/* * Copyright (C) 2020 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 android.window; import static android.window.TaskFragmentOperation.OP_TYPE_CLEAR_ADJACENT_TASK_FRAGMENTS; import static android.window.TaskFragmentOperation.OP_TYPE_CREATE_TASK_FRAGMENT; import static android.window.TaskFragmentOperation.OP_TYPE_DELETE_TASK_FRAGMENT; import static android.window.TaskFragmentOperation.OP_TYPE_REPARENT_ACTIVITY_TO_TASK_FRAGMENT; import static android.window.TaskFragmentOperation.OP_TYPE_REQUEST_FOCUS_ON_TASK_FRAGMENT; import static android.window.TaskFragmentOperation.OP_TYPE_SET_ADJACENT_TASK_FRAGMENTS; import static android.window.TaskFragmentOperation.OP_TYPE_SET_COMPANION_TASK_FRAGMENT; import static android.window.TaskFragmentOperation.OP_TYPE_START_ACTIVITY_IN_TASK_FRAGMENT; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.TestApi; import android.app.PendingIntent; import android.app.WindowConfiguration; import android.content.Intent; import android.content.pm.ActivityInfo; import android.content.pm.ShortcutInfo; import android.content.res.Configuration; import android.graphics.Rect; import android.os.Bundle; import android.os.IBinder; import android.os.Parcel; import android.os.Parcelable; import android.util.ArrayMap; import android.view.InsetsFrameProvider; import android.view.SurfaceControl; import android.view.WindowInsets.Type.InsetsType; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Map; import java.util.Objects; /** * Represents a collection of operations on some WindowContainers that should be applied all at * once. * * @hide */ @TestApi public final class WindowContainerTransaction implements Parcelable { private final ArrayMap mChanges = new ArrayMap<>(); // Flat list because re-order operations are order-dependent private final ArrayList mHierarchyOps = new ArrayList<>(); @Nullable private IBinder mErrorCallbackToken; @Nullable private ITaskFragmentOrganizer mTaskFragmentOrganizer; public WindowContainerTransaction() {} private WindowContainerTransaction(Parcel in) { in.readMap(mChanges, null /* loader */); in.readTypedList(mHierarchyOps, HierarchyOp.CREATOR); mErrorCallbackToken = in.readStrongBinder(); mTaskFragmentOrganizer = ITaskFragmentOrganizer.Stub.asInterface(in.readStrongBinder()); } private Change getOrCreateChange(IBinder token) { Change out = mChanges.get(token); if (out == null) { out = new Change(); mChanges.put(token, out); } return out; } /** * Clear the transaction object. * This is equivalent to a new empty {@link WindowContainerTransaction} in content. * * @hide */ public void clear() { mChanges.clear(); mHierarchyOps.clear(); mErrorCallbackToken = null; mTaskFragmentOrganizer = null; } /** * Resize a container. */ @NonNull public WindowContainerTransaction setBounds( @NonNull WindowContainerToken container,@NonNull Rect bounds) { Change chg = getOrCreateChange(container.asBinder()); chg.mConfiguration.windowConfiguration.setBounds(bounds); chg.mConfigSetMask |= ActivityInfo.CONFIG_WINDOW_CONFIGURATION; chg.mWindowSetMask |= WindowConfiguration.WINDOW_CONFIG_BOUNDS; return this; } /** * Resize a container's app bounds. This is the bounds used to report appWidth/Height to an * app's DisplayInfo. It is derived by subtracting the overlapping portion of the navbar from * the full bounds. */ @NonNull public WindowContainerTransaction setAppBounds( @NonNull WindowContainerToken container,@NonNull Rect appBounds) { Change chg = getOrCreateChange(container.asBinder()); chg.mConfiguration.windowConfiguration.setAppBounds(appBounds); chg.mConfigSetMask |= ActivityInfo.CONFIG_WINDOW_CONFIGURATION; chg.mWindowSetMask |= WindowConfiguration.WINDOW_CONFIG_APP_BOUNDS; return this; } /** * Resize a container's configuration size. The configuration size is what gets reported to the * app via screenWidth/HeightDp and influences which resources get loaded. This size is * derived by subtracting the overlapping portions of both the statusbar and the navbar from * the full bounds. */ @NonNull public WindowContainerTransaction setScreenSizeDp( @NonNull WindowContainerToken container, int w, int h) { Change chg = getOrCreateChange(container.asBinder()); chg.mConfiguration.screenWidthDp = w; chg.mConfiguration.screenHeightDp = h; chg.mConfigSetMask |= ActivityInfo.CONFIG_SCREEN_SIZE; return this; } /** * Sets the densityDpi value in the configuration for the given container. * @hide */ @NonNull public WindowContainerTransaction setDensityDpi(@NonNull WindowContainerToken container, int densityDpi) { Change chg = getOrCreateChange(container.asBinder()); chg.mConfiguration.densityDpi = densityDpi; chg.mConfigSetMask |= ActivityInfo.CONFIG_DENSITY; return this; } /** * Notify {@link com.android.server.wm.PinnedTaskController} that the picture-in-picture task * has finished the enter animation with the given bounds. */ @NonNull public WindowContainerTransaction scheduleFinishEnterPip( @NonNull WindowContainerToken container,@NonNull Rect bounds) { Change chg = getOrCreateChange(container.asBinder()); chg.mPinnedBounds = new Rect(bounds); chg.mChangeMask |= Change.CHANGE_PIP_CALLBACK; return this; } /** * Send a SurfaceControl transaction to the server, which the server will apply in sync with * the next bounds change. As this uses deferred transaction and not BLAST it is only * able to sync with a single window, and the first visible window in this hierarchy of type * BASE_APPLICATION to resize will be used. If there are bound changes included in this * WindowContainer transaction (from setBounds or scheduleFinishEnterPip), the SurfaceControl * transaction will be synced with those bounds. If there are no changes, then * the SurfaceControl transaction will be synced with the next bounds change. This means * that you can call this, apply the WindowContainer transaction, and then later call * dismissPip() to achieve synchronization. */ @NonNull public WindowContainerTransaction setBoundsChangeTransaction( @NonNull WindowContainerToken container,@NonNull SurfaceControl.Transaction t) { Change chg = getOrCreateChange(container.asBinder()); chg.mBoundsChangeTransaction = t; chg.mChangeMask |= Change.CHANGE_BOUNDS_TRANSACTION; return this; } /** * Like {@link #setBoundsChangeTransaction} but instead queues up a setPosition/WindowCrop * on a container's surface control. This is useful when a boundsChangeTransaction needs to be * queued up on a Task that won't be organized until the end of this window-container * transaction. * * This requires that, at the end of this transaction, `task` will be organized; otherwise * the server will throw an IllegalArgumentException. * * WARNING: Use this carefully. Whatever is set here should match the expected bounds after * the transaction completes since it will likely be replaced by it. This call is * intended to pre-emptively set bounds on a surface in sync with a buffer when * otherwise the new bounds and the new buffer would update on different frames. * * TODO(b/134365562): remove once TaskOrg drives full-screen or BLAST is enabled. * * @hide */ @NonNull public WindowContainerTransaction setBoundsChangeTransaction( @NonNull WindowContainerToken task, @NonNull Rect surfaceBounds) { Change chg = getOrCreateChange(task.asBinder()); if (chg.mBoundsChangeSurfaceBounds == null) { chg.mBoundsChangeSurfaceBounds = new Rect(); } chg.mBoundsChangeSurfaceBounds.set(surfaceBounds); chg.mChangeMask |= Change.CHANGE_BOUNDS_TRANSACTION_RECT; return this; } /** * Set the windowing mode of children of a given root task, without changing * the windowing mode of the Task itself. This can be used during transitions * for example to make the activity render it's fullscreen configuration * while the Task is still in PIP, so you can complete the animation. * * TODO(b/134365562): Can be removed once TaskOrg drives full-screen */ @NonNull public WindowContainerTransaction setActivityWindowingMode( @NonNull WindowContainerToken container, int windowingMode) { Change chg = getOrCreateChange(container.asBinder()); chg.mActivityWindowingMode = windowingMode; return this; } /** * Sets the windowing mode of the given container. */ @NonNull public WindowContainerTransaction setWindowingMode( @NonNull WindowContainerToken container, int windowingMode) { Change chg = getOrCreateChange(container.asBinder()); chg.mWindowingMode = windowingMode; return this; } /** * Sets whether a container or any of its