/* ===========================================================
* JFreeChart : a free chart library for the Java(tm) platform
* ===========================================================
*
* (C) Copyright 2000-2005, 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.
*
* [Java is a trademark or registered trademark of Sun Microsystems, Inc.
* in the United States and other countries.]
*
* -----------------
* CategoryPlot.java
* -----------------
* (C) Copyright 2000-2005, by Object Refinery Limited and Contributors.
*
* Original Author: David Gilbert (for Object Refinery Limited);
* Contributor(s): Jeremy Bowman;
* Arnaud Lelievre;
*
* $Id: CategoryPlot.java,v 1.23.2.5 2005/10/25 20:52:07 mungady Exp $
*
* Changes (from 21-Jun-2001)
* --------------------------
* 21-Jun-2001 : Removed redundant JFreeChart parameter from constructors (DG);
* 21-Aug-2001 : Added standard header. Fixed DOS encoding problem (DG);
* 18-Sep-2001 : Updated header (DG);
* 15-Oct-2001 : Data source classes moved to com.jrefinery.data.* (DG);
* 22-Oct-2001 : Renamed DataSource.java --> Dataset.java etc. (DG);
* 23-Oct-2001 : Changed intro and trail gaps on bar plots to use percentage of
* available space rather than a fixed number of units (DG);
* 12-Dec-2001 : Changed constructors to protected (DG);
* 13-Dec-2001 : Added tooltips (DG);
* 16-Jan-2002 : Increased maximum intro and trail gap percents, plus added
* some argument checking code. Thanks to Taoufik Romdhane for
* suggesting this (DG);
* 05-Feb-2002 : Added accessor methods for the tooltip generator, incorporated
* alpha-transparency for Plot and subclasses (DG);
* 06-Mar-2002 : Updated import statements (DG);
* 14-Mar-2002 : Renamed BarPlot.java --> CategoryPlot.java, and changed code
* to use the CategoryItemRenderer interface (DG);
* 22-Mar-2002 : Dropped the getCategories() method (DG);
* 23-Apr-2002 : Moved the dataset from the JFreeChart class to the Plot
* class (DG);
* 29-Apr-2002 : New methods to support printing values at the end of bars,
* contributed by Jeremy Bowman (DG);
* 11-May-2002 : New methods for label visibility and overlaid plot support,
* contributed by Jeremy Bowman (DG);
* 06-Jun-2002 : Removed the tooltip generator, this is now stored with the
* renderer. Moved constants into the CategoryPlotConstants
* interface. Updated Javadoc comments (DG);
* 10-Jun-2002 : Overridden datasetChanged() method to update the upper and
* lower bound on the range axis (if necessary), updated
* Javadocs (DG);
* 25-Jun-2002 : Removed redundant imports (DG);
* 20-Aug-2002 : Changed the constructor for Marker (DG);
* 28-Aug-2002 : Added listener notification to setDomainAxis() and
* setRangeAxis() (DG);
* 23-Sep-2002 : Added getLegendItems() method and fixed errors reported by
* Checkstyle (DG);
* 28-Oct-2002 : Changes to the CategoryDataset interface (DG);
* 05-Nov-2002 : Base dataset is now TableDataset not CategoryDataset (DG);
* 07-Nov-2002 : Renamed labelXXX as valueLabelXXX (DG);
* 18-Nov-2002 : Added grid settings for both domain and range axis (previously
* these were set in the axes) (DG);
* 19-Nov-2002 : Added axis location parameters to constructor (DG);
* 17-Jan-2003 : Moved to com.jrefinery.chart.plot package (DG);
* 14-Feb-2003 : Fixed bug in auto-range calculation for secondary axis (DG);
* 26-Mar-2003 : Implemented Serializable (DG);
* 02-May-2003 : Moved render() method up from subclasses. Added secondary
* range markers. Added an attribute to control the dataset
* rendering order. Added a drawAnnotations() method. Changed
* the axis location from an int to an AxisLocation (DG);
* 07-May-2003 : Merged HorizontalCategoryPlot and VerticalCategoryPlot into
* this class (DG);
* 02-Jun-2003 : Removed check for range axis compatibility (DG);
* 04-Jul-2003 : Added a domain gridline position attribute (DG);
* 21-Jul-2003 : Moved DrawingSupplier to Plot superclass (DG);
* 19-Aug-2003 : Added equals() method and implemented Cloneable (DG);
* 01-Sep-2003 : Fixed bug 797466 (no change event when secondary dataset
* changes) (DG);
* 02-Sep-2003 : Fixed bug 795209 (wrong dataset checked in render2 method) and
* 790407 (initialise method) (DG);
* 08-Sep-2003 : Added internationalization via use of properties
* resourceBundle (RFE 690236) (AL);
* 08-Sep-2003 : Fixed bug (wrong secondary range axis being used). Changed
* ValueAxis API (DG);
* 10-Sep-2003 : Fixed bug in setRangeAxis() method (DG);
* 15-Sep-2003 : Fixed two bugs in serialization, implemented
* PublicCloneable (DG);
* 23-Oct-2003 : Added event notification for changes to renderer (DG);
* 26-Nov-2003 : Fixed bug (849645) in clearRangeMarkers() method (DG);
* 03-Dec-2003 : Modified draw method to accept anchor (DG);
* 21-Jan-2004 : Update for renamed method in ValueAxis (DG);
* 10-Mar-2004 : Fixed bug in axis range calculation when secondary renderer is
* stacked (DG);
* 12-May-2004 : Added fixed legend items (DG);
* 19-May-2004 : Added check for null legend item from renderer (DG);
* 02-Jun-2004 : Updated the DatasetRenderingOrder class (DG);
* 05-Nov-2004 : Renamed getDatasetsMappedToRangeAxis()
* --> datasetsMappedToRangeAxis(), and ensured that returned
* list doesn't contain null datasets (DG);
* 12-Nov-2004 : Implemented new Zoomable interface (DG);
* 07-Jan-2005 : Renamed getRangeExtent() --> findRangeBounds() in
* CategoryItemRenderer (DG);
* 04-May-2005 : Fixed serialization of range markers (DG);
* 05-May-2005 : Updated draw() method parameters (DG);
* 20-May-2005 : Added setDomainAxes() and setRangeAxes() methods, as per
* RFE 1183100 (DG);
* 01-Jun-2005 : Upon deserialization, register plot as a listener with its
* axes, dataset(s) and renderer(s) - see patch 1209475 (DG);
* 02-Jun-2005 : Added support for domain markers (DG);
* 06-Jun-2005 : Fixed equals() method for use with GradientPaint (DG);
* 09-Jun-2005 : Added setRenderers(), as per RFE 1183100 (DG);
* 16-Jun-2005 : Added getDomainAxisCount() and getRangeAxisCount() methods, to
* match XYPlot (see RFE 1220495) (DG);
*
*/
package org.jfree.chart.plot;
import java.awt.AlphaComposite;
import java.awt.BasicStroke;
import java.awt.Color;
import java.awt.Composite;
import java.awt.Font;
import java.awt.Graphics2D;
import java.awt.Paint;
import java.awt.Shape;
import java.awt.Stroke;
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.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.ResourceBundle;
import org.jfree.chart.LegendItem;
import org.jfree.chart.LegendItemCollection;
import org.jfree.chart.annotations.CategoryAnnotation;
import org.jfree.chart.axis.Axis;
import org.jfree.chart.axis.AxisCollection;
import org.jfree.chart.axis.AxisLocation;
import org.jfree.chart.axis.AxisSpace;
import org.jfree.chart.axis.AxisState;
import org.jfree.chart.axis.CategoryAnchor;
import org.jfree.chart.axis.CategoryAxis;
import org.jfree.chart.axis.ValueAxis;
import org.jfree.chart.axis.ValueTick;
import org.jfree.chart.event.ChartChangeEventType;
import org.jfree.chart.event.PlotChangeEvent;
import org.jfree.chart.event.RendererChangeEvent;
import org.jfree.chart.event.RendererChangeListener;
import org.jfree.chart.renderer.category.CategoryItemRenderer;
import org.jfree.chart.renderer.category.CategoryItemRendererState;
import org.jfree.data.Range;
import org.jfree.data.category.CategoryDataset;
import org.jfree.data.general.Dataset;
import org.jfree.data.general.DatasetChangeEvent;
import org.jfree.data.general.DatasetUtilities;
import org.jfree.io.SerialUtilities;
import org.jfree.ui.Layer;
import org.jfree.ui.RectangleEdge;
import org.jfree.ui.RectangleInsets;
import org.jfree.util.ObjectList;
import org.jfree.util.ObjectUtilities;
import org.jfree.util.PaintUtilities;
import org.jfree.util.PublicCloneable;
import org.jfree.util.SortOrder;
/**
* A general plotting class that uses data from a {@link CategoryDataset} and
* renders each data item using a {@link CategoryItemRenderer}.
*/
public class CategoryPlot extends Plot
implements ValueAxisPlot,
Zoomable,
RendererChangeListener,
Cloneable, PublicCloneable, Serializable {
/** For serialization. */
private static final long serialVersionUID = -3537691700434728188L;
/**
* The default visibility of the grid lines plotted against the domain
* axis.
*/
public static final boolean DEFAULT_DOMAIN_GRIDLINES_VISIBLE = false;
/**
* The default visibility of the grid lines plotted against the range
* axis.
*/
public static final boolean DEFAULT_RANGE_GRIDLINES_VISIBLE = true;
/** The default grid line stroke. */
public static final Stroke DEFAULT_GRIDLINE_STROKE = new BasicStroke(0.5f,
BasicStroke.CAP_BUTT,
BasicStroke.JOIN_BEVEL,
0.0f,
new float[] {2.0f, 2.0f},
0.0f);
/** The default grid line paint. */
public static final Paint DEFAULT_GRIDLINE_PAINT = Color.lightGray;
/** The default value label font. */
public static final Font DEFAULT_VALUE_LABEL_FONT
= new Font("SansSerif", Font.PLAIN, 10);
/** The resourceBundle for the localization. */
protected static ResourceBundle localizationResources
= ResourceBundle.getBundle("org.jfree.chart.plot.LocalizationBundle");
/** The plot orientation. */
private PlotOrientation orientation;
/** The offset between the data area and the axes. */
private RectangleInsets axisOffset;
/** Storage for the domain axes. */
private ObjectList domainAxes;
/** Storage for the domain axis locations. */
private ObjectList domainAxisLocations;
/**
* A flag that controls whether or not the shared domain axis is drawn
* (only relevant when the plot is being used as a subplot).
*/
private boolean drawSharedDomainAxis;
/** Storage for the range axes. */
private ObjectList rangeAxes;
/** Storage for the range axis locations. */
private ObjectList rangeAxisLocations;
/** Storage for the datasets. */
private ObjectList datasets;
/** Storage for keys that map datasets to domain axes. */
private ObjectList datasetToDomainAxisMap;
/** Storage for keys that map datasets to range axes. */
private ObjectList datasetToRangeAxisMap;
/** Storage for the renderers. */
private ObjectList renderers;
/** The dataset rendering order. */
private DatasetRenderingOrder renderingOrder
= DatasetRenderingOrder.REVERSE;
/**
* Controls the order in which the columns are traversed when rendering the
* data items.
