* The display area is described in two different ways. *
* A logical display does not necessarily represent a particular physical display device * such as the built-in screen or an external monitor. The contents of a logical * display may be presented on one or more physical displays according to the devices * that are currently attached and whether mirroring has been enabled. *
*/ public final class Display { private static final String TAG = "Display"; private static final boolean DEBUG = false; private final DisplayManagerGlobal mGlobal; private final int mDisplayId; private final int mLayerStack; private final String mName; private final CompatibilityInfoHolder mCompatibilityInfo; private DisplayInfo mDisplayInfo; // never null private boolean mIsValid; // Temporary display metrics structure used for compatibility mode. private final DisplayMetrics mTempMetrics = new DisplayMetrics(); // We cache the app width and height properties briefly between calls // to getHeight() and getWidth() to ensure that applications perceive // consistent results when the size changes (most of the time). // Applications should now be using getSize() instead. private static final int CACHED_APP_SIZE_DURATION_MILLIS = 20; private long mLastCachedAppSizeUpdate; private int mCachedAppWidthCompat; private int mCachedAppHeightCompat; /** * The default Display id, which is the id of the built-in primary display * assuming there is one. */ public static final int DEFAULT_DISPLAY = 0; /** * Display flag: Indicates that the display supports compositing content * that is stored in protected graphics buffers. ** Secure (DRM) video decoders may allocate protected graphics buffers to request that * a hardware-protected path be provided between the video decoder and the external * display sink. If a hardware-protected path is not available, then content stored * in protected graphics buffers may not be composited. *
* If this flag is not set, then the display device does not support compositing * protected buffers; the user may see a blank region on the screen instead of * the protected content. An application can use this flag as a hint that it should * select an alternate content stream or adopt a different strategy for decoding * content that does not rely on protected buffers so as to ensure that the user * can view the content on the display as expected. *
*/ public static final int FLAG_SUPPORTS_PROTECTED_BUFFERS = 1 << 0; /** * Internal method to create a display. * Applications should use {@link android.view.WindowManager#getDefaultDisplay()} * or {@link android.hardware.display.DisplayManager#getDisplay} * to get a display object. * * @hide */ public Display(DisplayManagerGlobal global, int displayId, DisplayInfo displayInfo /*not null*/, CompatibilityInfoHolder compatibilityInfo) { mGlobal = global; mDisplayId = displayId; mDisplayInfo = displayInfo; mLayerStack = displayInfo.layerStack; // can never change as long as the display is valid mName = displayInfo.name; // cannot change as long as the display is valid mCompatibilityInfo = compatibilityInfo; mIsValid = true; } /** * Gets the display id. ** Each logical display has a unique id. * The default display has id {@link #DEFAULT_DISPLAY}. *
*/ public int getDisplayId() { return mDisplayId; } /** * Returns true if this display is still valid, false if the display has been removed. * * If the display is invalid, then the methods of this class will * continue to report the most recently observed display information. * However, it is unwise (and rather fruitless) to continue using a * {@link Display} object after the display's demise. * * It's possible for a display that was previously invalid to become * valid again if a display with the same id is reconnected. * * @return True if the display is still valid. */ public boolean isValid() { synchronized (this) { updateDisplayInfoLocked(); return mIsValid; } } /** * Gets a full copy of the display information. * * @param outDisplayInfo The object to receive the copy of the display information. * @return True if the display is still valid. * @hide */ public boolean getDisplayInfo(DisplayInfo outDisplayInfo) { synchronized (this) { updateDisplayInfoLocked(); outDisplayInfo.copyFrom(mDisplayInfo); return mIsValid; } } /** * Gets the display's layer stack. * * Each display has its own independent layer stack upon which surfaces * are placed to be managed by surface flinger. * * @return The display's layer stack number. * @hide */ public int getLayerStack() { return mLayerStack; } /** * Returns a combination of flags that describe the capabilities of the display. * * @return The display flags. * * @see #FLAG_SUPPORTS_PROTECTED_BUFFERS */ public int getFlags() { synchronized (this) { updateDisplayInfoLocked(); return