/* * Copyright (C) 2014 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.systemui.recents.views; import static android.app.ActivityManager.StackId.FREEFORM_WORKSPACE_STACK_ID; import static android.app.ActivityManager.StackId.FULLSCREEN_WORKSPACE_STACK_ID; import static android.app.ActivityManager.StackId.INVALID_STACK_ID; import android.animation.ObjectAnimator; import android.animation.ValueAnimator; import android.annotation.IntDef; import android.content.ComponentName; import android.content.Context; import android.content.res.Configuration; import android.content.res.Resources; import android.graphics.Canvas; import android.graphics.Rect; import android.graphics.drawable.Drawable; import android.graphics.drawable.GradientDrawable; import android.os.Bundle; import android.provider.Settings; import android.util.ArrayMap; import android.util.ArraySet; import android.util.MutableBoolean; import android.view.LayoutInflater; import android.view.MotionEvent; import android.view.View; import android.view.ViewDebug; import android.view.ViewGroup; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityNodeInfo; import android.widget.FrameLayout; import android.widget.ScrollView; import com.android.internal.logging.MetricsLogger; import com.android.internal.logging.MetricsProto.MetricsEvent; import com.android.systemui.Interpolators; import com.android.systemui.R; import com.android.systemui.recents.Recents; import com.android.systemui.recents.RecentsActivity; import com.android.systemui.recents.RecentsActivityLaunchState; import com.android.systemui.recents.RecentsConfiguration; import com.android.systemui.recents.RecentsDebugFlags; import com.android.systemui.recents.events.EventBus; import com.android.systemui.recents.events.activity.CancelEnterRecentsWindowAnimationEvent; import com.android.systemui.recents.events.activity.ConfigurationChangedEvent; import com.android.systemui.recents.events.activity.DismissRecentsToHomeAnimationStarted; import com.android.systemui.recents.events.activity.EnterRecentsTaskStackAnimationCompletedEvent; import com.android.systemui.recents.events.activity.EnterRecentsWindowAnimationCompletedEvent; import com.android.systemui.recents.events.activity.HideRecentsEvent; import com.android.systemui.recents.events.activity.HideStackActionButtonEvent; import com.android.systemui.recents.events.activity.IterateRecentsEvent; import com.android.systemui.recents.events.activity.LaunchNextTaskRequestEvent; import com.android.systemui.recents.events.activity.LaunchTaskEvent; import com.android.systemui.recents.events.activity.LaunchTaskStartedEvent; import com.android.systemui.recents.events.activity.MultiWindowStateChangedEvent; import com.android.systemui.recents.events.activity.PackagesChangedEvent; import com.android.systemui.recents.events.activity.ShowStackActionButtonEvent; import com.android.systemui.recents.events.ui.AllTaskViewsDismissedEvent; import com.android.systemui.recents.events.ui.DeleteTaskDataEvent; import com.android.systemui.recents.events.ui.DismissAllTaskViewsEvent; import com.android.systemui.recents.events.ui.DismissTaskViewEvent; import com.android.systemui.recents.events.ui.RecentsGrowingEvent; import com.android.systemui.recents.events.ui.TaskViewDismissedEvent; import com.android.systemui.recents.events.ui.UpdateFreeformTaskViewVisibilityEvent; import com.android.systemui.recents.events.ui.UserInteractionEvent; import com.android.systemui.recents.events.ui.dragndrop.DragDropTargetChangedEvent; import com.android.systemui.recents.events.ui.dragndrop.DragEndEvent; import com.android.systemui.recents.events.ui.dragndrop.DragEndCancelledEvent; import com.android.systemui.recents.events.ui.dragndrop.DragStartEvent; import com.android.systemui.recents.events.ui.dragndrop.DragStartInitializeDropTargetsEvent; import com.android.systemui.recents.events.ui.focus.DismissFocusedTaskViewEvent; import com.android.systemui.recents.events.ui.focus.FocusNextTaskViewEvent; import com.android.systemui.recents.events.ui.focus.FocusPreviousTaskViewEvent; import com.android.systemui.recents.misc.DozeTrigger; import com.android.systemui.recents.misc.SystemServicesProxy; import com.android.systemui.recents.misc.Utilities; import com.android.systemui.recents.model.Task; import com.android.systemui.recents.model.TaskStack; import java.io.PrintWriter; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.util.ArrayList; import java.util.List; /* The visual representation of a task stack view */ public class TaskStackView extends FrameLayout implements TaskStack.TaskStackCallbacks, TaskView.TaskViewCallbacks, TaskStackViewScroller.TaskStackViewScrollerCallbacks, TaskStackLayoutAlgorithm.TaskStackLayoutAlgorithmCallbacks, ViewPool.ViewPoolConsumer { private static final String TAG = "TaskStackView"; // The thresholds at which to show/hide the stack action button. private static final float SHOW_STACK_ACTION_BUTTON_SCROLL_THRESHOLD = 0.3f; private static final float HIDE_STACK_ACTION_BUTTON_SCROLL_THRESHOLD = 0.3f; public static final int DEFAULT_SYNC_STACK_DURATION = 200; public static final int SLOW_SYNC_STACK_DURATION = 250; private static final int DRAG_SCALE_DURATION = 175; static final float DRAG_SCALE_FACTOR = 1.05f; private static final int LAUNCH_NEXT_SCROLL_BASE_DURATION = 216; private static final int LAUNCH_NEXT_SCROLL_INCR_DURATION = 32; // The actions to perform when resetting to initial state, @Retention(RetentionPolicy.SOURCE) @IntDef({INITIAL_STATE_UPDATE_NONE, INITIAL_STATE_UPDATE_ALL, INITIAL_STATE_UPDATE_LAYOUT_ONLY}) public @interface InitialStateAction {} /** Do not update the stack and layout to the initial state. */ private static final int INITIAL_STATE_UPDATE_NONE = 0; /** Update both the stack and layout to the initial state. */ private static final int INITIAL_STATE_UPDATE_ALL = 1; /** Update only the layout to the initial state. */ private static final int INITIAL_STATE_UPDATE_LAYOUT_ONLY = 2; private LayoutInflater mInflater; private TaskStack mStack = new TaskStack(); @ViewDebug.ExportedProperty(deepExport=true, prefix="layout_") TaskStackLayoutAlgorithm mLayoutAlgorithm; // The stable layout algorithm is only used to calculate the task rect with the stable bounds private TaskStackLayoutAlgorithm mStableLayoutAlgorithm; @ViewDebug.ExportedProperty(deepExport=true, prefix="scroller_") private TaskStackViewScroller mStackScroller; @ViewDebug.ExportedProperty(deepExport=true, prefix="touch_") private TaskStackViewTouchHandler mTouchHandler; private TaskStackAnimationHelper mAnimationHelper; private GradientDrawable mFreeformWorkspaceBackground; private ObjectAnimator mFreeformWorkspaceBackgroundAnimator; private ViewPool mViewPool; private ArrayList mTaskViews = new ArrayList<>(); private ArrayList mCurrentTaskTransforms = new ArrayList<>(); private ArraySet mIgnoreTasks = new ArraySet<>(); private AnimationProps mDeferredTaskViewLayoutAnimation = null; @ViewDebug.ExportedProperty(deepExport=true, prefix="doze_") private DozeTrigger mUIDozeTrigger; @ViewDebug.ExportedProperty(deepExport=true, prefix="focused_task_") private Task mFocusedTask; private int mTaskCornerRadiusPx; private int mDividerSize; private int mStartTimerIndicatorDuration; @ViewDebug.ExportedProperty(category="recents") private boolean mTaskViewsClipDirty = true; @ViewDebug.ExportedProperty(category="recents") private boolean mAwaitingFirstLayout = true; @ViewDebug.ExportedProperty(category="recents") @InitialStateAction private int mInitialState = INITIAL_STATE_UPDATE_ALL; @ViewDebug.ExportedProperty(category="recents") private boolean mInMeasureLayout = false; @ViewDebug.ExportedProperty(category="recents") private boolean mEnterAnimationComplete = false; @ViewDebug.ExportedProperty(category="recents") boolean mTouchExplorationEnabled; @ViewDebug.ExportedProperty(category="recents") boolean mScreenPinningEnabled; // The stable stack bounds are the full bounds that we were measured with from RecentsView @ViewDebug.ExportedProperty(category="recents") private Rect mStableStackBounds = new Rect(); // The current stack bounds are dynamic and may change as the user drags and drops @ViewDebug.ExportedProperty(category="recents") private Rect mStackBounds = new Rect(); // The current window bounds at the point we were measured @ViewDebug.ExportedProperty(category="recents") private Rect mStableWindowRect = new Rect(); // The current window bounds are dynamic and may change as the user drags and drops @ViewDebug.ExportedProperty(category="recents") private Rect mWindowRect = new Rect(); // The current display bounds @ViewDebug.ExportedProperty(category="recents") private Rect mDisplayRect = new Rect(); // The current display orientation @ViewDebug.ExportedProperty(category="recents") private int mDisplayOrientation = Configuration.ORIENTATION_UNDEFINED; private Rect mTmpRect = new Rect(); private ArrayMap mTmpTaskViewMap = new ArrayMap<>(); private List mTmpTaskViews = new ArrayList<>(); private TaskViewTransform mTmpTransform = new