*/
private SortOrder columnRenderingOrder = SortOrder.ASCENDING;
/**
* Controls the order in which the rows are traversed when rendering the
* data items.
*/
private SortOrder rowRenderingOrder = SortOrder.ASCENDING;
/**
* A flag that controls whether the grid-lines for the domain axis are
* visible.
*/
private boolean domainGridlinesVisible;
/** The position of the domain gridlines relative to the category. */
private CategoryAnchor domainGridlinePosition;
/** The stroke used to draw the domain grid-lines. */
private transient Stroke domainGridlineStroke;
/** The paint used to draw the domain grid-lines. */
private transient Paint domainGridlinePaint;
/**
* A flag that controls whether the grid-lines for the range axis are
* visible.
*/
private boolean rangeGridlinesVisible;
/** The stroke used to draw the range axis grid-lines. */
private transient Stroke rangeGridlineStroke;
/** The paint used to draw the range axis grid-lines. */
private transient Paint rangeGridlinePaint;
/** The anchor value. */
private double anchorValue;
/** A flag that controls whether or not a range crosshair is drawn..*/
private boolean rangeCrosshairVisible;
/** The range crosshair value. */
private double rangeCrosshairValue;
/** The pen/brush used to draw the crosshair (if any). */
private transient Stroke rangeCrosshairStroke;
/** The color used to draw the crosshair (if any). */
private transient Paint rangeCrosshairPaint;
/**
* A flag that controls whether or not the crosshair locks onto actual
* data points.
*/
private boolean rangeCrosshairLockedOnData = true;
/** A map containing lists of markers for the domain axes. */
private Map foregroundDomainMarkers;
/** A map containing lists of markers for the domain axes. */
private Map backgroundDomainMarkers;
/** A map containing lists of markers for the range axes. */
private Map foregroundRangeMarkers;
/** A map containing lists of markers for the range axes. */
private Map backgroundRangeMarkers;
/**
* A (possibly empty) list of annotations for the plot. The list should
* be initialised in the constructor and never allowed to be
* <code>null</code>.
*/
private List annotations;
/**
* The weight for the plot (only relevant when the plot is used as a subplot
* within a combined plot).
*/
private int weight;
/** The fixed space for the domain axis. */
private AxisSpace fixedDomainAxisSpace;
/** The fixed space for the range axis. */
private AxisSpace fixedRangeAxisSpace;
/**
* An optional collection of legend items that can be returned by the
* getLegendItems() method.
*/
private LegendItemCollection fixedLegendItems;
/**
* Default constructor.
*/
public CategoryPlot() {
this(null, null, null, null);
}
/**
* Creates a new plot.
*
* @param dataset the dataset (<code>null</code> permitted).
* @param domainAxis the domain axis (<code>null</code> permitted).
* @param rangeAxis the range axis (<code>null</code> permitted).
* @param renderer the item renderer (<code>null</code> permitted).
*
*/
public CategoryPlot(CategoryDataset dataset,
CategoryAxis domainAxis,
ValueAxis rangeAxis,
CategoryItemRenderer renderer) {
super();
this.orientation = PlotOrientation.VERTICAL;
// allocate storage for dataset, axes and renderers
this.domainAxes = new ObjectList();
this.domainAxisLocations = new ObjectList();
this.rangeAxes = new ObjectList();
this.rangeAxisLocations = new ObjectList();
this.datasetToDomainAxisMap = new ObjectList();
this.datasetToRangeAxisMap = new ObjectList();
this.renderers = new ObjectList();
this.datasets = new ObjectList();
this.datasets.set(0, dataset);
if (dataset != null) {
dataset.addChangeListener(this);
}
this.axisOffset = RectangleInsets.ZERO_INSETS;
setDomainAxisLocation(AxisLocation.BOTTOM_OR_LEFT, false);
setRangeAxisLocation(AxisLocation.TOP_OR_LEFT, false);
this.renderers.set(0, renderer);
if (renderer != null) {
renderer.setPlot(this);
renderer.addChangeListener(this);
}
this.domainAxes.set(0, domainAxis);
this.mapDatasetToDomainAxis(0, 0);
if (domainAxis != null) {
domainAxis.setPlot(this);
domainAxis.addChangeListener(this);
}
this.drawSharedDomainAxis = false;
this.rangeAxes.set(0, rangeAxis);
this.mapDatasetToRangeAxis(0, 0);
if (rangeAxis != null) {
rangeAxis.setPlot(this);
rangeAxis.addChangeListener(this);
}
configureDomainAxes();
configureRangeAxes();
this.domainGridlinesVisible = DEFAULT_DOMAIN_GRIDLINES_VISIBLE;
this.domainGridlinePosition = CategoryAnchor.MIDDLE;
this.domainGridlineStroke = DEFAULT_GRIDLINE_STROKE;
this.domainGridlinePaint = DEFAULT_GRIDLINE_PAINT;
this.rangeGridlinesVisible = DEFAULT_RANGE_GRIDLINES_VISIBLE;
this.rangeGridlineStroke = DEFAULT_GRIDLINE_STROKE;
this.rangeGridlinePaint = DEFAULT_GRIDLINE_PAINT;
this.foregroundDomainMarkers = new HashMap();
this.backgroundDomainMarkers = new HashMap();
this.foregroundRangeMarkers = new HashMap();
this.backgroundRangeMarkers = new HashMap();
Marker baseline = new ValueMarker(
0.0, new Color(0.8f, 0.8f, 0.8f, 0.5f), new BasicStroke(1.0f),
new Color(0.85f, 0.85f, 0.95f, 0.5f), new BasicStroke(1.0f), 0.6f
);
addRangeMarker(baseline, Layer.BACKGROUND);
this.anchorValue = 0.0;
this.annotations = new java.util.ArrayList();
}
/**
* Returns a string describing the type of plot.
*
* @return The type.
*/
public String getPlotType() {
return localizationResources.getString("Category_Plot");
}
/**
* Returns the orientation of the plot.
*
* @return The orientation of the plot.
*/
public PlotOrientation getOrientation() {
return this.orientation;
}
/**
* Sets the orientation for the plot and sends a {@link PlotChangeEvent} to
* all registered listeners.
*
* @param orientation the orientation (<code>null</code> not permitted).
*/
public void setOrientation(PlotOrientation orientation) {
if (orientation == null) {
throw new IllegalArgumentException("Null 'orientation' argument.");
}
this.orientation = orientation;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the axis offset.
*
* @return The axis offset (never <code>null</code>).
*/
public RectangleInsets getAxisOffset() {
return this.axisOffset;
}
/**
* Sets the axis offsets (gap between the data area and the axes).
*
* @param offset the offset (<code>null</code> not permitted).
*/
public void setAxisOffset(RectangleInsets offset) {
if (offset == null) {
throw new IllegalArgumentException("Null 'offset' argument.");
}
this.axisOffset = offset;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the domain axis for the plot. If the domain axis for this plot
* is <code>null</code>, then the method will return the parent plot's
* domain axis (if there is a parent plot).
*
* @return The domain axis (<code>null</code> permitted).
*/
public CategoryAxis getDomainAxis() {
return getDomainAxis(0);
}
/**
* Returns a domain axis.
*
* @param index the axis index.
*
* @return The axis (<code>null</code> possible).
*/
public CategoryAxis getDomainAxis(int index) {
CategoryAxis result = null;
if (index < this.domainAxes.size()) {
result = (CategoryAxis) this.domainAxes.get(index);
}
if (result == null) {
Plot parent = getParent();
if (parent instanceof CategoryPlot) {
CategoryPlot cp = (CategoryPlot) parent;
result = cp.getDomainAxis(index);
}
}
return result;
}
/**
* Sets the domain axis for the plot and sends a {@link PlotChangeEvent} to
* all registered listeners.
*
* @param axis the axis (<code>null</code> permitted).
*/
public void setDomainAxis(CategoryAxis axis) {
setDomainAxis(0, axis);
}
/**
* Sets a domain axis and sends a {@link PlotChangeEvent} to all
* registered listeners.
*
* @param index the axis index.
* @param axis the axis.
*/
public void setDomainAxis(int index, CategoryAxis axis) {
setDomainAxis(index, axis, true);
}
/**
* Sets a domain axis and, if requested, sends a {@link PlotChangeEvent} to
* all registered listeners.
*
* @param index the axis index.
* @param axis the axis.
* @param notify notify listeners?
*/
public void setDomainAxis(int index, CategoryAxis axis, boolean notify) {
CategoryAxis existing = (CategoryAxis) this.domainAxes.get(index);
if (existing != null) {
existing.removeChangeListener(this);
}
if (axis != null) {
axis.setPlot(this);
}
this.domainAxes.set(index, axis);
if (axis != null) {
axis.configure();
axis.addChangeListener(this);
}
if (notify) {
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Sets the domain axes for this plot and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param axes the axes.
*/
public void setDomainAxes(CategoryAxis[] axes) {
for (int i = 0; i < axes.length; i++) {
setDomainAxis(i, axes[i], false);
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the domain axis location.
*
* @return The location (never <code>null</code>).
*/
public AxisLocation getDomainAxisLocation() {
return getDomainAxisLocation(0);
}
/**
* Returns the location for a domain axis.
*
* @param index the axis index.
*
* @return The location.
*/
public AxisLocation getDomainAxisLocation(int index) {
AxisLocation result = null;
if (index < this.domainAxisLocations.size()) {
result = (AxisLocation) this.domainAxisLocations.get(index);
}
if (result == null) {
result = AxisLocation.getOpposite(getDomainAxisLocation(0));
}
return result;
}
/**
* Sets the location of the domain axis and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param location the axis location (<code>null</code> not permitted).
*/
public void setDomainAxisLocation(AxisLocation location) {
// defer argument checking...
setDomainAxisLocation(location, true);
}
/**
* Sets the location of the domain axis.
*
* @param location the axis location (<code>null</code> not permitted).
* @param notify a flag that controls whether listeners are notified.
*/
public void setDomainAxisLocation(AxisLocation location, boolean notify) {
if (location == null) {
throw new IllegalArgumentException("Null 'location' argument.");
}
setDomainAxisLocation(0, location);
}
/**
* Sets the location for a domain axis and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param index the axis index.
* @param location the location.
*/
public void setDomainAxisLocation(int index, AxisLocation location) {
// TODO: handle argument checking for primary axis location which
// should not be null
this.domainAxisLocations.set(index, location);
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the domain axis edge. This is derived from the axis location
* and the plot orientation.
*
* @return The edge (never <code>null</code>).
*/
public RectangleEdge getDomainAxisEdge() {
return getDomainAxisEdge(0);
}
/**
* Returns the edge for a domain axis.
*
* @param index the axis index.
