/*
* Copyright (C) 2014 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.server.wm;
import android.animation.ObjectAnimator;
import android.animation.ValueAnimator;
import android.app.Service;
import android.content.Context;
import android.graphics.Canvas;
import android.graphics.Color;
import android.graphics.Matrix;
import android.graphics.Paint;
import android.graphics.Path;
import android.graphics.PixelFormat;
import android.graphics.Point;
import android.graphics.PorterDuff.Mode;
import android.graphics.Rect;
import android.graphics.RectF;
import android.graphics.Region;
import android.os.Handler;
import android.os.IBinder;
import android.os.Looper;
import android.os.Message;
import android.util.ArraySet;
import android.util.Log;
import android.util.Slog;
import android.util.SparseArray;
import android.util.TypedValue;
import android.view.MagnificationSpec;
import android.view.Surface;
import android.view.Surface.OutOfResourcesException;
import android.view.SurfaceControl;
import android.view.ViewConfiguration;
import android.view.WindowInfo;
import android.view.WindowManager;
import android.view.WindowManagerInternal.MagnificationCallbacks;
import android.view.WindowManagerInternal.WindowsForAccessibilityCallback;
import android.view.WindowManagerPolicy;
import android.view.animation.DecelerateInterpolator;
import android.view.animation.Interpolator;
import com.android.internal.R;
import com.android.internal.os.SomeArgs;
import java.util.ArrayList;
import java.util.List;
import java.util.Set;
/**
* This class contains the accessibility related logic of the window manger.
*/
final class AccessibilityController {
private final WindowManagerService mWindowManagerService;
private static final float[] sTempFloats = new float[9];
public AccessibilityController(WindowManagerService service) {
mWindowManagerService = service;
}
private DisplayMagnifier mDisplayMagnifier;
private WindowsForAccessibilityObserver mWindowsForAccessibilityObserver;
public void setMagnificationCallbacksLocked(MagnificationCallbacks callbacks) {
if (callbacks != null) {
if (mDisplayMagnifier != null) {
throw new IllegalStateException("Magnification callbacks already set!");
}
mDisplayMagnifier = new DisplayMagnifier(mWindowManagerService, callbacks);
} else {
if (mDisplayMagnifier == null) {
throw new IllegalStateException("Magnification callbacks already cleared!");
}
mDisplayMagnifier.destroyLocked();
mDisplayMagnifier = null;
}
}
public void setWindowsForAccessibilityCallback(WindowsForAccessibilityCallback callback) {
if (callback != null) {
if (mWindowsForAccessibilityObserver != null) {
throw new IllegalStateException(
"Windows for accessibility callback already set!");
}
mWindowsForAccessibilityObserver = new WindowsForAccessibilityObserver(
mWindowManagerService, callback);
} else {
if (mWindowsForAccessibilityObserver == null) {
throw new IllegalStateException(
"Windows for accessibility callback already cleared!");
}
mWindowsForAccessibilityObserver = null;
}
}
public void setMagnificationSpecLocked(MagnificationSpec spec) {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.setMagnificationSpecLocked(spec);
}
if (mWindowsForAccessibilityObserver != null) {
mWindowsForAccessibilityObserver.scheduleComputeChangedWindowsLocked();
}
}
public void onRectangleOnScreenRequestedLocked(Rect rectangle) {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.onRectangleOnScreenRequestedLocked(rectangle);
}
// Not relevant for the window observer.
}
public void onWindowLayersChangedLocked() {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.onWindowLayersChangedLocked();
}
if (mWindowsForAccessibilityObserver != null) {
mWindowsForAccessibilityObserver.scheduleComputeChangedWindowsLocked();
}
}
public void onRotationChangedLocked(DisplayContent displayContent, int rotation) {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.onRotationChangedLocked(displayContent, rotation);
}
if (mWindowsForAccessibilityObserver != null) {
mWindowsForAccessibilityObserver.scheduleComputeChangedWindowsLocked();
}
}
public void onAppWindowTransitionLocked(WindowState windowState, int transition) {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.onAppWindowTransitionLocked(windowState, transition);
}
// Not relevant for the window observer.
}
public void onWindowTransitionLocked(WindowState windowState, int transition) {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.onWindowTransitionLocked(windowState, transition);
}
if (mWindowsForAccessibilityObserver != null) {
mWindowsForAccessibilityObserver.scheduleComputeChangedWindowsLocked();
}
}
public void onWindowFocusChangedNotLocked() {
// Not relevant for the display magnifier.
WindowsForAccessibilityObserver observer = null;
synchronized (mWindowManagerService) {
observer = mWindowsForAccessibilityObserver;
}
if (observer != null) {
observer.performComputeChangedWindowsNotLocked();
}
}
public void onSomeWindowResizedOrMovedLocked() {
// Not relevant for the display magnifier.
if (mWindowsForAccessibilityObserver != null) {
mWindowsForAccessibilityObserver.scheduleComputeChangedWindowsLocked();
}
}
/** NOTE: This has to be called within a surface transaction. */
public void drawMagnifiedRegionBorderIfNeededLocked() {
if (mDisplayMagnifier != null) {
mDisplayMagnifier.drawMagnifiedRegionBorderIfNeededLocked();
}
// Not relevant for the window observer.
