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/*
* Copyright (C) 2010 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* 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,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.animation;
import android.animation.Keyframe.FloatKeyframe;
import java.util.List;
/**
* This class holds a collection of FloatKeyframe objects and is called by ValueAnimator to calculate
* values between those keyframes for a given animation. The class internal to the animation
* package because it is an implementation detail of how Keyframes are stored and used.
*
* <p>This type-specific subclass of KeyframeSet, along with the other type-specific subclass for
* int, exists to speed up the getValue() method when there is no custom
* TypeEvaluator set for the animation, so that values can be calculated without autoboxing to the
* Object equivalents of these primitive types.</p>
*/
class FloatKeyframeSet extends KeyframeSet implements Keyframes.FloatKeyframes {
public FloatKeyframeSet(FloatKeyframe... keyframes) {
super(keyframes);
}
@Override
public Object getValue(float fraction) {
return getFloatValue(fraction);
}
@Override
public FloatKeyframeSet clone() {
final List<Keyframe> keyframes = mKeyframes;
final int numKeyframes = mKeyframes.size();
FloatKeyframe[] newKeyframes = new FloatKeyframe[numKeyframes];
for (int i = 0; i < numKeyframes; ++i) {
newKeyframes[i] = (FloatKeyframe) keyframes.get(i).clone();
}
FloatKeyframeSet newSet = new FloatKeyframeSet(newKeyframes);
return newSet;
}
@Override
public float getFloatValue(float fraction) {
if (fraction <= 0f) {
final FloatKeyframe prevKeyframe = (FloatKeyframe) mKeyframes.get(0);
final FloatKeyframe nextKeyframe = (FloatKeyframe) mKeyframes.get(1);
float prevValue = prevKeyframe.getFloatValue();
float nextValue = nextKeyframe.getFloatValue();
float prevFraction = prevKeyframe.getFraction();
float nextFraction = nextKeyframe.getFraction();
final TimeInterpolator interpolator = nextKeyframe.getInterpolator();
if (interpolator != null) {
fraction = interpolator.getInterpolation(fraction);
}
float intervalFraction = (fraction - prevFraction) / (nextFraction - prevFraction);
return mEvaluator == null ?
prevValue + intervalFraction * (nextValue - prevValue) :
((Number)mEvaluator.evaluate(intervalFraction, prevValue, nextValue)).
floatValue();
} else if (fraction >= 1f) {
final FloatKeyframe prevKeyframe = (FloatKeyframe) mKeyframes.get(mNumKeyframes - 2);
final FloatKeyframe nextKeyframe = (FloatKeyframe) mKeyframes.get(mNumKeyframes - 1);
float prevValue = prevKeyframe.getFloatValue();
float nextValue = nextKeyframe.getFloatValue();
float prevFraction = prevKeyframe.getFraction();
float nextFraction = nextKeyframe.getFraction();
final TimeInterpolator interpolator = nextKeyframe.getInterpolator();
if (interpolator != null) {
fraction = interpolator.getInterpolation(fraction);
}
float intervalFraction = (fraction - prevFraction) / (nextFraction - prevFraction);
return mEvaluator == null ?
prevValue + intervalFraction * (nextValue - prevValue) :
((Number)mEvaluator.evaluate(intervalFraction, prevValue, nextValue)).
floatValue();
}
FloatKeyframe prevKeyframe = (FloatKeyframe) mKeyframes.get(0);
for (int i = 1; i < mNumKeyframes; ++i) {
FloatKeyframe nextKeyframe = (FloatKeyframe) mKeyframes.get(i);
if (fraction < nextKeyframe.getFraction()) {
final TimeInterpolator interpolator = nextKeyframe.getInterpolator();
float intervalFraction = (fraction - prevKeyframe.getFraction()) /
(nextKeyframe.getFraction() - prevKeyframe.getFraction());
float prevValue = prevKeyframe.getFloatValue();
float nextValue = nextKeyframe.getFloatValue();
// Apply interpolator on the proportional duration.
if (interpolator != null) {
intervalFraction = interpolator.getInterpolation(intervalFraction);
}
return mEvaluator == null ?
prevValue + intervalFraction * (nextValue - prevValue) :
((Number)mEvaluator.evaluate(intervalFraction, prevValue, nextValue)).
floatValue();
}
prevKeyframe = nextKeyframe;
}
// shouldn't get here
return ((Number)mKeyframes.get(mNumKeyframes - 1).getValue()).floatValue();
}
@Override
public Class getType() {
return Float.class;
}
}
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