/* * Copyright (C) 2013 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 static android.app.ActivityManager.RESIZE_MODE_SYSTEM_SCREEN_ROTATION; import static android.app.ActivityManager.StackId.DOCKED_STACK_ID; import static android.app.ActivityManager.StackId.PINNED_STACK_ID; import static android.app.ActivityManager.StackId.FREEFORM_WORKSPACE_STACK_ID; import static android.app.ActivityManager.StackId.HOME_STACK_ID; import static android.content.pm.ActivityInfo.RESIZE_MODE_CROP_WINDOWS; import static android.content.res.Configuration.ORIENTATION_LANDSCAPE; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_RESIZE; import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_STACK; import static com.android.server.wm.WindowManagerDebugConfig.TAG_WITH_CLASS_NAME; import static com.android.server.wm.WindowManagerDebugConfig.TAG_WM; import static com.android.server.wm.WindowManagerService.H.RESIZE_TASK; import static android.view.WindowManager.LayoutParams.TYPE_BASE_APPLICATION; import android.app.ActivityManager.StackId; import android.content.pm.ActivityInfo; import android.content.res.Configuration; import android.graphics.Rect; import android.util.EventLog; import android.util.Slog; import android.view.DisplayInfo; import android.view.Surface; import com.android.server.EventLogTags; import java.io.PrintWriter; import java.util.ArrayList; class Task implements DimLayer.DimLayerUser { static final String TAG = TAG_WITH_CLASS_NAME ? "Task" : TAG_WM; // Return value from {@link setBounds} indicating no change was made to the Task bounds. static final int BOUNDS_CHANGE_NONE = 0; // Return value from {@link setBounds} indicating the position of the Task bounds changed. static final int BOUNDS_CHANGE_POSITION = 1; // Return value from {@link setBounds} indicating the size of the Task bounds changed. static final int BOUNDS_CHANGE_SIZE = 1 << 1; TaskStack mStack; final AppTokenList mAppTokens = new AppTokenList(); final int mTaskId; final int mUserId; boolean mDeferRemoval = false; final WindowManagerService mService; // Content limits relative to the DisplayContent this sits in. private Rect mBounds = new Rect(); final Rect mPreparedFrozenBounds = new Rect(); final Configuration mPreparedFrozenMergedConfig = new Configuration(); private Rect mPreScrollBounds = new Rect(); private boolean mScrollValid; // Bounds used to calculate the insets. private final Rect mTempInsetBounds = new Rect(); // Device rotation as of the last time {@link #mBounds} was set. int mRotation; // Whether mBounds is fullscreen private boolean mFullscreen = true; // Contains configurations settings that are different from the global configuration due to // stack specific operations. E.g. {@link #setBounds}. Configuration mOverrideConfig = Configuration.EMPTY; // For comparison with DisplayContent bounds. private Rect mTmpRect = new Rect(); // For handling display rotations. private Rect mTmpRect2 = new Rect(); // Resize mode of the task. See {@link ActivityInfo#resizeMode} private int mResizeMode; // Whether the task is currently being drag-resized private boolean mDragResizing; private int mDragResizeMode; private boolean mHomeTask; Task(int taskId, TaskStack stack, int userId, WindowManagerService service, Rect bounds, Configuration config) { mTaskId = taskId; mStack = stack; mUserId = userId; mService = service; setBounds(bounds, config); } DisplayContent getDisplayContent() { return mStack.getDisplayContent(); } void addAppToken(int addPos, AppWindowToken wtoken, int resizeMode, boolean homeTask) { final int lastPos = mAppTokens.size(); if (addPos >= lastPos) { addPos = lastPos; } else { for (int pos = 0; pos < lastPos && pos < addPos; ++pos) { if (mAppTokens.get(pos).removed) { // addPos assumes removed tokens are actually gone. ++addPos; } } } mAppTokens.add(addPos, wtoken); wtoken.mTask = this; mDeferRemoval = false; mResizeMode = resizeMode; mHomeTask = homeTask; } private boolean hasWindowsAlive() { for (int i = mAppTokens.size() - 1; i >= 0; i--) { if (mAppTokens.get(i).hasWindowsAlive()) { return