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1 /*
2  * Copyright (C) 2012 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 package com.android.server.wm;
18 
19 import static android.app.ActivityManager.StackId.DOCKED_STACK_ID;
20 import static android.app.ActivityManager.StackId.HOME_STACK_ID;
21 import static android.app.ActivityManager.StackId.PINNED_STACK_ID;
22 import static android.view.WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE;
23 import static android.view.WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE;
24 import static android.view.WindowManager.LayoutParams.FLAG_NOT_TOUCH_MODAL;
25 import static com.android.server.wm.WindowManagerDebugConfig.DEBUG_VISIBILITY;
26 import static com.android.server.wm.WindowManagerDebugConfig.TAG_WM;
27 import static com.android.server.wm.WindowState.RESIZE_HANDLE_WIDTH_IN_DP;
28 
29 import android.app.ActivityManager.StackId;
30 import android.graphics.Rect;
31 import android.graphics.Region;
32 import android.graphics.Region.Op;
33 import android.util.DisplayMetrics;
34 import android.util.Slog;
35 import android.view.Display;
36 import android.view.DisplayInfo;
37 import android.view.Surface;
38 
39 import java.io.PrintWriter;
40 import java.util.ArrayList;
41 
42 class DisplayContentList extends ArrayList<DisplayContent> {
43 }
44 
45 /**
46  * Utility class for keeping track of the WindowStates and other pertinent contents of a
47  * particular Display.
48  *
49  * IMPORTANT: No method from this class should ever be used without holding
50  * WindowManagerService.mWindowMap.
51  */
52 class DisplayContent {
53 
54     /** Unique identifier of this stack. */
55     private final int mDisplayId;
56 
57     /** Z-ordered (bottom-most first) list of all Window objects. Assigned to an element
58      * from mDisplayWindows; */
59     private final WindowList mWindows = new WindowList();
60 
61     int mInitialDisplayWidth = 0;
62     int mInitialDisplayHeight = 0;
63     int mInitialDisplayDensity = 0;
64     int mBaseDisplayWidth = 0;
65     int mBaseDisplayHeight = 0;
66     int mBaseDisplayDensity = 0;
67     boolean mDisplayScalingDisabled;
68     private final DisplayInfo mDisplayInfo = new DisplayInfo();
69     private final Display mDisplay;
70     private final DisplayMetrics mDisplayMetrics = new DisplayMetrics();
71 
72     Rect mBaseDisplayRect = new Rect();
73     Rect mContentRect = new Rect();
74 
75     // Accessed directly by all users.
76     boolean layoutNeeded;
77     int pendingLayoutChanges;
78     final boolean isDefaultDisplay;
79 
80     /** Window tokens that are in the process of exiting, but still on screen for animations. */
81     final ArrayList<WindowToken> mExitingTokens = new ArrayList<>();
82 
83     /** Array containing all TaskStacks on this display.  Array
84      * is stored in display order with the current bottom stack at 0. */
85     private final ArrayList<TaskStack> mStacks = new ArrayList<>();
86 
87     /** A special TaskStack with id==HOME_STACK_ID that moves to the bottom whenever any TaskStack
88      * (except a future lockscreen TaskStack) moves to the top. */
89     private TaskStack mHomeStack = null;
90 
91     /** Detect user tapping outside of current focused task bounds .*/
92     TaskTapPointerEventListener mTapDetector;
93 
94     /** Detect user tapping outside of current focused stack bounds .*/
95     Region mTouchExcludeRegion = new Region();
96 
97     /** Detect user tapping in a non-resizeable task in docked or fullscreen stack .*/
98     Region mNonResizeableRegion = new Region();
99 
100     /** Save allocating when calculating rects */
101     private final Rect mTmpRect = new Rect();
102     private final Rect mTmpRect2 = new Rect();
103     private final Region mTmpRegion = new Region();
104 
105     /** For gathering Task objects in order. */
106     final ArrayList<Task> mTmpTaskHistory = new ArrayList<Task>();
107 
108     final WindowManagerService mService;
109 
110     /** Remove this display when animation on it has completed. */
111     boolean mDeferredRemoval;
112 
113     final DockedStackDividerController mDividerControllerLocked;
114 
115     final DimLayerController mDimLayerController;
116 
117     final ArrayList<WindowState> mTapExcludedWindows = new ArrayList<>();
118 
119     /**
120      * @param display May not be null.
