/* * Copyright (C) 2011 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.server.wm; import android.content.Context; import android.graphics.Bitmap; import android.graphics.Point; import android.os.Debug; import android.os.Handler; import android.os.IRemoteCallback; import android.util.Slog; import android.view.WindowManager; import android.view.animation.AlphaAnimation; import android.view.animation.Animation; import android.view.animation.AnimationSet; import android.view.animation.AnimationUtils; import android.view.animation.Interpolator; import android.view.animation.ScaleAnimation; import com.android.internal.util.DumpUtils.Dump; import com.android.server.AttributeCache; import com.android.server.wm.WindowManagerService.H; import java.io.PrintWriter; import static com.android.internal.R.styleable.WindowAnimation_activityOpenEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_activityOpenExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_activityCloseEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_activityCloseExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskOpenEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskOpenExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskCloseEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskCloseExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskToFrontEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskToFrontExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskToBackEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_taskToBackExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperOpenEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperOpenExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperCloseEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperCloseExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperIntraOpenEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperIntraOpenExitAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperIntraCloseEnterAnimation; import static com.android.internal.R.styleable.WindowAnimation_wallpaperIntraCloseExitAnimation; // State management of app transitions. When we are preparing for a // transition, mNextAppTransition will be the kind of transition to // perform or TRANSIT_NONE if we are not waiting. If we are waiting, // mOpeningApps and mClosingApps are the lists of tokens that will be // made visible or hidden at the next transition. public class AppTransition implements Dump { private static final String TAG = "AppTransition"; private static final boolean DEBUG_APP_TRANSITIONS = WindowManagerService.DEBUG_APP_TRANSITIONS; private static final boolean DEBUG_ANIM = WindowManagerService.DEBUG_ANIM; /** Bit mask that is set for all enter transition. */ public static final int TRANSIT_ENTER_MASK = 0x1000; /** Bit mask that is set for all exit transitions. */ public static final int TRANSIT_EXIT_MASK = 0x2000; /** Not set up for a transition. */ public static final int TRANSIT_UNSET = -1; /** No animation for transition. */ public static final int TRANSIT_NONE = 0; /** A window in a new activity is being opened on top of an existing one in the same task. */ public static final int TRANSIT_ACTIVITY_OPEN = 6 | TRANSIT_ENTER_MASK; /** The window in the top-most activity is being closed to reveal the * previous activity in the same task. */ public static final int TRANSIT_ACTIVITY_CLOSE = 7 | TRANSIT_EXIT_MASK; /** A window in a new task is being opened on top of an existing one * in another activity's task. */ public static final int TRANSIT_TASK_OPEN = 8 | TRANSIT_ENTER_MASK; /** A window in the top-most activity is being closed to reveal the * previous activity in a different task. */ public static final int TRANSIT_TASK_CLOSE = 9 | TRANSIT_EXIT_MASK; /** A window in an existing task is being displayed on top of an existing one * in another activity's task. */ public static final int TRANSIT_TASK_TO_FRONT = 10 | TRANSIT_ENTER_MASK; /** A window in an existing task is being put below all other tasks. */ public static final int TRANSIT_TASK_TO_BACK = 11 | TRANSIT_EXIT_MASK; /** A window in a new activity that