jcckit.plot.Plot Maven / Gradle / Ivy
/*
* Copyright 2003-2004, Franz-Josef Elmer, All rights reserved
*
* 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 program 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
* (http://www.gnu.org/copyleft/lesser.html).
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package jcckit.plot;
import java.util.Vector;
import jcckit.data.DataCurve;
import jcckit.data.DataEvent;
import jcckit.data.DataListener;
import jcckit.data.DataPlot;
import jcckit.data.DataPoint;
import jcckit.graphic.ClippingShape;
import jcckit.graphic.GraphPoint;
import jcckit.graphic.GraphicalComposite;
import jcckit.graphic.GraphicalElement;
import jcckit.transformation.Transformation;
import jcckit.util.ConfigParameters;
import jcckit.util.Factory;
/**
* A plot is determined by a {@link CoordinateSystem}, {@link Curve Curves},
* an optional annotation layer and an optional {@link Legend}. When rendered
* these components are draw in this order.
*
* Registrated {@link PlotListener PlotListeners} will be informed
* when the plot changes.
*
* A {@link DataPlot} can be connected with a Plot instance.
* This is done with the method {@link #connect connect()} which registrates
* this Plot instance as
* a {@link DataListener} at the connected DataPlot.
* After an received {@link DataEvent DataEvents} has been handled
* the registrated PlotListeners will receive a
* {@link PlotEvent} of the type {@link PlotEventType#DATA_PLOT_CHANGED}.
*
* @author Franz-Josef Elmer
*/
public class Plot implements DataListener {
/** Configuration parameter key. */
public static final String COORDINATE_SYSTEM_KEY = "coordinateSystem",
CURVE_FACTORY_KEY = "curveFactory",
LEGEND_VISIBLE_KEY = "legendVisible",
LEGEND_KEY = "legend",
INITIAL_HINT_FOR_NEXT_CURVE_KEY
= "initialHintForNextCurve";
private final Vector _plotListeners = new Vector();
private DataPlot _dataPlot;
private final CurveFactory _curveFactory;
private final Vector _curves = new Vector();
private final Vector _nextCurveHints = new Vector();
private final Hint _initialHintForNextCurve;
private final Legend _legend;
private final boolean _legendVisibility;
private GraphicalElement _coordinateSystemView;
private ClippingShape _clippingShape;
private Transformation _transformation;
private GraphicalElement _annotation;
private GraphicalComposite _legendView = new GraphicalComposite(null);
/**
* Creates an instance from the specified configuration parameters.
*
* Key & Default Value Type Mandatory
* Description
* coordinateSystem = {@link CartesianCoordinateSystem}
* ConfigParameters no
* Definition of the {@link CoordinateSystem}.
* curveFactory = {@link SimpleCurveFactory}
* ConfigParameters no
* Definition of the {@link CurveFactory}.
* initialHintForNextCurve = null
* ConfigParameters no
* Definition of the initial {@link Hint} which is needed by some
* {@link SymbolFactory SymbolFactories} like {@link BarFactory}.
*
* legend = default values of {@link Legend}
* ConfigParameters no
* Configuration parameters of a {@link Legend}.
* legendVisible = true
* boolean no
* If true the {@link Legend} will be created.
*
*/
public Plot(ConfigParameters config) {
CoordinateSystem coordinateSystem = (CoordinateSystem) Factory.create(
config.getNode(COORDINATE_SYSTEM_KEY),
CartesianCoordinateSystem.class.getName());
setCoordinateSystem(coordinateSystem);
_curveFactory = (CurveFactory) Factory.create(
config.getNode(CURVE_FACTORY_KEY),
SimpleCurveFactory.class.getName());
_initialHintForNextCurve = (Hint) Factory.createOrGet(
config.getNode(INITIAL_HINT_FOR_NEXT_CURVE_KEY), null);
_legend = new Legend(config.getNode(LEGEND_KEY));
_legendVisibility = config.getBoolean(LEGEND_VISIBLE_KEY, true);
}
/**
* Sets the coordinate system. All curves will be regenerated and a
* {@link PlotEvent} of type {@link PlotEventType#COODINATE_SYSTEM_CHANGED}
* will be fired.