mDisplayInfo.flags; } } /** * Gets the compatibility info used by this display instance. * * @return The compatibility info holder, or null if none is required. * @hide */ public CompatibilityInfoHolder getCompatibilityInfo() { return mCompatibilityInfo; } /** * Gets the name of the display. * @return The display's name. */ public String getName() { return mName; } /** * Gets the size of the display, in pixels. ** Note that this value should not be used for computing layouts, * since a device will typically have screen decoration (such as a status bar) * along the edges of the display that reduce the amount of application * space available from the size returned here. Layouts should instead use * the window size. *
* The size is adjusted based on the current rotation of the display. *
* The size returned by this method does not necessarily represent the * actual raw size (native resolution) of the display. The returned size may * be adjusted to exclude certain system decoration elements that are always visible. * It may also be scaled to provide compatibility with older applications that * were originally designed for smaller displays. *
* * @param outSize A {@link Point} object to receive the size information. */ public void getSize(Point outSize) { synchronized (this) { updateDisplayInfoLocked(); mDisplayInfo.getAppMetrics(mTempMetrics, mCompatibilityInfo); outSize.x = mTempMetrics.widthPixels; outSize.y = mTempMetrics.heightPixels; } } /** * Gets the size of the display as a rectangle, in pixels. * * @param outSize A {@link Rect} object to receive the size information. * @see #getSize(Point) */ public void getRectSize(Rect outSize) { synchronized (this) { updateDisplayInfoLocked(); mDisplayInfo.getAppMetrics(mTempMetrics, mCompatibilityInfo); outSize.set(0, 0, mTempMetrics.widthPixels, mTempMetrics.heightPixels); } } /** * Return the range of display sizes an application can expect to encounter * under normal operation, as long as there is no physical change in screen * size. This is basically the sizes you will see as the orientation * changes, taking into account whatever screen decoration there is in * each rotation. For example, the status bar is always at the top of the * screen, so it will reduce the height both in landscape and portrait, and * the smallest height returned here will be the smaller of the two. * * This is intended for applications to get an idea of the range of sizes * they will encounter while going through device rotations, to provide a * stable UI through rotation. The sizes here take into account all standard * system decorations that reduce the size actually available to the * application: the status bar, navigation bar, system bar, etc. It does * not take into account more transient elements like an IME * soft keyboard. * * @param outSmallestSize Filled in with the smallest width and height * that the application will encounter, in pixels (not dp units). The x * (width) dimension here directly corresponds to * {@link android.content.res.Configuration#smallestScreenWidthDp * Configuration.smallestScreenWidthDp}, except the value here is in raw * screen pixels rather than dp units. Your application may of course * still get smaller space yet if, for example, a soft keyboard is * being displayed. * @param outLargestSize Filled in with the largest width and height * that the application will encounter, in pixels (not dp units). Your * application may of course still get larger space than this if, * for example, screen decorations like the status bar are being hidden. */ public void getCurrentSizeRange(Point outSmallestSize, Point outLargestSize) { synchronized (this) { updateDisplayInfoLocked(); outSmallestSize.x = mDisplayInfo.smallestNominalAppWidth; outSmallestSize.y = mDisplayInfo.smallestNominalAppHeight; outLargestSize.x = mDisplayInfo.largestNominalAppWidth; outLargestSize.y = mDisplayInfo.largestNominalAppHeight; } } /** * Return the maximum screen size dimension that will happen. This is * mostly for wallpapers. * @hide */ public int getMaximumSizeDimension() { synchronized (this) { updateDisplayInfoLocked(); return Math.max(mDisplayInfo.logicalWidth, mDisplayInfo.logicalHeight); } } /** * @deprecated Use {@link #getSize(Point)} instead. */ @Deprecated public int getWidth() { synchronized (this) { updateCachedAppSizeIfNeededLocked(); return mCachedAppWidthCompat; } } /** * @deprecated Use {@link #getSize(Point)} instead. */ @Deprecated public int getHeight() { synchronized (this) { updateCachedAppSizeIfNeededLocked(); return mCachedAppHeightCompat; } } /** * Returns the rotation of the screen from its "natural" orientation. * The returned value may be {@link Surface#ROTATION_0 Surface.ROTATION_0} * (no rotation), {@link