TaskViewTransform(); private int[] mTmpIntPair = new int[2]; private boolean mResetToInitialStateWhenResized; private int mLastWidth; private int mLastHeight; // A convenience update listener to request updating clipping of tasks private ValueAnimator.AnimatorUpdateListener mRequestUpdateClippingListener = new ValueAnimator.AnimatorUpdateListener() { @Override public void onAnimationUpdate(ValueAnimator animation) { if (!mTaskViewsClipDirty) { mTaskViewsClipDirty = true; invalidate(); } } }; // The drop targets for a task drag private DropTarget mFreeformWorkspaceDropTarget = new DropTarget() { @Override public boolean acceptsDrop(int x, int y, int width, int height, boolean isCurrentTarget) { // This drop target has a fixed bounds and should be checked last, so just fall through // if it is the current target if (!isCurrentTarget) { return mLayoutAlgorithm.mFreeformRect.contains(x, y); } return false; } }; private DropTarget mStackDropTarget = new DropTarget() { @Override public boolean acceptsDrop(int x, int y, int width, int height, boolean isCurrentTarget) { // This drop target has a fixed bounds and should be checked last, so just fall through // if it is the current target if (!isCurrentTarget) { return mLayoutAlgorithm.mStackRect.contains(x, y); } return false; } }; public TaskStackView(Context context) { super(context); SystemServicesProxy ssp = Recents.getSystemServices(); Resources res = context.getResources(); // Set the stack first mStack.setCallbacks(this); mViewPool = new ViewPool<>(context, this); mInflater = LayoutInflater.from(context); mLayoutAlgorithm = new TaskStackLayoutAlgorithm(context, this); mStableLayoutAlgorithm = new TaskStackLayoutAlgorithm(context, null); mStackScroller = new TaskStackViewScroller(context, this, mLayoutAlgorithm); mTouchHandler = new TaskStackViewTouchHandler(context, this, mStackScroller); mAnimationHelper = new TaskStackAnimationHelper(context, this); mTaskCornerRadiusPx = res.getDimensionPixelSize( R.dimen.recents_task_view_rounded_corners_radius); mDividerSize = ssp.getDockedDividerSize(context); mDisplayOrientation = Utilities.getAppConfiguration(mContext).orientation; mDisplayRect = ssp.getDisplayRect(); int taskBarDismissDozeDelaySeconds = getResources().getInteger( R.integer.recents_task_bar_dismiss_delay_seconds); mUIDozeTrigger = new DozeTrigger(taskBarDismissDozeDelaySeconds, new Runnable() { @Override public void run() { // Show the task bar dismiss buttons List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); tv.startNoUserInteractionAnimation(); } } }); setImportantForAccessibility(View.IMPORTANT_FOR_ACCESSIBILITY_YES); mFreeformWorkspaceBackground = (GradientDrawable) getContext().getDrawable( R.drawable.recents_freeform_workspace_bg); mFreeformWorkspaceBackground.setCallback(this); if (ssp.hasFreeformWorkspaceSupport()) { mFreeformWorkspaceBackground.setColor( getContext().getColor(R.color.recents_freeform_workspace_bg_color)); } } @Override protected void onAttachedToWindow() { EventBus.getDefault().register(this, RecentsActivity.EVENT_BUS_PRIORITY + 1); super.onAttachedToWindow(); readSystemFlags(); } @Override protected void onDetachedFromWindow() { super.onDetachedFromWindow(); EventBus.getDefault().unregister(this); } /** * Called from RecentsActivity when it is relaunched. */ void onReload(boolean isResumingFromVisible) { if (!isResumingFromVisible) { // Reset the focused task resetFocusedTask(getFocusedTask()); } // Reset the state of each of the task views List taskViews = new ArrayList<>(); taskViews.addAll(getTaskViews()); taskViews.addAll(mViewPool.getViews()); for (int i = taskViews.size() - 1; i >= 0; i--) { taskViews.get(i).onReload(isResumingFromVisible); } // Reset the stack state readSystemFlags(); mTaskViewsClipDirty = true; mEnterAnimationComplete = false; mUIDozeTrigger.stopDozing(); if (isResumingFromVisible) { // Animate in the freeform workspace int ffBgAlpha = mLayoutAlgorithm.getStackState().freeformBackgroundAlpha; animateFreeformWorkspaceBackgroundAlpha(ffBgAlpha, new AnimationProps(150, Interpolators.FAST_OUT_SLOW_IN)); } else { mStackScroller.reset(); mStableLayoutAlgorithm.reset(); mLayoutAlgorithm.reset(); } // Since we always animate to the same place in (the initial state), always reset the stack // to the initial state when resuming mAwaitingFirstLayout = true; mInitialState = INITIAL_STATE_UPDATE_ALL; requestLayout(); } /** * Sets the stack tasks of this TaskStackView from the given TaskStack. */ public void setTasks(TaskStack stack, boolean allowNotifyStackChanges) { boolean isInitialized = mLayoutAlgorithm.isInitialized(); // Only notify if we are already initialized, otherwise, everything will pick up all the // new and old tasks when we next layout mStack.setTasks(getContext(), stack.computeAllTasksList(), allowNotifyStackChanges && isInitialized); } /** Returns the task stack. */ public TaskStack getStack() { return mStack; } /** * Updates this TaskStackView to the initial state. */ public void updateToInitialState() { mStackScroller.setStackScrollToInitialState(); mLayoutAlgorithm.setTaskOverridesForInitialState(mStack, false /* ignoreScrollToFront */); } /** Updates the list of task views */ void updateTaskViewsList() { mTaskViews.clear(); int childCount = getChildCount(); for (int i = 0; i < childCount; i++) { View v = getChildAt(i); if (v instanceof TaskView) { mTaskViews.add((TaskView) v); } } } /** Gets the list of task views */ List getTaskViews() { return mTaskViews; } /** * Returns the front most task view. * * @param stackTasksOnly if set, will return the front most task view in the stack (by default * the front most task view will be freeform since they are placed above * stack tasks) */ private TaskView getFrontMostTaskView(boolean stackTasksOnly) { List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = taskViewCount - 1; i >= 0; i--) { TaskView tv = taskViews.get(i); Task task = tv.getTask(); if (stackTasksOnly && task.isFreeformTask()) { continue; } return tv; } return null; } /** * Finds the child view given a specific {@param task}. */ public TaskView getChildViewForTask(Task t) { List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); if (tv.getTask() == t) { return tv; } } return null; } /** Returns the stack algorithm for this task stack. */ public TaskStackLayoutAlgorithm getStackAlgorithm() { return mLayoutAlgorithm; } /** * Returns the touch handler for this task stack. */ public TaskStackViewTouchHandler getTouchHandler() { return mTouchHandler; } /** * Adds a task to the ignored set. */ void addIgnoreTask(Task task) { mIgnoreTasks.add(task.key); } /** * Removes a task from the ignored set. */ void removeIgnoreTask(Task task) { mIgnoreTasks.remove(task.key); } /** * Returns whether the specified {@param task} is ignored. */ boolean isIgnoredTask(Task task) { return mIgnoreTasks.contains(task.key); } /** * Computes the task transforms at the current stack scroll for all visible tasks. If a valid * target stack scroll is provided (ie. is different than {@param curStackScroll}), then the * visible range includes all tasks at the target stack scroll. This is useful for ensure that * all views necessary for a transition or animation will be visible at the start. * * This call ignores freeform tasks. * * @param taskTransforms The set of task view transforms to reuse, this list will be sized to * match the size of {@param tasks} * @param tasks The set of tasks for which to generate transforms * @param curStackScroll The current stack scroll * @param targetStackScroll The stack scroll that we anticipate we are going to be scrolling to. * The range of the union of the visible views at the current and * target stack scrolls will be returned. * @param ignoreTasksSet The set of tasks to skip for purposes of calculaing the visible range. * Transforms will still be calculated for the ignore tasks. * @return the front and back most visible task indices (there may be non visible tasks in * between this range) */ int[] computeVisibleTaskTransforms(ArrayList taskTransforms, ArrayList tasks, float curStackScroll, float targetStackScroll, ArraySet ignoreTasksSet, boolean ignoreTaskOverrides) { int taskCount = tasks.size(); int[] visibleTaskRange = mTmpIntPair; visibleTaskRange[0] = -1; visibleTaskRange[1] = -1; boolean useTargetStackScroll = Float.compare(curStackScroll, targetStackScroll) != 0; // We can reuse the task transforms where possible to reduce object allocation Utilities.matchTaskListSize(tasks, taskTransforms); // Update the stack transforms TaskViewTransform frontTransform = null; TaskViewTransform frontTransformAtTarget = null; TaskViewTransform transform = null; TaskViewTransform transformAtTarget = null; for (int i = taskCount - 1; i >= 0; i--) { Task task = tasks.get(i); // Calculate the current and (if necessary) the target transform for the task transform = mLayoutAlgorithm.getStackTransform(task, curStackScroll, taskTransforms.get(i), frontTransform, ignoreTaskOverrides); if (useTargetStackScroll && !transform.visible) { // If we