children can be focusable. When {@code false}, no * child can be focused; however, when {@code true}, it is still possible for children to be * non-focusable due to WM policy. */ @NonNull public WindowContainerTransaction setFocusable( @NonNull WindowContainerToken container, boolean focusable) { Change chg = getOrCreateChange(container.asBinder()); chg.mFocusable = focusable; chg.mChangeMask |= Change.CHANGE_FOCUSABLE; return this; } /** * Sets whether a container or its children should be hidden. When {@code false}, the existing * visibility of the container applies, but when {@code true} the container will be forced * to be hidden. */ @NonNull public WindowContainerTransaction setHidden( @NonNull WindowContainerToken container, boolean hidden) { Change chg = getOrCreateChange(container.asBinder()); chg.mHidden = hidden; chg.mChangeMask |= Change.CHANGE_HIDDEN; return this; } /** * Set the smallestScreenWidth of a container. */ @NonNull public WindowContainerTransaction setSmallestScreenWidthDp( @NonNull WindowContainerToken container, int widthDp) { Change cfg = getOrCreateChange(container.asBinder()); cfg.mConfiguration.smallestScreenWidthDp = widthDp; cfg.mConfigSetMask |= ActivityInfo.CONFIG_SMALLEST_SCREEN_SIZE; return this; } /** * Sets whether a container should ignore the orientation request from apps and windows below * it. It currently only applies to {@link com.android.server.wm.DisplayArea}. When * {@code false}, it may rotate based on the orientation request; When {@code true}, it can * never specify orientation, but shows the fixed-orientation apps below it in the letterbox. * @hide */ @NonNull public WindowContainerTransaction setIgnoreOrientationRequest( @NonNull WindowContainerToken container, boolean ignoreOrientationRequest) { Change chg = getOrCreateChange(container.asBinder()); chg.mIgnoreOrientationRequest = ignoreOrientationRequest; chg.mChangeMask |= Change.CHANGE_IGNORE_ORIENTATION_REQUEST; return this; } /** * Sets whether a task should be translucent. When {@code false}, the existing translucent of * the task applies, but when {@code true} the task will be forced to be translucent. * @hide */ @NonNull public WindowContainerTransaction setForceTranslucent( @NonNull WindowContainerToken container, boolean forceTranslucent) { Change chg = getOrCreateChange(container.asBinder()); chg.mForceTranslucent = forceTranslucent; chg.mChangeMask |= Change.CHANGE_FORCE_TRANSLUCENT; return this; } /** * Used in conjunction with a shell-transition call (usually finishTransition). This is * basically a message to the transition system that a particular task should NOT go into * PIP even though it normally would. This is to deal with some edge-case situations where * Recents will "commit" the transition to go home, but then not actually go-home. * @hide */ @NonNull public WindowContainerTransaction setDoNotPip(@NonNull WindowContainerToken container) { Change chg = getOrCreateChange(container.asBinder()); chg.mChangeMask |= Change.CHANGE_FORCE_NO_PIP; return this; } /** * Resizes a container by providing a bounds in its parent coordinate. * This is only used by {@link TaskFragmentOrganizer}. */ @NonNull public WindowContainerTransaction setRelativeBounds( @NonNull WindowContainerToken container, @NonNull Rect relBounds) { Change chg = getOrCreateChange(container.asBinder()); if (chg.mRelativeBounds == null) { chg.mRelativeBounds = new Rect(); } chg.mRelativeBounds.set(relBounds); chg.mChangeMask |= Change.CHANGE_RELATIVE_BOUNDS; // Bounds will be overridden. chg.mConfigSetMask |= ActivityInfo.CONFIG_WINDOW_CONFIGURATION; chg.mWindowSetMask |= WindowConfiguration.WINDOW_CONFIG_BOUNDS; return this; } /** * Reparents a container into another one. The effect of a {@code null} parent can vary. For * example, reparenting a stack to {@code null} will reparent it to its display. * * @param onTop When {@code true}, the child goes to the top of parent; otherwise it goes to * the bottom. */ @NonNull public WindowContainerTransaction reparent(@NonNull WindowContainerToken child, @Nullable WindowContainerToken parent, boolean onTop) { mHierarchyOps.add(HierarchyOp.createForReparent(child.asBinder(), parent == null ? null : parent.asBinder(), onTop)); return this; } /** * Reorders a container within its parent. * * @param onTop When {@code true}, the child goes to the top of parent; otherwise it goes to * the bottom. */ @NonNull public WindowContainerTransaction reorder(@NonNull WindowContainerToken child, boolean onTop) { return reorder(child, onTop, false /* includingParents */); } /** * Reorders a container within its parent with an option to reorder all the parents in the * hierarchy above among their respective siblings. * * @param onTop When {@code true}, the child goes to the top of parent; otherwise it goes to * the bottom. * @param includingParents When {@code true}, all the parents in the hierarchy above are also * reordered among their respective siblings. * @hide */ @NonNull public WindowContainerTransaction reorder(@NonNull WindowContainerToken child, boolean onTop, boolean includingParents) { mHierarchyOps.add(HierarchyOp.createForReorder(child.asBinder(), onTop, includingParents)); return this; } /** * Reparent's all children tasks or the top task of {@param currentParent} in the specified * {@param windowingMode} and {@param activityType} to {@param newParent} in their current * z-order. * * @param currentParent of the tasks to perform the operation no. * {@code null} will perform the operation on the display. * @param newParent for the tasks. {@code null} will perform the operation on the display. * @param windowingModes of the tasks to reparent. * @param activityTypes of the tasks to reparent. * @param onTop When {@code true}, the child goes to the top of parent; otherwise it goes to * the bottom. * @param reparentTopOnly When {@code true}, only reparent the top task which fit windowingModes * and activityTypes. * @hide */ @NonNull public WindowContainerTransaction reparentTasks(@Nullable WindowContainerToken currentParent, @Nullable WindowContainerToken newParent, @Nullable int[] windowingModes, @Nullable int[] activityTypes, boolean onTop, boolean reparentTopOnly) { mHierarchyOps.add(HierarchyOp.createForChildrenTasksReparent( currentParent != null ? currentParent.asBinder() : null, newParent != null ? newParent.asBinder() : null, windowingModes, activityTypes, onTop, reparentTopOnly)); return this; } /** * Reparent's all children tasks of {@param currentParent} in the specified * {@param windowingMode} and {@param activityType} to {@param newParent} in their current * z-order. * * @param currentParent of the tasks to perform the operation no. * {@code null} will perform the operation on the display. * @param newParent for the tasks. {@code null} will perform the operation on the display. * @param windowingModes of the tasks to reparent. {@code null} ignore this attribute when * perform the operation. * @param activityTypes of the tasks to reparent. {@code null} ignore this attribute when * perform the operation. * @param onTop When {@code true}, the child goes to the top of parent; otherwise it goes to * the bottom. */ @NonNull public WindowContainerTransaction reparentTasks(@Nullable WindowContainerToken currentParent, @Nullable WindowContainerToken newParent, @Nullable int[] windowingModes, @Nullable int[] activityTypes, boolean onTop) { return reparentTasks(currentParent, newParent, windowingModes, activityTypes, onTop, false /* reparentTopOnly */); } /** * Sets whether a container should be the launch root for the specified windowing mode and * activity type. This currently only applies to Task containers created by organizer. */ @NonNull public WindowContainerTransaction setLaunchRoot(@NonNull WindowContainerToken container, @Nullable int[] windowingModes, @Nullable int[] activityTypes) { mHierarchyOps.add(HierarchyOp.createForSetLaunchRoot( container.asBinder(), windowingModes, activityTypes)); return this; } /** * Sets to containers adjacent to each other. Containers below two visible adjacent roots will * be made invisible. This currently only applies to TaskFragment containers created by * organizer. * @param root1 the first root. * @param root2 the second root. */ @NonNull public WindowContainerTransaction setAdjacentRoots( @NonNull WindowContainerToken root1, @NonNull WindowContainerToken