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/* * Copyright (C) 2010 The Android Open Source Project *// w w w . j a v a 2 s .c o 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 java.util.Arrays; import android.view.animation.Interpolator; import com.actionbarsherlock.internal.nineoldandroids.animation.Keyframe.FloatKeyframe; import com.actionbarsherlock.internal.nineoldandroids.animation.Keyframe.IntKeyframe; import com.actionbarsherlock.internal.nineoldandroids.animation.Keyframe.ObjectKeyframe; /** * This class holds a collection of Keyframe 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. */ @SuppressWarnings({"rawtypes", "unchecked"}) class KeyframeSet { int mNumKeyframes; Keyframe mFirstKeyframe; Keyframe mLastKeyframe; /*Time*/Interpolator mInterpolator; // only used in the 2-keyframe case ArrayList<Keyframe> mKeyframes; // only used when there are not 2 keyframes TypeEvaluator mEvaluator; public KeyframeSet(Keyframe... keyframes) { mNumKeyframes = keyframes.length; mKeyframes = new ArrayList<Keyframe>(); mKeyframes.addAll(Arrays.asList(keyframes)); mFirstKeyframe = mKeyframes.get(0); mLastKeyframe = mKeyframes.get(mNumKeyframes - 1); mInterpolator = mLastKeyframe.getInterpolator(); } public static KeyframeSet ofInt(int... values) { int numKeyframes = values.length; IntKeyframe keyframes[] = new IntKeyframe[Math.max(numKeyframes,2)]; if (numKeyframes == 1) { keyframes[0] = (IntKeyframe) Keyframe.ofInt(0f); keyframes[1] = (IntKeyframe) Keyframe.ofInt(1f, values[0]); } else { keyframes[0] = (IntKeyframe) Keyframe.ofInt(0f, values[0]); for (int i = 1; i < numKeyframes; ++i) { keyframes[i] = (IntKeyframe) Keyframe.ofInt((float) i / (numKeyframes - 1), values[i]); } } return new IntKeyframeSet(keyframes); } public static KeyframeSet ofFloat(float... values) { int numKeyframes = values.length; FloatKeyframe keyframes[] = new FloatKeyframe[Math.max(numKeyframes,2)]; if (numKeyframes == 1) { keyframes[0] = (FloatKeyframe) Keyframe.ofFloat(0f); keyframes[1] = (FloatKeyframe) Keyframe.ofFloat(1f, values[0]); } else { keyframes[0] = (FloatKeyframe) Keyframe.ofFloat(0f, values[0]); for (int i = 1; i < numKeyframes; ++i) { keyframes[i] = (FloatKeyframe) Keyframe.ofFloat((float) i / (numKeyframes - 1), values[i]); } } return new FloatKeyframeSet(keyframes); } public static KeyframeSet ofKeyframe(Keyframe... keyframes) { // if all keyframes of same primitive type, create the appropriate KeyframeSet int numKeyframes = keyframes.length; boolean hasFloat = false; boolean hasInt = false; boolean hasOther = false; for (int i = 0; i < numKeyframes; ++i) { if (keyframes[i] instanceof FloatKeyframe) { hasFloat = true; } else if (keyframes[i] instanceof IntKeyframe) { hasInt = true; } else { hasOther = true; } } if (hasFloat && !hasInt && !hasOther) { FloatKeyframe floatKeyframes[] = new FloatKeyframe[numKeyframes]; for (int i = 0; i < numKeyframes; ++i) { floatKeyframes[i] = (FloatKeyframe) keyframes[i]; } return new FloatKeyframeSet(floatKeyframes); } else if (hasInt && !hasFloat && !hasOther) { IntKeyframe intKeyframes[] = new IntKeyframe[numKeyframes]; for (int i = 0; i < numKeyframes; ++i) { intKeyframes[i] = (IntKeyframe) keyframes[i]; } return new IntKeyframeSet(intKeyframes); } else { return new KeyframeSet(keyframes); } } public static KeyframeSet ofObject(Object... values) { int numKeyframes = values.length; ObjectKeyframe keyframes[] = new ObjectKeyframe[Math.max(numKeyframes,2)]; if (numKeyframes == 1) { keyframes[0] = (ObjectKeyframe) Keyframe.ofObject(0f); keyframes[1] = (ObjectKeyframe) Keyframe.ofObject(1f, values[0]); } else { keyframes[0] = (ObjectKeyframe) Keyframe.ofObject(0f, values[0]); for (int i = 1; i < numKeyframes; ++i) { keyframes[i] = (ObjectKeyframe) Keyframe.ofObject((float) i / (numKeyframes - 1), values[i]); } } return new KeyframeSet(keyframes); } /** * Sets the TypeEvaluator to be used when calculating animated values. This object * is required only for KeyframeSets that are not either IntKeyframeSet or FloatKeyframeSet, * both of which assume their own evaluator to speed up calculations with those primitive * types. * * @param evaluator The TypeEvaluator to be used to calculate animated values. */ public void setEvaluator(TypeEvaluator evaluator) { mEvaluator = evaluator; } @Override public KeyframeSet clone() { ArrayList<Keyframe> keyframes = mKeyframes; int numKeyframes = mKeyframes.size(); Keyframe[] newKeyframes = new Keyframe[numKeyframes]; for (int i = 0; i < numKeyframes; ++i) { newKeyframes[i] = keyframes.get(i).clone(); } KeyframeSet newSet = new KeyframeSet(newKeyframes); return newSet; } /** * Gets the animated value, given the elapsed fraction of the animation (interpolated by the * animation's interpolator) and the evaluator used to calculate in-between values. This * function maps the input fraction to the appropriate keyframe interval and a fraction * between them and returns the interpolated value. Note that the input fraction may fall * outside the [0-1] bounds, if the animation's interpolator made that happen (e.g., a * spring interpolation that might send the fraction past 1.0). We handle this situation by * just using the two keyframes at the appropriate end when the value is outside those bounds. * * @param fraction The elapsed fraction of the animation * @return The animated value. */ public Object getValue(float fraction) { // Special-case optimization for the common case of only two keyframes if (mNumKeyframes == 2) { if (mInterpolator != null) { fraction = mInterpolator.getInterpolation(fraction); } return mEvaluator.evaluate(fraction, mFirstKeyframe.getValue(), mLastKeyframe.getValue()); } if (fraction <= 0f) { final Keyframe nextKeyframe = mKeyframes.get(1); final /*Time*/Interpolator interpolator = nextKeyframe.getInterpolator(); if (interpolator != null) { fraction = interpolator.getInterpolation(fraction); } final float prevFraction = mFirstKeyframe.getFraction(); float intervalFraction = (fraction - prevFraction) / (nextKeyframe.getFraction() - prevFraction); return mEvaluator.evaluate(intervalFraction, mFirstKeyframe.getValue(), nextKeyframe.getValue()); } else if (fraction >= 1f) { final Keyframe prevKeyframe = mKeyframes.get(mNumKeyframes - 2); final /*Time*/Interpolator interpolator = mLastKeyframe.getInterpolator(); if (interpolator != null) { fraction = interpolator.getInterpolation(fraction); } final float prevFraction = prevKeyframe.getFraction(); float intervalFraction = (fraction - prevFraction) / (mLastKeyframe.getFraction() - prevFraction); return mEvaluator.evaluate(intervalFraction, prevKeyframe.getValue(), mLastKeyframe.getValue()); } Keyframe prevKeyframe = mFirstKeyframe; for (int i = 1; i < mNumKeyframes; ++i) { Keyframe nextKeyframe = mKeyframes.get(i); if (fraction < nextKeyframe.getFraction()) { final /*Time*/Interpolator interpolator = nextKeyframe.getInterpolator(); if (interpolator != null) { fraction = interpolator.getInterpolation(fraction); } final float prevFraction = prevKeyframe.getFraction(); float intervalFraction = (fraction - prevFraction) / (nextKeyframe.getFraction() - prevFraction); return mEvaluator.evaluate(intervalFraction, prevKeyframe.getValue(), nextKeyframe.getValue()); } prevKeyframe = nextKeyframe; } // shouldn't reach here return mLastKeyframe.getValue(); } @Override public String toString() { String returnVal = " "; for (int i = 0; i < mNumKeyframes; ++i) { returnVal += mKeyframes.get(i).getValue() + " "; } return returnVal; } }