have a target stack scroll and the task is not currently visible, then we // just update the transform at the new scroll // TODO: Optimize this transformAtTarget = mLayoutAlgorithm.getStackTransform(task, targetStackScroll, new TaskViewTransform(), frontTransformAtTarget); if (transformAtTarget.visible) { transform.copyFrom(transformAtTarget); } } // For ignore tasks, only calculate the stack transform and skip the calculation of the // visible stack indices if (ignoreTasksSet.contains(task.key)) { continue; } // For freeform tasks, only calculate the stack transform and skip the calculation of // the visible stack indices if (task.isFreeformTask()) { continue; } frontTransform = transform; frontTransformAtTarget = transformAtTarget; if (transform.visible) { if (visibleTaskRange[0] < 0) { visibleTaskRange[0] = i; } visibleTaskRange[1] = i; } } return visibleTaskRange; } /** * Binds the visible {@link TaskView}s at the given target scroll. */ void bindVisibleTaskViews(float targetStackScroll) { bindVisibleTaskViews(targetStackScroll, false /* ignoreTaskOverrides */); } /** * Synchronizes the set of children {@link TaskView}s to match the visible set of tasks in the * current {@link TaskStack}. This call does not continue on to update their position to the * computed {@link TaskViewTransform}s of the visible range, but only ensures that they will * be added/removed from the view hierarchy and placed in the correct Z order and initial * position (if not currently on screen). * * @param targetStackScroll If provided, will ensure that the set of visible {@link TaskView}s * includes those visible at the current stack scroll, and all at the * target stack scroll. * @param ignoreTaskOverrides If set, the visible task computation will get the transforms for * tasks at their non-overridden task progress */ void bindVisibleTaskViews(float targetStackScroll, boolean ignoreTaskOverrides) { // Get all the task transforms ArrayList tasks = mStack.getStackTasks(); int[] visibleTaskRange = computeVisibleTaskTransforms(mCurrentTaskTransforms, tasks, mStackScroller.getStackScroll(), targetStackScroll, mIgnoreTasks, ignoreTaskOverrides); // Return all the invisible children to the pool mTmpTaskViewMap.clear(); List taskViews = getTaskViews(); int lastFocusedTaskIndex = -1; int taskViewCount = taskViews.size(); for (int i = taskViewCount - 1; i >= 0; i--) { TaskView tv = taskViews.get(i); Task task = tv.getTask(); // Skip ignored tasks if (mIgnoreTasks.contains(task.key)) { continue; } // It is possible for the set of lingering TaskViews to differ from the stack if the // stack was updated before the relayout. If the task view is no longer in the stack, // then just return it back to the view pool. int taskIndex = mStack.indexOfStackTask(task); TaskViewTransform transform = null; if (taskIndex != -1) { transform = mCurrentTaskTransforms.get(taskIndex); } if (task.isFreeformTask() || (transform != null && transform.visible)) { mTmpTaskViewMap.put(task.key, tv); } else { if (mTouchExplorationEnabled && Utilities.isDescendentAccessibilityFocused(tv)) { lastFocusedTaskIndex = taskIndex; resetFocusedTask(task); } mViewPool.returnViewToPool(tv); } } // Pick up all the newly visible children for (int i = tasks.size() - 1; i >= 0; i--) { Task task = tasks.get(i); TaskViewTransform transform = mCurrentTaskTransforms.get(i); // Skip ignored tasks if (mIgnoreTasks.contains(task.key)) { continue; } // Skip the invisible non-freeform stack tasks if (!task.isFreeformTask() && !transform.visible) { continue; } TaskView tv = mTmpTaskViewMap.get(task.key); if (tv == null) { tv = mViewPool.pickUpViewFromPool(task, task); if (task.isFreeformTask()) { updateTaskViewToTransform(tv, transform, AnimationProps.IMMEDIATE); } else { if (transform.rect.top <= mLayoutAlgorithm.mStackRect.top) { updateTaskViewToTransform(tv, mLayoutAlgorithm.getBackOfStackTransform(), AnimationProps.IMMEDIATE); } else { updateTaskViewToTransform(tv, mLayoutAlgorithm.getFrontOfStackTransform(), AnimationProps.IMMEDIATE); } } } else { // Reattach it in the right z order final int taskIndex = mStack.indexOfStackTask(task); final int insertIndex = findTaskViewInsertIndex(task, taskIndex); if (insertIndex != getTaskViews().indexOf(tv)){ detachViewFromParent(tv); attachViewToParent(tv, insertIndex, tv.getLayoutParams()); updateTaskViewsList(); } } } // Update the focus if the previous focused task was returned to the view pool if (lastFocusedTaskIndex != -1) { int newFocusedTaskIndex = (lastFocusedTaskIndex < visibleTaskRange[1]) ? visibleTaskRange[1] : visibleTaskRange[0]; setFocusedTask(newFocusedTaskIndex, false /* scrollToTask */, true /* requestViewFocus */); TaskView focusedTaskView = getChildViewForTask(mFocusedTask); if (focusedTaskView != null) { focusedTaskView.requestAccessibilityFocus(); } } } /** * @see #relayoutTaskViews(AnimationProps, ArrayMap, boolean) */ public void relayoutTaskViews(AnimationProps animation) { relayoutTaskViews(animation, null /* animationOverrides */, false /* ignoreTaskOverrides */); } /** * Relayout the the visible {@link TaskView}s to their current transforms as specified by the * {@link TaskStackLayoutAlgorithm} with the given {@param animation}. This call cancels any * animations that are current running on those task views, and will ensure that the children * {@link TaskView}s will match the set of visible tasks in the stack. If a {@link Task} has * an animation provided in {@param animationOverrides}, that will be used instead. */ private void relayoutTaskViews(AnimationProps animation, ArrayMap animationOverrides, boolean ignoreTaskOverrides) { // If we had a deferred animation, cancel that cancelDeferredTaskViewLayoutAnimation(); // Synchronize the current set of TaskViews bindVisibleTaskViews(mStackScroller.getStackScroll(), ignoreTaskOverrides /* ignoreTaskOverrides */); // Animate them to their final transforms with the given animation List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); Task task = tv.getTask(); int taskIndex = mStack.indexOfStackTask(task); TaskViewTransform transform = mCurrentTaskTransforms.get(taskIndex); if (mIgnoreTasks.contains(task.key)) { continue; } if (animationOverrides != null && animationOverrides.containsKey(task)) { animation = animationOverrides.get(task); } updateTaskViewToTransform(tv, transform, animation); } } /** * Posts an update to synchronize the {@link TaskView}s with the stack on the next frame. */ void relayoutTaskViewsOnNextFrame(AnimationProps animation) { mDeferredTaskViewLayoutAnimation = animation; invalidate(); } /** * Called to update a specific {@link TaskView} to a given {@link TaskViewTransform} with a * given set of {@link AnimationProps} properties. */ public void updateTaskViewToTransform(TaskView taskView, TaskViewTransform transform, AnimationProps animation) { if (taskView.isAnimatingTo(transform)) { return; } taskView.cancelTransformAnimation(); taskView.updateViewPropertiesToTaskTransform(transform, animation, mRequestUpdateClippingListener); } /** * Returns the current task transforms of all tasks, falling back to the stack layout if there * is no {@link TaskView} for the task. */ public void getCurrentTaskTransforms(ArrayList tasks, ArrayList transformsOut) { Utilities.matchTaskListSize(tasks, transformsOut); int focusState = mLayoutAlgorithm.getFocusState(); for (int i = tasks.size() - 1; i >= 0; i--) { Task task = tasks.get(i); TaskViewTransform transform = transformsOut.get(i); TaskView tv = getChildViewForTask(task); if (tv != null) { transform.fillIn(tv); } else { mLayoutAlgorithm.getStackTransform(task, mStackScroller.getStackScroll(), focusState, transform, null, true /* forceUpdate */, false /* ignoreTaskOverrides */); } transform.visible = true; } } /** * Returns the task transforms for all the tasks in the stack if the stack was at the given * {@param stackScroll} and {@param focusState}. */ public void getLayoutTaskTransforms(float stackScroll, int focusState, ArrayList tasks, boolean ignoreTaskOverrides, ArrayList transformsOut) { Utilities.matchTaskListSize(tasks, transformsOut); for (int i = tasks.size() - 1; i >= 0; i--) { Task task = tasks.get(i); TaskViewTransform transform = transformsOut.get(i); mLayoutAlgorithm.getStackTransform(task, stackScroll, focusState, transform, null, true /* forceUpdate */, ignoreTaskOverrides); transform.visible = true; } } /** * Cancels the next deferred task view layout. */ void cancelDeferredTaskViewLayoutAnimation() { mDeferredTaskViewLayoutAnimation = null; } /** * Cancels all {@link TaskView} animations. */ void cancelAllTaskViewAnimations() { List taskViews = getTaskViews(); for (int i = taskViews.size() - 1; i >= 0; i--) { final TaskView tv = taskViews.get(i); if (!mIgnoreTasks.contains(tv.getTask().key)) { tv.cancelTransformAnimation(); } } } /** * Updates the clip for each of the task views from back to front. */ private void clipTaskViews() { // Update the clip on each task child List taskViews = getTaskViews(); TaskView tmpTv = null; TaskView