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|
/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.server.wm;
import static android.view.WindowManager.LayoutParams.FIRST_SUB_WINDOW;
import static android.view.WindowManager.LayoutParams.FLAG_COMPATIBLE_WINDOW;
import static android.view.WindowManager.LayoutParams.LAST_SUB_WINDOW;
import static android.view.WindowManager.LayoutParams.TYPE_INPUT_METHOD;
import static android.view.WindowManager.LayoutParams.TYPE_INPUT_METHOD_DIALOG;
import static android.view.WindowManager.LayoutParams.TYPE_WALLPAPER;
import android.content.Context;
import android.content.res.Configuration;
import android.graphics.Matrix;
import android.graphics.PixelFormat;
import android.graphics.Rect;
import android.graphics.RectF;
import android.graphics.Region;
import android.os.IBinder;
import android.os.RemoteException;
import android.util.Slog;
import android.view.Gravity;
import android.view.IApplicationToken;
import android.view.IWindow;
import android.view.InputChannel;
import android.view.View;
import android.view.ViewTreeObserver;
import android.view.WindowManager;
import android.view.WindowManagerPolicy;
import java.io.PrintWriter;
import java.util.ArrayList;
/**
* A window in the window manager.
*/
final class WindowState implements WindowManagerPolicy.WindowState {
static final String TAG = "WindowState";
static final boolean DEBUG_VISIBILITY = WindowManagerService.DEBUG_VISIBILITY;
static final boolean SHOW_TRANSACTIONS = WindowManagerService.SHOW_TRANSACTIONS;
static final boolean SHOW_LIGHT_TRANSACTIONS = WindowManagerService.SHOW_LIGHT_TRANSACTIONS;
static final boolean SHOW_SURFACE_ALLOC = WindowManagerService.SHOW_SURFACE_ALLOC;
final WindowManagerService mService;
final WindowManagerPolicy mPolicy;
final Context mContext;
final Session mSession;
final IWindow mClient;
WindowToken mToken;
WindowToken mRootToken;
AppWindowToken mAppToken;
AppWindowToken mTargetAppToken;
// mAttrs.flags is tested in animation without being locked. If the bits tested are ever
// modified they will need to be locked.
final WindowManager.LayoutParams mAttrs = new WindowManager.LayoutParams();
final DeathRecipient mDeathRecipient;
final WindowState mAttachedWindow;
final ArrayList<WindowState> mChildWindows = new ArrayList<WindowState>();
final int mBaseLayer;
final int mSubLayer;
final boolean mLayoutAttached;
final boolean mIsImWindow;
final boolean mIsWallpaper;
final boolean mIsFloatingLayer;
int mSeq;
boolean mEnforceSizeCompat;
int mViewVisibility;
int mSystemUiVisibility;
boolean mPolicyVisibility = true;
boolean mPolicyVisibilityAfterAnim = true;
boolean mAppFreezing;
boolean mAttachedHidden; // is our parent window hidden?
boolean mWallpaperVisible; // for wallpaper, what was last vis report?
/**
* The window size that was requested by the application. These are in
* the application's coordinate space (without compatibility scale applied).
*/
int mRequestedWidth;
int mRequestedHeight;
int mLastRequestedWidth;
int mLastRequestedHeight;
int mLayer;
boolean mHaveFrame;
boolean mObscured;
boolean mTurnOnScreen;
int mLayoutSeq = -1;
Configuration mConfiguration = null;
/**
* Actual frame shown on-screen (may be modified by animation). These
* are in the screen's coordinate space (WITH the compatibility scale
* applied).
*/
final RectF mShownFrame = new RectF();
/**
* Insets that determine the actually visible area. These are in the application's
* coordinate space (without compatibility scale applied).
*/
final Rect mVisibleInsets = new Rect();
final Rect mLastVisibleInsets = new Rect();
boolean mVisibleInsetsChanged;
/**
* Insets that are covered by system windows. These are in the application's
* coordinate space (without compatibility scale applied).
*/
final Rect mContentInsets = new Rect();
final Rect mLastContentInsets = new Rect();
boolean mContentInsetsChanged;
/**
* Set to true if we are waiting for this window to receive its
* given internal insets before laying out other windows based on it.
*/
boolean mGivenInsetsPending;
/**
* These are the content insets that were given during layout for
* this window, to be applied to windows behind it.
*/
final Rect mGivenContentInsets = new Rect();
/**
* These are the visible insets that were given during layout for
* this window, to be applied to windows behind it.
*/
final Rect mGivenVisibleInsets = new Rect();
/**
* This is the given touchable area relative to the window frame, or null if none.
*/
final Region mGivenTouchableRegion = new Region();
/**
* Flag indicating whether the touchable region should be adjusted by
* the visible insets; if false the area outside the visible insets is
* NOT touchable, so we must use those to adjust the frame during hit
* tests.
