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JFreeChart is a class library, written in Java, for generating charts. Utilising the Java2D APIs, it currently supports bar charts, pie charts, line charts, XY-plots and time series plots.

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/* ===========================================================
 * JFreeChart : a free chart library for the Java(tm) platform
 * ===========================================================
 *
 * (C) Copyright 2000-2014, by Object Refinery Limited and Contributors.
 *
 * Project Info:  http://www.jfree.org/jfreechart/index.html
 *
 * This library is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as published by
 * the Free Software Foundation; either version 2.1 of the License, or
 * (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
 * License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301,
 * USA.
 *
 * [Oracle and Java are registered trademarks of Oracle and/or its affiliates. 
 * Other names may be trademarks of their respective owners.]
 *
 * ----------------------------
 * XYBoxAndWhiskerRenderer.java
 * ----------------------------
 * (C) Copyright 2003-2014, by David Browning and Contributors.
 *
 * Original Author:  David Browning (for Australian Institute of Marine
 *                   Science);
 * Contributor(s):   David Gilbert (for Object Refinery Limited);
 *
 * Changes
 * -------
 * 05-Aug-2003 : Version 1, contributed by David Browning.  Based on code in the
 *               CandlestickRenderer class.  Additional modifications by David
 *               Gilbert to make the code work with 0.9.10 changes (DG);
 * 08-Aug-2003 : Updated some of the Javadoc
 *               Allowed BoxAndwhiskerDataset Average value to be null - the
 *               average value is an AIMS requirement
 *               Allow the outlier and farout coefficients to be set - though
 *               at the moment this only affects the calculation of farouts.
 *               Added artifactPaint variable and setter/getter
 * 12-Aug-2003   Rewrote code to sort out and process outliers to take
 *               advantage of changes in DefaultBoxAndWhiskerDataset
 *               Added a limit of 10% for width of box should no width be
 *               specified...maybe this should be setable???
 * 20-Aug-2003 : Implemented Cloneable and PublicCloneable (DG);
 * 08-Sep-2003 : Changed ValueAxis API (DG);
 * 16-Sep-2003 : Changed ChartRenderingInfo --> PlotRenderingInfo (DG);
 * 25-Feb-2004 : Replaced CrosshairInfo with CrosshairState (DG);
 * 23-Apr-2004 : Added fillBox attribute, extended equals() method and fixed
 *               serialization issue (DG);
 * 29-Apr-2004 : Fixed problem with drawing upper and lower shadows - bug id
 *               944011 (DG);
 * 15-Jul-2004 : Switched getX() with getXValue() and getY() with
 *               getYValue() (DG);
 * 01-Oct-2004 : Renamed 'paint' --> 'boxPaint' to avoid conflict with
 *               inherited attribute (DG);
 * 10-Jun-2005 : Updated equals() to handle GradientPaint (DG);
 * 06-Oct-2005 : Removed setPaint() call in drawItem(), it is causing a
 *               loop (DG);
 * ------------- JFREECHART 1.0.x ---------------------------------------------
 * 02-Feb-2007 : Removed author tags from all over JFreeChart sources (DG);
 * 05-Feb-2007 : Added event notifications and fixed drawing for horizontal
 *               plot orientation (DG);
 * 13-Jun-2007 : Replaced deprecated method call (DG);
 * 03-Jan-2008 : Check visibility of average marker before drawing it (DG);
 * 27-Mar-2008 : If boxPaint is null, revert to itemPaint (DG);
 * 27-Mar-2009 : Added findRangeBounds() method override (DG);
 * 08-Dec-2009 : Fix for bug 2909215, NullPointerException for null
 *               outliers (DG);
 *
 */

package org.jfree.chart.renderer.xy;

import java.awt.Color;
import java.awt.Graphics2D;
import java.awt.Paint;
import java.awt.Shape;
import java.awt.Stroke;
import java.awt.geom.Ellipse2D;
import java.awt.geom.Line2D;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;

import org.jfree.chart.axis.ValueAxis;
import org.jfree.chart.entity.EntityCollection;
import org.jfree.chart.event.RendererChangeEvent;