121      * @param service You know.
122      */
DisplayContent(Display display, WindowManagerService service)123     DisplayContent(Display display, WindowManagerService service) {
124         mDisplay = display;
125         mDisplayId = display.getDisplayId();
126         display.getDisplayInfo(mDisplayInfo);
127         display.getMetrics(mDisplayMetrics);
128         isDefaultDisplay = mDisplayId == Display.DEFAULT_DISPLAY;
129         mService = service;
130         initializeDisplayBaseInfo();
131         mDividerControllerLocked = new DockedStackDividerController(service, this);
132         mDimLayerController = new DimLayerController(this);
133     }
134 
getDisplayId()135     int getDisplayId() {
136         return mDisplayId;
137     }
138 
getWindowList()139     WindowList getWindowList() {
140         return mWindows;
141     }
142 
getDisplay()143     Display getDisplay() {
144         return mDisplay;
145     }
146 
getDisplayInfo()147     DisplayInfo getDisplayInfo() {
148         return mDisplayInfo;
149     }
150 
getDisplayMetrics()151     DisplayMetrics getDisplayMetrics() {
152         return mDisplayMetrics;
153     }
154 
getDockedDividerController()155     DockedStackDividerController getDockedDividerController() {
156         return mDividerControllerLocked;
157     }
158 
159     /**
160      * Returns true if the specified UID has access to this display.
161      */
hasAccess(int uid)162     public boolean hasAccess(int uid) {
163         return mDisplay.hasAccess(uid);
164     }
165 
isPrivate()166     public boolean isPrivate() {
167         return (mDisplay.getFlags() & Display.FLAG_PRIVATE) != 0;
168     }
169 
getStacks()170     ArrayList<TaskStack> getStacks() {
171         return mStacks;
172     }
173 
174     /**
175      * Retrieve the tasks on this display in stack order from the bottommost TaskStack up.
176      * @return All the Tasks, in order, on this display.
177      */
getTasks()178     ArrayList<Task> getTasks() {
179         mTmpTaskHistory.clear();
180         final int numStacks = mStacks.size();
181         for (int stackNdx = 0; stackNdx < numStacks; ++stackNdx) {
182             mTmpTaskHistory.addAll(mStacks.get(stackNdx).getTasks());
183         }
184         return mTmpTaskHistory;
185     }
186 
getHomeStack()187     TaskStack getHomeStack() {
188         if (mHomeStack == null && mDisplayId == Display.DEFAULT_DISPLAY) {
189             Slog.e(TAG_WM, "getHomeStack: Returning null from this=" + this);
190         }
191         return mHomeStack;
192     }
193 
getStackById(int stackId)194     TaskStack getStackById(int stackId) {
195         for (int i = mStacks.size() - 1; i >= 0; --i) {
196             final TaskStack stack = mStacks.get(i);
197             if (stack.mStackId == stackId) {
198                 return stack;
199             }
200         }
201         return null;
202     }
203 
updateDisplayInfo()204     void updateDisplayInfo() {
205         mDisplay.getDisplayInfo(mDisplayInfo);
206         mDisplay.getMetrics(mDisplayMetrics);
207         for (int i = mStacks.size() - 1; i >= 0; --i) {
208             mStacks.get(i).updateDisplayInfo(null);
209         }
210     }
211 
initializeDisplayBaseInfo()212     void initializeDisplayBaseInfo() {
213         // Bootstrap the default logical display from the display manager.
