebra.kernel.arithmetic.MyDouble acos() -> e geogebra.kernel.arithmetic.MyDouble asin() -> f geogebra.kernel.arithmetic.MyDouble atan() -> g geogebra.kernel.arithmetic.MyDouble log() -> h geogebra.kernel.arithmetic.MyDouble log10() -> i geogebra.kernel.arithmetic.MyDouble log2() -> j geogebra.kernel.arithmetic.MyDouble exp() -> k geogebra.kernel.arithmetic.MyDouble sqrt() -> l geogebra.kernel.arithmetic.MyDouble cbrt() -> m geogebra.kernel.arithmetic.MyDouble abs() -> n geogebra.kernel.arithmetic.MyDouble floor() -> o geogebra.kernel.arithmetic.MyDouble ceil() -> p geogebra.kernel.arithmetic.MyDouble round() -> q double round(double) -> a geogebra.kernel.arithmetic.MyDouble sgn() -> r geogebra.kernel.arithmetic.MyDouble cosh() -> s geogebra.kernel.arithmetic.MyDouble sinh() -> t geogebra.kernel.arithmetic.MyDouble tanh() -> u geogebra.kernel.arithmetic.MyDouble acosh() -> v geogebra.kernel.arithmetic.MyDouble asinh() -> w geogebra.kernel.arithmetic.MyDouble atanh() -> x geogebra.kernel.arithmetic.MyDouble factorial() -> y geogebra.kernel.arithmetic.MyDouble gamma() -> z geogebra.kernel.arithmetic.MyDouble apply(geogebra.kernel.arithmetic.Functional) -> a geogebra.kernel.arithmetic.MyDouble getNumber() -> a boolean isConstant() -> c java.util.HashSet getVariables() -> a boolean isLeaf() -> d geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a double getDouble() -> e geogebra.kernel.GeoElement toGeoElement() -> b boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.MyList -> geogebra.a.e.y: geogebra.kernel.Kernel kernel -> a int matrixRows -> a int matrixCols -> b java.util.ArrayList listElements -> a void addListElement(geogebra.kernel.arithmetic.ExpressionNode) -> a void applyRight(int,geogebra.kernel.arithmetic.ExpressionValue) -> a void applyLeft(int,geogebra.kernel.arithmetic.ExpressionValue) -> b void matrixMultiply(geogebra.kernel.arithmetic.MyList,geogebra.kernel.arithmetic.MyList) -> a void apply(int,geogebra.kernel.arithmetic.ExpressionValue,boolean) -> a int getMatrixRows() -> b int getMatrixCols() -> c boolean isMatrix() -> a boolean isMatrix(geogebra.kernel.arithmetic.MyList) -> a geogebra.kernel.arithmetic.ExpressionValue getCell(geogebra.kernel.arithmetic.MyList,int,int) -> a java.lang.String toString() -> toString int size() -> d void resolveVariables() -> a geogebra.kernel.arithmetic.ExpressionNode getListElement(int) -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a boolean isConstant() -> c boolean isLeaf() -> d boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a java.util.HashSet getVariables() -> a java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a boolean isExpressionNode() -> h_ boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.MyList getMyList() -> a geogebra.kernel.arithmetic.MySpecialDouble -> geogebra.a.e.z: java.lang.String strToString -> a java.lang.String toString() -> toString geogebra.kernel.arithmetic.MyStringBuffer -> geogebra.a.e.q: java.lang.StringBuffer sb -> a void append(java.lang.String) -> c void insert(int,java.lang.String) -> a java.lang.String toString() -> toString void resolveVariables() -> a boolean isConstant() -> c boolean isLeaf() -> d boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.util.HashSet getVariables() -> a java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a geogebra.kernel.arithmetic.MyStringBuffer getText() -> a boolean isExpressionNode() -> h_ boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.MyVecNode -> geogebra.a.e.d: geogebra.kernel.arithmetic.ExpressionValue x -> a geogebra.kernel.arithmetic.ExpressionValue y -> b int mode -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a void resolveVariables() -> a geogebra.kernel.arithmetic.ExpressionValue getX() -> b geogebra.kernel.arithmetic.ExpressionValue getY() -> c void setPolarCoords(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> a boolean hasPolarCoords() -> a void setCoords(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> b double[] getCoords() -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a geogebra.kernel.GeoVec2D getVector() -> a boolean isConstant() -> c boolean isLeaf() -> d geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a java.util.HashSet getVariables() -> a boolean isVectorValue() -> e_ boolean isNumberValue() -> d_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isListValue() -> j_ boolean isExpressionNode() -> h_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.NumberValue -> geogebra.a.e.u: geogebra.kernel.arithmetic.MyDouble getNumber() -> a double getDouble() -> e geogebra.kernel.GeoElement toGeoElement() -> b geogebra.kernel.arithmetic.Parametric -> geogebra.a.e.r: geogebra.kernel.arithmetic.ExpressionNode P -> a geogebra.kernel.arithmetic.ExpressionNode v -> b java.lang.String parameter -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionNode getP() -> a geogebra.kernel.arithmetic.ExpressionNode getv() -> b java.lang.String getParameter() -> b java.lang.String toString() -> toString geogebra.kernel.arithmetic.PolyFunction -> geogebra.a.e.f: double[] coeffs -> a int degree -> a geogebra.kernel.arithmetic.PolyFunction derivative -> a double[] ret -> b double[] getCoeffsCopy() -> a boolean updateCoeffValues() -> a geogebra.kernel.arithmetic.PolyFunction getDerivative() -> a geogebra.kernel.arithmetic.PolyFunction buildDerivative() -> b double[] evaluateDerivFunc(double) -> a double evaluate(double) -> a geogebra.kernel.arithmetic.Polynomial -> geogebra.a.e.s: java.util.ArrayList terms -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a geogebra.kernel.arithmetic.Term getTerm(int) -> a int length() -> b boolean isX() -> a void append(geogebra.kernel.arithmetic.Term) -> a void add(geogebra.kernel.arithmetic.Polynomial) -> a void sub(geogebra.kernel.arithmetic.Polynomial) -> b void multiply(geogebra.kernel.arithmetic.Polynomial) -> c void multiply(geogebra.kernel.arithmetic.ExpressionValue) -> a void divide(geogebra.kernel.arithmetic.ExpressionValue) -> b void divide(geogebra.kernel.arithmetic.Polynomial) -> d void multiply(double) -> a void power(int) -> a geogebra.kernel.arithmetic.ExpressionValue getConstantCoefficient() -> b geogebra.kernel.arithmetic.ExpressionValue getCoefficient(java.lang.String) -> a double getCoeffValue(java.lang.String) -> a double getConstantCoeffValue() -> a void simplify() -> b boolean contains(java.lang.String) -> a int degree() -> c java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a java.util.HashSet getVariables() -> a void resolveVariables() -> a boolean isConstant() -> c boolean isLeaf() -> d geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a boolean isNumberValue() -> d_ boolean isBooleanValue() -> t_ boolean isVectorValue() -> e_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.SymbolicPolyFunction -> geogebra.a.e.x: geogebra.kernel.arithmetic.ExpressionNode[] symbCoeffs -> a geogebra.kernel.arithmetic.ExpressionNode[] getSymbolicCoeffs() -> a boolean updateCoeffValues() -> a geogebra.kernel.arithmetic.Term -> geogebra.a.e.c: geogebra.kernel.arithmetic.ExpressionValue coefficient -> a java.lang.StringBuffer variables -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionValue getCoefficient() -> a java.lang.String getVars() -> a int degree() -> a void addToCoefficient(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.ExpressionValue add(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.ExpressionValue sub(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> b void multiply(geogebra.kernel.arithmetic.Term) -> a void multiply(geogebra.kernel.arithmetic.ExpressionValue) -> b geogebra.kernel.arithmetic.ExpressionValue multiply(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> c void divide(geogebra.kernel.arithmetic.ExpressionValue) -> c geogebra.kernel.arithmetic.ExpressionValue divide(geogebra.kernel.arithmetic.ExpressionValue,geogebra.kernel.arithmetic.ExpressionValue) -> d void sort(java.lang.StringBuffer) -> a boolean equals(java.lang.Object) -> equals boolean contains(java.lang.String) -> a int compareTo(java.lang.Object) -> compareTo java.lang.String toString() -> toString java.lang.String coeffString(geogebra.kernel.arithmetic.ExpressionValue) -> a java.lang.String variableString() -> b geogebra.kernel.arithmetic.TextValue -> geogebra.a.e.t: geogebra.kernel.arithmetic.MyStringBuffer getText() -> a geogebra.kernel.arithmetic.ValidExpression -> geogebra.a.e.b: java.util.Vector labels -> a boolean inTree -> a void addLabel(java.lang.String) -> a void initLabels() -> a void addLabel(java.util.Vector) -> a int labelCount() -> a java.lang.String getLabel(int) -> a java.lang.String[] getLabels() -> a java.lang.String getLabel() -> a void setLabel(java.lang.String) -> b void setLabels(java.lang.String[]) -> a boolean isVariable() -> o boolean isInTree() -> p void setInTree(boolean) -> c_ boolean isGeoElement() -> k geogebra.kernel.arithmetic.Variable -> geogebra.a.e.l: java.lang.String name -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.arithmetic.ExpressionValue deepCopy(geogebra.kernel.Kernel) -> a java.lang.String getName() -> b boolean isConstant() -> c boolean isLeaf() -> d geogebra.kernel.arithmetic.ExpressionValue evaluate() -> a geogebra.kernel.GeoElement resolve() -> a geogebra.kernel.GeoElement resolve(boolean) -> a geogebra.kernel.arithmetic.ExpressionValue resolveAsExpressionValue() -> b java.util.HashSet getVariables() -> a void resolveVariables() -> a java.lang.String toString() -> toString java.lang.String toValueString() -> c java.lang.String toLaTeXString(boolean) -> a boolean isNumberValue() -> d_ boolean isVectorValue() -> e_ boolean isBooleanValue() -> t_ boolean isPolynomialInstance() -> f_ boolean isTextValue() -> i_ boolean isExpressionNode() -> h_ boolean isVariable() -> o boolean isListValue() -> j_ boolean contains(geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.arithmetic.VectorValue -> geogebra.a.e.h: geogebra.kernel.GeoVec2D getVector() -> a geogebra.kernel.commands.AlgebraProcessor -> geogebra.a.a.aR: geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction cons -> a geogebra.main.Application app -> a geogebra.kernel.parser.Parser parser -> a geogebra.kernel.commands.CommandDispatcher cmdDispatcher -> a geogebra.kernel.arithmetic.ExpressionValue eval -> a java.util.Iterator getCmdNameIterator() -> a geogebra.kernel.GeoElement[] processCommand(geogebra.kernel.arithmetic.Command,boolean) -> a geogebra.kernel.GeoElement changeGeoElement(geogebra.kernel.GeoElement,java.lang.String,boolean) -> a geogebra.kernel.GeoElement changeGeoElementNoExceptionHandling(geogebra.kernel.GeoElement,java.lang.String,boolean,boolean) -> a geogebra.kernel.GeoElement[] processAlgebraCommand(java.lang.String,boolean) -> a geogebra.kernel.GeoElement[] processAlgebraCommandNoExceptionHandling(java.lang.String,boolean) -> b double evaluateToDouble(java.lang.String) -> a geogebra.kernel.GeoBoolean evaluateToBoolean(java.lang.String) -> a geogebra.kernel.GeoList evaluateToList(java.lang.String) -> a geogebra.kernel.GeoFunction evaluateToFunction(java.lang.String) -> a geogebra.kernel.arithmetic.NumberValue evaluateToNumeric(java.lang.String) -> a geogebra.kernel.GeoPoint evaluateToPoint(java.lang.String) -> a geogebra.kernel.GeoText evaluateToText(java.lang.String,boolean) -> a java.lang.String parseLabel(java.lang.String) -> a geogebra.kernel.GeoElement[] processValidExpression(geogebra.kernel.arithmetic.ValidExpression) -> a geogebra.kernel.GeoElement[] processValidExpression(geogebra.kernel.arithmetic.ValidExpression,boolean) -> a geogebra.kernel.GeoElement[] processFunction(geogebra.kernel.arithmetic.ExpressionNode,geogebra.kernel.arithmetic.Function) -> a geogebra.kernel.GeoElement[] processEquation(geogebra.kernel.arithmetic.Equation) -> a geogebra.kernel.GeoElement[] processLine(geogebra.kernel.arithmetic.Equation) -> b geogebra.kernel.GeoElement[] processConic(geogebra.kernel.arithmetic.Equation) -> c geogebra.kernel.GeoElement[] processParametric(geogebra.kernel.arithmetic.Parametric) -> a geogebra.kernel.GeoElement[] processExpressionNode(geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoElement[] processNumber(geogebra.kernel.arithmetic.ExpressionNode,geogebra.kernel.arithmetic.ExpressionValue) -> a geogebra.kernel.GeoElement[] processList(geogebra.kernel.arithmetic.ExpressionNode,geogebra.kernel.arithmetic.MyList) -> a geogebra.kernel.GeoElement[] processText(geogebra.kernel.arithmetic.ExpressionNode,geogebra.kernel.arithmetic.ExpressionValue) -> b geogebra.kernel.GeoElement[] processBoolean(geogebra.kernel.arithmetic.ExpressionNode,geogebra.kernel.arithmetic.ExpressionValue) -> c geogebra.kernel.GeoElement[] processPointVector(geogebra.kernel.arithmetic.ExpressionNode,geogebra.kernel.arithmetic.ExpressionValue) -> d geogebra.kernel.GeoElement[] processGeoCopy(java.lang.String,geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.commands.CmdAffineRatio -> geogebra.a.a.by: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAngle -> geogebra.a.a.ar: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAngularBisector -> geogebra.a.a.bh: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAppend -> geogebra.a.a.aN: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdArc -> geogebra.a.a.bl: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdArea -> geogebra.a.a.aU: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAsymptote -> geogebra.a.a.V: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAxes -> geogebra.a.a.bC: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAxisStepX -> geogebra.a.a.bB: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdAxisStepY -> geogebra.a.a.aS: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdBarChart -> geogebra.a.a.Q: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdBinomial -> geogebra.a.a.o: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdBoxPlot -> geogebra.a.a.cj: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCellRange -> geogebra.a.a.br: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCenter -> geogebra.a.a.bb: geogebra.kernel.commands.CmdCentroid -> geogebra.a.a.t: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCircle -> geogebra.a.a.bT: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCircleArc -> geogebra.a.a.ce: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCircleSector -> geogebra.a.a.an: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCircumcircleArc -> geogebra.a.a.be: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCircumcircleSector -> geogebra.a.a.ax: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCircumference -> geogebra.a.a.K: geogebra.kernel.commands.CmdColumn -> geogebra.a.a.u: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdColumnName -> geogebra.a.a.ca: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdConic -> geogebra.a.a.O: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdConstructionStep -> geogebra.a.a.av: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCorner -> geogebra.a.a.H: geogebra.kernel.commands.CmdCountIf -> geogebra.a.a.aB: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCovariance -> geogebra.a.a.bD: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdCrossRatio -> geogebra.a.a.aC: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCurvature -> geogebra.a.a.bv: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCurvatureVector -> geogebra.a.a.ci: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdCurveCartesian -> geogebra.a.a.bz: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDefined -> geogebra.a.a.cb: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDelete -> geogebra.a.a.E: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDerivative -> geogebra.a.a.N: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a java.lang.String getDerivLabel(geogebra.kernel.GeoElement,int) -> a geogebra.kernel.commands.CmdDeterminant -> geogebra.a.a.ak: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdDiameter -> geogebra.a.a.at: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDilate -> geogebra.a.a.J: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDirection -> geogebra.a.a.ao: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDirectrix -> geogebra.a.a.cc: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDistance -> geogebra.a.a.F: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdDiv -> geogebra.a.a.bd: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdElement -> geogebra.a.a.bu: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdEllipse -> geogebra.a.a.l: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdExcentricity -> geogebra.a.a.bq: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdExpand -> geogebra.a.a.bY: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdExtremum -> geogebra.a.a.G: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFactor -> geogebra.a.a.ag: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFirst -> geogebra.a.a.ab: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFirstAxis -> geogebra.a.a.C: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFirstAxisLength -> geogebra.a.a.cd: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFitExp -> geogebra.a.a.cg: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFitLineX -> geogebra.a.a.aA: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFitLineY -> geogebra.a.a.bi: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFitLog -> geogebra.a.a.n: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFitLogistic -> geogebra.a.a.B: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFitPoly -> geogebra.a.a.ap: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFitPow -> geogebra.a.a.q: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFitSin -> geogebra.a.a.ae: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdFocus -> geogebra.a.a.s: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFractionText -> geogebra.a.a.p: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdFunction -> geogebra.a.a.aL: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdGCD -> geogebra.a.a.aa: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdHistogram -> geogebra.a.a.a: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdHyperbola -> geogebra.a.a.aV: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdIf -> geogebra.a.a.e: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdInsert -> geogebra.a.a.bs: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdIntegral -> geogebra.a.a.r: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdIntersect -> geogebra.a.a.aJ: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdIntersection -> geogebra.a.a.aY: geogebra.kernel.commands.CmdInverseNormal -> geogebra.a.a.bk: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdInvert -> geogebra.a.a.aG: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdIsInteger -> geogebra.a.a.aQ: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdIteration -> geogebra.a.a.bJ: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdIterationList -> geogebra.a.a.aD: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdJoin -> geogebra.a.a.aH: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdKeepIf -> geogebra.a.a.bp: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLCM -> geogebra.a.a.bK: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLaTeX -> geogebra.a.a.aw: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLast -> geogebra.a.a.g: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLength -> geogebra.a.a.P: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLetterToUnicode -> geogebra.a.a.bP: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLine -> geogebra.a.a.M: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLineBisector -> geogebra.a.a.bn: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLocus -> geogebra.a.a.bN: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdLowerSum -> geogebra.a.a.ck: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdMax -> geogebra.a.a.ah: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdMean -> geogebra.a.a.bc: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdMeanX -> geogebra.a.a.aO: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdMeanY -> geogebra.a.a.T: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdMedian -> geogebra.a.a.bj: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdMidpoint -> geogebra.a.a.S: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdMin -> geogebra.a.a.v: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdMirror -> geogebra.a.a.al: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdMod -> geogebra.a.a.bg: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdMode -> geogebra.a.a.cm: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdName -> geogebra.a.a.aF: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdNormal -> geogebra.a.a.aE: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdObject -> geogebra.a.a.ai: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdOneListFunction -> geogebra.a.a.bw: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdOneOrTwoListsFunction -> geogebra.a.a.am: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdOrthogonalLine -> geogebra.a.a.j: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdOrthogonalVector -> geogebra.a.a.aq: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdOsculatingCircle -> geogebra.a.a.k: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdPMCC -> geogebra.a.a.X: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdParabola -> geogebra.a.a.R: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdParameter -> geogebra.a.a.U: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdPerimeter -> geogebra.a.a.as: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdPoint -> geogebra.a.a.x: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdPolar -> geogebra.a.a.aX: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdPolygon -> geogebra.a.a.f: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdPolynomial -> geogebra.a.a.d: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdProduct -> geogebra.a.a.bf: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdQ1 -> geogebra.a.a.cf: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdQ3 -> geogebra.a.a.z: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdRadius -> geogebra.a.a.bt: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdRandom -> geogebra.a.a.W: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdRandomBinomial -> geogebra.a.a.ba: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdRandomNormal -> geogebra.a.a.L: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdRandomPoisson -> geogebra.a.a.bF: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdRay -> geogebra.a.a.aW: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdRelation -> geogebra.a.a.bM: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdRemoveUndefined -> geogebra.a.a.aT: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdReverse -> geogebra.a.a.ay: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdRoot -> geogebra.a.a.m: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdRotate -> geogebra.a.a.bH: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdRow -> geogebra.a.a.aI: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSD -> geogebra.a.a.bL: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSXX -> geogebra.a.a.ac: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSXY -> geogebra.a.a.bV: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSYY -> geogebra.a.a.af: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSecondAxis -> geogebra.a.a.bR: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSecondAxisLength -> geogebra.a.a.bm: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSector -> geogebra.a.a.i: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSegment -> geogebra.a.a.bO: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSemicircle -> geogebra.a.a.aP: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSequence -> geogebra.a.a.bA: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSigmaXX -> geogebra.a.a.bX: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSigmaXY -> geogebra.a.a.bW: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSigmaYY -> geogebra.a.a.au: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSimplify -> geogebra.a.a.h: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSlope -> geogebra.a.a.Y: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdSort -> geogebra.a.a.bo: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdSum -> geogebra.a.a.aM: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTableText -> geogebra.a.a.Z: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTake -> geogebra.a.a.I: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTangent -> geogebra.a.a.bI: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTaylorSeries -> geogebra.a.a.bx: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdText -> geogebra.a.a.w: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTextToUnicode -> geogebra.a.a.az: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTranslate -> geogebra.a.a.D: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTranspose -> geogebra.a.a.bE: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdTrapezoidalSum -> geogebra.a.a.c: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTurningPoint -> geogebra.a.a.cl: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdTwoNumFunction -> geogebra.a.a.b: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.arithmetic.NumberValue,geogebra.kernel.arithmetic.NumberValue) -> a geogebra.kernel.commands.CmdUnicodeToLetter -> geogebra.a.a.bU: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdUnicodeToText -> geogebra.a.a.aZ: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdUnion -> geogebra.a.a.bQ: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdUnitOrthogonalVector -> geogebra.a.a.aj: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdUnitVector -> geogebra.a.a.ch: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdUpperSum -> geogebra.a.a.aK: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdVariance -> geogebra.a.a.bS: geogebra.kernel.GeoElement doCommand(java.lang.String,geogebra.kernel.GeoList) -> a geogebra.kernel.commands.CmdVector -> geogebra.a.a.ad: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CmdVertex -> geogebra.a.a.bG: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.commands.CommandDispatcher -> geogebra.a.a.A: geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction cons -> a geogebra.main.Application app -> a java.util.HashMap cmdTable -> a geogebra.kernel.commands.MacroProcessor macroProc -> a java.util.Iterator getCmdNameIterator() -> a geogebra.kernel.GeoElement[] processCommand(geogebra.kernel.arithmetic.Command,boolean) -> a void initCmdTable() -> a geogebra.kernel.commands.CommandProcessor -> geogebra.a.a.y: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction cons -> a geogebra.kernel.commands.AlgebraProcessor algProcessor -> a geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.GeoElement[] resArgs(geogebra.kernel.arithmetic.Command) -> b geogebra.kernel.GeoElement[] resArg(geogebra.kernel.arithmetic.ExpressionNode) -> a geogebra.kernel.GeoElement[] resArgsLocalNumVar(geogebra.kernel.arithmetic.Command,int,int) -> a geogebra.main.MyError argErr(geogebra.main.Application,java.lang.String,java.lang.Object) -> a geogebra.main.MyError argNumErr(geogebra.main.Application,java.lang.String,int) -> a geogebra.kernel.GeoList wrapInList(geogebra.kernel.Kernel,geogebra.kernel.GeoElement[],int,int) -> a geogebra.kernel.commands.MacroProcessor -> geogebra.a.a.bZ: geogebra.kernel.GeoElement[] process(geogebra.kernel.arithmetic.Command) -> a geogebra.kernel.complex.Complex -> geogebra.a.b.a: double real -> a double imag -> b geogebra.kernel.complex.Complex plusJay -> a geogebra.kernel.complex.Complex minusJay -> b geogebra.kernel.complex.Complex NaN -> c void setImag(double) -> a void set(double,double) -> a void set(geogebra.kernel.complex.Complex) -> a double getReal() -> a double getImag() -> b java.lang.String toString() -> toString geogebra.kernel.complex.Complex[] oneDarray(int) -> a geogebra.kernel.complex.Complex copy(geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex plus(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex minus(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> b geogebra.kernel.complex.Complex times(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> c geogebra.kernel.complex.Complex times(geogebra.kernel.complex.Complex,double,geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex over(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> d geogebra.kernel.complex.Complex over(double,geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> a double abs(geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex conjugate(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex sqrt(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> b geogebra.kernel.complex.Complex square(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> c boolean isReal() -> a boolean isZero() -> b boolean isEqual(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> a boolean isNaN(geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex pow(geogebra.kernel.complex.Complex,double) -> a geogebra.kernel.complex.Complex log(geogebra.kernel.complex.Complex) -> b geogebra.kernel.complex.Complex times(double,geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex exp(geogebra.kernel.complex.Complex) -> c geogebra.kernel.complex.Complex powDouble(geogebra.kernel.complex.Complex,double) -> b geogebra.kernel.complex.Complex pow(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex) -> d geogebra.kernel.complex.Complex times(geogebra.kernel.complex.Complex) -> d geogebra.kernel.complex.ComplexPoly -> geogebra.a.b.b: int deg -> b int degwz -> c geogebra.kernel.complex.Complex[] coeff -> a geogebra.kernel.complex.Complex[] coeffwz -> b int MAX_STEPS -> a geogebra.kernel.complex.Complex b -> a geogebra.kernel.complex.Complex d -> b geogebra.kernel.complex.Complex f -> c geogebra.kernel.complex.Complex g -> d geogebra.kernel.complex.Complex g2 -> e geogebra.kernel.complex.Complex h -> f geogebra.kernel.complex.Complex sq -> g geogebra.kernel.complex.Complex gp -> h geogebra.kernel.complex.Complex gm -> i geogebra.kernel.complex.Complex dx -> j geogebra.kernel.complex.Complex x1 -> k geogebra.kernel.complex.Complex temp1 -> l geogebra.kernel.complex.Complex temp2 -> m double[] frac -> a geogebra.kernel.complex.Complex coeffCopy(int) -> a java.lang.String toString() -> toString geogebra.kernel.complex.Complex[] roots(boolean,geogebra.kernel.complex.Complex) -> a geogebra.kernel.complex.Complex laguerre(geogebra.kernel.complex.Complex,geogebra.kernel.complex.Complex[],int) -> a geogebra.kernel.complex.Complex[] laguerreAll(boolean,geogebra.kernel.complex.Complex) -> b geogebra.kernel.integration.EllipticArcLength -> geogebra.a.d.b: double[] halfAxes -> a geogebra.kernel.roots.RealRootFunction arcLengthFunction -> a geogebra.kernel.integration.GaussQuadIntegration gauss -> a double compute(double,double) -> a double[] access$0(geogebra.kernel.integration.EllipticArcLength) -> a geogebra.kernel.integration.EllipticArcLength$EllipticArcLengthFunction -> geogebra.a.d.c: geogebra.kernel.integration.EllipticArcLength this$0 -> a double evaluate(double) -> a geogebra.kernel.integration.GaussQuadIntegration -> geogebra.a.d.a: int nPoints -> a double[] gaussQuadDist -> a double[] gaussQuadWeight -> b double integrate(geogebra.kernel.roots.RealRootFunction,double,double) -> a void gaussQuadCoeff(double[],double[],int) -> a geogebra.kernel.jama.GgbMat -> geogebra.a.h.a: boolean isUndefined -> a void inverseImmediate() -> a void transposeImmediate() -> b geogebra.kernel.GeoList getGeoList(geogebra.kernel.GeoList,geogebra.kernel.Construction) -> a boolean isUndefined() -> a void setIsUndefined(boolean) -> a boolean isSquare() -> b geogebra.kernel.jama.LUDecomposition -> geogebra.a.h.d: double[][] LU -> a int m -> a int n -> b int pivsign -> c int[] piv -> a boolean isNonsingular() -> a double det() -> a geogebra.kernel.jama.Matrix solve(geogebra.kernel.jama.Matrix) -> a geogebra.kernel.jama.Matrix -> geogebra.a.h.c: double[][] A -> a int m -> a int n -> b geogebra.kernel.jama.Matrix copy() -> a java.lang.Object clone() -> clone double[][] getArray() -> a double[][] getArrayCopy() -> b double[] getRowPackedCopy() -> a int getRowDimension() -> a int getColumnDimension() -> b double get(int,int) -> a geogebra.kernel.jama.Matrix getMatrix(int,int,int,int) -> a geogebra.kernel.jama.Matrix getMatrix(int[],int,int) -> a void set(int,int,double) -> a geogebra.kernel.jama.Matrix solve(geogebra.kernel.jama.Matrix) -> a geogebra.kernel.jama.Matrix inverse() -> b double det() -> a geogebra.kernel.jama.Matrix identity(int,int) -> a geogebra.kernel.jama.QRDecomposition -> geogebra.a.h.b: double[][] QR -> a int m -> a int n -> b double[] Rdiag -> a boolean isFullRank() -> a geogebra.kernel.jama.Matrix solve(geogebra.kernel.jama.Matrix) -> a geogebra.kernel.jama.util.Maths -> geogebra.a.h.a.a: double hypot(double,double) -> a geogebra.kernel.optimization.ExtremumFinder -> geogebra.a.i.b: int MAX_ITERATIONS -> a double findMinimum(double,double,geogebra.kernel.roots.RealRootFunction,double) -> a geogebra.kernel.optimization.NegativeRealRootFunction -> geogebra.a.i.a: geogebra.kernel.roots.RealRootFunction f -> a double evaluate(double) -> a geogebra.kernel.parser.ParseException -> geogebra.a.g.g: boolean specialConstructor -> a geogebra.kernel.parser.Token currentToken -> a int[][] expectedTokenSequences -> a java.lang.String[] tokenImage -> a java.lang.String eol -> a java.lang.String getMessage() -> getMessage java.lang.String add_escapes(java.lang.String) -> a geogebra.kernel.parser.Parser -> geogebra.a.g.d: geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction cons -> a geogebra.main.Application app -> a geogebra.kernel.parser.ParserTokenManager token_source -> a geogebra.kernel.parser.SimpleCharStream jj_input_stream -> a geogebra.kernel.parser.Token token -> a geogebra.kernel.parser.Token jj_nt -> b int jj_ntk -> a geogebra.kernel.parser.Token jj_scanpos -> c geogebra.kernel.parser.Token jj_lastpos -> d int jj_la -> b int jj_gen -> c int[] jj_la1 -> a int[] jj_la1_0 -> b int[] jj_la1_1 -> c int[] jj_la1_2 -> d geogebra.kernel.parser.Parser$JJCalls[] jj_2_rtns -> a boolean jj_rescan -> a int jj_gc -> d geogebra.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 geogebra.kernel.arithmetic.ValidExpression parse(java.lang.String) -> a geogebra.kernel.arithmetic.Function parseFunction(java.lang.String) -> a geogebra.kernel.arithmetic.ExpressionNode parseCmdExpression(java.lang.String) -> a geogebra.kernel.arithmetic.ExpressionNode parseExpression(java.lang.String) -> b java.lang.String parseLabel(java.lang.String) -> a java.lang.String label() -> a geogebra.kernel.arithmetic.ValidExpression buildValidExpression() -> a geogebra.kernel.arithmetic.Command command() -> a java.util.Vector labellist() -> a geogebra.kernel.arithmetic.Parametric parametric() -> a geogebra.kernel.arithmetic.Equation equation() -> a geogebra.kernel.arithmetic.ExpressionNode expression() -> a geogebra.kernel.arithmetic.ExpressionNode cmdexpression() -> b geogebra.kernel.arithmetic.Function function() -> a geogebra.kernel.arithmetic.ExpressionNode functionExpressionnode() -> c geogebra.kernel.arithmetic.ExpressionNode expressionnode() -> d geogebra.kernel.arithmetic.ExpressionNode ANDterm() -> e geogebra.kernel.arithmetic.ExpressionNode COMPAREterm() -> f geogebra.kernel.arithmetic.ExpressionNode plusminusnode() -> g geogebra.kernel.arithmetic.ExpressionNode enterm() -> h geogebra.kernel.arithmetic.ExpressionNode enunary() -> i geogebra.kernel.arithmetic.ExpressionNode enpower() -> j geogebra.kernel.arithmetic.ExpressionNode enfactorial() -> k geogebra.kernel.arithmetic.ExpressionNode NOTterm() -> l geogebra.kernel.arithmetic.ExpressionNode enelement() -> m geogebra.kernel.arithmetic.ExpressionValue list() -> a geogebra.kernel.arithmetic.ExpressionNode numVecVariable() -> n geogebra.kernel.arithmetic.ExpressionNode spreadsheetRange() -> r geogebra.kernel.arithmetic.MyDouble myDouble() -> a geogebra.kernel.arithmetic.ExpressionNode numberFunction() -> o geogebra.kernel.arithmetic.VectorValue cartesianvector() -> a geogebra.kernel.arithmetic.VectorValue polarvector() -> b geogebra.kernel.arithmetic.ExpressionNode cartesianvector_special() -> p geogebra.kernel.arithmetic.ExpressionNode polarvector_special() -> q 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) -> w boolean jj_3R_116() -> h boolean jj_3R_81() -> O boolean jj_3R_105() -> bu boolean jj_3R_102() -> i boolean jj_3R_78() -> P boolean jj_3R_115() -> l boolean jj_3R_65() -> aL boolean jj_3_22() -> bA boolean jj_3_12() -> aZ boolean jj_3R_18() -> bx boolean jj_3R_24() -> n boolean jj_3R_114() -> p boolean jj_3R_103() -> D boolean jj_3R_89() -> m boolean jj_3_10() -> y boolean jj_3R_90() -> ar boolean jj_3R_113() -> r boolean jj_3R_112() -> z boolean jj_3R_88() -> j boolean jj_3_9() -> k boolean jj_3_8() -> q boolean jj_3R_87() -> o boolean jj_3_7() -> v boolean jj_3_11() -> e boolean jj_3R_11() -> aR boolean jj_3R_86() -> u boolean jj_3R_85() -> B boolean jj_3R_104() -> b boolean jj_3_6() -> x boolean jj_3R_101() -> c boolean jj_3_5() -> H boolean jj_3R_16() -> bt boolean jj_3R_84() -> C boolean jj_3R_100() -> E boolean jj_3R_83() -> G boolean jj_3R_63() -> am boolean jj_3R_99() -> K boolean jj_3_4() -> I boolean jj_3_2() -> T boolean jj_3_21() -> t boolean jj_3R_82() -> L boolean jj_3R_79() -> aw boolean jj_3_3() -> Q boolean jj_3R_98() -> M boolean jj_3R_68() -> ab boolean jj_3R_60() -> Y boolean jj_3R_62() -> J boolean jj_3R_97() -> R boolean jj_3_1() -> V boolean jj_3R_14() -> ap boolean jj_3R_61() -> U boolean jj_3R_22() -> at boolean jj_3R_96() -> W boolean jj_3R_69() -> bn boolean jj_3R_59() -> af boolean jj_3R_58() -> aj boolean jj_3R_95() -> aa boolean jj_3R_27() -> an boolean jj_3R_57() -> ak boolean jj_3R_72() -> aK boolean jj_3R_56() -> ao boolean jj_3R_94() -> ac boolean jj_3R_13() -> X boolean jj_3R_55() -> aq boolean jj_3R_54() -> as boolean jj_3R_93() -> ag boolean jj_3R_53() -> av boolean jj_3R_52() -> ax boolean jj_3R_92() -> ai boolean jj_3R_64() -> s boolean jj_3R_28() -> bs boolean jj_3R_50() -> aB boolean jj_3R_51() -> ay boolean jj_3R_15() -> F boolean jj_3R_49() -> aA boolean jj_3R_91() -> al boolean jj_3_20() -> N boolean jj_3R_23() -> w boolean jj_3R_48() -> aC boolean jj_3R_80() -> a boolean jj_3R_47() -> aF boolean jj_3R_46() -> aH boolean jj_3R_111() -> A boolean jj_3R_45() -> aJ boolean jj_3R_44() -> aN boolean jj_3R_43() -> aO boolean jj_3R_75() -> bh boolean jj_3_19() -> au boolean jj_3R_42() -> aQ boolean jj_3_18() -> aE boolean jj_3R_41() -> aT boolean jj_3R_74() -> aD boolean jj_3R_40() -> aV boolean jj_3R_73() -> aI boolean jj_3R_66() -> bi boolean jj_3_17() -> aG boolean jj_3R_39() -> aX boolean jj_3R_38() -> aY boolean jj_3_16() -> aM boolean jj_3R_20() -> bq boolean jj_3R_37() -> ba boolean jj_3R_12() -> ah boolean jj_3_15() -> aP boolean jj_3R_36() -> be boolean jj_3_14() -> aS boolean jj_3R_35() -> bj boolean jj_3R_34() -> bk boolean jj_3R_77() -> d boolean jj_3R_21() -> Z boolean jj_3R_33() -> bo boolean jj_3_13() -> aU boolean jj_3R_71() -> ae boolean jj_3R_19() -> bm boolean jj_3R_110() -> az boolean jj_3R_109() -> bc boolean jj_3R_108() -> bd boolean jj_3R_107() -> bf boolean jj_3R_76() -> aW boolean jj_3R_67() -> S boolean jj_3R_26() -> ad boolean jj_3R_70() -> bb boolean jj_3R_30() -> by boolean jj_3R_119() -> bB boolean jj_3R_118() -> bw boolean jj_3R_29() -> bp boolean jj_3R_25() -> bl boolean jj_3R_17() -> g boolean jj_3R_117() -> f boolean jj_3R_106() -> bg boolean jj_3R_32() -> br boolean jj_3R_31() -> bv boolean jj_3R_10() -> bz void jj_la1_init_0() -> a void jj_la1_init_1() -> b void jj_la1_init_2() -> c void ReInit(java.io.Reader) -> a geogebra.kernel.parser.Token jj_consume_token(int) -> a boolean jj_scan_token(int) -> v int jj_ntk() -> a void jj_add_error_token(int,int) -> a geogebra.kernel.parser.ParseException generateParseException() -> a void jj_rescan_token() -> d void jj_save(int,int) -> b geogebra.kernel.parser.Parser$JJCalls -> geogebra.a.g.f: int gen -> a geogebra.kernel.parser.Token first -> a int arg -> b geogebra.kernel.parser.Parser$JJCalls next -> a geogebra.kernel.parser.Parser$LookaheadSuccess -> geogebra.a.g.h: geogebra.kernel.parser.ParserConstants -> geogebra.a.g.i: java.lang.String[] tokenImage -> c geogebra.kernel.parser.ParserTokenManager -> geogebra.a.g.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[] jjbitVec14 -> 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 long[] jjbitVec33 -> G long[] jjbitVec34 -> H long[] jjbitVec35 -> I long[] jjbitVec36 -> J long[] jjbitVec37 -> K long[] jjbitVec38 -> N int[] jjnextStates -> a java.lang.String[] jjstrLiteralImages -> a java.lang.String[] lexStateNames -> b long[] jjtoToken -> L long[] jjtoSkip -> M geogebra.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,long) -> a int jjMoveStringLiteralDfa2_0(long,long,long,long) -> a int jjMoveStringLiteralDfa3_0(long,long,long,long) -> b int jjMoveStringLiteralDfa4_0(long,long) -> b int jjMoveStringLiteralDfa5_0(long,long) -> c int jjMoveStringLiteralDfa6_0(long,long) -> d int jjMoveStringLiteralDfa7_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 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 void ReInit(geogebra.kernel.parser.SimpleCharStream) -> a void ReInitRounds() -> a geogebra.kernel.parser.Token jjFillToken() -> a geogebra.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.kernel.parser.SimpleCharStream -> geogebra.a.g.b: 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.kernel.parser.Token -> geogebra.a.g.e: int kind -> a int beginLine -> b int beginColumn -> c int endLine -> d int endColumn -> e java.lang.String image -> a geogebra.kernel.parser.Token next -> a java.lang.String toString() -> toString geogebra.kernel.parser.Token newToken(int,java.lang.String) -> a geogebra.kernel.parser.TokenMgrError -> geogebra.a.g.a: 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.kernel.roots.RealRoot -> geogebra.a.f.c: double tol -> a double tolClass -> b int iterMax -> a int iterN -> b double brent(geogebra.kernel.roots.RealRootFunction,double,double) -> a double falsePosition(geogebra.kernel.roots.RealRootFunction,double,double) -> b double bisectNewtonRaphson(geogebra.kernel.roots.RealRootDerivFunction,double,double) -> a double newtonRaphson(geogebra.kernel.roots.RealRootDerivFunction,double) -> a geogebra.kernel.roots.RealRootDerivFunction -> geogebra.a.f.a: double[] evaluateDerivFunc(double) -> a geogebra.kernel.roots.RealRootFunction -> geogebra.a.f.b: double evaluate(double) -> a geogebra.kernel.roots.RealRootUtil -> geogebra.a.f.d: int ITER_MAX -> a double EPSILON -> a double[] getDefinedInterval(geogebra.kernel.roots.RealRootFunction,double,double) -> a double getDefinitionBorder(geogebra.kernel.roots.RealRootFunction,double,double) -> a geogebra.kernel.statistics.AlgoDoubleListCovariance -> geogebra.a.c.m: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoDoubleListPMCC -> geogebra.a.c.q: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoDoubleListSXX -> geogebra.a.c.a: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoDoubleListSXY -> geogebra.a.c.H: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoFitExp -> geogebra.a.c.y: geogebra.kernel.GeoList geolist -> a geogebra.kernel.GeoFunction geofunction -> a geogebra.kernel.statistics.RegressionMath regMath -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFitExp() -> a void compute() -> b geogebra.kernel.statistics.AlgoFitLineX -> geogebra.a.c.v: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoLine g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getFitLineX() -> a void compute() -> b geogebra.kernel.statistics.AlgoFitLineY -> geogebra.a.c.E: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoLine g -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoLine getFitLineY() -> a void compute() -> b geogebra.kernel.statistics.AlgoFitLog -> geogebra.a.c.o: geogebra.kernel.GeoList geolist -> a geogebra.kernel.GeoFunction geofunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFitLog() -> a void compute() -> b geogebra.kernel.statistics.AlgoFitLogistic -> geogebra.a.c.B: geogebra.main.Application app -> b geogebra.kernel.Kernel k -> b double a -> a double b -> b double c -> c double[] xd -> a double[] yd -> b int size -> a int iterations -> b boolean error -> a geogebra.kernel.statistics.RegressionMath regMath -> a boolean allplus -> b boolean allneg -> c geogebra.kernel.GeoList geolist -> a geogebra.kernel.