}
public MagnificationSpec getMagnificationSpecForWindowLocked(WindowState windowState) {
if (mDisplayMagnifier != null) {
return mDisplayMagnifier.getMagnificationSpecForWindowLocked(windowState);
}
return null;
}
public boolean hasCallbacksLocked() {
return (mDisplayMagnifier != null
|| mWindowsForAccessibilityObserver != null);
}
private static void populateTransformationMatrixLocked(WindowState windowState,
Matrix outMatrix) {
sTempFloats[Matrix.MSCALE_X] = windowState.mWinAnimator.mDsDx;
sTempFloats[Matrix.MSKEW_Y] = windowState.mWinAnimator.mDtDx;
sTempFloats[Matrix.MSKEW_X] = windowState.mWinAnimator.mDsDy;
sTempFloats[Matrix.MSCALE_Y] = windowState.mWinAnimator.mDtDy;
sTempFloats[Matrix.MTRANS_X] = windowState.mShownFrame.left;
sTempFloats[Matrix.MTRANS_Y] = windowState.mShownFrame.top;
sTempFloats[Matrix.MPERSP_0] = 0;
sTempFloats[Matrix.MPERSP_1] = 0;
sTempFloats[Matrix.MPERSP_2] = 1;
outMatrix.setValues(sTempFloats);
}
/**
* This class encapsulates the functionality related to display magnification.
*/
private static final class DisplayMagnifier {
private static final String LOG_TAG = "DisplayMagnifier";
private static final boolean DEBUG_WINDOW_TRANSITIONS = false;
private static final boolean DEBUG_ROTATION = false;
private static final boolean DEBUG_LAYERS = false;
private static final boolean DEBUG_RECTANGLE_REQUESTED = false;
private static final boolean DEBUG_VIEWPORT_WINDOW = false;
private final Rect mTempRect1 = new Rect();
private final Rect mTempRect2 = new Rect();
private final Region mTempRegion1 = new Region();
private final Region mTempRegion2 = new Region();
private final Region mTempRegion3 = new Region();
private final Region mTempRegion4 = new Region();
private final Context mContext;
private final WindowManagerService mWindowManagerService;
private final MagnifiedViewport mMagnifedViewport;
private final Handler mHandler;
private final MagnificationCallbacks mCallbacks;
private final long mLongAnimationDuration;
public DisplayMagnifier(WindowManagerService windowManagerService,
MagnificationCallbacks callbacks) {
mContext = windowManagerService.mContext;
mWindowManagerService = windowManagerService;
mCallbacks = callbacks;
mHandler = new MyHandler(mWindowManagerService.mH.getLooper());
mMagnifedViewport = new MagnifiedViewport();
mLongAnimationDuration = mContext.getResources().getInteger(
com.android.internal.R.integer.config_longAnimTime);
}
public void setMagnificationSpecLocked(MagnificationSpec spec) {
mMagnifedViewport.updateMagnificationSpecLocked(spec);
mMagnifedViewport.recomputeBoundsLocked();
mWindowManagerService.scheduleAnimationLocked();
}
public void onRectangleOnScreenRequestedLocked(Rect rectangle) {
if (DEBUG_RECTANGLE_REQUESTED) {
Slog.i(LOG_TAG, "Rectangle on screen requested: " + rectangle);
}
if (!mMagnifedViewport.isMagnifyingLocked()) {
return;
}
Rect magnifiedRegionBounds = mTempRect2;
mMagnifedViewport.getMagnifiedFrameInContentCoordsLocked(magnifiedRegionBounds);
if (magnifiedRegionBounds.contains(rectangle)) {
return;
}
SomeArgs args = SomeArgs.obtain();
args.argi1 = rectangle.left;
args.argi2 = rectangle.top;
args.argi3 = rectangle.right;
args.argi4 = rectangle.bottom;
mHandler.obtainMessage(MyHandler.MESSAGE_NOTIFY_RECTANGLE_ON_SCREEN_REQUESTED,
args).sendToTarget();
}
public void onWindowLayersChangedLocked() {
if (DEBUG_LAYERS) {
Slog.i(LOG_TAG, "Layers changed.");
}
mMagnifedViewport.recomputeBoundsLocked();
mWindowManagerService.scheduleAnimationLocked();
}
public void onRotationChangedLocked(DisplayContent displayContent, int rotation) {
if (DEBUG_ROTATION) {
Slog.i(LOG_TAG, "Rotaton: " + Surface.rotationToString(rotation)
+ " displayId: " + displayContent.getDisplayId());
}
mMagnifedViewport.onRotationChangedLocked();
mHandler.sendEmptyMessage(MyHandler.MESSAGE_NOTIFY_ROTATION_CHANGED);
}
public void onAppWindowTransitionLocked(WindowState windowState, int transition) {
if (DEBUG_WINDOW_TRANSITIONS) {
Slog.i(LOG_TAG, "Window transition: "
+ AppTransition.appTransitionToString(transition)
+ " displayId: " + windowState.getDisplayId());
}
final boolean magnifying = mMagnifedViewport.isMagnifyingLocked();
if (magnifying) {
switch (transition) {
case AppTransition.TRANSIT_ACTIVITY_OPEN:
case AppTransition.TRANSIT_TASK_OPEN:
case AppTransition.TRANSIT_TASK_TO_FRONT:
case AppTransition.TRANSIT_WALLPAPER_OPEN:
case AppTransition.TRANSIT_WALLPAPER_CLOSE:
case AppTransition.TRANSIT_WALLPAPER_INTRA_OPEN: {
mHandler.sendEmptyMessage(MyHandler.MESSAGE_NOTIFY_USER_CONTEXT_CHANGED);
