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android / platform / frameworks / base / ef5c3aad4df40913d62de4fd9b12e2c7a9bacdf5 / . / core / java / android / view / WindowManagerPolicy.java
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/*
* Copyright (C) 2006 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.view;
import android.annotation.IntDef;
import android.annotation.SystemApi;
import android.app.ActivityManager.StackId;
import android.content.Context;
import android.content.pm.ActivityInfo;
import android.content.res.CompatibilityInfo;
import android.content.res.Configuration;
import android.graphics.Point;
import android.graphics.Rect;
import android.graphics.RectF;
import android.os.Bundle;
import android.os.IBinder;
import android.os.Looper;
import android.os.RemoteException;
import android.view.animation.Animation;
import com.android.internal.policy.IShortcutService;
import java.io.PrintWriter;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
/**
* This interface supplies all UI-specific behavior of the window manager. An
* instance of it is created by the window manager when it starts up, and allows
* customization of window layering, special window types, key dispatching, and
* layout.
*
* <p>Because this provides deep interaction with the system window manager,
* specific methods on this interface can be called from a variety of contexts
* with various restrictions on what they can do. These are encoded through
* a suffixes at the end of a method encoding the thread the method is called
* from and any locks that are held when it is being called; if no suffix
* is attached to a method, then it is not called with any locks and may be
* called from the main window manager thread or another thread calling into
* the window manager.
*
* <p>The current suffixes are:
*
* <dl>
* <dt> Ti <dd> Called from the input thread. This is the thread that
* collects pending input events and dispatches them to the appropriate window.
* It may block waiting for events to be processed, so that the input stream is
* properly serialized.
* <dt> Tq <dd> Called from the low-level input queue thread. This is the
* thread that reads events out of the raw input devices and places them
* into the global input queue that is read by the <var>Ti</var> thread.
* This thread should not block for a long period of time on anything but the
* key driver.
* <dt> Lw <dd> Called with the main window manager lock held. Because the
* window manager is a very low-level system service, there are few other
* system services you can call with this lock held. It is explicitly okay to
* make calls into the package manager and power manager; it is explicitly not
* okay to make calls into the activity manager or most other services. Note that
* {@link android.content.Context#checkPermission(String, int, int)} and
* variations require calling into the activity manager.
* <dt> Li <dd> Called with the input thread lock held. This lock can be
* acquired by the window manager while it holds the window lock, so this is
* even more restrictive than <var>Lw</var>.
* </dl>
*
* @hide
*/
public interface WindowManagerPolicy {
// Policy flags. These flags are also defined in frameworks/base/include/ui/Input.h.
public final static int FLAG_WAKE = 0x00000001;
public final static int FLAG_VIRTUAL = 0x00000002;
public final static int FLAG_INJECTED = 0x01000000;
public final static int FLAG_TRUSTED = 0x02000000;
public final static int FLAG_FILTERED = 0x04000000;
public final static int FLAG_DISABLE_KEY_REPEAT = 0x08000000;
public final static int FLAG_INTERACTIVE = 0x20000000;
public final static int FLAG_PASS_TO_USER = 0x40000000;
// Flags for IActivityManager.keyguardGoingAway()
public final static int KEYGUARD_GOING_AWAY_FLAG_TO_SHADE = 1 << 0;
public final static int KEYGUARD_GOING_AWAY_FLAG_NO_WINDOW_ANIMATIONS = 1 << 1;
public final static int KEYGUARD_GOING_AWAY_FLAG_WITH_WALLPAPER = 1 << 2;
// Flags used for indicating whether the internal and/or external input devices
// of some type are available.
public final static int PRESENCE_INTERNAL = 1 << 0;
public final static int PRESENCE_EXTERNAL = 1 << 1;
public final static boolean WATCH_POINTER = false;
/**
* Sticky broadcast of the current HDMI plugged state.
*/
public final static String ACTION_HDMI_PLUGGED = "android.intent.action.HDMI_PLUGGED";
/**
* Extra in {@link #ACTION_HDMI_PLUGGED} indicating the state: true if
* plugged in to HDMI, false if not.
*/
public final static String EXTRA_HDMI_PLUGGED_STATE = "state";
/**
* Set to {@code true} when intent was invoked from pressing the home key.
* @hide
*/
@SystemApi
public static final String EXTRA_FROM_HOME_KEY = "android.intent.extra.FROM_HOME_KEY";
/**
* Pass this event to the user / app. To be returned from
* {@link #interceptKeyBeforeQueueing}.
*/
public final static int ACTION_PASS_TO_USER = 0x00000001;
/**
* Register shortcuts for window manager to dispatch.
* Shortcut code is packed as (metaState << Integer.SIZE) | keyCode
* @hide
*/
void registerShortcutKey(long shortcutCode, IShortcutService shortcutKeyReceiver)
throws RemoteException;
/**
* Interface to the Window Manager state associated with a particular
* window. You can hold on to an instance of this interface from the call
* to prepareAddWindow() until removeWindow().
*/
public interface WindowState {
/**
* Return the uid of the app that owns this window.
*/
int getOwningUid();
/**
* Return the package name of the app that owns this window.
*/
String getOwningPackage();
/**
* Perform standard frame computation. The result can be obtained with
* getFrame() if so desired. Must be called with the window manager
* lock held.
*
* @param parentFrame The frame of the parent container this window
* is in, used for computing its basic position.
* @param displayFrame The frame of the overall display in which this
* window can appear, used for constraining the overall dimensions
* of the window.