prevVisibleTv = null; int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); TaskView frontTv = null; int clipBottom = 0; if (isIgnoredTask(tv.getTask())) { // For each of the ignore tasks, update the translationZ of its TaskView to be // between the translationZ of the tasks immediately underneath it if (prevVisibleTv != null) { tv.setTranslationZ(Math.max(tv.getTranslationZ(), prevVisibleTv.getTranslationZ() + 0.1f)); } } if (i < (taskViewCount - 1) && tv.shouldClipViewInStack()) { // Find the next view to clip against for (int j = i + 1; j < taskViewCount; j++) { tmpTv = taskViews.get(j); if (tmpTv.shouldClipViewInStack()) { frontTv = tmpTv; break; } } // Clip against the next view, this is just an approximation since we are // stacked and we can make assumptions about the visibility of the this // task relative to the ones in front of it. if (frontTv != null) { float taskBottom = tv.getBottom(); float frontTaskTop = frontTv.getTop(); if (frontTaskTop < taskBottom) { // Map the stack view space coordinate (the rects) to view space clipBottom = (int) (taskBottom - frontTaskTop) - mTaskCornerRadiusPx; } } } tv.getViewBounds().setClipBottom(clipBottom); tv.mThumbnailView.updateThumbnailVisibility(clipBottom - tv.getPaddingBottom()); prevVisibleTv = tv; } mTaskViewsClipDirty = false; } /** * Updates the layout algorithm min and max virtual scroll bounds. */ public void updateLayoutAlgorithm(boolean boundScrollToNewMinMax) { // Compute the min and max scroll values mLayoutAlgorithm.update(mStack, mIgnoreTasks); // Update the freeform workspace background SystemServicesProxy ssp = Recents.getSystemServices(); if (ssp.hasFreeformWorkspaceSupport()) { mTmpRect.set(mLayoutAlgorithm.mFreeformRect); mFreeformWorkspaceBackground.setBounds(mTmpRect); } if (boundScrollToNewMinMax) { mStackScroller.boundScroll(); } } /** * Updates the stack layout to its stable places. */ private void updateLayoutToStableBounds() { mWindowRect.set(mStableWindowRect); mStackBounds.set(mStableStackBounds); mLayoutAlgorithm.setSystemInsets(mStableLayoutAlgorithm.mSystemInsets); mLayoutAlgorithm.initialize(mDisplayRect, mWindowRect, mStackBounds, TaskStackLayoutAlgorithm.StackState.getStackStateForStack(mStack)); updateLayoutAlgorithm(true /* boundScroll */); } /** Returns the scroller. */ public TaskStackViewScroller getScroller() { return mStackScroller; } /** * Sets the focused task to the provided (bounded taskIndex). * * @return whether or not the stack will scroll as a part of this focus change */ private boolean setFocusedTask(int taskIndex, boolean scrollToTask, final boolean requestViewFocus) { return setFocusedTask(taskIndex, scrollToTask, requestViewFocus, 0); } /** * Sets the focused task to the provided (bounded focusTaskIndex). * * @return whether or not the stack will scroll as a part of this focus change */ private boolean setFocusedTask(int focusTaskIndex, boolean scrollToTask, boolean requestViewFocus, int timerIndicatorDuration) { // Find the next task to focus int newFocusedTaskIndex = mStack.getTaskCount() > 0 ? Utilities.clamp(focusTaskIndex, 0, mStack.getTaskCount() - 1) : -1; final Task newFocusedTask = (newFocusedTaskIndex != -1) ? mStack.getStackTasks().get(newFocusedTaskIndex) : null; // Reset the last focused task state if changed if (mFocusedTask != null) { // Cancel the timer indicator, if applicable if (timerIndicatorDuration > 0) { final TaskView tv = getChildViewForTask(mFocusedTask); if (tv != null) { tv.getHeaderView().cancelFocusTimerIndicator(); } } resetFocusedTask(mFocusedTask); } boolean willScroll = false; mFocusedTask = newFocusedTask; if (newFocusedTask != null) { // Start the timer indicator, if applicable if (timerIndicatorDuration > 0) { final TaskView tv = getChildViewForTask(mFocusedTask); if (tv != null) { tv.getHeaderView().startFocusTimerIndicator(timerIndicatorDuration); } else { // The view is null; set a flag for later mStartTimerIndicatorDuration = timerIndicatorDuration; } } if (scrollToTask) { // Cancel any running enter animations at this point when we scroll or change focus if (!mEnterAnimationComplete) { cancelAllTaskViewAnimations(); } mLayoutAlgorithm.clearUnfocusedTaskOverrides(); willScroll = mAnimationHelper.startScrollToFocusedTaskAnimation(newFocusedTask, requestViewFocus); } else { // Focus the task view TaskView newFocusedTaskView = getChildViewForTask(newFocusedTask); if (newFocusedTaskView != null) { newFocusedTaskView.setFocusedState(true, requestViewFocus); } } } return willScroll; } /** * Sets the focused task relative to the currently focused task. * * @param forward whether to go to the next task in the stack (along the curve) or the previous * @param stackTasksOnly if set, will ensure that the traversal only goes along stack tasks, and * if the currently focused task is not a stack task, will set the focus * to the first visible stack task * @param animated determines whether to actually draw the highlight along with the change in * focus. */ public void setRelativeFocusedTask(boolean forward, boolean stackTasksOnly, boolean animated) { setRelativeFocusedTask(forward, stackTasksOnly, animated, false, 0); } /** * Sets the focused task relative to the currently focused task. * * @param forward whether to go to the next task in the stack (along the curve) or the previous * @param stackTasksOnly if set, will ensure that the traversal only goes along stack tasks, and * if the currently focused task is not a stack task, will set the focus * to the first visible stack task * @param animated determines whether to actually draw the highlight along with the change in * focus. * @param cancelWindowAnimations if set, will attempt to cancel window animations if a scroll * happens. * @param timerIndicatorDuration the duration to initialize the auto-advance timer indicator */ public void setRelativeFocusedTask(boolean forward, boolean stackTasksOnly, boolean animated, boolean cancelWindowAnimations, int timerIndicatorDuration) { Task focusedTask = getFocusedTask(); int newIndex = mStack.indexOfStackTask(focusedTask); if (focusedTask != null) { if (stackTasksOnly) { List tasks = mStack.getStackTasks(); if (focusedTask.isFreeformTask()) { // Try and focus the front most stack task TaskView tv = getFrontMostTaskView(stackTasksOnly); if (tv != null) { newIndex = mStack.indexOfStackTask(tv.getTask()); } } else { // Try the next task if it is a stack task int tmpNewIndex = newIndex + (forward ? -1 : 1); if (0 <= tmpNewIndex && tmpNewIndex < tasks.size()) { Task t = tasks.get(tmpNewIndex); if (!t.isFreeformTask()) { newIndex = tmpNewIndex; } } } } else { // No restrictions, lets just move to the new task (looping forward/backwards if // necessary) int taskCount = mStack.getTaskCount(); newIndex = (newIndex + (forward ? -1 : 1) + taskCount) % taskCount; } } else { // We don't have a focused task float stackScroll = mStackScroller.getStackScroll(); ArrayList tasks = mStack.getStackTasks(); int taskCount = tasks.size(); if (forward) { // Walk backwards and focus the next task smaller than the current stack scroll for (newIndex = taskCount - 1; newIndex >= 0; newIndex--) { float taskP = mLayoutAlgorithm.getStackScrollForTask(tasks.get(newIndex)); if (Float.compare(taskP, stackScroll) <= 0) { break; } } } else { // Walk forwards and focus the next task larger than the current stack scroll for (newIndex = 0; newIndex < taskCount; newIndex++) { float taskP = mLayoutAlgorithm.getStackScrollForTask(tasks.get(newIndex)); if (Float.compare(taskP, stackScroll) >= 0) { break; } } } } if (newIndex != -1) { boolean willScroll = setFocusedTask(newIndex, true /* scrollToTask */, true /* requestViewFocus */, timerIndicatorDuration); if (willScroll && cancelWindowAnimations) { // As we iterate to the next/previous task, cancel any current/lagging window // transition animations EventBus.getDefault().send(new CancelEnterRecentsWindowAnimationEvent(null)); } } } /** * Resets the focused task. */ void resetFocusedTask(Task task) { if (task != null) { TaskView tv = getChildViewForTask(task); if (tv != null) { tv.setFocusedState(false, false /* requestViewFocus */); } } mFocusedTask = null; } /** * Returns the focused task. */ Task getFocusedTask() { return mFocusedTask; } /** * Returns the accessibility focused task. */ Task getAccessibilityFocusedTask() { List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); if (Utilities.isDescendentAccessibilityFocused(tv)) { return tv.getTask(); } } TaskView frontTv = getFrontMostTaskView(true /* stackTasksOnly */); if (frontTv != null) { return frontTv.getTask(); } return null; } @Override public void onInitializeAccessibilityEvent(AccessibilityEvent event) { super.onInitializeAccessibilityEvent(event); List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); if (taskViewCount > 0) { TaskView backMostTask = taskViews.get(0); TaskView frontMostTask = taskViews.get(taskViewCount - 1); event.setFromIndex(mStack.indexOfStackTask(backMostTask.getTask())); event.setToIndex(mStack.indexOfStackTask(frontMostTask.getTask())); event.setContentDescription(frontMostTask.getTask().title); } event.setItemCount(mStack.getTaskCount()); int