214         final DisplayInfo newDisplayInfo =
215                 mService.mDisplayManagerInternal.getDisplayInfo(mDisplayId);
216         if (newDisplayInfo != null) {
217             mDisplayInfo.copyFrom(newDisplayInfo);
218         }
219         mBaseDisplayWidth = mInitialDisplayWidth = mDisplayInfo.logicalWidth;
220         mBaseDisplayHeight = mInitialDisplayHeight = mDisplayInfo.logicalHeight;
221         mBaseDisplayDensity = mInitialDisplayDensity = mDisplayInfo.logicalDensityDpi;
222         mBaseDisplayRect.set(0, 0, mBaseDisplayWidth, mBaseDisplayHeight);
223     }
224 
getLogicalDisplayRect(Rect out)225     void getLogicalDisplayRect(Rect out) {
226         // Uses same calculation as in LogicalDisplay#configureDisplayInTransactionLocked.
227         final int orientation = mDisplayInfo.rotation;
228         boolean rotated = (orientation == Surface.ROTATION_90
229                 || orientation == Surface.ROTATION_270);
230         final int physWidth = rotated ? mBaseDisplayHeight : mBaseDisplayWidth;
231         final int physHeight = rotated ? mBaseDisplayWidth : mBaseDisplayHeight;
232         int width = mDisplayInfo.logicalWidth;
233         int left = (physWidth - width) / 2;
234         int height = mDisplayInfo.logicalHeight;
235         int top = (physHeight - height) / 2;
236         out.set(left, top, left + width, top + height);
237     }
238 
getContentRect(Rect out)239     void getContentRect(Rect out) {
240         out.set(mContentRect);
241     }
242 
243     /** Refer to {@link WindowManagerService#attachStack(int, int, boolean)} */
attachStack(TaskStack stack, boolean onTop)244     void attachStack(TaskStack stack, boolean onTop) {
245         if (stack.mStackId == HOME_STACK_ID) {
246             if (mHomeStack != null) {
247                 throw new IllegalArgumentException("attachStack: HOME_STACK_ID (0) not first.");
248             }
249             mHomeStack = stack;
250         }
251         if (onTop) {
252             mStacks.add(stack);
253         } else {
254             mStacks.add(0, stack);
255         }
256         layoutNeeded = true;
257     }
258 
moveStack(TaskStack stack, boolean toTop)259     void moveStack(TaskStack stack, boolean toTop) {
260         if (StackId.isAlwaysOnTop(stack.mStackId) && !toTop) {
261             // This stack is always-on-top silly...
262             Slog.w(TAG_WM, "Ignoring move of always-on-top stack=" + stack + " to bottom");
263             return;
264         }
265 
266         if (!mStacks.remove(stack)) {
267             Slog.wtf(TAG_WM, "moving stack that was not added: " + stack, new Throwable());
268         }
269 
270         int addIndex = toTop ? mStacks.size() : 0;
271 
272         if (toTop
273                 && mService.isStackVisibleLocked(PINNED_STACK_ID)
274                 && stack.mStackId != PINNED_STACK_ID) {
275             // The pinned stack is always the top most stack (always-on-top) when it is visible.
276             // So, stack is moved just below the pinned stack.
277             addIndex--;
278             TaskStack topStack = mStacks.get(addIndex);
279             if (topStack.mStackId != PINNED_STACK_ID) {
280                 throw new IllegalStateException("Pinned stack isn't top stack??? " + mStacks);
281             }
282         }
283         mStacks.add(addIndex, stack);
284     }
285 
detachStack(TaskStack stack)286     void detachStack(TaskStack stack) {
287         mDimLayerController.removeDimLayerUser(stack);
288         mStacks.remove(stack);
289     }
290 
291     /**
292      * Propagate the new bounds to all child stacks.
293      * @param contentRect The bounds to apply at the top level.