}
}
}
}
public void onWindowTransitionLocked(WindowState windowState, int transition) {
if (DEBUG_WINDOW_TRANSITIONS) {
Slog.i(LOG_TAG, "Window transition: "
+ AppTransition.appTransitionToString(transition)
+ " displayId: " + windowState.getDisplayId());
}
final boolean magnifying = mMagnifedViewport.isMagnifyingLocked();
final int type = windowState.mAttrs.type;
switch (transition) {
case WindowManagerPolicy.TRANSIT_ENTER:
case WindowManagerPolicy.TRANSIT_SHOW: {
if (!magnifying) {
break;
}
switch (type) {
case WindowManager.LayoutParams.TYPE_APPLICATION:
case WindowManager.LayoutParams.TYPE_APPLICATION_PANEL:
case WindowManager.LayoutParams.TYPE_APPLICATION_MEDIA:
case WindowManager.LayoutParams.TYPE_APPLICATION_SUB_PANEL:
case WindowManager.LayoutParams.TYPE_APPLICATION_ABOVE_SUB_PANEL:
case WindowManager.LayoutParams.TYPE_APPLICATION_ATTACHED_DIALOG:
case WindowManager.LayoutParams.TYPE_SEARCH_BAR:
case WindowManager.LayoutParams.TYPE_PHONE:
case WindowManager.LayoutParams.TYPE_SYSTEM_ALERT:
case WindowManager.LayoutParams.TYPE_TOAST:
case WindowManager.LayoutParams.TYPE_SYSTEM_OVERLAY:
case WindowManager.LayoutParams.TYPE_PRIORITY_PHONE:
case WindowManager.LayoutParams.TYPE_SYSTEM_DIALOG:
case WindowManager.LayoutParams.TYPE_KEYGUARD_DIALOG:
case WindowManager.LayoutParams.TYPE_SYSTEM_ERROR:
case WindowManager.LayoutParams.TYPE_VOLUME_OVERLAY:
case WindowManager.LayoutParams.TYPE_NAVIGATION_BAR_PANEL: {
Rect magnifiedRegionBounds = mTempRect2;
mMagnifedViewport.getMagnifiedFrameInContentCoordsLocked(
magnifiedRegionBounds);
Rect touchableRegionBounds = mTempRect1;
windowState.getTouchableRegion(mTempRegion1);
mTempRegion1.getBounds(touchableRegionBounds);
if (!magnifiedRegionBounds.intersect(touchableRegionBounds)) {
mCallbacks.onRectangleOnScreenRequested(
touchableRegionBounds.left,
touchableRegionBounds.top,
touchableRegionBounds.right,
touchableRegionBounds.bottom);
}
} break;
} break;
}
}
}
public MagnificationSpec getMagnificationSpecForWindowLocked(WindowState windowState) {
MagnificationSpec spec = mMagnifedViewport.getMagnificationSpecLocked();
if (spec != null && !spec.isNop()) {
WindowManagerPolicy policy = mWindowManagerService.mPolicy;
final int windowType = windowState.mAttrs.type;
if (!policy.isTopLevelWindow(windowType) && windowState.mAttachedWindow != null
&& !policy.canMagnifyWindow(windowType)) {
return null;
}
if (!policy.canMagnifyWindow(windowState.mAttrs.type)) {
return null;
}
}
return spec;
}
public void destroyLocked() {
mMagnifedViewport.destroyWindow();
}
/** NOTE: This has to be called within a surface transaction. */
public void drawMagnifiedRegionBorderIfNeededLocked() {
mMagnifedViewport.drawWindowIfNeededLocked();
}
private final class MagnifiedViewport {
private final SparseArray<WindowState> mTempWindowStates =
new SparseArray<WindowState>();
private final RectF mTempRectF = new RectF();
private final Point mTempPoint = new Point();
private final Matrix mTempMatrix = new Matrix();
private final Region mMagnifiedBounds = new Region();
private final Region mOldMagnifiedBounds = new Region();
private final Path mCircularPath;
private final MagnificationSpec mMagnificationSpec = MagnificationSpec.obtain();
private final WindowManager mWindowManager;
private final float mBorderWidth;
private final int mHalfBorderWidth;
private final int mDrawBorderInset;
private final ViewportWindow mWindow;
private boolean mFullRedrawNeeded;
public MagnifiedViewport() {
mWindowManager = (WindowManager) mContext.getSystemService(Service.WINDOW_SERVICE);
mBorderWidth = mContext.getResources().getDimension(
com.android.internal.R.dimen.accessibility_magnification_indicator_width);
mHalfBorderWidth = (int) Math.ceil(mBorderWidth / 2);
mDrawBorderInset = (int) mBorderWidth / 2;
mWindow = new ViewportWindow(mContext);
if (mContext.getResources().getConfiguration().isScreenRound()) {
mCircularPath = new Path();
mWindowManager.getDefaultDisplay().getRealSize(mTempPoint);
final int centerXY = mTempPoint.x / 2;
mCircularPath.addCircle(centerXY, centerXY, centerXY, Path.Direction.CW);
} else {
mCircularPath = null;
}
recomputeBoundsLocked();
}
public void updateMagnificationSpecLocked(MagnificationSpec spec) {
if (spec != null) {
mMagnificationSpec.initialize(spec.scale, spec.offsetX, spec.offsetY);
} else {
mMagnificationSpec.clear();
}
// If this message is pending we are in a rotation animation and do not want
// to show the border. We will do so when the pending message is handled.