* @param overlayFrame The frame within the display that is inside
* of the overlay region.
* @param contentFrame The frame within the display in which we would
* like active content to appear. This will cause windows behind to
* be resized to match the given content frame.
* @param visibleFrame The frame within the display that the window
* is actually visible, used for computing its visible insets to be
* given to windows behind.
* This can be used as a hint for scrolling (avoiding resizing)
* the window to make certain that parts of its content
* are visible.
* @param decorFrame The decor frame specified by policy specific to this window,
* to use for proper cropping during animation.
* @param stableFrame The frame around which stable system decoration is positioned.
* @param outsetFrame The frame that includes areas that aren't part of the surface but we
* want to treat them as such.
*/
public void computeFrameLw(Rect parentFrame, Rect displayFrame,
Rect overlayFrame, Rect contentFrame, Rect visibleFrame, Rect decorFrame,
Rect stableFrame, Rect outsetFrame);
/**
* Retrieve the current frame of the window that has been assigned by
* the window manager. Must be called with the window manager lock held.
*
* @return Rect The rectangle holding the window frame.
*/
public Rect getFrameLw();
/**
* Retrieve the current position of the window that is actually shown.
* Must be called with the window manager lock held.
*
* @return Point The point holding the shown window position.
*/
public Point getShownPositionLw();
/**
* Retrieve the frame of the display that this window was last
* laid out in. Must be called with the
* window manager lock held.
*
* @return Rect The rectangle holding the display frame.
*/
public Rect getDisplayFrameLw();
/**
* Retrieve the frame of the area inside the overscan region of the
* display that this window was last laid out in. Must be called with the
* window manager lock held.
*
* @return Rect The rectangle holding the display overscan frame.
*/
public Rect getOverscanFrameLw();
/**
* Retrieve the frame of the content area that this window was last
* laid out in. This is the area in which the content of the window
* should be placed. It will be smaller than the display frame to
* account for screen decorations such as a status bar or soft
* keyboard. Must be called with the
* window manager lock held.
*
* @return Rect The rectangle holding the content frame.
*/
public Rect getContentFrameLw();
/**
* Retrieve the frame of the visible area that this window was last
* laid out in. This is the area of the screen in which the window
* will actually be fully visible. It will be smaller than the
* content frame to account for transient UI elements blocking it
* such as an input method's candidates UI. Must be called with the
* window manager lock held.
*
* @return Rect The rectangle holding the visible frame.
*/
public Rect getVisibleFrameLw();
/**
* Returns true if this window is waiting to receive its given
* internal insets from the client app, and so should not impact the
* layout of other windows.
*/
public boolean getGivenInsetsPendingLw();
/**
* Retrieve the insets given by this window's client for the content
* area of windows behind it. Must be called with the
* window manager lock held.
*
* @return Rect The left, top, right, and bottom insets, relative
* to the window's frame, of the actual contents.
*/
public Rect getGivenContentInsetsLw();
/**
* Retrieve the insets given by this window's client for the visible
* area of windows behind it. Must be called with the
* window manager lock held.
*
* @return Rect The left, top, right, and bottom insets, relative
* to the window's frame, of the actual visible area.
*/
public Rect getGivenVisibleInsetsLw();
/**
* Retrieve the current LayoutParams of the window.
*
* @return WindowManager.LayoutParams The window's internal LayoutParams
* instance.
*/
public WindowManager.LayoutParams getAttrs();
/**
* Return whether this window needs the menu key shown. Must be called
* with window lock held, because it may need to traverse down through
* window list to determine the result.
* @param bottom The bottom-most window to consider when determining this.
*/
public boolean getNeedsMenuLw(WindowState bottom);
/**
* Retrieve the current system UI visibility flags associated with
* this window.
*/
public int getSystemUiVisibility();
/**
* Get the layer at which this window's surface will be Z-ordered.
*/
public int getSurfaceLayer();
/**
* Retrieve the type of the top-level window.
*
* @return the base type of the parent window if attached or its own type otherwise
*/
public int getBaseType();
/**
* Return the token for the application (actually activity) that owns
* this window. May return null for system windows.
*
* @return An IApplicationToken identifying the owning activity.
*/
public IApplicationToken getAppToken();
/**
* Return true if this window is participating in voice interaction.
*/
public boolean isVoiceInteraction();
/**
* Return true if, at any point, the application token associated with
* this window has actually displayed any windows. This is most useful
* with the "starting up" window to determine if any windows were
* displayed when it is closed.
*
* @return Returns true if one or more windows have been displayed,
* else false.
*/
public boolean hasAppShownWindows();
/**
* 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.
*/
boolean isVisibleLw();
/**
* 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.
*/
boolean isVisibleOrBehindKeyguardLw();
/**
* Is this window currently visible to the user on-screen? It is
* displayed either if it is visible or it is currently running an
* animation before no longer being visible. Must be called with the
* window manager lock held.
*/
boolean isDisplayedLw();
/**
* Return true if this window (or a window it is attached to, but not
* considering its app token) is currently animating.
*/
boolean isAnimatingLw();
/**
* Is this window considered to be gone for purposes of layout?
*/
boolean isGoneForLayoutLw();
/**
* Returns true if the window has a surface that it has drawn a
* complete UI in to. Note that this is different from {@link #hasDrawnLw()}
* in that it also returns true if the window is READY_TO_SHOW, but was not yet
* promoted to HAS_DRAWN.