root2) { mHierarchyOps.add(HierarchyOp.createForAdjacentRoots( root1.asBinder(), root2.asBinder())); return this; } /** * Sets the container as launch adjacent flag root. Task starting with * {@link FLAG_ACTIVITY_LAUNCH_ADJACENT} will be launching to. */ @NonNull public WindowContainerTransaction setLaunchAdjacentFlagRoot( @NonNull WindowContainerToken container) { mHierarchyOps.add(HierarchyOp.createForSetLaunchAdjacentFlagRoot(container.asBinder(), false /* clearRoot */)); return this; } /** * Clears launch adjacent flag root for the display area of passing container. */ @NonNull public WindowContainerTransaction clearLaunchAdjacentFlagRoot( @NonNull WindowContainerToken container) { mHierarchyOps.add(HierarchyOp.createForSetLaunchAdjacentFlagRoot(container.asBinder(), true /* clearRoot */)); return this; } /** * Starts a task by id. The task is expected to already exist (eg. as a recent task). * @param taskId Id of task to start. * @param options bundle containing ActivityOptions for the task's top activity. * @hide */ @NonNull public WindowContainerTransaction startTask(int taskId, @Nullable Bundle options) { mHierarchyOps.add(HierarchyOp.createForTaskLaunch(taskId, options)); return this; } /** * Finds and removes a task and its children using its container token. The task is removed * from recents. * @param containerToken ContainerToken of Task to be removed */ @NonNull public WindowContainerTransaction removeTask(@NonNull WindowContainerToken containerToken) { mHierarchyOps.add(HierarchyOp.createForRemoveTask(containerToken.asBinder())); return this; } /** * Sets whether a container is being drag-resized. * When {@code true}, the client will reuse a single (larger) surface size to avoid * continuous allocations on every size change. * * @param container WindowContainerToken of the task that changed its drag resizing state * @hide */ @NonNull public WindowContainerTransaction setDragResizing(@NonNull WindowContainerToken container, boolean dragResizing) { final Change change = getOrCreateChange(container.asBinder()); change.mChangeMask |= Change.CHANGE_DRAG_RESIZING; change.mDragResizing = dragResizing; return this; } /** * Sends a pending intent in sync. * @param sender The PendingIntent sender. * @param intent The fillIn intent to patch over the sender's base intent. * @param options bundle containing ActivityOptions for the task's top activity. * @hide */ @NonNull public WindowContainerTransaction sendPendingIntent(PendingIntent sender, Intent intent, @Nullable Bundle options) { mHierarchyOps.add(new HierarchyOp.Builder(HierarchyOp.HIERARCHY_OP_TYPE_PENDING_INTENT) .setLaunchOptions(options) .setPendingIntent(sender) .setActivityIntent(intent) .build()); return this; } /** * Starts activity(s) from a shortcut. * @param callingPackage The package launching the shortcut. * @param shortcutInfo Information about the shortcut to start * @param options bundle containing ActivityOptions for the task's top activity. * @hide */ @NonNull public WindowContainerTransaction startShortcut(@NonNull String callingPackage, @NonNull ShortcutInfo shortcutInfo, @Nullable Bundle options) { mHierarchyOps.add(HierarchyOp.createForStartShortcut( callingPackage, shortcutInfo, options)); return this; } /** * Creates a new TaskFragment with the given options. * @param taskFragmentCreationParams the options used to create the TaskFragment. */ @NonNull public WindowContainerTransaction createTaskFragment( @NonNull TaskFragmentCreationParams taskFragmentCreationParams) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_CREATE_TASK_FRAGMENT) .setTaskFragmentCreationParams(taskFragmentCreationParams) .build(); return addTaskFragmentOperation(taskFragmentCreationParams.getFragmentToken(), operation); } /** * Deletes an existing TaskFragment. Any remaining activities below it will be destroyed. * @param fragmentToken client assigned unique token to create TaskFragment with specified in * {@link TaskFragmentCreationParams#getFragmentToken()}. */ @NonNull public WindowContainerTransaction deleteTaskFragment(@NonNull IBinder fragmentToken) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_DELETE_TASK_FRAGMENT) .build(); return addTaskFragmentOperation(fragmentToken, operation); } /** * Starts an activity in the TaskFragment. * @param fragmentToken client assigned unique token to create TaskFragment with specified in * {@link TaskFragmentCreationParams#getFragmentToken()}. * @param callerToken the activity token that initialized the activity launch. * @param activityIntent intent to start the activity. * @param activityOptions ActivityOptions to start the activity with. * @see android.content.Context#startActivity(Intent, Bundle). */ @NonNull public WindowContainerTransaction startActivityInTaskFragment( @NonNull IBinder fragmentToken, @NonNull IBinder callerToken, @NonNull Intent activityIntent, @Nullable Bundle activityOptions) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_START_ACTIVITY_IN_TASK_FRAGMENT) .setActivityToken(callerToken) .setActivityIntent(activityIntent) .setBundle(activityOptions) .build(); return addTaskFragmentOperation(fragmentToken, operation); } /** * Moves an activity into the TaskFragment. * @param fragmentToken client assigned unique token to create TaskFragment with specified in * {@link TaskFragmentCreationParams#getFragmentToken()}. * @param activityToken activity to be reparented. */ @NonNull public WindowContainerTransaction reparentActivityToTaskFragment( @NonNull IBinder fragmentToken, @NonNull IBinder activityToken) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_REPARENT_ACTIVITY_TO_TASK_FRAGMENT) .setActivityToken(activityToken) .build(); return addTaskFragmentOperation(fragmentToken, operation); } /** * Sets to TaskFragments adjacent to each other. Containers below two visible adjacent * TaskFragments will be made invisible. This is similar to * {@link #setAdjacentRoots(WindowContainerToken, WindowContainerToken)}, but can be used with * fragmentTokens when that TaskFragments haven't been created (but will be created in the same * {@link WindowContainerTransaction}). * @param fragmentToken1 client assigned unique token to create TaskFragment with specified * in {@link TaskFragmentCreationParams#getFragmentToken()}. * @param fragmentToken2 client assigned unique token to create TaskFragment with specified * in {@link TaskFragmentCreationParams#getFragmentToken()}. */ @NonNull public WindowContainerTransaction setAdjacentTaskFragments( @NonNull IBinder fragmentToken1, @NonNull IBinder fragmentToken2, @Nullable TaskFragmentAdjacentParams params) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_SET_ADJACENT_TASK_FRAGMENTS) .setSecondaryFragmentToken(fragmentToken2) .setBundle(params != null ? params.toBundle() : null) .build(); return addTaskFragmentOperation(fragmentToken1, operation); } /** * Clears the adjacent TaskFragments relationship that is previously set through * {@link #setAdjacentTaskFragments}. Clear operation on one TaskFragment will also clear its * current adjacent TaskFragment's. * @param fragmentToken client assigned unique token to create TaskFragment with specified * in {@link TaskFragmentCreationParams#getFragmentToken()}. */ @NonNull public WindowContainerTransaction clearAdjacentTaskFragments(@NonNull IBinder fragmentToken) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_CLEAR_ADJACENT_TASK_FRAGMENTS) .build(); return addTaskFragmentOperation(fragmentToken, operation); } /** * If `container` was brought to front as a transient-launch (eg. recents), this will reorder * the container back to where it was prior to the transient-launch. This way if a transient * launch is "aborted", the z-ordering of containers in WM should be restored to before the * launch. * @hide */ @NonNull public WindowContainerTransaction restoreTransientOrder( @NonNull WindowContainerToken container) { final HierarchyOp hierarchyOp = new HierarchyOp.Builder(HierarchyOp.HIERARCHY_OP_TYPE_RESTORE_TRANSIENT_ORDER) .setContainer(container.asBinder()) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * Adds a given {@code Rect} as an insets source frame on the {@code receiver}. * * @param receiver The window container that the insets source is added to. * @param owner The owner of the insets source. An insets source can only be modified by its * owner. * @param index An owner might add multiple insets sources with the