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contributor license agreements. See the NOTICE file distributed with
this work for additional information regarding copyright ownership.
The ASF licenses this file to You under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with
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http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
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See the License for the specific language governing permissions and
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*/
package org.apache.batik.anim;
import java.awt.geom.Point2D;
import org.apache.batik.anim.dom.AnimatableElement;
import org.apache.batik.anim.timing.TimedElement;
import org.apache.batik.anim.values.AnimatableValue;
import org.apache.batik.ext.awt.geom.Cubic;
import org.apache.batik.util.SMILConstants;
An animation class for 'animate' animations.
Author: Cameron McCormack Version: $Id: SimpleAnimation.java 1733416 2016-03-03 07:07:13Z gadams $
/**
* An animation class for 'animate' animations.
*
* @author <a href="mailto:cam%40mcc%2eid%2eau">Cameron McCormack</a>
* @version $Id: SimpleAnimation.java 1733416 2016-03-03 07:07:13Z gadams $
*/
public class SimpleAnimation extends InterpolatingAnimation {
Values between which to interpolate.
/**
* Values between which to interpolate.
*/
protected AnimatableValue[] values;
Starting value of the animation.
/**
* Starting value of the animation.
*/
protected AnimatableValue from;
Ending value of the animation.
/**
* Ending value of the animation.
*/
protected AnimatableValue to;
Relative offset value for the animation.
/**
* Relative offset value for the animation.
*/
protected AnimatableValue by;
Creates a new SimpleAnimation.
/**
* Creates a new SimpleAnimation.
*/
public SimpleAnimation(TimedElement timedElement,
AnimatableElement animatableElement,
int calcMode,
float[] keyTimes,
float[] keySplines,
boolean additive,
boolean cumulative,
AnimatableValue[] values,
AnimatableValue from,
AnimatableValue to,
AnimatableValue by) {
super(timedElement, animatableElement, calcMode, keyTimes, keySplines,
additive, cumulative);
this.from = from;
this.to = to;
this.by = by;
if (values == null) {
if (from != null) {
values = new AnimatableValue[2];
values[0] = from;
if (to != null) {
values[1] = to;
} else if (by != null) {
values[1] = from.interpolate(null, null, 0f, by, 1);
} else {
throw timedElement.createException
("values.to.by.missing", new Object[] { null });
}
} else {
if (to != null) {
values = new AnimatableValue[2];
values[0] = animatableElement.getUnderlyingValue();
values[1] = to;
this.cumulative = false;
toAnimation = true;
} else if (by != null) {
this.additive = true;
values = new AnimatableValue[2];
values[0] = by.getZeroValue();
values[1] = by;
} else {
throw timedElement.createException
("values.to.by.missing", new Object[] { null });
}
}
}
this.values = values;
if (this.keyTimes != null && calcMode != CALC_MODE_PACED) {
if (this.keyTimes.length != values.length) {
throw timedElement.createException
("attribute.malformed",
new Object[] { null,
SMILConstants.SMIL_KEY_TIMES_ATTRIBUTE });
}
} else {
if (calcMode == CALC_MODE_LINEAR || calcMode == CALC_MODE_SPLINE
|| calcMode == CALC_MODE_PACED && !values[0].canPace()) {
int count = values.length == 1 ? 2 : values.length;
this.keyTimes = new float[count];
for (int i = 0; i < count; i++) {
this.keyTimes[i] = (float) i / (count - 1);
}
} else if (calcMode == CALC_MODE_DISCRETE) {
int count = values.length;
this.keyTimes = new float[count];
for (int i = 0; i < count; i++) {
this.keyTimes[i] = (float) i / count;
}
} else { // CALC_MODE_PACED
// This corrects the keyTimes to be paced, so from now on
// it can be considered the same as CALC_MODE_LINEAR.
int count = values.length;
float[] cumulativeDistances = new float[count];
cumulativeDistances[0] = 0;
for (int i = 1; i < count; i++) {
cumulativeDistances[i] = cumulativeDistances[i - 1]
+ values[i - 1].distanceTo(values[i]);
}
float totalLength = cumulativeDistances[count - 1];
this.keyTimes = new float[count];
this.keyTimes[0] = 0;
for (int i = 1; i < count - 1; i++) {
this.keyTimes[i] = cumulativeDistances[i] / totalLength;
}
this.keyTimes[count - 1] = 1;
}
}
if (calcMode == CALC_MODE_SPLINE
&& keySplines.length != (this.keyTimes.length - 1) * 4) {
throw timedElement.createException
("attribute.malformed",
new Object[] { null,
SMILConstants.SMIL_KEY_SPLINES_ATTRIBUTE });
}
}
Called when the element is sampled at the given unit time. This updates the AbstractAnimation.value of the animation if active. /**
* Called when the element is sampled at the given unit time. This updates
* the {@link #value} of the animation if active.
*/
protected void sampledAtUnitTime(float unitTime, int repeatIteration) {
AnimatableValue value, accumulation, nextValue;
float interpolation = 0;
if (unitTime != 1) {
int keyTimeIndex = 0;
while (keyTimeIndex < keyTimes.length - 1
&& unitTime >= keyTimes[keyTimeIndex + 1]) {
keyTimeIndex++;
}
value = values[keyTimeIndex];
if (calcMode == CALC_MODE_LINEAR
|| calcMode == CALC_MODE_PACED
|| calcMode == CALC_MODE_SPLINE) {
nextValue = values[keyTimeIndex + 1];
interpolation = (unitTime - keyTimes[keyTimeIndex])
/ (keyTimes[keyTimeIndex + 1] - keyTimes[keyTimeIndex]);
if (calcMode == CALC_MODE_SPLINE && unitTime != 0) {
// XXX This could be done better, e.g. with
// Newton-Raphson.
Cubic c = keySplineCubics[keyTimeIndex];
float tolerance = 0.001f;
float min = 0;
float max = 1;
Point2D.Double p;
for (;;) {
float t = (min + max) / 2;
p = c.eval(t);
double x = p.getX();
if (Math.abs(x - interpolation) < tolerance) {
break;
}
if (x < interpolation) {
min = t;
} else {
max = t;
}
}
interpolation = (float) p.getY();
}
} else {
nextValue = null;
}
} else {
value = values[values.length - 1];
nextValue = null;
}
if (cumulative) {
accumulation = values[values.length - 1];
} else {
accumulation = null;
}
this.value = value.interpolate(this.value, nextValue, interpolation,
accumulation, repeatIteration);
if (this.value.hasChanged()) {
markDirty();
}
}
}