*/
boolean isDrawnLw();
/**
* Returns true if this window has been shown on screen at some time in
* the past. Must be called with the window manager lock held.
*/
public boolean hasDrawnLw();
/**
* Can be called by the policy to force a window to be hidden,
* regardless of whether the client or window manager would like
* it shown. Must be called with the window manager lock held.
* Returns true if {@link #showLw} was last called for the window.
*/
public boolean hideLw(boolean doAnimation);
/**
* Can be called to undo the effect of {@link #hideLw}, allowing a
* window to be shown as long as the window manager and client would
* also like it to be shown. Must be called with the window manager
* lock held.
* Returns true if {@link #hideLw} was last called for the window.
*/
public boolean showLw(boolean doAnimation);
/**
* Check whether the process hosting this window is currently alive.
*/
public boolean isAlive();
/**
* Check if window is on {@link Display#DEFAULT_DISPLAY}.
* @return true if window is on default display.
*/
public boolean isDefaultDisplay();
/**
* Check whether the window is currently dimming.
*/
public boolean isDimming();
/**
* @return the stack id this windows belongs to, or {@link StackId#INVALID_STACK_ID} if
* not attached to any stack.
*/
int getStackId();
/**
* Returns true if the window is current in multi-windowing mode. i.e. it shares the
* screen with other application windows.
*/
public boolean isInMultiWindowMode();
}
/**
* Representation of a input consumer that the policy has added to the
* window manager to consume input events going to windows below it.
*/
public interface InputConsumer {
/**
* Remove the input consumer from the window manager.
*/
void dismiss();
}
/**
* Interface for calling back in to the window manager that is private
* between it and the policy.
*/
public interface WindowManagerFuncs {
public static final int LID_ABSENT = -1;
public static final int LID_CLOSED = 0;
public static final int LID_OPEN = 1;
public static final int CAMERA_LENS_COVER_ABSENT = -1;
public static final int CAMERA_LENS_UNCOVERED = 0;
public static final int CAMERA_LENS_COVERED = 1;
/**
* Ask the window manager to re-evaluate the system UI flags.
*/
public void reevaluateStatusBarVisibility();
/**
* Add a input consumer which will consume all input events going to any window below it.
*/
public InputConsumer addInputConsumer(Looper looper,
InputEventReceiver.Factory inputEventReceiverFactory);
/**
* Returns a code that describes the current state of the lid switch.
*/
public int getLidState();
/**
* Lock the device now.
*/
public void lockDeviceNow();
/**
* Returns a code that descripbes whether the camera lens is covered or not.
*/
public int getCameraLensCoverState();
/**
* Switch the input method, to be precise, input method subtype.
*
* @param forwardDirection {@code true} to rotate in a forward direction.
*/
public void switchInputMethod(boolean forwardDirection);
public void shutdown(boolean confirm);
public void rebootSafeMode(boolean confirm);
/**
* Return the window manager lock needed to correctly call "Lw" methods.
*/
public Object getWindowManagerLock();
/** Register a system listener for touch events */
void registerPointerEventListener(PointerEventListener listener);
/** Unregister a system listener for touch events */
void unregisterPointerEventListener(PointerEventListener listener);
/**
* @return The content insets of the docked divider window.
*/
int getDockedDividerInsetsLw();
/**
* Retrieves the {@param outBounds} from the stack with id {@param stackId}.
*/
void getStackBounds(int stackId, Rect outBounds);
}
public interface PointerEventListener {
/**
* 1. onPointerEvent will be called on the service.UiThread.
* 2. motionEvent will be recycled after onPointerEvent returns so if it is needed later a
* copy() must be made and the copy must be recycled.
**/
public void onPointerEvent(MotionEvent motionEvent);
}
/** Window has been added to the screen. */
public static final int TRANSIT_ENTER = 1;
/** Window has been removed from the screen. */
public static final int TRANSIT_EXIT = 2;
/** Window has been made visible. */
public static final int TRANSIT_SHOW = 3;
/** Window has been made invisible.
* TODO: Consider removal as this is unused. */
public static final int TRANSIT_HIDE = 4;
/** The "application starting" preview window is no longer needed, and will
* animate away to show the real window. */
public static final int TRANSIT_PREVIEW_DONE = 5;
// NOTE: screen off reasons are in order of significance, with more
// important ones lower than less important ones.
/** Screen turned off because of a device admin */
public final int OFF_BECAUSE_OF_ADMIN = 1;
/** Screen turned off because of power button */
public final int OFF_BECAUSE_OF_USER = 2;
/** Screen turned off because of timeout */
public final int OFF_BECAUSE_OF_TIMEOUT = 3;
/** @hide */
@IntDef({USER_ROTATION_FREE, USER_ROTATION_LOCKED})
@Retention(RetentionPolicy.SOURCE)
public @interface UserRotationMode {}
/** When not otherwise specified by the activity's screenOrientation, rotation should be
* determined by the system (that is, using sensors). */
public final int USER_ROTATION_FREE = 0;
/** When not otherwise specified by the activity's screenOrientation, rotation is set by
* the user. */
public final int USER_ROTATION_LOCKED = 1;
/**
* Perform initialization of the policy.
*
* @param context The system context we are running in.
*/
public void init(Context context, IWindowManager windowManager,
WindowManagerFuncs windowManagerFuncs);
/**
* @return true if com.android.internal.R.bool#config_forceDefaultOrientation is true.