same type. * This identifies them. * @param type The {@link InsetsType} of the insets source. * @param frame The rectangle area of the insets source. * @param boundingRects The bounding rects within this inset, relative to the |frame|. * @hide */ @NonNull public WindowContainerTransaction addInsetsSource( @NonNull WindowContainerToken receiver, IBinder owner, int index, @InsetsType int type, Rect frame, Rect[] boundingRects) { final HierarchyOp hierarchyOp = new HierarchyOp.Builder(HierarchyOp.HIERARCHY_OP_TYPE_ADD_INSETS_FRAME_PROVIDER) .setContainer(receiver.asBinder()) .setInsetsFrameProvider(new InsetsFrameProvider(owner, index, type) .setSource(InsetsFrameProvider.SOURCE_ARBITRARY_RECTANGLE) .setArbitraryRectangle(frame) .setBoundingRects(boundingRects)) .setInsetsFrameOwner(owner) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * Removes the insets source from the {@code receiver}. * * @param receiver The window container that the insets source was added to. * @param owner The owner of the insets source. An insets source can only be modified by its * owner. * @param index An owner might add multiple insets sources with the same type. * This identifies them. * @param type The {@link InsetsType} of the insets source. * @hide */ @NonNull public WindowContainerTransaction removeInsetsSource( @NonNull WindowContainerToken receiver, IBinder owner, int index, @InsetsType int type) { final HierarchyOp hierarchyOp = new HierarchyOp.Builder(HierarchyOp.HIERARCHY_OP_TYPE_REMOVE_INSETS_FRAME_PROVIDER) .setContainer(receiver.asBinder()) .setInsetsFrameProvider(new InsetsFrameProvider(owner, index, type)) .setInsetsFrameOwner(owner) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * Requests focus on the top running Activity in the given TaskFragment. This will only take * effect if there is no focus, or if the current focus is in the same Task as the requested * TaskFragment. * @param fragmentToken client assigned unique token to create TaskFragment with specified in * {@link TaskFragmentCreationParams#getFragmentToken()}. */ @NonNull public WindowContainerTransaction requestFocusOnTaskFragment(@NonNull IBinder fragmentToken) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_REQUEST_FOCUS_ON_TASK_FRAGMENT) .build(); return addTaskFragmentOperation(fragmentToken, operation); } /** * Finishes the Activity. * Comparing to directly calling {@link android.app.Activity#finish()}, calling this can make * sure the finishing happens in the same transaction with other operations. * @param activityToken activity to be finished. */ @NonNull public WindowContainerTransaction finishActivity(@NonNull IBinder activityToken) { final HierarchyOp hierarchyOp = new HierarchyOp.Builder( HierarchyOp.HIERARCHY_OP_TYPE_FINISH_ACTIVITY) .setContainer(activityToken) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * Sets the TaskFragment {@code fragmentToken} to have a companion TaskFragment * {@code companionFragmentToken}. * This indicates that the organizer will remove the TaskFragment when the companion * TaskFragment is removed. * * @param fragmentToken client assigned unique token to create TaskFragment with specified * in {@link TaskFragmentCreationParams#getFragmentToken()}. * @param companionFragmentToken client assigned unique token to create TaskFragment with * specified in * {@link TaskFragmentCreationParams#getFragmentToken()}. * If it is {@code null}, the transaction will reset the companion * TaskFragment. * @hide */ @NonNull public WindowContainerTransaction setCompanionTaskFragment(@NonNull IBinder fragmentToken, @Nullable IBinder companionFragmentToken) { final TaskFragmentOperation operation = new TaskFragmentOperation.Builder( OP_TYPE_SET_COMPANION_TASK_FRAGMENT) .setSecondaryFragmentToken(companionFragmentToken) .build(); return addTaskFragmentOperation(fragmentToken, operation); } /** * Adds a {@link TaskFragmentOperation} to apply to the given TaskFragment. * * @param fragmentToken client assigned unique token to create TaskFragment with specified in * {@link TaskFragmentCreationParams#getFragmentToken()}. * @param taskFragmentOperation the {@link TaskFragmentOperation} to apply to the given * TaskFramgent. * @hide */ @NonNull public WindowContainerTransaction addTaskFragmentOperation(@NonNull IBinder fragmentToken, @NonNull TaskFragmentOperation taskFragmentOperation) { Objects.requireNonNull(fragmentToken); Objects.requireNonNull(taskFragmentOperation); final HierarchyOp hierarchyOp = new HierarchyOp.Builder( HierarchyOp.HIERARCHY_OP_TYPE_ADD_TASK_FRAGMENT_OPERATION) .setContainer(fragmentToken) .setTaskFragmentOperation(taskFragmentOperation) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * Sets/removes the always on top flag for this {@code windowContainer}. See * {@link com.android.server.wm.ConfigurationContainer#setAlwaysOnTop(boolean)}. * Please note that this method is only intended to be used for a * {@link com.android.server.wm.Task} or {@link com.android.server.wm.DisplayArea}. * *

* Setting always on top to {@code True} will also make the {@code windowContainer} to move * to the top. *

*

* Setting always on top to {@code False} will make this {@code windowContainer} to move * below the other always on top sibling containers. *

* * @param windowContainer the container which the flag need to be updated for. * @param alwaysOnTop denotes whether or not always on top flag should be set. * @hide */ @NonNull public WindowContainerTransaction setAlwaysOnTop( @NonNull WindowContainerToken windowContainer, boolean alwaysOnTop) { final HierarchyOp hierarchyOp = new HierarchyOp.Builder( HierarchyOp.HIERARCHY_OP_TYPE_SET_ALWAYS_ON_TOP) .setContainer(windowContainer.asBinder()) .setAlwaysOnTop(alwaysOnTop) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * When this {@link WindowContainerTransaction} failed to finish on the server side, it will * trigger callback with this {@param errorCallbackToken}. * @param errorCallbackToken client provided token that will be passed back as parameter in * the callback if there is an error on the server side. * @see ITaskFragmentOrganizer#onTaskFragmentError */ @NonNull public WindowContainerTransaction setErrorCallbackToken(@NonNull IBinder errorCallbackToken) { if (mErrorCallbackToken != null) { throw new IllegalStateException("Can't set multiple error token for one transaction."); } mErrorCallbackToken = errorCallbackToken; return this; } /** * Sets the {@link TaskFragmentOrganizer} that applies this {@link WindowContainerTransaction}. * When this is set, the server side will not check for the permission of * {@link android.Manifest.permission#MANAGE_ACTIVITY_TASKS}, but will ensure this WCT only * contains operations that are allowed for this organizer, such as modifying TaskFragments that * are organized by this organizer. * @hide */ @NonNull public WindowContainerTransaction setTaskFragmentOrganizer( @NonNull ITaskFragmentOrganizer organizer) { mTaskFragmentOrganizer = organizer; return this; } /** * Clears container adjacent. * @param root the root container to clear the adjacent roots for. * @hide */ @NonNull public WindowContainerTransaction clearAdjacentRoots( @NonNull WindowContainerToken root) { mHierarchyOps.add(HierarchyOp.createForClearAdjacentRoots(root.asBinder())); return this; } /** * Sets/removes the reparent leaf task flag for this {@code windowContainer}. * When this is set, the server side will try to reparent the leaf task to task display area * if there is an existing activity in history during the activity launch. This operation only * support on the organized root task. * @hide */ @NonNull public WindowContainerTransaction setReparentLeafTaskIfRelaunch( @NonNull WindowContainerToken windowContainer, boolean reparentLeafTaskIfRelaunch) { final HierarchyOp hierarchyOp = new HierarchyOp.Builder( HierarchyOp.HIERARCHY_OP_TYPE_SET_REPARENT_LEAF_TASK_IF_RELAUNCH) .setContainer(windowContainer.asBinder()) .setReparentLeafTaskIfRelaunch(reparentLeafTaskIfRelaunch) .build(); mHierarchyOps.add(hierarchyOp); return this; } /** * Moves the PiP activity of a parent task to a pinned root task. * @param parentToken the parent task of the PiP activity * @param bounds the entry bounds * @hide */ @NonNull public WindowContainerTransaction movePipActivityToPinnedRootTask( @NonNull WindowContainerToken parentToken, @NonNull Rect bounds) { mHierarchyOps.add(new HierarchyOp .Builder(HierarchyOp.HIERARCHY_OP_TYPE_MOVE_PIP_ACTIVITY_TO_PINNED_TASK) .setContainer(parentToken.asBinder()) .setBounds(bounds) .build()); return this; } /** * Defers client-facing configuration changes for activities in `container` until the end of * the transition animation. The configuration will still be applied to the WMCore hierarchy * at the normal time (beginning); so, special consideration must be made for this in the * animation. * * @param container WindowContainerToken who's children should defer config notification. * @hide */ @NonNull public WindowContainerTransaction deferConfigToTransitionEnd( @NonNull WindowContainerToken container) { final Change change = getOrCreateChange(container.asBinder()); change.mConfigAtTransitionEnd = true; return this; } /** * Merges another WCT into this one. * @param transfer When true, this will transfer everything from other potentially leaving * other in an unusable state. When false, other is left alone, but * SurfaceFlinger Transactions will not be merged. * @hide */ public void merge(WindowContainerTransaction other, boolean transfer) { for (int i = 0, n = other.mChanges.size(); i < n; ++i) { final IBinder key = other.mChanges.keyAt(i); Change existing = mChanges.get(key); if (existing == null) { existing = new Change(); mChanges.put(key, existing); } existing.merge(other.mChanges.valueAt(i), transfer); } for (int i = 0, n = other.mHierarchyOps.size(); i < n; ++i) { mHierarchyOps.add(transfer ? other.mHierarchyOps.get(i) : new HierarchyOp(other.mHierarchyOps.get(i))); } if (mErrorCallbackToken != null && other.mErrorCallbackToken != null && mErrorCallbackToken != other.mErrorCallbackToken) { throw new IllegalArgumentException("Can't merge two WCTs with different error token"); } final IBinder taskFragmentOrganizerAsBinder = mTaskFragmentOrganizer != null ? mTaskFragmentOrganizer.asBinder() : null; final IBinder otherTaskFragmentOrganizerAsBinder = other.mTaskFragmentOrganizer != null ? other.mTaskFragmentOrganizer.asBinder() : null; if (!Objects.equals(taskFragmentOrganizerAsBinder, otherTaskFragmentOrganizerAsBinder)) { throw new IllegalArgumentException( "Can't merge two WCTs from different TaskFragmentOrganizers"); } mErrorCallbackToken = mErrorCallbackToken != null ? mErrorCallbackToken : other.mErrorCallbackToken; } /** @hide */ public boolean isEmpty() { return mChanges.isEmpty() && mHierarchyOps.isEmpty(); } /** @hide */ public Map getChanges() { return mChanges; } /** @hide */ public List getHierarchyOps() { return mHierarchyOps; } /** @hide */ @Nullable public IBinder getErrorCallbackToken() { return mErrorCallbackToken; } /** @hide */ @Nullable public ITaskFragmentOrganizer getTaskFragmentOrganizer() { return mTaskFragmentOrganizer; } @Override @NonNull public String toString() { return "WindowContainerTransaction {" + " changes = " + mChanges + " hops = " + mHierarchyOps + " errorCallbackToken=" + mErrorCallbackToken + " taskFragmentOrganizer=" + mTaskFragmentOrganizer + " }"; } @Override public void writeToParcel(@NonNull Parcel dest, int flags) { dest.writeMap(mChanges); dest.writeTypedList(mHierarchyOps); dest.writeStrongBinder(mErrorCallbackToken); dest.writeStrongInterface(mTaskFragmentOrganizer); } @Override public int describeContents() { return 0; } @NonNull public static final Creator CREATOR = new Creator() { @Override public WindowContainerTransaction createFromParcel(Parcel in) { return new WindowContainerTransaction(in); } @Override public WindowContainerTransaction[] newArray(int size) { return new WindowContainerTransaction[size]; } }; /** * Holds changes on a single WindowContainer including Configuration changes. * @hide */ public static class Change implements Parcelable { public static final int CHANGE_FOCUSABLE = 1; public static final int CHANGE_BOUNDS_TRANSACTION = 1 << 1; public static final int CHANGE_PIP_CALLBACK = 1 << 2; public static final int CHANGE_HIDDEN = 1 << 3; public static final int CHANGE_BOUNDS_TRANSACTION_RECT = 1 << 4; public static final int CHANGE_IGNORE_ORIENTATION_REQUEST = 1 << 5; public static final int CHANGE_FORCE_NO_PIP = 1 << 6; public static final int CHANGE_FORCE_TRANSLUCENT = 1 << 7; public static final int CHANGE_DRAG_RESIZING = 1 << 8; public static final int CHANGE_RELATIVE_BOUNDS = 1 << 9; private final Configuration mConfiguration = new Configuration(); private boolean mFocusable = true; private boolean mHidden = false; private boolean mIgnoreOrientationRequest = false; private boolean mForceTranslucent = false; private boolean mDragResizing = false; private int mChangeMask = 0; private @ActivityInfo.Config int mConfigSetMask = 0; private @WindowConfiguration.WindowConfig int mWindowSetMask = 0; private Rect mPinnedBounds = null; private SurfaceControl.Transaction mBoundsChangeTransaction = null; private Rect mBoundsChangeSurfaceBounds = null; @Nullable private Rect mRelativeBounds = null; private boolean mConfigAtTransitionEnd = false; private int mActivityWindowingMode = -1; private int mWindowingMode = -1; public Change() {} protected Change(Parcel in) { mConfiguration.readFromParcel(in); mFocusable = in.readBoolean(); mHidden = in.readBoolean(); mIgnoreOrientationRequest = in.readBoolean(); mForceTranslucent = in.readBoolean(); mDragResizing = in.readBoolean(); mChangeMask = in.readInt(); mConfigSetMask = in.readInt(); mWindowSetMask = in.readInt(); if ((mChangeMask & Change.CHANGE_PIP_CALLBACK) != 0) { mPinnedBounds = new Rect(); mPinnedBounds.readFromParcel(in); } if ((mChangeMask & Change.CHANGE_BOUNDS_TRANSACTION) != 0) { mBoundsChangeTransaction = SurfaceControl.Transaction.CREATOR.createFromParcel(in); } if ((mChangeMask & Change.CHANGE_BOUNDS_TRANSACTION_RECT) != 0) { mBoundsChangeSurfaceBounds = new Rect(); mBoundsChangeSurfaceBounds.readFromParcel(in); } if ((mChangeMask & Change.CHANGE_RELATIVE_BOUNDS) != 0) { mRelativeBounds = new Rect(); mRelativeBounds.readFromParcel(in); } mConfigAtTransitionEnd = in.readBoolean(); mWindowingMode = in.readInt(); mActivityWindowingMode = in.readInt(); } /** * @param transfer When true, this will transfer other into this leaving other in an * undefined state. Use this if you don't intend to use other. When false, * SurfaceFlinger Transactions will not merge. */ public void merge(Change other, boolean transfer) { mConfiguration.setTo(other.mConfiguration, other.mConfigSetMask, other.mWindowSetMask); mConfigSetMask |= other.mConfigSetMask; mWindowSetMask |= other.mWindowSetMask; if ((other.mChangeMask & CHANGE_FOCUSABLE) != 0) { mFocusable = other.mFocusable; } if (transfer && (other.mChangeMask & CHANGE_BOUNDS_TRANSACTION) != 0) { mBoundsChangeTransaction = other.mBoundsChangeTransaction; other.mBoundsChangeTransaction = null; } if ((other.mChangeMask & CHANGE_PIP_CALLBACK) != 0) { mPinnedBounds = transfer ? other.mPinnedBounds : new Rect(other.mPinnedBounds); } if ((other.mChangeMask & CHANGE_HIDDEN) != 0) { mHidden = other.mHidden; } if ((other.mChangeMask & CHANGE_IGNORE_ORIENTATION_REQUEST) != 0) { mIgnoreOrientationRequest = other.mIgnoreOrientationRequest; } if ((other.mChangeMask & CHANGE_FORCE_TRANSLUCENT) != 0) { mForceTranslucent = other.mForceTranslucent; } if ((other.mChangeMask & CHANGE_DRAG_RESIZING) != 0) { mDragResizing = other.mDragResizing; } mChangeMask |= other.mChangeMask; if (other.mActivityWindowingMode >= 0) { mActivityWindowingMode = other.mActivityWindowingMode; } if (other.mWindowingMode >= 0) { mWindowingMode = other.mWindowingMode; } if (other.mBoundsChangeSurfaceBounds != null) { mBoundsChangeSurfaceBounds = transfer ? other.mBoundsChangeSurfaceBounds : new Rect(other.mBoundsChangeSurfaceBounds); } if (other.mRelativeBounds != null) { mRelativeBounds = transfer ? other.mRelativeBounds : new Rect(other.mRelativeBounds); } mConfigAtTransitionEnd = mConfigAtTransitionEnd || other.mConfigAtTransitionEnd; } public int getWindowingMode() { return mWindowingMode; } public int getActivityWindowingMode() { return mActivityWindowingMode; } public Configuration getConfiguration() { return mConfiguration; } /** Gets the requested focusable state */ public boolean getFocusable() { if ((mChangeMask & CHANGE_FOCUSABLE) == 0) { throw new RuntimeException("Focusable not set. check CHANGE_FOCUSABLE first"); } return mFocusable; } /** Gets the requested hidden state */ public boolean getHidden() { if ((mChangeMask & CHANGE_HIDDEN) == 0) { throw new