*/
int mTouchableInsets = ViewTreeObserver.InternalInsetsInfo.TOUCHABLE_INSETS_FRAME;
// Current transformation being applied.
float mGlobalScale=1;
float mInvGlobalScale=1;
float mHScale=1, mVScale=1;
float mLastHScale=1, mLastVScale=1;
final Matrix mTmpMatrix = new Matrix();
// "Real" frame that the application sees, in display coordinate space.
final Rect mFrame = new Rect();
final Rect mLastFrame = new Rect();
// Frame that is scaled to the application's coordinate space when in
// screen size compatibility mode.
final Rect mCompatFrame = new Rect();
final Rect mContainingFrame = new Rect();
final Rect mDisplayFrame = new Rect();
final Rect mContentFrame = new Rect();
final Rect mParentFrame = new Rect();
final Rect mVisibleFrame = new Rect();
boolean mContentChanged;
// If a window showing a wallpaper: the requested offset for the
// wallpaper; if a wallpaper window: the currently applied offset.
float mWallpaperX = -1;
float mWallpaperY = -1;
// If a window showing a wallpaper: what fraction of the offset
// range corresponds to a full virtual screen.
float mWallpaperXStep = -1;
float mWallpaperYStep = -1;
// Wallpaper windows: pixels offset based on above variables.
int mXOffset;
int mYOffset;
// This is set after IWindowSession.relayout() has been called at
// least once for the window. It allows us to detect the situation
// where we don't yet have a surface, but should have one soon, so
// we can give the window focus before waiting for the relayout.
boolean mRelayoutCalled;
// If the application has called relayout() with changes that can
// impact its window's size, we need to perform a layout pass on it
// even if it is not currently visible for layout. This is set
// when in that case until the layout is done.
boolean mLayoutNeeded;
// Currently running an exit animation?
boolean mExiting;
// Currently on the mDestroySurface list?
boolean mDestroying;
// Completely remove from window manager after exit animation?
boolean mRemoveOnExit;
// Set when the orientation is changing and this window has not yet
// been updated for the new orientation.
boolean mOrientationChanging;
// Is this window now (or just being) removed?
boolean mRemoved;
// Temp for keeping track of windows that have been removed when
// rebuilding window list.
boolean mRebuilding;
// Input channel and input window handle used by the input dispatcher.
final InputWindowHandle mInputWindowHandle;
InputChannel mInputChannel;
// Used to improve performance of toString()
String mStringNameCache;
CharSequence mLastTitle;
boolean mWasPaused;
final WindowStateAnimator mWinAnimator;
boolean mHasSurface = false;
WindowState(WindowManagerService service, Session s, IWindow c, WindowToken token,
WindowState attachedWindow, int seq, WindowManager.LayoutParams a,
int viewVisibility) {
mService = service;
mSession = s;
mClient = c;
mToken = token;
mAttrs.copyFrom(a);
mViewVisibility = viewVisibility;
mPolicy = mService.mPolicy;
mContext = mService.mContext;
DeathRecipient deathRecipient = new DeathRecipient();
mSeq = seq;
mEnforceSizeCompat = (mAttrs.flags & FLAG_COMPATIBLE_WINDOW) != 0;
if (WindowManagerService.localLOGV) Slog.v(
TAG, "Window " + this + " client=" + c.asBinder()
+ " token=" + token + " (" + mAttrs.token + ")");
try {
c.asBinder().linkToDeath(deathRecipient, 0);
} catch (RemoteException e) {
mDeathRecipient = null;
mAttachedWindow = null;
mLayoutAttached = false;
mIsImWindow = false;
mIsWallpaper = false;
mIsFloatingLayer = false;
mBaseLayer = 0;
mSubLayer = 0;
mInputWindowHandle = null;
mWinAnimator = null;
return;
}
mDeathRecipient = deathRecipient;
if ((mAttrs.type >= FIRST_SUB_WINDOW &&
mAttrs.type <= LAST_SUB_WINDOW)) {
// The multiplier here is to reserve space for multiple
// windows in the same type layer.
mBaseLayer = mPolicy.windowTypeToLayerLw(
attachedWindow.mAttrs.type) * WindowManagerService.TYPE_LAYER_MULTIPLIER
+ WindowManagerService.TYPE_LAYER_OFFSET;
mSubLayer = mPolicy.subWindowTypeToLayerLw(a.type);
mAttachedWindow = attachedWindow;
if (WindowManagerService.DEBUG_ADD_REMOVE) Slog.v(TAG, "Adding " + this + " to " + mAttachedWindow);
mAttachedWindow.mChildWindows.add(this);
mLayoutAttached = mAttrs.type !=
WindowManager.LayoutParams.TYPE_APPLICATION_ATTACHED_DIALOG;
mIsImWindow = attachedWindow.mAttrs.type == TYPE_INPUT_METHOD
|| attachedWindow.mAttrs.type == TYPE_INPUT_METHOD_DIALOG;
mIsWallpaper = attachedWindow.mAttrs.type == TYPE_WALLPAPER;
mIsFloatingLayer = mIsImWindow || mIsWallpaper;
} else {
// The multiplier here is to reserve space for multiple
// windows in the same type layer.