*/
public boolean isDefaultOrientationForced();
/**
* Called by window manager once it has the initial, default native
* display dimensions.
*/
public void setInitialDisplaySize(Display display, int width, int height, int density);
/**
* Called by window manager to set the overscan region that should be used for the
* given display.
*/
public void setDisplayOverscan(Display display, int left, int top, int right, int bottom);
/**
* Check permissions when adding a window.
*
* @param attrs The window's LayoutParams.
* @param outAppOp First element will be filled with the app op corresponding to
* this window, or OP_NONE.
*
* @return {@link WindowManagerGlobal#ADD_OKAY} if the add can proceed;
* else an error code, usually
* {@link WindowManagerGlobal#ADD_PERMISSION_DENIED}, to abort the add.
*/
public int checkAddPermission(WindowManager.LayoutParams attrs, int[] outAppOp);
/**
* Check permissions when adding a window.
*
* @param attrs The window's LayoutParams.
*
* @return True if the window may only be shown to the current user, false if the window can
* be shown on all users' windows.
*/
public boolean checkShowToOwnerOnly(WindowManager.LayoutParams attrs);
/**
* Sanitize the layout parameters coming from a client. Allows the policy
* to do things like ensure that windows of a specific type can't take
* input focus.
*
* @param attrs The window layout parameters to be modified. These values
* are modified in-place.
*/
public void adjustWindowParamsLw(WindowManager.LayoutParams attrs);
/**
* After the window manager has computed the current configuration based
* on its knowledge of the display and input devices, it gives the policy
* a chance to adjust the information contained in it. If you want to
* leave it as-is, simply do nothing.
*
* <p>This method may be called by any thread in the window manager, but
* no internal locks in the window manager will be held.
*
* @param config The Configuration being computed, for you to change as
* desired.
* @param keyboardPresence Flags that indicate whether internal or external
* keyboards are present.
* @param navigationPresence Flags that indicate whether internal or external
* navigation devices are present.
*/
public void adjustConfigurationLw(Configuration config, int keyboardPresence,
int navigationPresence);
/**
* Assign a window type to a layer. Allows you to control how different
* kinds of windows are ordered on-screen.
*
* @param type The type of window being assigned.
*
* @return int An arbitrary integer used to order windows, with lower
* numbers below higher ones.
*/
public int windowTypeToLayerLw(int type);
/**
* Return how to Z-order sub-windows in relation to the window they are
* attached to. Return positive to have them ordered in front, negative for
* behind.
*
* @param type The sub-window type code.
*
* @return int Layer in relation to the attached window, where positive is
* above and negative is below.
*/
public int subWindowTypeToLayerLw(int type);
/**
* Get the highest layer (actually one more than) that the wallpaper is
* allowed to be in.
*/
public int getMaxWallpaperLayer();
/**
* Return the display width available after excluding any screen
* decorations that could never be removed in Honeycomb. That is, system bar or
* button bar.
*/
public int getNonDecorDisplayWidth(int fullWidth, int fullHeight, int rotation,
int uiMode);
/**
* Return the display height available after excluding any screen
* decorations that could never be removed in Honeycomb. That is, system bar or
* button bar.
*/
public int getNonDecorDisplayHeight(int fullWidth, int fullHeight, int rotation,
int uiMode);
/**
* Return the available screen width that we should report for the
* configuration. This must be no larger than
* {@link #getNonDecorDisplayWidth(int, int, int)}; it may be smaller than
* that to account for more transient decoration like a status bar.
*/
public int getConfigDisplayWidth(int fullWidth, int fullHeight, int rotation,
int uiMode);
/**
* Return the available screen height that we should report for the
* configuration. This must be no larger than
* {@link #getNonDecorDisplayHeight(int, int, int)}; it may be smaller than
* that to account for more transient decoration like a status bar.
*/
public int getConfigDisplayHeight(int fullWidth, int fullHeight, int rotation,
int uiMode);
/**
* Return whether the given window is forcibly hiding all windows except windows with
* FLAG_SHOW_WHEN_LOCKED set. Typically returns true for the keyguard.
*/
public boolean isForceHiding(WindowManager.LayoutParams attrs);
/**
* Return whether the given window can become one that passes isForceHiding() test.
* Typically returns true for the StatusBar.
*/
public boolean isKeyguardHostWindow(WindowManager.LayoutParams attrs);
/**
* Determine if a window that is behind one that is force hiding
* (as determined by {@link #isForceHiding}) should actually be hidden.
* For example, typically returns false for the status bar. Be careful
* to return false for any window that you may hide yourself, since this
* will conflict with what you set.
*/
public boolean canBeForceHidden(WindowState win, WindowManager.LayoutParams attrs);
/**
* Return the window that is hiding the keyguard, if such a thing exists.
*/
public WindowState getWinShowWhenLockedLw();
/**
* Called when the system would like to show a UI to indicate that an
* application is starting. You can use this to add a
* APPLICATION_STARTING_TYPE window with the given appToken to the window
* manager (using the normal window manager APIs) that will be shown until
* the application displays its own window. This is called without the
* window manager locked so that you can call back into it.
*
* @param appToken Token of the application being started.
* @param packageName The name of the application package being started.
* @param theme Resource defining the application's overall visual theme.
* @param nonLocalizedLabel The default title label of the application if
* no data is found in the resource.
* @param labelRes The resource ID the application would like to use as its name.
* @param icon The resource ID the application would like to use as its icon.