true; } } return false; } void removeLocked() { if (hasWindowsAlive() && mStack.isAnimating()) { if (DEBUG_STACK) Slog.i(TAG, "removeTask: deferring removing taskId=" + mTaskId); mDeferRemoval = true; return; } if (DEBUG_STACK) Slog.i(TAG, "removeTask: removing taskId=" + mTaskId); EventLog.writeEvent(EventLogTags.WM_TASK_REMOVED, mTaskId, "removeTask"); mDeferRemoval = false; DisplayContent content = getDisplayContent(); if (content != null) { content.mDimLayerController.removeDimLayerUser(this); } mStack.removeTask(this); mService.mTaskIdToTask.delete(mTaskId); } void moveTaskToStack(TaskStack stack, boolean toTop) { if (stack == mStack) { return; } if (DEBUG_STACK) Slog.i(TAG, "moveTaskToStack: removing taskId=" + mTaskId + " from stack=" + mStack); EventLog.writeEvent(EventLogTags.WM_TASK_REMOVED, mTaskId, "moveTask"); if (mStack != null) { mStack.removeTask(this); } stack.addTask(this, toTop); } void positionTaskInStack(TaskStack stack, int position, Rect bounds, Configuration config) { if (mStack != null && stack != mStack) { if (DEBUG_STACK) Slog.i(TAG, "positionTaskInStack: removing taskId=" + mTaskId + " from stack=" + mStack); EventLog.writeEvent(EventLogTags.WM_TASK_REMOVED, mTaskId, "moveTask"); mStack.removeTask(this); } stack.positionTask(this, position, showForAllUsers()); resizeLocked(bounds, config, false /* force */); for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { final ArrayList windows = mAppTokens.get(activityNdx).allAppWindows; for (int winNdx = windows.size() - 1; winNdx >= 0; --winNdx) { final WindowState win = windows.get(winNdx); win.notifyMovedInStack(); } } } boolean removeAppToken(AppWindowToken wtoken) { boolean removed = mAppTokens.remove(wtoken); if (mAppTokens.size() == 0) { EventLog.writeEvent(EventLogTags.WM_TASK_REMOVED, mTaskId, "removeAppToken: last token"); if (mDeferRemoval) { removeLocked(); } } wtoken.mTask = null; /* Leave mTaskId for now, it might be useful for debug wtoken.mTaskId = -1; */ return removed; } void setSendingToBottom(boolean toBottom) { for (int appTokenNdx = 0; appTokenNdx < mAppTokens.size(); appTokenNdx++) { mAppTokens.get(appTokenNdx).sendingToBottom = toBottom; } } /** Set the task bounds. Passing in null sets the bounds to fullscreen. */ private int setBounds(Rect bounds, Configuration config) { if (config == null) { config = Configuration.EMPTY; } if (bounds == null && !Configuration.EMPTY.equals(config)) { throw new IllegalArgumentException("null bounds but non empty configuration: " + config); } if (bounds != null && Configuration.EMPTY.equals(config)) { throw new IllegalArgumentException("non null bounds, but empty configuration"); } boolean oldFullscreen = mFullscreen; int rotation = Surface.ROTATION_0; final DisplayContent displayContent = mStack.getDisplayContent(); if (displayContent != null) { displayContent.getLogicalDisplayRect(mTmpRect); rotation = displayContent.getDisplayInfo().rotation; mFullscreen = bounds == null; if (mFullscreen) { bounds = mTmpRect; } } if (bounds == null) { // Can't set to fullscreen if we don't have a display to get bounds from... return BOUNDS_CHANGE_NONE; } if (mPreScrollBounds.equals(bounds) && oldFullscreen == mFullscreen && mRotation == rotation) { return BOUNDS_CHANGE_NONE; } int boundsChange = BOUNDS_CHANGE_NONE; if (mPreScrollBounds.left != bounds.left || mPreScrollBounds.top != bounds.top) { boundsChange |= BOUNDS_CHANGE_POSITION; } if (mPreScrollBounds.width() != bounds.width() || mPreScrollBounds.height() != bounds.height()) { boundsChange |= BOUNDS_CHANGE_SIZE; } mPreScrollBounds.set(bounds); resetScrollLocked(); mRotation = rotation; if (displayContent != null) { displayContent.mDimLayerController.updateDimLayer(this); } mOverrideConfig = mFullscreen ? Configuration.EMPTY : config; return boundsChange; } /** * Sets the bounds used to calculate the insets. See * {@link android.app.IActivityManager#resizeDockedStack} why this is needed. */ void setTempInsetBounds(Rect tempInsetBounds) { if (tempInsetBounds != null) { mTempInsetBounds.set(tempInsetBounds); } else { mTempInsetBounds.setEmpty(); } } /** * Gets the bounds used to calculate the insets. See * {@link android.app.IActivityManager#resizeDockedStack} why this is needed. */ void getTempInsetBounds(Rect out) { out.set(mTempInsetBounds); } void setResizeable(int resizeMode) { mResizeMode = resizeMode; } boolean isResizeable() { return !mHomeTask && (ActivityInfo.isResizeableMode(mResizeMode) || mService.mForceResizableTasks); } boolean cropWindowsToStackBounds() { return !mHomeTask && (isResizeable() || mResizeMode == RESIZE_MODE_CROP_WINDOWS); } boolean isHomeTask() { return mHomeTask; } private boolean inCropWindowsResizeMode() { return !mHomeTask && !isResizeable() && mResizeMode == RESIZE_MODE_CROP_WINDOWS; } boolean resizeLocked(Rect bounds, Configuration configuration, boolean forced) { int boundsChanged = setBounds(bounds, configuration); if (forced) { boundsChanged |= BOUNDS_CHANGE_SIZE; } if (boundsChanged == BOUNDS_CHANGE_NONE) { return false; } if ((boundsChanged & BOUNDS_CHANGE_SIZE) == BOUNDS_CHANGE_SIZE) { resizeWindows(); } else { moveWindows(); } return true; } /** * Prepares the task bounds to be frozen with the current size. See * {@link AppWindowToken#freezeBounds}. */ void prepareFreezingBounds() { mPreparedFrozenBounds.set(mBounds); mPreparedFrozenMergedConfig.setTo(mService.mCurConfiguration); mPreparedFrozenMergedConfig.updateFrom(mOverrideConfig); } /** * Align the task to the adjusted bounds. * * @param adjustedBounds Adjusted bounds to which the task should be aligned. * @param tempInsetBounds Insets bounds for the task. * @param alignBottom True if the task's bottom should be aligned to the adjusted * bounds's bottom; false if the task's top should be aligned * the adjusted bounds's top. */ void alignToAdjustedBounds( Rect adjustedBounds, Rect tempInsetBounds, boolean alignBottom) { if (!isResizeable() || mOverrideConfig == Configuration.EMPTY) { return; } getBounds(mTmpRect2); if (alignBottom) { int offsetY = adjustedBounds.bottom - mTmpRect2.bottom; mTmpRect2.offset(0, offsetY); } else { mTmpRect2.offsetTo(adjustedBounds.left, adjustedBounds.top); } setTempInsetBounds(tempInsetBounds); resizeLocked(mTmpRect2, mOverrideConfig, false /* forced */); } void resetScrollLocked() { if (mScrollValid) { mScrollValid = false; applyScrollToAllWindows(0, 0); } mBounds.set(mPreScrollBounds); } void applyScrollToAllWindows(final int xOffset, final int yOffset) { for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { final ArrayList windows = mAppTokens.get(activityNdx).allAppWindows; for (int winNdx = windows.size() - 1; winNdx >= 0; --winNdx) { final WindowState win = windows.get(winNdx); win.mXOffset = xOffset; win.mYOffset = yOffset; } } } void applyScrollToWindowIfNeeded(final WindowState win) { if (mScrollValid) { win.mXOffset = mBounds.left; win.mYOffset = mBounds.top; } } boolean scrollLocked(Rect bounds) { // shift the task bound if it doesn't fully cover the stack area mStack.getDimBounds(mTmpRect); if (mService.mCurConfiguration.orientation == ORIENTATION_LANDSCAPE) { if (bounds.left > mTmpRect.left) { bounds.left = mTmpRect.left; bounds.right = mTmpRect.left + mBounds.width(); } else if (bounds.right < mTmpRect.right) { bounds.left = mTmpRect.right - mBounds.width(); bounds.right = mTmpRect.right; } } else { if (bounds.top > mTmpRect.top) { bounds.top = mTmpRect.top; bounds.bottom = mTmpRect.top + mBounds.height(); } else if (bounds.bottom < mTmpRect.bottom) { bounds.top = mTmpRect.bottom - mBounds.height(); bounds.bottom = mTmpRect.bottom; } } // We can stop here if we're already scrolling and the scrolled bounds not changed. if (mScrollValid && bounds.equals(mBounds)) { return false; } // Normal setBounds() does not allow non-null bounds for fullscreen apps. // We only change bounds for the scrolling case without change it size, // on resizing path we should still want the validation. mBounds.set(bounds); mScrollValid = true; applyScrollToAllWindows(bounds.left, bounds.top); return true; } /** Return true if the current bound can get outputted to the