stackHeight = mLayoutAlgorithm.mStackRect.height(); event.setScrollY((int) (mStackScroller.getStackScroll() * stackHeight)); event.setMaxScrollY((int) (mLayoutAlgorithm.mMaxScrollP * stackHeight)); } @Override public void onInitializeAccessibilityNodeInfo(AccessibilityNodeInfo info) { super.onInitializeAccessibilityNodeInfo(info); List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); if (taskViewCount > 1) { // Find the accessibility focused task Task focusedTask = getAccessibilityFocusedTask(); info.setScrollable(true); int focusedTaskIndex = mStack.indexOfStackTask(focusedTask); if (focusedTaskIndex > 0) { info.addAction(AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD); } if (0 <= focusedTaskIndex && focusedTaskIndex < mStack.getTaskCount() - 1) { info.addAction(AccessibilityNodeInfo.ACTION_SCROLL_FORWARD); } } } @Override public CharSequence getAccessibilityClassName() { return ScrollView.class.getName(); } @Override public boolean performAccessibilityAction(int action, Bundle arguments) { if (super.performAccessibilityAction(action, arguments)) { return true; } Task focusedTask = getAccessibilityFocusedTask(); int taskIndex = mStack.indexOfStackTask(focusedTask); if (0 <= taskIndex && taskIndex < mStack.getTaskCount()) { switch (action) { case AccessibilityNodeInfo.ACTION_SCROLL_FORWARD: { setFocusedTask(taskIndex + 1, true /* scrollToTask */, true /* requestViewFocus */, 0); return true; } case AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD: { setFocusedTask(taskIndex - 1, true /* scrollToTask */, true /* requestViewFocus */, 0); return true; } } } return false; } @Override public boolean onInterceptTouchEvent(MotionEvent ev) { return mTouchHandler.onInterceptTouchEvent(ev); } @Override public boolean onTouchEvent(MotionEvent ev) { return mTouchHandler.onTouchEvent(ev); } @Override public boolean onGenericMotionEvent(MotionEvent ev) { return mTouchHandler.onGenericMotionEvent(ev); } @Override public void computeScroll() { if (mStackScroller.computeScroll()) { // Notify accessibility sendAccessibilityEvent(AccessibilityEvent.TYPE_VIEW_SCROLLED); } if (mDeferredTaskViewLayoutAnimation != null) { relayoutTaskViews(mDeferredTaskViewLayoutAnimation); mTaskViewsClipDirty = true; mDeferredTaskViewLayoutAnimation = null; } if (mTaskViewsClipDirty) { clipTaskViews(); } } /** * Computes the maximum number of visible tasks and thumbnails. Requires that * updateLayoutForStack() is called first. */ public TaskStackLayoutAlgorithm.VisibilityReport computeStackVisibilityReport() { return mLayoutAlgorithm.computeStackVisibilityReport(mStack.getStackTasks()); } /** * Updates the system insets. */ public void setSystemInsets(Rect systemInsets) { boolean changed = false; changed |= mStableLayoutAlgorithm.setSystemInsets(systemInsets); changed |= mLayoutAlgorithm.setSystemInsets(systemInsets); if (changed) { requestLayout(); } } /** * This is called with the full window width and height to allow stack view children to * perform the full screen transition down. */ @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { mInMeasureLayout = true; int width = MeasureSpec.getSize(widthMeasureSpec); int height = MeasureSpec.getSize(heightMeasureSpec); // Update the stable stack bounds, but only update the current stack bounds if the stable // bounds have changed. This is because we may get spurious measures while dragging where // our current stack bounds reflect the target drop region. mLayoutAlgorithm.getTaskStackBounds(mDisplayRect, new Rect(0, 0, width, height), mLayoutAlgorithm.mSystemInsets.top, mLayoutAlgorithm.mSystemInsets.right, mTmpRect); if (!mTmpRect.equals(mStableStackBounds)) { mStableStackBounds.set(mTmpRect); mStackBounds.set(mTmpRect); mStableWindowRect.set(0, 0, width, height); mWindowRect.set(0, 0, width, height); } // Compute the rects in the stack algorithm mStableLayoutAlgorithm.initialize(mDisplayRect, mStableWindowRect, mStableStackBounds, TaskStackLayoutAlgorithm.StackState.getStackStateForStack(mStack)); mLayoutAlgorithm.initialize(mDisplayRect, mWindowRect, mStackBounds, TaskStackLayoutAlgorithm.StackState.getStackStateForStack(mStack)); updateLayoutAlgorithm(false /* boundScroll */); // If this is the first layout, then scroll to the front of the stack, then update the // TaskViews with the stack so that we can lay them out boolean resetToInitialState = (width != mLastWidth || height != mLastHeight) && mResetToInitialStateWhenResized; if (mAwaitingFirstLayout || mInitialState != INITIAL_STATE_UPDATE_NONE || resetToInitialState) { if (mInitialState != INITIAL_STATE_UPDATE_LAYOUT_ONLY || resetToInitialState) { updateToInitialState(); mResetToInitialStateWhenResized = false; } if (!mAwaitingFirstLayout) { mInitialState = INITIAL_STATE_UPDATE_NONE; } } // Rebind all the views, including the ignore ones bindVisibleTaskViews(mStackScroller.getStackScroll(), false /* ignoreTaskOverrides */); // Measure each of the TaskViews mTmpTaskViews.clear(); mTmpTaskViews.addAll(getTaskViews()); mTmpTaskViews.addAll(mViewPool.getViews()); int taskViewCount = mTmpTaskViews.size(); for (int i = 0; i < taskViewCount; i++) { measureTaskView(mTmpTaskViews.get(i)); } setMeasuredDimension(width, height); mLastWidth = width; mLastHeight = height; mInMeasureLayout = false; } /** * Measures a TaskView. */ private void measureTaskView(TaskView tv) { Rect padding = new Rect(); if (tv.getBackground() != null) { tv.getBackground().getPadding(padding); } mTmpRect.set(mStableLayoutAlgorithm.mTaskRect); mTmpRect.union(mLayoutAlgorithm.mTaskRect); tv.measure( MeasureSpec.makeMeasureSpec(mTmpRect.width() + padding.left + padding.right, MeasureSpec.EXACTLY), MeasureSpec.makeMeasureSpec(mTmpRect.height() + padding.top + padding.bottom, MeasureSpec.EXACTLY)); } @Override protected void onLayout(boolean changed, int left, int top, int right, int bottom) { // Layout each of the TaskViews mTmpTaskViews.clear(); mTmpTaskViews.addAll(getTaskViews()); mTmpTaskViews.addAll(mViewPool.getViews()); int taskViewCount = mTmpTaskViews.size(); for (int i = 0; i < taskViewCount; i++) { layoutTaskView(changed, mTmpTaskViews.get(i)); } if (changed) { if (mStackScroller.isScrollOutOfBounds()) { mStackScroller.boundScroll(); } } // Relayout all of the task views including the ignored ones relayoutTaskViews(AnimationProps.IMMEDIATE); clipTaskViews(); if (mAwaitingFirstLayout || !mEnterAnimationComplete) { mAwaitingFirstLayout = false; mInitialState = INITIAL_STATE_UPDATE_NONE; onFirstLayout(); } } /** * Lays out a TaskView. */ private void layoutTaskView(boolean changed, TaskView tv) { if (changed) { Rect padding = new Rect(); if (tv.getBackground() != null) { tv.getBackground().getPadding(padding); } mTmpRect.set(mStableLayoutAlgorithm.mTaskRect); mTmpRect.union(mLayoutAlgorithm.mTaskRect); tv.cancelTransformAnimation(); tv.layout(mTmpRect.left - padding.left, mTmpRect.top - padding.top, mTmpRect.right + padding.right, mTmpRect.bottom + padding.bottom); } else { // If the layout has not changed, then just lay it out again in-place tv.layout(tv.getLeft(), tv.getTop(), tv.getRight(), tv.getBottom()); } } /** Handler for the first layout. */ void onFirstLayout() { // Setup the view for the enter animation mAnimationHelper.prepareForEnterAnimation(); // Animate in the freeform workspace int ffBgAlpha = mLayoutAlgorithm.getStackState().freeformBackgroundAlpha; animateFreeformWorkspaceBackgroundAlpha(ffBgAlpha, new AnimationProps(150, Interpolators.FAST_OUT_SLOW_IN)); // Set the task focused state without requesting view focus, and leave the focus animations // until after the enter-animation RecentsConfiguration config = Recents.getConfiguration(); RecentsActivityLaunchState launchState = config.getLaunchState(); int focusedTaskIndex = launchState.getInitialFocusTaskIndex(mStack.getTaskCount()); if (focusedTaskIndex != -1) { setFocusedTask(focusedTaskIndex, false /* scrollToTask */, false /* requestViewFocus */); } // Update the stack action button visibility if (mStackScroller.getStackScroll() < SHOW_STACK_ACTION_BUTTON_SCROLL_THRESHOLD && mStack.getTaskCount() > 0) { EventBus.getDefault().send(new ShowStackActionButtonEvent(false /* translate */)); } else { EventBus.getDefault().send(new HideStackActionButtonEvent()); } } public boolean isTouchPointInView(float x, float y, TaskView tv) { mTmpRect.set(tv.getLeft(), tv.getTop(), tv.getRight(), tv.getBottom()); mTmpRect.offset((int) tv.getTranslationX(), (int) tv.getTranslationY()); return mTmpRect.contains((int) x, (int) y); } /** * Returns a non-ignored task in the {@param tasks} list that can be used as an achor when * calculating the scroll position before and after a layout change. */ public Task findAnchorTask(List tasks, MutableBoolean isFrontMostTask) { for (int i = tasks.size() - 1; i >= 0; i--) { Task task = tasks.get(i); // Ignore deleting tasks if (isIgnoredTask(task)) { if (i == tasks.size() - 1) { isFrontMostTask.value = true; } continue; } return task; } return null; } @Override protected void onDraw(Canvas canvas) { super.onDraw(canvas); // Draw the freeform workspace background SystemServicesProxy ssp = Recents.getSystemServices(); if (ssp.hasFreeformWorkspaceSupport()) { if (mFreeformWorkspaceBackground.getAlpha() > 0) { mFreeformWorkspaceBackground.draw(canvas); } } } @Override protected boolean verifyDrawable(Drawable who) { if (who == mFreeformWorkspaceBackground) { return true; } return super.verifyDrawable(who); } /** * Launches the freeform tasks. */ public boolean launchFreeformTasks() { ArrayList tasks = mStack.getFreeformTasks(); if (!tasks.isEmpty()) { Task frontTask = tasks.get(tasks.size() - 1); if (frontTask != null && frontTask.isFreeformTask()) { EventBus.getDefault().send(new LaunchTaskEvent(getChildViewForTask(frontTask), frontTask, null, INVALID_STACK_ID, false)); return true; } } return false; } /**** TaskStackCallbacks Implementation ****/ @Override public void onStackTaskAdded(TaskStack stack, Task newTask) { // Update the min/max scroll and animate other task views into their new positions updateLayoutAlgorithm(true /* boundScroll */); // Animate all the tasks into place relayoutTaskViews(mAwaitingFirstLayout ? AnimationProps.IMMEDIATE : new AnimationProps(DEFAULT_SYNC_STACK_DURATION, Interpolators.FAST_OUT_SLOW_IN)); } /** * We expect that the {@link TaskView} associated with the removed task is already hidden. */ @Override public void onStackTaskRemoved(TaskStack stack, Task removedTask, Task newFrontMostTask, AnimationProps animation, boolean fromDockGesture) { if (mFocusedTask == removedTask) { resetFocusedTask(removedTask); } // Remove the view associated with this task, we can't rely on updateTransforms // to work here because the task is no longer in the list TaskView tv = getChildViewForTask(removedTask); if (tv != null) { mViewPool.returnViewToPool(tv); } // Remove the task from the ignored set removeIgnoreTask(removedTask); // If requested, relayout with the given animation if (animation != null) { updateLayoutAlgorithm(true /* boundScroll */); relayoutTaskViews(animation); } // Update the new front most task's action button if (mScreenPinningEnabled && newFrontMostTask != null) { TaskView frontTv = getChildViewForTask(newFrontMostTask); if (frontTv != null) { frontTv.showActionButton(true /* fadeIn */, DEFAULT_SYNC_STACK_DURATION); } } // If there are no remaining tasks, then just close recents if (mStack.getTaskCount() == 0) { EventBus.getDefault().send(new AllTaskViewsDismissedEvent(fromDockGesture ? R.string.recents_empty_message : R.string.recents_empty_message_dismissed_all)); } } @Override public void onStackTasksRemoved(TaskStack stack) { // Reset the focused task resetFocusedTask(getFocusedTask()); // Return all the views to the pool List taskViews = new ArrayList<>(); taskViews.addAll(getTaskViews()); for (int i = taskViews.size() - 1; i >= 0; i--) { mViewPool.returnViewToPool(taskViews.get(i)); } // Remove all the ignore tasks mIgnoreTasks.clear(); // If there are no remaining tasks, then just close recents EventBus.getDefault().send(new AllTaskViewsDismissedEvent( R.string.recents_empty_message_dismissed_all)); } @Override public void onStackTasksUpdated(TaskStack stack) { // Update the layout and immediately layout updateLayoutAlgorithm(false /* boundScroll */); relayoutTaskViews(AnimationProps.IMMEDIATE); // Rebind all the task views. This will not trigger new resources to be loaded // unless they have actually changed List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); bindTaskView(tv, tv.getTask()); } } /**** ViewPoolConsumer Implementation ****/ @Override public TaskView createView(Context context) { return (TaskView) mInflater.inflate(R.layout.recents_task_view, this, false); } @Override public void onReturnViewToPool(TaskView tv) { final Task task = tv.getTask(); // Unbind the task from the task view unbindTaskView(tv, task); // Reset the view properties and view state tv.clearAccessibilityFocus(); tv.resetViewProperties(); tv.setFocusedState(false, false /* requestViewFocus */); tv.setClipViewInStack(false); if (mScreenPinningEnabled) { tv.hideActionButton(false /* fadeOut */, 0 /* duration */, false /* scaleDown */, null); } // Detach the view from the hierarchy detachViewFromParent(tv); // Update the task views list after removing the task view updateTaskViewsList(); } @Override public void onPickUpViewFromPool(TaskView tv, Task task, boolean isNewView) { // Find the index where this task should be placed in the stack int taskIndex = mStack.indexOfStackTask(task); int insertIndex = findTaskViewInsertIndex(task, taskIndex); // Add/attach the view to the hierarchy if (isNewView) { if (mInMeasureLayout) { // If we are measuring the layout, then just add the view normally as it will be // laid out during the layout pass addView(tv, insertIndex); } else { // Otherwise, this is from a bindVisibleTaskViews() call outside the measure/layout // pass, and we should layout the new child ourselves ViewGroup.LayoutParams params = tv.getLayoutParams(); if (params == null) { params = generateDefaultLayoutParams(); } addViewInLayout(tv, insertIndex, params, true /* preventRequestLayout */); measureTaskView(tv); layoutTaskView(true /* changed */, tv); } } else { attachViewToParent(tv, insertIndex, tv.getLayoutParams()); } // Update the task views list after adding the new task view updateTaskViewsList(); // Bind the task view to the new task bindTaskView(tv, task); // If the doze trigger has already fired, then update the state for this task view if (mUIDozeTrigger.isAsleep()) { tv.setNoUserInteractionState(); } // Set the new state for this view, including the callbacks and view clipping tv.setCallbacks(this); tv.setTouchEnabled(true); tv.setClipViewInStack(true); if (mFocusedTask == task) { tv.setFocusedState(true, false /* requestViewFocus */); if (mStartTimerIndicatorDuration > 0) { // The timer indicator couldn't be started before, so start it now tv.getHeaderView().startFocusTimerIndicator(mStartTimerIndicatorDuration); mStartTimerIndicatorDuration = 0; } } // Restore the action button visibility if it is the front most task view if (mScreenPinningEnabled && tv.getTask() == mStack.getStackFrontMostTask(false /* includeFreeform */)) { tv.showActionButton(false /* fadeIn */, 0 /* fadeInDuration */); } } @Override public boolean hasPreferredData(TaskView tv, Task preferredData) { return (tv.getTask() == preferredData); } private void bindTaskView(TaskView tv, Task task) { // Rebind the task and request that this task's data be filled into the TaskView tv.onTaskBound(task, mTouchExplorationEnabled, mDisplayOrientation, mDisplayRect); // Load the task data Recents.getTaskLoader().loadTaskData(task); } private void unbindTaskView(TaskView tv, Task task) { // Report that this task's data is no longer being used Recents.getTaskLoader().unloadTaskData(task); } /**** TaskViewCallbacks Implementation ****/ @Override public void onTaskViewClipStateChanged(TaskView tv) { if (!mTaskViewsClipDirty) { mTaskViewsClipDirty = true; invalidate(); } } /**** TaskStackLayoutAlgorithm.TaskStackLayoutAlgorithmCallbacks ****/ @Override public void onFocusStateChanged(int prevFocusState, int curFocusState) { if (mDeferredTaskViewLayoutAnimation == null) { mUIDozeTrigger.poke(); relayoutTaskViewsOnNextFrame(AnimationProps.IMMEDIATE); } } /**** TaskStackViewScroller.TaskStackViewScrollerCallbacks ****/ @Override public void onStackScrollChanged(float prevScroll, float curScroll, AnimationProps animation) { mUIDozeTrigger.poke(); if (animation != null) { relayoutTaskViewsOnNextFrame(animation); } if (mEnterAnimationComplete) { if (prevScroll > SHOW_STACK_ACTION_BUTTON_SCROLL_THRESHOLD && curScroll <= SHOW_STACK_ACTION_BUTTON_SCROLL_THRESHOLD && mStack.getTaskCount() > 0) { EventBus.getDefault().send(new ShowStackActionButtonEvent(true /* translate */)); } else if (prevScroll < HIDE_STACK_ACTION_BUTTON_SCROLL_THRESHOLD && curScroll >= HIDE_STACK_ACTION_BUTTON_SCROLL_THRESHOLD) { EventBus.getDefault().send(new HideStackActionButtonEvent()); } } } /**** EventBus Events ****/ public final void onBusEvent(PackagesChangedEvent event) { // Compute which components need to be removed ArraySet removedComponents = mStack.computeComponentsRemoved( event.packageName, event.userId); // For other tasks, just remove them directly if they no longer exist ArrayList tasks = mStack.getStackTasks(); for (int i = tasks.size() - 1; i >= 0; i--) { final Task t = tasks.get(i); if (removedComponents.contains(t.key.getComponent())) { final TaskView tv = getChildViewForTask(t); if (tv != null) { // For visible children, defer removing the task until after the animation tv.dismissTask(); } else { // Otherwise, remove the task from the stack immediately mStack.removeTask(t, AnimationProps.IMMEDIATE, false /* fromDockGesture */); } } } } public final void onBusEvent(LaunchTaskEvent event) { // Cancel any doze triggers once a task is launched mUIDozeTrigger.stopDozing(); } public