* @param windowFlags Window layout flags.
* @param overrideConfig override configuration to consider when generating
* context to for resources.
*
* @return Optionally you can return the View that was used to create the
* window, for easy removal in removeStartingWindow.
*
* @see #removeStartingWindow
*/
public View addStartingWindow(IBinder appToken, String packageName,
int theme, CompatibilityInfo compatInfo, CharSequence nonLocalizedLabel,
int labelRes, int icon, int logo, int windowFlags, Configuration overrideConfig);
/**
* Called when the first window of an application has been displayed, while
* {@link #addStartingWindow} has created a temporary initial window for
* that application. You should at this point remove the window from the
* window manager. This is called without the window manager locked so
* that you can call back into it.
*
* <p>Note: due to the nature of these functions not being called with the
* window manager locked, you must be prepared for this function to be
* called multiple times and/or an initial time with a null View window
* even if you previously returned one.
*
* @param appToken Token of the application that has started.
* @param window Window View that was returned by createStartingWindow.
*
* @see #addStartingWindow
*/
public void removeStartingWindow(IBinder appToken, View window);
/**
* Prepare for a window being added to the window manager. You can throw an
* exception here to prevent the window being added, or do whatever setup
* you need to keep track of the window.
*
* @param win The window being added.
* @param attrs The window's LayoutParams.
*
* @return {@link WindowManagerGlobal#ADD_OKAY} if the add can proceed, else an
* error code to abort the add.
*/
public int prepareAddWindowLw(WindowState win,
WindowManager.LayoutParams attrs);
/**
* Called when a window is being removed from a window manager. Must not
* throw an exception -- clean up as much as possible.
*
* @param win The window being removed.
*/
public void removeWindowLw(WindowState win);
/**
* Control the animation to run when a window's state changes. Return a
* non-0 number to force the animation to a specific resource ID, or 0
* to use the default animation.
*
* @param win The window that is changing.
* @param transit What is happening to the window: {@link #TRANSIT_ENTER},
* {@link #TRANSIT_EXIT}, {@link #TRANSIT_SHOW}, or
* {@link #TRANSIT_HIDE}.
*
* @return Resource ID of the actual animation to use, or 0 for none.
*/
public int selectAnimationLw(WindowState win, int transit);
/**
* Determine the animation to run for a rotation transition based on the
* top fullscreen windows {@link WindowManager.LayoutParams#rotationAnimation}
* and whether it is currently fullscreen and frontmost.
*
* @param anim The exiting animation resource id is stored in anim[0], the
* entering animation resource id is stored in anim[1].
*/
public void selectRotationAnimationLw(int anim[]);
/**
* Validate whether the current top fullscreen has specified the same
* {@link WindowManager.LayoutParams#rotationAnimation} value as that
* being passed in from the previous top fullscreen window.
*
* @param exitAnimId exiting resource id from the previous window.
* @param enterAnimId entering resource id from the previous window.
* @param forceDefault For rotation animations only, if true ignore the
* animation values and just return false.
* @return true if the previous values are still valid, false if they
* should be replaced with the default.
*/
public boolean validateRotationAnimationLw(int exitAnimId, int enterAnimId,
boolean forceDefault);
/**
* Create and return an animation to re-display a force hidden window.
*/
public Animation createForceHideEnterAnimation(boolean onWallpaper,
boolean goingToNotificationShade);
/**
* Create and return an animation to let the wallpaper disappear after being shown on a force
* hiding window.
*/
public Animation createForceHideWallpaperExitAnimation(boolean goingToNotificationShade);
/**
* Called from the input reader thread before a key is enqueued.
*
* <p>There are some actions that need to be handled here because they
* affect the power state of the device, for example, the power keys.
* Generally, it's best to keep as little as possible in the queue thread
* because it's the most fragile.
* @param event The key event.
* @param policyFlags The policy flags associated with the key.
*
* @return Actions flags: may be {@link #ACTION_PASS_TO_USER}.
*/
public int interceptKeyBeforeQueueing(KeyEvent event, int policyFlags);
/**
* Called from the input reader thread before a motion is enqueued when the device is in a
* non-interactive state.
*
* <p>There are some actions that need to be handled here because they
* affect the power state of the device, for example, waking on motions.
* Generally, it's best to keep as little as possible in the queue thread
* because it's the most fragile.
* @param policyFlags The policy flags associated with the motion.
*
* @return Actions flags: may be {@link #ACTION_PASS_TO_USER}.
*/
public int interceptMotionBeforeQueueingNonInteractive(long whenNanos, int policyFlags);
/**
* Called from the input dispatcher thread before a key is dispatched to a window.
*
* <p>Allows you to define
* behavior for keys that can not be overridden by applications.
* This method is called from the input thread, with no locks held.
*
* @param win The window that currently has focus. This is where the key
* event will normally go.
* @param event The key event.
* @param policyFlags The policy flags associated with the key.
* @return 0 if the key should be dispatched immediately, -1 if the key should
* not be dispatched ever, or a positive value indicating the number of
* milliseconds by which the key dispatch should be delayed before trying
* again.
*/
public long interceptKeyBeforeDispatching(WindowState win, KeyEvent event, int policyFlags);
/**
* Called from the input dispatcher thread when an application did not handle
* a key that was dispatched to it.
*
* <p>Allows you to define default global behavior for keys that were not handled
* by applications. This method is called from the input thread, with no locks held.
*
* @param win The window that currently has focus. This is where the key
* event will normally go.