*
* @param coordinateSystem New coordinate system.
*/
public void setCoordinateSystem(CoordinateSystem coordinateSystem)
{
_coordinateSystemView = coordinateSystem.getView();
_clippingShape = coordinateSystem.getClippingShape();
_transformation = coordinateSystem.getTransformation();
if (_dataPlot != null)
{
generateCurves(_dataPlot);
}
notifyListeners(
new PlotEvent(this, PlotEventType.COODINATE_SYSTEM_CHANGED, null));
}
/**
* Adds the specified {@link PlotListener}. Does nothing if
* already added.
*/
public void addPlotListener(PlotListener listener) {
if (!_plotListeners.contains(listener)) {
_plotListeners.addElement(listener);
}
}
/**
* Removes the specfied {@link PlotListener}. Does nothing if
* already removed.
*/
public void removePlotListener(PlotListener listener) {
_plotListeners.removeElement(listener);
}
/**
* Sends all registrated {@link PlotListener PlotListeners}
* the specified event.
*/
protected void notifyListeners(PlotEvent event) {
for (int i = 0, n = _plotListeners.size(); i < n; i++) {
((PlotListener) _plotListeners.elementAt(i)).plotChanged(event);
}
}
/**
* Connect the specified {@link DataPlot} with this instance.
*
* If this Plot instance is already connected with a
* DataPlot the connection will be released and a
* {@link PlotEvent} of the type {@link PlotEventType#DATA_PLOT_DISCONNECTED}
* will be sent to all registrated {@link PlotListener PlotListeners}.
*
* It registers itself at dataPlot and
* all its {@link DataCurve DataCurves}.
*
* Finally all curves will be generated and a PlotEvent
* of the type {@link PlotEventType#DATA_PLOT_CONNECTED} will be transmitted.
* @param dataPlot Data to be connected with this plot instance.
* Can be null in order to disconnect this instance from
* any DataPlot.
*/
public void connect(DataPlot dataPlot) {
if (_dataPlot != null) {
_dataPlot.removeDataListener(this);
notifyListeners(new PlotEvent(this, PlotEventType.DATA_PLOT_DISCONNECTED,
_dataPlot));
}
_dataPlot = dataPlot;
if (_dataPlot != null)
{
_dataPlot.addDataListener(this);
generateCurves(_dataPlot);
notifyListeners(new PlotEvent(this, PlotEventType.DATA_PLOT_CONNECTED,
_dataPlot));
}
}
/**
* Transforms a point from device-independent coordinates into
* data coordinates.
* @param point Point in device-independent coordinates.
* @return transform point.
*/
public DataPoint transform(GraphPoint point) {
return _transformation.transformToData(point);
}
/**
* Creates a graphical representation of the complete plot.
* @return GraphicalComposite containing the views of the
* coordinate system, the curves, and optionally the legend (in this order).
*/
public GraphicalComposite getCompletePlot() {
GraphicalComposite result = new GraphicalComposite(null);
result.addElement(_coordinateSystemView);
GraphicalElement[] curves = getCurves();
for (int i = 0; i < curves.length; i++) {
result.addElement(curves[i]);
}
if (_annotation != null) {
result.addElement(_annotation);
}
if (_legendVisibility) {
result.addElement(getLegend());
}
return result;
}
/** Returns the view of the coordinate system. */
public GraphicalElement getCoordinateSystem() {
return _coordinateSystemView;
}
/** Returns the graphical representations of all curves. */
public GraphicalElement[] getCurves() {
synchronized (_curves) {
GraphicalElement[] curves = new GraphicalElement[_curves.size()];
for (int i = 0; i < curves.length; i++) {
curves[i] = ((Curve) _curves.elementAt(i)).getView();
}
return curves;
}
}
/**
* Returns the annotation layer.
* @return null if no annotation layer.
*/
public GraphicalElement getAnnotation()
{
return _annotation;
}
/**
* Sets the annotation layer.
* @param annotation Any kind of graphics which will be drawn on the
* top of the curves but may be covered by the legend.
* Can be null.