RuntimeException("Hidden not set. check CHANGE_HIDDEN first"); } return mHidden; } /** Gets the requested state of whether to ignore orientation request. */ public boolean getIgnoreOrientationRequest() { if ((mChangeMask & CHANGE_IGNORE_ORIENTATION_REQUEST) == 0) { throw new RuntimeException("IgnoreOrientationRequest not set. " + "Check CHANGE_IGNORE_ORIENTATION_REQUEST first"); } return mIgnoreOrientationRequest; } /** Gets the requested force translucent state. */ public boolean getForceTranslucent() { if ((mChangeMask & CHANGE_FORCE_TRANSLUCENT) == 0) { throw new RuntimeException("Force translucent not set. " + "Check CHANGE_FORCE_TRANSLUCENT first"); } return mForceTranslucent; } /** Gets the requested drag resizing state. */ public boolean getDragResizing() { if ((mChangeMask & CHANGE_DRAG_RESIZING) == 0) { throw new RuntimeException("Drag resizing not set. " + "Check CHANGE_DRAG_RESIZING first"); } return mDragResizing; } /** Gets whether the config should be sent to the client at the end of the transition. */ public boolean getConfigAtTransitionEnd() { return mConfigAtTransitionEnd; } public int getChangeMask() { return mChangeMask; } @ActivityInfo.Config public int getConfigSetMask() { return mConfigSetMask; } @WindowConfiguration.WindowConfig public int getWindowSetMask() { return mWindowSetMask; } /** * Returns the bounds to be used for scheduling the enter pip callback * or null if no callback is to be scheduled. */ public Rect getEnterPipBounds() { return mPinnedBounds; } public SurfaceControl.Transaction getBoundsChangeTransaction() { return mBoundsChangeTransaction; } public Rect getBoundsChangeSurfaceBounds() { return mBoundsChangeSurfaceBounds; } @Nullable public Rect getRelativeBounds() { return mRelativeBounds; } @Override public String toString() { final boolean changesBounds = (mConfigSetMask & ActivityInfo.CONFIG_WINDOW_CONFIGURATION) != 0 && ((mWindowSetMask & WindowConfiguration.WINDOW_CONFIG_BOUNDS) != 0); final boolean changesAppBounds = (mConfigSetMask & ActivityInfo.CONFIG_WINDOW_CONFIGURATION) != 0 && ((mWindowSetMask & WindowConfiguration.WINDOW_CONFIG_APP_BOUNDS) != 0); final boolean changesSs = (mConfigSetMask & ActivityInfo.CONFIG_SCREEN_SIZE) != 0; final boolean changesSss = (mConfigSetMask & ActivityInfo.CONFIG_SMALLEST_SCREEN_SIZE) != 0; StringBuilder sb = new StringBuilder(); sb.append('{'); if (changesBounds) { sb.append("bounds:" + mConfiguration.windowConfiguration.getBounds() + ","); } if (changesAppBounds) { sb.append("appbounds:" + mConfiguration.windowConfiguration.getAppBounds() + ","); } if (changesSss) { sb.append("ssw:" + mConfiguration.smallestScreenWidthDp + ","); } if (changesSs) { sb.append("sw/h:" + mConfiguration.screenWidthDp + "x" + mConfiguration.screenHeightDp + ","); } if ((mChangeMask & CHANGE_FOCUSABLE) != 0) { sb.append("focusable:" + mFocusable + ","); } if ((mChangeMask & CHANGE_FORCE_TRANSLUCENT) != 0) { sb.append("forceTranslucent:" + mForceTranslucent + ","); } if ((mChangeMask & CHANGE_HIDDEN) != 0) { sb.append("hidden:" + mHidden + ","); } if ((mChangeMask & CHANGE_DRAG_RESIZING) != 0) { sb.append("dragResizing:" + mDragResizing + ","); } if (mBoundsChangeTransaction != null) { sb.append("hasBoundsTransaction,"); } if ((mChangeMask & CHANGE_IGNORE_ORIENTATION_REQUEST) != 0) { sb.append("ignoreOrientationRequest:" + mIgnoreOrientationRequest + ","); } if ((mChangeMask & CHANGE_RELATIVE_BOUNDS) != 0) { sb.append("relativeBounds:").append(mRelativeBounds).append(","); } if (mConfigAtTransitionEnd) { sb.append("configAtTransitionEnd").append(","); } sb.append("}"); return sb.toString(); } @Override public void writeToParcel(Parcel dest, int flags) { mConfiguration.writeToParcel(dest, flags); dest.writeBoolean(mFocusable); dest.writeBoolean(mHidden); dest.writeBoolean(mIgnoreOrientationRequest); dest.writeBoolean(mForceTranslucent); dest.writeBoolean(mDragResizing); dest.writeInt(mChangeMask); dest.writeInt(mConfigSetMask); dest.writeInt(mWindowSetMask); if (mPinnedBounds != null) { mPinnedBounds.writeToParcel(dest, flags); } if (mBoundsChangeTransaction != null) { mBoundsChangeTransaction.writeToParcel(dest, flags); } if (mBoundsChangeSurfaceBounds != null) { mBoundsChangeSurfaceBounds.writeToParcel(dest, flags); } if (mRelativeBounds != null) { mRelativeBounds.writeToParcel(dest, flags); } dest.writeBoolean(mConfigAtTransitionEnd); dest.writeInt(mWindowingMode); dest.writeInt(mActivityWindowingMode); } @Override public int describeContents() { return 0; } public static final Creator CREATOR = new Creator() { @Override public Change createFromParcel(Parcel in) { return new Change(in); } @Override public Change[] newArray(int size) { return new Change[size]; } }; } /** * Holds information about a reparent/reorder operation in the hierarchy. This is separate from * Changes because they must be executed in the same order that they are added. * @hide */ public static final class HierarchyOp implements Parcelable { public static final int HIERARCHY_OP_TYPE_REPARENT = 0; public static final int HIERARCHY_OP_TYPE_REORDER = 1; public static final int HIERARCHY_OP_TYPE_CHILDREN_TASKS_REPARENT = 2; public static final int HIERARCHY_OP_TYPE_SET_LAUNCH_ROOT = 3; public static final int HIERARCHY_OP_TYPE_SET_ADJACENT_ROOTS = 4; public static final int HIERARCHY_OP_TYPE_LAUNCH_TASK = 5; public static final int HIERARCHY_OP_TYPE_SET_LAUNCH_ADJACENT_FLAG_ROOT = 6; public static final int HIERARCHY_OP_TYPE_PENDING_INTENT = 7; public static final int HIERARCHY_OP_TYPE_START_SHORTCUT = 8; public static final int HIERARCHY_OP_TYPE_RESTORE_TRANSIENT_ORDER = 9; public static final int HIERARCHY_OP_TYPE_ADD_INSETS_FRAME_PROVIDER = 10; public static final int HIERARCHY_OP_TYPE_REMOVE_INSETS_FRAME_PROVIDER = 11; public static final int HIERARCHY_OP_TYPE_SET_ALWAYS_ON_TOP = 12; public static final int HIERARCHY_OP_TYPE_REMOVE_TASK = 13; public static final int HIERARCHY_OP_TYPE_FINISH_ACTIVITY = 14; public static final int HIERARCHY_OP_TYPE_CLEAR_ADJACENT_ROOTS = 15; public static final int HIERARCHY_OP_TYPE_SET_REPARENT_LEAF_TASK_IF_RELAUNCH = 16; public static final int HIERARCHY_OP_TYPE_ADD_TASK_FRAGMENT_OPERATION = 17; public static final int HIERARCHY_OP_TYPE_MOVE_PIP_ACTIVITY_TO_PINNED_TASK = 18; // The following key(s) are for use with mLaunchOptions: // When launching a task (eg. from recents), this is the taskId to be launched. public static final String LAUNCH_KEY_TASK_ID = "android:transaction.hop.taskId"; // When starting from a shortcut, this contains the calling package. public static final String LAUNCH_KEY_SHORTCUT_CALLING_PACKAGE = "android:transaction.hop.shortcut_calling_package"; private final int mType; // Container we are performing the operation on. @Nullable private IBinder mContainer; // If this is same as mContainer, then only change position, don't reparent. @Nullable private IBinder mReparent; @Nullable private InsetsFrameProvider mInsetsFrameProvider; @Nullable private IBinder mInsetsFrameOwner; // Moves/reparents to top of parent when {@code true}, otherwise moves/reparents to bottom. private boolean mToTop; private boolean mReparentTopOnly; @Nullable private int[] mWindowingModes; @Nullable private int[] mActivityTypes; @Nullable private Bundle mLaunchOptions; @Nullable private Intent mActivityIntent; /** Used as options for {@link #addTaskFragmentOperation}. */ @Nullable private TaskFragmentOperation mTaskFragmentOperation; @Nullable private PendingIntent mPendingIntent; @Nullable private ShortcutInfo mShortcutInfo; @Nullable private Rect mBounds; private boolean mIncludingParents; private boolean mAlwaysOnTop; private boolean mReparentLeafTaskIfRelaunch; public static HierarchyOp createForReparent( @NonNull IBinder container, @Nullable IBinder reparent, boolean toTop) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_REPARENT) .setContainer(container) .setReparentContainer(reparent) .setToTop(toTop) .build(); } /** * Creates the {@link HierarchyOp} for the reorder operation. * * @param container which needs to be reordered * @param toTop if true, the container reorders * @param includingParents if true, all the parents in the hierarchy above are also * reoredered among their respective siblings * @return */ public static HierarchyOp createForReorder(@NonNull IBinder container, boolean toTop, boolean