mBaseLayer = mPolicy.windowTypeToLayerLw(a.type)
* WindowManagerService.TYPE_LAYER_MULTIPLIER
+ WindowManagerService.TYPE_LAYER_OFFSET;
mSubLayer = 0;
mAttachedWindow = null;
mLayoutAttached = false;
mIsImWindow = mAttrs.type == TYPE_INPUT_METHOD
|| mAttrs.type == TYPE_INPUT_METHOD_DIALOG;
mIsWallpaper = mAttrs.type == TYPE_WALLPAPER;
mIsFloatingLayer = mIsImWindow || mIsWallpaper;
}
mWinAnimator = new WindowStateAnimator(service, this, mAttachedWindow);
mWinAnimator.mAlpha = a.alpha;
WindowState appWin = this;
while (appWin.mAttachedWindow != null) {
appWin = appWin.mAttachedWindow;
}
WindowToken appToken = appWin.mToken;
while (appToken.appWindowToken == null) {
WindowToken parent = mService.mTokenMap.get(appToken.token);
if (parent == null || appToken == parent) {
break;
}
appToken = parent;
}
mRootToken = appToken;
mAppToken = appToken.appWindowToken;
mRequestedWidth = 0;
mRequestedHeight = 0;
mLastRequestedWidth = 0;
mLastRequestedHeight = 0;
mXOffset = 0;
mYOffset = 0;
mLayer = 0;
mInputWindowHandle = new InputWindowHandle(
mAppToken != null ? mAppToken.mInputApplicationHandle : null, this);
}
void attach() {
if (WindowManagerService.localLOGV) Slog.v(
TAG, "Attaching " + this + " token=" + mToken
+ ", list=" + mToken.windows);
mSession.windowAddedLocked();
}
@Override
public void computeFrameLw(Rect pf, Rect df, Rect cf, Rect vf) {
mHaveFrame = true;
final Rect container = mContainingFrame;
container.set(pf);
final Rect display = mDisplayFrame;
display.set(df);
final int pw = container.right - container.left;
final int ph = container.bottom - container.top;
int w,h;
if ((mAttrs.flags & WindowManager.LayoutParams.FLAG_SCALED) != 0) {
if (mAttrs.width < 0) {
w = pw;
} else if (mEnforceSizeCompat) {
w = (int)(mAttrs.width * mGlobalScale + .5f);
} else {
w = mAttrs.width;
}
if (mAttrs.height < 0) {
h = ph;
} else if (mEnforceSizeCompat) {
h = (int)(mAttrs.height * mGlobalScale + .5f);
} else {
h = mAttrs.height;
}
} else {
if (mAttrs.width == WindowManager.LayoutParams.MATCH_PARENT) {
w = pw;
} else if (mEnforceSizeCompat) {
w = (int)(mRequestedWidth * mGlobalScale + .5f);
} else {
w = mRequestedWidth;
}
if (mAttrs.height == WindowManager.LayoutParams.MATCH_PARENT) {
h = ph;
} else if (mEnforceSizeCompat) {
h = (int)(mRequestedHeight * mGlobalScale + .5f);
} else {
h = mRequestedHeight;
}
}
if (!mParentFrame.equals(pf)) {
//Slog.i(TAG, "Window " + this + " content frame from " + mParentFrame
// + " to " + pf);
mParentFrame.set(pf);
mContentChanged = true;
}
if (mRequestedWidth != mLastRequestedWidth || mRequestedHeight != mLastRequestedHeight) {
mLastRequestedWidth = mRequestedWidth;
mLastRequestedHeight = mRequestedHeight;
mContentChanged = true;
}
final Rect content = mContentFrame;
content.set(cf);
final Rect visible = mVisibleFrame;
visible.set(vf);
final Rect frame = mFrame;
final int fw = frame.width();
final int fh = frame.height();
//System.out.println("In: w=" + w + " h=" + h + " container=" +
// container + " x=" + mAttrs.x + " y=" + mAttrs.y);
float x, y;
if (mEnforceSizeCompat) {
x = mAttrs.x * mGlobalScale;
y = mAttrs.y * mGlobalScale;
} else {
x = mAttrs.x;
y = mAttrs.y;
}
Gravity.apply(mAttrs.gravity, w, h, container,
(int) (x + mAttrs.horizontalMargin * pw),
(int) (y + mAttrs.verticalMargin * ph), frame);
//System.out.println("Out: " + mFrame);
// Now make sure the window fits in the overall display.