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 java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFitLogistic() -> a void compute() -> b void doReg() -> i void findParameters() -> k void Logistic_Reg() -> l double f(double,double,double,double) -> a double f(double,double) -> a double df_c(double,double,double) -> b 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) -> a double beta2(double[],double[],double,double,double) -> a double beta2(double[],double[],double) -> a double c(double,double,double,double,double) -> b double a(double,double,double,double,double) -> c void getPoints() -> m void errorMsg(java.lang.String) -> a geogebra.kernel.statistics.AlgoFitPoly -> geogebra.a.c.D: geogebra.kernel.GeoList geolist -> a geogebra.kernel.arithmetic.NumberValue degree -> a geogebra.kernel.GeoFunction geofunction -> a geogebra.kernel.GeoElement geodegree -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFitPoly() -> a void compute() -> b geogebra.kernel.statistics.AlgoFitPow -> geogebra.a.c.z: geogebra.kernel.GeoList geolist -> a geogebra.kernel.GeoFunction geofunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFitPow() -> a void compute() -> b geogebra.kernel.statistics.AlgoFitSin -> geogebra.a.c.O: geogebra.main.Application app -> b geogebra.kernel.Kernel k -> b 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.kernel.statistics.RegressionMath regMath -> a geogebra.kernel.GeoList geolist -> a geogebra.kernel.GeoFunction geofunction -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoFunction getFitSin() -> a void compute() -> b void doReg() -> i void findParameters() -> k void sinus_Reg() -> l 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() -> m boolean nearmaxmin(double,double,double,int,int,double,double) -> a void errorMsg(java.lang.String) -> a int findNumberOfHalfPeriods(int,int,int) -> a geogebra.kernel.statistics.AlgoInverseNormal -> geogebra.a.c.h: geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.arithmetic.NumberValue c -> c geogebra.kernel.GeoNumeric num -> a double[] ICDF_A -> a double[] ICDF_B -> b double[] ICDF_C -> c double[] ICDF_D -> d double[] ERF_A -> e double[] ERF_B -> f double[] ERF_C -> g double[] ERF_D -> h double[] ERF_P -> i double[] ERF_Q -> j double PI_SQRT -> a double X_HUGE -> b double X_MAX -> c java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b double getInvCDF(double,boolean) -> a double calerf(double,int) -> a double erfc(double) -> a double refine(double,double) -> a geogebra.kernel.statistics.AlgoListCovariance -> geogebra.a.c.s: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListMeanX -> geogebra.a.c.N: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListMeanY -> geogebra.a.c.C: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListPMCC -> geogebra.a.c.x: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListSXX -> geogebra.a.c.g: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListSXY -> geogebra.a.c.J: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListSYY -> geogebra.a.c.b: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListSigmaXX -> geogebra.a.c.l: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListSigmaXY -> geogebra.a.c.c: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoListSigmaYY -> geogebra.a.c.G: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoMean -> geogebra.a.c.P: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoMedian -> geogebra.a.c.p: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric median -> a int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getMedian() -> a void compute() -> b geogebra.kernel.statistics.AlgoMode -> geogebra.a.c.e: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoList outputList -> b int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoList getResult() -> a void compute() -> b void setListElement(int,double) -> a geogebra.kernel.statistics.AlgoNormal -> geogebra.a.c.k: geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.arithmetic.NumberValue b -> b geogebra.kernel.arithmetic.NumberValue c -> c geogebra.kernel.GeoNumeric num -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b double getCDF(double) -> a geogebra.kernel.statistics.AlgoProduct -> geogebra.a.c.w: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoQ1 -> geogebra.a.c.t: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric Q1 -> a int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getQ1() -> a void compute() -> b geogebra.kernel.statistics.AlgoQ3 -> geogebra.a.c.M: geogebra.kernel.GeoList inputList -> a geogebra.kernel.GeoNumeric Q3 -> a int size -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getQ3() -> a void compute() -> b geogebra.kernel.statistics.AlgoRandom -> geogebra.a.c.A: java.lang.String getClassName() -> a void compute() -> b double random(double,double) -> a geogebra.kernel.statistics.AlgoRandomBinomial -> geogebra.a.c.i: double halflog2pi -> a double[] logtable -> a java.lang.String getClassName() -> a void compute() -> b int randomBinomialTRS(int,double) -> a int randomBinomial(double,double) -> a double logOfKFactorial(int) -> a geogebra.kernel.statistics.AlgoRandomNormal -> geogebra.a.c.r: java.lang.String getClassName() -> a void compute() -> b double randomNormal(double,double) -> a geogebra.kernel.statistics.AlgoRandomPoisson -> geogebra.a.c.u: geogebra.kernel.arithmetic.NumberValue a -> a geogebra.kernel.GeoNumeric num -> a double halflog2pi -> a double[] logtable -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a java.lang.String getClassName() -> a void compute() -> b int randomPoisson(double) -> b int randomPoissonTRS(double) -> a double logOfKFactorial(int) -> a geogebra.kernel.statistics.AlgoSXX -> geogebra.a.c.d: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoSigmaXX -> geogebra.a.c.F: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoStandardDeviation -> geogebra.a.c.j: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoStats1D -> geogebra.a.c.n: geogebra.kernel.GeoList geoList -> a geogebra.kernel.GeoNumeric Truncate -> a geogebra.kernel.GeoNumeric result -> b int stat -> a java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.statistics.AlgoStats2D -> geogebra.a.c.L: geogebra.kernel.GeoList geoListx -> a geogebra.kernel.GeoList geoListy -> b geogebra.kernel.GeoNumeric result -> a int mode -> a int stat -> b java.lang.String getClassName() -> a void setInputOutput() -> a geogebra.kernel.GeoNumeric getResult() -> a void compute() -> b geogebra.kernel.statistics.AlgoSum -> geogebra.a.c.I: java.lang.String getClassName() -> a geogebra.kernel.statistics.AlgoVariance -> geogebra.a.c.K: java.lang.String getClassName() -> a geogebra.kernel.statistics.RegressionMath -> geogebra.a.c.f: boolean error -> b double r -> a double p1 -> b double p2 -> c double p3 -> d double p4 -> e double p5 -> f double sigmax -> g double sigmax2 -> h double sigmax3 -> i double sigmax4 -> j double sigmax5 -> k double sigmax6 -> l double sigmax7 -> m double sigmax8 -> n double sigmay -> o double sigmay2 -> p double sigmaxy -> q double sigmax2y -> r double sigmax3y -> s double sigmax4y -> t geogebra.kernel.GeoList geolist -> a double[] xlist -> a double[] ylist -> b int size -> b 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.kernel.GeoList,int) -> a boolean doLinear(geogebra.kernel.GeoList) -> a boolean doQuad(geogebra.kernel.GeoList) -> b boolean doCubic(geogebra.kernel.GeoList) -> c boolean doQuart(geogebra.kernel.GeoList) -> d boolean doExp(geogebra.kernel.GeoList) -> e boolean doLog(geogebra.kernel.GeoList) -> f boolean doPow(geogebra.kernel.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 double corrCoeff() -> f void makeMatrixArrays(int) -> b geogebra.main.AppletImplementation -> geogebra.e.f: javax.swing.JApplet applet -> a geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a javax.swing.JButton btOpen -> a geogebra.main.AppletImplementation$DoubleClickListener dcListener -> a geogebra.euclidian.EuclidianView ev -> a boolean showOpenButton -> a boolean undoActive -> b boolean showToolBar -> c boolean showToolBarHelp -> d boolean showAlgebraInput -> e boolean enableRightClick -> f boolean enableLabelDrags -> g boolean enableShiftDragZoom -> h boolean showMenuBar -> i boolean showResetIcon -> j java.awt.Color bgColor -> a java.awt.Color borderColor -> b java.lang.String fileStr -> a java.lang.String customToolBar -> b boolean showFrame -> k javax.swing.JFrame wnd -> a netscape.javascript.JSObject browserWindow -> a geogebra.plugin.GgbAPI ggbApi -> a java.util.HashMap updateListenerMap -> a java.util.ArrayList addListeners -> a java.util.ArrayList removeListeners -> b java.util.ArrayList renameListeners -> c java.util.ArrayList updateListeners -> d java.util.ArrayList clearListeners -> e geogebra.main.AppletImplementation$JavaToJavaScriptView javaToJavaScriptView -> a javax.swing.JApplet getJApplet() -> a void dispose() -> k void initInBackground() -> l void init() -> d geogebra.main.Application buildApplication(java.lang.String[],boolean) -> a void initGUI() -> a javax.swing.JPanel createGeoGebraAppletPanel() -> a void showFrame() -> e void doShowFrame() -> f void initGeoGebraFrame() -> g void showApplet() -> b void reinitGUI() -> h byte[] getGGBfile() -> getGGBfile java.lang.String getXML() -> getXML java.lang.String getXML(java.lang.String) -> getXML java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML void setXML(java.lang.String) -> setXML void evalXML(java.lang.String) -> evalXML boolean evalCommand(java.lang.String) -> evalCommand java.lang.String evalMathPiper(java.lang.String) -> evalMathPiper void debug(java.lang.String) -> debug 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 setLabelMode(java.lang.String,boolean) -> setLabelMode void setColor(java.lang.String,int,int,int) -> setColor 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 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 boolean isAnimationRunning() -> isAnimationRunning boolean renameObject(java.lang.String,java.lang.String) -> renameObject boolean exists(java.lang.String) -> exists boolean isDefined(java.lang.String) -> isDefined 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 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 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 initJavaScriptView() -> j void callJavaScript(java.lang.String,java.lang.Object[]) -> a void initJavaScript() -> c void access$0(geogebra.main.AppletImplementation) -> a java.util.ArrayList access$1(geogebra.main.AppletImplementation) -> a java.util.ArrayList access$2(geogebra.main.AppletImplementation) -> b geogebra.plugin.GgbAPI access$3(geogebra.main.AppletImplementation) -> a void access$4(geogebra.main.AppletImplementation,java.util.HashMap) -> a java.util.ArrayList access$5(geogebra.main.AppletImplementation) -> c java.util.ArrayList access$6(geogebra.main.AppletImplementation) -> d void access$7(geogebra.main.AppletImplementation,java.lang.String,java.lang.Object[]) -> a java.util.ArrayList access$8(geogebra.main.AppletImplementation) -> e java.util.HashMap access$9(geogebra.main.AppletImplementation) -> a void access$10(geogebra.main.AppletImplementation) -> b void access$11(geogebra.main.AppletImplementation,javax.swing.JFrame) -> a javax.swing.JApplet access$12(geogebra.main.AppletImplementation) -> a void access$13(geogebra.main.AppletImplementation) -> c javax.swing.JFrame access$14(geogebra.main.AppletImplementation) -> a javax.swing.JButton access$15(geogebra.main.AppletImplementation) -> a void access$16(geogebra.main.AppletImplementation) -> d java.lang.String access$17(geogebra.main.AppletImplementation) -> a geogebra.main.AppletImplementation$1 -> geogebra.e.x: geogebra.main.AppletImplementation this$0 -> a void run() -> run geogebra.main.AppletImplementation$2 -> geogebra.e.s: geogebra.main.AppletImplementation this$0 -> a void run() -> run geogebra.main.AppletImplementation$3 -> geogebra.e.l: geogebra.main.AppletImplementation this$0 -> a void run() -> run geogebra.main.AppletImplementation$4 -> geogebra.e.d: geogebra.main.AppletImplementation this$0 -> a void run() -> run geogebra.main.AppletImplementation$5 -> geogebra.e.y: geogebra.main.AppletImplementation this$0 -> a void run() -> run geogebra.main.AppletImplementation$6 -> geogebra.e.a: geogebra.main.AppletImplementation this$0 -> a java.lang.String val$cmdString -> a java.lang.Object run() -> run geogebra.main.AppletImplementation$7 -> geogebra.e.C: geogebra.main.AppletImplementation this$0 -> a java.lang.String val$str -> a java.lang.Object run() -> run geogebra.main.AppletImplementation$8 -> geogebra.e.A: geogebra.main.AppletImplementation this$0 -> a java.lang.Object run() -> run geogebra.main.AppletImplementation$9 -> geogebra.e.B: geogebra.main.AppletImplementation this$0 -> a java.lang.String val$strURL -> a java.lang.Object run() -> run geogebra.main.AppletImplementation$ButtonClickListener -> geogebra.e.j: geogebra.main.AppletImplementation this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.main.AppletImplementation$DoubleClickListener -> geogebra.e.v: geogebra.main.AppletImplementation this$0 -> a void mouseClicked(java.awt.event.MouseEvent) -> mouseClicked geogebra.main.AppletImplementation$JavaToJavaScriptView -> geogebra.e.h: geogebra.main.AppletImplementation this$0 -> a void add(geogebra.kernel.GeoElement) -> a void remove(geogebra.kernel.GeoElement) -> b void clearView() -> d void rename(geogebra.kernel.GeoElement) -> c void notifyListeners(java.util.ArrayList,java.lang.Object[]) -> a void update(geogebra.kernel.GeoElement) -> d void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e void reset() -> g void repaintView() -> e geogebra.main.Application -> geogebra.e.t: java.util.ArrayList supportedLocales -> a java.util.Hashtable specialLanguageNames -> a java.awt.Color COLOR_SELECTION -> a java.lang.String appFontNameSansSerif -> c java.lang.String appFontNameSerif -> d java.io.File currentPath -> a java.io.File currentImagePath -> b java.io.File currentFile -> c javax.swing.JFrame frame -> a geogebra.main.AppletImplementation appletImpl -> a geogebra.main.GuiManager appGuiManager -> a geogebra.main.CasManager casView -> a java.awt.Component mainComp -> a boolean isApplet -> i boolean showResetIcon -> j boolean runningInFrame -> a geogebra.kernel.Kernel kernel -> a geogebra.io.MyXMLio myXMLio -> a geogebra.euclidian.EuclidianView euclidianView -> a geogebra.euclidian.EuclidianController euclidianController -> a geogebra.main.GeoElementSelectionListener currentSelectionListener -> a geogebra.main.GlobalKeyDispatcher globalKeyDispatcher -> a java.util.Locale currentLocale -> a java.util.ResourceBundle rbmenu -> a java.util.ResourceBundle rbcommand -> b java.util.ResourceBundle rbcommandOld -> f java.util.ResourceBundle rberror -> c java.util.ResourceBundle rbplain -> d java.util.ResourceBundle rbsettings -> e geogebra.util.ImageManager imageManager -> a java.util.Hashtable translateCommandTable -> b geogebra.util.LowerCaseDictionary commandDict -> a boolean INITING -> k boolean showAlgebraView -> b boolean showAuxiliaryObjects -> l boolean showAlgebraInput -> m boolean showCmdList -> n boolean showToolBar -> c boolean showMenuBar -> d boolean showConsProtNavigation -> e boolean[] showAxes -> a boolean showGrid -> o boolean antialiasing -> p boolean showSpreadsheet -> q boolean showCAS -> r boolean printScaleString -> s int labelingStyle -> e boolean rightClickEnabled -> u boolean labelDragsEnabled -> v boolean shiftDragZoomEnabled -> w boolean isErrorDialogsActive -> x boolean isErrorDialogShowing -> t java.util.LinkedList fileList -> a boolean isSaved -> y int appFontSize -> f java.awt.Font boldFont -> a java.awt.Font plainFont -> b java.awt.Font smallFont -> c javax.swing.JPanel centerPanel -> a javax.swing.JSplitPane sp -> a javax.swing.JSplitPane sp2 -> b geogebra.main.Application$DividerChangeListener spChangeListener -> a int initSplitDividerLocationHOR2 -> a int initSplitDividerLocationVER2 -> b int initSplitDividerLocationHOR -> c int initSplitDividerLocationVER -> d boolean horizontalSplit -> f java.util.ArrayList selectedGeos -> b geogebra.JarManager jarmanager -> a geogebra.plugin.GgbAPI ggbapi -> a geogebra.plugin.PluginManager pluginmanager -> a java.lang.String IPAddress -> a java.lang.String hostName -> b boolean rightToLeftReadingOrder -> z boolean reverseNameDescription -> A boolean isAutoCompletePossible -> B java.lang.StringBuffer sbPlain -> a javax.swing.JFrame casFrame -> b geogebra.main.GlassPaneListener glassPaneListener -> a boolean MAC_OS -> g boolean WINDOWS -> h boolean fakeRightClick -> C int[] roundingMenuLookup -> a int[] decimalsLookup -> b int[] figuresLookup -> c java.lang.String[] strDecimalSpacesAC -> a java.lang.Runtime runtime -> a java.awt.Rectangle screenSize -> a void initKernel() -> a geogebra.main.GuiManager getGuiManager() -> a boolean hasGuiManager() -> a void initCAS() -> b void downloadJarFiles() -> M void setUnsaved() -> c int getLabelingStyle() -> a void setLabelingStyle(int) -> a void updateContentPane() -> d void updateContentPaneAndSize() -> e void updateContentPane(boolean) -> s void updateComponentTreeUI() -> f javax.swing.JPanel buildApplicationPanel() -> a void updateCenterPanel(boolean) -> a javax.swing.JPanel getCenterPanel() -> b void handleOptionArgs(java.lang.String[]) -> a boolean handleFileArg(java.lang.String[]) -> a geogebra.kernel.Kernel getKernel() -> a void setApplet(geogebra.main.AppletImplementation) -> a void setShowResetIcon(boolean) -> b boolean showResetIcon() -> b void reset() -> g void refreshViews() -> h void setFrame(javax.swing.JFrame) -> a boolean isApplet() -> c javax.swing.JFrame getFrame() -> a java.awt.Component getMainComponent() -> a geogebra.euclidian.EuclidianView getEuclidianView() -> a void geoElementSelected(geogebra.kernel.GeoElement,boolean) -> a void setSelectionListenerMode(geogebra.main.GeoElementSelectionListener) -> a geogebra.main.GeoElementSelectionListener getCurrentSelectionListener() -> a void setMoveMode() -> j javax.swing.ImageIcon getImageIcon(java.lang.String) -> a javax.swing.ImageIcon getImageIcon(java.lang.String,java.awt.Color) -> a javax.swing.ImageIcon getToolBarImage(java.lang.String,java.awt.Color) -> b javax.swing.ImageIcon getEmptyIcon() -> a java.awt.Image getInternalImage(java.lang.String) -> a java.awt.Image getRefreshViewImage() -> a java.awt.Image getPlayImage() -> b java.awt.Image getPauseImage() -> c java.awt.image.BufferedImage getExternalImage(java.lang.String) -> a void addExternalImage(java.lang.String,java.awt.image.BufferedImage) -> a void zoom(double,double,double) -> a void zoomAxesRatio(double) -> a void setStandardView() -> k void setViewShowAllObjects() -> l java.util.Locale getLocale(java.lang.String) -> a void setLanguage(java.util.Locale) -> a boolean isZeroPlural(java.util.Locale) -> a boolean isRightToLeftReadingOrder() -> d boolean isReverseNameDescriptionLanguage() -> e boolean isAutoCompletePossible() -> f void updateReverseLanguage(java.util.Locale) -> c void getLanguageFontName(java.util.Locale) -> d java.lang.String getFontCanDisplay(java.lang.String,char) -> a boolean testFontCanDisplay(java.lang.String,char) -> a void setLocale(java.util.Locale) -> b java.util.Locale getClosestSupportedLocale(java.util.Locale) -> a java.util.ResourceBundle initAlgo2CommandBundle() -> a java.util.ResourceBundle initAlgo2IntergeoBundle() -> b void updateResourceBundles() -> F void fillCommandDict() -> G void addMacroCommands() -> H void removeMacroCommands() -> m java.util.Locale getLocale() -> a boolean loadPropertiesJar() -> g boolean loadExportJar() -> h boolean loadCASJar() -> i boolean loadGUIJar() -> j boolean loadLaTeXJar() -> k java.lang.String loadTextFile(java.lang.String) -> a java.lang.String getPlain(java.lang.String) -> b void initPlainResourceBundle() -> I 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 getPlain(java.lang.String,java.lang.String[]) -> a java.lang.String getMenu(java.lang.String) -> c java.lang.String getError(java.lang.String) -> d void initTranslatedCommands() -> i java.lang.String getCommand(java.lang.String) -> e java.lang.String getSetting(java.lang.String) -> f boolean propertiesFilesPresent() -> l java.lang.String translateCommand(java.lang.String) -> g void showRelation(geogebra.kernel.GeoElement,geogebra.kernel.GeoElement) -> a void showHelp(java.lang.String) -> a void showError(java.lang.String) -> b void showError(geogebra.main.MyError) -> a void showErrorDialog(java.lang.String) -> c boolean isErrorDialogShowing() -> J void showMessage(java.lang.String) -> d void setWaitCursor() -> n void setDefaultCursor() -> o void doAfterRedefine(geogebra.kernel.GeoElement) -> a 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() -> b void updateTitle() -> p void setFontSize(int) -> b int getInitFontSize() -> f void resetFonts() -> q void updateFonts() -> r java.awt.Font getBoldFont() -> a java.awt.Font getPlainFont() -> b java.awt.Font getSmallFont() -> c void setLAFFontSize() -> J int getFontSize() -> c void setLabels() -> K java.lang.String getToolName(int) -> a java.lang.String getToolHelp(int) -> b java.lang.String getToolTooltipHTML(int) -> c java.lang.String getToolNameOrHelp(int,boolean) -> a javax.swing.ImageIcon getModeIcon(int) -> a void setSplitDividerLocationHOR(int) -> c void setSplitDividerLocationVER(int) -> d void setSplitDividerLocationHOR2(int) -> e void setSplitDividerLocationVER2(int) -> f void setHorizontalSplit(boolean) -> c boolean isHorizontalSplit() -> m void setShowAlgebraView(boolean) -> d void setShowSpreadsheetView(boolean) -> e void setShowCasView(boolean) -> f geogebra.main.CasManager getCasView() -> a boolean hasCasView() -> n javax.swing.JFrame createCasFrame(geogebra.main.CasManager) -> a boolean showAlgebraView() -> o boolean showSpreadsheetView() -> p boolean showAlgebraInput() -> q void setShowAlgebraInput(boolean) -> g boolean showCmdList() -> r void setShowCmdList(boolean) -> h void setShowConstructionProtocolNavigation(boolean) -> i boolean showConsProtNavigation() -> s boolean showAuxiliaryObjects() -> t void setShowAuxiliaryObjects(boolean) -> j void setShowMenuBar(boolean) -> k void setShowToolBar(boolean,boolean) -> a boolean showToolBar() -> u boolean showMenuBar() -> v void setUndoActive(boolean) -> l boolean isUndoActive() -> w void setRightClickEnabled(boolean) -> m void setLabelDragsEnabled(boolean) -> n boolean isRightClickEnabled() -> x boolean isLabelDragsEnabled() -> y boolean letRename() -> z boolean letDelete() -> A boolean letRedefine() -> B boolean letShowPopupMenu() -> C boolean letShowPropertiesDialog() -> D void updateToolBar() -> s void updateMenubar() -> t void updateSelection() -> L void updateMenuWindow() -> u void updateCommandDictionary() -> v void clearConstruction() -> w void exit() -> x void exitAll() -> y boolean saveCurrentFile() -> E void setMode(int) -> g int getMode() -> d boolean loadXML(java.io.File,boolean) -> a boolean loadXML(java.net.URL,boolean) -> a boolean loadXML(java.io.InputStream,boolean) -> a boolean saveGeoGebraFile(java.io.File) -> a boolean saveMacroFile(java.io.File,java.util.ArrayList) -> a java.lang.String getXML() -> a void setXML(java.lang.String,boolean) -> a java.lang.String getPreferencesXML() -> b byte[] getMacroFileAsByteArray() -> a void loadMacroFileFromByteArray(byte[],boolean) -> a geogebra.io.MyXMLio getXMLio() -> a boolean isSaved() -> F void storeUndoInfo() -> z java.lang.String getGUItagXML() -> c java.lang.String getCompleteUserInterfaceXML() -> d java.lang.String getConsProtocolXML() -> e java.net.URL getCodeBase() -> a int selectedGeosSize() -> e java.util.ArrayList getSelectedGeos() -> a geogebra.kernel.GeoElement getLastCreatedGeoElement() -> a void setSelectedGeos(java.util.ArrayList) -> a void selectAll(int) -> h void selectAllPredecessors() -> A void selectAllDescendants() -> B void clearSelectedGeos() -> C void clearSelectedGeos(boolean) -> o void toggleSelectedGeo(geogebra.kernel.GeoElement) -> b void toggleSelectedGeo(geogebra.kernel.GeoElement,boolean) -> b boolean containsSelectedGeo(geogebra.kernel.GeoElement) -> a void removeSelectedGeo(geogebra.kernel.GeoElement) -> c void removeSelectedGeo(geogebra.kernel.GeoElement,boolean) -> c void addSelectedGeo(geogebra.kernel.GeoElement) -> d void addSelectedGeo(geogebra.kernel.GeoElement,boolean) -> d void startDispatchingEventsTo(javax.swing.JComponent) -> a void stopDispatchingEvents() -> D java.awt.Component getGlassPane() -> b java.awt.Container getContentPane() -> a boolean