294      */
resize(Rect contentRect)295     void resize(Rect contentRect) {
296         mContentRect.set(contentRect);
297     }
298 
taskIdFromPoint(int x, int y)299     int taskIdFromPoint(int x, int y) {
300         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
301             TaskStack stack = mStacks.get(stackNdx);
302             stack.getBounds(mTmpRect);
303             if (!mTmpRect.contains(x, y) || stack.isAdjustedForMinimizedDockedStack()) {
304                 continue;
305             }
306             final ArrayList<Task> tasks = stack.getTasks();
307             for (int taskNdx = tasks.size() - 1; taskNdx >= 0; --taskNdx) {
308                 final Task task = tasks.get(taskNdx);
309                 final WindowState win = task.getTopVisibleAppMainWindow();
310                 if (win == null) {
311                     continue;
312                 }
313                 // We need to use the task's dim bounds (which is derived from the visible
314                 // bounds of its apps windows) for any touch-related tests. Can't use
315                 // the task's original bounds because it might be adjusted to fit the
316                 // content frame. For example, the presence of the IME adjusting the
317                 // windows frames when the app window is the IME target.
318                 task.getDimBounds(mTmpRect);
319                 if (mTmpRect.contains(x, y)) {
320                     return task.mTaskId;
321                 }
322             }
323         }
324         return -1;
325     }
326 
327     /**
328      * Find the task whose outside touch area (for resizing) (x, y) falls within.
329      * Returns null if the touch doesn't fall into a resizing area.
330      */
findTaskForControlPoint(int x, int y)331     Task findTaskForControlPoint(int x, int y) {
332         final int delta = mService.dipToPixel(RESIZE_HANDLE_WIDTH_IN_DP, mDisplayMetrics);
333         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
334             TaskStack stack = mStacks.get(stackNdx);
335             if (!StackId.isTaskResizeAllowed(stack.mStackId)) {
336                 break;
337             }
338             final ArrayList<Task> tasks = stack.getTasks();
339             for (int taskNdx = tasks.size() - 1; taskNdx >= 0; --taskNdx) {
340                 final Task task = tasks.get(taskNdx);
341                 if (task.isFullscreen()) {
342                     return null;
343                 }
344 
345                 // We need to use the task's dim bounds (which is derived from the visible
346                 // bounds of its apps windows) for any touch-related tests. Can't use
347                 // the task's original bounds because it might be adjusted to fit the
348                 // content frame. One example is when the task is put to top-left quadrant,
349                 // the actual visible area would not start at (0,0) after it's adjusted
350                 // for the status bar.
351                 task.getDimBounds(mTmpRect);
352                 mTmpRect.inset(-delta, -delta);
353                 if (mTmpRect.contains(x, y)) {
354                     mTmpRect.inset(delta, delta);
355                     if (!mTmpRect.contains(x, y)) {
356                         return task;
357                     }
358                     // User touched inside the task. No need to look further,
359                     // focus transfer will be handled in ACTION_UP.
360                     return null;
361                 }
362             }
363         }
364         return null;
365     }
366 
setTouchExcludeRegion(Task focusedTask)367     void setTouchExcludeRegion(Task focusedTask) {
368         mTouchExcludeRegion.set(mBaseDisplayRect);
369         final int delta = mService.dipToPixel(RESIZE_HANDLE_WIDTH_IN_DP, mDisplayMetrics);
370         boolean addBackFocusedTask = false;
371         mNonResizeableRegion.setEmpty();
372         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
373             TaskStack stack = mStacks.get(stackNdx);
374             final ArrayList<Task> tasks = stack.getTasks();
375             for (int taskNdx = tasks.size() - 1; taskNdx >= 0; --taskNdx) {
376                 final Task task = tasks.get(taskNdx);
377                 AppWindowToken token = task.getTopVisibleAppToken();
378                 if (token == null || !token.isVisible()) {
379                     continue;
380                 }
381 
382                 /**
383                  * Exclusion region is the region that TapDetector doesn't care about.
384                  * Here we want to remove all non-focused tasks from the exclusion region.
385                  * We also remove the outside touch area for resizing for all freeform
386                  * tasks (including the focused).
387                  *
388                  * We save the focused task region once we find it, and add it back at the end.
389                  */
390 
391                 task.getDimBounds(mTmpRect);
392 
393                 if (task == focusedTask) {
394                     addBackFocusedTask = true;
395                     mTmpRect2.set(mTmpRect);
396                 }
397 
398                 final boolean isFreeformed = task.inFreeformWorkspace();
399                 if (task != focusedTask || isFreeformed) {
400                     if (isFreeformed) {
401                         // If the task is freeformed, enlarge the area to account for outside
402                         // touch area for resize.