includingParents) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_REORDER) .setContainer(container) .setReparentContainer(container) .setToTop(toTop) .setIncludingParents(includingParents) .build(); } public static HierarchyOp createForChildrenTasksReparent(IBinder currentParent, IBinder newParent, int[] windowingModes, int[] activityTypes, boolean onTop, boolean reparentTopOnly) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_CHILDREN_TASKS_REPARENT) .setContainer(currentParent) .setReparentContainer(newParent) .setWindowingModes(windowingModes) .setActivityTypes(activityTypes) .setToTop(onTop) .setReparentTopOnly(reparentTopOnly) .build(); } public static HierarchyOp createForSetLaunchRoot(IBinder container, int[] windowingModes, int[] activityTypes) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_SET_LAUNCH_ROOT) .setContainer(container) .setWindowingModes(windowingModes) .setActivityTypes(activityTypes) .build(); } /** Create a hierarchy op for setting adjacent root tasks. */ public static HierarchyOp createForAdjacentRoots(IBinder root1, IBinder root2) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_SET_ADJACENT_ROOTS) .setContainer(root1) .setReparentContainer(root2) .build(); } /** Create a hierarchy op for launching a task. */ public static HierarchyOp createForTaskLaunch(int taskId, @Nullable Bundle options) { final Bundle fullOptions = options == null ? new Bundle() : options; fullOptions.putInt(LAUNCH_KEY_TASK_ID, taskId); return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_LAUNCH_TASK) .setToTop(true) .setLaunchOptions(fullOptions) .build(); } /** Create a hierarchy op for starting a shortcut. */ public static HierarchyOp createForStartShortcut(@NonNull String callingPackage, @NonNull ShortcutInfo shortcutInfo, @Nullable Bundle options) { final Bundle fullOptions = options == null ? new Bundle() : options; fullOptions.putString(LAUNCH_KEY_SHORTCUT_CALLING_PACKAGE, callingPackage); return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_START_SHORTCUT) .setShortcutInfo(shortcutInfo) .setLaunchOptions(fullOptions) .build(); } /** Create a hierarchy op for setting launch adjacent flag root. */ public static HierarchyOp createForSetLaunchAdjacentFlagRoot(IBinder container, boolean clearRoot) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_SET_LAUNCH_ADJACENT_FLAG_ROOT) .setContainer(container) .setToTop(clearRoot) .build(); } /** create a hierarchy op for deleting a task **/ public static HierarchyOp createForRemoveTask(@NonNull IBinder container) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_REMOVE_TASK) .setContainer(container) .build(); } /** Create a hierarchy op for clearing adjacent root tasks. */ public static HierarchyOp createForClearAdjacentRoots(@NonNull IBinder root) { return new HierarchyOp.Builder(HIERARCHY_OP_TYPE_CLEAR_ADJACENT_ROOTS) .setContainer(root) .build(); } /** Only creates through {@link Builder}. */ private HierarchyOp(int type) { mType = type; } public HierarchyOp(@NonNull HierarchyOp copy) { mType = copy.mType; mContainer = copy.mContainer; mBounds = copy.mBounds; mIncludingParents = copy.mIncludingParents; mReparent = copy.mReparent; mInsetsFrameProvider = copy.mInsetsFrameProvider; mInsetsFrameOwner = copy.mInsetsFrameOwner; mToTop = copy.mToTop; mReparentTopOnly = copy.mReparentTopOnly; mWindowingModes = copy.mWindowingModes; mActivityTypes = copy.mActivityTypes; mLaunchOptions = copy.mLaunchOptions; mActivityIntent = copy.mActivityIntent; mTaskFragmentOperation = copy.mTaskFragmentOperation; mPendingIntent = copy.mPendingIntent; mShortcutInfo = copy.mShortcutInfo; mAlwaysOnTop = copy.mAlwaysOnTop; mReparentLeafTaskIfRelaunch = copy.mReparentLeafTaskIfRelaunch; } protected HierarchyOp(Parcel in) { mType = in.readInt(); mContainer = in.readStrongBinder(); mBounds = in.readTypedObject(Rect.CREATOR); mIncludingParents = in.readBoolean(); mReparent = in.readStrongBinder(); mInsetsFrameProvider = in.readTypedObject(InsetsFrameProvider.CREATOR); mInsetsFrameOwner = in.readStrongBinder(); mToTop = in.readBoolean(); mReparentTopOnly = in.readBoolean(); mWindowingModes = in.createIntArray(); mActivityTypes = in.createIntArray(); mLaunchOptions = in.readBundle(); mActivityIntent = in.readTypedObject(Intent.CREATOR); mTaskFragmentOperation = in.readTypedObject(TaskFragmentOperation.CREATOR); mPendingIntent = in.readTypedObject(PendingIntent.CREATOR); mShortcutInfo = in.readTypedObject(ShortcutInfo.CREATOR); mAlwaysOnTop = in.readBoolean(); mReparentLeafTaskIfRelaunch = in.readBoolean(); } public int getType() { return mType; } public boolean isReparent() { return mType == HIERARCHY_OP_TYPE_REPARENT; } @Nullable public IBinder getNewParent() { return mReparent; } @Nullable public InsetsFrameProvider getInsetsFrameProvider() { return mInsetsFrameProvider; } @Nullable public IBinder getInsetsFrameOwner() { return mInsetsFrameOwner; } @NonNull public IBinder getContainer() { return mContainer; } @NonNull public IBinder getAdjacentRoot() { return mReparent; } public boolean getToTop() { return mToTop; } public boolean getReparentTopOnly() { return mReparentTopOnly; } public int[] getWindowingModes() { return mWindowingModes; } public int[] getActivityTypes() { return mActivityTypes; } @Nullable public Bundle getLaunchOptions() { return mLaunchOptions; } @Nullable public Intent getActivityIntent() { return mActivityIntent; } public boolean isAlwaysOnTop() { return mAlwaysOnTop; } public boolean isReparentLeafTaskIfRelaunch() { return mReparentLeafTaskIfRelaunch; } @Nullable public TaskFragmentOperation getTaskFragmentOperation() { return mTaskFragmentOperation; } @Nullable public PendingIntent getPendingIntent() { return mPendingIntent; } @Nullable public ShortcutInfo getShortcutInfo() { return mShortcutInfo; } @NonNull public Rect getBounds() { return mBounds; } /** Denotes whether the parents should also be included in the op. */ @NonNull public boolean includingParents() { return mIncludingParents; } /** Gets a string representation of a hierarchy-op type. */ public static String hopToString(int type) { switch (type) { case HIERARCHY_OP_TYPE_REPARENT: return "reparent"; case HIERARCHY_OP_TYPE_REORDER: return "reorder"; case HIERARCHY_OP_TYPE_CHILDREN_TASKS_REPARENT: return "ChildrenTasksReparent"; case HIERARCHY_OP_TYPE_SET_LAUNCH_ROOT: return "SetLaunchRoot"; case HIERARCHY_OP_TYPE_SET_ADJACENT_ROOTS: return "SetAdjacentRoot"; case HIERARCHY_OP_TYPE_LAUNCH_TASK: return "LaunchTask"; case HIERARCHY_OP_TYPE_SET_LAUNCH_ADJACENT_FLAG_ROOT: return "SetAdjacentFlagRoot"; case HIERARCHY_OP_TYPE_PENDING_INTENT: return "PendingIntent"; case HIERARCHY_OP_TYPE_START_SHORTCUT: return "StartShortcut"; case HIERARCHY_OP_TYPE_ADD_INSETS_FRAME_PROVIDER: return "addInsetsFrameProvider"; case HIERARCHY_OP_TYPE_REMOVE_INSETS_FRAME_PROVIDER: return "removeInsetsFrameProvider"; case HIERARCHY_OP_TYPE_SET_ALWAYS_ON_TOP: return "setAlwaysOnTop"; case HIERARCHY_OP_TYPE_REMOVE_TASK: return "RemoveTask"; case HIERARCHY_OP_TYPE_FINISH_ACTIVITY: return "finishActivity"; case HIERARCHY_OP_TYPE_CLEAR_ADJACENT_ROOTS: return "ClearAdjacentRoot"; case HIERARCHY_OP_TYPE_SET_REPARENT_LEAF_TASK_IF_RELAUNCH: return "setReparentLeafTaskIfRelaunch"; case HIERARCHY_OP_TYPE_ADD_TASK_FRAGMENT_OPERATION: return "addTaskFragmentOperation"; default: return "HOP(" + type + ")"; } } @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{").append(hopToString(mType)).append(": "); switch (mType) { case HIERARCHY_OP_TYPE_CHILDREN_TASKS_REPARENT: sb.append("from=").append(mContainer).append(" to=").append(mReparent) .append(" mToTop=").append(mToTop) .append(" mReparentTopOnly=").append(mReparentTopOnly) .append(" mWindowingMode=").append(Arrays.toString(mWindowingModes)) .append(" mActivityType=").append(Arrays.toString(mActivityTypes)); break; case HIERARCHY_OP_TYPE_SET_LAUNCH_ROOT: sb.append("container=").append(mContainer) .append(" mWindowingMode=").append(Arrays.toString(mWindowingModes)) .append(" mActivityType=").append(Arrays.toString(mActivityTypes)); break; case HIERARCHY_OP_TYPE_REPARENT: sb.append(mContainer).append(" to ").append(mToTop ? "top of " : "bottom of ") .append(mReparent); break; case HIERARCHY_OP_TYPE_REORDER: sb.append(mContainer).append(" to ").append(mToTop ? "top" : "bottom"); break; case HIERARCHY_OP_TYPE_SET_ADJACENT_ROOTS: sb.append("container=").append(mContainer) .append(" adjacentRoot=").append(mReparent); break; case