/* * 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.content.res.CompatibilityInfo; import android.graphics.Point; import android.graphics.Rect; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.util.DisplayMetrics; import android.util.Slog; /** * Provides information about the display size and density. */ public class Display { static final String TAG = "Display"; static final boolean DEBUG_DISPLAY_SIZE = false; /** * The default Display id. */ public static final int DEFAULT_DISPLAY = 0; /** * Use {@link android.view.WindowManager#getDefaultDisplay() * WindowManager.getDefaultDisplay()} to create a Display object. * Display gives you access to some information about a particular display * connected to the device. */ Display(int display, CompatibilityInfoHolder compatInfo) { // initalize the statics when this class is first instansiated. This is // done here instead of in the static block because Zygote synchronized (sStaticInit) { if (!sInitialized) { nativeClassInit(); sInitialized = true; } } mCompatibilityInfo = compatInfo != null ? compatInfo : new CompatibilityInfoHolder(); mDisplay = display; init(display); } /** * Returns the index of this display. This is currently undefined; do * not use. */ public int getDisplayId() { return mDisplay; } /** * Returns the number of displays connected to the device. This is * currently undefined; do not use. */ native static int getDisplayCount(); /** * 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 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 outSize A {@link Point} object to receive the size information. */ public void getSize(Point outSize) { getSizeInternal(outSize, true); } private void getSizeInternal(Point outSize, boolean doCompat) { try { IWindowManager wm = getWindowManager(); if (wm != null) { wm.getDisplaySize(outSize); CompatibilityInfo ci; if (doCompat && (ci=mCompatibilityInfo.getIfNeeded()) != null) { synchronized (mTmpMetrics) { mTmpMetrics.noncompatWidthPixels = outSize.x; mTmpMetrics.noncompatHeightPixels = outSize.y; mTmpMetrics.density = mDensity; ci.applyToDisplayMetrics(mTmpMetrics); outSize.x = mTmpMetrics.widthPixels; outSize.y = mTmpMetrics.heightPixels; } } } else { // This is just for boot-strapping, initializing the // system process before the window manager is up. outSize.x = getRawWidth(); outSize.y = getRawHeight(); } if (false) { RuntimeException here = new RuntimeException("here"); here.fillInStackTrace(); Slog.v(TAG, "Returning display size: " + outSize, here); } if (DEBUG_DISPLAY_SIZE && doCompat) Slog.v( TAG, "Returning display size: " + outSize); } catch (RemoteException e) { Slog.w("Display", "Unable to get display size", e); } } /** * 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 (mTmpPoint) { getSizeInternal(mTmpPoint, true); outSize.set(0, 0, mTmpPoint.x, mTmpPoint.y); } } /** * Return the maximum screen size dimension that will happen. This is * mostly for wallpapers. * @hide */ public int getMaximumSizeDimension() { try { IWindowManager wm = getWindowManager(); return wm.getMaximumSizeDimension(); } catch (RemoteException e) { Slog.w("Display", "Unable to get display maximum size dimension", e); return 0; } } /** * @deprecated Use {@link #getSize(Point)} instead. */ @Deprecated public int getWidth() { synchronized (mTmpPoint) { long now = SystemClock.uptimeMillis(); if (now > (mLastGetTime+20)) { getSizeInternal(mTmpPoint, true); mLastGetTime = now; } return mTmpPoint.x; } } /** * @deprecated Use {@link #getSize(Point)} instead. */ @Deprecated public int getHeight() { synchronized (mTmpPoint) { long now = SystemClock.uptimeMillis(); if (now > (mLastGetTime+20)) { getSizeInternal(mTmpPoint, true); mLastGetTime = now; } return mTmpPoint.y; } } /** * Gets the real size of the display without subtracting any window decor or * applying any compatibility scale factors. *

* The real size may be smaller than the raw size when the window manager * is emulating a smaller display (using adb shell am display-size). *

* The size is adjusted based on the current rotation of the display. *

* @hide */ public void getRealSize(Point outSize) { try { IWindowManager wm = getWindowManager(); if (wm != null) { wm.getRealDisplaySize(outSize); } else { // This is just for boot-strapping, initializing the // system process before the window manager is up. outSize.x = getRawWidth(); outSize.y = getRawHeight(); } if (DEBUG_DISPLAY_SIZE) Slog.v( TAG, "Returning real display size: " + outSize); } catch (RemoteException e) { Slog.w("Display", "Unable to get real display size", e); } } /** * Gets the raw width of the display, in pixels. *