*
* @return The edge (never <code>null</code>).
*/
public RectangleEdge getDomainAxisEdge(int index) {
RectangleEdge result = null;
AxisLocation location = getDomainAxisLocation(index);
if (location != null) {
result = Plot.resolveDomainAxisLocation(location, this.orientation);
}
else {
result = RectangleEdge.opposite(getDomainAxisEdge(0));
}
return result;
}
/**
* Returns the number of domain axes.
*
* @return The axis count.
*/
public int getDomainAxisCount() {
return this.domainAxes.size();
}
/**
* Clears the domain axes from the plot and sends a {@link PlotChangeEvent}
* to all registered listeners.
*/
public void clearDomainAxes() {
for (int i = 0; i < this.domainAxes.size(); i++) {
CategoryAxis axis = (CategoryAxis) this.domainAxes.get(i);
if (axis != null) {
axis.removeChangeListener(this);
}
}
this.domainAxes.clear();
notifyListeners(new PlotChangeEvent(this));
}
/**
* Configures the domain axes.
*/
public void configureDomainAxes() {
for (int i = 0; i < this.domainAxes.size(); i++) {
CategoryAxis axis = (CategoryAxis) this.domainAxes.get(i);
if (axis != null) {
axis.configure();
}
}
}
/**
* Returns the range axis for the plot. If the range axis for this plot is
* null, then the method will return the parent plot's range axis (if there
* is a parent plot).
*
* @return The range axis (possibly <code>null</code>).
*/
public ValueAxis getRangeAxis() {
return getRangeAxis(0);
}
/**
* Returns a range axis.
*
* @param index the axis index.
*
* @return The axis (<code>null</code> possible).
*/
public ValueAxis getRangeAxis(int index) {
ValueAxis result = null;
if (index < this.rangeAxes.size()) {
result = (ValueAxis) this.rangeAxes.get(index);
}
if (result == null) {
Plot parent = getParent();
if (parent instanceof CategoryPlot) {
CategoryPlot cp = (CategoryPlot) parent;
result = cp.getRangeAxis(index);
}
}
return result;
}
/**
* Sets the range axis for the plot and sends a {@link PlotChangeEvent} to
* all registered listeners.
*
* @param axis the axis (<code>null</code> permitted).
*/
public void setRangeAxis(ValueAxis axis) {
setRangeAxis(0, axis);
}
/**
* Sets a range axis and sends a {@link PlotChangeEvent} to all registered
* listeners.
*
* @param index the axis index.
* @param axis the axis.
*/
public void setRangeAxis(int index, ValueAxis axis) {
setRangeAxis(index, axis, true);
}
/**
* Sets a range axis and, if requested, sends a {@link PlotChangeEvent} to
* all registered listeners.
*
* @param index the axis index.
* @param axis the axis.
* @param notify notify listeners?
*/
public void setRangeAxis(int index, ValueAxis axis, boolean notify) {
ValueAxis existing = (ValueAxis) this.rangeAxes.get(index);
if (existing != null) {
existing.removeChangeListener(this);
}
if (axis != null) {
axis.setPlot(this);
}
this.rangeAxes.set(index, axis);
if (axis != null) {
axis.configure();
axis.addChangeListener(this);
}
if (notify) {
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Sets the range axes for this plot and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param axes the axes.
*/
public void setRangeAxes(ValueAxis[] axes) {
for (int i = 0; i < axes.length; i++) {
setRangeAxis(i, axes[i], false);
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the range axis location.
*
* @return The location (never <code>null</code>).
*/
public AxisLocation getRangeAxisLocation() {
return getRangeAxisLocation(0);
}
/**
* Returns the location for a range axis.
*
* @param index the axis index.
*
* @return The location.
*/
public AxisLocation getRangeAxisLocation(int index) {
AxisLocation result = null;
if (index < this.rangeAxisLocations.size()) {
result = (AxisLocation) this.rangeAxisLocations.get(index);
}
if (result == null) {
result = AxisLocation.getOpposite(getRangeAxisLocation(0));
}
return result;
}
/**
* Sets the location of the range axis and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param location the location (<code>null</code> not permitted).
*/
public void setRangeAxisLocation(AxisLocation location) {
// defer argument checking...
setRangeAxisLocation(location, true);
}
/**
* Sets the location of the range axis and, if requested, sends a
* {@link PlotChangeEvent} to all registered listeners.
*
* @param location the location (<code>null</code> not permitted).
* @param notify notify listeners?
*/
public void setRangeAxisLocation(AxisLocation location, boolean notify) {
setRangeAxisLocation(0, location, notify);
}
/**
* Sets the location for a range axis and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param index the axis index.
* @param location the location.
*/
public void setRangeAxisLocation(int index, AxisLocation location) {
setRangeAxisLocation(index, location, true);
}
/**
* Sets the location for a range axis and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param index the axis index.
* @param location the location.
* @param notify notify listeners?
*/
public void setRangeAxisLocation(int index, AxisLocation location,
boolean notify) {
// TODO: don't allow null for index = 0
this.rangeAxisLocations.set(index, location);
if (notify) {
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Returns the edge where the primary range axis is located.
*
* @return The edge (never <code>null</code>).
*/
public RectangleEdge getRangeAxisEdge() {
return getRangeAxisEdge(0);
}
/**
* Returns the edge for a range axis.
*
* @param index the axis index.
*
* @return The edge.
*/
public RectangleEdge getRangeAxisEdge(int index) {
AxisLocation location = getRangeAxisLocation(index);
RectangleEdge result = Plot.resolveRangeAxisLocation(
location, this.orientation
);
if (result == null) {
result = RectangleEdge.opposite(getRangeAxisEdge(0));
}
return result;
}
/**
* Returns the number of range axes.
*
* @return The axis count.
*/
public int getRangeAxisCount() {
return this.rangeAxes.size();
}
/**
* Clears the range axes from the plot and sends a {@link PlotChangeEvent}
* to all registered listeners.
*/
public void clearRangeAxes() {
for (int i = 0; i < this.rangeAxes.size(); i++) {
ValueAxis axis = (ValueAxis) this.rangeAxes.get(i);
if (axis != null) {
axis.removeChangeListener(this);
}
}
this.rangeAxes.clear();
notifyListeners(new PlotChangeEvent(this));
}
/**
* Configures the range axes.
*/
public void configureRangeAxes() {
for (int i = 0; i < this.rangeAxes.size(); i++) {
ValueAxis axis = (ValueAxis) this.rangeAxes.get(i);
if (axis != null) {
axis.configure();
}
}
}
/**
* Returns the primary dataset for the plot.
*
* @return The primary dataset (possibly <code>null</code>).
*/
public CategoryDataset getDataset() {
return getDataset(0);
}
/**
* Returns the dataset at the given index.
*
* @param index the dataset index.
*
* @return The dataset (possibly <code>null</code>).
*/
public CategoryDataset getDataset(int index) {
CategoryDataset result = null;
if (this.datasets.size() > index) {
result = (CategoryDataset) this.datasets.get(index);
}
return result;
}
/**
* Sets the dataset for the plot, replacing the existing dataset, if there
* is one. This method also calls the
* {@link #datasetChanged(DatasetChangeEvent)} method, which adjusts the
* axis ranges if necessary and sends a {@link PlotChangeEvent} to all
* registered listeners.
*
* @param dataset the dataset (<code>null</code> permitted).
*/
public void setDataset(CategoryDataset dataset) {
setDataset(0, dataset);
}
/**
* Sets a dataset for the plot.
*
* @param index the dataset index.
* @param dataset the dataset (<code>null</code> permitted).
*/
public void setDataset(int index, CategoryDataset dataset) {
CategoryDataset existing = (CategoryDataset) this.datasets.get(index);
if (existing != null) {
existing.removeChangeListener(this);
}
this.datasets.set(index, dataset);
if (dataset != null) {
dataset.addChangeListener(this);
}
// send a dataset change event to self...
DatasetChangeEvent event = new DatasetChangeEvent(this, dataset);
datasetChanged(event);
}
/**
* Maps a dataset to a particular domain axis.
*
* @param index the dataset index (zero-based).
* @param axisIndex the axis index (zero-based).
*/
public void mapDatasetToDomainAxis(int index, int axisIndex) {
this.datasetToDomainAxisMap.set(index, new Integer(axisIndex));
// fake a dataset change event to update axes...
datasetChanged(new DatasetChangeEvent(this, getDataset(index)));
}
/**
* Returns the domain axis for a dataset. You can change the axis for a
* dataset using the {@link #mapDatasetToDomainAxis(int, int)} method.
*
* @param index the dataset index.
*
* @return The domain axis.
*/
public CategoryAxis getDomainAxisForDataset(int index) {
CategoryAxis result = getDomainAxis();
Integer axisIndex = (Integer) this.datasetToDomainAxisMap.get(index);
if (axisIndex != null) {
result = getDomainAxis(axisIndex.intValue());
}
return result;
}
/**
* Maps a dataset to a particular range axis.
*
* @param index the dataset index (zero-based).
* @param axisIndex the axis index (zero-based).
*/
public void mapDatasetToRangeAxis(int index, int axisIndex) {
this.datasetToRangeAxisMap.set(index, new Integer(axisIndex));
// fake a dataset change event to update axes...
datasetChanged(new DatasetChangeEvent(this, getDataset(index)));
}
/**
* Returns the range axis for a dataset. You can change the axis for a
* dataset using the {@link #mapDatasetToRangeAxis(int, int)} method.
*
* @param index the dataset index.
*
* @return The range axis.
*/
public ValueAxis getRangeAxisForDataset(int index) {
ValueAxis result = getRangeAxis();
Integer axisIndex = (Integer) this.datasetToRangeAxisMap.get(index);
if (axisIndex != null) {
result = getRangeAxis(axisIndex.intValue());
}
return result;
}
/**
* Returns a reference to the renderer for the plot.
*
* @return The renderer.
*/
public CategoryItemRenderer getRenderer() {
return getRenderer(0);
}
/**
* Returns the renderer at the given index.
*
* @param index the renderer index.
*
* @return The renderer (possibly <code>null</code>).
*/
public CategoryItemRenderer getRenderer(int index) {
CategoryItemRenderer result = null;
if (this.renderers.size() > index) {
result = (CategoryItemRenderer) this.renderers.get(index);
}
return result;
}
/**
* Sets the renderer at index 0 (sometimes referred to as the "primary"
* renderer) and sends a {@link PlotChangeEvent} to all registered
* listeners.
*
* @param renderer the renderer (<code>null</code> permitted.
*/
public void setRenderer(CategoryItemRenderer renderer) {
setRenderer(0, renderer, true);
}
/**
* Sets the renderer at index 0 (sometimes referred to as the "primary"
* renderer) and, if requested, sends a {@link PlotChangeEvent} to all
* registered listeners.
* <p>
* You can set the renderer to <code>null</code>, but this is not
* recommended because:
* <ul>
* <li>no data will be displayed;</li>
* <li>the plot background will not be painted;</li>
* </ul>
*
* @param renderer the renderer (<code>null</code> permitted).