if (!mHandler.hasMessages(
MyHandler.MESSAGE_SHOW_MAGNIFIED_REGION_BOUNDS_IF_NEEDED)) {
setMagnifiedRegionBorderShownLocked(isMagnifyingLocked(), true);
}
}
public void recomputeBoundsLocked() {
mWindowManager.getDefaultDisplay().getRealSize(mTempPoint);
final int screenWidth = mTempPoint.x;
final int screenHeight = mTempPoint.y;
Region magnifiedBounds = mMagnifiedBounds;
magnifiedBounds.set(0, 0, 0, 0);
Region availableBounds = mTempRegion1;
availableBounds.set(0, 0, screenWidth, screenHeight);
if (mCircularPath != null) {
availableBounds.setPath(mCircularPath, availableBounds);
}
Region nonMagnifiedBounds = mTempRegion4;
nonMagnifiedBounds.set(0, 0, 0, 0);
SparseArray<WindowState> visibleWindows = mTempWindowStates;
visibleWindows.clear();
populateWindowsOnScreenLocked(visibleWindows);
final int visibleWindowCount = visibleWindows.size();
for (int i = visibleWindowCount - 1; i >= 0; i--) {
WindowState windowState = visibleWindows.valueAt(i);
if (windowState.mAttrs.type == WindowManager
.LayoutParams.TYPE_MAGNIFICATION_OVERLAY) {
continue;
}
Region windowBounds = mTempRegion2;
Matrix matrix = mTempMatrix;
populateTransformationMatrixLocked(windowState, matrix);
RectF windowFrame = mTempRectF;
if (mWindowManagerService.mPolicy.canMagnifyWindow(windowState.mAttrs.type)) {
windowFrame.set(windowState.mFrame);
windowFrame.offset(-windowFrame.left, -windowFrame.top);
matrix.mapRect(windowFrame);
windowBounds.set((int) windowFrame.left, (int) windowFrame.top,
(int) windowFrame.right, (int) windowFrame.bottom);
magnifiedBounds.op(windowBounds, Region.Op.UNION);
magnifiedBounds.op(availableBounds, Region.Op.INTERSECT);
} else {
Region touchableRegion = mTempRegion3;
windowState.getTouchableRegion(touchableRegion);
Rect touchableFrame = mTempRect1;
touchableRegion.getBounds(touchableFrame);
windowFrame.set(touchableFrame);
windowFrame.offset(-windowState.mFrame.left, -windowState.mFrame.top);
matrix.mapRect(windowFrame);
windowBounds.set((int) windowFrame.left, (int) windowFrame.top,
(int) windowFrame.right, (int) windowFrame.bottom);
nonMagnifiedBounds.op(windowBounds, Region.Op.UNION);
windowBounds.op(magnifiedBounds, Region.Op.DIFFERENCE);
availableBounds.op(windowBounds, Region.Op.DIFFERENCE);
}
Region accountedBounds = mTempRegion2;
accountedBounds.set(magnifiedBounds);
accountedBounds.op(nonMagnifiedBounds, Region.Op.UNION);
accountedBounds.op(0, 0, screenWidth, screenHeight, Region.Op.INTERSECT);
if (accountedBounds.isRect()) {
Rect accountedFrame = mTempRect1;
accountedBounds.getBounds(accountedFrame);
if (accountedFrame.width() == screenWidth
&& accountedFrame.height() == screenHeight) {
break;
}
}
}
visibleWindows.clear();
magnifiedBounds.op(mDrawBorderInset, mDrawBorderInset,
screenWidth - mDrawBorderInset, screenHeight - mDrawBorderInset,
Region.Op.INTERSECT);
if (!mOldMagnifiedBounds.equals(magnifiedBounds)) {
Region bounds = Region.obtain();
bounds.set(magnifiedBounds);
mHandler.obtainMessage(MyHandler.MESSAGE_NOTIFY_MAGNIFIED_BOUNDS_CHANGED,
bounds).sendToTarget();
mWindow.setBounds(magnifiedBounds);
Rect dirtyRect = mTempRect1;
if (mFullRedrawNeeded) {
mFullRedrawNeeded = false;
dirtyRect.set(mDrawBorderInset, mDrawBorderInset,
screenWidth - mDrawBorderInset, screenHeight - mDrawBorderInset);
mWindow.invalidate(dirtyRect);
} else {
Region dirtyRegion = mTempRegion3;
dirtyRegion.set(magnifiedBounds);
dirtyRegion.op(mOldMagnifiedBounds, Region.Op.UNION);
dirtyRegion.op(nonMagnifiedBounds, Region.Op.INTERSECT);
dirtyRegion.getBounds(dirtyRect);
mWindow.invalidate(dirtyRect);
}
mOldMagnifiedBounds.set(magnifiedBounds);
}
}
public void onRotationChangedLocked() {
// If we are magnifying, hide the magnified border window immediately so
// the user does not see strange artifacts during rotation. The screenshot
// used for rotation has already the border. After the rotation is complete
// we will show the border.