dispatchKeyEvent(java.awt.event.KeyEvent) -> dispatchKeyEvent geogebra.main.GlobalKeyDispatcher getGlobalKeyDispatcher() -> a boolean isPrintScaleString() -> G void setPrintScaleString(boolean) -> p java.io.File getCurrentImagePath() -> c void setCurrentImagePath(java.io.File) -> d void copyJarsTo(java.lang.String) -> e void setErrorDialogsActive(boolean) -> q boolean isShiftDragZoomEnabled() -> H void setShiftDragZoomEnabled(boolean) -> r geogebra.plugin.GgbAPI getGgbApi() -> a geogebra.plugin.PluginManager getPluginManager() -> a void debug(java.lang.String) -> f boolean isAltDown(java.awt.event.InputEvent) -> a boolean isControlDown(java.awt.event.InputEvent) -> b boolean isRightClick(java.awt.event.MouseEvent) -> a java.lang.String getAppFontNameSansSerif() -> f java.lang.String getAppFontNameSerif() -> g java.lang.String[] getRoundingMenu() -> a void deleteSelectedObjects() -> E java.lang.String createImage(java.awt.image.BufferedImage,java.lang.String) -> a java.lang.String convertToHex(byte[]) -> a java.lang.String getExtension(java.io.File) -> a java.io.File addExtension(java.io.File,java.lang.String) -> a java.io.File removeExtension(java.io.File) -> a geogebra.util.LowerCaseDictionary getCommandDictionary() -> a boolean freeMemoryIsCritical() -> I long freeMemory() -> a long getHeapSize() -> b void copyGraphicsViewToClipboard() -> N java.awt.Rectangle getScreenSize() -> a void access$0(geogebra.main.Application,boolean) -> a javax.swing.JSplitPane access$1(geogebra.main.Application) -> a geogebra.main.AppletImplementation access$2(geogebra.main.Application) -> a geogebra.main.Application$1 -> geogebra.e.p: geogebra.main.Application this$0 -> a void windowClosing(java.awt.event.WindowEvent) -> windowClosing geogebra.main.Application$2 -> geogebra.e.g: geogebra.main.Application this$0 -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.main.Application$3 -> geogebra.e.D: geogebra.main.Application this$0 -> a void run() -> run geogebra.main.Application$DividerChangeListener -> geogebra.e.k: geogebra.main.Application this$0 -> a void propertyChange(java.beans.PropertyChangeEvent) -> propertyChange geogebra.main.CasManager -> geogebra.e.c: void initCellPairs(java.util.LinkedList) -> a java.lang.String getSessionXML() -> a javax.swing.JComponent getCASViewComponent() -> a java.lang.Object setInputExpression(java.lang.Object,java.lang.String) -> a java.lang.Object setOutputExpression(java.lang.Object,java.lang.String) -> b java.lang.Object createCellValue() -> a javax.swing.JButton createButton(javax.swing.JComponent,int) -> a geogebra.main.DefaultApplet -> geogebra.e.m: geogebra.main.Application buildApplication(java.lang.String[],boolean) -> a geogebra.main.DefaultApplication -> geogebra.e.b: geogebra.main.GeoElementSelectionListener -> geogebra.e.r: void geoElementSelected(geogebra.kernel.GeoElement,boolean) -> a geogebra.main.GeoGebraPreferences -> geogebra.e.e: java.util.prefs.Preferences ggbPrefs -> a java.lang.String XML_GGB_FACTORY_DEFAULT -> a java.lang.String XML_USER_PREFERENCES -> 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 geogebra.main.GeoGebraPreferences singleton -> a geogebra.main.GeoGebraPreferences getPref() -> a 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 initDefaultXML(geogebra.main.Application) -> a void saveXMLPreferences(geogebra.main.Application) -> b void putByteArray(java.util.prefs.Preferences,java.lang.String,byte[]) -> a byte[] getByteArray(java.util.prefs.Preferences,java.lang.String,byte[]) -> a void loadXMLPreferences(geogebra.main.Application) -> c void clearPreferences() -> c geogebra.main.GlassPaneListener -> geogebra.e.o: 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.GlobalKeyDispatcher -> geogebra.e.z: geogebra.main.Application app -> a java.util.TreeSet tempSet -> a geogebra.kernel.GeoVector tempVec -> a boolean dispatchKeyEvent(java.awt.event.KeyEvent) -> dispatchKeyEvent boolean handleKeyPressed(java.awt.event.KeyEvent) -> a boolean handleKeyTyped(java.awt.event.KeyEvent) -> b boolean handleGeneralKeys(java.awt.event.KeyEvent) -> c boolean handleSelectedGeosKeys(java.awt.event.KeyEvent,java.util.ArrayList) -> a java.util.TreeSet getTempSet() -> a void handleFunctionKeyForAlgebraInput(int,geogebra.kernel.GeoElement) -> a boolean handleArrowKeyMovement(java.util.ArrayList,double,double) -> a geogebra.main.GuiManager -> geogebra.e.n: boolean isPropertiesDialogSelectionListener() -> a boolean isInputFieldSelectionListener() -> i javax.swing.JComponent getAlgebraView() -> a javax.swing.JComponent getSpreadsheetView() -> b boolean hasSpreadsheetView() -> h void updateSpreadsheetColumnWidths() -> H void setColumnWidth(int,int) -> a void setScrollToShow(boolean) -> a int getHighestUsedSpreadsheetColumn() -> a int getSpreadsheetTraceRow(int) -> a void attachSpreadsheetView() -> a void detachSpreadsheetView() -> b void attachAlgebraView() -> c void detachAlgebraView() -> d java.lang.String getSpreadsheetViewXML() -> a java.lang.String getConsProtocolXML() -> b void setShowAuxiliaryObjects(boolean) -> b javax.swing.JComponent getAlgebraInput() -> c javax.swing.text.JTextComponent getAlgebraInputTextField() -> a void updateAlgebraInput() -> e void doAfterRedefine(geogebra.kernel.GeoElement) -> b javax.swing.JComponent getToolbarPanel() -> d void setShowToolBarHelp(boolean) -> c void updateToolbar() -> g void allowGUIToRefresh() -> J void updateFrameSize() -> B void updateFrameTitle() -> C javax.swing.JFrame createFrame() -> a void exitAll() -> D javax.swing.JComponent getConstructionProtocolNavigation() -> e void setShowConstructionProtocolNavigation(boolean) -> d void setShowConstructionProtocolNavigation(boolean,boolean,double,boolean) -> a void showConstructionProtocol() -> h void setConstructionStep(int) -> a void updateConstructionProtocol() -> i boolean isUsingConstructionProtocol() -> d int getToolBarHeight() -> b java.lang.String getDefaultToolbarString() -> c void updateFonts() -> j void setLabels() -> k void initMenubar() -> l void updateMenubar() -> m void updateMenubarSelection() -> n void updateMenuWindow() -> o void updateMenuFile() -> p void showAboutDialog() -> q void showPrintPreview() -> r void showDrawingPadPopup(java.awt.Component,java.awt.Point) -> a void showPopupMenu(geogebra.kernel.GeoElement,java.awt.Component,java.awt.Point) -> a void showPropertiesDialog(java.util.ArrayList) -> a void showPropertiesDialog() -> s void showDrawingPadPropertiesDialog() -> t void showToolbarConfigDialog() -> u void showRenameDialog(geogebra.kernel.GeoElement,boolean,java.lang.String,boolean) -> a void showTextDialog(geogebra.kernel.GeoText) -> a void showTextCreationDialog(geogebra.kernel.GeoPoint) -> a void showRedefineDialog(geogebra.kernel.GeoElement,boolean) -> a boolean showSliderCreationDialog(int,int) -> a boolean loadImage(geogebra.kernel.GeoPoint,boolean) -> a java.awt.Color showColorChooser(java.awt.Color) -> a void initFileChooser() -> v void initPropertiesDialog() -> f java.lang.String getImageFromFile() -> e boolean saveCurrentFile() -> e boolean save() -> f boolean saveAs() -> g java.io.File showSaveDialog(java.lang.String,java.io.File,java.lang.String) -> a void openFile() -> w void doOpenFiles(java.io.File[],boolean) -> a boolean loadFile(java.io.File,boolean) -> a void updateActions() -> x int getMenuBarHeight() -> c int getAlgebraInputHeight() -> d javax.swing.AbstractAction getShowAxesAction() -> a javax.swing.AbstractAction getShowGridAction() -> b void showBooleanCheckboxCreationDialog(java.awt.Point,geogebra.kernel.GeoBoolean) -> a geogebra.kernel.arithmetic.NumberValue showNumberInputDialog(java.lang.String,java.lang.String,java.lang.String) -> a java.lang.Object[] showAngleInputDialog(java.lang.String,java.lang.String,java.lang.String) -> a void setToolBarDefinition(java.lang.String) -> a java.lang.String getToolBarDefinition() -> f void removeFromToolbarDefinition(int) -> b void addToToolbarDefinition(int) -> c void showURLinBrowser(java.net.URL) -> a void openHelp(java.lang.String) -> b void showURLinBrowser(java.lang.String) -> c java.lang.String getCreatedWithHTML() -> g void setMode(int) -> d java.lang.String getCustomToolbarDefinition() -> h void closeOpenDialogs() -> A javax.swing.AbstractAction getRedoAction() -> c javax.swing.AbstractAction getUndoAction() -> d void startEditing(geogebra.kernel.GeoElement) -> a void undo() -> z void redo() -> y void traceToSpreadsheet(geogebra.kernel.GeoElement) -> c void startCollectingSpreadsheetTraces() -> K void stopCollectingSpreadsheetTraces() -> L geogebra.main.MyError -> geogebra.e.i: geogebra.main.Application app -> a java.lang.String[] strs -> a java.lang.String getLocalizedMessage() -> getLocalizedMessage java.lang.String toString() -> toString geogebra.main.MyParseError -> geogebra.e.u: java.lang.String getLocalizedMessage() -> getLocalizedMessage geogebra.main.MyResourceBundle -> geogebra.e.q: java.lang.Class class$0 -> a java.util.ResourceBundle createBundle(java.lang.String,java.util.Locale) -> a geogebra.main.MyResourceBundle loadSingleBundleFile(java.lang.String) -> a geogebra.main.View -> geogebra.e.w: void add(geogebra.kernel.GeoElement) -> a void remove(geogebra.kernel.GeoElement) -> b void rename(geogebra.kernel.GeoElement) -> c void update(geogebra.kernel.GeoElement) -> d void updateAuxiliaryObject(geogebra.kernel.GeoElement) -> e void repaintView() -> e void reset() -> g void clearView() -> d geogebra.plugin.GgbAPI -> geogebra.plugin.GgbAPI: geogebra.main.Application app -> a geogebra.kernel.Kernel kernel -> a geogebra.kernel.Construction construction -> a geogebra.kernel.commands.AlgebraProcessor algebraprocessor -> a java.lang.String[] objNames -> a int lastGeoElementsIteratorSize -> a geogebra.main.Application getApplication() -> getApplication geogebra.kernel.Construction getConstruction() -> getConstruction geogebra.kernel.Kernel getKernel() -> getKernel geogebra.kernel.commands.AlgebraProcessor getAlgebraProcessor() -> getAlgebraProcessor geogebra.ClassPathManipulator getClassPathManipulator() -> getClassPathManipulator java.lang.String evaluateMathPiper(java.lang.String) -> evaluateMathPiper byte[] getGGBfile() -> getGGBfile java.lang.String getXML() -> getXML java.lang.String getXML(java.lang.String) -> getXML java.lang.String getAlgorithmXML(java.lang.String) -> getAlgorithmXML void setXML(java.lang.String) -> setXML void evalXML(java.lang.String) -> evalXML boolean evalCommand(java.lang.String) -> evalCommand java.lang.String evalMathPiper(java.lang.String) -> evalMathPiper void debug(java.lang.String) -> debug void setErrorDialogsActive(boolean) -> setErrorDialogsActive void reset() -> reset void refreshViews() -> refreshViews 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 setLabelMode(java.lang.String,boolean) -> setLabelMode void setColor(java.lang.String,int,int,int) -> setColor 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 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 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 setRepaintingActive(boolean) -> setRepaintingActive void setCoordSystem(double,double,double,double) -> setCoordSystem void setAxesVisible(boolean,boolean) -> setAxesVisible void setGridVisible(boolean) -> setGridVisible java.lang.String[] getObjNames() -> getObjNames 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 geogebra.plugin.PlugLetIF -> geogebra.plugin.PlugLetIF: java.lang.String getMenuText() -> getMenuText void init(geogebra.plugin.GgbAPI,java.lang.String) -> init void execute() -> execute void start() -> start void stop() -> stop void destroy() -> destroy geogebra.plugin.PluginManager -> geogebra.plugin.a: java.util.Hashtable plugintable -> a geogebra.main.Application app -> a javax.swing.JMenu pluginmenu -> a java.util.ArrayList lines -> a geogebra.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.util.AutoCompleteDictionary -> geogebra.c.j: java.lang.String lookup(java.lang.String) -> a geogebra.util.DisposeDialogAction -> geogebra.c.c: javax.swing.JDialog dialog -> a void actionPerformed(java.awt.event.ActionEvent) -> actionPerformed geogebra.util.FastHashMapKeyless -> geogebra.c.a: int mask_ -> a int count_ -> b float fillFactor_ -> a int limit_ -> c int modif_ -> d geogebra.util.FastHashMapKeyless$EmptyHashIterator EMPTY_ITERATOR -> a java.util.Set entrySet_ -> a java.util.Set keySet_ -> b int[] keyTable_ -> a java.lang.Object[] valueTable_ -> a java.lang.Long REMOVED -> a java.util.Collection values -> a int size() -> size boolean isEmpty() -> isEmpty boolean containsValue(java.lang.Object) -> containsValue boolean containsKey(java.lang.Object) -> containsKey boolean containsKey(int) -> a java.lang.Object get(java.lang.Object) -> get java.lang.Object get(int) -> a void rehash() -> a java.lang.Object put(java.lang.Object,java.lang.Object) -> put java.lang.Object remove(java.lang.Object) -> remove java.lang.Object remove(int) -> b void clear() -> clear java.lang.Object clone() -> clone java.util.Set keySet() -> keySet java.util.Collection values() -> values java.util.Set entrySet() -> entrySet java.util.Iterator getHashIterator(int) -> a java.lang.Object put(int,java.lang.Object) -> a int[] access$0(geogebra.util.FastHashMapKeyless) -> a int access$1(geogebra.util.FastHashMapKeyless) -> a java.lang.Object[] access$2(geogebra.util.FastHashMapKeyless) -> a java.lang.Long access$3() -> a java.util.Iterator access$4(geogebra.util.FastHashMapKeyless,int) -> a int access$5(geogebra.util.FastHashMapKeyless) -> b geogebra.util.FastHashMapKeyless$1 -> geogebra.c.l: geogebra.util.FastHashMapKeyless this$0 -> a java.util.Iterator iterator() -> iterator int size() -> size boolean contains(java.lang.Object) -> contains boolean remove(java.lang.Object) -> remove void clear() -> clear geogebra.util.FastHashMapKeyless$2 -> geogebra.c.b: geogebra.util.FastHashMapKeyless this$0 -> a java.util.Iterator iterator() -> iterator int size() -> size boolean contains(java.lang.Object) -> contains void clear() -> clear geogebra.util.FastHashMapKeyless$3 -> geogebra.c.g: geogebra.util.FastHashMapKeyless this$0 -> a java.util.Iterator iterator() -> iterator boolean contains(java.lang.Object) -> contains boolean remove(java.lang.Object) -> remove int size() -> size void clear() -> clear geogebra.util.FastHashMapKeyless$EmptyHashIterator -> geogebra.c.f: boolean hasNext() -> hasNext java.lang.Object next() -> next void remove() -> remove geogebra.util.FastHashMapKeyless$Entry -> geogebra.c.h: int key_ -> a java.lang.Object[] value_ -> a int idx_ -> b java.lang.Object clone() -> clone java.lang.Object getKey() -> getKey java.lang.Object getValue() -> getValue java.lang.Object setValue(java.lang.Object) -> setValue boolean equals(java.lang.Object) -> equals int hashCode() -> hashCode java.lang.String toString() -> toString geogebra.util.FastHashMapKeyless$HashIterator -> geogebra.c.d: int index_ -> a java.lang.Object entry_ -> a int lastReturned_ -> b int type_ -> c int expectedModif_ -> d geogebra.util.FastHashMapKeyless this$0 -> a boolean hasNext() -> hasNext java.lang.Object next() -> next void remove() -> remove geogebra.util.ImageManager -> geogebra.c.i: 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 java.lang.Class class$0 -> 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 java.awt.Image getInternalImage(java.lang.String) -> a void addExternalImage(java.lang.String,java.awt.image.BufferedImage) -> a java.awt.image.BufferedImage getExternalImage(java.lang.String) -> a java.awt.Image getImageResource(java.lang.String) -> b java.awt.image.BufferedImage toBufferedImage(java.awt.Image) -> a boolean hasAlpha(java.awt.Image) -> a geogebra.util.LowerCaseDictionary -> geogebra.c.k: java.util.TreeSet treeSet -> a void addEntry(java.lang.String) -> a boolean removeEntry(java.lang.String) -> a java.util.Iterator getLowerCaseIterator() -> a java.lang.String lookup(java.lang.String) -> a geogebra.util.MyMath -> geogebra.c.n: double LOG10 -> a double LOG2 -> b int factorialTop -> a double[] factorialTable -> a double[] cof -> b double cbrt(double) -> a double sgn(geogebra.kernel.Kernel,double) -> a double cosh(double) -> b double sinh(double) -> c double tanh(double) -> d double acosh(double) -> e double asinh(double) -> f double atanh(double) -> g double gamma(double,geogebra.kernel.Kernel) -> a double factorial(double) -> h double gammln(double) -> i geogebra.util.ScientificFormat -> geogebra.c.e: 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.Util -> geogebra.c.m: char[] hexChar -> a java.lang.StringBuffer sbReplaceExp -> a java.lang.StringBuffer sb -> b boolean existsHttpURL(java.net.URL) -> a java.lang.String toHexString(java.awt.Color) -> a java.lang.String toHTMLString(java.lang.String) -> a java.lang.String encodeXML(java.lang.String) -> b double getJavaVersion() -> a void addKeyListenerToAll(java.awt.Container,java.awt.event.KeyListener) -> a byte[] loadIntoMemory(java.io.InputStream) -> a void copyStream(java.io.InputStream,java.io.OutputStream) -> a java.lang.String toLaTeXString(java.lang.String,boolean) -> a void registerForDisposeOnEscape(javax.swing.JDialog) -> a java.lang.String keepOnlyLettersAndDigits(java.lang.String) -> c java.lang.String processFilename(java.lang.String) -> d java.lang.String string(java.lang.String,int) -> a jasymca.Add -> jasymca.g: java.lang.Object lambda(java.lang.Object) -> a jasymca.Algebraic -> jasymca.K: jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic deriv(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b double norm() -> a jasymca.Algebraic rat() -> e jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a jasymca.Algebraic[] div(jasymca.Algebraic,jasymca.Algebraic[]) -> a boolean depends(jasymca.Variable) -> a jasymca.Algebraic horner(jasymca.Variable,jasymca.Algebraic[],int) -> a jasymca.Algebraic horner(jasymca.Variable,jasymca.Algebraic[]) -> a jasymca.Algebraic sub(jasymca.Algebraic) -> a_ jasymca.Algebraic reduce() -> b boolean equals(java.lang.Object) -> equals java.lang.Object toPrefix() -> a jasymca.Algebraic pow_n(int) -> b jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a jasymca.Algebraic realpart() -> c jasymca.Algebraic imagpart() -> d jasymca.Algebraic cc() -> a int degree(jasymca.Variable) -> a jasymca.Algebraic coefficient(jasymca.Variable,int) -> a jasymca.Algebraic polydiv(jasymca.Algebraic) -> f jasymca.Algebraic mod(jasymca.Algebraic,jasymca.Variable) -> a jasymca.Algebraic euclid(jasymca.Algebraic,jasymca.Variable) -> b jasymca.Algebraic poly_gcd(jasymca.Algebraic) -> g jasymca.Algebraic content(jasymca.Variable) -> d void p(java.lang.String) -> a jasymca.Assign -> jasymca.F: java.lang.Object lambda(java.lang.Object) -> a jasymca.CollectExp -> jasymca.e: java.util.Vector v -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a int cfs(double) -> a jasymca.Comma -> jasymca.I: java.lang.Object lambda(java.lang.Object) -> a jasymca.Constant -> jasymca.n: jasymca.Unexakt value -> a boolean smaller(jasymca.Variable) -> a jasymca.CreateVector -> jasymca.k: java.lang.Object lambda(java.lang.Object) -> a jasymca.DeExp -> jasymca.a: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Div -> jasymca.v: java.lang.Object lambda(java.lang.Object) -> a jasymca.Environment -> jasymca.o: jasymca.Polynomial NULL -> a void putValue(java.lang.String,java.lang.Object) -> a java.lang.Object getValue(java.lang.String) -> a jasymca.Zahl getnum(java.lang.String) -> a void initLambdaFunctions() -> a jasymca.Exakt -> jasymca.H: java.math.BigInteger[] real -> a java.math.BigInteger[] imag -> b java.math.BigInteger double2big(double) -> a java.math.BigInteger[] double2rat(double) -> a double[] cfs(double,double) -> a void cfsd(java.util.Vector,double[]) -> a jasymca.Exakt cfs(double) -> a java.math.BigInteger[] cfs(java.util.Vector) -> a java.math.BigInteger[] reducev(java.math.BigInteger[]) -> a jasymca.Algebraic realpart() -> c jasymca.Algebraic imagpart() -> d double floatValue(java.math.BigInteger[]) -> a jasymca.Unexakt tofloat() -> a java.math.BigInteger[] add(java.math.BigInteger[],java.math.BigInteger[]) -> a java.math.BigInteger[] sub(java.math.BigInteger[],java.math.BigInteger[]) -> b java.math.BigInteger[] mult(java.math.BigInteger[],java.math.BigInteger[]) -> c java.math.BigInteger[] div(java.math.BigInteger[],java.math.BigInteger[]) -> d boolean equals(java.math.BigInteger[],java.math.BigInteger[]) -> a jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic[] div(jasymca.Algebraic,jasymca.Algebraic[]) -> a java.lang.String b2string(java.math.BigInteger[]) -> a java.lang.String toString() -> toString boolean integerq() -> a boolean smaller(jasymca.Zahl) -> a boolean komplexq() -> b boolean equals(java.lang.Object) -> equals double norm() -> a jasymca.Algebraic rat() -> e jasymca.Zahl abs() -> a jasymca.Exakt gcd(jasymca.Exakt) -> a int intval() -> a jasymca.ExpandConstants -> jasymca.s: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.ExpandUser -> jasymca.E: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Exponential -> jasymca.f: jasymca.Variable expvar -> a jasymca.Algebraic exp_b -> a jasymca.Algebraic poly2exp(jasymca.Algebraic) -> a jasymca.Algebraic cc() -> a boolean containsexp(jasymca.Algebraic) -> a jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic reduce() -> b jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a jasymca.Fact -> jasymca.m: java.lang.Object lambda(java.lang.Object) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.FunctionDefine -> jasymca.w: java.lang.Object lambda(java.lang.Object) -> a jasymca.FunctionVariable -> jasymca.p: java.lang.String fname -> a jasymca.Algebraic arg -> a jasymca.LambdaAlgebraic la -> a jasymca.Algebraic deriv(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b jasymca.Algebraic create(java.lang.String,jasymca.Algebraic) -> a boolean equals(java.lang.Object) -> equals jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a java.lang.Object toPrefix() -> a boolean smaller(jasymca.Variable) -> a jasymca.Variable cc() -> a java.lang.String toString() -> toString jasymca.GeoGebraJasymca -> jasymca.d: java.lang.StringBuffer sb -> a java.lang.String evaluate(java.lang.String) -> a jasymca.GetExpVars -> jasymca.l: java.util.Vector v -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Jasymca -> jasymca.u: java.lang.String JasymcaRC -> a jasymca.Environment env -> a java.lang.String EXIT -> b java.io.InputStream getFileInputStream(java.lang.String) -> a java.io.OutputStream getFileOutputStream(java.lang.String,boolean) -> a java.lang.String formatExpression(java.lang.Object) -> a boolean binaryq(java.lang.String) -> a java.lang.String infix(java.lang.Object) -> b java.lang.Object eval(java.lang.String) -> a java.lang.Object evalPrefix(java.lang.Object,boolean,jasymca.Environment) -> a jasymca.Algebraic evalx(java.lang.String,jasymca.Algebraic,jasymca.Environment) -> a jasymca.JasymcaException -> jasymca.c: jasymca.Lambda -> jasymca.Lambda: jasymca.Environment env -> a java.lang.Object lambda(java.lang.Object) -> a java.util.Vector getArgs(java.lang.Object) -> a jasymca.LambdaACOS -> jasymca.LambdaACOS: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaACOSH -> jasymca.LambdaACOSH: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaALGSYS -> jasymca.LambdaALGSYS: java.lang.Object lambda(java.lang.Object) -> a jasymca.Vektor solvesys(java.util.Vector,java.util.Vector) -> a java.util.Vector clonev(java.util.Vector) -> a jasymca.Vektor solve(java.util.Vector,java.util.Vector,int) -> a jasymca.LambdaALLROOTS -> jasymca.LambdaALLROOTS: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaASIN -> jasymca.LambdaASIN: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaASINH -> jasymca.LambdaASINH: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaATAN -> jasymca.LambdaATAN: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaATANH -> jasymca.LambdaATANH: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaAlgebraic -> jasymca.LambdaAlgebraic: java.lang.String diffrule -> b java.lang.String intrule -> c java.lang.String trigrule -> d java.lang.Object lambda(java.lang.Object) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Algebraic integrate(jasymca.Algebraic,jasymca.Variable) -> a jasymca.LambdaCBRT -> jasymca.LambdaCBRT: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaCFS -> jasymca.LambdaCFS: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaCOS -> jasymca.LambdaCOS: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaCOSH -> jasymca.LambdaCOSH: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaDIFF -> jasymca.LambdaDIFF: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaDIVIDE -> jasymca.LambdaDIVIDE: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaEXIT -> jasymca.LambdaEXIT: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaEXP -> jasymca.LambdaEXP: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Algebraic fzexakt(jasymca.Zahl) -> a jasymca.LambdaEXPAND -> jasymca.LambdaEXPAND: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaFLOAT -> jasymca.LambdaFLOAT: double eps -> a java.lang.Object lambda(java.lang.Object) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaGCD -> jasymca.LambdaGCD: java.lang.Object lambda(java.lang.Object) -> a jasymca.Algebraic gcd(jasymca.Algebraic,jasymca.Algebraic) -> a jasymca.LambdaIMAGPART -> jasymca.LambdaIMAGPART: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaINTEGRATE -> jasymca.LambdaINTEGRATE: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaLINSOLVE -> jasymca.LambdaLINSOLVE: java.lang.Object lambda(java.lang.Object) -> a void pivot(jasymca.Matrix,jasymca.Vektor,int) -> a jasymca.Vektor Gauss(jasymca.Matrix,jasymca.Vektor) -> a jasymca.LambdaLOADFILE -> jasymca.LambdaLOADFILE: java.lang.Object lambda(java.lang.Object) -> a java.lang.String readLine(java.io.InputStream) -> a jasymca.LambdaLOG -> jasymca.LambdaLOG: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaLSUM -> jasymca.LambdaLSUM: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaRAT -> jasymca.LambdaRAT: java.lang.Object lambda(java.lang.Object) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.LambdaREALPART -> jasymca.LambdaREALPART: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaROMBERG -> jasymca.LambdaROMBERG: java.lang.Object lambda(java.lang.Object) -> a jasymca.Algebraic trapez(jasymca.Algebraic,jasymca.Variable,int,double,double) -> a jasymca.LambdaROOT -> jasymca.LambdaROOT: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaROUND -> jasymca.LambdaROUND: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaSAVE -> jasymca.LambdaSAVE: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaSIGN -> jasymca.LambdaSIGN: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.LambdaSIN -> jasymca.LambdaSIN: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaSINH -> jasymca.LambdaSINH: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaSOLVE -> jasymca.LambdaSOLVE: java.lang.Object lambda(java.lang.Object) -> a jasymca.Algebraic linfaktor(jasymca.Algebraic,jasymca.Variable) -> a jasymca.Vektor solve(jasymca.Algebraic,jasymca.Variable) -> a jasymca.Algebraic finvert(jasymca.FunctionVariable,jasymca.Algebraic) -> a jasymca.LambdaSQFR -> jasymca.LambdaSQFR: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaSQRT -> jasymca.LambdaSQRT: java.lang.String intrule2 -> a jasymca.Algebraic integrate(jasymca.Algebraic,jasymca.Variable) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Algebraic fzexakt(jasymca.Zahl) -> a long introot(long) -> a jasymca.LambdaSUBST -> jasymca.LambdaSUBST: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaSUM -> jasymca.LambdaSUM: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaTAN -> jasymca.LambdaTAN: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaTANH -> jasymca.LambdaTANH: jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.LambdaTAYLOR -> jasymca.LambdaTAYLOR: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaTRIGEXP -> jasymca.LambdaTRIGEXP: java.lang.Object lambda(java.lang.Object) -> a jasymca.LambdaTRIGRAT -> jasymca.LambdaTRIGRAT: java.lang.Object lambda(java.lang.Object) -> a jasymca.Lisp -> jasymca.b: java.lang.Object inpr_rules -> a java.lang.String[][] inpr_rules_in -> a java.lang.Class class$0 -> a void p(java.lang.String) -> a jasymca.Pair list(java.lang.Object) -> a java.lang.Object list(java.lang.Object,java.lang.Object) -> a boolean listq(java.lang.Object) -> a java.lang.Object car(java.lang.Object) -> b java.lang.Object cdr(java.lang.Object) -> c jasymca.Pair cons(java.lang.Object,java.lang.Object) -> a boolean equal(java.lang.Object,java.lang.Object) -> a int length(java.lang.Object) -> a java.lang.Object list2atom(java.lang.Object) -> d java.lang.Object reverse(java.lang.Object) -> e java.lang.Object mapreverse(java.lang.Object) -> f boolean kindof(java.lang.Object,java.lang.Class) -> a boolean algebraicq(java.lang.Object) -> b java.lang.Object read(java.lang.String) -> a boolean whitespace(char) -> a boolean oneof(char,java.lang.String) -> a java.lang.Object nextObject(java.lang.StringBuffer) -> a java.lang.Object expConstant(java.lang.String) -> b java.lang.Object expandMult(java.lang.Object) -> g java.lang.Object expandExp(java.lang.Object) -> h java.lang.Object expandFundef(java.lang.Object) -> i boolean noop(java.lang.Object) -> c boolean noinfixop(java.lang.Object) -> d boolean variableq(java.lang.Object) -> e boolean matches(java.lang.Object,java.lang.Object) -> b java.lang.Object pat_match(java.lang.Object,java.lang.Object) -> b java.lang.Object pat_match_rl(java.lang.Object,java.lang.Object) -> c java.lang.Object change(java.lang.Object,java.lang.Object) -> d java.lang.Object translator(java.lang.Object,java.lang.Object) -> e java.lang.Object exp_lhs(java.lang.Object) -> j java.lang.Object exp_rhs(java.lang.Object) -> k java.lang.Object in_pr(java.lang.Object) -> l java.lang.Object makeRules(java.lang.String[][]) -> a java.lang.Object compile_rule(java.lang.String) -> c jasymca.Matrix -> jasymca.B: jasymca.Algebraic[][] a -> a jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic deriv(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b double norm() -> a boolean equals(java.lang.Object) -> equals java.lang.String toString() -> toString jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a jasymca.Mult -> jasymca.G: java.lang.Object lambda(java.lang.Object) -> a jasymca.NormExp -> jasymca.t: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Pair -> jasymca.i: java.lang.Object car -> a java.lang.Object cdr -> b java.lang.String toString() -> toString boolean equals(java.lang.Object) -> equals jasymca.ParseException -> jasymca.r: jasymca.Polynomial -> jasymca.z: jasymca.Algebraic[] coef -> a jasymca.Variable var -> b jasymca.Polynomial top -> a boolean loopPartial -> a jasymca.Algebraic[] norm(jasymca.Algebraic[]) -> a jasymca.Algebraic coefficient(int) -> a int degree() -> a jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic[] div(jasymca.Algebraic,jasymca.Algebraic[]) -> a jasymca.Algebraic reduce() -> b jasymca.Algebraic[] clone(jasymca.Algebraic[]) -> b java.lang.String toString() -> toString boolean equals(java.lang.Object) -> equals java.lang.Object toPrefix() -> a jasymca.Algebraic deriv(jasymca.Variable) -> a boolean constcoef(jasymca.Variable) -> b java.util.Vector depvars(jasymca.Variable) -> a boolean depends(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b jasymca.Algebraic cc() -> a jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a jasymca.Algebraic value(jasymca.Algebraic) -> e double norm() -> a jasymca.Polynomial monic() -> a jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a boolean dependsmult(jasymca.Variable) -> c jasymca.Algebraic[] square_free_dec(jasymca.Variable) -> a jasymca.Vektor solve(jasymca.Variable) -> a jasymca.Vektor solvepoly() -> a int gcd(int,int) -> a jasymca.Vektor bairstow() -> b jasymca.Zahl[] pqsolve(double,double) -> a jasymca.Pow -> jasymca.L: java.lang.Object lambda(java.lang.Object) -> a jasymca.Rational -> jasymca.h: jasymca.Algebraic nom -> a jasymca.Polynomial den -> a jasymca.Algebraic reduce() -> b jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic sub(jasymca.Algebraic) -> a_ jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic[] div(jasymca.Algebraic,jasymca.Algebraic[]) -> a java.lang.String toString() -> toString boolean equals(java.lang.Object) -> equals jasymca.Algebraic deriv(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b double norm() -> a java.lang.Object toPrefix() -> a jasymca.Algebraic cc() -> a boolean depends(jasymca.Variable) -> a jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a jasymca.Vektor horowitz(jasymca.Algebraic,jasymca.Polynomial,jasymca.Variable) -> a jasymca.Algebraic intrat(jasymca.Variable) -> c jasymca.Algebraic makelog(jasymca.Algebraic,jasymca.Variable,jasymca.Algebraic) -> a jasymca.SimpleVariable -> jasymca.y: java.lang.String name -> a jasymca.SimpleVariable top -> a jasymca.Algebraic deriv(jasymca.Variable) -> a boolean equals(java.lang.Object) -> equals java.lang.String toString() -> toString java.lang.Object toPrefix() -> a boolean smaller(jasymca.Variable) -> a jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a jasymca.SqrtExpand -> jasymca.q: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.Sub -> jasymca.D: java.lang.Object lambda(java.lang.Object) -> a jasymca.TrigExpand -> jasymca.N: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a jasymca.TrigInverseExpand -> jasymca.x: jasymca.Algebraic f_exakt(jasymca.Algebraic) -> a boolean minus(jasymca.Algebraic) -> a jasymca.Unexakt -> jasymca.j: double real -> a double imag -> b double norm() -> a jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d java.lang.String toString() -> toString boolean integerq() -> a boolean komplexq() -> b jasymca.Algebraic realpart() -> c jasymca.Algebraic imagpart() -> d boolean equals(java.lang.Object) -> equals boolean smaller(jasymca.Zahl) -> a int intval() -> a jasymca.Zahl abs() -> a jasymca.Algebraic rat() -> e jasymca.UserFunction -> jasymca.A: java.lang.String fname -> a jasymca.Algebraic body -> a jasymca.Variable[] var -> a java.lang.Object lambda(java.lang.Object) -> a jasymca.Zahl f(jasymca.Zahl) -> a jasymca.Algebraic fv(jasymca.Vektor) -> a jasymca.Algebraic integrate(jasymca.Algebraic,jasymca.Variable) -> a jasymca.Variable -> jasymca.J: jasymca.Algebraic deriv(jasymca.Variable) -> a java.lang.Object toPrefix() -> a boolean equals(java.lang.Object) -> equals boolean smaller(jasymca.Variable) -> a jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a jasymca.Variable cc() -> a jasymca.Vektor -> jasymca.C: jasymca.Algebraic[] coord -> a jasymca.Vektor create(java.util.Vector) -> a jasymca.Algebraic komp(int) -> a int dim() -> a java.util.Vector vector() -> a jasymca.Algebraic reduce() -> b jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a jasymca.Algebraic add(jasymca.Algebraic) -> b jasymca.Algebraic mult(jasymca.Algebraic) -> c jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic deriv(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b double norm() -> a boolean equals(java.lang.Object) -> equals java.lang.String toString() -> toString boolean number() -> a boolean depends(jasymca.Variable) -> a jasymca.Zahl -> jasymca.M: jasymca.Zahl ZERO -> a jasymca.Zahl ONE -> b jasymca.Zahl TWO -> c jasymca.Zahl MINUS -> d jasymca.Zahl IONE -> e jasymca.Zahl IMINUS -> f jasymca.Polynomial PI -> a jasymca.Algebraic SQRT2 -> a jasymca.Algebraic SQRT3 -> b void init() -> a jasymca.Algebraic div(jasymca.Algebraic) -> d jasymca.Algebraic deriv(jasymca.Variable) -> a jasymca.Algebraic integrate(jasymca.Variable) -> b int intval() -> a boolean komplexq() -> b jasymca.Algebraic value(jasymca.Variable,jasymca.Algebraic) -> a jasymca.Algebraic cc() -> a jasymca.Exakt exakt() -> a jasymca.Unexakt unexakt() -> b jasymca.Algebraic map(jasymca.LambdaAlgebraic) -> a jasymca.Zahl gcd(jasymca.Zahl) -> a boolean smaller(jasymca.Zahl) -> a jasymca.Algebraic[] div(jasymca.Algebraic,jasymca.Algebraic[]) -> a boolean integerq() -> a org.freehep.graphics2d.AbstractVectorGraphics -> org.freehep.b.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) -> b java.util.Properties getProperties() -> b 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) -> b void drawOval(double,double,double,double) -> c void drawPolyline(int[],int[],int) -> drawPolyline void drawPolygon(int[],int[],int) -> drawPolygon void drawRect(double,double,double,double) -> d void drawRoundRect(double,double,double,double,double,double) -> b void fillArc(double,double,double,double,double,double) -> c void fillOval(double,double,double,double) -> e void fillPolygon(int[],int[],int) -> fillPolygon void fillRect(double,double,double,double) -> f void fillRoundRect(double,double,double,double,double,double) -> d java.awt.Shape createShape(int[],int[],int,boolean,boolean) -> a boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit org.freehep.graphics2d.GenericTagHandler -> org.freehep.b.f: 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.b.b: int begin -> a int end -> b java.awt.font.TextAttribute textAttribute -> a java.lang.Object value -> a org.freehep.graphics2d.GenericTagHandler this$0 -> a void apply(java.text.AttributedString) -> a org.freehep.graphics2d.PixelGraphics2D -> org.freehep.b.i: java.awt.RenderingHints$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() -> h void endExport() -> i 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) -> a void drawString(java.lang.String,double,double) -> b java.lang.String toString() -> toString org.freehep.graphics2d.PixelGraphics2D$SymbolBlitKey -> org.freehep.b.l: boolean isCompatibleValue(java.lang.Object) -> isCompatibleValue java.lang.String toString() -> toString org.freehep.graphics2d.PrintColor -> org.freehep.b.c: java.awt.Color[] defaultColors -> a float asGray -> a boolean asBlack -> a void testColorValueRange(float) -> a float getAsGray() -> a boolean getAsBlack() -> a org.freehep.graphics2d.PrintColor getColor(int) -> a org.freehep.graphics2d.PrintColor createPrintColor(java.awt.Color) -> a java.awt.Color mixColor(java.awt.Color,java.awt.Color) -> a int hashCode() -> hashCode boolean equals(java.lang.Object) -> equals java.lang.String toString() -> toString org.freehep.graphics2d.PrintColor invert(java.awt.Color) -> b org.freehep.graphics2d.SymbolShape -> org.freehep.b.g: double SQRT_2 -> a double SQRT_3 -> b double[] points -> a int[] type -> a org.freehep.graphics2d.SymbolShape$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.b.d: 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.b.k: 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.b.j: 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.b.h: java.util.Hashtable symbols -> a java.util.Hashtable alignments -> 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 java.awt.Graphics create(int,int,int,int) -> create void dispose() -> dispose void drawArc(int,int,int,int,int,int) -> drawArc 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 drawLine(int,int,int,int) -> drawLine void drawOval(int,int,int,int) -> drawOval void drawPolygon(int[],int[],int) -> drawPolygon void drawPolyline(int[],int[],int) -> drawPolyline void drawRect(int,int,int,int) -> drawRect void drawRoundRect(int,int,int,int,int,int) -> drawRoundRect void drawString(java.text.AttributedCharacterIterator,int,int) -> drawString 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 fillRect(int,int,int,int) -> fillRect void fillRoundRect(int,int,int,int,int,int) -> fillRoundRect java.awt.Shape getClip() -> getClip java.awt.Rectangle getClipBounds() -> getClipBounds java.awt.Rectangle getClipBounds(java.awt.Rectangle) -> getClipBounds java.awt.Color getColor() -> getColor java.awt.Font getFont() -> getFont java.awt.FontMetrics getFontMetrics(java.awt.Font) -> getFontMetrics void setClip(int,int,int,int) -> setClip void setClip(java.awt.Shape) -> setClip void setColor(java.awt.Color) -> setColor void setFont(java.awt.Font) -> setFont void setPaintMode() -> setPaintMode void setXORMode(java.awt.Color) -> setXORMode java.lang.String toString() -> toString 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.lang.String,float,float) -> drawString void fill(java.awt.Shape) -> fill void fill(java.awt.Shape,java.awt.Paint) -> a java.awt.Color getBackground() -> getBackground java.awt.Composite getComposite() -> getComposite java.awt.GraphicsConfiguration getDeviceConfiguration() -> getDeviceConfiguration java.awt.font.FontRenderContext getFontRenderContext() -> getFontRenderContext java.awt.Paint getPaint() -> getPaint java.lang.Object getRenderingHint(java.awt.RenderingHints$Key) -> getRenderingHint java.awt.RenderingHints getRenderingHints() -> getRenderingHints java.awt.Stroke getStroke() -> getStroke java.awt.geom.AffineTransform getTransform() -> getTransform boolean hit(java.awt.Rectangle,java.awt.Shape,boolean) -> hit void rotate(double) -> rotate void rotate(double,double,double) -> rotate void scale(double,double) -> scale void setBackground(java.awt.Color) -> setBackground void setComposite(java.awt.Composite) -> setComposite void setPaint(java.awt.Paint) -> setPaint void setRenderingHint(java.awt.RenderingHints$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) -> a void drawString(java.lang.String,double,double) -> b void endExport() -> i void startExport() -> h org.freehep.graphics2d.WebColor -> org.freehep.b.e: 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.b.a.l: int toEncoding(char) -> a java.lang.String toName(char) -> a org.freehep.graphics2d.font.CharTable -> org.freehep.b.a.h: 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.b.a.b: 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.b.a.k: 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.FontUtilities -> org.freehep.b.a.c: 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.graphics2d.font.FontUtilities$ShowString) -> a java.util.Hashtable getAttributes(java.awt.Font) -> a org.freehep.graphics2d.font.FontUtilities$ShowString -> org.freehep.b.a.m: void showString(java.awt.Font,java.lang.String) -> a org.freehep.graphics2d.font.ISOLatin -> org.freehep.b.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.Lookup -> org.freehep.b.a.a: 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.b.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.b.a.n: 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.b.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.Symbol -> org.freehep.b.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.WINLatin -> org.freehep.b.a.f: 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.b.a.d: 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.b: 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.d: java.lang.String rootKey -> a java.lang.String EMIT_WARNINGS -> n java.lang.String TEXT_AS_SHAPES -> o java.lang.String EMIT_ERRORS -> p java.lang.String CLIP -> q 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.lang.Class class$0 -> b java.awt.Dimension getSize() -> a java.awt.Component getComponent() -> a void startExport() -> h void endExport() -> i void writeHeader() -> b void writeGraphicsState() -> j void writeBackground() -> c void writeTrailer() -> d void closeStream() -> e void resetClip(java.awt.Rectangle) -> a void dispose() -> dispose void writeGraphicsRestore() -> g 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) -> a void drawString(java.lang.String,double,double) -> b void writeString(java.lang.String,double,double) -> a 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.e: 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.lang.Class class$0 -> a void setHintsOnGraphics() -> c java.awt.Graphics create() -> create void startExport() -> h void endExport() -> i void write() -> a void closeStream() -> b 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.util.UserProperties getRAWProperties(java.awt.Color,java.lang.String) -> a byte[] toByteArray(java.awt.image.RenderedImage,java.lang.String,java.lang.String,java.util.Properties) -> a org.freehep.graphicsio.ImageGraphics2D$1 -> org.freehep.graphicsio.h: int order(java.lang.Object) -> a int compare(java.lang.Object,java.lang.Object) -> compare org.freehep.graphicsio.ImageParamConverter -> org.freehep.graphicsio.j: javax.imageio.ImageWriteParam getWriteParam(java.util.Properties) -> a org.freehep.graphicsio.MultiPageDocument -> org.freehep.graphicsio.c: 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.