rest of the system as-is. */ private boolean useCurrentBounds() { final DisplayContent displayContent = mStack.getDisplayContent(); if (mFullscreen || !StackId.isTaskResizeableByDockedStack(mStack.mStackId) || displayContent == null || displayContent.getDockedStackVisibleForUserLocked() != null) { return true; } return false; } /** Original bounds of the task if applicable, otherwise fullscreen rect. */ void getBounds(Rect out) { if (useCurrentBounds()) { // No need to adjust the output bounds if fullscreen or the docked stack is visible // since it is already what we want to represent to the rest of the system. out.set(mBounds); return; } // The bounds has been adjusted to accommodate for a docked stack, but the docked stack is // not currently visible. Go ahead a represent it as fullscreen to the rest of the system. mStack.getDisplayContent().getLogicalDisplayRect(out); } /** * Calculate the maximum visible area of this task. If the task has only one app, * the result will be visible frame of that app. If the task has more than one apps, * we search from top down if the next app got different visible area. * * This effort is to handle the case where some task (eg. GMail composer) might pop up * a dialog that's different in size from the activity below, in which case we should * be dimming the entire task area behind the dialog. * * @param out Rect containing the max visible bounds. * @return true if the task has some visible app windows; false otherwise. */ boolean getMaxVisibleBounds(Rect out) { boolean foundTop = false; for (int i = mAppTokens.size() - 1; i >= 0; i--) { final AppWindowToken token = mAppTokens.get(i); // skip hidden (or about to hide) apps if (token.mIsExiting || token.clientHidden || token.hiddenRequested) { continue; } final WindowState win = token.findMainWindow(); if (win == null) { continue; } if (!foundTop) { out.set(win.mVisibleFrame); foundTop = true; continue; } if (win.mVisibleFrame.left < out.left) { out.left = win.mVisibleFrame.left; } if (win.mVisibleFrame.top < out.top) { out.top = win.mVisibleFrame.top; } if (win.mVisibleFrame.right > out.right) { out.right = win.mVisibleFrame.right; } if (win.mVisibleFrame.bottom > out.bottom) { out.bottom = win.mVisibleFrame.bottom; } } return foundTop; } /** Bounds of the task to be used for dimming, as well as touch related tests. */ @Override public void getDimBounds(Rect out) { final DisplayContent displayContent = mStack.getDisplayContent(); // It doesn't matter if we in particular are part of the resize, since we couldn't have // a DimLayer anyway if we weren't visible. final boolean dockedResizing = displayContent != null ? displayContent.mDividerControllerLocked.isResizing() : false; if (useCurrentBounds()) { if (inFreeformWorkspace() && getMaxVisibleBounds(out)) { return; } if (!mFullscreen) { // When minimizing the docked stack when going home, we don't adjust the task bounds // so we need to intersect the task bounds with the stack bounds here. // // If we are Docked Resizing with snap points, the task bounds could be smaller than the stack // bounds and so we don't even want to use them. Even if the app should not be resized the Dim // should keep up with the divider. if (dockedResizing) { mStack.getBounds(out); } else { mStack.getBounds(mTmpRect); mTmpRect.intersect(mBounds); } out.set(mTmpRect); } else { out.set(mBounds); } return; } // The bounds has been adjusted to accommodate for a docked stack, but the docked stack // is not currently visible. Go ahead a represent it as fullscreen to the rest of the // system. displayContent.getLogicalDisplayRect(out); } void setDragResizing(boolean dragResizing, int dragResizeMode) { if (mDragResizing != dragResizing) { if (!DragResizeMode.isModeAllowedForStack(mStack.mStackId, dragResizeMode)) { throw new IllegalArgumentException("Drag resize mode not allow for stack stackId=" + mStack.mStackId + " dragResizeMode=" + dragResizeMode); } mDragResizing = dragResizing; mDragResizeMode = dragResizeMode; resetDragResizingChangeReported(); } } void