if (isMagnifyingLocked()) {
setMagnifiedRegionBorderShownLocked(false, false);
final long delay = (long) (mLongAnimationDuration
* mWindowManagerService.getWindowAnimationScaleLocked());
Message message = mHandler.obtainMessage(
MyHandler.MESSAGE_SHOW_MAGNIFIED_REGION_BOUNDS_IF_NEEDED);
mHandler.sendMessageDelayed(message, delay);
}
recomputeBoundsLocked();
mWindow.updateSize();
}
public void setMagnifiedRegionBorderShownLocked(boolean shown, boolean animate) {
if (shown) {
mFullRedrawNeeded = true;
mOldMagnifiedBounds.set(0, 0, 0, 0);
}
mWindow.setShown(shown, animate);
}
public void getMagnifiedFrameInContentCoordsLocked(Rect rect) {
MagnificationSpec spec = mMagnificationSpec;
mMagnifiedBounds.getBounds(rect);
rect.offset((int) -spec.offsetX, (int) -spec.offsetY);
rect.scale(1.0f / spec.scale);
}
public boolean isMagnifyingLocked() {
return mMagnificationSpec.scale > 1.0f;
}
public MagnificationSpec getMagnificationSpecLocked() {
return mMagnificationSpec;
}
/** NOTE: This has to be called within a surface transaction. */
public void drawWindowIfNeededLocked() {
recomputeBoundsLocked();
mWindow.drawIfNeeded();
}
public void destroyWindow() {
mWindow.releaseSurface();
}
private void populateWindowsOnScreenLocked(SparseArray<WindowState> outWindows) {
DisplayContent displayContent = mWindowManagerService
.getDefaultDisplayContentLocked();
WindowList windowList = displayContent.getWindowList();
final int windowCount = windowList.size();
for (int i = 0; i < windowCount; i++) {
WindowState windowState = windowList.get(i);
if (windowState.isOnScreen() &&
!windowState.mWinAnimator.mEnterAnimationPending) {
outWindows.put(windowState.mLayer, windowState);
}
}
}
private final class ViewportWindow {
private static final String SURFACE_TITLE = "Magnification Overlay";
private final Region mBounds = new Region();
private final Rect mDirtyRect = new Rect();
private final Paint mPaint = new Paint();
private final SurfaceControl mSurfaceControl;
private final Surface mSurface = new Surface();
private final AnimationController mAnimationController;
private boolean mShown;
private int mAlpha;
private boolean mInvalidated;
public ViewportWindow(Context context) {
SurfaceControl surfaceControl = null;
try {
mWindowManager.getDefaultDisplay().getRealSize(mTempPoint);
surfaceControl = new SurfaceControl(mWindowManagerService.mFxSession,
SURFACE_TITLE, mTempPoint.x, mTempPoint.y, PixelFormat.TRANSLUCENT,
SurfaceControl.HIDDEN);
} catch (OutOfResourcesException oore) {
/* ignore */
}
mSurfaceControl = surfaceControl;
mSurfaceControl.setLayerStack(mWindowManager.getDefaultDisplay()
.getLayerStack());
mSurfaceControl.setLayer(mWindowManagerService.mPolicy.windowTypeToLayerLw(
WindowManager.LayoutParams.TYPE_MAGNIFICATION_OVERLAY)
* WindowManagerService.TYPE_LAYER_MULTIPLIER);
mSurfaceControl.setPosition(0, 0);
mSurface.copyFrom(mSurfaceControl);
mAnimationController = new AnimationController(context,
mWindowManagerService.mH.getLooper());
TypedValue typedValue = new TypedValue();
context.getTheme().resolveAttribute(R.attr.colorActivatedHighlight,
typedValue, true);
final int borderColor = context.getColor(typedValue.resourceId);
mPaint.setStyle(Paint.Style.STROKE);
mPaint.setStrokeWidth(mBorderWidth);
mPaint.setColor(borderColor);
mInvalidated = true;
}
public void setShown(boolean shown, boolean animate) {
synchronized (mWindowManagerService.mWindowMap) {
if (mShown == shown) {
return;
}
mShown = shown;
mAnimationController.onFrameShownStateChanged(shown, animate);
if (DEBUG_VIEWPORT_WINDOW) {
Slog.i(LOG_TAG, "ViewportWindow shown: " + mShown);
}
}
}
@SuppressWarnings("unused")
// Called reflectively from an animator.
public int getAlpha() {
synchronized (mWindowManagerService.mWindowMap) {
return mAlpha;
}
}
public void setAlpha(int alpha) {
synchronized (mWindowManagerService.mWindowMap) {
if (mAlpha == alpha) {
return;
}
mAlpha = alpha;
invalidate(null);
if (DEBUG_VIEWPORT_WINDOW) {
Slog.i(LOG_TAG, "ViewportWindow set alpha: " + alpha);
}
}
}
public void setBounds(Region bounds) {
synchronized (mWindowManagerService.mWindowMap) {
if (mBounds.equals(bounds)) {
return;
}
mBounds.set(bounds);
invalidate(mDirtyRect);
if (DEBUG_VIEWPORT_WINDOW) {
Slog.i(LOG_TAG, "ViewportWindow set bounds: " + bounds);
}
}
}
public void updateSize() {
synchronized (mWindowManagerService.mWindowMap) {
mWindowManager.getDefaultDisplay().getRealSize(mTempPoint);
mSurfaceControl.setSize(mTempPoint.x, mTempPoint.y);
invalidate(mDirtyRect);
}
}
public void invalidate(Rect dirtyRect) {
if (dirtyRect != null) {
mDirtyRect.set(dirtyRect);
} else {
mDirtyRect.setEmpty();
}
mInvalidated = true;
mWindowManagerService.scheduleAnimationLocked();
}
/** NOTE: This has to be called within a surface transaction. */
public void drawIfNeeded() {
synchronized (mWindowManagerService.mWindowMap) {
if (!mInvalidated) {
return;
}
mInvalidated = false;
Canvas canvas = null;
try {
// Empty dirty rectangle means unspecified.