final void onBusEvent(LaunchNextTaskRequestEvent event) { int launchTaskIndex = mStack.indexOfStackTask(mStack.getLaunchTarget()); if (launchTaskIndex != -1) { launchTaskIndex = Math.max(0, launchTaskIndex - 1); } else { launchTaskIndex = mStack.getTaskCount() - 1; } if (launchTaskIndex != -1) { // Stop all animations cancelAllTaskViewAnimations(); final Task launchTask = mStack.getStackTasks().get(launchTaskIndex); float curScroll = mStackScroller.getStackScroll(); float targetScroll = mLayoutAlgorithm.getStackScrollForTaskAtInitialOffset(launchTask); float absScrollDiff = Math.abs(targetScroll - curScroll); if (getChildViewForTask(launchTask) == null || absScrollDiff > 0.35f) { int duration = (int) (LAUNCH_NEXT_SCROLL_BASE_DURATION + absScrollDiff * LAUNCH_NEXT_SCROLL_INCR_DURATION); mStackScroller.animateScroll(targetScroll, duration, new Runnable() { @Override public void run() { EventBus.getDefault().send(new LaunchTaskEvent( getChildViewForTask(launchTask), launchTask, null, INVALID_STACK_ID, false /* screenPinningRequested */)); } }); } else { EventBus.getDefault().send(new LaunchTaskEvent(getChildViewForTask(launchTask), launchTask, null, INVALID_STACK_ID, false /* screenPinningRequested */)); } MetricsLogger.action(getContext(), MetricsEvent.OVERVIEW_LAUNCH_PREVIOUS_TASK, launchTask.key.getComponent().toString()); } else if (mStack.getTaskCount() == 0) { // If there are no tasks, then just hide recents back to home. EventBus.getDefault().send(new HideRecentsEvent(false, true)); } } public final void onBusEvent(LaunchTaskStartedEvent event) { mAnimationHelper.startLaunchTaskAnimation(event.taskView, event.screenPinningRequested, event.getAnimationTrigger()); } public final void onBusEvent(DismissRecentsToHomeAnimationStarted event) { // Stop any scrolling mTouchHandler.cancelNonDismissTaskAnimations(); mStackScroller.stopScroller(); mStackScroller.stopBoundScrollAnimation(); cancelDeferredTaskViewLayoutAnimation(); // Start the task animations mAnimationHelper.startExitToHomeAnimation(event.animated, event.getAnimationTrigger()); // Dismiss the freeform workspace background int taskViewExitToHomeDuration = TaskStackAnimationHelper.EXIT_TO_HOME_TRANSLATION_DURATION; animateFreeformWorkspaceBackgroundAlpha(0, new AnimationProps(taskViewExitToHomeDuration, Interpolators.FAST_OUT_SLOW_IN)); } public final void onBusEvent(DismissFocusedTaskViewEvent event) { if (mFocusedTask != null) { TaskView tv = getChildViewForTask(mFocusedTask); if (tv != null) { tv.dismissTask(); } resetFocusedTask(mFocusedTask); } } public final void onBusEvent(DismissTaskViewEvent event) { // For visible children, defer removing the task until after the animation mAnimationHelper.startDeleteTaskAnimation(event.taskView, event.getAnimationTrigger()); } public final void onBusEvent(final DismissAllTaskViewsEvent event) { // Keep track of the tasks which will have their data removed ArrayList tasks = new ArrayList<>(mStack.getStackTasks()); mAnimationHelper.startDeleteAllTasksAnimation(getTaskViews(), event.getAnimationTrigger()); event.addPostAnimationCallback(new Runnable() { @Override public void run() { // Announce for accessibility announceForAccessibility(getContext().getString( R.string.accessibility_recents_all_items_dismissed)); // Remove all tasks and delete the task data for all tasks mStack.removeAllTasks(); for (int i = tasks.size() - 1; i >= 0; i--) { EventBus.getDefault().send(new DeleteTaskDataEvent(tasks.get(i))); } MetricsLogger.action(getContext(), MetricsEvent.OVERVIEW_DISMISS_ALL); } }); } public final void onBusEvent(TaskViewDismissedEvent event) { // Announce for accessibility announceForAccessibility(getContext().getString( R.string.accessibility_recents_item_dismissed, event.task.title)); // Remove the task from the stack mStack.removeTask(event.task, event.animation, false /* fromDockGesture */); EventBus.getDefault().send(new DeleteTaskDataEvent(event.task)); MetricsLogger.action(getContext(), MetricsEvent.OVERVIEW_DISMISS, event.task.key.getComponent().toString()); } public final void onBusEvent(FocusNextTaskViewEvent event) { // Stop any scrolling mStackScroller.stopScroller(); mStackScroller.stopBoundScrollAnimation(); setRelativeFocusedTask(true, false /* stackTasksOnly */, true /* animated */, false, event.timerIndicatorDuration); } public final void onBusEvent(FocusPreviousTaskViewEvent event) { // Stop any scrolling mStackScroller.stopScroller(); mStackScroller.stopBoundScrollAnimation(); setRelativeFocusedTask(false, false /* stackTasksOnly */, true /* animated */); } public final void onBusEvent(UserInteractionEvent event) { // Poke the doze trigger on user interaction mUIDozeTrigger.poke(); RecentsDebugFlags debugFlags = Recents.getDebugFlags(); if (debugFlags.isFastToggleRecentsEnabled() && mFocusedTask != null) { TaskView tv = getChildViewForTask(mFocusedTask); if (tv != null) { tv.getHeaderView().cancelFocusTimerIndicator(); } } } public final void onBusEvent(DragStartEvent event) { // Ensure that the drag task is not animated addIgnoreTask(event.task); if (event.task.isFreeformTask()) { // Animate to the front of the stack mStackScroller.animateScroll(mLayoutAlgorithm.mInitialScrollP, null); } // Enlarge the dragged view slightly float finalScale = event.taskView.getScaleX() * DRAG_SCALE_FACTOR; mLayoutAlgorithm.getStackTransform(event.task, getScroller().getStackScroll(), mTmpTransform, null); mTmpTransform.scale = finalScale; mTmpTransform.translationZ = mLayoutAlgorithm.mMaxTranslationZ + 1; mTmpTransform.dimAlpha = 0f; updateTaskViewToTransform(event.taskView, mTmpTransform, new AnimationProps(DRAG_SCALE_DURATION, Interpolators.FAST_OUT_SLOW_IN)); } public final void onBusEvent(DragStartInitializeDropTargetsEvent event) { SystemServicesProxy ssp = Recents.getSystemServices(); if (ssp.hasFreeformWorkspaceSupport()) { event.handler.registerDropTargetForCurrentDrag(mStackDropTarget); event.handler.registerDropTargetForCurrentDrag(mFreeformWorkspaceDropTarget); } } public final void onBusEvent(DragDropTargetChangedEvent event) { AnimationProps animation = new AnimationProps(SLOW_SYNC_STACK_DURATION, Interpolators.FAST_OUT_SLOW_IN); boolean ignoreTaskOverrides = false; if (event.dropTarget instanceof TaskStack.DockState) { // Calculate the new task stack bounds that matches the window size that Recents will // have after the drop final TaskStack.DockState dockState = (TaskStack.DockState) event.dropTarget; Rect systemInsets = new Rect(mStableLayoutAlgorithm.mSystemInsets); // When docked, the nav bar insets are consumed and the activity is measured without // insets. However, the window bounds include the insets, so we need to subtract them // here to make them identical. int height = getMeasuredHeight(); height -= systemInsets.bottom; systemInsets.bottom = 0; mStackBounds.set(dockState.getDockedTaskStackBounds(mDisplayRect, getMeasuredWidth(), height, mDividerSize, systemInsets, mLayoutAlgorithm, getResources(), mWindowRect)); mLayoutAlgorithm.setSystemInsets(systemInsets); mLayoutAlgorithm.initialize(mDisplayRect, mWindowRect, mStackBounds, TaskStackLayoutAlgorithm.StackState.getStackStateForStack(mStack)); updateLayoutAlgorithm(true /* boundScroll */); ignoreTaskOverrides = true; } else { // Restore the pre-drag task stack bounds, but ensure that we don't layout the dragging // task view, so add it back to the ignore set after updating the layout removeIgnoreTask(event.task); updateLayoutToStableBounds(); addIgnoreTask(event.task); } relayoutTaskViews(animation, null /* animationOverrides */, ignoreTaskOverrides); } public final void onBusEvent(final DragEndEvent event) { // We don't handle drops on the dock regions if (event.dropTarget instanceof TaskStack.DockState) { // However, we do need to reset the overrides, since the last state of this task stack // view layout was ignoring task overrides (see DragDropTargetChangedEvent handler) mLayoutAlgorithm.clearUnfocusedTaskOverrides(); return; } boolean isFreeformTask = event.task.isFreeformTask(); boolean hasChangedStacks = (!isFreeformTask && event.dropTarget == mFreeformWorkspaceDropTarget) || (isFreeformTask && event.dropTarget == mStackDropTarget); if (hasChangedStacks) { // Move the task to the right position in the stack (ie. the front of the stack if // freeform or the front of the stack if fullscreen). Note, we MUST move the tasks // before we update their stack ids, otherwise, the keys will have changed. if (event.dropTarget == mFreeformWorkspaceDropTarget) { mStack.moveTaskToStack(event.task, FREEFORM_WORKSPACE_STACK_ID); } else if (event.dropTarget == mStackDropTarget) { mStack.moveTaskToStack(event.task, FULLSCREEN_WORKSPACE_STACK_ID); } updateLayoutAlgorithm(true /* boundScroll */); // Move the task to the new stack in the system after the animation completes event.addPostAnimationCallback(new Runnable() { @Override public void run() { SystemServicesProxy ssp = Recents.getSystemServices(); ssp.moveTaskToStack(event.task.key.id, event.task.key.stackId); } }); } // Restore