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MIT License
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/* * Copyright (C) 2010 The Android Open Source Project *//from w w w.j a v a 2 s . co m * 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 com.actionbarsherlock.internal.nineoldandroids.animation; import java.util.ArrayList; import android.view.animation.Interpolator; import com.actionbarsherlock.internal.nineoldandroids.animation.Keyframe.FloatKeyframe; /** * 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> */ @SuppressWarnings("unchecked") class FloatKeyframeSet extends KeyframeSet { private float firstValue; private float lastValue; private float deltaValue; private boolean firstTime = true; public FloatKeyframeSet(FloatKeyframe... keyframes) { super(keyframes); } @Override public Object getValue(float fraction) { return getFloatValue(fraction); } @Override public FloatKeyframeSet clone() { ArrayList<Keyframe> keyframes = mKeyframes; 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; } public float getFloatValue(float fraction) { if (mNumKeyframes == 2) { if (firstTime) { firstTime = false; firstValue = ((FloatKeyframe) mKeyframes.get(0)).getFloatValue(); lastValue = ((FloatKeyframe) mKeyframes.get(1)).getFloatValue(); deltaValue = lastValue - firstValue; } if (mInterpolator != null) { fraction = mInterpolator.getInterpolation(fraction); } if (mEvaluator == null) { return firstValue + fraction * deltaValue; } else { return ((Number)mEvaluator.evaluate(fraction, firstValue, lastValue)).floatValue(); } } 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 /*Time*/Interpolator 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 /*Time*/Interpolator 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 /*Time*/Interpolator interpolator = nextKeyframe.getInterpolator(); if (interpolator != null) { fraction = interpolator.getInterpolation(fraction); } float intervalFraction = (fraction - prevKeyframe.getFraction()) / (nextKeyframe.getFraction() - prevKeyframe.getFraction()); float prevValue = prevKeyframe.getFloatValue(); float nextValue = nextKeyframe.getFloatValue(); 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(); } }