doesn't have a wallpaper is being opened on top of one that * does, effectively closing the wallpaper. */ public static final int TRANSIT_WALLPAPER_CLOSE = 12 | TRANSIT_EXIT_MASK; /** A window in a new activity that does have a wallpaper is being opened on one that didn't, * effectively opening the wallpaper. */ public static final int TRANSIT_WALLPAPER_OPEN = 13 | TRANSIT_ENTER_MASK; /** A window in a new activity is being opened on top of an existing one, and both are on top * of the wallpaper. */ public static final int TRANSIT_WALLPAPER_INTRA_OPEN = 14 | TRANSIT_ENTER_MASK; /** The window in the top-most activity is being closed to reveal the previous activity, and * both are on top of the wallpaper. */ public static final int TRANSIT_WALLPAPER_INTRA_CLOSE = 15 | TRANSIT_EXIT_MASK; /** Fraction of animation at which the recents thumbnail becomes completely transparent */ private static final float RECENTS_THUMBNAIL_FADEOUT_FRACTION = 0.25f; private static final long DEFAULT_APP_TRANSITION_DURATION = 250; private final Context mContext; private final Handler mH; private int mNextAppTransition = TRANSIT_UNSET; private static final int NEXT_TRANSIT_TYPE_NONE = 0; private static final int NEXT_TRANSIT_TYPE_CUSTOM = 1; private static final int NEXT_TRANSIT_TYPE_SCALE_UP = 2; private static final int NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP = 3; private static final int NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_DOWN = 4; private int mNextAppTransitionType = NEXT_TRANSIT_TYPE_NONE; private String mNextAppTransitionPackage; private Bitmap mNextAppTransitionThumbnail; // Used for thumbnail transitions. True if we're scaling up, false if scaling down private boolean mNextAppTransitionScaleUp; private IRemoteCallback mNextAppTransitionCallback; private int mNextAppTransitionEnter; private int mNextAppTransitionExit; private int mNextAppTransitionStartX; private int mNextAppTransitionStartY; private int mNextAppTransitionStartWidth; private int mNextAppTransitionStartHeight; private final static int APP_STATE_IDLE = 0; private final static int APP_STATE_READY = 1; private final static int APP_STATE_RUNNING = 2; private final static int APP_STATE_TIMEOUT = 3; private int mAppTransitionState = APP_STATE_IDLE; private final int mConfigShortAnimTime; private final Interpolator mDecelerateInterpolator; private final Interpolator mThumbnailFadeoutInterpolator; private int mCurrentUserId = 0; AppTransition(Context context, Handler h) { mContext = context; mH = h; mConfigShortAnimTime = context.getResources().getInteger( com.android.internal.R.integer.config_shortAnimTime); mDecelerateInterpolator = AnimationUtils.loadInterpolator(context, com.android.internal.R.interpolator.decelerate_cubic); mThumbnailFadeoutInterpolator = new Interpolator() { @Override public float getInterpolation(float input) { // Linear response for first fraction, then complete after that. if (input < RECENTS_THUMBNAIL_FADEOUT_FRACTION) { return input / RECENTS_THUMBNAIL_FADEOUT_FRACTION; } return 1.0f; } }; } boolean isTransitionSet() { return mNextAppTransition != TRANSIT_UNSET; } boolean isTransitionNone() { return mNextAppTransition == TRANSIT_NONE; } boolean isTransitionEqual(int transit) { return mNextAppTransition == transit; } int getAppTransition() { return mNextAppTransition; } void setAppTransition(int transit) { mNextAppTransition = transit; } boolean isReady() { return mAppTransitionState == APP_STATE_READY || mAppTransitionState == APP_STATE_TIMEOUT; } void setReady() { mAppTransitionState = APP_STATE_READY; } boolean isRunning() { return mAppTransitionState == APP_STATE_RUNNING; } void setIdle() { mAppTransitionState = APP_STATE_IDLE; } boolean isTimeout() { return mAppTransitionState == APP_STATE_TIMEOUT; } void setTimeout() { mAppTransitionState = APP_STATE_TIMEOUT; } Bitmap getNextAppTransitionThumbnail() { return mNextAppTransitionThumbnail; } void getStartingPoint(Point outPoint) { outPoint.x = mNextAppTransitionStartX; outPoint.y = mNextAppTransitionStartY; } void prepare() { if (!isRunning()) { mAppTransitionState = APP_STATE_IDLE; } } void goodToGo() { mNextAppTransition = TRANSIT_UNSET; mAppTransitionState = APP_STATE_RUNNING; } void clear() { mNextAppTransitionType = NEXT_TRANSIT_TYPE_NONE; mNextAppTransitionPackage = null; mNextAppTransitionThumbnail = null; } void freeze() { setAppTransition(AppTransition.TRANSIT_UNSET); clear(); setReady(); } private AttributeCache.Entry getCachedAnimations(WindowManager.LayoutParams lp) { if (DEBUG_ANIM) Slog.v(TAG, "Loading animations: layout params pkg=" + (lp != null ? lp.packageName : null) + " resId=0x" + (lp != null ? Integer.toHexString(lp.windowAnimations) : null)); if (lp != null && lp.windowAnimations != 0) { // If this is a system resource, don't try to load it from the // application resources. It is nice to avoid loading application // resources if we can. String packageName = lp.packageName != null ? lp.packageName : "android"; int resId = lp.windowAnimations; if ((resId&0xFF000000) == 0x01000000) { packageName = "android"; } if (DEBUG_ANIM) Slog.v(TAG, "Loading animations: picked package=" + packageName); return AttributeCache.instance().get(packageName, resId, com.android.internal.R.styleable.WindowAnimation, mCurrentUserId); } return null; } private AttributeCache.Entry getCachedAnimations(String packageName, int resId) { if (DEBUG_ANIM) Slog.v(TAG, "Loading animations: package=" + packageName + " resId=0x" + Integer.toHexString(resId)); if (packageName != null) { if ((resId&0xFF000000) == 0x01000000) { packageName = "android"; } if (DEBUG_ANIM) Slog.v(TAG, "Loading animations: picked package=" + packageName); return AttributeCache.instance().get(packageName, resId, com.android.internal.R.styleable.WindowAnimation, mCurrentUserId); } return null; } Animation loadAnimation(WindowManager.LayoutParams lp, int animAttr) { int anim = 0; Context context = mContext; if (animAttr >= 0) { AttributeCache.Entry ent = getCachedAnimations(lp); if (ent != null) { context = ent.context; anim = ent.array.getResourceId(animAttr, 0); } } if (anim != 0) { return AnimationUtils.loadAnimation(context, anim); } return null; } private Animation loadAnimation(String packageName, int resId) { int anim = 0; Context context = mContext; if (resId >= 0) { AttributeCache.Entry ent = getCachedAnimations(packageName, resId); if (ent != null) { context = ent.context; anim = resId; } } if (anim != 0) { return AnimationUtils.loadAnimation(context, anim); } return null; } /** * Compute the pivot point for an animation that is scaling from a small * rect on screen to a larger rect. The pivot point varies depending on * the distance between the inner and outer edges on both sides. This * function computes the pivot point for one dimension. * @param startPos Offset from left/top edge of outer rectangle to * left/top edge of inner rectangle. * @param finalScale The scaling factor between the size of the outer * and inner rectangles. */ private static float computePivot(int startPos, float finalScale) { final float denom = finalScale-1; if (Math.abs(denom) < .0001f) { return startPos; } return -startPos / denom; } private Animation createScaleUpAnimationLocked(int transit, boolean enter, int appWidth, int appHeight) { Animation a = null; if (enter) { // Entering app zooms out from the center of the initial rect. float scaleW = mNextAppTransitionStartWidth / (float) appWidth; float scaleH = mNextAppTransitionStartHeight / (float) appHeight; Animation scale = new ScaleAnimation(scaleW, 1, scaleH, 1, computePivot(mNextAppTransitionStartX, scaleW), computePivot(mNextAppTransitionStartY, scaleH)); scale.setInterpolator(mDecelerateInterpolator); Animation alpha = new AlphaAnimation(0, 1); alpha.setInterpolator(mThumbnailFadeoutInterpolator); AnimationSet set = new AnimationSet(false); set.addAnimation(scale); set.addAnimation(alpha); set.setDetachWallpaper(true); a = set; } else if (transit == TRANSIT_WALLPAPER_INTRA_OPEN || transit == TRANSIT_WALLPAPER_INTRA_CLOSE) { // If we are on top of the wallpaper, we need an animation that // correctly handles the wallpaper staying static behind all of // the animated elements. To do this, will just have the existing // element fade out. a = new AlphaAnimation(1, 