the task, so that relayout will apply to it below removeIgnoreTask(event.task); // Convert the dragging task view back to its final layout-space rect Utilities.setViewFrameFromTranslation(event.taskView); // Animate all the tasks into place ArrayMap animationOverrides = new ArrayMap<>(); animationOverrides.put(event.task, new AnimationProps(SLOW_SYNC_STACK_DURATION, Interpolators.FAST_OUT_SLOW_IN, event.getAnimationTrigger().decrementOnAnimationEnd())); relayoutTaskViews(new AnimationProps(SLOW_SYNC_STACK_DURATION, Interpolators.FAST_OUT_SLOW_IN)); event.getAnimationTrigger().increment(); } public final void onBusEvent(final DragEndCancelledEvent event) { // Restore the pre-drag task stack bounds, including the dragging task view removeIgnoreTask(event.task); updateLayoutToStableBounds(); // Convert the dragging task view back to its final layout-space rect Utilities.setViewFrameFromTranslation(event.taskView); // Animate all the tasks into place ArrayMap animationOverrides = new ArrayMap<>(); animationOverrides.put(event.task, new AnimationProps(SLOW_SYNC_STACK_DURATION, Interpolators.FAST_OUT_SLOW_IN, event.getAnimationTrigger().decrementOnAnimationEnd())); relayoutTaskViews(new AnimationProps(SLOW_SYNC_STACK_DURATION, Interpolators.FAST_OUT_SLOW_IN)); event.getAnimationTrigger().increment(); } public final void onBusEvent(IterateRecentsEvent event) { if (!mEnterAnimationComplete) { // Cancel the previous task's window transition before animating the focused state EventBus.getDefault().send(new CancelEnterRecentsWindowAnimationEvent(null)); } } public final void onBusEvent(EnterRecentsWindowAnimationCompletedEvent event) { mEnterAnimationComplete = true; if (mStack.getTaskCount() > 0) { // Start the task enter animations mAnimationHelper.startEnterAnimation(event.getAnimationTrigger()); // Add a runnable to the post animation ref counter to clear all the views event.addPostAnimationCallback(new Runnable() { @Override public void run() { // Start the dozer to trigger to trigger any UI that shows after a timeout mUIDozeTrigger.startDozing(); // Update the focused state here -- since we only set the focused task without // requesting view focus in onFirstLayout(), actually request view focus and // animate the focused state if we are alt-tabbing now, after the window enter // animation is completed if (mFocusedTask != null) { RecentsConfiguration config = Recents.getConfiguration(); RecentsActivityLaunchState launchState = config.getLaunchState(); setFocusedTask(mStack.indexOfStackTask(mFocusedTask), false /* scrollToTask */, launchState.launchedWithAltTab); TaskView focusedTaskView = getChildViewForTask(mFocusedTask); if (mTouchExplorationEnabled && focusedTaskView != null) { focusedTaskView.requestAccessibilityFocus(); } } EventBus.getDefault().send(new EnterRecentsTaskStackAnimationCompletedEvent()); } }); } } public final void onBusEvent(UpdateFreeformTaskViewVisibilityEvent event) { List taskViews = getTaskViews(); int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { TaskView tv = taskViews.get(i); Task task = tv.getTask(); if (task.isFreeformTask()) { tv.setVisibility(event.visible ? View.VISIBLE : View.INVISIBLE); } } } public final void onBusEvent(final MultiWindowStateChangedEvent event) { if (event.inMultiWindow || !event.showDeferredAnimation) { setTasks(event.stack, true /* allowNotifyStackChanges */); } else { // Reset the launch state before handling the multiwindow change RecentsActivityLaunchState launchState = Recents.getConfiguration().getLaunchState(); launchState.reset(); // Defer until the next frame to ensure that we have received all the system insets, and // initial layout updates event.getAnimationTrigger().increment(); post(new Runnable() { @Override public void run() { // Scroll the stack to the front to see the undocked task mAnimationHelper.startNewStackScrollAnimation(event.stack, event.getAnimationTrigger()); event.getAnimationTrigger().decrement(); } }); } } public final void onBusEvent(ConfigurationChangedEvent event) { if (event.fromDeviceOrientationChange) { mDisplayOrientation = Utilities.getAppConfiguration(mContext).orientation; mDisplayRect = Recents.getSystemServices().getDisplayRect(); // Always stop the scroller, otherwise, we may continue setting the stack scroll to the // wrong bounds in the new layout mStackScroller.stopScroller(); } reloadOnConfigurationChange(); // Notify the task views of the configuration change so they can reload their resources if (!event.fromMultiWindow) { mTmpTaskViews.clear(); mTmpTaskViews.addAll(getTaskViews()); mTmpTaskViews.addAll(mViewPool.getViews()); int taskViewCount = mTmpTaskViews.size(); for (int i = 0; i < taskViewCount; i++) { mTmpTaskViews.get(i).onConfigurationChanged(); } } // Trigger a new layout and update to the initial state if necessary if (event.fromMultiWindow) { mInitialState = INITIAL_STATE_UPDATE_LAYOUT_ONLY; requestLayout(); } else if (event.fromDeviceOrientationChange) { mInitialState = INITIAL_STATE_UPDATE_ALL; requestLayout(); } } public final void onBusEvent(RecentsGrowingEvent event) { mResetToInitialStateWhenResized = true; } public void reloadOnConfigurationChange() { mStableLayoutAlgorithm.reloadOnConfigurationChange(getContext()); mLayoutAlgorithm.reloadOnConfigurationChange(getContext()); } /** * Starts an alpha animation on the freeform workspace background. */ private void animateFreeformWorkspaceBackgroundAlpha(int targetAlpha, AnimationProps animation) { if (mFreeformWorkspaceBackground.getAlpha() == targetAlpha) { return; } Utilities.cancelAnimationWithoutCallbacks(mFreeformWorkspaceBackgroundAnimator); mFreeformWorkspaceBackgroundAnimator = ObjectAnimator.ofInt(mFreeformWorkspaceBackground, Utilities.DRAWABLE_ALPHA, mFreeformWorkspaceBackground.getAlpha(), targetAlpha); mFreeformWorkspaceBackgroundAnimator.setStartDelay( animation.getDuration(AnimationProps.ALPHA)); mFreeformWorkspaceBackgroundAnimator.setDuration( animation.getDuration(AnimationProps.ALPHA)); mFreeformWorkspaceBackgroundAnimator.setInterpolator( animation.getInterpolator(AnimationProps.ALPHA)); mFreeformWorkspaceBackgroundAnimator.start(); } /** * Returns the insert index for the task in the current set of task views. If the given task * is already in the task view list, then this method returns the insert index assuming it * is first removed at the previous index. * * @param task the task we are finding the index for * @param taskIndex the index of the task in the stack */ private int findTaskViewInsertIndex(Task task, int taskIndex) { if (taskIndex != -1) { List taskViews = getTaskViews(); boolean foundTaskView = false; int taskViewCount = taskViews.size(); for (int i = 0; i < taskViewCount; i++) { Task tvTask = taskViews.get(i).getTask(); if (tvTask == task) { foundTaskView = true; } else if (taskIndex < mStack.indexOfStackTask(tvTask)) { if (foundTaskView) { return i - 1; } else { return i; } } } } return -1; } /** * Reads current system flags related to accessibility and screen pinning. */ private void readSystemFlags() { SystemServicesProxy ssp = Recents.getSystemServices(); mTouchExplorationEnabled = ssp.isTouchExplorationEnabled(); mScreenPinningEnabled = ssp.getSystemSetting(getContext(), Settings.System.LOCK_TO_APP_ENABLED) != 0; } public void dump(String prefix, PrintWriter writer) { String innerPrefix = prefix + " "; String id = Integer.toHexString(System.identityHashCode(this)); writer.print(prefix); writer.print(TAG); writer.print(" hasDefRelayout="); writer.print(mDeferredTaskViewLayoutAnimation != null ? "Y" : "N"); writer.print(" clipDirty="); writer.print(mTaskViewsClipDirty ? "Y" : "N"); writer.print(" awaitingFirstLayout="); writer.print(mAwaitingFirstLayout ? "Y" : "N"); writer.print(" initialState="); writer.print(mInitialState); writer.print(" inMeasureLayout="); writer.print(mInMeasureLayout ? "Y" : "N"); writer.print(" enterAnimCompleted="); writer.print(mEnterAnimationComplete ? "Y" : "N"); writer.print(" touchExplorationOn="); writer.print(mTouchExplorationEnabled ? "Y" : "N"); writer.print(" screenPinningOn="); writer.print(mScreenPinningEnabled ? "Y" : "N"); writer.print(" numIgnoreTasks="); writer.print(mIgnoreTasks.size()); writer.print(" numViewPool="); writer.print(mViewPool.getViews().size()); writer.print(" stableStackBounds="); writer.print(Utilities.dumpRect(mStableStackBounds)); writer.print(" stackBounds="); writer.print(Utilities.dumpRect(mStackBounds)); writer.print(" stableWindow="); writer.print(Utilities.dumpRect(mStableWindowRect)); writer.print(" window="); writer.print(Utilities.dumpRect(mWindowRect)); writer.print(" display="); writer.print(Utilities.dumpRect(mDisplayRect)); writer.print(" orientation="); writer.print(mDisplayOrientation); writer.print(" [0x"); writer.print(id); writer.print("]"); writer.println(); if (mFocusedTask != null) { writer.print(innerPrefix); writer.print("Focused task: "); mFocusedTask.dump("", writer); } mLayoutAlgorithm.dump(innerPrefix, writer); mStackScroller.dump(innerPrefix, writer); } }