Gravity.applyDisplay(mAttrs.gravity, df, frame);
// Make sure the content and visible frames are inside of the
// final window frame.
if (content.left < frame.left) content.left = frame.left;
if (content.top < frame.top) content.top = frame.top;
if (content.right > frame.right) content.right = frame.right;
if (content.bottom > frame.bottom) content.bottom = frame.bottom;
if (visible.left < frame.left) visible.left = frame.left;
if (visible.top < frame.top) visible.top = frame.top;
if (visible.right > frame.right) visible.right = frame.right;
if (visible.bottom > frame.bottom) visible.bottom = frame.bottom;
final Rect contentInsets = mContentInsets;
contentInsets.left = content.left-frame.left;
contentInsets.top = content.top-frame.top;
contentInsets.right = frame.right-content.right;
contentInsets.bottom = frame.bottom-content.bottom;
final Rect visibleInsets = mVisibleInsets;
visibleInsets.left = visible.left-frame.left;
visibleInsets.top = visible.top-frame.top;
visibleInsets.right = frame.right-visible.right;
visibleInsets.bottom = frame.bottom-visible.bottom;
mCompatFrame.set(frame);
if (mEnforceSizeCompat) {
// If there is a size compatibility scale being applied to the
// window, we need to apply this to its insets so that they are
// reported to the app in its coordinate space.
contentInsets.scale(mInvGlobalScale);
visibleInsets.scale(mInvGlobalScale);
// Also the scaled frame that we report to the app needs to be
// adjusted to be in its coordinate space.
mCompatFrame.scale(mInvGlobalScale);
}
if (mIsWallpaper && (fw != frame.width() || fh != frame.height())) {
mService.updateWallpaperOffsetLocked(this,
mService.mAppDisplayWidth, mService.mAppDisplayHeight, false);
}
if (WindowManagerService.localLOGV) {
//if ("com.google.android.youtube".equals(mAttrs.packageName)
// && mAttrs.type == WindowManager.LayoutParams.TYPE_APPLICATION_PANEL) {
Slog.v(TAG, "Resolving (mRequestedWidth="
+ mRequestedWidth + ", mRequestedheight="
+ mRequestedHeight + ") to" + " (pw=" + pw + ", ph=" + ph
+ "): frame=" + mFrame.toShortString()
+ " ci=" + contentInsets.toShortString()
+ " vi=" + visibleInsets.toShortString());
//}
}
}
@Override
public Rect getFrameLw() {
return mFrame;
}
@Override
public RectF getShownFrameLw() {
return mShownFrame;
}
@Override
public Rect getDisplayFrameLw() {
return mDisplayFrame;
}
@Override
public Rect getContentFrameLw() {
return mContentFrame;
}
@Override
public Rect getVisibleFrameLw() {
return mVisibleFrame;
}
@Override
public boolean getGivenInsetsPendingLw() {
return mGivenInsetsPending;
}
@Override
public Rect getGivenContentInsetsLw() {
return mGivenContentInsets;
}
@Override
public Rect getGivenVisibleInsetsLw() {
return mGivenVisibleInsets;
}
@Override
public WindowManager.LayoutParams getAttrs() {
return mAttrs;
}
public boolean getNeedsMenuLw(WindowManagerPolicy.WindowState bottom) {
int index = -1;
WindowState ws = this;
while (true) {
if ((ws.mAttrs.privateFlags
& WindowManager.LayoutParams.PRIVATE_FLAG_SET_NEEDS_MENU_KEY) != 0) {
return (ws.mAttrs.flags & WindowManager.LayoutParams.FLAG_NEEDS_MENU_KEY) != 0;
}
// If we reached the bottom of the range of windows we are considering,
// assume no menu is needed.
if (ws == bottom) {
return false;
}
// The current window hasn't specified whether menu key is needed;
// look behind it.
// First, we may need to determine the starting position.
if (index < 0) {
index = mService.mWindows.indexOf(ws);
}
index--;
if (index < 0) {
return false;
}
ws = mService.mWindows.get(index);
}
}
public int getSystemUiVisibility() {
return mSystemUiVisibility;
}
public int getSurfaceLayer() {
return mLayer;
}
public IApplicationToken getAppToken() {
return mAppToken != null ? mAppToken.appToken : null;
}
public long getInputDispatchingTimeoutNanos() {
return mAppToken != null
? mAppToken.inputDispatchingTimeoutNanos
: WindowManagerService.DEFAULT_INPUT_DISPATCHING_TIMEOUT_NANOS;
}
public boolean hasAppShownWindows() {
return mAppToken != null ? mAppToken.firstWindowDrawn : false;
}
boolean isIdentityMatrix(float dsdx, float dtdx, float dsdy, float dtdy) {
if (dsdx < .99999f || dsdx > 1.00001f) return false;
if (dtdy < .99999f || dtdy > 1.00001f) return false;
if (dtdx < -.000001f || dtdx > .000001f) return false;
if (dsdy < -.000001f || dsdy > .000001f) return false;
return true;
}
void prelayout() {
if (mEnforceSizeCompat) {
mGlobalScale = mService.mCompatibleScreenScale;
mInvGlobalScale = 1/mGlobalScale;
} else {
mGlobalScale = mInvGlobalScale = 1;
}
}
/**
* Is this window visible? It is not visible if there is no
* surface, or we are in the process of running an exit animation
* that will remove the surface, or its app token has been hidden.