import org.jfree.chart.labels.BoxAndWhiskerXYToolTipGenerator;
import org.jfree.chart.plot.CrosshairState;
import org.jfree.chart.plot.PlotOrientation;
import org.jfree.chart.plot.PlotRenderingInfo;
import org.jfree.chart.plot.XYPlot;
import org.jfree.chart.renderer.Outlier;
import org.jfree.chart.renderer.OutlierList;
import org.jfree.chart.renderer.OutlierListCollection;
import org.jfree.chart.util.ParamChecks;
import org.jfree.data.Range;
import org.jfree.data.statistics.BoxAndWhiskerXYDataset;
import org.jfree.data.xy.XYDataset;
import org.jfree.io.SerialUtilities;
import org.jfree.ui.RectangleEdge;
import org.jfree.util.PaintUtilities;
import org.jfree.util.PublicCloneable;

/**
 * A renderer that draws box-and-whisker items on an {@link XYPlot}.  This
 * renderer requires a {@link BoxAndWhiskerXYDataset}).  The example shown here
 * is generated by the BoxAndWhiskerChartDemo2.java program
 * included in the JFreeChart demo collection:
 * 

* XYBoxAndWhiskerRendererSample.png *

* This renderer does not include any code to calculate the crosshair point. */ public class XYBoxAndWhiskerRenderer extends AbstractXYItemRenderer implements XYItemRenderer, Cloneable, PublicCloneable, Serializable { /** For serialization. */ private static final long serialVersionUID = -8020170108532232324L; /** The box width. */ private double boxWidth; /** The paint used to fill the box. */ private transient Paint boxPaint; /** A flag that controls whether or not the box is filled. */ private boolean fillBox; /** * The paint used to draw various artifacts such as outliers, farout * symbol, average ellipse and median line. */ private transient Paint artifactPaint = Color.black; /** * Creates a new renderer for box and whisker charts. */ public XYBoxAndWhiskerRenderer() { this(-1.0); } /** * Creates a new renderer for box and whisker charts. *

* Use -1 for the box width if you prefer the width to be calculated * automatically. * * @param boxWidth the box width. */ public XYBoxAndWhiskerRenderer(double boxWidth) { super(); this.boxWidth = boxWidth; this.boxPaint = Color.green; this.fillBox = true; setBaseToolTipGenerator(new BoxAndWhiskerXYToolTipGenerator()); } /** * Returns the width of each box. * * @return The box width. * * @see #setBoxWidth(double) */ public double getBoxWidth() { return this.boxWidth; } /** * Sets the box width and sends a {@link RendererChangeEvent} to all * registered listeners. *

* If you set the width to a negative value, the renderer will calculate * the box width automatically based on the space available on the chart. * * @param width the width. * * @see #getBoxWidth() */ public void setBoxWidth(double width) { if (width != this.boxWidth) { this.boxWidth = width; fireChangeEvent(); } } /** * Returns the paint used to fill boxes. * * @return The paint (possibly null). * * @see #setBoxPaint(Paint) */ public Paint getBoxPaint() { return this.boxPaint; } /** * Sets the paint used to fill boxes and sends a {@link RendererChangeEvent} * to all registered listeners. * * @param paint the paint (null permitted). * * @see #getBoxPaint() */ public void setBoxPaint(Paint paint) { this.boxPaint = paint; fireChangeEvent(); } /** * Returns the flag that controls whether or not the box is filled. * * @return A boolean. * * @see #setFillBox(boolean) */ public boolean getFillBox() { return this.fillBox; } /** * Sets the flag that controls whether or not the box is filled and sends a * {@link RendererChangeEvent} to all registered listeners. * * @param flag the flag. * * @see #setFillBox(boolean) */ public void setFillBox(boolean flag) { this.fillBox = flag; fireChangeEvent(); } /** * Returns the paint used to paint the various artifacts such as outliers, * farout symbol, median line and the averages ellipse. * * @return The paint (never null). * * @see #setArtifactPaint(Paint) */ public Paint getArtifactPaint() { return this.artifactPaint; } /** * Sets the paint used to paint the various artifacts such as outliers, * farout symbol, median line and the averages ellipse, and sends a * {@link RendererChangeEvent} to all registered listeners. * * @param paint the paint (null not permitted). * * @see #getArtifactPaint() */ public void