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 void flush() -> a org.freehep.graphicsio.QuadToCubicPathConstructor -> org.freehep.graphicsio.a: 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.f: org.freehep.graphicsio.emf.EMFGraphics2D -> org.freehep.graphicsio.a.f: 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 -> a java.awt.Color penColor -> b java.awt.Color brushColor -> c 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 -> d java.lang.String TRANSPARENT -> a java.lang.String BACKGROUND -> b java.lang.String BACKGROUND_COLOR -> c org.freehep.util.UserProperties defaultProperties -> a java.lang.Class class$0 -> a void init(java.io.OutputStream) -> a void writeHeader() -> b void writeGraphicsState() -> j void writeBackground() -> c void writeTrailer() -> d void closeStream() -> e java.awt.Graphics create() -> create void writeGraphicsSave() -> a void writeGraphicsRestore() -> g 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) -> a 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 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.c: 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.e: java.awt.Dimension screenMM -> a java.awt.Rectangle bounds -> a java.awt.Rectangle frame -> b java.lang.String signature -> a int versionMajor -> a int versionMinor -> b int bytes -> c int records -> d int handles -> e java.lang.String description -> b int palEntries -> f 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.EMFOutputStream -> org.freehep.graphicsio.a.g: 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) -> b void writeDWORD(int[]) -> b void writeWORD(int) -> c void writeFLOAT(float) -> a void writeCOLORREF(java.awt.Color) -> a void writeCOLOR16(java.awt.Color) -> b 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) -> d void writeULONG(int) -> e void writeLONG(int) -> f void writeSHORT(short) -> a void writeBYTE(byte[]) -> b void writeBYTE(int) -> g void writeBYTE(boolean) -> a void writeDWORD(boolean) -> b void writeWCHAR(java.lang.String) -> a void writeWCHAR(java.lang.String,int) -> a int getTagAlignment() -> a void writeTagHeader(org.freehep.util.io.TagHeader) -> a void writeTag(org.freehep.util.io.Tag) -> a void writeHeader(org.freehep.graphicsio.emf.EMFHeader) -> a int getVersion() -> d org.freehep.graphicsio.emf.EMFPathConstructor -> org.freehep.graphicsio.a.a: 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.EMFTag -> org.freehep.graphicsio.a.d: java.util.logging.Logger logger -> a void write(int,org.freehep.util.io.TaggedOutputStream) -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString org.freehep.graphicsio.emf.EMFTagSet -> org.freehep.graphicsio.a.b: org.freehep.graphicsio.emf.gdi.AbortPath -> org.freehep.graphicsio.a.a.ak: org.freehep.graphicsio.emf.gdi.AbstractArc -> org.freehep.graphicsio.a.a.g: java.awt.Rectangle bounds -> a java.awt.Point start -> a java.awt.Point end -> b void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString org.freehep.graphicsio.emf.gdi.AbstractClipPath -> org.freehep.graphicsio.a.a.aG: int mode -> a java.lang.String toString() -> toString int getMode() -> b org.freehep.graphicsio.emf.gdi.AbstractExtTextOut -> org.freehep.graphicsio.a.a.af: java.awt.Rectangle bounds -> a int mode -> a float xScale -> a float yScale -> b org.freehep.graphicsio.emf.gdi.Text getText() -> a java.lang.String toString() -> toString void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.AbstractPen -> org.freehep.graphicsio.a.a.c: java.util.logging.Logger logger -> a org.freehep.graphicsio.emf.gdi.AbstractPolyPolygon -> org.freehep.graphicsio.a.a.G: java.awt.Rectangle bounds -> a int[] numberOfPoints -> a java.awt.Point[][] points -> a java.lang.String toString() -> toString java.awt.Rectangle getBounds() -> a int[] getNumberOfPoints() -> a java.awt.Point[][] getPoints() -> a org.freehep.graphicsio.emf.gdi.AbstractPolyPolyline -> org.freehep.graphicsio.a.a.M: org.freehep.graphicsio.emf.gdi.AbstractPolygon -> org.freehep.graphicsio.a.a.N: java.awt.Rectangle bounds -> a int numberOfPoints -> a java.awt.Point[] points -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString java.awt.Rectangle getBounds() -> a int getNumberOfPoints() -> b java.awt.Point[] getPoints() -> a org.freehep.graphicsio.emf.gdi.AlphaBlend -> org.freehep.graphicsio.a.a.t: java.awt.Rectangle bounds -> a int x -> a int y -> b int width -> c int height -> d org.freehep.graphicsio.emf.gdi.BlendFunction dwROP -> a int xSrc -> e int ySrc -> f java.awt.geom.AffineTransform transform -> a java.awt.Color bkg -> a int usage -> g org.freehep.graphicsio.emf.gdi.BitmapInfo bmi -> a java.awt.image.BufferedImage image -> 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.aC: java.awt.Point center -> a int radius -> a float startAngle -> a float sweepAngle -> b 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.m: org.freehep.graphicsio.emf.gdi.ArcTo -> org.freehep.graphicsio.a.a.aP: org.freehep.graphicsio.emf.gdi.BeginPath -> org.freehep.graphicsio.a.a.aJ: org.freehep.graphicsio.emf.gdi.BitBlt -> org.freehep.graphicsio.a.a.aO: java.awt.Rectangle bounds -> a int x -> a int y -> b int width -> c int height -> d int dwROP -> e 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.BufferedImage image -> 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.z: 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.J: 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.aI: 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.Q: org.freehep.graphicsio.emf.gdi.CloseFigure -> org.freehep.graphicsio.a.a.j: org.freehep.graphicsio.emf.gdi.CreateBrushIndirect -> org.freehep.graphicsio.a.a.al: int index -> a org.freehep.graphicsio.emf.gdi.LogBrush32 brush -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString org.freehep.graphicsio.emf.gdi.CreateDIBPatternBrushPt -> org.freehep.graphicsio.a.a.av: int usage -> a org.freehep.graphicsio.emf.gdi.BitmapInfo bmi -> 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.ax: int index -> a org.freehep.graphicsio.emf.gdi.LogPen pen -> 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.T: int index -> 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.e: org.freehep.graphicsio.emf.gdi.EMFRectangle -> org.freehep.graphicsio.a.a.q: java.awt.Rectangle bounds -> 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.aa: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.Ellipse -> org.freehep.graphicsio.a.a.aN: java.awt.Rectangle bounds -> 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.ba: org.freehep.graphicsio.emf.gdi.ExcludeClipRect -> org.freehep.graphicsio.a.a.aj: java.awt.Rectangle bounds -> 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.o: int index -> a org.freehep.graphicsio.emf.gdi.ExtLogFontW font -> 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.as: int index -> a org.freehep.graphicsio.emf.gdi.ExtLogPen pen -> 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.l: java.awt.Point start -> a java.awt.Color color -> a int mode -> 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.aS: 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.aZ: 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.u: org.freehep.graphicsio.emf.gdi.Region rgn -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.ExtTextOutA -> org.freehep.graphicsio.a.a.B: org.freehep.graphicsio.emf.gdi.TextA text -> a org.freehep.graphicsio.emf.gdi.Text getText() -> a org.freehep.graphicsio.emf.gdi.ExtTextOutW -> org.freehep.graphicsio.a.a.F: org.freehep.graphicsio.emf.gdi.TextW text -> a org.freehep.graphicsio.emf.gdi.Text getText() -> a org.freehep.graphicsio.emf.gdi.FillPath -> org.freehep.graphicsio.a.a.f: java.awt.Rectangle bounds -> 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.aR: org.freehep.graphicsio.emf.gdi.GDIComment -> org.freehep.graphicsio.a.a.aD: java.lang.String comment -> 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.h: void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.GradientFill -> org.freehep.graphicsio.a.a.aW: java.awt.Rectangle bounds -> a int mode -> a org.freehep.graphicsio.emf.gdi.TriVertex[] vertices -> a org.freehep.graphicsio.emf.gdi.Gradient[] gradients -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString org.freehep.graphicsio.emf.gdi.IntersectClipRect -> org.freehep.graphicsio.a.a.aw: java.awt.Rectangle bounds -> 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.W: java.awt.Point point -> 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.K: 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.w: 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.C: 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.ao: java.awt.geom.AffineTransform transform -> a int mode -> 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.aE: java.awt.Point point -> 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.U: java.awt.Point offset -> 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.P: 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.s: org.freehep.graphicsio.emf.gdi.PolyBezier -> org.freehep.graphicsio.a.a.k: org.freehep.graphicsio.emf.gdi.PolyBezier16 -> org.freehep.graphicsio.a.a.aU: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.PolyBezierTo -> org.freehep.graphicsio.a.a.an: org.freehep.graphicsio.emf.gdi.PolyBezierTo16 -> org.freehep.graphicsio.a.a.az: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.PolyDraw -> org.freehep.graphicsio.a.a.ar: java.awt.Rectangle bounds -> a java.awt.Point[] points -> a byte[] types -> 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.y: java.awt.Rectangle bounds -> a java.awt.Point[] points -> a byte[] types -> 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.am: int start -> a int end -> b void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.PolyPolygon16 -> org.freehep.graphicsio.a.a.aL: int numberOfPolys -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.PolyPolyline -> org.freehep.graphicsio.a.a.ac: int start -> a int end -> b void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.PolyPolyline16 -> org.freehep.graphicsio.a.a.aF: int numberOfPolys -> a void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.Polygon16 -> org.freehep.graphicsio.a.a.bb: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.Polyline -> org.freehep.graphicsio.a.a.p: org.freehep.graphicsio.emf.gdi.Polyline16 -> org.freehep.graphicsio.a.a.aM: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.PolylineTo -> org.freehep.graphicsio.a.a.x: org.freehep.graphicsio.emf.gdi.PolylineTo16 -> org.freehep.graphicsio.a.a.a: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.RealizePalette -> org.freehep.graphicsio.a.a.ae: org.freehep.graphicsio.emf.gdi.Region -> org.freehep.graphicsio.a.a.aq: 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.L: int index -> a int entries -> b 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.ay: int savedDC -> 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.O: java.awt.Rectangle bounds -> a java.awt.Dimension corner -> 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.aT: org.freehep.graphicsio.emf.gdi.ScaleViewportExtEx -> org.freehep.graphicsio.a.a.H: int xNum -> a int xDenom -> b int yNum -> c int yDenom -> d 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.ab: int xNum -> a int xDenom -> b int yNum -> c int yDenom -> d 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.D: void write(int,org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.SelectObject -> org.freehep.graphicsio.a.a.X: int index -> 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.aQ: int index -> 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 -> 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.aA: java.awt.Color color -> 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.aH: int mode -> 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.ad: java.awt.Point point -> 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.ag: int mode -> 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.R: int mode -> 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.I: int flags -> 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.Y: org.freehep.graphicsio.emf.gdi.SetMiterLimit -> org.freehep.graphicsio.a.a.V: int limit -> 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.aB: java.awt.Point point -> a java.awt.Color color -> 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.S: int mode -> 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.aX: int mode -> 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.v: int mode -> 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.ai: int mode -> 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.aK: java.awt.Color color -> 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.b: java.awt.Dimension size -> 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.aY: java.awt.Point point -> 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.d: java.awt.Dimension size -> 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.ap: java.awt.Point point -> 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.A: java.awt.geom.AffineTransform transform -> 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.Z: java.awt.Rectangle bounds -> a int x -> a int y -> b int width -> c int height -> d int xSrc -> e int ySrc -> f int widthSrc -> g int heightSrc -> h int usage -> i int dwROP -> j java.awt.Color bkg -> a org.freehep.graphicsio.emf.gdi.BitmapInfo bmi -> a java.awt.image.BufferedImage image -> 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.E: java.awt.Rectangle bounds -> 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.i: java.awt.Rectangle bounds -> 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.aV: java.awt.Point pos -> a java.lang.String string -> a int options -> a java.awt.Rectangle bounds -> a int[] widths -> a void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a org.freehep.graphicsio.emf.gdi.TextA -> org.freehep.graphicsio.a.a.r: void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString org.freehep.graphicsio.emf.gdi.TextW -> org.freehep.graphicsio.a.a.ah: void write(org.freehep.graphicsio.emf.EMFOutputStream) -> a java.lang.String toString() -> toString org.freehep.graphicsio.emf.gdi.TriVertex -> org.freehep.graphicsio.a.a.n: 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.at: org.freehep.graphicsio.font.CharstringEncoder -> org.freehep.graphicsio.b.e: 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.f: 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() -> c void closeGlyphs() -> d void closeEmbedFont() -> e 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.a: 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() -> a void closeIncludeFont() -> b void openGlyphs() -> c void closeGlyphs() -> d void closeEmbedFont() -> e 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() -> a void writeEncoding(org.freehep.graphics2d.font.CharTable) -> a void closeIncludeFont() -> b java.awt.font.FontRenderContext getContext() -> a java.lang.String getFontName() -> b 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.c: 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.b: 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.pdf.ImageBytes -> org.freehep.graphicsio.c.D: java.lang.String format -> a byte[] bytes -> a byte[] toZLIB(java.awt.image.RenderedImage,java.awt.Color,java.lang.String) -> a byte[] toJPG(java.awt.image.RenderedImage) -> a byte[] getBytes() -> a java.lang.String getFormat() -> a org.freehep.graphicsio.pdf.PDF -> org.freehep.graphicsio.c.m: 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() -> b void trailer(java.lang.String,java.lang.String) -> b void startxref() -> c org.freehep.graphicsio.pdf.PDFByteWriter -> org.freehep.graphicsio.c.A: 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.E: 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.c: 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.z: java.lang.String EOL -> a java.text.SimpleDateFormat dateFormat -> a org.freehep.graphicsio.pdf.PDFDictionary -> org.freehep.graphicsio.c.p: 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.x: 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() -> a void addAdditionalEntries(org.freehep.graphicsio.pdf.PDFDictionary) -> a void addAdditionalInitDicts() -> f java.lang.String getReference() -> c void openIncludeFont() -> a void closeEmbedFont() -> e 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.F: 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() -> a void openIncludeFont() -> a void writeWidths(double[]) -> a void openGlyphs() -> c void closeEmbedFont() -> e org.freehep.graphicsio.pdf.PDFFontEmbedderType3 -> org.freehep.graphicsio.c.s: java.lang.String getSubtype() -> a 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.e: 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() -> a 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.w: 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.q: java.lang.String rootKey -> w java.lang.String TRANSPARENT -> a java.lang.String BACKGROUND -> b java.lang.String BACKGROUND_COLOR -> c java.lang.String PAGE_SIZE -> d java.lang.String PAGE_MARGINS -> e java.lang.String ORIENTATION -> f java.lang.String FIT_TO_PAGE -> g java.lang.String EMBED_FONTS -> h java.lang.String EMBED_FONTS_AS -> i java.lang.String THUMBNAILS -> j java.lang.String THUMBNAIL_SIZE -> k java.lang.String COMPRESS -> l java.lang.String VERSION -> m 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.lang.Class class$0 -> a java.util.Properties getDefaultProperties() -> a void setDefaultProperties(java.util.Properties) -> a void init(java.io.OutputStream) -> a boolean isMultiPage() -> b void writeHeader() -> b void writeBackground() -> c void writeTrailer() -> d void closeStream() -> e void processDelayed() -> k void openPage(java.awt.Dimension,java.lang.String,java.awt.Component) -> a void closePage() -> a 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() -> f void writeGraphicsRestore() -> g 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) -> a 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 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 org.freehep.graphicsio.pdf.PDFImageDelayQueue -> org.freehep.graphicsio.c.B: 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.f: 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.awt.image.RenderedImage access$5(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> a java.awt.Color access$6(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> a java.lang.String access$7(org.freehep.graphicsio.pdf.PDFImageDelayQueue$Entry) -> c org.freehep.graphicsio.pdf.PDFName -> org.freehep.graphicsio.c.d: java.lang.String name -> b java.lang.String toString() -> toString org.freehep.graphicsio.pdf.PDFObject -> org.freehep.graphicsio.c.b: 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.y: void setDest(java.lang.Object[]) -> a org.freehep.graphicsio.pdf.PDFOutlineList -> org.freehep.graphicsio.c.t: org.freehep.graphicsio.pdf.PDFPage -> org.freehep.graphicsio.c.g: void setContents(java.lang.String) -> a void setThumb(java.lang.String) -> b org.freehep.graphicsio.pdf.PDFPageBase -> org.freehep.graphicsio.c.l: void setResources(java.lang.String) -> c void setMediaBox(double,double,double,double) -> a org.freehep.graphicsio.pdf.PDFPageTree -> org.freehep.graphicsio.c.v: java.util.Vector pages -> a void addPage(java.lang.String) -> a void close() -> a org.freehep.graphicsio.pdf.PDFPaintDelayQueue -> org.freehep.graphicsio.c.G: 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.i: 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.k: 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.n: 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.j: 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.o: 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.u: 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.a: 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 org.freehep.graphicsio.pdf.PDFName[] getFilterName(java.lang.String) -> a 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 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.r: 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.C: void setFitWindow(boolean) -> a void setCenterWindow(boolean) -> b org.freehep.graphicsio.pdf.PDFWriter -> org.freehep.graphicsio.c.h: java.lang.String open -> b java.lang.String catalogName -> c java.lang.String docInfoName -> d void close(java.lang.String,java.lang.String) -> a 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() -> a 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.b: 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 java.lang.Class class$0 -> 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.a: 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.b: 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.c: 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.a: java.lang.String rootKey -> r java.lang.String TRANSPARENT -> a java.lang.String BACKGROUND -> b java.lang.String BACKGROUND_COLOR -> c java.lang.String VERSION -> d java.lang.String COMPRESS -> e java.lang.String STYLABLE -> f java.lang.String IMAGE_SIZE -> g java.lang.String EXPORT_IMAGES -> h java.lang.String EXPORT_SUFFIX -> i java.lang.String WRITE_IMAGES_AS -> j java.lang.String FOR -> k java.lang.String TITLE -> l java.awt.BasicStroke defaultStroke -> a java.lang.String EMBED_FONTS -> m 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 java.text.DecimalFormat scientific -> a java.lang.Class class$0 -> a java.util.Properties getDefaultProperties() -> a void setDefaultProperties(java.util.Properties) -> a void init(java.io.OutputStream) -> a void setBoundingBox() -> a void writeHeader() -> b void writeBackground() -> c void writeTrailer() -> d void closeStream() -> e java.awt.Graphics create() -> create void writeGraphicsSave() -> f void writeGraphicsRestore() -> g 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) -> a 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 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.DoubleWithError -> org.freehep.a.a: 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 org.freehep.util.UserProperties -> org.freehep.a.c: 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.a.