* @param notify notify listeners?
*/
public void setRenderer(CategoryItemRenderer renderer, boolean notify) {
setRenderer(0, renderer, notify);
}
/**
* Sets the renderer at the specified index and sends a
* {@link PlotChangeEvent} to all registered listeners.
*
* @param index the index.
* @param renderer the renderer (<code>null</code> permitted).
*/
public void setRenderer(int index, CategoryItemRenderer renderer) {
setRenderer(index, renderer, true);
}
/**
* Sets a renderer. A {@link PlotChangeEvent} is sent to all registered
* listeners.
*
* @param index the index.
* @param renderer the renderer (<code>null</code> permitted).
* @param notify notify listeners?
*/
public void setRenderer(int index, CategoryItemRenderer renderer,
boolean notify) {
// stop listening to the existing renderer...
CategoryItemRenderer existing
= (CategoryItemRenderer) this.renderers.get(index);
if (existing != null) {
existing.removeChangeListener(this);
}
// register the new renderer...
this.renderers.set(index, renderer);
if (renderer != null) {
renderer.setPlot(this);
renderer.addChangeListener(this);
}
configureDomainAxes();
configureRangeAxes();
if (notify) {
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Sets the renderers for this plot and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param renderers the renderers.
*/
public void setRenderers(CategoryItemRenderer[] renderers) {
for (int i = 0; i < renderers.length; i++) {
setRenderer(i, renderers[i], false);
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the renderer for the specified dataset. If the dataset doesn't
* belong to the plot, this method will return <code>null</code>.
*
* @param dataset the dataset (<code>null</code> permitted).
*
* @return The renderer (possibly <code>null</code>).
*/
public CategoryItemRenderer getRendererForDataset(CategoryDataset dataset) {
CategoryItemRenderer result = null;
for (int i = 0; i < this.datasets.size(); i++) {
if (this.datasets.get(i) == dataset) {
result = (CategoryItemRenderer) this.renderers.get(i);
break;
}
}
return result;
}
/**
* Returns the index of the specified renderer, or <code>-1</code> if the
* renderer is not assigned to this plot.
*
* @param renderer the renderer (<code>null</code> permitted).
*
* @return The renderer index.
*/
public int getIndexOf(CategoryItemRenderer renderer) {
return this.renderers.indexOf(renderer);
}
/**
* Returns the dataset rendering order.
*
* @return The order (never <code>null</code>).
*/
public DatasetRenderingOrder getDatasetRenderingOrder() {
return this.renderingOrder;
}
/**
* Sets the rendering order and sends a {@link PlotChangeEvent} to all
* registered listeners. By default, the plot renders the primary dataset
* last (so that the primary dataset overlays the secondary datasets). You
* can reverse this if you want to.
*
* @param order the rendering order (<code>null</code> not permitted).
*/
public void setDatasetRenderingOrder(DatasetRenderingOrder order) {
if (order == null) {
throw new IllegalArgumentException("Null 'order' argument.");
}
this.renderingOrder = order;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the order in which the columns are rendered.
*
* @return The order.
*/
public SortOrder getColumnRenderingOrder() {
return this.columnRenderingOrder;
}
/**
* Sets the order in which the columns should be rendered.
*
* @param order the order.
*/
public void setColumnRenderingOrder(SortOrder order) {
this.columnRenderingOrder = order;
}
/**
* Returns the order in which the rows should be rendered.
*
* @return The order (never <code>null</code>).
*/
public SortOrder getRowRenderingOrder() {
return this.rowRenderingOrder;
}
/**
* Sets the order in which the rows should be rendered.
*
* @param order the order (<code>null</code> not allowed).
*/
public void setRowRenderingOrder(SortOrder order) {
if (order == null) {
throw new IllegalArgumentException("Null 'order' argument.");
}
this.rowRenderingOrder = order;
}
/**
* Returns the flag that controls whether the domain grid-lines are visible.
*
* @return The <code>true</code> or <code>false</code>.
*/
public boolean isDomainGridlinesVisible() {
return this.domainGridlinesVisible;
}
/**
* Sets the flag that controls whether or not grid-lines are drawn against
* the domain axis.
* <p>
* If the flag value changes, a {@link PlotChangeEvent} is sent to all
* registered listeners.
*
* @param visible the new value of the flag.
*/
public void setDomainGridlinesVisible(boolean visible) {
if (this.domainGridlinesVisible != visible) {
this.domainGridlinesVisible = visible;
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Returns the position used for the domain gridlines.
*
* @return The gridline position.
*/
public CategoryAnchor getDomainGridlinePosition() {
return this.domainGridlinePosition;
}
/**
* Sets the position used for the domain gridlines.
*
* @param position the position.
*/
public void setDomainGridlinePosition(CategoryAnchor position) {
this.domainGridlinePosition = position;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the stroke used to draw grid-lines against the domain axis.
*
* @return The stroke.
*/
public Stroke getDomainGridlineStroke() {
return this.domainGridlineStroke;
}
/**
* Sets the stroke used to draw grid-lines against the domain axis. A
* {@link PlotChangeEvent} is sent to all registered listeners.
*
* @param stroke the stroke.
*/
public void setDomainGridlineStroke(Stroke stroke) {
this.domainGridlineStroke = stroke;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the paint used to draw grid-lines against the domain axis.
*
* @return The paint.
*/
public Paint getDomainGridlinePaint() {
return this.domainGridlinePaint;
}
/**
* Sets the paint used to draw the grid-lines (if any) against the domain
* axis. A {@link PlotChangeEvent} is sent to all registered listeners.
*
* @param paint the paint.
*/
public void setDomainGridlinePaint(Paint paint) {
this.domainGridlinePaint = paint;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the flag that controls whether the range grid-lines are visible.
*
* @return The flag.
*/
public boolean isRangeGridlinesVisible() {
return this.rangeGridlinesVisible;
}
/**
* Sets the flag that controls whether or not grid-lines are drawn against
* the range axis. If the flag changes value, a {@link PlotChangeEvent} is
* sent to all registered listeners.
*
* @param visible the new value of the flag.
*/
public void setRangeGridlinesVisible(boolean visible) {
if (this.rangeGridlinesVisible != visible) {
this.rangeGridlinesVisible = visible;
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Returns the stroke used to draw the grid-lines against the range axis.
*
* @return The stroke.
*/
public Stroke getRangeGridlineStroke() {
return this.rangeGridlineStroke;
}
/**
* Sets the stroke used to draw the grid-lines against the range axis.
* A {@link PlotChangeEvent} is sent to all registered listeners.
*
* @param stroke the stroke.
*/
public void setRangeGridlineStroke(Stroke stroke) {
this.rangeGridlineStroke = stroke;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the paint used to draw the grid-lines against the range axis.
*
* @return The paint.
*/
public Paint getRangeGridlinePaint() {
return this.rangeGridlinePaint;
}
/**
* Sets the paint used to draw the grid lines against the range axis.
* A {@link PlotChangeEvent} is sent to all registered listeners.
*
* @param paint the paint.
*/
public void setRangeGridlinePaint(Paint paint) {
this.rangeGridlinePaint = paint;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the fixed legend items, if any.
*
* @return The legend items (possibly <code>null</code>).
*/
public LegendItemCollection getFixedLegendItems() {
return this.fixedLegendItems;
}
/**
* Sets the fixed legend items for the plot. Leave this set to
* <code>null</code> if you prefer the legend items to be created
* automatically.
*
* @param items the legend items (<code>null</code> permitted).
*/
public void setFixedLegendItems(LegendItemCollection items) {
this.fixedLegendItems = items;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the legend items for the plot. By default, this method creates
* a legend item for each series in each of the datasets. You can change
* this behaviour by overriding this method.
*
* @return The legend items.
*/
public LegendItemCollection getLegendItems() {
LegendItemCollection result = this.fixedLegendItems;
if (result == null) {
result = new LegendItemCollection();
// get the legend items for the datasets...
int count = this.datasets.size();
for (int datasetIndex = 0; datasetIndex < count; datasetIndex++) {
CategoryDataset dataset = getDataset(datasetIndex);
if (dataset != null) {
CategoryItemRenderer renderer = getRenderer(datasetIndex);
if (renderer != null) {
int seriesCount = dataset.getRowCount();
for (int i = 0; i < seriesCount; i++) {
LegendItem item = renderer.getLegendItem(
datasetIndex, i
);
if (item != null) {
result.add(item);
}
}
}
}
}
}
return result;
}
/**
* Handles a 'click' on the plot by updating the anchor value.
*
* @param x x-coordinate of the click (in Java2D space).
* @param y y-coordinate of the click (in Java2D space).
* @param info information about the plot's dimensions.
*
*/
public void handleClick(int x, int y, PlotRenderingInfo info) {
Rectangle2D dataArea = info.getDataArea();
if (dataArea.contains(x, y)) {
// set the anchor value for the range axis...
double java2D = 0.0;
if (this.orientation == PlotOrientation.HORIZONTAL) {
java2D = x;
}
else if (this.orientation == PlotOrientation.VERTICAL) {
java2D = y;
}
RectangleEdge edge = Plot.resolveRangeAxisLocation(
getRangeAxisLocation(), this.orientation
);
double value = getRangeAxis().java2DToValue(
java2D, info.getDataArea(), edge
);
setAnchorValue(value);
setRangeCrosshairValue(value);
}
}
/**
* Zooms (in or out) on the plot's value axis.
* <p>
* If the value 0.0 is passed in as the zoom percent, the auto-range
* calculation for the axis is restored (which sets the range to include
* the minimum and maximum data values, thus displaying all the data).
*
* @param percent the zoom amount.
*/
public void zoom(double percent) {
if (percent > 0.0) {
double range = getRangeAxis().getRange().getLength();
double scaledRange = range * percent;
getRangeAxis().setRange(
this.anchorValue - scaledRange / 2.0,
this.anchorValue + scaledRange / 2.0
);
}
else {
getRangeAxis().setAutoRange(true);
}
}
/**
* Receives notification of a change to the plot's dataset.
* <P>
* The range axis bounds will be recalculated if necessary.
*
* @param event information about the event (not used here).
*/
public void datasetChanged(DatasetChangeEvent event) {
int count = this.rangeAxes.size();
for (int axisIndex = 0; axisIndex < count; axisIndex++) {
ValueAxis yAxis = getRangeAxis(axisIndex);
if (yAxis != null) {
yAxis.configure();
}
}
if (getParent() != null) {
getParent().datasetChanged(event);
}
else {
PlotChangeEvent e = new PlotChangeEvent(this);
e.setType(ChartChangeEventType.DATASET_UPDATED);
notifyListeners(e);
}
}
/**
* Receives notification of a renderer change event.
*
* @param event the event.