403                         mTmpRect.inset(-delta, -delta);
404                         // Intersect with display content rect. If we have system decor (status bar/
405                         // navigation bar), we want to exclude that from the tap detection.
406                         // Otherwise, if the app is partially placed under some system button (eg.
407                         // Recents, Home), pressing that button would cause a full series of
408                         // unwanted transfer focus/resume/pause, before we could go home.
409                         mTmpRect.intersect(mContentRect);
410                     }
411                     mTouchExcludeRegion.op(mTmpRect, Region.Op.DIFFERENCE);
412                 }
413                 if (task.isTwoFingerScrollMode()) {
414                     stack.getBounds(mTmpRect);
415                     mNonResizeableRegion.op(mTmpRect, Region.Op.UNION);
416                     break;
417                 }
418             }
419         }
420         // If we removed the focused task above, add it back and only leave its
421         // outside touch area in the exclusion. TapDectector is not interested in
422         // any touch inside the focused task itself.
423         if (addBackFocusedTask) {
424             mTouchExcludeRegion.op(mTmpRect2, Region.Op.UNION);
425         }
426         final WindowState inputMethod = mService.mInputMethodWindow;
427         if (inputMethod != null && inputMethod.isVisibleLw()) {
428             // If the input method is visible and the user is typing, we don't want these touch
429             // events to be intercepted and used to change focus. This would likely cause a
430             // disappearance of the input method.
431             inputMethod.getTouchableRegion(mTmpRegion);
432             mTouchExcludeRegion.op(mTmpRegion, Region.Op.UNION);
433         }
434         for (int i = mTapExcludedWindows.size() - 1; i >= 0; i--) {
435             WindowState win = mTapExcludedWindows.get(i);
436             win.getTouchableRegion(mTmpRegion);
437             mTouchExcludeRegion.op(mTmpRegion, Region.Op.UNION);
438         }
439         if (getDockedStackVisibleForUserLocked() != null) {
440             mDividerControllerLocked.getTouchRegion(mTmpRect);
441             mTmpRegion.set(mTmpRect);
442             mTouchExcludeRegion.op(mTmpRegion, Op.UNION);
443         }
444         if (mTapDetector != null) {
445             mTapDetector.setTouchExcludeRegion(mTouchExcludeRegion, mNonResizeableRegion);
446         }
447     }
448 
switchUserStacks()449     void switchUserStacks() {
450         final WindowList windows = getWindowList();
451         for (int i = 0; i < windows.size(); i++) {
452             final WindowState win = windows.get(i);
453             if (win.isHiddenFromUserLocked()) {
454                 if (DEBUG_VISIBILITY) Slog.w(TAG_WM, "user changing, hiding " + win
455                         + ", attrs=" + win.mAttrs.type + ", belonging to " + win.mOwnerUid);
456                 win.hideLw(false);
457             }
458         }
459 
460         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
461             mStacks.get(stackNdx).switchUser();
462         }
463     }
464 
resetAnimationBackgroundAnimator()465     void resetAnimationBackgroundAnimator() {
466         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
467             mStacks.get(stackNdx).resetAnimationBackgroundAnimator();
468         }
469     }
470 
animateDimLayers()471     boolean animateDimLayers() {
472         return mDimLayerController.animateDimLayers();
473     }
474 
resetDimming()475     void resetDimming() {
476         mDimLayerController.resetDimming();
477     }
478 
isDimming()479     boolean isDimming() {
480         return mDimLayerController.isDimming();
481     }
482 
stopDimmingIfNeeded()483     void stopDimmingIfNeeded() {
484         mDimLayerController.stopDimmingIfNeeded();
485     }
486 
close()487     void close() {
488         mDimLayerController.close();
489         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
490             mStacks.get(stackNdx).close();
491         }
492     }
493 