setArtifactPaint(Paint paint) { ParamChecks.nullNotPermitted(paint, "paint"); this.artifactPaint = paint; fireChangeEvent(); } /** * Returns the range of values the renderer requires to display all the * items from the specified dataset. * * @param dataset the dataset (null permitted). * * @return The range (null if the dataset is null * or empty). * * @see #findDomainBounds(XYDataset) */ @Override public Range findRangeBounds(XYDataset dataset) { return findRangeBounds(dataset, true); } /** * Returns the box paint or, if this is null, the item * paint. * * @param series the series index. * @param item the item index. * * @return The paint used to fill the box for the specified item (never * null). * * @since 1.0.10 */ protected Paint lookupBoxPaint(int series, int item) { Paint p = getBoxPaint(); if (p != null) { return p; } else { // TODO: could change this to itemFillPaint(). For backwards // compatibility, it might require a useFillPaint flag. return getItemPaint(series, item); } } /** * Draws the visual representation of a single data item. * * @param g2 the graphics device. * @param state the renderer state. * @param dataArea the area within which the plot is being drawn. * @param info collects info about the drawing. * @param plot the plot (can be used to obtain standard color * information etc). * @param domainAxis the domain axis. * @param rangeAxis the range axis. * @param dataset the dataset (must be an instance of * {@link BoxAndWhiskerXYDataset}). * @param series the series index (zero-based). * @param item the item index (zero-based). * @param crosshairState crosshair information for the plot * (null permitted). * @param pass the pass index. */ @Override public void drawItem(Graphics2D g2, XYItemRendererState state, Rectangle2D dataArea, PlotRenderingInfo info, XYPlot plot, ValueAxis domainAxis, ValueAxis rangeAxis, XYDataset dataset, int series, int item, CrosshairState crosshairState, int pass) { PlotOrientation orientation = plot.getOrientation(); if (orientation == PlotOrientation.HORIZONTAL) { drawHorizontalItem(g2, dataArea, info, plot, domainAxis, rangeAxis, dataset, series, item, crosshairState, pass); } else if (orientation == PlotOrientation.VERTICAL) { drawVerticalItem(g2, dataArea, info, plot, domainAxis, rangeAxis, dataset, series, item, crosshairState, pass); } } /** * Draws the visual representation of a single data item. * * @param g2 the graphics device. * @param dataArea the area within which the plot is being drawn. * @param info collects info about the drawing. * @param plot the plot (can be used to obtain standard color * information etc). * @param domainAxis the domain axis. * @param rangeAxis the range axis. * @param dataset the dataset (must be an instance of * {@link BoxAndWhiskerXYDataset}). * @param series the series index (zero-based). * @param item the item index (zero-based). * @param crosshairState crosshair information for the plot * (null permitted). * @param pass the pass index. */ public void drawHorizontalItem(Graphics2D g2, Rectangle2D dataArea, PlotRenderingInfo info, XYPlot plot, ValueAxis domainAxis, ValueAxis rangeAxis, XYDataset dataset, int series, int item, CrosshairState crosshairState, int pass) { // setup for collecting optional entity info... EntityCollection entities = null; if (info != null) { entities = info.getOwner().getEntityCollection(); } BoxAndWhiskerXYDataset boxAndWhiskerData = (BoxAndWhiskerXYDataset) dataset; Number x = boxAndWhiskerData.getX(series, item); Number yMax = boxAndWhiskerData.getMaxRegularValue(series, item); Number yMin = boxAndWhiskerData.getMinRegularValue(series, item); Number yMedian = boxAndWhiskerData.getMedianValue(series, item); Number yAverage = boxAndWhiskerData.getMeanValue(series, item); Number yQ1Median = boxAndWhiskerData.getQ1Value(series, item); Number yQ3Median = boxAndWhiskerData.getQ3Value(series, item); double xx = domainAxis.valueToJava2D(x.doubleValue(), dataArea, plot.getDomainAxisEdge()); RectangleEdge location = plot.getRangeAxisEdge(); double yyMax = rangeAxis.valueToJava2D(yMax.doubleValue(), dataArea, location); double yyMin = rangeAxis.valueToJava2D(yMin.doubleValue(), dataArea, location); double yyMedian = rangeAxis.valueToJava2D(yMedian.doubleValue(), dataArea, location); double yyAverage = 0.0; if (yAverage != null) { yyAverage = rangeAxis.valueToJava2D(yAverage.doubleValue(), dataArea, location); } double yyQ1Median = rangeAxis.valueToJava2D(yQ1Median.doubleValue(), dataArea, location); double yyQ3Median = rangeAxis.valueToJava2D(yQ3Median.doubleValue(), dataArea, location); double exactBoxWidth = getBoxWidth(); double width = exactBoxWidth; double dataAreaX = dataArea.getHeight(); double maxBoxPercent = 0.1; double maxBoxWidth = dataAreaX * maxBoxPercent; if (exactBoxWidth <= 0.0) { int itemCount = boxAndWhiskerData.getItemCount(series); exactBoxWidth = dataAreaX / itemCount * 4.5 / 7; if (exactBoxWidth < 3) { width = 3; } else if (exactBoxWidth > maxBoxWidth) { width = maxBoxWidth; } else { width = exactBoxWidth; } } g2.setPaint(getItemPaint(series, item)); Stroke s = getItemStroke(series, item); g2.setStroke(s); // draw the upper shadow g2.draw(new Line2D.Double(yyMax, xx, yyQ3Median, xx)); g2.draw(new Line2D.Double(yyMax, xx - width / 2, yyMax, xx + width / 2)); // draw the lower shadow g2.draw(new Line2D.Double(yyMin, xx, yyQ1Median, xx)); g2.draw(new Line2D.Double(yyMin, xx - width / 2, yyMin, xx + width / 2)); // draw the body Shape box; if (yyQ1Median < yyQ3Median) { box = new Rectangle2D.Double(yyQ1Median, xx - width / 2, yyQ3Median - yyQ1Median, width); } else { box = new Rectangle2D.Double(yyQ3Median, xx - width / 2, yyQ1Median - yyQ3Median, width); } if (this.fillBox) { g2.setPaint(lookupBoxPaint(series, item)); g2.fill(box); } g2.setStroke(getItemOutlineStroke(series, item)); g2.setPaint(getItemOutlinePaint(series, item)); g2.draw(box); // draw median g2.setPaint(getArtifactPaint()); g2.draw(new Line2D.Double(yyMedian, xx - width / 2, yyMedian, xx + width / 2)); // draw average - SPECIAL AIMS REQUIREMENT if (yAverage != null) { double aRadius = width / 4; // here we check that the average marker will in fact be visible // before drawing it... if ((yyAverage > (dataArea.getMinX() - aRadius)) && (yyAverage < (dataArea.getMaxX() + aRadius))) { Ellipse2D.Double avgEllipse = new Ellipse2D.Double( yyAverage - aRadius, xx - aRadius, aRadius * 2, aRadius * 2); g2.fill(avgEllipse); g2.draw(avgEllipse); } } // FIXME: draw outliers // add an entity for the item... if (entities != null && box.intersects(dataArea)) { addEntity(entities, box, dataset, series, item, yyAverage, xx); } } /** * Draws the visual representation of a single data item. * * @param g2 the graphics device. * @param dataArea the area within which the plot is being drawn. * @param info collects info about the drawing. * @param plot the plot (can be used to obtain standard color * information etc). * @param domainAxis the domain axis. * @param rangeAxis the range axis. * @param dataset the dataset (must be an instance of * {@link BoxAndWhiskerXYDataset}). * @param series the series index (zero-based). * @param item the item index (zero-based). * @param crosshairState crosshair information for the plot * (null permitted). * @param pass the pass index. */ public void drawVerticalItem(Graphics2D g2, Rectangle2D dataArea, PlotRenderingInfo info, XYPlot plot, ValueAxis domainAxis, ValueAxis rangeAxis, XYDataset dataset, int series, int item, CrosshairState crosshairState, int pass) { // setup for collecting optional entity info... EntityCollection entities = null; if (info != null) { entities = info.getOwner().getEntityCollection(); } BoxAndWhiskerXYDataset boxAndWhiskerData = (BoxAndWhiskerXYDataset) dataset; Number x = boxAndWhiskerData.getX(series, item); Number yMax = boxAndWhiskerData.getMaxRegularValue(series, item); Number yMin = boxAndWhiskerData.getMinRegularValue(series, item); Number yMedian = boxAndWhiskerData.getMedianValue(series, item); Number yAverage = boxAndWhiskerData.getMeanValue(series, item); Number yQ1Median = boxAndWhiskerData.getQ1Value(series, item); Number yQ3Median = boxAndWhiskerData.getQ3Value(series, item); List yOutliers = boxAndWhiskerData.getOutliers(series, item); // yOutliers can be null, but we'd prefer it to be an empty list in // that case... if (yOutliers == null) { yOutliers = Collections.EMPTY_LIST; } double xx = domainAxis.valueToJava2D(x.doubleValue(), dataArea, plot.getDomainAxisEdge()); RectangleEdge location = plot.getRangeAxisEdge(); double yyMax = rangeAxis.valueToJava2D(yMax.doubleValue(), dataArea, location); double yyMin = rangeAxis.valueToJava2D(yMin.doubleValue(), dataArea, location); double yyMedian = rangeAxis.valueToJava2D(yMedian.doubleValue(), dataArea, location); double yyAverage = 0.0; if (yAverage != null) { yyAverage = rangeAxis.valueToJava2D(yAverage.doubleValue(), dataArea, location); } double yyQ1Median = rangeAxis.valueToJava2D(yQ1Median.doubleValue(), dataArea, location); double yyQ3Median = rangeAxis.valueToJava2D(yQ3Median.doubleValue(), dataArea, location); double yyOutlier; double exactBoxWidth = getBoxWidth(); double width = exactBoxWidth; double dataAreaX = dataArea.getMaxX() - dataArea.getMinX(); double maxBoxPercent = 0.1; double maxBoxWidth = dataAreaX * maxBoxPercent; if (exactBoxWidth <= 0.0) { int itemCount = boxAndWhiskerData.getItemCount(series); exactBoxWidth = dataAreaX / itemCount * 4.5 / 7; if (exactBoxWidth < 3) { width = 3; } else if (exactBoxWidth > maxBoxWidth) { width = maxBoxWidth; } else { width = exactBoxWidth; } } g2.setPaint(getItemPaint(series, item)); Stroke s = getItemStroke(series, item); g2.setStroke(s); // draw the upper shadow g2.draw(new Line2D.Double(xx, yyMax, xx, yyQ3Median)); g2.draw(new Line2D.Double(xx - width / 2, yyMax, xx + width / 2, yyMax)); // draw the lower shadow g2.draw(new Line2D.Double(xx, yyMin, xx, yyQ1Median)); g2.draw(new Line2D.Double(xx - width / 2, yyMin, xx + width / 2, yyMin)); // draw the body Shape box; if (yyQ1Median > yyQ3Median) { box = new Rectangle2D.Double(xx - width / 2, yyQ3Median, width, yyQ1Median - yyQ3Median); } else { box = new Rectangle2D.Double(xx - width / 2, yyQ1Median, width, yyQ3Median - yyQ1Median); } if (this.fillBox) { g2.setPaint(lookupBoxPaint(series, item)); g2.fill(box); } g2.setStroke(getItemOutlineStroke(series, item)); g2.setPaint(getItemOutlinePaint(series, item)); g2.draw(box); // draw median g2.setPaint(getArtifactPaint()); g2.draw(new Line2D.Double(xx - width / 2, yyMedian, xx + width / 2, yyMedian)); double aRadius = 0; // average radius double oRadius = width / 3; // outlier radius // draw average - SPECIAL AIMS REQUIREMENT if (yAverage != null) { aRadius = width / 4; // here we check that the average marker will in fact be visible // before drawing it... if ((yyAverage > (dataArea.getMinY() - aRadius)) && (yyAverage < (dataArea.getMaxY() + aRadius))) { Ellipse2D.Double avgEllipse = new Ellipse2D.Double(xx - aRadius, yyAverage - aRadius, aRadius * 2, aRadius * 2); g2.fill(avgEllipse); g2.draw(avgEllipse); } } List outliers = new ArrayList(); OutlierListCollection outlierListCollection = new OutlierListCollection(); /* From outlier array sort out which are outliers and put these into * an arraylist. If there are any farouts, set the flag on the * OutlierListCollection */ for (int i = 0; i < yOutliers.size(); i++) { double outlier = ((Number) yOutliers.get(i)).doubleValue(); if (outlier > boxAndWhiskerData.getMaxOutlier(series, item).doubleValue()) { outlierListCollection.setHighFarOut(true); } else if (outlier < boxAndWhiskerData.getMinOutlier(series, item).doubleValue()) { outlierListCollection.setLowFarOut(true); } else if (outlier > boxAndWhiskerData.getMaxRegularValue(series, item).doubleValue()) { yyOutlier = rangeAxis.valueToJava2D(outlier, dataArea, location); outliers.add(new Outlier(xx, yyOutlier, oRadius)); } else if (outlier < boxAndWhiskerData.getMinRegularValue(series, item).doubleValue()) { yyOutlier = rangeAxis.valueToJava2D(outlier, dataArea, location); outliers.add(new Outlier(xx, yyOutlier, oRadius)); } Collections.sort(outliers); } // Process outliers. Each outlier is either added to the appropriate // outlier list or a new outlier list is made for (Iterator iterator = outliers.iterator(); iterator.hasNext();) { Outlier outlier = (Outlier) iterator.next(); outlierListCollection.add(outlier); } // draw yOutliers double maxAxisValue = rangeAxis.valueToJava2D(rangeAxis.getUpperBound(), dataArea, location) + aRadius; double minAxisValue = rangeAxis.valueToJava2D(rangeAxis.getLowerBound(), dataArea, location) - aRadius; // draw outliers for (Iterator iterator = outlierListCollection.iterator(); iterator.hasNext();) { OutlierList list = (OutlierList) iterator.next(); Outlier outlier = list.getAveragedOutlier(); Point2D point = outlier.getPoint(); if (list.isMultiple()) { drawMultipleEllipse(point, width, oRadius, g2); } else { drawEllipse(point, oRadius, g2); } } // draw farout if (outlierListCollection.isHighFarOut()) { drawHighFarOut(aRadius, g2, xx, maxAxisValue); } if (outlierListCollection.isLowFarOut()) { drawLowFarOut(aRadius, g2, xx, minAxisValue); } // add an entity for the item... if (entities != null && box.intersects(dataArea)) { addEntity(entities, box, dataset, series, item, xx, yyAverage); } } /** * Draws an ellipse to represent an outlier. * * @param point the location. * @param oRadius the radius. * @param g2 the graphics device. */ protected void drawEllipse(Point2D point, double oRadius, Graphics2D g2) { Ellipse2D.Double dot = new Ellipse2D.Double(point.getX() + oRadius / 2, point.getY(), oRadius, oRadius); g2.draw(dot); } /** * Draws two ellipses to represent overlapping outliers. * * @param point the location. * @param boxWidth the box width. * @param oRadius the radius. * @param g2 the graphics device. */ protected void drawMultipleEllipse(Point2D point, double boxWidth, double oRadius, Graphics2D g2) { Ellipse2D.Double dot1 = new Ellipse2D.Double(point.getX() - (boxWidth / 2) + oRadius, point.getY(), oRadius, oRadius); Ellipse2D.Double dot2 = new Ellipse2D.Double(point.getX() + (boxWidth / 2), point.getY(), oRadius, oRadius); g2.draw(dot1); g2.draw(dot2); } /** * Draws a triangle to indicate the presence of far out values. * * @param aRadius the radius. * @param g2 the graphics device. * @param xx the x value. * @param m the max y value. */ protected void drawHighFarOut(double aRadius, Graphics2D g2, double xx, double m) { double side = aRadius * 2; g2.draw(new Line2D.Double(xx - side, m + side, xx + side, m + side)); g2.draw(new Line2D.Double(xx - side, m + side, xx, m)); g2.draw(new Line2D.Double(xx + side, m + side, xx, m)); } /** * Draws a triangle to indicate the presence of far out values. * * @param aRadius the radius. * @param g2 the graphics device. * @param xx the x value. * @param m the min y value. */ protected void drawLowFarOut(double aRadius, Graphics2D g2, double xx, double m) { double side = aRadius * 2; g2.draw(new Line2D.Double(xx - side, m - side, xx + side, m - side)); g2.draw(new Line2D.Double(xx - side, m - side, xx, m)); g2.draw(new Line2D.Double(xx + side, m - side, xx, m)); } /** * Tests this renderer for equality with another object. * * @param obj the object (null permitted). * * @return true or false. */ @Override public boolean equals(Object obj) { if (obj == this) { return true; } if (!(obj instanceof XYBoxAndWhiskerRenderer)) { return false; } if (!super.equals(obj)) { return false; } XYBoxAndWhiskerRenderer that = (XYBoxAndWhiskerRenderer) obj; if (this.boxWidth != that.getBoxWidth()) { return false; } if (!PaintUtilities.equal(this.boxPaint, that.boxPaint)) { return false; } if (!PaintUtilities.equal(this.artifactPaint, that.artifactPaint)) { return false; } if (this.fillBox != that.fillBox) { return false; } return true; } /** * Provides serialization support. * * @param stream the output stream. * * @throws IOException if there is an I/O error. */ private void writeObject(ObjectOutputStream stream) throws IOException { stream.defaultWriteObject(); SerialUtilities.writePaint(this.boxPaint, stream); SerialUtilities.writePaint(this.artifactPaint, stream); } /** * Provides serialization support. * * @param stream the input stream. * * @throws IOException if there is an I/O error. * @throws ClassNotFoundException if there is a classpath problem. */ private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { stream.defaultReadObject(); this.boxPaint = SerialUtilities.readPaint(stream); this.artifactPaint = SerialUtilities.readPaint(stream); } /** * Returns a clone of the renderer. * * @return A clone. * * @throws CloneNotSupportedException if the renderer cannot be cloned. */ @Override public Object clone() throws CloneNotSupportedException { return super.clone(); } }





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