*/
public void rendererChanged(RendererChangeEvent event) {
Plot parent = getParent();
if (parent != null) {
if (parent instanceof RendererChangeListener) {
RendererChangeListener rcl = (RendererChangeListener) parent;
rcl.rendererChanged(event);
}
else {
// this should never happen with the existing code, but throw
// an exception in case future changes make it possible...
throw new RuntimeException(
"The renderer has changed and I don't know what to do!"
);
}
}
else {
PlotChangeEvent e = new PlotChangeEvent(this);
notifyListeners(e);
}
}
/**
* Adds a marker for display (in the foreground) against the domain axis and
* sends a {@link PlotChangeEvent} to all registered listeners. Typically a
* marker will be drawn by the renderer as a line perpendicular to the
* domain axis, however this is entirely up to the renderer.
*
* @param marker the marker (<code>null</code> not permitted).
*/
public void addDomainMarker(CategoryMarker marker) {
addDomainMarker(marker, Layer.FOREGROUND);
}
/**
* Adds a marker for display against the domain axis and sends a
* {@link PlotChangeEvent} to all registered listeners. Typically a marker
* will be drawn by the renderer as a line perpendicular to the domain axis,
* however this is entirely up to the renderer.
*
* @param marker the marker (<code>null</code> not permitted).
* @param layer the layer (foreground or background) (<code>null</code>
* not permitted).
*/
public void addDomainMarker(CategoryMarker marker, Layer layer) {
addDomainMarker(0, marker, layer);
}
/**
* Adds a marker for display by a particular renderer.
* <P>
* Typically a marker will be drawn by the renderer as a line perpendicular
* to a domain axis, however this is entirely up to the renderer.
*
* @param index the renderer index.
* @param marker the marker.
* @param layer the layer.
*/
public void addDomainMarker(int index, CategoryMarker marker, Layer layer) {
Collection markers;
if (layer == Layer.FOREGROUND) {
markers = (Collection) this.foregroundDomainMarkers.get(
new Integer(index)
);
if (markers == null) {
markers = new java.util.ArrayList();
this.foregroundDomainMarkers.put(new Integer(index), markers);
}
markers.add(marker);
}
else if (layer == Layer.BACKGROUND) {
markers = (Collection) this.backgroundDomainMarkers.get(
new Integer(index)
);
if (markers == null) {
markers = new java.util.ArrayList();
this.backgroundDomainMarkers.put(new Integer(index), markers);
}
markers.add(marker);
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Clears all the domain markers for the plot and sends a
* {@link PlotChangeEvent} to all registered listeners.
*/
public void clearDomainMarkers() {
if (this.backgroundDomainMarkers != null) {
this.backgroundDomainMarkers.clear();
}
if (this.foregroundDomainMarkers != null) {
this.foregroundDomainMarkers.clear();
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the list of domain markers (read only) for the specified layer.
*
* @param layer the layer (foreground or background).
*
* @return The list of domain markers.
*/
public Collection getDomainMarkers(Layer layer) {
return getDomainMarkers(0, layer);
}
/**
* Returns a collection of domain markers for a particular renderer and
* layer.
*
* @param index the renderer index.
* @param layer the layer.
*
* @return A collection of markers (possibly <code>null</code>).
*/
public Collection getDomainMarkers(int index, Layer layer) {
Collection result = null;
Integer key = new Integer(index);
if (layer == Layer.FOREGROUND) {
result = (Collection) this.foregroundDomainMarkers.get(key);
}
else if (layer == Layer.BACKGROUND) {
result = (Collection) this.backgroundDomainMarkers.get(key);
}
if (result != null) {
result = Collections.unmodifiableCollection(result);
}
return result;
}
/**
* Clears all the domain markers for the specified renderer.
*
* @param index the renderer index.
*/
public void clearDomainMarkers(int index) {
Integer key = new Integer(index);
if (this.backgroundDomainMarkers != null) {
Collection markers
= (Collection) this.backgroundDomainMarkers.get(key);
if (markers != null) {
markers.clear();
}
}
if (this.foregroundDomainMarkers != null) {
Collection markers
= (Collection) this.foregroundDomainMarkers.get(key);
if (markers != null) {
markers.clear();
}
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Adds a marker for display (in the foreground) against the range axis and
* sends a {@link PlotChangeEvent} to all registered listeners. Typically a
* marker will be drawn by the renderer as a line perpendicular to the
* range axis, however this is entirely up to the renderer.
*
* @param marker the marker (<code>null</code> not permitted).
*/
public void addRangeMarker(Marker marker) {
addRangeMarker(marker, Layer.FOREGROUND);
}
/**
* Adds a marker for display against the range axis and sends a
* {@link PlotChangeEvent} to all registered listeners. Typically a marker
* will be drawn by the renderer as a line perpendicular to the range axis,
* however this is entirely up to the renderer.
*
* @param marker the marker (<code>null</code> not permitted).
* @param layer the layer (foreground or background) (<code>null</code>
* not permitted).
*/
public void addRangeMarker(Marker marker, Layer layer) {
addRangeMarker(0, marker, layer);
}
/**
* Adds a marker for display by a particular renderer.
* <P>
* Typically a marker will be drawn by the renderer as a line perpendicular
* to a range axis, however this is entirely up to the renderer.
*
* @param index the renderer index.
* @param marker the marker.
* @param layer the layer.
*/
public void addRangeMarker(int index, Marker marker, Layer layer) {
Collection markers;
if (layer == Layer.FOREGROUND) {
markers = (Collection) this.foregroundRangeMarkers.get(
new Integer(index)
);
if (markers == null) {
markers = new java.util.ArrayList();
this.foregroundRangeMarkers.put(new Integer(index), markers);
}
markers.add(marker);
}
else if (layer == Layer.BACKGROUND) {
markers = (Collection) this.backgroundRangeMarkers.get(
new Integer(index)
);
if (markers == null) {
markers = new java.util.ArrayList();
this.backgroundRangeMarkers.put(new Integer(index), markers);
}
markers.add(marker);
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Clears all the range markers for the plot and sends a
* {@link PlotChangeEvent} to all registered listeners.
*/
public void clearRangeMarkers() {
if (this.backgroundRangeMarkers != null) {
this.backgroundRangeMarkers.clear();
}
if (this.foregroundRangeMarkers != null) {
this.foregroundRangeMarkers.clear();
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the list of range markers (read only) for the specified layer.
*
* @param layer the layer (foreground or background).
*
* @return The list of range markers.
*/
public Collection getRangeMarkers(Layer layer) {
return getRangeMarkers(0, layer);
}
/**
* Returns a collection of range markers for a particular renderer and
* layer.
*
* @param index the renderer index.
* @param layer the layer.
*
* @return A collection of markers (possibly <code>null</code>).
*/
public Collection getRangeMarkers(int index, Layer layer) {
Collection result = null;
Integer key = new Integer(index);
if (layer == Layer.FOREGROUND) {
result = (Collection) this.foregroundRangeMarkers.get(key);
}
else if (layer == Layer.BACKGROUND) {
result = (Collection) this.backgroundRangeMarkers.get(key);
}
if (result != null) {
result = Collections.unmodifiableCollection(result);
}
return result;
}
/**
* Clears all the range markers for the specified renderer.
*
* @param index the renderer index.
*/
public void clearRangeMarkers(int index) {
Integer key = new Integer(index);
if (this.backgroundRangeMarkers != null) {
Collection markers
= (Collection) this.backgroundRangeMarkers.get(key);
if (markers != null) {
markers.clear();
}
}
if (this.foregroundRangeMarkers != null) {
Collection markers
= (Collection) this.foregroundRangeMarkers.get(key);
if (markers != null) {
markers.clear();
}
}
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns a flag indicating whether or not the range crosshair is visible.
*
* @return The flag.
*/
public boolean isRangeCrosshairVisible() {
return this.rangeCrosshairVisible;
}
/**
* Sets the flag indicating whether or not the range crosshair is visible.
*
* @param flag the new value of the flag.
*/
public void setRangeCrosshairVisible(boolean flag) {
if (this.rangeCrosshairVisible != flag) {
this.rangeCrosshairVisible = flag;
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Returns a flag indicating whether or not the crosshair should "lock-on"
* to actual data values.
*
* @return The flag.
*/
public boolean isRangeCrosshairLockedOnData() {
return this.rangeCrosshairLockedOnData;
}
/**
* Sets the flag indicating whether or not the range crosshair should
* "lock-on" to actual data values.
*
* @param flag the flag.
*/
public void setRangeCrosshairLockedOnData(boolean flag) {
if (this.rangeCrosshairLockedOnData != flag) {
this.rangeCrosshairLockedOnData = flag;
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Returns the range crosshair value.
*
* @return The value.
*/
public double getRangeCrosshairValue() {
return this.rangeCrosshairValue;
}
/**
* Sets the domain crosshair value.
* <P>
* Registered listeners are notified that the plot has been modified, but
* only if the crosshair is visible.
*
* @param value the new value.
*/
public void setRangeCrosshairValue(double value) {
setRangeCrosshairValue(value, true);
}
/**
* Sets the range crosshair value.
* <P>
* Registered listeners are notified that the axis has been modified, but
* only if the crosshair is visible.
*
* @param value the new value.
* @param notify a flag that controls whether or not listeners are
* notified.
*/
public void setRangeCrosshairValue(double value, boolean notify) {
this.rangeCrosshairValue = value;
if (isRangeCrosshairVisible() && notify) {
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Returns the pen-style (<code>Stroke</code>) used to draw the crosshair
* (if visible).
*
* @return The crosshair stroke.
*/
public Stroke getRangeCrosshairStroke() {
return this.rangeCrosshairStroke;
}
/**
* Sets the pen-style (<code>Stroke</code>) used to draw the crosshairs
* (if visible). A {@link PlotChangeEvent} is sent to all registered
* listeners.
*
* @param stroke the new crosshair stroke.
*/
public void setRangeCrosshairStroke(Stroke stroke) {
this.rangeCrosshairStroke = stroke;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the range crosshair color.
*
* @return The crosshair color.
*/
public Paint getRangeCrosshairPaint() {
return this.rangeCrosshairPaint;
}
/**
* Sets the Paint used to color the crosshairs (if visible) and notifies
* registered listeners that the axis has been modified.
*
* @param paint the new crosshair paint.
*/
public void setRangeCrosshairPaint(Paint paint) {
this.rangeCrosshairPaint = paint;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns the list of annotations.
*
* @return The list of annotations.
*/
public List getAnnotations() {
return this.annotations;
}
/**
* Adds an annotation to the plot and sends a {@link PlotChangeEvent} to all
* registered listeners.
*
* @param annotation the annotation (<code>null</code> not permitted).
*/
public void addAnnotation(CategoryAnnotation annotation) {
if (annotation == null) {
throw new IllegalArgumentException("Null 'annotation' argument.");
}
this.annotations.add(annotation);
notifyListeners(new PlotChangeEvent(this));
}
/**
* Removes an annotation from the plot and sends a {@link PlotChangeEvent}
* to all registered listeners.
*
* @param annotation the annotation (<code>null</code> not permitted).
*
* @return A boolean (indicates whether or not the annotation was removed).