*/
public boolean isVisibleLw() {
final AppWindowToken atoken = mAppToken;
return mHasSurface && mPolicyVisibility && !mAttachedHidden
&& (atoken == null || !atoken.hiddenRequested)
&& !mExiting && !mDestroying;
}
/**
* Like {@link #isVisibleLw}, but also counts a window that is currently
* "hidden" behind the keyguard as visible. This allows us to apply
* things like window flags that impact the keyguard.
* XXX I am starting to think we need to have ANOTHER visibility flag
* for this "hidden behind keyguard" state rather than overloading
* mPolicyVisibility. Ungh.
*/
public boolean isVisibleOrBehindKeyguardLw() {
if (mRootToken.waitingToShow &&
mService.mNextAppTransition != WindowManagerPolicy.TRANSIT_UNSET) {
return false;
}
final AppWindowToken atoken = mAppToken;
final boolean animating = atoken != null
? (atoken.mAppAnimator.animation != null) : false;
return mHasSurface && !mDestroying && !mExiting
&& (atoken == null ? mPolicyVisibility : !atoken.hiddenRequested)
&& ((!mAttachedHidden && mViewVisibility == View.VISIBLE
&& !mRootToken.hidden)
|| mWinAnimator.mAnimation != null || animating);
}
/**
* Is this window visible, ignoring its app token? It is not visible
* if there is no surface, or we are in the process of running an exit animation
* that will remove the surface.
*/
public boolean isWinVisibleLw() {
final AppWindowToken atoken = mAppToken;
return mHasSurface && mPolicyVisibility && !mAttachedHidden
&& (atoken == null || !atoken.hiddenRequested || atoken.mAppAnimator.animating)
&& !mExiting && !mDestroying;
}
/**
* The same as isVisible(), but follows the current hidden state of
* the associated app token, not the pending requested hidden state.
*/
boolean isVisibleNow() {
return mHasSurface && mPolicyVisibility && !mAttachedHidden
&& !mRootToken.hidden && !mExiting && !mDestroying;
}
/**
* Can this window possibly be a drag/drop target? The test here is
* a combination of the above "visible now" with the check that the
* Input Manager uses when discarding windows from input consideration.
*/
boolean isPotentialDragTarget() {
return isVisibleNow() && !mRemoved
&& mInputChannel != null && mInputWindowHandle != null;
}
/**
* Same as isVisible(), but we also count it as visible between the
* call to IWindowSession.add() and the first relayout().
*/
boolean isVisibleOrAdding() {
final AppWindowToken atoken = mAppToken;
return ((mHasSurface && !mWinAnimator.mReportDestroySurface)
|| (!mRelayoutCalled && mViewVisibility == View.VISIBLE))
&& mPolicyVisibility && !mAttachedHidden
&& (atoken == null || !atoken.hiddenRequested)
&& !mExiting && !mDestroying;
}
/**
* Is this window currently on-screen? It is on-screen either if it
* is visible or it is currently running an animation before no longer
* being visible.
*/
boolean isOnScreen() {
if (!mHasSurface || !mPolicyVisibility || mDestroying) {
return false;
}
final AppWindowToken atoken = mAppToken;
if (atoken != null) {
return ((!mAttachedHidden && !atoken.hiddenRequested)
|| mWinAnimator.mAnimation != null || atoken.mAppAnimator.animation != null);
}
return !mAttachedHidden || mWinAnimator.mAnimation != null;
}
/**
* Like isOnScreen(), but we don't return true if the window is part
* of a transition that has not yet been started.
*/
boolean isReadyForDisplay() {
if (mRootToken.waitingToShow &&
mService.mNextAppTransition != WindowManagerPolicy.TRANSIT_UNSET) {
return false;
}
return mHasSurface && mPolicyVisibility && !mDestroying
&& ((!mAttachedHidden && mViewVisibility == View.VISIBLE
&& !mRootToken.hidden)
|| mWinAnimator.mAnimation != null
|| ((mAppToken != null) && (mAppToken.mAppAnimator.animation != null)));
}
/**
* Like isOnScreen, but returns false if the surface hasn't yet
* been drawn.
*/
public boolean isDisplayedLw() {
final AppWindowToken atoken = mAppToken;
return isDrawnLw() && mPolicyVisibility
&& ((!mAttachedHidden &&
(atoken == null || !atoken.hiddenRequested))
|| mWinAnimator.mAnimating);
}
public boolean isGoneForLayoutLw() {
final AppWindowToken atoken = mAppToken;
return mViewVisibility == View.GONE
|| !mRelayoutCalled
|| (atoken == null && mRootToken.hidden)
|| (atoken != null && (atoken.hiddenRequested || atoken.hidden))
|| mAttachedHidden
|| mExiting || mDestroying;
}
/**
* Returns true if the window has a surface that it has drawn a
* complete UI in to.