if (mDirtyRect.isEmpty()) {
mBounds.getBounds(mDirtyRect);
}
mDirtyRect.inset(- mHalfBorderWidth, - mHalfBorderWidth);
canvas = mSurface.lockCanvas(mDirtyRect);
if (DEBUG_VIEWPORT_WINDOW) {
Slog.i(LOG_TAG, "Dirty rect: " + mDirtyRect);
}
} catch (IllegalArgumentException iae) {
/* ignore */
} catch (Surface.OutOfResourcesException oore) {
/* ignore */
}
if (canvas == null) {
return;
}
if (DEBUG_VIEWPORT_WINDOW) {
Slog.i(LOG_TAG, "Bounds: " + mBounds);
}
canvas.drawColor(Color.TRANSPARENT, Mode.CLEAR);
mPaint.setAlpha(mAlpha);
Path path = mBounds.getBoundaryPath();
canvas.drawPath(path, mPaint);
mSurface.unlockCanvasAndPost(canvas);
if (mAlpha > 0) {
mSurfaceControl.show();
} else {
mSurfaceControl.hide();
}
}
}
public void releaseSurface() {
mSurfaceControl.release();
mSurface.release();
}
private final class AnimationController extends Handler {
private static final String PROPERTY_NAME_ALPHA = "alpha";
private static final int MIN_ALPHA = 0;
private static final int MAX_ALPHA = 255;
private static final int MSG_FRAME_SHOWN_STATE_CHANGED = 1;
private final ValueAnimator mShowHideFrameAnimator;
public AnimationController(Context context, Looper looper) {
super(looper);
mShowHideFrameAnimator = ObjectAnimator.ofInt(ViewportWindow.this,
PROPERTY_NAME_ALPHA, MIN_ALPHA, MAX_ALPHA);
Interpolator interpolator = new DecelerateInterpolator(2.5f);
final long longAnimationDuration = context.getResources().getInteger(
com.android.internal.R.integer.config_longAnimTime);
mShowHideFrameAnimator.setInterpolator(interpolator);
mShowHideFrameAnimator.setDuration(longAnimationDuration);
}
public void onFrameShownStateChanged(boolean shown, boolean animate) {
obtainMessage(MSG_FRAME_SHOWN_STATE_CHANGED,
shown ? 1 : 0, animate ? 1 : 0).sendToTarget();
}
@Override
public void handleMessage(Message message) {
switch (message.what) {
case MSG_FRAME_SHOWN_STATE_CHANGED: {
final boolean shown = message.arg1 == 1;
final boolean animate = message.arg2 == 1;
if (animate) {
if (mShowHideFrameAnimator.isRunning()) {
mShowHideFrameAnimator.reverse();
} else {
if (shown) {
mShowHideFrameAnimator.start();
} else {
mShowHideFrameAnimator.reverse();
}
}
} else {
mShowHideFrameAnimator.cancel();
if (shown) {
setAlpha(MAX_ALPHA);
} else {
setAlpha(MIN_ALPHA);
}
}
} break;
}
}
}
}
}
private class MyHandler extends Handler {
public static final int MESSAGE_NOTIFY_MAGNIFIED_BOUNDS_CHANGED = 1;
public static final int MESSAGE_NOTIFY_RECTANGLE_ON_SCREEN_REQUESTED = 2;
public static final int MESSAGE_NOTIFY_USER_CONTEXT_CHANGED = 3;
public static final int MESSAGE_NOTIFY_ROTATION_CHANGED = 4;
public static final int MESSAGE_SHOW_MAGNIFIED_REGION_BOUNDS_IF_NEEDED = 5;
public MyHandler(Looper looper) {
super(looper);
}
@Override
public void handleMessage(Message message) {
switch (message.what) {
case MESSAGE_NOTIFY_MAGNIFIED_BOUNDS_CHANGED: {
Region bounds = (Region) message.obj;
mCallbacks.onMagnifedBoundsChanged(bounds);
bounds.recycle();
} break;
case MESSAGE_NOTIFY_RECTANGLE_ON_SCREEN_REQUESTED: {
SomeArgs args = (SomeArgs) message.obj;
final int left = args.argi1;
final int top = args.argi2;
final int right = args.argi3;
final int bottom = args.argi4;
mCallbacks.onRectangleOnScreenRequested(left, top, right, bottom);
args.recycle();
} break;
case MESSAGE_NOTIFY_USER_CONTEXT_CHANGED: {
mCallbacks.onUserContextChanged();
} break;
case MESSAGE_NOTIFY_ROTATION_CHANGED: {
final int rotation = message.arg1;
mCallbacks.onRotationChanged(rotation);
} break;
case MESSAGE_SHOW_MAGNIFIED_REGION_BOUNDS_IF_NEEDED : {
synchronized (mWindowManagerService.mWindowMap) {
if (mMagnifedViewport.isMagnifyingLocked()) {
mMagnifedViewport.setMagnifiedRegionBorderShownLocked(true, true);
mWindowManagerService.scheduleAnimationLocked();
}
}
} break;
}
}
}
}
/**
* This class encapsulates the functionality related to computing the windows
* reported for accessibility purposes. These windows are all windows a sighted
* user can see on the screen.
*/
private static final class WindowsForAccessibilityObserver {
private static final String LOG_TAG = "WindowsForAccessibilityObserver";
private static final boolean DEBUG = false;
private final SparseArray<WindowState> mTempWindowStates =
new SparseArray<WindowState>();
private final List<WindowInfo> mOldWindows = new ArrayList<WindowInfo>();
private final Set<IBinder> mTempBinderSet = new ArraySet<IBinder>();
private final RectF mTempRectF = new RectF();
private final Matrix mTempMatrix = new Matrix();
private final Point mTempPoint = new Point();
private final Rect mTempRect = new Rect();
private final Region mTempRegion = new Region();
private final Region mTempRegion1 = new Region();
private final Context mContext;
private final WindowManagerService mWindowManagerService;
private final Handler mHandler;
private final WindowsForAccessibilityCallback mCallback;
private final long mRecurringAccessibilityEventsIntervalMillis;
public WindowsForAccessibilityObserver(WindowManagerService windowManagerService,
WindowsForAccessibilityCallback callback) {
mContext = windowManagerService.mContext;
mWindowManagerService = windowManagerService;
mCallback = callback;
mHandler = new MyHandler(mWindowManagerService.mH.getLooper());
mRecurringAccessibilityEventsIntervalMillis = ViewConfiguration
.getSendRecurringAccessibilityEventsInterval();
computeChangedWindows();
}
public void performComputeChangedWindowsNotLocked() {
mHandler.removeMessages(MyHandler.MESSAGE_COMPUTE_CHANGED_WINDOWS);
computeChangedWindows();
}
public void scheduleComputeChangedWindowsLocked() {
if (!mHandler.hasMessages(MyHandler.MESSAGE_COMPUTE_CHANGED_WINDOWS)) {
mHandler.sendEmptyMessageDelayed(MyHandler.MESSAGE_COMPUTE_CHANGED_WINDOWS,
mRecurringAccessibilityEventsIntervalMillis);
}
}
public void computeChangedWindows() {
if (DEBUG) {
Slog.i(LOG_TAG, "computeChangedWindows()");
}
boolean windowsChanged = false;
List<WindowInfo> windows = new ArrayList<WindowInfo>();
synchronized (mWindowManagerService.mWindowMap) {
// Do not send the windows if there is no current focus as
// the window manager is still looking for where to put it.