*/
public boolean removeAnnotation(CategoryAnnotation annotation) {
if (annotation == null) {
throw new IllegalArgumentException("Null 'annotation' argument.");
}
boolean removed = this.annotations.remove(annotation);
if (removed) {
notifyListeners(new PlotChangeEvent(this));
}
return removed;
}
/**
* Clears all the annotations and sends a {@link PlotChangeEvent} to all
* registered listeners.
*/
public void clearAnnotations() {
this.annotations.clear();
notifyListeners(new PlotChangeEvent(this));
}
/**
* Calculates the space required for the domain axis/axes.
*
* @param g2 the graphics device.
* @param plotArea the plot area.
* @param space a carrier for the result (<code>null</code> permitted).
*
* @return The required space.
*/
protected AxisSpace calculateDomainAxisSpace(Graphics2D g2,
Rectangle2D plotArea,
AxisSpace space) {
if (space == null) {
space = new AxisSpace();
}
// reserve some space for the domain axis...
if (this.fixedDomainAxisSpace != null) {
if (this.orientation == PlotOrientation.HORIZONTAL) {
space.ensureAtLeast(
this.fixedDomainAxisSpace.getLeft(), RectangleEdge.LEFT
);
space.ensureAtLeast(
this.fixedDomainAxisSpace.getRight(), RectangleEdge.RIGHT
);
}
else if (this.orientation == PlotOrientation.VERTICAL) {
space.ensureAtLeast(
this.fixedDomainAxisSpace.getTop(), RectangleEdge.TOP
);
space.ensureAtLeast(
this.fixedDomainAxisSpace.getBottom(), RectangleEdge.BOTTOM
);
}
}
else {
// reserve space for the primary domain axis...
RectangleEdge domainEdge = Plot.resolveDomainAxisLocation(
getDomainAxisLocation(), this.orientation
);
if (this.drawSharedDomainAxis) {
space = getDomainAxis().reserveSpace(
g2, this, plotArea, domainEdge, space
);
}
// reserve space for any domain axes...
for (int i = 0; i < this.domainAxes.size(); i++) {
Axis xAxis = (Axis) this.domainAxes.get(i);
if (xAxis != null) {
RectangleEdge edge = getDomainAxisEdge(i);
space = xAxis.reserveSpace(g2, this, plotArea, edge, space);
}
}
}
return space;
}
/**
* Calculates the space required for the range axis/axes.
*
* @param g2 the graphics device.
* @param plotArea the plot area.
* @param space a carrier for the result (<code>null</code> permitted).
*
* @return The required space.
*/
protected AxisSpace calculateRangeAxisSpace(Graphics2D g2,
Rectangle2D plotArea,
AxisSpace space) {
if (space == null) {
space = new AxisSpace();
}
// reserve some space for the range axis...
if (this.fixedRangeAxisSpace != null) {
if (this.orientation == PlotOrientation.HORIZONTAL) {
space.ensureAtLeast(
this.fixedRangeAxisSpace.getTop(), RectangleEdge.TOP
);
space.ensureAtLeast(
this.fixedRangeAxisSpace.getBottom(), RectangleEdge.BOTTOM
);
}
else if (this.orientation == PlotOrientation.VERTICAL) {
space.ensureAtLeast(
this.fixedRangeAxisSpace.getLeft(), RectangleEdge.LEFT
);
space.ensureAtLeast(
this.fixedRangeAxisSpace.getRight(), RectangleEdge.RIGHT
);
}
}
else {
// reserve space for the range axes (if any)...
for (int i = 0; i < this.rangeAxes.size(); i++) {
Axis yAxis = (Axis) this.rangeAxes.get(i);
if (yAxis != null) {
RectangleEdge edge = getRangeAxisEdge(i);
space = yAxis.reserveSpace(g2, this, plotArea, edge, space);
}
}
}
return space;
}
/**
* Calculates the space required for the axes.
*
* @param g2 the graphics device.
* @param plotArea the plot area.
*
* @return The space required for the axes.
*/
protected AxisSpace calculateAxisSpace(Graphics2D g2,
Rectangle2D plotArea) {
AxisSpace space = new AxisSpace();
space = calculateRangeAxisSpace(g2, plotArea, space);
space = calculateDomainAxisSpace(g2, plotArea, space);
return space;
}
/**
* Draws the plot on a Java 2D graphics device (such as the screen or a
* printer).
* <P>
* At your option, you may supply an instance of {@link PlotRenderingInfo}.
* If you do, it will be populated with information about the drawing,
* including various plot dimensions and tooltip info.
*
* @param g2 the graphics device.
* @param area the area within which the plot (including axes) should
* be drawn.
* @param anchor the anchor point (<code>null</code> permitted).
* @param parentState the state from the parent plot, if there is one.
* @param state collects info as the chart is drawn (possibly
* <code>null</code>).
*/
public void draw(Graphics2D g2, Rectangle2D area,
Point2D anchor,
PlotState parentState,
PlotRenderingInfo state) {
// if the plot area is too small, just return...
boolean b1 = (area.getWidth() <= MINIMUM_WIDTH_TO_DRAW);
boolean b2 = (area.getHeight() <= MINIMUM_HEIGHT_TO_DRAW);
if (b1 || b2) {
return;
}
// record the plot area...
if (state == null) {
// if the incoming state is null, no information will be passed
// back to the caller - but we create a temporary state to record
// the plot area, since that is used later by the axes
state = new PlotRenderingInfo(null);
}
state.setPlotArea(area);
// adjust the drawing area for the plot insets (if any)...
RectangleInsets insets = getInsets();
insets.trim(area);
// calculate the data area...
AxisSpace space = calculateAxisSpace(g2, area);
Rectangle2D dataArea = space.shrink(area, null);
this.axisOffset.trim(dataArea);
if (state != null) {
state.setDataArea(dataArea);
}
// if there is a renderer, it draws the background, otherwise use the
// default background...
if (getRenderer() != null) {
getRenderer().drawBackground(g2, this, dataArea);
}
else {
drawBackground(g2, dataArea);
}
Map axisStateMap = drawAxes(g2, area, dataArea, state);
drawDomainGridlines(g2, dataArea);
AxisState rangeAxisState = (AxisState) axisStateMap.get(getRangeAxis());
if (rangeAxisState == null) {
if (parentState != null) {
rangeAxisState
= (AxisState) parentState.getSharedAxisStates().get(
getRangeAxis()
);
}
}
if (rangeAxisState != null) {
drawRangeGridlines(g2, dataArea, rangeAxisState.getTicks());
}
// draw the markers...
for (int i = 0; i < this.renderers.size(); i++) {
drawDomainMarkers(g2, dataArea, i, Layer.BACKGROUND);
}
for (int i = 0; i < this.renderers.size(); i++) {
drawRangeMarkers(g2, dataArea, i, Layer.BACKGROUND);
}
// now render data items...
boolean foundData = false;
Shape savedClip = g2.getClip();
g2.clip(dataArea);
// set up the alpha-transparency...
Composite originalComposite = g2.getComposite();
g2.setComposite(AlphaComposite.getInstance(
AlphaComposite.SRC_OVER, getForegroundAlpha())
);
DatasetRenderingOrder order = getDatasetRenderingOrder();
if (order == DatasetRenderingOrder.FORWARD) {
for (int i = 0; i < this.datasets.size(); i++) {
foundData = render(g2, dataArea, i, state) || foundData;
}
}
else { // DatasetRenderingOrder.REVERSE
for (int i = this.datasets.size() - 1; i >= 0; i--) {
foundData = render(g2, dataArea, i, state) || foundData;
}
}
g2.setClip(savedClip);
g2.setComposite(originalComposite);
if (!foundData) {
drawNoDataMessage(g2, dataArea);
}
// draw vertical crosshair if required...
if (isRangeCrosshairVisible()) {
drawRangeLine(
g2, dataArea, getRangeCrosshairValue(),
getRangeCrosshairStroke(), getRangeCrosshairPaint()
);
}
// draw the foreground markers...
for (int i = 0; i < this.renderers.size(); i++) {
drawDomainMarkers(g2, dataArea, i, Layer.FOREGROUND);
}
for (int i = 0; i < this.renderers.size(); i++) {
drawRangeMarkers(g2, dataArea, i, Layer.FOREGROUND);
}
// draw the annotations (if any)...
drawAnnotations(g2, dataArea);
// draw an outline around the plot area...
if (getRenderer() != null) {
getRenderer().drawOutline(g2, this, dataArea);
}
else {
drawOutline(g2, dataArea);
}
}
/**
* A utility method for drawing the plot's axes.
*
* @param g2 the graphics device.
* @param plotArea the plot area.
* @param dataArea the data area.
* @param plotState collects information about the plot (<code>null</code>
* permitted).
*
* @return A map containing the axis states.
*/
protected Map drawAxes(Graphics2D g2,
Rectangle2D plotArea,
Rectangle2D dataArea,
PlotRenderingInfo plotState) {
AxisCollection axisCollection = new AxisCollection();
// add domain axes to lists...
for (int index = 0; index < this.domainAxes.size(); index++) {
CategoryAxis xAxis = (CategoryAxis) this.domainAxes.get(index);
if (xAxis != null) {
axisCollection.add(xAxis, getDomainAxisEdge(index));
}
}
// add range axes to lists...
for (int index = 0; index < this.rangeAxes.size(); index++) {
ValueAxis yAxis = (ValueAxis) this.rangeAxes.get(index);
if (yAxis != null) {
axisCollection.add(yAxis, getRangeAxisEdge(index));
}
}
Map axisStateMap = new HashMap();
// draw the top axes
double cursor = dataArea.getMinY() - this.axisOffset.calculateTopOutset(
dataArea.getHeight()
);
Iterator iterator = axisCollection.getAxesAtTop().iterator();
while (iterator.hasNext()) {
Axis axis = (Axis) iterator.next();
if (axis != null) {
AxisState axisState = axis.draw(
g2, cursor, plotArea, dataArea, RectangleEdge.TOP, plotState
);
cursor = axisState.getCursor();
axisStateMap.put(axis, axisState);
}
}
// draw the bottom axes
cursor = dataArea.getMaxY()
+ this.axisOffset.calculateBottomOutset(dataArea.getHeight());
iterator = axisCollection.getAxesAtBottom().iterator();
while (iterator.hasNext()) {
Axis axis = (Axis) iterator.next();
if (axis != null) {
AxisState axisState = axis.draw(
g2, cursor, plotArea, dataArea, RectangleEdge.BOTTOM,
plotState
);
cursor = axisState.getCursor();
axisStateMap.put(axis, axisState);
}
}
// draw the left axes
cursor = dataArea.getMinX()
- this.axisOffset.calculateLeftOutset(dataArea.getWidth());
iterator = axisCollection.getAxesAtLeft().iterator();
while (iterator.hasNext()) {
Axis axis = (Axis) iterator.next();
if (axis != null) {
AxisState axisState = axis.draw(
g2, cursor, plotArea, dataArea, RectangleEdge.LEFT,
plotState
);
cursor = axisState.getCursor();
axisStateMap.put(axis, axisState);
}
}
// draw the right axes
cursor = dataArea.getMaxX()
+ this.axisOffset.calculateRightOutset(dataArea.getWidth());
iterator = axisCollection.getAxesAtRight().iterator();
while (iterator.hasNext()) {
Axis axis = (Axis) iterator.next();
if (axis != null) {
AxisState axisState = axis.draw(
g2, cursor, plotArea, dataArea, RectangleEdge.RIGHT,
plotState
);
cursor = axisState.getCursor();
axisStateMap.put(axis, axisState);
}
}
return axisStateMap;
}
/**
* Draws a representation of a dataset within the dataArea region using the
* appropriate renderer.