* @param event The key event.
* @param policyFlags The policy flags associated with the key.
* @return Returns an alternate key event to redispatch as a fallback, or null to give up.
* The caller is responsible for recycling the key event.
*/
public KeyEvent dispatchUnhandledKey(WindowState win, KeyEvent event, int policyFlags);
/**
* Called when layout of the windows is about to start.
*
* @param isDefaultDisplay true if window is on {@link Display#DEFAULT_DISPLAY}.
* @param displayWidth The current full width of the screen.
* @param displayHeight The current full height of the screen.
* @param displayRotation The current rotation being applied to the base window.
* @param uiMode The current uiMode in configuration.
*/
public void beginLayoutLw(boolean isDefaultDisplay, int displayWidth, int displayHeight,
int displayRotation, int uiMode);
/**
* Returns the bottom-most layer of the system decor, above which no policy decor should
* be applied.
*/
public int getSystemDecorLayerLw();
/**
* Return the rectangle of the screen that is available for applications to run in.
* This will be called immediately after {@link #beginLayoutLw}.
*
* @param r The rectangle to be filled with the boundaries available to applications.
*/
public void getContentRectLw(Rect r);
/**
* Called for each window attached to the window manager as layout is
* proceeding. The implementation of this function must take care of
* setting the window's frame, either here or in finishLayout().
*
* @param win The window being positioned.
* @param attached For sub-windows, the window it is attached to; this
* window will already have had layoutWindow() called on it
* so you can use its Rect. Otherwise null.
*/
public void layoutWindowLw(WindowState win, WindowState attached);
/**
* Return the insets for the areas covered by system windows. These values
* are computed on the most recent layout, so they are not guaranteed to
* be correct.
*
* @param attrs The LayoutParams of the window.
* @param taskBounds The bounds of the task this window is on or {@code null} if no task is
* associated with the window.
* @param displayRotation Rotation of the display.
* @param displayWidth The width of the display.
* @param displayHeight The height of the display.
* @param outContentInsets The areas covered by system windows, expressed as positive insets.
* @param outStableInsets The areas covered by stable system windows irrespective of their
* current visibility. Expressed as positive insets.
* @param outOutsets The areas that are not real display, but we would like to treat as such.
* @return Whether to always consume the navigation bar.
* See {@link #isNavBarForcedShownLw(WindowState)}.
*/
public boolean getInsetHintLw(WindowManager.LayoutParams attrs, Rect taskBounds,
int displayRotation, int displayWidth, int displayHeight, Rect outContentInsets,
Rect outStableInsets, Rect outOutsets);
/**
* Called when layout of the windows is finished. After this function has
* returned, all windows given to layoutWindow() <em>must</em> have had a
* frame assigned.
*/
public void finishLayoutLw();
/** Layout state may have changed (so another layout will be performed) */
static final int FINISH_LAYOUT_REDO_LAYOUT = 0x0001;
/** Configuration state may have changed */
static final int FINISH_LAYOUT_REDO_CONFIG = 0x0002;
/** Wallpaper may need to move */
static final int FINISH_LAYOUT_REDO_WALLPAPER = 0x0004;
/** Need to recompute animations */
static final int FINISH_LAYOUT_REDO_ANIM = 0x0008;
/**
* Called following layout of all windows before each window has policy applied.
*
* @param displayWidth The current full width of the screen.
* @param displayHeight The current full height of the screen.
*/
public void beginPostLayoutPolicyLw(int displayWidth, int displayHeight);
/**
* Called following layout of all window to apply policy to each window.
*
* @param win The window being positioned.
* @param attrs The LayoutParams of the window.
* @param attached For sub-windows, the window it is attached to. Otherwise null.
*/
public void applyPostLayoutPolicyLw(WindowState win,
WindowManager.LayoutParams attrs, WindowState attached);
/**
* Called following layout of all windows and after policy has been applied
* to each window. If in this function you do
* something that may have modified the animation state of another window,
* be sure to return non-zero in order to perform another pass through layout.
*
* @return Return any bit set of {@link #FINISH_LAYOUT_REDO_LAYOUT},
* {@link #FINISH_LAYOUT_REDO_CONFIG}, {@link #FINISH_LAYOUT_REDO_WALLPAPER},
* or {@link #FINISH_LAYOUT_REDO_ANIM}.
*/
public int finishPostLayoutPolicyLw();
/**
* Return true if it is okay to perform animations for an app transition
* that is about to occur. You may return false for this if, for example,
* the lock screen is currently displayed so the switch should happen
* immediately.
*/
public boolean allowAppAnimationsLw();
/**
* A new window has been focused.
*/
public int focusChangedLw(WindowState lastFocus, WindowState newFocus);
/**
* Called when the device has started waking up.
*/
public void startedWakingUp();
/**
* Called when the device has finished waking up.
*/
public void finishedWakingUp();
/**
* Called when the device has started going to sleep.
*
* @param why {@link #OFF_BECAUSE_OF_USER}, {@link #OFF_BECAUSE_OF_ADMIN},
* or {@link #OFF_BECAUSE_OF_TIMEOUT}.
*/
public void startedGoingToSleep(int why);
/**
* Called when the device has finished going to sleep.
*
* @param why {@link #OFF_BECAUSE_OF_USER}, {@link #OFF_BECAUSE_OF_ADMIN},
* or {@link #OFF_BECAUSE_OF_TIMEOUT}.
