com.sun.scenario.animation.shared.ClipEnvelope Maven / Gradle / Ivy
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package com.sun.scenario.animation.shared;
import javafx.animation.Animation;
import javafx.util.Duration;
import com.sun.javafx.animation.TickCalculation;
/**
* An instance of ClipEnvelope handles the loop-part of a clip.
*
* The functionality to react on a pulse-signal from the timer is implemented in
* two classes: ClipEnvelope and ClipCore. ClipEnvelope is responsible for the
* "loop-part" (keeping track of the number of cycles, handling the direction of
* the clip etc.). ClipCore takes care of the inner part (interpolating the
* values, triggering the action-functions, ...)
*
* Both classes have an abstract public definition and can only be created using
* the factory method create(). The intent is to provide a general
* implementation plus eventually some fast-track implementations for common use
* cases.
*/
public abstract class ClipEnvelope {
protected static final long INDEFINITE = Long.MAX_VALUE;
protected static final double EPSILON = 1e-12;
protected Animation animation;
/**
* The rate of the animation that is used to calculate the current rate of an animation.
* It is the same as animation.rate, only ignores animation.rate = 0, so can never be 0.
*/
protected double rate = 1;
/**
* The number of ticks in a single cycle. Calculated from the cycle duration. Always >=0.
*/
protected long cycleTicks = 0;
protected long deltaTicks = 0;
/**
* The current position of the play head. 0 <= ticks <= totalTicks
*/
protected long ticks = 0;
protected double currentRate = rate;
protected boolean inTimePulse = false;
protected boolean aborted = false;
protected ClipEnvelope(Animation animation) {
this.animation = animation;
if (animation != null) {
cycleTicks = TickCalculation.fromDuration(animation.getCycleDuration());
rate = animation.getRate();
}
}
public static ClipEnvelope create(Animation animation) {
if ((animation.getCycleCount() == 1) || (animation.getCycleDuration().isIndefinite())) {
return new SingleLoopClipEnvelope(animation);
} else if (animation.getCycleCount() == Animation.INDEFINITE) {
return new InfiniteClipEnvelope(animation);
} else {
return new FiniteClipEnvelope(animation);
}
}
public abstract void setAutoReverse(boolean autoReverse);
public abstract ClipEnvelope setCycleDuration(Duration cycleDuration);
public abstract ClipEnvelope setCycleCount(int cycleCount);
public abstract void setRate(double rate);
protected abstract double calculateCurrentRate();
protected void setInternalCurrentRate(double currentRate) {
this.currentRate = currentRate;
}
protected void setCurrentRate(double currentRate) {
this.currentRate = currentRate;
AnimationAccessor.getDefault().setCurrentRate(animation, currentRate);
}
public double getCurrentRate() {
return currentRate;
}
protected long ticksRateChange(double newRate) {
return Math.round((ticks - deltaTicks) * newRate / rate);
}
protected void updateCycleTicks(Duration cycleDuration) {
cycleTicks = TickCalculation.fromDuration(cycleDuration);
}
public boolean wasSynched() {
return cycleTicks != 0;
}
public void start() {
setCurrentRate(calculateCurrentRate());
deltaTicks = ticks;
}
public abstract void timePulse(long currentTick);
public abstract void jumpTo(long ticks);
public final void abortCurrentPulse() {
if (inTimePulse) {
aborted = true;
inTimePulse = false;
}
}
}
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