*
* @param g2 the graphics device.
* @param dataArea the region in which the data is to be drawn.
* @param index the dataset and renderer index.
* @param info an optional object for collection dimension information.
*
* @return A boolean that indicates whether or not real data was found.
*/
public boolean render(Graphics2D g2, Rectangle2D dataArea, int index,
PlotRenderingInfo info) {
boolean foundData = false;
CategoryDataset currentDataset = getDataset(index);
CategoryItemRenderer renderer = getRenderer(index);
CategoryAxis domainAxis = getDomainAxisForDataset(index);
ValueAxis rangeAxis = getRangeAxisForDataset(index);
boolean hasData = !DatasetUtilities.isEmptyOrNull(currentDataset);
if (hasData && renderer != null) {
foundData = true;
CategoryItemRendererState state = renderer.initialise(
g2, dataArea, this, index, info
);
int columnCount = currentDataset.getColumnCount();
int rowCount = currentDataset.getRowCount();
int passCount = renderer.getPassCount();
for (int pass = 0; pass < passCount; pass++) {
if (this.columnRenderingOrder == SortOrder.ASCENDING) {
for (int column = 0; column < columnCount; column++) {
if (this.rowRenderingOrder == SortOrder.ASCENDING) {
for (int row = 0; row < rowCount; row++) {
renderer.drawItem(
g2, state, dataArea, this, domainAxis,
rangeAxis, currentDataset, row, column, pass
);
}
}
else {
for (int row = rowCount - 1; row >= 0; row--) {
renderer.drawItem(
g2, state, dataArea, this, domainAxis,
rangeAxis, currentDataset, row, column, pass
);
}
}
}
}
else {
for (int column = columnCount - 1; column >= 0; column--) {
if (this.rowRenderingOrder == SortOrder.ASCENDING) {
for (int row = 0; row < rowCount; row++) {
renderer.drawItem(
g2, state, dataArea, this, domainAxis,
rangeAxis, currentDataset, row, column, pass
);
}
}
else {
for (int row = rowCount - 1; row >= 0; row--) {
renderer.drawItem(
g2, state, dataArea, this, domainAxis,
rangeAxis, currentDataset, row, column, pass
);
}
}
}
}
}
}
return foundData;
}
/**
* Draws the gridlines for the plot.
*
* @param g2 the graphics device.
* @param dataArea the area inside the axes.
*/
protected void drawDomainGridlines(Graphics2D g2, Rectangle2D dataArea) {
// draw the domain grid lines, if any...
if (isDomainGridlinesVisible()) {
CategoryAnchor anchor = getDomainGridlinePosition();
RectangleEdge domainAxisEdge = getDomainAxisEdge();
Stroke gridStroke = getDomainGridlineStroke();
Paint gridPaint = getDomainGridlinePaint();
if ((gridStroke != null) && (gridPaint != null)) {
// iterate over the categories
CategoryDataset data = getDataset();
if (data != null) {
CategoryAxis axis = getDomainAxis();
if (axis != null) {
int columnCount = data.getColumnCount();
for (int c = 0; c < columnCount; c++) {
double xx = axis.getCategoryJava2DCoordinate(
anchor, c, columnCount, dataArea, domainAxisEdge
);
CategoryItemRenderer renderer1 = getRenderer();
if (renderer1 != null) {
renderer1.drawDomainGridline(
g2, this, dataArea, xx
);
}
}
}
}
}
}
}
/**
* Draws the gridlines for the plot.
*
* @param g2 the graphics device.
* @param dataArea the area inside the axes.
* @param ticks the ticks.
*/
protected void drawRangeGridlines(Graphics2D g2, Rectangle2D dataArea,
List ticks) {
// draw the range grid lines, if any...
if (isRangeGridlinesVisible()) {
Stroke gridStroke = getRangeGridlineStroke();
Paint gridPaint = getRangeGridlinePaint();
if ((gridStroke != null) && (gridPaint != null)) {
ValueAxis axis = getRangeAxis();
if (axis != null) {
Iterator iterator = ticks.iterator();
while (iterator.hasNext()) {
ValueTick tick = (ValueTick) iterator.next();
CategoryItemRenderer renderer1 = getRenderer();
if (renderer1 != null) {
renderer1.drawRangeGridline(
g2, this, getRangeAxis(), dataArea,
tick.getValue()
);
}
}
}
}
}
}
/**
* Draws the annotations...
*
* @param g2 the graphics device.
* @param dataArea the data area.
*/
protected void drawAnnotations(Graphics2D g2, Rectangle2D dataArea) {
if (getAnnotations() != null) {
Iterator iterator = getAnnotations().iterator();
while (iterator.hasNext()) {
CategoryAnnotation annotation
= (CategoryAnnotation) iterator.next();
annotation.draw(
g2, this, dataArea, getDomainAxis(), getRangeAxis()
);
}
}
}
/**
* Draws the domain markers (if any) for an axis and layer. This method is
* typically called from within the draw() method.
*
* @param g2 the graphics device.
* @param dataArea the data area.
* @param index the renderer index.
* @param layer the layer (foreground or background).
*/
protected void drawDomainMarkers(Graphics2D g2, Rectangle2D dataArea,
int index, Layer layer) {
CategoryItemRenderer r = getRenderer(index);
if (r == null) {
return;
}
Collection markers = getDomainMarkers(index, layer);
CategoryAxis axis = getDomainAxisForDataset(index);
if (markers != null && axis != null) {
Iterator iterator = markers.iterator();
while (iterator.hasNext()) {
CategoryMarker marker = (CategoryMarker) iterator.next();
r.drawDomainMarker(g2, this, axis, marker, dataArea);
}
}
}
/**
* Draws the range markers (if any) for an axis and layer. This method is
* typically called from within the draw() method.
*
* @param g2 the graphics device.
* @param dataArea the data area.
* @param index the renderer index.
* @param layer the layer (foreground or background).
*/
protected void drawRangeMarkers(Graphics2D g2, Rectangle2D dataArea,
int index, Layer layer) {
CategoryItemRenderer r = getRenderer(index);
if (r == null) {
return;
}
Collection markers = getRangeMarkers(index, layer);
ValueAxis axis = getRangeAxisForDataset(index);
if (markers != null && axis != null) {
Iterator iterator = markers.iterator();
while (iterator.hasNext()) {
Marker marker = (Marker) iterator.next();
r.drawRangeMarker(g2, this, axis, marker, dataArea);
}
}
}
/**
* Utility method for drawing a line perpendicular to the range axis (used
* for crosshairs).
*
* @param g2 the graphics device.
* @param dataArea the area defined by the axes.
* @param value the data value.
* @param stroke the line stroke.
* @param paint the line paint.
*/
protected void drawRangeLine(Graphics2D g2,
Rectangle2D dataArea,
double value, Stroke stroke, Paint paint) {
double java2D = getRangeAxis().valueToJava2D(
value, dataArea, getRangeAxisEdge()
);
Line2D line = null;
if (this.orientation == PlotOrientation.HORIZONTAL) {
line = new Line2D.Double(
java2D, dataArea.getMinY(), java2D, dataArea.getMaxY()
);
}
else if (this.orientation == PlotOrientation.VERTICAL) {
line = new Line2D.Double(
dataArea.getMinX(), java2D, dataArea.getMaxX(), java2D
);
}
g2.setStroke(stroke);
g2.setPaint(paint);
g2.draw(line);
}
/**
* Returns the range of data values that will be plotted against the range
* axis. If the dataset is <code>null</code>, this method returns
* <code>null</code>.
*
* @param axis the axis.
*
* @return The data range.
*/
public Range getDataRange(ValueAxis axis) {
Range result = null;
List mappedDatasets = new ArrayList();
int rangeIndex = this.rangeAxes.indexOf(axis);
if (rangeIndex >= 0) {
mappedDatasets.addAll(datasetsMappedToRangeAxis(rangeIndex));
}
else if (axis == getRangeAxis()) {
mappedDatasets.addAll(datasetsMappedToRangeAxis(0));
}
// iterate through the datasets that map to the axis and get the union
// of the ranges.
Iterator iterator = mappedDatasets.iterator();
while (iterator.hasNext()) {
CategoryDataset d = (CategoryDataset) iterator.next();
CategoryItemRenderer r = getRendererForDataset(d);
if (r != null) {
result = Range.combine(result, r.findRangeBounds(d));
}
}
return result;
}
/**
* A utility method that returns a list of datasets that are mapped to a
* given range axis.
*
* @param index the axis index.
*
* @return A list of datasets.
*/
private List datasetsMappedToRangeAxis(int index) {
List result = new ArrayList();
for (int i = 0; i < this.datasets.size(); i++) {
Object dataset = this.datasets.get(i);
if (dataset != null) {
Integer m = (Integer) this.datasetToRangeAxisMap.get(i);
if (m == null) { // a dataset with no mapping is assigned to
// axis 0
if (index == 0) {
result.add(dataset);
}
}
else {
if (m.intValue() == index) {
result.add(dataset);
}
}
}
}
return result;
}
/**
* Returns the weight for this plot when it is used as a subplot within a
* combined plot.
*
* @return The weight.
*/
public int getWeight() {
return this.weight;
}
/**
* Sets the weight for the plot.
*
* @param weight the weight.
*/
public void setWeight(int weight) {
this.weight = weight;
}
/**
* Returns the fixed domain axis space.
*
* @return The fixed domain axis space (possibly <code>null</code>).
*/
public AxisSpace getFixedDomainAxisSpace() {
return this.fixedDomainAxisSpace;
}
/**
* Sets the fixed domain axis space.
*
* @param space the space (<code>null</code> permitted).
*/
public void setFixedDomainAxisSpace(AxisSpace space) {
this.fixedDomainAxisSpace = space;
}
/**
* Returns the fixed range axis space.
*
* @return The fixed range axis space (possibly <code>null</code>).
*/
public AxisSpace getFixedRangeAxisSpace() {
return this.fixedRangeAxisSpace;
}
/**
* Sets the fixed range axis space.
*
* @param space the space (<code>null</code> permitted).
*/
public void setFixedRangeAxisSpace(AxisSpace space) {
this.fixedRangeAxisSpace = space;
}
/**
* Returns a list of the categories for the plot.
*
* @return A list of the categories for the plot.