* The size is adjusted based on the current rotation of the display. *

* @hide */ public int getRawWidth() { int w = getRawWidthNative(); if (DEBUG_DISPLAY_SIZE) Slog.v( TAG, "Returning raw display width: " + w); return w; } private native int getRawWidthNative(); /** * Gets the raw height of the display, in pixels. *

* The size is adjusted based on the current rotation of the display. *

* @hide */ public int getRawHeight() { int h = getRawHeightNative(); if (DEBUG_DISPLAY_SIZE) Slog.v( TAG, "Returning raw display height: " + h); return h; } private native int getRawHeightNative(); /** * 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() { return getOrientation(); } /** * @deprecated use {@link #getRotation} * @return orientation of this display. */ @Deprecated native public int getOrientation(); /** * Return the native pixel format of the display. The returned value * may be one of the constants int {@link android.graphics.PixelFormat}. */ public int getPixelFormat() { return mPixelFormat; } /** * Return the refresh rate of this display in frames per second. */ public float getRefreshRate() { return mRefreshRate; } /** * 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 (mTmpPoint) { getSizeInternal(mTmpPoint, false); getMetricsWithSize(outMetrics, mTmpPoint.x, mTmpPoint.y); } CompatibilityInfo ci = mCompatibilityInfo.getIfNeeded(); if (ci != null) { ci.applyToDisplayMetrics(outMetrics); } if (DEBUG_DISPLAY_SIZE) Slog.v(TAG, "Returning DisplayMetrics: " + outMetrics.widthPixels + "x" + outMetrics.heightPixels + " " + outMetrics.density); } /** * Gets display metrics based on the real size of this display. * @hide */ public void getRealMetrics(DisplayMetrics outMetrics) { synchronized (mTmpPoint) { getRealSize(mTmpPoint); getMetricsWithSize(outMetrics, mTmpPoint.x, mTmpPoint.y); } } /** * If the display is mirrored to an external HDMI display, returns the * width of that display. * @hide */ public int getRawExternalWidth() { return 1280; } /** * If the display is mirrored to an external HDMI display, returns the * height of that display. * @hide */ public int getRawExternalHeight() { return 720; } /** * Gets display metrics based on an explicit assumed display size. * @hide */ public void getMetricsWithSize(DisplayMetrics outMetrics, int width, int height) { outMetrics.densityDpi = (int)((mDensity*DisplayMetrics.DENSITY_DEFAULT)+.5f); outMetrics.noncompatWidthPixels = outMetrics.widthPixels = width; outMetrics.noncompatHeightPixels = outMetrics.heightPixels = height; outMetrics.density = outMetrics.noncompatDensity = mDensity; outMetrics.scaledDensity = outMetrics.noncompatScaledDensity = outMetrics.density; outMetrics.xdpi = outMetrics.noncompatXdpi = mDpiX; outMetrics.ydpi = outMetrics.noncompatYdpi = mDpiY; } static IWindowManager getWindowManager() { synchronized (sStaticInit) { if (sWindowManager == null) { sWindowManager = IWindowManager.Stub.asInterface( ServiceManager.getService("window")); } return sWindowManager; } } /* * We use a class initializer to allow the native code to cache some * field offsets. */ native private static void nativeClassInit(); private native void init(int display); private final CompatibilityInfoHolder mCompatibilityInfo; private final int mDisplay; // Following fields are initialized from native code private int mPixelFormat; private float mRefreshRate; /*package*/ float mDensity; /*package*/ float mDpiX; /*package*/ float mDpiY; private final Point mTmpPoint = new Point(); private final DisplayMetrics mTmpMetrics = new DisplayMetrics(); private float mLastGetTime; private static final Object sStaticInit = new Object(); private static boolean sInitialized = false; private static IWindowManager sWindowManager; /** * Returns a display object which uses the metric's width/height instead. * @hide */ public static Display createCompatibleDisplay(int displayId, CompatibilityInfoHolder compat) { return new Display(displayId, compat); } }