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 -> m 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 java.lang.Class class$0 -> k java.lang.Class class$1 -> l 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.a.b.a: java.lang.Class class$0 -> a java.awt.image.RenderedImage createRenderedImage(java.awt.Image,java.awt.image.ImageObserver,java.awt.Color) -> a java.awt.image.BufferedImage createBufferedImage(java.awt.image.RenderedImage,java.awt.image.ImageObserver,java.awt.Color) -> a byte[] getBytes(java.awt.image.RenderedImage,java.awt.Color,java.lang.String,int) -> a org.freehep.util.io.ASCII85OutputStream -> org.freehep.a.a.d: boolean end -> a int characters -> a int[] b -> a int bIndex -> b int[] c -> b java.lang.String newline -> a void write(int) -> write void finish() -> finish void close() -> close void writeTuple() -> a void writeEOD() -> b void writeChar(int) -> a void writeNewLine() -> c org.freehep.util.io.ASCIIHexOutputStream -> org.freehep.a.a.u: int characters -> a boolean end -> a java.lang.String newline -> a void write(int) -> write void finish() -> finish void close() -> close void writeChar(int) -> a void writeNewLine() -> a org.freehep.util.io.Action -> org.freehep.a.a.q: int code -> a java.lang.String name -> a int getCode() -> a java.lang.String getName() -> a java.lang.String toString() -> toString org.freehep.util.io.Action$Unknown -> org.freehep.a.a.i: int[] data -> a java.lang.String toString() -> toString org.freehep.util.io.ActionSet -> org.freehep.a.a.h: java.util.Map actions -> a org.freehep.util.io.Action defaultAction -> a org.freehep.util.io.Base64OutputStream -> org.freehep.a.a.r: 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.BitOutputStream -> org.freehep.a.a.l: 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.ByteCountOutputStream -> org.freehep.a.a.s: int currentBuffer -> b java.util.List bufferList -> a void write(int) -> write void pushBuffer() -> c int popBuffer() -> b int getBufferLength() -> c void append() -> d void close() -> close org.freehep.util.io.ByteCountOutputStream$Buffer -> org.freehep.a.a.w: byte[] buffer -> a int len -> a void add(byte) -> a void add(org.freehep.util.io.ByteCountOutputStream$Buffer) -> a int getLength() -> a byte[] getBytes() -> a org.freehep.util.io.ByteOrderOutputStream -> org.freehep.a.a.p: 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[]) -> a void writeUnsignedByte(int[]) -> a void writeShort(int) -> writeShort void writeUnsignedShort(int) -> a 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.a.a.t: 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.a.a.b: int count -> a void write(int) -> write void write(byte[]) -> write void write(byte[],int,int) -> write int getCount() -> a org.freehep.util.io.EEXECEncryption -> org.freehep.a.a.e: 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.a.a.m: void finish() -> finish org.freehep.util.io.FlateOutputStream -> org.freehep.a.a.n: void finish() -> finish org.freehep.util.io.NoCloseOutputStream -> org.freehep.a.a.g: void close() -> close org.freehep.util.io.Tag -> org.freehep.a.a.a: int tagID -> a java.lang.String name -> a int version -> b int getTag() -> a java.lang.String getName() -> a void write(int,org.freehep.util.io.TaggedOutputStream) -> a java.lang.String toString() -> toString org.freehep.util.io.TagHeader -> org.freehep.a.a.v: int tagID -> a long length -> a int getTag() -> a long getLength() -> a org.freehep.util.io.TagSet -> org.freehep.a.a.j: java.util.Map tags -> a org.freehep.util.io.Tag defaultTag -> a void addTag(org.freehep.util.io.Tag) -> a boolean exists(int) -> a org.freehep.util.io.TaggedOutputStream -> org.freehep.a.a.k: 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.a.a.f: int[] bytes -> a void write(int,org.freehep.util.io.TaggedOutputStream) -> a java.lang.String toString() -> toString org.freehep.util.io.UndefinedTagException -> org.freehep.a.a.c: org.freehep.util.io.WriterOutputStream -> org.freehep.a.a.o: 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.mathpiper.builtin.Array -> org.a.a.a: org.mathpiper.lisp.ConsPointerArray iArray -> a java.lang.String typeName() -> a int size() -> a org.mathpiper.lisp.Cons getElement(int) -> a void setElement(int,org.mathpiper.lisp.Cons) -> a org.mathpiper.builtin.BigNumber -> org.a.a.d: java.math.BigInteger javaBigInteger -> a java.math.BigDecimal javaBigDecimal -> a int iPrecision -> a int iTensExp -> b java.math.BigDecimal zero -> b java.math.BigDecimal one -> c java.math.BigDecimal two -> d java.math.BigDecimal ten -> e boolean numericSupportForMantissa() -> a void setTo(org.mathpiper.builtin.BigNumber) -> a void setTo(java.lang.String,int,int) -> a void setTo(long) -> a void setTo(int) -> a void setTo(double) -> a boolean isFloat(java.lang.String,int) -> a java.lang.String numToString(int,int) -> a double toDouble() -> a long toLong() -> a boolean equals(org.mathpiper.builtin.BigNumber) -> a boolean isInt() -> b boolean isSmall() -> c void becomeFloat(int) -> b boolean lessThan(org.mathpiper.builtin.BigNumber) -> b void multiply(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber,int) -> a void add(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber,int) -> b void negate(org.mathpiper.builtin.BigNumber) -> b void divide(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber,int) -> c void mod(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> a void dumpDebugInfo(org.mathpiper.io.MathPiperOutputStream) -> a java.lang.String toString() -> toString void floor(org.mathpiper.builtin.BigNumber) -> c void precision(int) -> c void shiftLeft(org.mathpiper.builtin.BigNumber,int) -> a void shiftRight(org.mathpiper.builtin.BigNumber,int) -> b void gcd(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> b void bitAnd(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> c void bitOr(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> d void bitXor(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> e long bitCount() -> b int sign() -> a int getPrecision() -> b java.math.BigDecimal getDecimal(org.mathpiper.builtin.BigNumber) -> a org.mathpiper.builtin.BuiltinContainer -> org.a.a.c: java.lang.String typeName() -> a org.mathpiper.builtin.BuiltinFunctionInitialize -> org.a.a.e: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.lisp.ConsPointer getResult(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.lisp.ConsPointer getArgumentPointer(org.mathpiper.lisp.Environment,int,int) -> a org.mathpiper.lisp.ConsPointer getArgumentPointer(org.mathpiper.lisp.ConsPointer,int) -> a void addFunctions(org.mathpiper.lisp.Environment) -> a org.mathpiper.builtin.PatternContainer -> org.a.a.b: org.mathpiper.parametermatchers.Pattern iPatternMatcher -> a boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a java.lang.String typeName() -> a org.mathpiper.builtin.functions.Abs -> org.a.a.a.N: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Add -> org.a.a.a.cc: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ApplyPure -> org.a.a.a.ai: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Atomize -> org.a.a.a.D: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BackQuote -> org.a.a.a.aD: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BitAnd -> org.a.a.a.bu: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BitCount -> org.a.a.a.ao: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BitOr -> org.a.a.a.G: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BitXor -> org.a.a.a.L: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BitsToDigits -> org.a.a.a.bm: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Bodied -> org.a.a.a.aB: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BuiltinAssoc -> org.a.a.a.b: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BuiltinPrecisionGet -> org.a.a.a.bY: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.BuiltinPrecisionSet -> org.a.a.a.ci: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Ceil -> org.a.a.a.d: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CharString -> org.a.a.a.bJ: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Check -> org.a.a.a.cm: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ClearVar -> org.a.a.a.am: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CommonLispTokenizer -> org.a.a.a.cC: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Concatenate -> org.a.a.a.x: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ConcatenateStrings -> org.a.a.a.br: void ConcatenateStrings(java.lang.StringBuffer,org.mathpiper.lisp.Environment,int) -> a void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CurrentFile -> org.a.a.a.q: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CurrentLine -> org.a.a.a.aL: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CustomEval -> org.a.a.a.i: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CustomEvalExpression -> org.a.a.a.l: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CustomEvalLocals -> org.a.a.a.be: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CustomEvalResult -> org.a.a.a.ae: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.CustomEvalStop -> org.a.a.a.aW: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DebugFile -> org.a.a.a.av: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DebugLine -> org.a.a.a.ax: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DefLoad -> org.a.a.a.bW: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DefLoadFunction -> org.a.a.a.bC: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DefMacroRuleBase -> org.a.a.a.aK: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DefMacroRuleBaseListed -> org.a.a.a.by: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DefaultDirectory -> org.a.a.a.aM: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DefaultTokenizer -> org.a.a.a.bO: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Delete -> org.a.a.a.H: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DestructiveDelete -> org.a.a.a.cz: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DestructiveInsert -> org.a.a.a.X: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DestructiveReplace -> org.a.a.a.bG: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DestructiveReverse -> org.a.a.a.bT: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DigitsToBits -> org.a.a.a.cq: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Div -> org.a.a.a.r: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Divide -> org.a.a.a.bK: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.DumpBigNumberDebugInfo -> org.a.a.a.cj: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Equals -> org.a.a.a.aI: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Eval -> org.a.a.a.cd: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Exit -> org.a.a.a.t: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ExitRequested -> org.a.a.a.T: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ExplodeTag -> org.a.a.a.bL: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ExtraInfoGet -> org.a.a.a.af: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ExtraInfoSet -> org.a.a.a.bi: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Fac -> org.a.a.a.V: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FastArcSin -> org.a.a.a.ag: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FastIsPrime -> org.a.a.a.A: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FastLog -> org.a.a.a.aw: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FastPower -> org.a.a.a.bS: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FileSize -> org.a.a.a.ca: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FindFile -> org.a.a.a.K: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FindFunction -> org.a.a.a.bp: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FlatCopy -> org.a.a.a.n: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Floor -> org.a.a.a.p: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FromBase -> org.a.a.a.ab: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FromFile -> org.a.a.a.bU: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FromString -> org.a.a.a.bj: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.FullForm -> org.a.a.a.cp: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GarbageCollect -> org.a.a.a.au: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Gcd -> org.a.a.a.bc: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenArrayCreate -> org.a.a.a.y: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenArrayGet -> org.a.a.a.Y: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenArraySet -> org.a.a.a.h: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenArraySize -> org.a.a.a.bg: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenPatternCreate -> org.a.a.a.J: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenPatternMatches -> org.a.a.a.bb: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GenericTypeName -> org.a.a.a.as: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GetCoreError -> org.a.a.a.bh: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GetExactBits -> org.a.a.a.aq: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GetLeftPrecedence -> org.a.a.a.bn: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GetPrecedence -> org.a.a.a.aH: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GetRightPrecedence -> org.a.a.a.bk: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.GreaterThan -> org.a.a.a.bQ: org.mathpiper.builtin.functions.LexGreaterThan compare -> a void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Head -> org.a.a.a.az: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.HistorySize -> org.a.a.a.ba: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.HoldArg -> org.a.a.a.bH: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.If -> org.a.a.a.bo: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.InDebugMode -> org.a.a.a.cw: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.InFix -> org.a.a.a.W: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Insert -> org.a.a.a.f: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsAtom -> org.a.a.a.aQ: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsBodied -> org.a.a.a.cf: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsBound -> org.a.a.a.ch: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsFunction -> org.a.a.a.aV: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsGeneric -> org.a.a.a.cx: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsInFix -> org.a.a.a.R: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsInteger -> org.a.a.a.aP: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsList -> org.a.a.a.bq: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsNumber -> org.a.a.a.aF: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsPostFix -> org.a.a.a.aN: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsPreFix -> org.a.a.a.g: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsPromptShown -> org.a.a.a.bz: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.IsString -> org.a.a.a.aA: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LazyAnd -> org.a.a.a.ak: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LazyOr -> org.a.a.a.P: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LeftPrecedence -> org.a.a.a.v: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Length -> org.a.a.a.bv: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LessThan -> org.a.a.a.aG: org.mathpiper.builtin.functions.LexLessThan compare -> a void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LexCompare2 -> org.a.a.a.aU: boolean lexfunc(java.lang.String,java.lang.String,org.mathpiper.lisp.TokenHash,int) -> a boolean numfunc(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> a void Compare(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LexGreaterThan -> org.a.a.a.aC: boolean lexfunc(java.lang.String,java.lang.String,org.mathpiper.lisp.TokenHash,int) -> a boolean numfunc(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> a org.mathpiper.builtin.functions.LexLessThan -> org.a.a.a.Q: boolean lexfunc(java.lang.String,java.lang.String,org.mathpiper.lisp.TokenHash,int) -> a boolean numfunc(org.mathpiper.builtin.BigNumber,org.mathpiper.builtin.BigNumber) -> a org.mathpiper.builtin.functions.LispRead -> org.a.a.a.aS: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.List -> org.a.a.a.bl: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Listify -> org.a.a.a.M: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Load -> org.a.a.a.aJ: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.LocalSymbols -> org.a.a.a.F: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MacroNewRule -> org.a.a.a.aR: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MacroNewRulePattern -> org.a.a.a.bA: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MacroRuleBase -> org.a.a.a.C: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MacroRuleBaseListed -> org.a.a.a.cy: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MacroSetVar -> org.a.a.a.cv: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MathIsSmall -> org.a.a.a.bV: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MathNegate -> org.a.a.a.bZ: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MathSign -> org.a.a.a.al: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.MaxEvalDepth -> org.a.a.a.w: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Mod -> org.a.a.a.bF: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Multiply -> org.a.a.a.aT: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.NewLocal -> org.a.a.a.cB: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.NewRule -> org.a.a.a.ap: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.NewRulePattern -> org.a.a.a.ay: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Not -> org.a.a.a.bE: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Nth -> org.a.a.a.ck: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PatchLoad -> org.a.a.a.aj: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PatchString -> org.a.a.a.aY: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PostFix -> org.a.a.a.at: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PreFix -> org.a.a.a.bN: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PrettyPrinterGet -> org.a.a.a.co: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PrettyPrinterSet -> org.a.a.a.bd: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PrettyReaderGet -> org.a.a.a.ac: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.PrettyReaderSet -> org.a.a.a.ce: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ProgBody -> org.a.a.a.ah: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Quote -> org.a.a.a.cn: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Read -> org.a.a.a.U: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ReadCmdLineString -> org.a.a.a.an: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ReadLispListed -> org.a.a.a.bR: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ReadToken -> org.a.a.a.cg: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Replace -> org.a.a.a.e: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Retract -> org.a.a.a.cs: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.RightAssociative -> org.a.a.a.s: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.RightPrecedence -> org.a.a.a.aE: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.RuleBase -> org.a.a.a.bx: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.RuleBaseArgList -> org.a.a.a.Z: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.RuleBaseDefined -> org.a.a.a.B: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.RuleBaseListed -> org.a.a.a.cb: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Secure -> org.a.a.a.j: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.SetExactBits -> org.a.a.a.m: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.SetGlobalLazyVariable -> org.a.a.a.cA: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.SetVar -> org.a.a.a.bM: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ShiftLeft -> org.a.a.a.u: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ShiftRight -> org.a.a.a.ct: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.StackSize -> org.a.a.a.bI: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.StringMidGet -> org.a.a.a.cu: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.StringMidSet -> org.a.a.a.aO: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Stringify -> org.a.a.a.z: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Subst -> org.a.a.a.c: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Subtract -> org.a.a.a.O: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.SystemCall -> org.a.a.a.k: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Tail -> org.a.a.a.ar: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Time -> org.a.a.a.bs: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ToBase -> org.a.a.a.aa: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ToFile -> org.a.a.a.S: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ToStdout -> org.a.a.a.o: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.ToString -> org.a.a.a.bX: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.TraceOff -> org.a.a.a.ad: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.TraceOn -> org.a.a.a.bt: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.TraceRule -> org.a.a.a.cr: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.TraceStack -> org.a.a.a.cl: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.TrapError -> org.a.a.a.aX: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Type -> org.a.a.a.E: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.UnFence -> org.a.a.a.bD: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.UnList -> org.a.a.a.a: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Use -> org.a.a.a.bf: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Version -> org.a.a.a.I: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.While -> org.a.a.a.aZ: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.Write -> org.a.a.a.bP: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.WriteString -> org.a.a.a.bw: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.builtin.functions.XmlTokenizer -> org.a.a.a.bB: void eval(org.mathpiper.lisp.Environment,int) -> a org.mathpiper.exceptions.EvaluationException -> org.a.g.a: int lineNumber -> a int getLineNumber() -> a org.mathpiper.interpreters.EvaluationResponse -> org.a.e.a: java.lang.String result -> a java.lang.String loadResult -> b java.lang.String sideEffects -> c java.lang.String exceptionMessage -> d boolean exceptionThrown -> a java.lang.Exception exception -> a int lineNumber -> a org.mathpiper.interpreters.EvaluationResponse newInstance() -> a void setLineNumber(int) -> a java.lang.String getResult() -> a void setResult(java.lang.String) -> a void setSideEffects(java.lang.String) -> b java.lang.String getExceptionMessage() -> b void setExceptionMessage(java.lang.String) -> c void setException(java.lang.Exception) -> a boolean isExceptionThrown() -> a org.mathpiper.interpreters.Interpreter -> org.a.e.b: org.mathpiper.interpreters.EvaluationResponse evaluate(java.lang.String) -> a org.mathpiper.interpreters.Interpreters -> org.a.e.c: org.mathpiper.interpreters.Interpreter getSynchronousInterpreter(java.lang.String) -> a org.mathpiper.interpreters.SynchronousInterpreter -> org.a.e.d: org.mathpiper.lisp.Environment environment -> a org.mathpiper.lisp.tokenizers.MathPiperTokenizer tokenizer -> a org.mathpiper.lisp.printers.Printer printer -> a java.lang.String defaultDirectory -> a java.lang.String archive -> b java.lang.String detect -> c java.lang.String pathParent -> d boolean inZipFile -> a org.mathpiper.io.MathPiperOutputStream sideEffectsStream -> a org.mathpiper.interpreters.SynchronousInterpreter singletonInstance -> a org.mathpiper.interpreters.SynchronousInterpreter getInstance(java.lang.String) -> a org.mathpiper.interpreters.EvaluationResponse evaluate(java.lang.String) -> a org.mathpiper.io.CachedStandardFileInputStream -> org.a.b.e: java.lang.StringBuffer iBuffer -> a int iCurrentPos -> a char next() -> a char peek() -> b boolean endOfStream() -> a void rewind() -> a java.lang.StringBuffer startPtr() -> a int position() -> a void setPosition(int) -> a org.mathpiper.io.InputDirectories -> org.a.b.j: org.mathpiper.io.InputStatus -> org.a.b.b: java.lang.String iFileName -> a int iLineNumber -> a void setTo(java.lang.String) -> a void restoreFrom(org.mathpiper.io.InputStatus) -> a int lineNumber() -> a java.lang.String fileName() -> a void nextLine() -> a org.mathpiper.io.JarFileInputStream -> org.a.b.k: org.mathpiper.io.MathPiperInputStream -> org.a.b.i: org.mathpiper.io.InputStatus iStatus -> a char next() -> a char peek() -> b boolean endOfStream() -> a java.lang.StringBuffer startPtr() -> a int position() -> a void setPosition(int) -> a org.mathpiper.io.MathPiperOutputStream -> org.a.b.c: void putChar(char) -> a void write(java.lang.String) -> a org.mathpiper.io.StandardFileInputStream -> org.a.b.g: org.mathpiper.io.StandardFileOutputStream -> org.a.b.f: java.io.OutputStream iFile -> a void putChar(char) -> a org.mathpiper.io.StringInputStream -> org.a.b.a: int iCurrent -> a java.lang.StringBuffer iString -> a char next() -> a char peek() -> b boolean endOfStream() -> a java.lang.StringBuffer startPtr() -> a int position() -> a void setPosition(int) -> a org.mathpiper.io.StringOutput -> org.a.b.h: java.lang.StringBuffer stringBuffer -> a void putChar(char) -> a java.lang.String toString() -> toString void clear() -> a org.mathpiper.io.StringOutputStream -> org.a.b.d: java.lang.StringBuffer iString -> a void putChar(char) -> a org.mathpiper.lisp.ArgumentStack -> org.a.d.p: org.mathpiper.lisp.ConsPointerArray iArgumentStack -> a int iStackTopIndex -> a int getStackTopIndex() -> a void raiseStackOverflowError() -> a void pushArgumentOnStack(org.mathpiper.lisp.Cons) -> a