/* * Copyright (C) 2015 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 com.android.settingslib.animation; import android.animation.Animator; import android.animation.AnimatorListenerAdapter; import android.animation.ObjectAnimator; import android.animation.ValueAnimator; import android.content.Context; import android.view.RenderNodeAnimator; import android.view.View; import android.view.ViewPropertyAnimator; import android.view.animation.AnimationUtils; import android.view.animation.Interpolator; import com.android.internal.widget.LockPatternView; import com.android.settingslib.R; /** * A class to make nice appear transitions for views in a tabular layout. */ public class AppearAnimationUtils implements AppearAnimationCreator { public static final long DEFAULT_APPEAR_DURATION = 220; private final Interpolator mInterpolator; private final float mStartTranslation; private final AppearAnimationProperties mProperties = new AppearAnimationProperties(); protected final float mDelayScale; private final long mDuration; protected RowTranslationScaler mRowTranslationScaler; protected boolean mAppearing; public AppearAnimationUtils(Context ctx) { this(ctx, DEFAULT_APPEAR_DURATION, 1.0f, 1.0f, AnimationUtils.loadInterpolator(ctx, android.R.interpolator.linear_out_slow_in)); } public AppearAnimationUtils(Context ctx, long duration, float translationScaleFactor, float delayScaleFactor, Interpolator interpolator) { mInterpolator = interpolator; mStartTranslation = ctx.getResources().getDimensionPixelOffset( R.dimen.appear_y_translation_start) * translationScaleFactor; mDelayScale = delayScaleFactor; mDuration = duration; mAppearing = true; } public void startAnimation2d(View[][] objects, final Runnable finishListener) { startAnimation2d(objects, finishListener, this); } public void startAnimation(View[] objects, final Runnable finishListener) { startAnimation(objects, finishListener, this); } public void startAnimation2d(T[][] objects, final Runnable finishListener, AppearAnimationCreator creator) { AppearAnimationProperties properties = getDelays(objects); startAnimations(properties, objects, finishListener, creator); } public void startAnimation(T[] objects, final Runnable finishListener, AppearAnimationCreator creator) { AppearAnimationProperties properties = getDelays(objects); startAnimations(properties, objects, finishListener, creator); } private void startAnimations(AppearAnimationProperties properties, T[] objects, final Runnable finishListener, AppearAnimationCreator creator) { if (properties.maxDelayRowIndex == -1 || properties.maxDelayColIndex == -1) { finishListener.run(); return; } for (int row = 0; row < properties.delays.length; row++) { long[] columns = properties.delays[row]; long delay = columns[0]; Runnable endRunnable = null; if (properties.maxDelayRowIndex == row && properties.maxDelayColIndex == 0) { endRunnable = finishListener; } float translationScale = mRowTranslationScaler != null ? mRowTranslationScaler.getRowTranslationScale(row, properties.delays.length) : 1f; float translation = translationScale * mStartTranslation; creator.createAnimation(objects[row], delay, mDuration, mAppearing ? translation : -translation, mAppearing, mInterpolator, endRunnable); } } private void startAnimations(AppearAnimationProperties properties, T[][] objects, final Runnable finishListener, AppearAnimationCreator creator) { if (properties.maxDelayRowIndex == -1 || properties.maxDelayColIndex == -1) { finishListener.run(); return; } for (int row = 0; row < properties.delays.length; row++) { long[] columns = properties.delays[row]; float translationScale = mRowTranslationScaler != null ? mRowTranslationScaler.getRowTranslationScale(row, properties.delays.length) : 1f; float translation = translationScale * mStartTranslation; for (int col = 0; col < columns.length; col++) { long delay = columns[col]; Runnable endRunnable = null; if (properties.maxDelayRowIndex == row && properties.maxDelayColIndex == col) { endRunnable = finishListener; } creator.createAnimation(objects[row][col], delay, mDuration, mAppearing ? translation : -translation, mAppearing, mInterpolator, endRunnable); } } } private AppearAnimationProperties getDelays(T[] items) { long maxDelay = -1; mProperties.maxDelayColIndex = -1; mProperties.maxDelayRowIndex = -1; mProperties.delays = new long[items.length][]; for (int row = 0; row < items.length; row++) { mProperties.delays[row] = new long[1]; long delay = calculateDelay(row, 0); mProperties.delays[row][0] = delay; if (items[row] != null && delay > maxDelay) { maxDelay = delay; mProperties.maxDelayColIndex = 0; mProperties.maxDelayRowIndex = row; } } return mProperties; } private AppearAnimationProperties getDelays(T[][] items) { long maxDelay = -1; mProperties.maxDelayColIndex = -1; mProperties.maxDelayRowIndex = -1; mProperties.delays = new long[items.length][]; for (int row = 0; row < items.length; row++) { T[] columns = items[row]; mProperties.delays[row] = new long[columns.length]; for (int col = 0; col < columns.length; col++) { long delay = calculateDelay(row, col); mProperties.delays[row][col] = delay; if (items[row][col] != null && delay > maxDelay) { maxDelay = delay; mProperties.maxDelayColIndex = col; mProperties.maxDelayRowIndex = row; } } } return mProperties; } protected long calculateDelay(int row, int col) { return (long) ((row * 40 + col * (Math.pow(row, 0.4) + 0.4) * 20) * mDelayScale); } public Interpolator getInterpolator() { return mInterpolator; } public float getStartTranslation() { return mStartTranslation; } @Override public void createAnimation(final View view, long delay, long duration, float translationY, boolean appearing, Interpolator interpolator, final Runnable endRunnable) { if (view != null) { view.setAlpha(appearing ? 0f : 1.0f); view.setTranslationY(appearing ? translationY : 0); Animator alphaAnim; float targetAlpha = appearing ? 1f : 0f; if (view.isHardwareAccelerated()) { RenderNodeAnimator alphaAnimRt = new RenderNodeAnimator(RenderNodeAnimator.ALPHA, targetAlpha); alphaAnimRt.setTarget(view); alphaAnim = alphaAnimRt; } else { alphaAnim = ObjectAnimator.ofFloat(view, View.ALPHA, view.getAlpha(), targetAlpha); } alphaAnim.setInterpolator(interpolator); alphaAnim.setDuration(duration); alphaAnim.setStartDelay(delay); if (view.hasOverlappingRendering()) { view.setLayerType(View.LAYER_TYPE_HARDWARE, null); alphaAnim.addListener(new AnimatorListenerAdapter() { @Override public void onAnimationEnd(Animator animation) { view.setLayerType(View.LAYER_TYPE_NONE, null); } }); } if (endRunnable != null) { alphaAnim.addListener(new AnimatorListenerAdapter() { @Override public void onAnimationEnd(Animator animation) { endRunnable.run(); } }); } alphaAnim.start(); startTranslationYAnimation(view, delay, duration, appearing ? 0 : translationY, interpolator); } } public static void startTranslationYAnimation(View view, long delay, long duration, float endTranslationY, Interpolator interpolator) { Animator translationAnim; if (view.isHardwareAccelerated()) { RenderNodeAnimator translationAnimRt = new RenderNodeAnimator( RenderNodeAnimator.TRANSLATION_Y, endTranslationY); translationAnimRt.setTarget(view); translationAnim = translationAnimRt; } else { translationAnim = ObjectAnimator.ofFloat(view, View.TRANSLATION_Y, view.getTranslationY(), endTranslationY); } translationAnim.setInterpolator(interpolator); translationAnim.setDuration(duration); translationAnim.setStartDelay(delay); translationAnim.start(); } public class AppearAnimationProperties { public long[][] delays; public int maxDelayRowIndex; public int maxDelayColIndex; } public interface RowTranslationScaler { float getRowTranslationScale(int row, int numRows); } }