*/
public boolean isDrawnLw() {
return mHasSurface && !mDestroying &&
(mWinAnimator.mDrawState == WindowStateAnimator.READY_TO_SHOW
|| mWinAnimator.mDrawState == WindowStateAnimator.HAS_DRAWN);
}
/**
* Return true if the window is opaque and fully drawn. This indicates
* it may obscure windows behind it.
*/
boolean isOpaqueDrawn() {
return (mAttrs.format == PixelFormat.OPAQUE
|| mAttrs.type == TYPE_WALLPAPER)
&& isDrawnLw() && mWinAnimator.mAnimation == null
&& (mAppToken == null || mAppToken.mAppAnimator.animation == null);
}
/**
* Return whether this window is wanting to have a translation
* animation applied to it for an in-progress move. (Only makes
* sense to call from performLayoutAndPlaceSurfacesLockedInner().)
*/
boolean shouldAnimateMove() {
return mContentChanged && !mExiting && !mWinAnimator.mLastHidden && mService.okToDisplay()
&& (mFrame.top != mLastFrame.top
|| mFrame.left != mLastFrame.left)
&& (mAttachedWindow == null || !mAttachedWindow.shouldAnimateMove());
}
boolean isFullscreen(int screenWidth, int screenHeight) {
return mFrame.left <= 0 && mFrame.top <= 0 &&
mFrame.right >= screenWidth && mFrame.bottom >= screenHeight;
}
void removeLocked() {
disposeInputChannel();
if (mAttachedWindow != null) {
if (WindowManagerService.DEBUG_ADD_REMOVE) Slog.v(TAG, "Removing " + this + " from " + mAttachedWindow);
mAttachedWindow.mChildWindows.remove(this);
}
mWinAnimator.destroyDeferredSurfaceLocked();
mWinAnimator.destroySurfaceLocked();
mSession.windowRemovedLocked();
try {
mClient.asBinder().unlinkToDeath(mDeathRecipient, 0);
} catch (RuntimeException e) {
// Ignore if it has already been removed (usually because
// we are doing this as part of processing a death note.)
}
}
void setInputChannel(InputChannel inputChannel) {
if (mInputChannel != null) {
throw new IllegalStateException("Window already has an input channel.");
}
mInputChannel = inputChannel;
mInputWindowHandle.inputChannel = inputChannel;
}
void disposeInputChannel() {
if (mInputChannel != null) {
mService.mInputManager.unregisterInputChannel(mInputChannel);
mInputChannel.dispose();
mInputChannel = null;
}
mInputWindowHandle.inputChannel = null;
}
private class DeathRecipient implements IBinder.DeathRecipient {
public void binderDied() {
try {
synchronized(mService.mWindowMap) {
WindowState win = mService.windowForClientLocked(mSession, mClient, false);
Slog.i(TAG, "WIN DEATH: " + win);
if (win != null) {
mService.removeWindowLocked(mSession, win);
}
}
} catch (IllegalArgumentException ex) {
// This will happen if the window has already been
// removed.
}
}
}
/** Returns true if this window desires key events. */
public final boolean canReceiveKeys() {
return isVisibleOrAdding()
&& (mViewVisibility == View.VISIBLE)
&& ((mAttrs.flags & WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE) == 0);
}
@Override
public boolean hasDrawnLw() {
return mWinAnimator.mDrawState == WindowStateAnimator.HAS_DRAWN;
}
@Override
public boolean showLw(boolean doAnimation) {
return showLw(doAnimation, true);
}
boolean showLw(boolean doAnimation, boolean requestAnim) {
if (mPolicyVisibility && mPolicyVisibilityAfterAnim) {
// Already showing.
return false;
}
if (DEBUG_VISIBILITY) Slog.v(TAG, "Policy visibility true: " + this);
if (doAnimation) {
if (DEBUG_VISIBILITY) Slog.v(TAG, "doAnimation: mPolicyVisibility="
+ mPolicyVisibility + " mAnimation=" + mWinAnimator.mAnimation);
if (!mService.okToDisplay()) {
doAnimation = false;
} else if (mPolicyVisibility && mWinAnimator.mAnimation == null) {
// Check for the case where we are currently visible and
// not animating; we do not want to do animation at such a
// point to become visible when we already are.
doAnimation = false;
}
}
mPolicyVisibility = true;
mPolicyVisibilityAfterAnim = true;
if (doAnimation) {
mWinAnimator.applyAnimationLocked(WindowManagerPolicy.TRANSIT_ENTER, true);
}
if (requestAnim) {
mService.scheduleAnimationLocked();
}
return true;
}
public boolean hideLw(boolean doAnimation) {
return hideLw(doAnimation, true);
}
boolean hideLw(boolean doAnimation, boolean requestAnim) {
if (doAnimation) {
if (!mService.okToDisplay()) {
doAnimation = false;
}
}
boolean current = doAnimation ? mPolicyVisibilityAfterAnim
: mPolicyVisibility;
if (!current) {
// Already hiding.