*/
public void setAnnotation(GraphicalElement annotation)
{
_annotation = annotation;
}
/** Returns true if the legend is visible. */
public boolean isLegendVisible() {
return _legendVisibility;
}
/** Returns the graphical representations of the legend. */
public GraphicalElement getLegend() {
return _legendView;
}
/**
* Handles the received {@link DataEvent} and notifies
* {@link PlotListener PlotListeners} by an event of the type
* {@link PlotEventType#DATA_CURVE_CHANGED} or
* {@link PlotEventType#DATA_PLOT_CHANGED}. The following table shows what
* this method does:
*
* Source of event
* All hints for the next curve are null?
* Action Type of sent {@link PlotEvent}
* {@link DataCurve} Yes Recreate changed curve.
* DATA_CURVE_CHANGED
* {@link DataCurve} No Recreate changed curve
* and all curves with large curve index.
* DATA_PLOT_CHANGED
* {@link DataPlot} - Recreate all curves
* and {@link Legend} view.
* DATA_PLOT_CHANGED
*
*/
public void dataChanged(DataEvent event) {
int index = 0;
PlotEventType type = PlotEventType.DATA_PLOT_CHANGED;
synchronized (_curves) {
int numberOfCurves = _curves.size();
if (event.getContainer() instanceof DataCurve
&& numberOfCurves == _dataPlot.getNumberOfElements()) {
DataCurve curve = (DataCurve) event.getContainer();
index = curve.getContainer().getIndexOf(curve);
type = PlotEventType.DATA_CURVE_CHANGED;
fillCurve(index, curve);
if (index < numberOfCurves - 1) {
Vector curveHints
= (Vector) _nextCurveHints.elementAt(index);
for (int i = 0, n = curveHints.size(); i < n; i++) {
if (curveHints.elementAt(i) != null) {
type = PlotEventType.DATA_PLOT_CHANGED;
for (int j = index +1; j < numberOfCurves; j++) {
fillCurve(j, (DataCurve) _dataPlot.getElement(j));
}
break;
}
}
}
} else {
generateCurves(_dataPlot);
}
}
notifyListeners(new PlotEvent(Plot.this, type, index));
}
/**
* Generates all curves based on the specified data.
* In addition the legend view is created.
*/
private void generateCurves(DataPlot dataPlot) {
synchronized (_curves) {
_legendView = new GraphicalComposite(null);
_legendView.addElement(_legend.getBox());
_curves.setSize(0);
_nextCurveHints.setSize(0);
for (int i = 0, n = dataPlot.getNumberOfElements(); i < n; i++) {
Curve curve = _curveFactory.create(i, n, _clippingShape, _legend);
_curves.addElement(curve);
_nextCurveHints.addElement(new Vector());
DataCurve dataCurve = (DataCurve) dataPlot.getElement(i);
_legendView.addElement(curve.getLegendSymbol());
_legendView.addElement(
_legend.createCurveTitle(i, n, dataCurve.getTitle()));
fillCurve(i, dataCurve);
}
}
}
private void fillCurve(int curveIndex, DataCurve dataCurve) {
Vector curveHints = (Vector) _nextCurveHints.elementAt(curveIndex);
Curve curve = (Curve) _curves.elementAt(curveIndex);
curve.removeAllPoints();
for (int i = 0, n = dataCurve.getNumberOfElements(); i < n; i++) {
setHintForNextCurve(curveHints, i,
curve.addPoint(_transformation.transformToGraph(
(DataPoint) dataCurve.getElement(i)),
getHintForNextCurve(curveIndex - 1, i)));
}
}
private Hint getHintForNextCurve(int curveIndex, int pointIndex) {
Hint result = _initialHintForNextCurve;
if (curveIndex >= 0) {
Vector curveHints = (Vector) _nextCurveHints.elementAt(curveIndex);
result = pointIndex < curveHints.size() ?
(Hint) curveHints.elementAt(pointIndex)
: getHintForNextCurve(curveIndex - 1, pointIndex);
}
return result;
}
private void setHintForNextCurve(Vector curveHints, int pointIndex,
Hint hint) {
while (curveHints.size() <= pointIndex) {
curveHints.addElement(_initialHintForNextCurve);
}
curveHints.setElementAt(hint, pointIndex);
}
}