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This project provides a framework and sample code for time-based animations in Swing.
package org.jdesktop.swing.animation.rendering;
import static java.util.concurrent.TimeUnit.SECONDS;
import java.awt.Graphics2D;
import java.awt.GraphicsConfiguration;
import javax.swing.SwingUtilities;
import org.jdesktop.core.animation.i18n.I18N;
import org.jdesktop.core.animation.rendering.JRenderer;
import org.jdesktop.core.animation.rendering.JRendererTarget;
import org.jdesktop.core.animation.timing.TimingSource;
import org.jdesktop.core.animation.timing.TimingSource.PostTickListener;
/**
* Manages passive rendering on a Swing {@link JRendererPanel}.
*
* To use this renderer a client constructs a {@link JRendererPanel} and passes
* it to the constructor with a {@link JRendererTarget} implementation and a
* timing source. A typical sequence would be
*
*
* JFrame frame = new JFrame("Renderer Demonstration");
* final JRendererPanel on = new JRendererPanel();
* frame.setContentPane(on);
* final JRendererTarget<GraphicsConfiguration, Graphics2D> target = this;
* final TimingSource timingSource = new SwingTimerTimingSource();
* JRenderer renderer = new JPassiveRenderer(on, target, timingSource);
* timingSource.init();
*
*
* In the above snippet on will be rendered to. The enclosing instance,
* this, implements {@link JRendererTarget} and will be called to
* customize what is displayed on-screen.
*
* @author Tim Halloran
*/
public class JPassiveRenderer implements JRenderer {
/*
* Thread-confined to the EDT thread
*/
final JRendererPanel f_on;
final JRendererTarget f_target;
final TimingSource f_ts;
final PostTickListener f_postTick = new PostTickListener() {
public void timingSourcePostTick(TimingSource source, long nanoTime) {
long now = System.nanoTime();
if (f_renderCount != 0) {
f_totalRenderTime += now - f_lastRenderTimeNanos;
}
f_lastRenderTimeNanos = now;
f_renderCount++;
f_target.renderUpdate();
f_on.repaint();
}
};
/*
* Statistics counters
*/
long f_lastRenderTimeNanos;
long f_totalRenderTime = 0;
long f_renderCount = 0;
public JPassiveRenderer(JRendererPanel on, JRendererTarget target, TimingSource timingSource) {
if (!SwingUtilities.isEventDispatchThread())
throw new IllegalStateException(I18N.err(100));
if (on == null)
throw new IllegalArgumentException(I18N.err(1, "on"));
f_on = on;
if (target == null)
throw new IllegalArgumentException(I18N.err(1, "target"));
f_target = target;
if (timingSource == null)
throw new IllegalArgumentException(I18N.err(1, "timingSource"));
f_ts = timingSource;
f_on.setDoubleBuffered(true);
f_on.setOpaque(true);
f_on.setTarget(f_target, f_ts, f_postTick);
}
@Override
public void invokeLater(Runnable task) {
SwingUtilities.invokeLater(task);
}
@Override
public TimingSource getTimingSource() {
return f_ts;
}
@Override
public long getFPS() {
final long avgCycleTime = getAverageCycleTimeNanos();
if (avgCycleTime != 0) {
return SECONDS.toNanos(1) / avgCycleTime;
} else
return 0;
}
@Override
public long getAverageCycleTimeNanos() {
if (f_renderCount != 0) {
return (f_totalRenderTime) / f_renderCount;
} else
return 0;
}
@Override
public void shutdown() {
f_on.clearTarget();
f_target.renderShutdown();
}
}