jcckit.GraphicsPlotCanvas Maven / Gradle / Ivy
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package jcckit;
import java.awt.Color;
import java.awt.Dimension;
import java.awt.Graphics2D;
import java.awt.RenderingHints;
import java.awt.image.BufferedImage;
import jcckit.graphic.GraphicalElement;
import jcckit.graphic.Renderer;
import jcckit.plot.Plot;
import jcckit.plot.PlotCanvas;
import jcckit.renderer.Graphics2DRenderer;
import jcckit.renderer.Transformation;
import jcckit.util.ConfigParameters;
import jcckit.util.Factory;
/**
* Class which handles plotting into a Graphics context based on the
* {link jcckit.renderer.GraphicsRenderer}. This class is not a subclass of
* java.awt.Component. The actual AWT component presenting the plot
* is an innerclass. Its instance wrapped by GraphicsPlotCanvas can
* be obtained with {link #getGraphicsCanvas}.
*
* The plot is painted by using double-buffering and pre-rendered view of the
* coordinate system. That is, the coordinate system is drawn into an off-screen
* image. It will be redrawn only if the size of the embedding AWT component is
* changed.
*
* @author Franz-Josef Elmer
*/
public class GraphicsPlotCanvas extends PlotCanvas {
// ::remove folder when __CORE__
// ::remove folder when __HAXE__
// ::remove folder when __MIT__ or __EPL__ or __BSD__ or __ASL__ or __LGPL__
/** Key of a configuration parameter. */
public static final String BACKGROUND_KEY = "background";
public static final String FOREGROUND_KEY = "foreground";
public static final String DOUBLE_BUFFERING_KEY = "doubleBuffering";
/**
* Class which does the actual painting. Needs the Component into
* which the plot is painted for some resources like size, background color,
* etc.
*
* @author Franz-Josef Elmer
*/
private final BufferedImage img3;
private final Graphics2D g3;
private Transformation _transformation;
private String _renderer = "jcckit.renderer.GraphicsRenderer";
private GraphicalElement _marker;
/**
* Creates an instance from the specified configuration parameters.
*
* Key & Default Value
* Type
* Mandatory
* Description
*
*
* background = default background color of the wrapped
* AWT component
* Color
* no
* Background color of the wrapped AWT component.
*
*
* foreground = default foreground color of the wrapped
* AWT component
* Color
* no
* Foreground color of the wrapped AWT component.
*
*
* doubleBuffering = true
* boolean no
* If true the plot will be painted by using
* double-buffering and pre-rendered view of the coordinate system.
*
*
* In addition the configuration parameters of the
*
* constructor of the superclass {@link jcckit.plot.PlotCanvas} apply.
*/
public GraphicsPlotCanvas(ConfigParameters config, BufferedImage img3) {
super(config);
this.img3 = img3;
setRenderer("jcckit.renderer.Graphics2DRenderer");
g3 = img3.createGraphics();
g3.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
// _doubleBuffering = config.getBoolean(DOUBLE_BUFFERING_KEY, true);
background = config.getColor(BACKGROUND_KEY, Color.WHITE);
foreground = config.getColor(FOREGROUND_KEY, Color.BLACK);
}
private final Color background;
private final Color foreground;
/**
* Paints the plot. If {link GraphicsPlotCanvas#_doubleBuffering} is set
* double-buffering and pre-rendered view of the coordinate system is used.
*/
public void paint() {
Dimension size = new Dimension(img3.getWidth(), img3.getHeight());
g3.setColor(background);
g3.fillRect(0, 0, size.width + 1, size.height + 1);
init(size);
_transformation.apply(g3);
Plot plot = getPlot();
drawCoordinateSystem(size, plot);
drawPlot(plot);
if (_marker != null) {
_marker.renderWith(createRenderer());
}
}
private void drawPlot(Plot plot) {
prepare();
Renderer renderer = createRenderer();
GraphicalElement[] curves = plot.getCurves();
for (int i = 0; i < curves.length; i++) {
curves[i].renderWith(renderer);
}
GraphicalElement annotation = plot.getAnnotation();
if (annotation != null) {
annotation.renderWith(renderer);
}
if (plot.isLegendVisible()) {
plot.getLegend().renderWith(renderer);
}
}
private void init(Dimension size) {
calculateTransformation(size);
}
private void drawCoordinateSystem(Dimension size, Plot plot) {
g3.setColor(foreground);
plot.getCoordinateSystem().renderWith(createRenderer());
}
/**
* Prepare graphics context before drawing the pre-rendered view of the
* coordinate system. Does nothing but will be used in subclasses.
*/
protected void prepare() {
}
/**
* Calculate the transformation form device-independent coordinates into
* device-dependent coordinates according to the specified canvas size.
*/
protected void calculateTransformation(Dimension size) {
_transformation = new Transformation(size.width, size.height, getPaper(), getHorizontalAnchor(),
getVerticalAnchor());
}
/**
* Creates an appropriated {@link Renderer} for the specified
* Graphics context.
*/
protected Renderer createRenderer() {
return ((Graphics2DRenderer) Factory.create(_renderer)).init(g3);
// return ((GraphicsRenderer) Factory.create(_renderer)).init(g, null,
// _transformation);
}
/**
* Sets the renderer used to render the plot. The default value is
* {link GraphicsRenderer}.
*
* @param className
* Fully qualified name of the renderer class.
*/
public void setRenderer(String className) {
_renderer = className;
}
// /**
// * Maps the cursor position onto a point in device-independent
// coordinates.
// *
// * @param x
// * X-coordinate of the cursor.
// * @param y
// * Y-coordinate of the cursor.
// */
// public GraphPoint mapCursorPosition(int x, int y) {
// return _transformation.transformBack(x, y);
// }
/**
* Defines a graphical marker which will be drawn on top of the plot. To
* remove the marker call this method with argument null.
*
* @param marker
* Marker element. Can be null.
*/
public void setMarker(GraphicalElement marker) {
_marker = marker;
}
}