0); a.setDetachWallpaper(true); } else { // For normal animations, the exiting element just holds in place. a = new AlphaAnimation(1, 1); } // Pick the desired duration. If this is an inter-activity transition, // it is the standard duration for that. Otherwise we use the longer // task transition duration. final long duration; switch (transit) { case TRANSIT_ACTIVITY_OPEN: case TRANSIT_ACTIVITY_CLOSE: duration = mConfigShortAnimTime; break; default: duration = DEFAULT_APP_TRANSITION_DURATION; break; } a.setDuration(duration); a.setFillAfter(true); a.setInterpolator(mDecelerateInterpolator); a.initialize(appWidth, appHeight, appWidth, appHeight); return a; } Animation createThumbnailAnimationLocked(int transit, boolean enter, boolean thumb, int appWidth, int appHeight) { Animation a; final int thumbWidthI = mNextAppTransitionThumbnail.getWidth(); final float thumbWidth = thumbWidthI > 0 ? thumbWidthI : 1; final int thumbHeightI = mNextAppTransitionThumbnail.getHeight(); final float thumbHeight = thumbHeightI > 0 ? thumbHeightI : 1; if (thumb) { // Animation for zooming thumbnail from its initial size to // filling the screen. if (mNextAppTransitionScaleUp) { float scaleW = appWidth / thumbWidth; float scaleH = appHeight / thumbHeight; Animation scale = new ScaleAnimation(1, scaleW, 1, scaleH, computePivot(mNextAppTransitionStartX, 1 / scaleW), computePivot(mNextAppTransitionStartY, 1 / scaleH)); scale.setInterpolator(mDecelerateInterpolator); Animation alpha = new AlphaAnimation(1, 0); alpha.setInterpolator(mThumbnailFadeoutInterpolator); // This AnimationSet uses the Interpolators assigned above. AnimationSet set = new AnimationSet(false); set.addAnimation(scale); set.addAnimation(alpha); a = set; } else { float scaleW = appWidth / thumbWidth; float scaleH = appHeight / thumbHeight; a = new ScaleAnimation(scaleW, 1, scaleH, 1, computePivot(mNextAppTransitionStartX, 1 / scaleW), computePivot(mNextAppTransitionStartY, 1 / scaleH)); } } else if (enter) { // Entering app zooms out from the center of the thumbnail. if (mNextAppTransitionScaleUp) { float scaleW = thumbWidth / appWidth; float scaleH = thumbHeight / appHeight; a = new ScaleAnimation(scaleW, 1, scaleH, 1, computePivot(mNextAppTransitionStartX, scaleW), computePivot(mNextAppTransitionStartY, scaleH)); } else { // noop animation a = new AlphaAnimation(1, 1); } } else { // Exiting app if (mNextAppTransitionScaleUp) { if (transit == TRANSIT_WALLPAPER_INTRA_OPEN) { // Fade out while bringing up selected activity. This keeps the // current activity from showing through a launching wallpaper // activity. a = new AlphaAnimation(1, 0); } else { // noop animation a = new AlphaAnimation(1, 1); } } else { float scaleW = thumbWidth / appWidth; float scaleH = thumbHeight / appHeight; Animation scale = new ScaleAnimation(1, scaleW, 1, scaleH, computePivot(mNextAppTransitionStartX, scaleW), computePivot(mNextAppTransitionStartY, scaleH)); Animation alpha = new AlphaAnimation(1, 0); AnimationSet set = new AnimationSet(true); set.addAnimation(scale); set.addAnimation(alpha); set.setZAdjustment(Animation.ZORDER_TOP); a = set; } } // Pick the desired duration. If this is an inter-activity transition, // it is the standard duration for that. Otherwise we use the longer // task transition duration. final long duration; switch (transit) { case TRANSIT_ACTIVITY_OPEN: case TRANSIT_ACTIVITY_CLOSE: duration = mConfigShortAnimTime; break; default: duration = DEFAULT_APP_TRANSITION_DURATION; break; } a.setDuration(duration); a.setFillAfter(true); a.setInterpolator(mDecelerateInterpolator); a.initialize(appWidth, appHeight, appWidth, appHeight); return a; } Animation loadAnimation(WindowManager.LayoutParams lp, int transit, boolean enter, int appWidth, int appHeight) { Animation a; if (mNextAppTransitionType == NEXT_TRANSIT_TYPE_CUSTOM) { a = loadAnimation(mNextAppTransitionPackage, enter ? mNextAppTransitionEnter : mNextAppTransitionExit); if (DEBUG_APP_TRANSITIONS || DEBUG_ANIM) Slog.v(TAG, "applyAnimation:" + " anim=" + a + " nextAppTransition=ANIM_CUSTOM" + " transit=" + transit + " isEntrance=" + enter + " Callers=" + Debug.getCallers(3)); } else