// We will do the work when we get a focus change callback.
if (mWindowManagerService.mCurrentFocus == null) {
return;
}
WindowManager windowManager = (WindowManager)
mContext.getSystemService(Context.WINDOW_SERVICE);
windowManager.getDefaultDisplay().getRealSize(mTempPoint);
final int screenWidth = mTempPoint.x;
final int screenHeight = mTempPoint.y;
Region unaccountedSpace = mTempRegion;
unaccountedSpace.set(0, 0, screenWidth, screenHeight);
SparseArray<WindowState> visibleWindows = mTempWindowStates;
populateVisibleWindowsOnScreenLocked(visibleWindows);
Set<IBinder> addedWindows = mTempBinderSet;
addedWindows.clear();
boolean focusedWindowAdded = false;
final int visibleWindowCount = visibleWindows.size();
for (int i = visibleWindowCount - 1; i >= 0; i--) {
final WindowState windowState = visibleWindows.valueAt(i);
final int flags = windowState.mAttrs.flags;
// If the window is not touchable - ignore.
if ((flags & WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE) != 0) {
continue;
}
// Compute the bounds in the screen.
final Rect boundsInScreen = mTempRect;
computeWindowBoundsInScreen(windowState, boundsInScreen);
// If the window is completely covered by other windows - ignore.
if (unaccountedSpace.quickReject(boundsInScreen)) {
continue;
}
// Add windows of certain types not covered by modal windows.
if (isReportedWindowType(windowState.mAttrs.type)) {
// Add the window to the ones to be reported.
WindowInfo window = obtainPopulatedWindowInfo(windowState, boundsInScreen);
addedWindows.add(window.token);
windows.add(window);
if (windowState.isFocused()) {
focusedWindowAdded = true;
}
}
// Account for the space this window takes if the window
// is not an accessibility overlay which does not change
// the reported windows.
if (windowState.mAttrs.type !=
WindowManager.LayoutParams.TYPE_ACCESSIBILITY_OVERLAY) {
unaccountedSpace.op(boundsInScreen, unaccountedSpace,
Region.Op.REVERSE_DIFFERENCE);
}
// We figured out what is touchable for the entire screen - done.
if (unaccountedSpace.isEmpty()) {
break;
}
// If a window is modal, no other below can be touched - done.
if ((flags & (WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE
| WindowManager.LayoutParams.FLAG_NOT_TOUCH_MODAL)) == 0) {
break;
}
}
// Always report the focused window.
if (!focusedWindowAdded) {
for (int i = visibleWindowCount - 1; i >= 0; i--) {
WindowState windowState = visibleWindows.valueAt(i);
if (windowState.isFocused()) {
// Compute the bounds in the screen.
Rect boundsInScreen = mTempRect;
computeWindowBoundsInScreen(windowState, boundsInScreen);
// Add the window to the ones to be reported.
WindowInfo window = obtainPopulatedWindowInfo(windowState,
boundsInScreen);
addedWindows.add(window.token);
windows.add(window);
break;
}
}
}
// Remove child/parent references to windows that were not added.
final int windowCount = windows.size();
for (int i = 0; i < windowCount; i++) {
WindowInfo window = windows.get(i);
if (!addedWindows.contains(window.parentToken)) {
window.parentToken = null;
}
if (window.childTokens != null) {
final int childTokenCount = window.childTokens.size();
for (int j = childTokenCount - 1; j >= 0; j--) {
if (!addedWindows.contains(window.childTokens.get(j))) {
window.childTokens.remove(j);
}
}
// Leave the child token list if empty.
}
}
visibleWindows.clear();
addedWindows.clear();
// We computed the windows and if they changed notify the client.
if (mOldWindows.size() != windows.size()) {
// Different size means something changed.
windowsChanged = true;
} else if (!mOldWindows.isEmpty() || !windows.isEmpty()) {
// Since we always traverse windows from high to low layer
// the old and new windows at the same index should be the
// same, otherwise something changed.
for (int i = 0; i < windowCount; i++) {
WindowInfo oldWindow = mOldWindows.get(i);
WindowInfo newWindow = windows.get(i);
// We do not care for layer changes given the window
// order does not change. This brings no new information
// to the clients.
if (windowChangedNoLayer(oldWindow, newWindow)) {
windowsChanged = true;
break;
}
}
}
if (windowsChanged) {
cacheWindows(windows);
}
}
// Now we do not hold the lock, so send the windows over.
if (windowsChanged) {
if (DEBUG) {
Log.i(LOG_TAG, "Windows changed:" + windows);
}
mCallback.onWindowsForAccessibilityChanged(windows);
} else {
if (DEBUG) {
Log.i(LOG_TAG, "No windows changed.");
}
}
// Recycle the windows as we do not need them.
clearAndRecycleWindows(windows);
}
private void computeWindowBoundsInScreen(WindowState windowState, Rect outBounds) {
// Get the touchable frame.