resetDragResizingChangeReported() { for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { final ArrayList windows = mAppTokens.get(activityNdx).allAppWindows; for (int winNdx = windows.size() - 1; winNdx >= 0; --winNdx) { final WindowState win = windows.get(winNdx); win.resetDragResizingChangeReported(); } } } boolean isDragResizing() { return mDragResizing || (mStack != null && mStack.isDragResizing()); } int getDragResizeMode() { return mDragResizeMode; } /** * Adds all of the tasks windows to {@link WindowManagerService#mWaitingForDrawn} if drag * resizing state of the window has been changed. */ void addWindowsWaitingForDrawnIfResizingChanged() { for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { final ArrayList windows = mAppTokens.get(activityNdx).allAppWindows; for (int winNdx = windows.size() - 1; winNdx >= 0; --winNdx) { final WindowState win = windows.get(winNdx); if (win.isDragResizeChanged()) { mService.mWaitingForDrawn.add(win); } } } } void updateDisplayInfo(final DisplayContent displayContent) { if (displayContent == null) { return; } if (mFullscreen) { setBounds(null, Configuration.EMPTY); return; } final int newRotation = displayContent.getDisplayInfo().rotation; if (mRotation == newRotation) { return; } // Device rotation changed. // - Reset the bounds to the pre-scroll bounds as whatever scrolling was done is no longer // valid. // - Rotate the bounds and notify activity manager if the task can be resized independently // from its stack. The stack will take care of task rotation for the other case. mTmpRect2.set(mPreScrollBounds); if (!StackId.isTaskResizeAllowed(mStack.mStackId)) { setBounds(mTmpRect2, mOverrideConfig); return; } displayContent.rotateBounds(mRotation, newRotation, mTmpRect2); if (setBounds(mTmpRect2, mOverrideConfig) != BOUNDS_CHANGE_NONE) { // Post message to inform activity manager of the bounds change simulating a one-way // call. We do this to prevent a deadlock between window manager lock and activity // manager lock been held. mService.mH.obtainMessage(RESIZE_TASK, mTaskId, RESIZE_MODE_SYSTEM_SCREEN_ROTATION, mPreScrollBounds).sendToTarget(); } } void resizeWindows() { final ArrayList resizingWindows = mService.mResizingWindows; for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { final AppWindowToken atoken = mAppTokens.get(activityNdx); // Some windows won't go through the resizing process, if they don't have a surface, so // destroy all saved surfaces here. atoken.destroySavedSurfaces(); final ArrayList windows = atoken.allAppWindows; for (int winNdx = windows.size() - 1; winNdx >= 0; --winNdx) { final WindowState win = windows.get(winNdx); if (win.mHasSurface && !resizingWindows.contains(win)) { if (DEBUG_RESIZE) Slog.d(TAG, "resizeWindows: Resizing " + win); resizingWindows.add(win); // If we are not drag resizing, force recreating of a new surface so updating // the content and positioning that surface will be in sync. // // As we use this flag as a hint to freeze surface boundary updates, // we'd like to only apply this to TYPE_BASE_APPLICATION, // windows of TYPE_APPLICATION like dialogs, could appear // to not be drag resizing while they resize, but we'd // still like to manipulate their frame to update crop, etc... // // Anyway we don't need to synchronize position and content updates for these // windows since they aren't at the base layer and could be moved around anyway. if (!win.computeDragResizing() && win.mAttrs.type == TYPE_BASE_APPLICATION && !mStack.getBoundsAnimating() && !win.isGoneForLayoutLw() && !inPinnedWorkspace()) { win.setResizedWhileNotDragResizing(true); } } if (win.isGoneForLayoutLw()) { win.mResizedWhileGone = true; } } } } void moveWindows() { for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { final ArrayList windows = mAppTokens.get(activityNdx).allAppWindows; for (int winNdx = windows.size() - 1; winNdx >= 0; --winNdx) { final WindowState win = windows.get(winNdx); if (DEBUG_RESIZE) Slog.d(TAG, "moveWindows: Moving " + win); win.mMovedByResize = true; } } } /** * Cancels any running app transitions