isAnimating()494     boolean isAnimating() {
495         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
496             final TaskStack stack = mStacks.get(stackNdx);
497             if (stack.isAnimating()) {
498                 return true;
499             }
500         }
501         return false;
502     }
503 
checkForDeferredActions()504     void checkForDeferredActions() {
505         boolean animating = false;
506         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
507             final TaskStack stack = mStacks.get(stackNdx);
508             if (stack.isAnimating()) {
509                 animating = true;
510             } else {
511                 if (stack.mDeferDetach) {
512                     mService.detachStackLocked(this, stack);
513                 }
514                 final ArrayList<Task> tasks = stack.getTasks();
515                 for (int taskNdx = tasks.size() - 1; taskNdx >= 0; --taskNdx) {
516                     final Task task = tasks.get(taskNdx);
517                     AppTokenList tokens = task.mAppTokens;
518                     for (int tokenNdx = tokens.size() - 1; tokenNdx >= 0; --tokenNdx) {
519                         AppWindowToken wtoken = tokens.get(tokenNdx);
520                         if (wtoken.mIsExiting) {
521                             wtoken.removeAppFromTaskLocked();
522                         }
523                     }
524                 }
525             }
526         }
527         if (!animating && mDeferredRemoval) {
528             mService.onDisplayRemoved(mDisplayId);
529         }
530     }
531 
rotateBounds(int oldRotation, int newRotation, Rect bounds)532     void rotateBounds(int oldRotation, int newRotation, Rect bounds) {
533         final int rotationDelta = DisplayContent.deltaRotation(oldRotation, newRotation);
534         getLogicalDisplayRect(mTmpRect);
535         switch (rotationDelta) {
536             case Surface.ROTATION_0:
537                 mTmpRect2.set(bounds);
538                 break;
539             case Surface.ROTATION_90:
540                 mTmpRect2.top = mTmpRect.bottom - bounds.right;
541                 mTmpRect2.left = bounds.top;
542                 mTmpRect2.right = mTmpRect2.left + bounds.height();
543                 mTmpRect2.bottom = mTmpRect2.top + bounds.width();
544                 break;
545             case Surface.ROTATION_180:
546                 mTmpRect2.top = mTmpRect.bottom - bounds.bottom;
547                 mTmpRect2.left = mTmpRect.right - bounds.right;
548                 mTmpRect2.right = mTmpRect2.left + bounds.width();
549                 mTmpRect2.bottom = mTmpRect2.top + bounds.height();
550                 break;
551             case Surface.ROTATION_270:
552                 mTmpRect2.top = bounds.left;
553                 mTmpRect2.left = mTmpRect.right - bounds.bottom;
554                 mTmpRect2.right = mTmpRect2.left + bounds.height();
555                 mTmpRect2.bottom = mTmpRect2.top + bounds.width();
556                 break;
557         }
558         bounds.set(mTmpRect2);
559     }
560 
deltaRotation(int oldRotation, int newRotation)561     static int deltaRotation(int oldRotation, int newRotation) {
562         int delta = newRotation - oldRotation;
563         if (delta < 0) delta += 4;
564         return delta;
565     }
566 
dump(String prefix, PrintWriter pw)567     public void dump(String prefix, PrintWriter pw) {
568         pw.print(prefix); pw.print("Display: mDisplayId="); pw.println(mDisplayId);
569         final String subPrefix = "  " + prefix;
570         pw.print(subPrefix); pw.print("init="); pw.print(mInitialDisplayWidth); pw.print("x");
571             pw.print(mInitialDisplayHeight); pw.print(" "); pw.print(mInitialDisplayDensity);
572             pw.print("dpi");
573             if (mInitialDisplayWidth != mBaseDisplayWidth
574                     || mInitialDisplayHeight != mBaseDisplayHeight
575                     || mInitialDisplayDensity != mBaseDisplayDensity) {
576                 pw.print(" base=");
577                 pw.print(mBaseDisplayWidth); pw.print("x"); pw.print(mBaseDisplayHeight);
578                 pw.print(" "); pw.print(mBaseDisplayDensity); pw.print("dpi");