if (mNextAppTransitionType == NEXT_TRANSIT_TYPE_SCALE_UP) { a = createScaleUpAnimationLocked(transit, enter, appWidth, appHeight); if (DEBUG_APP_TRANSITIONS || DEBUG_ANIM) Slog.v(TAG, "applyAnimation:" + " anim=" + a + " nextAppTransition=ANIM_SCALE_UP" + " transit=" + transit + " isEntrance=" + enter + " Callers=" + Debug.getCallers(3)); } else if (mNextAppTransitionType == NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP || mNextAppTransitionType == NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_DOWN) { mNextAppTransitionScaleUp = (mNextAppTransitionType == NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP); a = createThumbnailAnimationLocked(transit, enter, false, appWidth, appHeight); if (DEBUG_APP_TRANSITIONS || DEBUG_ANIM) { String animName = mNextAppTransitionScaleUp ? "ANIM_THUMBNAIL_SCALE_UP" : "ANIM_THUMBNAIL_SCALE_DOWN"; Slog.v(TAG, "applyAnimation:" + " anim=" + a + " nextAppTransition=" + animName + " transit=" + transit + " isEntrance=" + enter + " Callers=" + Debug.getCallers(3)); } } else { int animAttr = 0; switch (transit) { case TRANSIT_ACTIVITY_OPEN: animAttr = enter ? WindowAnimation_activityOpenEnterAnimation : WindowAnimation_activityOpenExitAnimation; break; case TRANSIT_ACTIVITY_CLOSE: animAttr = enter ? WindowAnimation_activityCloseEnterAnimation : WindowAnimation_activityCloseExitAnimation; break; case TRANSIT_TASK_OPEN: animAttr = enter ? WindowAnimation_taskOpenEnterAnimation : WindowAnimation_taskOpenExitAnimation; break; case TRANSIT_TASK_CLOSE: animAttr = enter ? WindowAnimation_taskCloseEnterAnimation : WindowAnimation_taskCloseExitAnimation; break; case TRANSIT_TASK_TO_FRONT: animAttr = enter ? WindowAnimation_taskToFrontEnterAnimation : WindowAnimation_taskToFrontExitAnimation; break; case TRANSIT_TASK_TO_BACK: animAttr = enter ? WindowAnimation_taskToBackEnterAnimation : WindowAnimation_taskToBackExitAnimation; break; case TRANSIT_WALLPAPER_OPEN: animAttr = enter ? WindowAnimation_wallpaperOpenEnterAnimation : WindowAnimation_wallpaperOpenExitAnimation; break; case TRANSIT_WALLPAPER_CLOSE: animAttr = enter ? WindowAnimation_wallpaperCloseEnterAnimation : WindowAnimation_wallpaperCloseExitAnimation; break; case TRANSIT_WALLPAPER_INTRA_OPEN: animAttr = enter ? WindowAnimation_wallpaperIntraOpenEnterAnimation : WindowAnimation_wallpaperIntraOpenExitAnimation; break; case TRANSIT_WALLPAPER_INTRA_CLOSE: animAttr = enter ? WindowAnimation_wallpaperIntraCloseEnterAnimation : WindowAnimation_wallpaperIntraCloseExitAnimation; break; } a = animAttr != 0 ? loadAnimation(lp, animAttr) : null; if (DEBUG_APP_TRANSITIONS || DEBUG_ANIM) Slog.v(TAG, "applyAnimation:" + " anim=" + a + " animAttr=0x" + Integer.toHexString(animAttr) + " transit=" + transit + " isEntrance=" + enter + " Callers=" + Debug.getCallers(3)); } return a; } void postAnimationCallback() { if (mNextAppTransitionCallback != null) { mH.sendMessage(mH.obtainMessage(H.DO_ANIMATION_CALLBACK, mNextAppTransitionCallback)); mNextAppTransitionCallback = null; } } void overridePendingAppTransition(String packageName, int enterAnim, int exitAnim, IRemoteCallback startedCallback) { if (isTransitionSet()) { mNextAppTransitionType = NEXT_TRANSIT_TYPE_CUSTOM; mNextAppTransitionPackage = packageName; mNextAppTransitionThumbnail = null; mNextAppTransitionEnter = enterAnim; mNextAppTransitionExit = exitAnim; postAnimationCallback(); mNextAppTransitionCallback = startedCallback; } else { postAnimationCallback(); } } void overridePendingAppTransitionScaleUp(int startX, int startY, int startWidth, int startHeight) { if (isTransitionSet()) { mNextAppTransitionType = NEXT_TRANSIT_TYPE_SCALE_UP; mNextAppTransitionPackage = null; mNextAppTransitionThumbnail = null; mNextAppTransitionStartX = startX; mNextAppTransitionStartY = startY; mNextAppTransitionStartWidth = startWidth; mNextAppTransitionStartHeight = startHeight; postAnimationCallback(); mNextAppTransitionCallback = null; } } void overridePendingAppTransitionThumb(Bitmap srcThumb, int startX, int startY, IRemoteCallback startedCallback, boolean scaleUp) { if (isTransitionSet()) { mNextAppTransitionType = scaleUp ? NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP : NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_DOWN; mNextAppTransitionPackage = null; mNextAppTransitionThumbnail = srcThumb; mNextAppTransitionScaleUp = scaleUp; mNextAppTransitionStartX = startX; mNextAppTransitionStartY = startY; postAnimationCallback(); mNextAppTransitionCallback = startedCallback; } else { postAnimationCallback(); } } @Override public String toString() { return "mNextAppTransition=0x" + Integer.toHexString(mNextAppTransition); } /** * Returns the human readable name of a window transition. * * @param transition The window transition. * @return The transition symbolic name. */ public static String appTransitionToString(int transition) { switch (transition) { case TRANSIT_UNSET: { return "TRANSIT_UNSET"; } case TRANSIT_NONE: { return "TRANSIT_NONE"; } case TRANSIT_EXIT_MASK: { return "TRANSIT_EXIT_MASK"; } case TRANSIT_ACTIVITY_OPEN: { return "TRANSIT_ACTIVITY_OPEN"; } case TRANSIT_ACTIVITY_CLOSE: { return "TRANSIT_ACTIVITY_CLOSE"; } case TRANSIT_TASK_OPEN: { return "TRANSIT_TASK_OPEN"; } case TRANSIT_TASK_CLOSE: { return "TRANSIT_TASK_CLOSE"; } case TRANSIT_TASK_TO_FRONT: { return "TRANSIT_TASK_TO_FRONT"; } case TRANSIT_TASK_TO_BACK: { return "TRANSIT_TASK_TO_BACK"; } case TRANSIT_WALLPAPER_CLOSE: { return "TRANSIT_WALLPAPER_CLOSE"; } case TRANSIT_WALLPAPER_OPEN: { return "TRANSIT_WALLPAPER_OPEN"; } case TRANSIT_WALLPAPER_INTRA_OPEN: { return "TRANSIT_WALLPAPER_INTRA_OPEN"; } case TRANSIT_WALLPAPER_INTRA_CLOSE: { return "TRANSIT_WALLPAPER_INTRA_CLOSE"; } default: { return ""; } } } private String appStateToString() { switch (mAppTransitionState) { case APP_STATE_IDLE: return "APP_STATE_IDLE"; case APP_STATE_READY: return "APP_STATE_READY"; case APP_STATE_RUNNING: return "APP_STATE_RUNNING"; case APP_STATE_TIMEOUT: return "APP_STATE_TIMEOUT"; default: return "unknown state=" + mAppTransitionState; } } private String transitTypeToString() { switch (mNextAppTransitionType) { case NEXT_TRANSIT_TYPE_NONE: return "NEXT_TRANSIT_TYPE_NONE"; case NEXT_TRANSIT_TYPE_CUSTOM: return "NEXT_TRANSIT_TYPE_CUSTOM"; case NEXT_TRANSIT_TYPE_SCALE_UP: return "NEXT_TRANSIT_TYPE_SCALE_UP"; case NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP: return "NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP"; case NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_DOWN: return "NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_DOWN"; default: return "unknown type=" + mNextAppTransitionType; } } @Override public void dump(PrintWriter pw) { pw.print(" " + this); pw.print(" mAppTransitionState="); pw.println(appStateToString()); if (mNextAppTransitionType != NEXT_TRANSIT_TYPE_NONE) { pw.print(" mNextAppTransitionType="); pw.println(transitTypeToString()); } switch (mNextAppTransitionType) { case NEXT_TRANSIT_TYPE_CUSTOM: pw.print(" mNextAppTransitionPackage="); pw.println(mNextAppTransitionPackage); pw.print(" mNextAppTransitionEnter=0x"); pw.print(Integer.toHexString(mNextAppTransitionEnter)); pw.print(" mNextAppTransitionExit=0x"); pw.println(Integer.toHexString(mNextAppTransitionExit)); break; case NEXT_TRANSIT_TYPE_SCALE_UP: pw.print(" mNextAppTransitionStartX="); pw.print(mNextAppTransitionStartX); pw.print(" mNextAppTransitionStartY="); pw.println(mNextAppTransitionStartY); pw.print(" mNextAppTransitionStartWidth="); pw.print(mNextAppTransitionStartWidth); pw.print(" mNextAppTransitionStartHeight="); pw.println(mNextAppTransitionStartHeight); break; case NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_UP: case NEXT_TRANSIT_TYPE_THUMBNAIL_SCALE_DOWN: pw.print(" mNextAppTransitionThumbnail="); pw.print(mNextAppTransitionThumbnail); pw.print(" mNextAppTransitionStartX="); pw.print(mNextAppTransitionStartX); pw.print(" mNextAppTransitionStartY="); pw.println(mNextAppTransitionStartY); pw.print(" mNextAppTransitionScaleUp="); pw.println(mNextAppTransitionScaleUp); break; } if (mNextAppTransitionCallback != null) { pw.print(" mNextAppTransitionCallback="); pw.println(mNextAppTransitionCallback); } } public void setCurrentUser(int newUserId) { mCurrentUserId = newUserId; } }