Region touchableRegion = mTempRegion1;
windowState.getTouchableRegion(touchableRegion);
Rect touchableFrame = mTempRect;
touchableRegion.getBounds(touchableFrame);
// Move to origin as all transforms are captured by the matrix.
RectF windowFrame = mTempRectF;
windowFrame.set(touchableFrame);
windowFrame.offset(-windowState.mFrame.left, -windowState.mFrame.top);
// Map the frame to get what appears on the screen.
Matrix matrix = mTempMatrix;
populateTransformationMatrixLocked(windowState, matrix);
matrix.mapRect(windowFrame);
// Got the bounds.
outBounds.set((int) windowFrame.left, (int) windowFrame.top,
(int) windowFrame.right, (int) windowFrame.bottom);
}
private static WindowInfo obtainPopulatedWindowInfo(WindowState windowState,
Rect boundsInScreen) {
WindowInfo window = WindowInfo.obtain();
window.type = windowState.mAttrs.type;
window.layer = windowState.mLayer;
window.token = windowState.mClient.asBinder();
WindowState attachedWindow = windowState.mAttachedWindow;
if (attachedWindow != null) {
window.parentToken = attachedWindow.mClient.asBinder();
}
window.focused = windowState.isFocused();
window.boundsInScreen.set(boundsInScreen);
final int childCount = windowState.mChildWindows.size();
if (childCount > 0) {
if (window.childTokens == null) {
window.childTokens = new ArrayList<IBinder>();
}
for (int j = 0; j < childCount; j++) {
WindowState child = windowState.mChildWindows.get(j);
window.childTokens.add(child.mClient.asBinder());
}
}
return window;
}
private void cacheWindows(List<WindowInfo> windows) {
final int oldWindowCount = mOldWindows.size();
for (int i = oldWindowCount - 1; i >= 0; i--) {
mOldWindows.remove(i).recycle();
}
final int newWindowCount = windows.size();
for (int i = 0; i < newWindowCount; i++) {
WindowInfo newWindow = windows.get(i);
mOldWindows.add(WindowInfo.obtain(newWindow));
}
}
private boolean windowChangedNoLayer(WindowInfo oldWindow, WindowInfo newWindow) {
if (oldWindow == newWindow) {
return false;
}
if (oldWindow == null) {
return true;
}
if (newWindow == null) {
return true;
}
if (oldWindow.type != newWindow.type) {
return true;
}
if (oldWindow.focused != newWindow.focused) {
return true;
}
if (oldWindow.token == null) {
if (newWindow.token != null) {
return true;
}
} else if (!oldWindow.token.equals(newWindow.token)) {
return true;
}
if (oldWindow.parentToken == null) {
if (newWindow.parentToken != null) {
return true;
}
} else if (!oldWindow.parentToken.equals(newWindow.parentToken)) {
return true;
}
if (!oldWindow.boundsInScreen.equals(newWindow.boundsInScreen)) {
return true;
}
if (oldWindow.childTokens != null && newWindow.childTokens != null
&& !oldWindow.childTokens.equals(newWindow.childTokens)) {
return true;
}
return false;
}
private static void clearAndRecycleWindows(List<WindowInfo> windows) {
final int windowCount = windows.size();
for (int i = windowCount - 1; i >= 0; i--) {
windows.remove(i).recycle();
}
}
private static boolean isReportedWindowType(int windowType) {
return (windowType != WindowManager.LayoutParams.TYPE_KEYGUARD_SCRIM
&& windowType != WindowManager.LayoutParams.TYPE_WALLPAPER
&& windowType != WindowManager.LayoutParams.TYPE_BOOT_PROGRESS
&& windowType != WindowManager.LayoutParams.TYPE_DISPLAY_OVERLAY
&& windowType != WindowManager.LayoutParams.TYPE_DRAG
&& windowType != WindowManager.LayoutParams.TYPE_INPUT_CONSUMER
&& windowType != WindowManager.LayoutParams.TYPE_POINTER
&& windowType != WindowManager.LayoutParams.TYPE_MAGNIFICATION_OVERLAY
&& windowType != WindowManager.LayoutParams.TYPE_APPLICATION_MEDIA_OVERLAY
&& windowType != WindowManager.LayoutParams.TYPE_SECURE_SYSTEM_OVERLAY
&& windowType != WindowManager.LayoutParams.TYPE_PRIVATE_PRESENTATION);
}
private void populateVisibleWindowsOnScreenLocked(SparseArray<WindowState> outWindows) {
DisplayContent displayContent = mWindowManagerService
.getDefaultDisplayContentLocked();
WindowList windowList = displayContent.getWindowList();
final int windowCount = windowList.size();
for (int i = 0; i < windowCount; i++) {
WindowState windowState = windowList.get(i);
if (windowState.isVisibleLw()) {
outWindows.put(windowState.mLayer, windowState);
}
}
}
private class MyHandler extends Handler {
public static final int MESSAGE_COMPUTE_CHANGED_WINDOWS = 1;
public MyHandler(Looper looper) {
super(looper, null, false);
}
@Override
@SuppressWarnings("unchecked")
public void handleMessage(Message message) {
switch (message.what) {
case MESSAGE_COMPUTE_CHANGED_WINDOWS: {
computeChangedWindows();
} break;
}
}
}
}
}