579             }
580             if (mDisplayScalingDisabled) {
581                 pw.println(" noscale");
582             }
583             pw.print(" cur=");
584             pw.print(mDisplayInfo.logicalWidth);
585             pw.print("x"); pw.print(mDisplayInfo.logicalHeight);
586             pw.print(" app=");
587             pw.print(mDisplayInfo.appWidth);
588             pw.print("x"); pw.print(mDisplayInfo.appHeight);
589             pw.print(" rng="); pw.print(mDisplayInfo.smallestNominalAppWidth);
590             pw.print("x"); pw.print(mDisplayInfo.smallestNominalAppHeight);
591             pw.print("-"); pw.print(mDisplayInfo.largestNominalAppWidth);
592             pw.print("x"); pw.println(mDisplayInfo.largestNominalAppHeight);
593             pw.print(subPrefix); pw.print("deferred="); pw.print(mDeferredRemoval);
594                 pw.print(" layoutNeeded="); pw.println(layoutNeeded);
595 
596         pw.println();
597         pw.println("  Application tokens in top down Z order:");
598         for (int stackNdx = mStacks.size() - 1; stackNdx >= 0; --stackNdx) {
599             final TaskStack stack = mStacks.get(stackNdx);
600             stack.dump(prefix + "  ", pw);
601         }
602 
603         pw.println();
604         if (!mExitingTokens.isEmpty()) {
605             pw.println();
606             pw.println("  Exiting tokens:");
607             for (int i = mExitingTokens.size() - 1; i >= 0; i--) {
608                 WindowToken token = mExitingTokens.get(i);
609                 pw.print("  Exiting #"); pw.print(i);
610                 pw.print(' '); pw.print(token);
611                 pw.println(':');
612                 token.dump(pw, "    ");
613             }
614         }
615         pw.println();
616         mDimLayerController.dump(prefix + "  ", pw);
617         pw.println();
618         mDividerControllerLocked.dump(prefix + "  ", pw);
619     }
620 
621     @Override
toString()622     public String toString() {
623         return "Display " + mDisplayId + " info=" + mDisplayInfo + " stacks=" + mStacks;
624     }
625 
626     /**
627      * @return The docked stack, but only if it is visible, and {@code null} otherwise.
628      */
getDockedStackLocked()629     TaskStack getDockedStackLocked() {
630         final TaskStack stack = mService.mStackIdToStack.get(DOCKED_STACK_ID);
631         return (stack != null && stack.isVisibleLocked()) ? stack : null;
632     }
633 
634     /**
635      * Like {@link #getDockedStackLocked}, but also returns the docked stack if it's currently not
636      * visible, as long as it's not hidden because the current user doesn't have any tasks there.
637      */
getDockedStackVisibleForUserLocked()638     TaskStack getDockedStackVisibleForUserLocked() {
639         final TaskStack stack = mService.mStackIdToStack.get(DOCKED_STACK_ID);
640         return (stack != null && stack.isVisibleForUserLocked()) ? stack : null;
641     }
642 
643     /**
644      * Find the visible, touch-deliverable window under the given point
645      */
getTouchableWinAtPointLocked(float xf, float yf)646     WindowState getTouchableWinAtPointLocked(float xf, float yf) {
647         WindowState touchedWin = null;
648         final int x = (int) xf;
649         final int y = (int) yf;
650 
651         for (int i = mWindows.size() - 1; i >= 0; i--) {
652             WindowState window = mWindows.get(i);
653             final int flags = window.mAttrs.flags;
654             if (!window.isVisibleLw()) {
655                 continue;
656             }
657             if ((flags & FLAG_NOT_TOUCHABLE) != 0) {
658                 continue;
659             }
660 
661             window.getVisibleBounds(mTmpRect);
662             if (!mTmpRect.contains(x, y)) {
663                 continue;
664             }
665 
666             window.getTouchableRegion(mTmpRegion);
667 
668             final int touchFlags = flags & (FLAG_NOT_FOCUSABLE | FLAG_NOT_TOUCH_MODAL);
669             if (mTmpRegion.contains(x, y) || touchFlags == 0) {
670                 touchedWin = window;
671                 break;
672             }
673         }
674 
675         return touchedWin;
676     }
677 }
678