Surface#ROTATION_90 Surface.ROTATION_90}, * {@link Surface#ROTATION_180 Surface.ROTATION_180}, or * {@link Surface#ROTATION_270 Surface.ROTATION_270}. For * example, if a device has a naturally tall screen, and the user has * turned it on its side to go into a landscape orientation, the value * returned here may be either {@link Surface#ROTATION_90 Surface.ROTATION_90} * or {@link Surface#ROTATION_270 Surface.ROTATION_270} depending on * the direction it was turned. The angle is the rotation of the drawn * graphics on the screen, which is the opposite direction of the physical * rotation of the device. For example, if the device is rotated 90 * degrees counter-clockwise, to compensate rendering will be rotated by * 90 degrees clockwise and thus the returned value here will be * {@link Surface#ROTATION_90 Surface.ROTATION_90}. */ public int getRotation() { synchronized (this) { updateDisplayInfoLocked(); return mDisplayInfo.rotation; } } /** * @deprecated use {@link #getRotation} * @return orientation of this display. */ @Deprecated public int getOrientation() { return getRotation(); } /** * Gets the pixel format of the display. * @return One of the constants defined in {@link android.graphics.PixelFormat}. * * @deprecated This method is no longer supported. * The result is always {@link PixelFormat#RGBA_8888}. */ @Deprecated public int getPixelFormat() { return PixelFormat.RGBA_8888; } /** * Gets the refresh rate of this display in frames per second. */ public float getRefreshRate() { synchronized (this) { updateDisplayInfoLocked(); return mDisplayInfo.refreshRate; } } /** * Gets display metrics that describe the size and density of this display. ** The size is adjusted based on the current rotation of the display. *
* The size returned by this method does not necessarily represent the * actual raw size (native resolution) of the display. The returned size may * be adjusted to exclude certain system decor elements that are always visible. * It may also be scaled to provide compatibility with older applications that * were originally designed for smaller displays. *
* * @param outMetrics A {@link DisplayMetrics} object to receive the metrics. */ public void getMetrics(DisplayMetrics outMetrics) { synchronized (this) { updateDisplayInfoLocked(); mDisplayInfo.getAppMetrics(outMetrics, mCompatibilityInfo); } } /** * Gets the real size of the display without subtracting any window decor or * applying any compatibility scale factors. ** The size is adjusted based on the current rotation of the display. *
* The real size may be smaller than the physical size of the screen when the * window manager is emulating a smaller display (using adb shell am display-size). *
* * @param outSize Set to the real size of the display. */ public void getRealSize(Point outSize) { synchronized (this) { updateDisplayInfoLocked(); outSize.x = mDisplayInfo.logicalWidth; outSize.y = mDisplayInfo.logicalHeight; } } /** * Gets display metrics based on the real size of this display. ** The size is adjusted based on the current rotation of the display. *
* The real size may be smaller than the physical size of the screen when the * window manager is emulating a smaller display (using adb shell am display-size). *
* * @param outMetrics A {@link DisplayMetrics} object to receive the metrics. */ public void getRealMetrics(DisplayMetrics outMetrics) { synchronized (this) { updateDisplayInfoLocked(); mDisplayInfo.getLogicalMetrics(outMetrics, null); } } private void updateDisplayInfoLocked() { // Note: The display manager caches display info objects on our behalf. DisplayInfo newInfo = mGlobal.getDisplayInfo(mDisplayId); if (newInfo == null) { // Preserve the old mDisplayInfo after the display is removed. if (mIsValid) { mIsValid = false; if (DEBUG) { Log.d(TAG, "Logical display " + mDisplayId + " was removed."); } } } else { // Use the new display info. (It might be the same object if nothing changed.) mDisplayInfo = newInfo; if (!mIsValid) { mIsValid = true; if (DEBUG) { Log.d(TAG, "Logical display " + mDisplayId + " was recreated."); } } } } private void updateCachedAppSizeIfNeededLocked() { long now = SystemClock.uptimeMillis(); if (now > mLastCachedAppSizeUpdate + CACHED_APP_SIZE_DURATION_MILLIS) { updateDisplayInfoLocked(); mDisplayInfo.getAppMetrics(mTempMetrics, mCompatibilityInfo); mCachedAppWidthCompat = mTempMetrics.widthPixels; mCachedAppHeightCompat = mTempMetrics.heightPixels; mLastCachedAppSizeUpdate = now; } } // For debugging purposes @Override public String toString() { synchronized (this) { updateDisplayInfoLocked(); mDisplayInfo.getAppMetrics(mTempMetrics, mCompatibilityInfo); return "Display id " + mDisplayId + ": " + mDisplayInfo + ", " + mTempMetrics + ", isValid=" + mIsValid; } } }