*/
public List getCategories() {
List result = null;
if (getDataset() != null) {
result = Collections.unmodifiableList(getDataset().getColumnKeys());
}
return result;
}
/**
* Returns the flag that controls whether or not the shared domain axis is
* drawn for each subplot.
*
* @return A boolean.
*/
public boolean getDrawSharedDomainAxis() {
return this.drawSharedDomainAxis;
}
/**
* Sets the flag that controls whether the shared domain axis is drawn when
* this plot is being used as a subplot.
*
* @param draw a boolean.
*/
public void setDrawSharedDomainAxis(boolean draw) {
this.drawSharedDomainAxis = draw;
notifyListeners(new PlotChangeEvent(this));
}
/**
* Returns <code>false</code>.
*
* @return A boolean.
*/
public boolean isDomainZoomable() {
return false;
}
/**
* Returns <code>false</code>.
*
* @return A boolean.
*/
public boolean isRangeZoomable() {
return true;
}
/**
* This method does nothing, because <code>CategoryPlot</code> doesn't
* support zooming on the domain.
*
* @param factor the zoom factor.
* @param state the plot state.
* @param source the source point (in Java2D space) for the zoom.
*/
public void zoomDomainAxes(double factor, PlotRenderingInfo state,
Point2D source) {
// can't zoom domain axis
}
/**
* This method does nothing, because <code>CategoryPlot</code> doesn't
* support zooming on the domain.
*
* @param lowerPercent the lower bound.
* @param upperPercent the upper bound.
* @param state the plot state.
* @param source the source point (in Java2D space) for the zoom.
*/
public void zoomDomainAxes(double lowerPercent, double upperPercent,
PlotRenderingInfo state, Point2D source) {
// can't zoom domain axis
}
/**
* Multiplies the range on the range axis/axes by the specified factor.
*
* @param factor the zoom factor.
* @param state the plot state.
* @param source the source point (in Java2D space) for the zoom.
*/
public void zoomRangeAxes(double factor, PlotRenderingInfo state,
Point2D source) {
for (int i = 0; i < this.rangeAxes.size(); i++) {
ValueAxis rangeAxis = (ValueAxis) this.rangeAxes.get(i);
if (rangeAxis != null) {
rangeAxis.resizeRange(factor);
}
}
}
/**
* Zooms in on the range axes.
*
* @param lowerPercent the lower bound.
* @param upperPercent the upper bound.
* @param state the plot state.
* @param source the source point (in Java2D space) for the zoom.
*/
public void zoomRangeAxes(double lowerPercent, double upperPercent,
PlotRenderingInfo state, Point2D source) {
for (int i = 0; i < this.rangeAxes.size(); i++) {
ValueAxis rangeAxis = (ValueAxis) this.rangeAxes.get(i);
if (rangeAxis != null) {
rangeAxis.zoomRange(lowerPercent, upperPercent);
}
}
}
/**
* Returns the anchor value.
*
* @return The anchor value.
*/
public double getAnchorValue() {
return this.anchorValue;
}
/**
* Sets the anchor value.
*
* @param value the anchor value.
*/
public void setAnchorValue(double value) {
setAnchorValue(value, true);
}
/**
* Sets the anchor value.
*
* @param value the value.
* @param notify notify listeners?
*/
public void setAnchorValue(double value, boolean notify) {
this.anchorValue = value;
if (notify) {
notifyListeners(new PlotChangeEvent(this));
}
}
/**
* Tests the plot for equality with an arbitrary object.
*
* @param obj the object to test against (<code>null</code> permitted).
*
* @return A boolean.
*/
public boolean equals(Object obj) {
if (obj == this) {
return true;
}
if (!(obj instanceof CategoryPlot)) {
return false;
}
if (!super.equals(obj)) {
return false;
}
CategoryPlot that = (CategoryPlot) obj;
if (this.orientation != that.orientation) {
return false;
}
if (!ObjectUtilities.equal(this.axisOffset, that.axisOffset)) {
return false;
}
if (!this.domainAxes.equals(that.domainAxes)) {
return false;
}
if (!this.domainAxisLocations.equals(that.domainAxisLocations)) {
return false;
}
if (this.drawSharedDomainAxis != that.drawSharedDomainAxis) {
return false;
}
if (!this.rangeAxes.equals(that.rangeAxes)) {
return false;
}
if (!this.rangeAxisLocations.equals(that.rangeAxisLocations)) {
return false;
}
if (!ObjectUtilities.equal(
this.datasetToDomainAxisMap, that.datasetToDomainAxisMap
)) {
return false;
}
if (!ObjectUtilities.equal(
this.datasetToRangeAxisMap, that.datasetToRangeAxisMap
)) {
return false;
}
if (!ObjectUtilities.equal(this.renderers, that.renderers)) {
return false;
}
if (this.renderingOrder != that.renderingOrder) {
return false;
}
if (this.columnRenderingOrder != that.columnRenderingOrder) {
return false;
}
if (this.rowRenderingOrder != that.rowRenderingOrder) {
return false;
}
if (this.domainGridlinesVisible != that.domainGridlinesVisible) {
return false;
}
if (this.domainGridlinePosition != that.domainGridlinePosition) {
return false;
}
if (!ObjectUtilities.equal(
this.domainGridlineStroke, that.domainGridlineStroke
)) {
return false;
}
if (!PaintUtilities.equal(
this.domainGridlinePaint, that.domainGridlinePaint
)) {
return false;
}
if (this.rangeGridlinesVisible != that.rangeGridlinesVisible) {
return false;
}
if (!ObjectUtilities.equal(
this.rangeGridlineStroke, that.rangeGridlineStroke
)) {
return false;
}
if (!PaintUtilities.equal(
this.rangeGridlinePaint, that.rangeGridlinePaint
)) {
return false;
}
if (this.anchorValue != that.anchorValue) {
return false;
}
if (this.rangeCrosshairVisible != that.rangeCrosshairVisible) {
return false;
}
if (this.rangeCrosshairValue != that.rangeCrosshairValue) {
return false;
}
if (!ObjectUtilities.equal(
this.rangeCrosshairStroke, that.rangeCrosshairStroke
)) {
return false;
}
if (!PaintUtilities.equal(
this.rangeCrosshairPaint, that.rangeCrosshairPaint
)) {
return false;
}
if (
this.rangeCrosshairLockedOnData != that.rangeCrosshairLockedOnData
) {
return false;
}
if (!ObjectUtilities.equal(
this.foregroundRangeMarkers, that.foregroundRangeMarkers
)) {
return false;
}
if (!ObjectUtilities.equal(
this.backgroundRangeMarkers, that.backgroundRangeMarkers
)) {
return false;
}
if (!ObjectUtilities.equal(this.annotations, that.annotations)) {
return false;
}
if (this.weight != that.weight) {
return false;
}
if (!ObjectUtilities.equal(
this.fixedDomainAxisSpace, that.fixedDomainAxisSpace
)) {
return false;
}
if (!ObjectUtilities.equal(
this.fixedRangeAxisSpace, that.fixedRangeAxisSpace
)) {
return false;
}
return true;
}
/**
* Returns a clone of the plot.
*
* @return A clone.
*
* @throws CloneNotSupportedException if the cloning is not supported.
*/
public Object clone() throws CloneNotSupportedException {
CategoryPlot clone = (CategoryPlot) super.clone();
clone.domainAxes = new ObjectList();
for (int i = 0; i < this.domainAxes.size(); i++) {
CategoryAxis xAxis = (CategoryAxis) this.domainAxes.get(i);
if (xAxis != null) {
CategoryAxis clonedAxis = (CategoryAxis) xAxis.clone();
clone.setDomainAxis(i, clonedAxis);
}
}
clone.domainAxisLocations
= (ObjectList) this.domainAxisLocations.clone();
clone.rangeAxes = new ObjectList();
for (int i = 0; i < this.rangeAxes.size(); i++) {
ValueAxis yAxis = (ValueAxis) this.rangeAxes.get(i);
if (yAxis != null) {
ValueAxis clonedAxis = (ValueAxis) yAxis.clone();
clone.setRangeAxis(i, clonedAxis);
}
}
clone.rangeAxisLocations = (ObjectList) this.rangeAxisLocations.clone();
clone.datasets = (ObjectList) this.datasets.clone();
for (int i = 0; i < clone.datasets.size(); i++) {
CategoryDataset dataset = clone.getDataset(i);
if (dataset != null) {
dataset.addChangeListener(clone);
}
}
clone.datasetToDomainAxisMap
= (ObjectList) this.datasetToDomainAxisMap.clone();
clone.datasetToRangeAxisMap
= (ObjectList) this.datasetToRangeAxisMap.clone();
clone.renderers = (ObjectList) this.renderers.clone();
if (this.fixedDomainAxisSpace != null) {
clone.fixedDomainAxisSpace = (AxisSpace) ObjectUtilities.clone(
this.fixedDomainAxisSpace
);
}
if (this.fixedRangeAxisSpace != null) {
clone.fixedRangeAxisSpace = (AxisSpace) ObjectUtilities.clone(
this.fixedRangeAxisSpace
);
}
return clone;
}
/**
* 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.writeStroke(this.domainGridlineStroke, stream);
SerialUtilities.writePaint(this.domainGridlinePaint, stream);
SerialUtilities.writeStroke(this.rangeGridlineStroke, stream);
SerialUtilities.writePaint(this.rangeGridlinePaint, stream);
SerialUtilities.writeStroke(this.rangeCrosshairStroke, stream);
SerialUtilities.writePaint(this.rangeCrosshairPaint, 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.domainGridlineStroke = SerialUtilities.readStroke(stream);
this.domainGridlinePaint = SerialUtilities.readPaint(stream);
this.rangeGridlineStroke = SerialUtilities.readStroke(stream);
this.rangeGridlinePaint = SerialUtilities.readPaint(stream);
this.rangeCrosshairStroke = SerialUtilities.readStroke(stream);
this.rangeCrosshairPaint = SerialUtilities.readPaint(stream);
for (int i = 0; i < this.domainAxes.size(); i++) {
CategoryAxis xAxis = (CategoryAxis) this.domainAxes.get(i);
if (xAxis != null) {
xAxis.setPlot(this);
xAxis.addChangeListener(this);
}
}
for (int i = 0; i < this.rangeAxes.size(); i++) {
ValueAxis yAxis = (ValueAxis) this.rangeAxes.get(i);
if (yAxis != null) {
yAxis.setPlot(this);
yAxis.addChangeListener(this);
}
}
int datasetCount = this.datasets.size();
for (int i = 0; i < datasetCount; i++) {
Dataset dataset = (Dataset) this.datasets.get(i);
if (dataset != null) {
dataset.addChangeListener(this);
}
}
int rendererCount = this.renderers.size();
for (int i = 0; i < rendererCount; i++) {
CategoryItemRenderer renderer
= (CategoryItemRenderer) this.renderers.get(i);
if (renderer != null) {
renderer.addChangeListener(this);
}
}
}
}