org.mathpiper.lisp.ConsPointer getElement(int) -> a void popTo(int) -> a org.mathpiper.lisp.AssociatedHash -> org.a.d.l: java.util.Map iMap -> a java.lang.Object lookUp(java.lang.String) -> a void setAssociation(java.lang.Object,java.lang.String) -> a void release(java.lang.String) -> a org.mathpiper.lisp.Atom -> org.a.d.w: java.lang.String iString -> a org.mathpiper.lisp.Cons getInstance(org.mathpiper.lisp.Environment,java.lang.String) -> a java.lang.String string() -> a java.lang.String toString() -> toString org.mathpiper.lisp.Cons copy(boolean) -> a org.mathpiper.lisp.Cons setExtraInfo(org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.BuiltinObject -> org.a.d.r: org.mathpiper.builtin.BuiltinContainer iClass -> a org.mathpiper.lisp.BuiltinObject getInstance(org.mathpiper.builtin.BuiltinContainer) -> a org.mathpiper.builtin.BuiltinContainer getGeneric() -> a java.lang.String string() -> a org.mathpiper.lisp.Cons copy(boolean) -> a org.mathpiper.lisp.Cons setExtraInfo(org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.Cons -> org.a.d.g: org.mathpiper.lisp.ConsPointer iCdr -> b org.mathpiper.lisp.ConsPointer rest() -> b java.lang.String string() -> a org.mathpiper.lisp.ConsPointer getSubList() -> a org.mathpiper.builtin.BuiltinContainer getGeneric() -> a org.mathpiper.builtin.BigNumber getNumber(int) -> a org.mathpiper.lisp.Cons copy(boolean) -> a org.mathpiper.lisp.ConsPointer getExtraInfo() -> c org.mathpiper.lisp.Cons setExtraInfo(org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.ConsPointer -> org.a.d.i: org.mathpiper.lisp.Cons iCons -> a void setCons(org.mathpiper.lisp.Cons) -> a org.mathpiper.lisp.Cons getCons() -> a void goNext() -> a java.lang.String toString() -> toString org.mathpiper.lisp.ConsPointerArray -> org.a.d.n: int iSize -> a org.mathpiper.lisp.ConsPointer[] iArray -> a int size() -> a org.mathpiper.lisp.ConsPointer getElement(int) -> a void setElement(int,org.mathpiper.lisp.Cons) -> a org.mathpiper.lisp.ConsTraverser -> org.a.d.h: org.mathpiper.lisp.ConsPointer iPtr -> a org.mathpiper.lisp.Cons getCons() -> a org.mathpiper.lisp.ConsPointer ptr() -> a void goNext() -> a void goSub() -> b org.mathpiper.lisp.DefFile -> org.a.d.b: java.lang.String iFileName -> a boolean iIsLoaded -> a void setLoaded() -> a boolean isLoaded() -> a org.mathpiper.lisp.DefFiles -> org.a.d.c: org.mathpiper.lisp.DefFile getFile(java.lang.String) -> a org.mathpiper.lisp.Environment -> org.a.d.e: org.mathpiper.lisp.ExpressionEvaluator iEvaluator -> a int iPrecision -> d org.mathpiper.lisp.TokenHash iTokenHash -> a org.mathpiper.lisp.Cons iTrueAtom -> a org.mathpiper.lisp.Cons iFalseAtom -> b org.mathpiper.lisp.Cons iEndOfFileAtom -> c org.mathpiper.lisp.Cons iEndStatementAtom -> d org.mathpiper.lisp.Cons iProgOpenAtom -> e org.mathpiper.lisp.Cons iProgCloseAtom -> f org.mathpiper.lisp.Cons iNthAtom -> g org.mathpiper.lisp.Cons iBracketOpenAtom -> h org.mathpiper.lisp.Cons iBracketCloseAtom -> i org.mathpiper.lisp.Cons iListOpenAtom -> j org.mathpiper.lisp.Cons iListCloseAtom -> k org.mathpiper.lisp.Cons iCommaAtom -> l org.mathpiper.lisp.Cons iListAtom -> m org.mathpiper.lisp.Cons iProgAtom -> n org.mathpiper.lisp.Operators iPrefixOperators -> a org.mathpiper.lisp.Operators iInfixOperators -> b org.mathpiper.lisp.Operators iPostfixOperators -> c org.mathpiper.lisp.Operators iBodiedOperators -> d int iEvalDepth -> a int iMaxEvalDepth -> b org.mathpiper.lisp.ArgumentStack iArgumentStack -> a org.mathpiper.lisp.Environment$LocalVariableFrame iLocalsList -> a boolean iSecure -> a int iLastUniqueId -> c org.mathpiper.io.MathPiperOutputStream iCurrentOutput -> a org.mathpiper.io.MathPiperOutputStream iInitialOutput -> b org.mathpiper.lisp.printers.Printer iCurrentPrinter -> a org.mathpiper.io.MathPiperInputStream iCurrentInput -> a org.mathpiper.io.InputStatus iInputStatus -> a org.mathpiper.lisp.tokenizers.MathPiperTokenizer iCurrentTokenizer -> a org.mathpiper.lisp.tokenizers.MathPiperTokenizer iDefaultTokenizer -> b org.mathpiper.lisp.tokenizers.MathPiperTokenizer iXmlTokenizer -> c org.mathpiper.lisp.AssociatedHash iGlobalState -> a org.mathpiper.lisp.AssociatedHash iUserFunctions -> b org.mathpiper.lisp.AssociatedHash iBuiltinFunctions -> c java.lang.String iError -> a org.mathpiper.lisp.DefFiles iDefFiles -> a org.mathpiper.io.InputDirectories iInputDirectories -> a java.lang.String iPrettyReader -> b java.lang.String iPrettyPrinter -> c org.mathpiper.lisp.TokenHash getTokenHash() -> a org.mathpiper.lisp.AssociatedHash getBuiltinFunctions() -> a int getPrecision() -> a void setPrecision(int) -> a org.mathpiper.lisp.ConsPointer findLocal(java.lang.String) -> a void setVariable(java.lang.String,org.mathpiper.lisp.ConsPointer,boolean) -> a void getVariable(java.lang.String,org.mathpiper.lisp.ConsPointer) -> a void unsetVariable(java.lang.String) -> a void pushLocalFrame(boolean) -> a void popLocalFrame() -> a void newLocal(java.lang.String,org.mathpiper.lisp.Cons) -> a int getUniqueId() -> b void holdArgument(java.lang.String,java.lang.String) -> a void retract(java.lang.String,int) -> a org.mathpiper.lisp.userfunctions.UserFunction userFunction(org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.userfunctions.UserFunction userFunction(java.lang.String,int) -> a void unFenceRule(java.lang.String,int) -> b org.mathpiper.lisp.userfunctions.MultipleArityUserFunction multiUserFunction(java.lang.String) -> a void declareRuleBase(java.lang.String,org.mathpiper.lisp.ConsPointer,boolean) -> b void defineRule(java.lang.String,int,int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a void declareMacroRuleBase(java.lang.String,org.mathpiper.lisp.ConsPointer,boolean) -> c void defineRulePattern(java.lang.String,int,int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> b void write(java.lang.String) -> b org.mathpiper.lisp.Environment$LispLocalVariable -> org.a.d.k: org.mathpiper.lisp.Environment$LispLocalVariable iNext -> a java.lang.String iVariable -> a org.mathpiper.lisp.ConsPointer iValue -> a org.mathpiper.lisp.Environment this$0 -> a org.mathpiper.lisp.Environment$LocalVariableFrame -> org.a.d.q: org.mathpiper.lisp.Environment$LocalVariableFrame iNext -> a org.mathpiper.lisp.Environment$LispLocalVariable iFirst -> a org.mathpiper.lisp.Environment$LispLocalVariable iLast -> b org.mathpiper.lisp.Environment this$0 -> a void add(org.mathpiper.lisp.Environment$LispLocalVariable) -> a void delete() -> a org.mathpiper.lisp.ExpressionEvaluator -> org.a.d.s: org.mathpiper.lisp.UserStackInformation iBasicInfo -> a void evaluate(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a void resetStack() -> a org.mathpiper.lisp.UserStackInformation stackInformation() -> a org.mathpiper.lisp.GlobalVariable -> org.a.d.u: org.mathpiper.lisp.ConsPointer iValue -> a boolean iEvalBeforeReturn -> a void setEvalBeforeReturn(boolean) -> a java.lang.String toString() -> toString org.mathpiper.lisp.InfixOperator -> org.a.d.f: int iPrecedence -> a int iLeftPrecedence -> b int iRightPrecedence -> c int iRightAssociative -> d void SetRightAssociative() -> a void SetLeftPrecedence(int) -> a void SetRightPrecedence(int) -> b org.mathpiper.lisp.LispError -> org.a.d.m: int KLispErrNone -> a int KLispErrInvalidArg -> b int KLispErrWrongNumberOfArgs -> c int KLispErrNotList -> d int KLispErrListNotLongEnough -> e int KLispErrInvalidStack -> f int KQuitting -> g int KLispErrNotEnoughMemory -> h int KInvalidToken -> i int KLispErrInvalidExpression -> j int KLispErrUnprintableToken -> k int KLispErrFileNotFound -> l int KLispErrReadingFile -> m int KLispErrCreatingUserFunction -> n int KLispErrCreatingRule -> o int KLispErrArityAlreadyDefined -> p int KLispErrCommentToEndOfFile -> q int KLispErrNotString -> r int KLispErrNotInteger -> s int KLispErrParsingInput -> t int KLispErrMaxRecurseDepthReached -> u int KLispErrDefFileAlreadyChosen -> v int KLispErrDivideByZero -> w int KLispErrNotAnInFixOperator -> x int KLispErrIsNotInFix -> y int KLispErrSecurityBreach -> z int KLispErrLibraryNotFound -> A int KLispErrUserInterrupt -> B int KLispErrNonBooleanPredicateInPattern -> C int KLispErrGenericFormat -> D int KLispNrErrors -> E java.lang.String errorString(int) -> a void check(boolean,int) -> a void raiseError(java.lang.String,org.mathpiper.lisp.Environment) -> a void checkNumberOfArguments(int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment) -> a void errorNumberOfArguments(int,int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment) -> a java.lang.String showFunctionError(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment) -> a void checkCore(org.mathpiper.lisp.Environment,int,boolean,int) -> a void lispAssert(boolean) -> a void checkArgumentCore(org.mathpiper.lisp.Environment,int,boolean,int) -> b void checkIsListCore(org.mathpiper.lisp.Environment,int,org.mathpiper.lisp.ConsPointer,int) -> a void checkIsStringCore(org.mathpiper.lisp.Environment,int,org.mathpiper.lisp.ConsPointer,int) -> b void checkArgumentTypeWithError(org.mathpiper.lisp.Environment,int,boolean,int,java.lang.String) -> a org.mathpiper.lisp.LispExpressionEvaluator -> org.a.d.a: boolean DEBUG -> a boolean VERBOSE_DEBUG -> b void evaluate(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.userfunctions.UserFunction getUserFunction(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void showExpression(java.lang.StringBuffer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void traceShowExpression(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void traceShowArg(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> b void traceShowEnter(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> b void traceShowLeave(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> c org.mathpiper.lisp.Number -> org.a.d.o: org.mathpiper.builtin.BigNumber iBigNumber -> a java.lang.String iStringNumber -> a org.mathpiper.lisp.Cons copy(boolean) -> a java.lang.String string() -> a java.lang.String toString() -> toString org.mathpiper.builtin.BigNumber getNumber(int) -> a org.mathpiper.lisp.Cons setExtraInfo(org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.Operators -> org.a.d.x: void SetOperator(int,java.lang.String) -> a void SetRightAssociative(java.lang.String) -> b void SetLeftPrecedence(java.lang.String,int) -> a void SetRightPrecedence(java.lang.String,int) -> b org.mathpiper.lisp.SubList -> org.a.d.d: org.mathpiper.lisp.ConsPointer iSubList -> a org.mathpiper.lisp.SubList getInstance(org.mathpiper.lisp.Cons) -> a org.mathpiper.lisp.ConsPointer getSubList() -> a java.lang.String string() -> a java.lang.String toString() -> toString org.mathpiper.lisp.Cons copy(boolean) -> a org.mathpiper.lisp.Cons setExtraInfo(org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.TokenHash -> org.a.d.t: java.lang.Object lookUp(java.lang.String) -> a java.lang.String lookUpStringify(java.lang.String) -> a java.lang.String lookUpUnStringify(java.lang.String) -> b void garbageCollect() -> a org.mathpiper.lisp.UserStackInformation -> org.a.d.j: int iRulePrecedence -> a int iSide -> b org.mathpiper.lisp.UtilityFunctions -> org.a.d.v: int log2_table_size -> a double[] log2_table -> a java.util.zip.ZipFile zipFile -> a boolean isNumber(java.lang.String,boolean) -> a int internalListLength(org.mathpiper.lisp.ConsPointer) -> a void internalReverseList(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a void returnUnEvaluated(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment) -> a void internalApplyString(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,java.lang.String,org.mathpiper.lisp.ConsPointer) -> a void internalApplyPure(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment) -> a void internalTrue(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void internalFalse(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> b void internalBoolean(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,boolean) -> a void internalNth(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer,int) -> a void internalTail(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> b boolean isTrue(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a boolean isFalse(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> b java.lang.String symbolName(org.mathpiper.lisp.Environment,java.lang.String) -> a boolean internalIsList(org.mathpiper.lisp.ConsPointer) -> a boolean internalIsString(java.lang.String) -> a void internalNot(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void internalFlatCopy(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> c boolean internalEquals(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a void internalSubstitute(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.behaviours.SubstBase) -> a java.lang.String internalUnstringify(java.lang.String) -> a void doInternalLoad(org.mathpiper.lisp.Environment,org.mathpiper.io.MathPiperInputStream) -> a void internalLoad(org.mathpiper.lisp.Environment,java.lang.String) -> a void internalUse(org.mathpiper.lisp.Environment,java.lang.String) -> b java.lang.String printExpression(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,int) -> a org.mathpiper.io.MathPiperInputStream openInputFile(java.lang.String,org.mathpiper.io.InputStatus) -> a org.mathpiper.io.MathPiperInputStream openInputFile(org.mathpiper.lisp.Environment,org.mathpiper.io.InputDirectories,java.lang.String,org.mathpiper.io.InputStatus) -> a java.lang.String internalFindFile(java.lang.String,org.mathpiper.io.InputDirectories) -> a void doLoadDefFile(org.mathpiper.lisp.Environment,org.mathpiper.io.MathPiperInputStream,org.mathpiper.lisp.DefFile) -> a void loadDefFile(org.mathpiper.lisp.Environment,java.lang.String) -> c double log2TableLookup(int) -> a long digitsToBits(long,int) -> a long bitsToDigits(long,int) -> b org.mathpiper.builtin.BigNumber getNumber(org.mathpiper.lisp.Environment,int,int) -> a void multiFix(org.mathpiper.lisp.Environment,int,org.mathpiper.lisp.Operators) -> a void singleFix(int,org.mathpiper.lisp.Environment,int,org.mathpiper.lisp.Operators) -> a org.mathpiper.lisp.InfixOperator operatorInfo(org.mathpiper.lisp.Environment,int,org.mathpiper.lisp.Operators) -> a void internalSetVar(org.mathpiper.lisp.Environment,int,boolean,boolean) -> a void internalDelete(org.mathpiper.lisp.Environment,int,boolean) -> a void internalInsert(org.mathpiper.lisp.Environment,int,boolean) -> b void internalReplace(org.mathpiper.lisp.Environment,int,boolean) -> c void internalRuleBase(org.mathpiper.lisp.Environment,int,boolean) -> d void internalNewRule(org.mathpiper.lisp.Environment,int) -> a void internalDefMacroRuleBase(org.mathpiper.lisp.Environment,int,boolean) -> e void internalNewRulePattern(org.mathpiper.lisp.Environment,int,boolean) -> f org.mathpiper.lisp.behaviours.BackQuote -> org.a.d.b.d: org.mathpiper.lisp.Environment iEnvironment -> a boolean matches(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.behaviours.LocalSymbol -> org.a.d.b.c: org.mathpiper.lisp.Environment iEnvironment -> a java.lang.String[] iOriginalNames -> a java.lang.String[] iNewNames -> b int iNrNames -> a boolean matches(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.behaviours.Subst -> org.a.d.b.a: org.mathpiper.lisp.Environment iEnvironment -> a org.mathpiper.lisp.ConsPointer iToMatch -> a org.mathpiper.lisp.ConsPointer iToReplaceWith -> b boolean matches(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.behaviours.SubstBase -> org.a.d.b.b: boolean matches(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.parsers.MathPiperParser -> org.a.d.d.b: org.mathpiper.lisp.Operators iPrefixOperators -> a org.mathpiper.lisp.Operators iInfixOperators -> b org.mathpiper.lisp.Operators iPostfixOperators -> c org.mathpiper.lisp.Operators iBodiedOperators -> d boolean iError -> b boolean iEndOfFile -> c java.lang.String iLookAhead -> a org.mathpiper.lisp.ConsPointer iResult -> a void parse(org.mathpiper.lisp.ConsPointer) -> a void parse() -> a void readToken() -> b void matchToken(java.lang.String) -> a void readExpression(int) -> a void readAtom() -> c void getOtherSide(int,int) -> a void combine(int) -> b void insertAtom(java.lang.String) -> b void fail() -> d org.mathpiper.lisp.parsers.Parser -> org.a.d.d.a: org.mathpiper.lisp.tokenizers.MathPiperTokenizer iTokenizer -> a org.mathpiper.io.MathPiperInputStream iInput -> a org.mathpiper.lisp.Environment iEnvironment -> a boolean iListed -> a void parse(org.mathpiper.lisp.ConsPointer) -> a void parseList(org.mathpiper.lisp.ConsPointer) -> b void parseAtom(org.mathpiper.lisp.ConsPointer,java.lang.String) -> a org.mathpiper.lisp.printers.Printer -> org.a.d.e.a: void print(org.mathpiper.lisp.ConsPointer,org.mathpiper.io.MathPiperOutputStream,org.mathpiper.lisp.Environment) -> a void rememberLastChar(char) -> a void printExpression(org.mathpiper.lisp.ConsPointer,org.mathpiper.io.MathPiperOutputStream,org.mathpiper.lisp.Environment,int) -> a void indent(org.mathpiper.io.MathPiperOutputStream,int) -> a org.mathpiper.lisp.tokenizers.MathPiperTokenizer -> org.a.d.c.b: java.lang.String symbolics -> a java.lang.String nextToken(org.mathpiper.io.MathPiperInputStream,org.mathpiper.lisp.TokenHash) -> a boolean isDigit(char) -> a boolean isAlpha(char) -> b boolean isAlNum(char) -> c boolean isSymbolic(char) -> d org.mathpiper.lisp.tokenizers.XmlTokenizer -> org.a.d.c.a: java.lang.String nextToken(org.mathpiper.io.MathPiperInputStream,org.mathpiper.lisp.TokenHash) -> a boolean IsSpace(int) -> a org.mathpiper.lisp.userfunctions.BranchParameter -> org.a.d.a.d: java.lang.String iParameter -> a boolean iHold -> a org.mathpiper.lisp.userfunctions.BranchPattern -> org.a.d.a.j: int iPrecedence -> a org.mathpiper.lisp.ConsPointer iBody -> a org.mathpiper.lisp.ConsPointer iPredicate -> b org.mathpiper.builtin.PatternContainer iPatternClass -> a boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a int precedence() -> a org.mathpiper.lisp.ConsPointer body() -> a org.mathpiper.lisp.userfunctions.BranchRule -> org.a.d.a.e: int iPrecedence -> a org.mathpiper.lisp.ConsPointer iBody -> a org.mathpiper.lisp.ConsPointer iPredicate -> b boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a int precedence() -> a org.mathpiper.lisp.ConsPointer body() -> a org.mathpiper.lisp.userfunctions.BranchRuleBase -> org.a.d.a.h: boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a int precedence() -> a org.mathpiper.lisp.ConsPointer body() -> a org.mathpiper.lisp.userfunctions.BranchRuleTruePredicate -> org.a.d.a.m: boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.lisp.userfunctions.BranchingUserFunction -> org.a.d.a.b: java.util.Vector iParameters -> a java.util.Vector iRules -> b org.mathpiper.lisp.ConsPointer iParamList -> a void evaluate(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void holdArgument(java.lang.String) -> a boolean isArity(int) -> a int arity() -> a void declareRule(int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a void declareRule(int,org.mathpiper.lisp.ConsPointer) -> a void declarePattern(int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> b void insertRule(int,org.mathpiper.lisp.userfunctions.BranchRuleBase) -> a org.mathpiper.lisp.ConsPointer argList() -> a org.mathpiper.lisp.userfunctions.EvalFuncBase -> org.a.d.a.l: org.mathpiper.lisp.userfunctions.Evaluator -> org.a.d.a.k: int Function -> a int Macro -> b int Fixed -> c int Variable -> d org.mathpiper.builtin.BuiltinFunctionInitialize iCalledFunction -> a int iNumberOfArguments -> e int iFlags -> f void evaluate(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.userfunctions.ListedBranchingUserFunction -> org.a.d.a.n: boolean isArity(int) -> a void evaluate(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.userfunctions.ListedMacroUserFunction -> org.a.d.a.f: boolean isArity(int) -> a void evaluate(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.userfunctions.MacroUserFunction -> org.a.d.a.i: void evaluate(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a org.mathpiper.lisp.userfunctions.MultipleArityUserFunction -> org.a.d.a.a: java.util.ArrayList iFunctions -> a org.mathpiper.lisp.DefFile iFileToOpen -> a org.mathpiper.lisp.userfunctions.UserFunction userFunction(int) -> a void holdArgument(java.lang.String) -> a void defineRuleBase(org.mathpiper.lisp.userfunctions.SingleArityUserFunction) -> a void deleteBase(int) -> a org.mathpiper.lisp.userfunctions.SingleArityUserFunction -> org.a.d.a.c: int arity() -> a boolean isArity(int) -> a org.mathpiper.lisp.userfunctions.UserFunction -> org.a.d.a.g: boolean iFenced -> a boolean iTraced -> b void evaluate(org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a void holdArgument(java.lang.String) -> a void declareRule(int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> a void declareRule(int,org.mathpiper.lisp.ConsPointer) -> a void declarePattern(int,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer) -> b org.mathpiper.lisp.ConsPointer argList() -> a void unFence() -> a boolean fenced() -> a void traceOn() -> b void traceOff() -> c boolean isTraced() -> b org.mathpiper.parametermatchers.Atom -> org.a.c.a: java.lang.String iString -> a boolean argumentMatches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.parametermatchers.Number -> org.a.c.c: org.mathpiper.builtin.BigNumber iNumber -> a boolean argumentMatches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.parametermatchers.Parameter -> org.a.c.d: boolean argumentMatches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.parametermatchers.Pattern -> org.a.c.e: java.util.ArrayList iParamMatchers -> a java.util.ArrayList iVariables -> b java.util.ArrayList iPredicates -> c boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer) -> a boolean matches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.parametermatchers.Parameter makeParamMatcher(org.mathpiper.lisp.Environment,org.mathpiper.lisp.Cons) -> a int lookUp(java.lang.String) -> a void setPatternVariables(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer[]) -> a boolean checkPredicates(org.mathpiper.lisp.Environment) -> a org.mathpiper.parametermatchers.SubList -> org.a.c.b: org.mathpiper.parametermatchers.Parameter[] iMatchers -> a int iNrMatchers -> a boolean argumentMatches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.parametermatchers.Variable -> org.a.c.f: int iVarIndex -> a boolean argumentMatches(org.mathpiper.lisp.Environment,org.mathpiper.lisp.ConsPointer,org.mathpiper.lisp.ConsPointer[]) -> a org.mathpiper.printers.InfixPrinter -> org.a.f.a: int KMaxPrecedence -> a org.mathpiper.lisp.Operators iPrefixOperators -> a org.mathpiper.lisp.Operators iInfixOperators -> b org.mathpiper.lisp.Operators iPostfixOperators -> c org.mathpiper.lisp.Operators iBodiedOperators -> d char iPrevLastChar -> a org.mathpiper.lisp.Environment iCurrentEnvironment -> a void print(org.mathpiper.lisp.ConsPointer,org.mathpiper.io.MathPiperOutputStream,org.mathpiper.lisp.Environment) -> a void rememberLastChar(char) -> a void Print(org.mathpiper.lisp.ConsPointer,org.mathpiper.io.MathPiperOutputStream,int) -> a void WriteToken(org.mathpiper.io.MathPiperOutputStream,java.lang.String) -> a