*/
public void finishedGoingToSleep(int why);
/**
* Called when the device is about to turn on the screen to show content.
* When waking up, this method will be called once after the call to wakingUp().
* When dozing, the method will be called sometime after the call to goingToSleep() and
* may be called repeatedly in the case where the screen is pulsing on and off.
*
* Must call back on the listener to tell it when the higher-level system
* is ready for the screen to go on (i.e. the lock screen is shown).
*/
public void screenTurningOn(ScreenOnListener screenOnListener);
/**
* Called when the device has actually turned on the screen, i.e. the display power state has
* been set to ON and the screen is unblocked.
*/
public void screenTurnedOn();
/**
* Called when the device has turned the screen off.
*/
public void screenTurnedOff();
public interface ScreenOnListener {
void onScreenOn();
}
/**
* Return whether the default display is on and not blocked by a black surface.
*/
public boolean isScreenOn();
/**
* Tell the policy that the lid switch has changed state.
* @param whenNanos The time when the change occurred in uptime nanoseconds.
* @param lidOpen True if the lid is now open.
*/
public void notifyLidSwitchChanged(long whenNanos, boolean lidOpen);
/**
* Tell the policy that the camera lens has been covered or uncovered.
* @param whenNanos The time when the change occurred in uptime nanoseconds.
* @param lensCovered True if the lens is covered.
*/
public void notifyCameraLensCoverSwitchChanged(long whenNanos, boolean lensCovered);
/**
* Tell the policy if anyone is requesting that keyguard not come on.
*
* @param enabled Whether keyguard can be on or not. does not actually
* turn it on, unless it was previously disabled with this function.
*
* @see android.app.KeyguardManager.KeyguardLock#disableKeyguard()
* @see android.app.KeyguardManager.KeyguardLock#reenableKeyguard()
*/
@SuppressWarnings("javadoc")
public void enableKeyguard(boolean enabled);
/**
* Callback used by {@link WindowManagerPolicy#exitKeyguardSecurely}
*/
interface OnKeyguardExitResult {
void onKeyguardExitResult(boolean success);
}
/**
* Tell the policy if anyone is requesting the keyguard to exit securely
* (this would be called after the keyguard was disabled)
* @param callback Callback to send the result back.
* @see android.app.KeyguardManager#exitKeyguardSecurely(android.app.KeyguardManager.OnKeyguardExitResult)
*/
@SuppressWarnings("javadoc")
void exitKeyguardSecurely(OnKeyguardExitResult callback);
/**
* isKeyguardLocked
*
* Return whether the keyguard is currently locked.
*
* @return true if in keyguard is locked.
*/
public boolean isKeyguardLocked();
/**
* isKeyguardSecure
*
* Return whether the keyguard requires a password to unlock.
* @param userId
*
* @return true if in keyguard is secure.
*/
public boolean isKeyguardSecure(int userId);
/**
* Return whether the keyguard is on.
*
* @return true if in keyguard is on.
*/
public boolean isKeyguardShowingOrOccluded();
/**
* inKeyguardRestrictedKeyInputMode
*
* if keyguard screen is showing or in restricted key input mode (i.e. in
* keyguard password emergency screen). When in such mode, certain keys,
* such as the Home key and the right soft keys, don't work.
*
* @return true if in keyguard restricted input mode.
*/
public boolean inKeyguardRestrictedKeyInputMode();
/**
* Ask the policy to dismiss the keyguard, if it is currently shown.
*/
public void dismissKeyguardLw();
/**
* Notifies the keyguard that the activity has drawn it was waiting for.
*/
public void notifyActivityDrawnForKeyguardLw();
/**
* Ask the policy whether the Keyguard has drawn. If the Keyguard is disabled, this method
* returns true as soon as we know that Keyguard is disabled.
*
* @return true if the keyguard has drawn.
*/
public boolean isKeyguardDrawnLw();
/**
* Given an orientation constant, returns the appropriate surface rotation,
* taking into account sensors, docking mode, rotation lock, and other factors.
*
* @param orientation An orientation constant, such as
* {@link android.content.pm.ActivityInfo#SCREEN_ORIENTATION_LANDSCAPE}.
* @param lastRotation The most recently used rotation.
* @return The surface rotation to use.
*/
public int rotationForOrientationLw(@ActivityInfo.ScreenOrientation int orientation,
int lastRotation);
/**
* Given an orientation constant and a rotation, returns true if the rotation
* has compatible metrics to the requested orientation. For example, if
* the application requested landscape and got seascape, then the rotation
* has compatible metrics; if the application requested portrait and got landscape,
* then the rotation has incompatible metrics; if the application did not specify
* a preference, then anything goes.
*
* @param orientation An orientation constant, such as
* {@link android.content.pm.ActivityInfo#SCREEN_ORIENTATION_LANDSCAPE}.
* @param rotation The rotation to check.
* @return True if the rotation is compatible with the requested orientation.
*/
public boolean rotationHasCompatibleMetricsLw(@ActivityInfo.ScreenOrientation int orientation,
int rotation);
/**
* Called by the window manager when the rotation changes.
*
* @param rotation The new rotation.
*/
public void setRotationLw(int rotation);
/**
* Called when the system is mostly done booting to set whether
* the system should go into safe mode.
*/
public void setSafeMode(boolean safeMode);
/**
* Called when the system is mostly done booting.
*/
public void systemReady();
/**
* Called when the system is done booting to the point where the
* user can start interacting with it.