associated with the task. */ void cancelTaskWindowTransition() { for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { mAppTokens.get(activityNdx).mAppAnimator.clearAnimation(); } } /** * Cancels any running thumbnail transitions associated with the task. */ void cancelTaskThumbnailTransition() { for (int activityNdx = mAppTokens.size() - 1; activityNdx >= 0; --activityNdx) { mAppTokens.get(activityNdx).mAppAnimator.clearThumbnail(); } } boolean showForAllUsers() { final int tokensCount = mAppTokens.size(); return (tokensCount != 0) && mAppTokens.get(tokensCount - 1).showForAllUsers; } boolean isVisibleForUser() { for (int i = mAppTokens.size() - 1; i >= 0; i--) { final AppWindowToken appToken = mAppTokens.get(i); for (int j = appToken.allAppWindows.size() - 1; j >= 0; j--) { WindowState window = appToken.allAppWindows.get(j); if (!window.isHiddenFromUserLocked()) { return true; } } } return false; } boolean isVisible() { for (int i = mAppTokens.size() - 1; i >= 0; i--) { final AppWindowToken appToken = mAppTokens.get(i); if (appToken.isVisible()) { return true; } } return false; } boolean inHomeStack() { return mStack != null && mStack.mStackId == HOME_STACK_ID; } boolean inFreeformWorkspace() { return mStack != null && mStack.mStackId == FREEFORM_WORKSPACE_STACK_ID; } boolean inDockedWorkspace() { return mStack != null && mStack.mStackId == DOCKED_STACK_ID; } boolean inPinnedWorkspace() { return mStack != null && mStack.mStackId == PINNED_STACK_ID; } boolean isResizeableByDockedStack() { final DisplayContent displayContent = getDisplayContent(); return displayContent != null && displayContent.getDockedStackLocked() != null && mStack != null && StackId.isTaskResizeableByDockedStack(mStack.mStackId); } boolean isFloating() { return StackId.tasksAreFloating(mStack.mStackId); } /** * Whether the task should be treated as if it's docked. Returns true if the task * is currently in docked workspace, or it's side-by-side to a docked task. */ boolean isDockedInEffect() { return inDockedWorkspace() || isResizeableByDockedStack(); } boolean isTwoFingerScrollMode() { return inCropWindowsResizeMode() && isDockedInEffect(); } WindowState getTopVisibleAppMainWindow() { final AppWindowToken token = getTopVisibleAppToken(); return token != null ? token.findMainWindow() : null; } AppWindowToken getTopVisibleAppToken() { for (int i = mAppTokens.size() - 1; i >= 0; i--) { final AppWindowToken token = mAppTokens.get(i); // skip hidden (or about to hide) apps if (!token.mIsExiting && !token.clientHidden && !token.hiddenRequested) { return token; } } return null; } AppWindowToken getTopAppToken() { return mAppTokens.size() > 0 ? mAppTokens.get(mAppTokens.size() - 1) : null; } @Override public boolean dimFullscreen() { return isHomeTask() || isFullscreen(); } boolean isFullscreen() { if (useCurrentBounds()) { return mFullscreen; } // The bounds has been adjusted to accommodate for a docked stack, but the docked stack // is not currently visible. Go ahead a represent it as fullscreen to the rest of the // system. return true; } @Override public DisplayInfo getDisplayInfo() { return mStack.getDisplayContent().getDisplayInfo(); } @Override public String toString() { return "{taskId=" + mTaskId + " appTokens=" + mAppTokens + " mdr=" + mDeferRemoval + "}"; } @Override public String toShortString() { return "Task=" + mTaskId; } public void dump(String prefix, PrintWriter pw) { final String doublePrefix = prefix + " "; pw.println(prefix + "taskId=" + mTaskId); pw.println(doublePrefix + "mFullscreen=" + mFullscreen); pw.println(doublePrefix + "mBounds=" + mBounds.toShortString()); pw.println(doublePrefix + "mdr=" + mDeferRemoval); pw.println(doublePrefix + "appTokens=" + mAppTokens); pw.println(doublePrefix + "mTempInsetBounds=" + mTempInsetBounds.toShortString()); final String triplePrefix = doublePrefix + " "; for (int i = mAppTokens.size() - 1; i >= 0; i--) { final AppWindowToken wtoken = mAppTokens.get(i); pw.println(triplePrefix + "Activity #" + i + " " + wtoken); wtoken.dump(pw, triplePrefix); } } }