return false;
}
if (doAnimation) {
mWinAnimator.applyAnimationLocked(WindowManagerPolicy.TRANSIT_EXIT, false);
if (mWinAnimator.mAnimation == null) {
doAnimation = false;
}
}
if (doAnimation) {
mPolicyVisibilityAfterAnim = false;
} else {
if (DEBUG_VISIBILITY) Slog.v(TAG, "Policy visibility false: " + this);
mPolicyVisibilityAfterAnim = false;
mPolicyVisibility = false;
// Window is no longer visible -- make sure if we were waiting
// for it to be displayed before enabling the display, that
// we allow the display to be enabled now.
mService.enableScreenIfNeededLocked();
if (mService.mCurrentFocus == this) {
mService.mFocusMayChange = true;
}
}
if (requestAnim) {
mService.scheduleAnimationLocked();
}
return true;
}
private static void applyInsets(Region outRegion, Rect frame, Rect inset) {
outRegion.set(
frame.left + inset.left, frame.top + inset.top,
frame.right - inset.right, frame.bottom - inset.bottom);
}
public void getTouchableRegion(Region outRegion) {
final Rect frame = mFrame;
switch (mTouchableInsets) {
default:
case ViewTreeObserver.InternalInsetsInfo.TOUCHABLE_INSETS_FRAME:
outRegion.set(frame);
break;
case ViewTreeObserver.InternalInsetsInfo.TOUCHABLE_INSETS_CONTENT:
applyInsets(outRegion, frame, mGivenContentInsets);
break;
case ViewTreeObserver.InternalInsetsInfo.TOUCHABLE_INSETS_VISIBLE:
applyInsets(outRegion, frame, mGivenVisibleInsets);
break;
case ViewTreeObserver.InternalInsetsInfo.TOUCHABLE_INSETS_REGION: {
final Region givenTouchableRegion = mGivenTouchableRegion;
outRegion.set(givenTouchableRegion);
outRegion.translate(frame.left, frame.top);
break;
}
}
}
void dump(PrintWriter pw, String prefix, boolean dumpAll) {
pw.print(prefix); pw.print("mSession="); pw.print(mSession);
pw.print(" mClient="); pw.println(mClient.asBinder());
pw.print(prefix); pw.print("mAttrs="); pw.println(mAttrs);
pw.print(prefix); pw.print("Requested w="); pw.print(mRequestedWidth);
pw.print(" h="); pw.print(mRequestedHeight);
pw.print(" mLayoutSeq="); pw.println(mLayoutSeq);
if (mRequestedWidth != mLastRequestedWidth || mRequestedHeight != mLastRequestedHeight) {
pw.print(prefix); pw.print("LastRequested w="); pw.print(mLastRequestedWidth);
pw.print(" h="); pw.println(mLastRequestedHeight);
}
if (mAttachedWindow != null || mLayoutAttached) {
pw.print(prefix); pw.print("mAttachedWindow="); pw.print(mAttachedWindow);
pw.print(" mLayoutAttached="); pw.println(mLayoutAttached);
}
if (mIsImWindow || mIsWallpaper || mIsFloatingLayer) {
pw.print(prefix); pw.print("mIsImWindow="); pw.print(mIsImWindow);
pw.print(" mIsWallpaper="); pw.print(mIsWallpaper);
pw.print(" mIsFloatingLayer="); pw.print(mIsFloatingLayer);
pw.print(" mWallpaperVisible="); pw.println(mWallpaperVisible);
}
if (dumpAll) {
pw.print(prefix); pw.print("mBaseLayer="); pw.print(mBaseLayer);
pw.print(" mSubLayer="); pw.print(mSubLayer);
pw.print(" mAnimLayer="); pw.print(mLayer); pw.print("+");
pw.print((mTargetAppToken != null ?