HIERARCHY_OP_TYPE_LAUNCH_TASK: sb.append(mLaunchOptions); break; case HIERARCHY_OP_TYPE_SET_LAUNCH_ADJACENT_FLAG_ROOT: sb.append("container=").append(mContainer).append(" clearRoot=").append(mToTop); break; case HIERARCHY_OP_TYPE_START_SHORTCUT: sb.append("options=").append(mLaunchOptions) .append(" info=").append(mShortcutInfo); break; case HIERARCHY_OP_TYPE_PENDING_INTENT: sb.append("options=").append(mLaunchOptions); break; case HIERARCHY_OP_TYPE_ADD_INSETS_FRAME_PROVIDER: case HIERARCHY_OP_TYPE_REMOVE_INSETS_FRAME_PROVIDER: sb.append("container=").append(mContainer) .append(" provider=").append(mInsetsFrameProvider) .append(" owner=").append(mInsetsFrameOwner); break; case HIERARCHY_OP_TYPE_SET_ALWAYS_ON_TOP: sb.append("container=").append(mContainer) .append(" alwaysOnTop=").append(mAlwaysOnTop); break; case HIERARCHY_OP_TYPE_REMOVE_TASK: sb.append("task=").append(mContainer); break; case HIERARCHY_OP_TYPE_FINISH_ACTIVITY: sb.append("activity=").append(mContainer); break; case HIERARCHY_OP_TYPE_CLEAR_ADJACENT_ROOTS: sb.append("container=").append(mContainer); break; case HIERARCHY_OP_TYPE_SET_REPARENT_LEAF_TASK_IF_RELAUNCH: sb.append("container= ").append(mContainer) .append(" reparentLeafTaskIfRelaunch= ") .append(mReparentLeafTaskIfRelaunch); break; case HIERARCHY_OP_TYPE_ADD_TASK_FRAGMENT_OPERATION: sb.append("fragmentToken= ").append(mContainer) .append(" operation= ").append(mTaskFragmentOperation); break; default: sb.append("container=").append(mContainer) .append(" reparent=").append(mReparent) .append(" mToTop=").append(mToTop) .append(" mWindowingMode=").append(Arrays.toString(mWindowingModes)) .append(" mActivityType=").append(Arrays.toString(mActivityTypes)); } return sb.append("}").toString(); } @Override public void writeToParcel(Parcel dest, int flags) { dest.writeInt(mType); dest.writeStrongBinder(mContainer); dest.writeTypedObject(mBounds, flags); dest.writeBoolean(mIncludingParents); dest.writeStrongBinder(mReparent); dest.writeTypedObject(mInsetsFrameProvider, flags); dest.writeStrongBinder(mInsetsFrameOwner); dest.writeBoolean(mToTop); dest.writeBoolean(mReparentTopOnly); dest.writeIntArray(mWindowingModes); dest.writeIntArray(mActivityTypes); dest.writeBundle(mLaunchOptions); dest.writeTypedObject(mActivityIntent, flags); dest.writeTypedObject(mTaskFragmentOperation, flags); dest.writeTypedObject(mPendingIntent, flags); dest.writeTypedObject(mShortcutInfo, flags); dest.writeBoolean(mAlwaysOnTop); dest.writeBoolean(mReparentLeafTaskIfRelaunch); } @Override public int describeContents() { return 0; } public static final Creator CREATOR = new Creator() { @Override public HierarchyOp createFromParcel(Parcel in) { return new HierarchyOp(in); } @Override public HierarchyOp[] newArray(int size) { return new HierarchyOp[size]; } }; private static class Builder { private final int mType; @Nullable private IBinder mContainer; @Nullable private IBinder mReparent; @Nullable private InsetsFrameProvider mInsetsFrameProvider; @Nullable private IBinder mInsetsFrameOwner; private boolean mToTop; private boolean mReparentTopOnly; @Nullable private int[] mWindowingModes; @Nullable private int[] mActivityTypes; @Nullable private Bundle mLaunchOptions; @Nullable private Intent mActivityIntent; @Nullable private TaskFragmentOperation mTaskFragmentOperation; @Nullable private PendingIntent mPendingIntent; @Nullable private ShortcutInfo mShortcutInfo; @Nullable private Rect mBounds; private boolean mIncludingParents; private boolean mAlwaysOnTop; private boolean mReparentLeafTaskIfRelaunch; Builder(int type) { mType = type; } Builder setContainer(@Nullable IBinder container) { mContainer = container; return this; } Builder setReparentContainer(@Nullable IBinder reparentContainer) { mReparent = reparentContainer; return this; } Builder setInsetsFrameProvider(InsetsFrameProvider provider) { mInsetsFrameProvider = provider; return this; } Builder setInsetsFrameOwner(IBinder owner) { mInsetsFrameOwner = owner; return this; } Builder setToTop(boolean toTop) { mToTop = toTop; return this; } Builder setReparentTopOnly(boolean reparentTopOnly) { mReparentTopOnly = reparentTopOnly; return this; } Builder setWindowingModes(@Nullable int[] windowingModes) { mWindowingModes = windowingModes; return this; } Builder setActivityTypes(@Nullable int[] activityTypes) { mActivityTypes = activityTypes; return this; } Builder setLaunchOptions(@Nullable Bundle launchOptions) { mLaunchOptions = launchOptions; return this; } Builder setActivityIntent(@Nullable Intent activityIntent) { mActivityIntent = activityIntent; return this; } Builder setPendingIntent(@Nullable PendingIntent sender) { mPendingIntent = sender; return this; } Builder setAlwaysOnTop(boolean alwaysOnTop) { mAlwaysOnTop = alwaysOnTop; return this; } Builder setTaskFragmentOperation( @Nullable TaskFragmentOperation taskFragmentOperation) { mTaskFragmentOperation = taskFragmentOperation; return this; } Builder setReparentLeafTaskIfRelaunch(boolean reparentLeafTaskIfRelaunch) { mReparentLeafTaskIfRelaunch = reparentLeafTaskIfRelaunch; return this; } Builder setShortcutInfo(@Nullable ShortcutInfo shortcutInfo) { mShortcutInfo = shortcutInfo; return this; } Builder setBounds(@NonNull Rect bounds) { mBounds = bounds; return this; } Builder setIncludingParents(boolean value) { mIncludingParents = value; return this; } HierarchyOp build() { final HierarchyOp hierarchyOp = new HierarchyOp(mType); hierarchyOp.mContainer = mContainer; hierarchyOp.mReparent = mReparent; hierarchyOp.mWindowingModes = mWindowingModes != null ? Arrays.copyOf(mWindowingModes, mWindowingModes.length) : null; hierarchyOp.mActivityTypes = mActivityTypes != null ? Arrays.copyOf(mActivityTypes, mActivityTypes.length) : null; hierarchyOp.mInsetsFrameProvider = mInsetsFrameProvider; hierarchyOp.mInsetsFrameOwner = mInsetsFrameOwner; hierarchyOp.mToTop = mToTop; hierarchyOp.mReparentTopOnly = mReparentTopOnly; hierarchyOp.mLaunchOptions = mLaunchOptions; hierarchyOp.mActivityIntent = mActivityIntent; hierarchyOp.mPendingIntent = mPendingIntent; hierarchyOp.mAlwaysOnTop = mAlwaysOnTop; hierarchyOp.mTaskFragmentOperation = mTaskFragmentOperation; hierarchyOp.mShortcutInfo = mShortcutInfo; hierarchyOp.mBounds = mBounds; hierarchyOp.mIncludingParents = mIncludingParents; hierarchyOp.mReparentLeafTaskIfRelaunch = mReparentLeafTaskIfRelaunch; return hierarchyOp; } } } /** * Helper class for building an options Bundle that can be used to set adjacent rules of * TaskFragments. */ public static class TaskFragmentAdjacentParams { private static final String DELAY_PRIMARY_LAST_ACTIVITY_REMOVAL = "android:transaction.adjacent.option.delay_primary_removal"; private static final String DELAY_SECONDARY_LAST_ACTIVITY_REMOVAL = "android:transaction.adjacent.option.delay_secondary_removal"; private boolean mDelayPrimaryLastActivityRemoval; private boolean mDelaySecondaryLastActivityRemoval; public TaskFragmentAdjacentParams() { } public TaskFragmentAdjacentParams(@NonNull Bundle bundle) { mDelayPrimaryLastActivityRemoval = bundle.getBoolean( DELAY_PRIMARY_LAST_ACTIVITY_REMOVAL); mDelaySecondaryLastActivityRemoval = bundle.getBoolean( DELAY_SECONDARY_LAST_ACTIVITY_REMOVAL); } /** @see #shouldDelayPrimaryLastActivityRemoval() */ public void setShouldDelayPrimaryLastActivityRemoval(boolean delay) { mDelayPrimaryLastActivityRemoval = delay; } /** @see #shouldDelaySecondaryLastActivityRemoval() */ public void setShouldDelaySecondaryLastActivityRemoval(boolean delay) { mDelaySecondaryLastActivityRemoval = delay; } /** * Whether to delay the last activity of the primary adjacent TaskFragment being immediately * removed while finishing. *

* It is usually set to {@code true} to give organizer an opportunity to perform other * actions or animations. An example is to finish together with the adjacent TaskFragment. *

*/ public boolean shouldDelayPrimaryLastActivityRemoval() { return mDelayPrimaryLastActivityRemoval; } /** * Similar to {@link #shouldDelayPrimaryLastActivityRemoval()}, but for the secondary * TaskFragment. */ public boolean shouldDelaySecondaryLastActivityRemoval() { return mDelaySecondaryLastActivityRemoval; } Bundle toBundle() { final Bundle b = new Bundle(); b.putBoolean(DELAY_PRIMARY_LAST_ACTIVITY_REMOVAL, mDelayPrimaryLastActivityRemoval); b.putBoolean(DELAY_SECONDARY_LAST_ACTIVITY_REMOVAL, mDelaySecondaryLastActivityRemoval); return b; } } }