*/
public void systemBooted();
/**
* Show boot time message to the user.
*/
public void showBootMessage(final CharSequence msg, final boolean always);
/**
* Hide the UI for showing boot messages, never to be displayed again.
*/
public void hideBootMessages();
/**
* Called when userActivity is signalled in the power manager.
* This is safe to call from any thread, with any window manager locks held or not.
*/
public void userActivity();
/**
* Called when we have finished booting and can now display the home
* screen to the user. This will happen after systemReady(), and at
* this point the display is active.
*/
public void enableScreenAfterBoot();
public void setCurrentOrientationLw(@ActivityInfo.ScreenOrientation int newOrientation);
/**
* Call from application to perform haptic feedback on its window.
*/
public boolean performHapticFeedbackLw(WindowState win, int effectId, boolean always);
/**
* Called when we have started keeping the screen on because a window
* requesting this has become visible.
*/
public void keepScreenOnStartedLw();
/**
* Called when we have stopped keeping the screen on because the last window
* requesting this is no longer visible.
*/
public void keepScreenOnStoppedLw();
/**
* Gets the current user rotation mode.
*
* @return The rotation mode.
*
* @see WindowManagerPolicy#USER_ROTATION_LOCKED
* @see WindowManagerPolicy#USER_ROTATION_FREE
*/
@UserRotationMode
public int getUserRotationMode();
/**
* Inform the policy that the user has chosen a preferred orientation ("rotation lock").
*
* @param mode One of {@link WindowManagerPolicy#USER_ROTATION_LOCKED} or
* {@link WindowManagerPolicy#USER_ROTATION_FREE}.
* @param rotation One of {@link Surface#ROTATION_0}, {@link Surface#ROTATION_90},
* {@link Surface#ROTATION_180}, {@link Surface#ROTATION_270}.
*/
public void setUserRotationMode(@UserRotationMode int mode, @Surface.Rotation int rotation);
/**
* Called when a new system UI visibility is being reported, allowing
* the policy to adjust what is actually reported.
* @param visibility The raw visibility reported by the status bar.
* @return The new desired visibility.
*/
public int adjustSystemUiVisibilityLw(int visibility);
/**
* Specifies whether there is an on-screen navigation bar separate from the status bar.
*/
public boolean hasNavigationBar();
/**
* Lock the device now.
*/
public void lockNow(Bundle options);
/**
* Set the last used input method window state. This state is used to make IME transition
* smooth.
* @hide
*/
public void setLastInputMethodWindowLw(WindowState ime, WindowState target);
/**
* Show the recents task list app.
* @hide
*/
public void showRecentApps(boolean fromHome);
/**
* Show the global actions dialog.
* @hide
*/
public void showGlobalActions();
/**
* @return The current height of the input method window.
*/
public int getInputMethodWindowVisibleHeightLw();
/**
* Called when the current user changes. Guaranteed to be called before the broadcast
* of the new user id is made to all listeners.
*
* @param newUserId The id of the incoming user.
*/
public void setCurrentUserLw(int newUserId);
/**
* Print the WindowManagerPolicy's state into the given stream.
*
* @param prefix Text to print at the front of each line.
* @param writer The PrintWriter to which you should dump your state. This will be
* closed for you after you return.
* @param args additional arguments to the dump request.
*/
public void dump(String prefix, PrintWriter writer, String[] args);
/**
* Returns whether a given window type can be magnified.
*
* @param windowType The window type.
* @return True if the window can be magnified.
*/
public boolean canMagnifyWindow(int windowType);
/**
* Returns whether a given window type is considered a top level one.
* A top level window does not have a container, i.e. attached window,
* or if it has a container it is laid out as a top-level window, not
* as a child of its container.
*
* @param windowType The window type.
* @return True if the window is a top level one.
*/
public boolean isTopLevelWindow(int windowType);
/**
* Notifies the keyguard to start fading out.
*
* @param startTime the start time of the animation in uptime milliseconds
* @param fadeoutDuration the duration of the exit animation, in milliseconds
*/
public void startKeyguardExitAnimation(long startTime, long fadeoutDuration);
/**
* Calculates the stable insets without running a layout.
*
* @param displayRotation the current display rotation
* @param displayWidth the current display width
* @param displayHeight the current display height
* @param outInsets the insets to return
*/
public void getStableInsetsLw(int displayRotation, int displayWidth, int displayHeight,
Rect outInsets);
/**
* @return true if the navigation bar is forced to stay visible
*/
public boolean isNavBarForcedShownLw(WindowState win);
/**
* Calculates the insets for the areas that could never be removed in Honeycomb, i.e. system
* bar or button bar. See {@link #getNonDecorDisplayWidth}.
*
* @param displayRotation the current display rotation
* @param displayWidth the current display width
* @param displayHeight the current display height
* @param outInsets the insets to return
*/
public void getNonDecorInsetsLw(int displayRotation, int displayWidth, int displayHeight,
Rect outInsets);
/**
* @return True if a specified {@param dockSide} is allowed on the current device, or false
* otherwise. It is guaranteed that at least one dock side for a particular orientation
* is allowed, so for example, if DOCKED_RIGHT is not allowed, DOCKED_LEFT is allowed.
*/
public boolean isDockSideAllowed(int dockSide);
/**
* Called when the configuration has changed, and it's safe to load new values from resources.
*/
public void onConfigurationChanged();
public boolean shouldRotateSeamlessly(int oldRotation, int newRotation);
}