mTargetAppToken.mAppAnimator.animLayerAdjustment
: (mAppToken != null ? mAppToken.mAppAnimator.animLayerAdjustment : 0)));
pw.print("="); pw.print(mWinAnimator.mAnimLayer);
pw.print(" mLastLayer="); pw.println(mWinAnimator.mLastLayer);
}
if (dumpAll) {
pw.print(prefix); pw.print("mToken="); pw.println(mToken);
pw.print(prefix); pw.print("mRootToken="); pw.println(mRootToken);
if (mAppToken != null) {
pw.print(prefix); pw.print("mAppToken="); pw.println(mAppToken);
}
if (mTargetAppToken != null) {
pw.print(prefix); pw.print("mTargetAppToken="); pw.println(mTargetAppToken);
}
pw.print(prefix); pw.print("mViewVisibility=0x");
pw.print(Integer.toHexString(mViewVisibility));
pw.print(" mHaveFrame="); pw.print(mHaveFrame);
pw.print(" mObscured="); pw.println(mObscured);
pw.print(prefix); pw.print("mSeq="); pw.print(mSeq);
pw.print(" mSystemUiVisibility=0x");
pw.println(Integer.toHexString(mSystemUiVisibility));
}
if (!mPolicyVisibility || !mPolicyVisibilityAfterAnim || mAttachedHidden) {
pw.print(prefix); pw.print("mPolicyVisibility=");
pw.print(mPolicyVisibility);
pw.print(" mPolicyVisibilityAfterAnim=");
pw.print(mPolicyVisibilityAfterAnim);
pw.print(" mAttachedHidden="); pw.println(mAttachedHidden);
}
if (!mRelayoutCalled || mLayoutNeeded) {
pw.print(prefix); pw.print("mRelayoutCalled="); pw.print(mRelayoutCalled);
pw.print(" mLayoutNeeded="); pw.println(mLayoutNeeded);
}
if (mXOffset != 0 || mYOffset != 0) {
pw.print(prefix); pw.print("Offsets x="); pw.print(mXOffset);
pw.print(" y="); pw.println(mYOffset);
}
if (dumpAll) {
pw.print(prefix); pw.print("mGivenContentInsets=");
mGivenContentInsets.printShortString(pw);
pw.print(" mGivenVisibleInsets=");
mGivenVisibleInsets.printShortString(pw);
pw.println();
if (mTouchableInsets != 0 || mGivenInsetsPending) {
pw.print(prefix); pw.print("mTouchableInsets="); pw.print(mTouchableInsets);
pw.print(" mGivenInsetsPending="); pw.println(mGivenInsetsPending);
}
pw.print(prefix); pw.print("mConfiguration="); pw.println(mConfiguration);
}
pw.print(prefix); pw.print("mHasSurface="); pw.print(mHasSurface);
pw.print(" mShownFrame="); mShownFrame.printShortString(pw); pw.println();
if (dumpAll) {
pw.print(prefix); pw.print("mFrame="); mFrame.printShortString(pw);
pw.print(" last="); mLastFrame.printShortString(pw);
pw.println();
}
if (mEnforceSizeCompat) {
pw.print(prefix); pw.print("mCompatFrame="); mCompatFrame.printShortString(pw);
pw.println();
}
if (dumpAll) {
pw.print(prefix); pw.print("mContainingFrame=");
mContainingFrame.printShortString(pw);
pw.print(" mParentFrame=");
mParentFrame.printShortString(pw);
pw.print(" mDisplayFrame=");
mDisplayFrame.printShortString(pw);
pw.println();
pw.print(prefix); pw.print("mContentFrame="); mContentFrame.printShortString(pw);
pw.print(" mVisibleFrame="); mVisibleFrame.printShortString(pw);
pw.println();
pw.print(prefix); pw.print("mContentInsets="); mContentInsets.printShortString(pw);
pw.print(" last="); mLastContentInsets.printShortString(pw);
pw.print(" mVisibleInsets="); mVisibleInsets.printShortString(pw);
pw.print(" last="); mLastVisibleInsets.printShortString(pw);
pw.println();
}
mWinAnimator.dump(pw, prefix, dumpAll);
if (mExiting || mRemoveOnExit || mDestroying || mRemoved) {
pw.print(prefix); pw.print("mExiting="); pw.print(mExiting);
pw.print(" mRemoveOnExit="); pw.print(mRemoveOnExit);
pw.print(" mDestroying="); pw.print(mDestroying);
pw.print(" mRemoved="); pw.println(mRemoved);
}
if (mOrientationChanging || mAppFreezing || mTurnOnScreen) {
pw.print(prefix); pw.print("mOrientationChanging=");
pw.print(mOrientationChanging);
pw.print(" mAppFreezing="); pw.print(mAppFreezing);
pw.print(" mTurnOnScreen="); pw.println(mTurnOnScreen);
}
if (mHScale != 1 || mVScale != 1) {
pw.print(prefix); pw.print("mHScale="); pw.print(mHScale);
pw.print(" mVScale="); pw.println(mVScale);
}
if (mWallpaperX != -1 || mWallpaperY != -1) {
pw.print(prefix); pw.print("mWallpaperX="); pw.print(mWallpaperX);
pw.print(" mWallpaperY="); pw.println(mWallpaperY);
}
if (mWallpaperXStep != -1 || mWallpaperYStep != -1) {
pw.print(prefix); pw.print("mWallpaperXStep="); pw.print(mWallpaperXStep);
pw.print(" mWallpaperYStep="); pw.println(mWallpaperYStep);
}
}
String makeInputChannelName() {
return Integer.toHexString(System.identityHashCode(this))
+ " " + mAttrs.getTitle();
}
@Override
public String toString() {
if (mStringNameCache == null || mLastTitle != mAttrs.getTitle()
|| mWasPaused != mToken.paused) {
mLastTitle = mAttrs.getTitle();
mWasPaused = mToken.paused;
mStringNameCache = "Window{" + Integer.toHexString(System.identityHashCode(this))
+ " " + mLastTitle + " paused=" + mWasPaused + "}";
}
return mStringNameCache;
}
}
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