gecko/mobile/android/base/gfx/GeckoSoftwareLayerClient.java

553 lines
21 KiB
Java

/* -*- Mode: Java; c-basic-offset: 4; tab-width: 20; indent-tabs-mode: nil; -*-
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla Android code.
*
* The Initial Developer of the Original Code is Mozilla Foundation.
* Portions created by the Initial Developer are Copyright (C) 2009-2010
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Patrick Walton <pcwalton@mozilla.com>
* Chris Lord <chrislord.net@gmail.com>
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
package org.mozilla.gecko.gfx;
import org.mozilla.gecko.gfx.CairoImage;
import org.mozilla.gecko.gfx.IntSize;
import org.mozilla.gecko.gfx.LayerClient;
import org.mozilla.gecko.gfx.LayerController;
import org.mozilla.gecko.gfx.LayerRenderer;
import org.mozilla.gecko.gfx.MultiTileLayer;
import org.mozilla.gecko.gfx.PointUtils;
import org.mozilla.gecko.gfx.WidgetTileLayer;
import org.mozilla.gecko.FloatUtils;
import org.mozilla.gecko.GeckoApp;
import org.mozilla.gecko.GeckoAppShell;
import org.mozilla.gecko.GeckoEvent;
import org.mozilla.gecko.GeckoEventListener;
import android.content.Context;
import android.graphics.Bitmap;
import android.graphics.Canvas;
import android.graphics.Color;
import android.graphics.Point;
import android.graphics.PointF;
import android.graphics.Rect;
import android.graphics.RectF;
import android.util.DisplayMetrics;
import android.util.Log;
import org.json.JSONException;
import org.json.JSONObject;
import java.nio.ByteBuffer;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
/**
* Transfers a software-rendered Gecko to an ImageLayer so that it can be rendered by our
* compositor.
*
* TODO: Throttle down Gecko's priority when we pan and zoom.
*/
public class GeckoSoftwareLayerClient extends LayerClient implements GeckoEventListener {
private static final String LOGTAG = "GeckoSoftwareLayerClient";
private Context mContext;
private int mFormat;
private IntSize mScreenSize, mViewportSize;
private IntSize mBufferSize;
private ByteBuffer mBuffer;
private Layer mTileLayer;
/* The viewport that Gecko is currently displaying. */
private ViewportMetrics mGeckoViewport;
/* The viewport that Gecko will display when drawing is finished */
private ViewportMetrics mNewGeckoViewport;
/* The offset used to make sure tiles are snapped to the pixel grid */
private Point mRenderOffset;
private CairoImage mCairoImage;
private static final IntSize TILE_SIZE = new IntSize(256, 256);
private static final long MIN_VIEWPORT_CHANGE_DELAY = 350L;
private long mLastViewportChangeTime;
private boolean mPendingViewportAdjust;
private boolean mViewportSizeChanged;
// Whether or not the last paint we got used direct texturing
private boolean mHasDirectTexture;
// mUpdateViewportOnEndDraw is used to indicate that we received a
// viewport update notification while drawing. therefore, when the
// draw finishes, we need to update the entire viewport rather than
// just the page size. this boolean should always be accessed from
// inside a transaction, so no synchronization is needed.
private boolean mUpdateViewportOnEndDraw;
private static Pattern sColorPattern;
public GeckoSoftwareLayerClient(Context context) {
mContext = context;
mScreenSize = new IntSize(0, 0);
mBufferSize = new IntSize(0, 0);
mFormat = CairoImage.FORMAT_RGB16_565;
mRenderOffset = new Point(0, 0);
mCairoImage = new CairoImage() {
@Override
public ByteBuffer getBuffer() { return mBuffer; }
@Override
public IntSize getSize() { return mBufferSize; }
@Override
public int getFormat() { return mFormat; }
};
}
public int getWidth() {
return mBufferSize.width;
}
public int getHeight() {
return mBufferSize.height;
}
protected void finalize() throws Throwable {
try {
if (mBuffer != null)
GeckoAppShell.freeDirectBuffer(mBuffer);
mBuffer = null;
} finally {
super.finalize();
}
}
/** Attaches the root layer to the layer controller so that Gecko appears. */
@Override
public void setLayerController(LayerController layerController) {
super.setLayerController(layerController);
layerController.setRoot(mTileLayer);
if (mGeckoViewport != null) {
layerController.setViewportMetrics(mGeckoViewport);
}
GeckoAppShell.registerGeckoEventListener("Viewport:UpdateAndDraw", this);
GeckoAppShell.registerGeckoEventListener("Viewport:UpdateLater", this);
GeckoAppShell.registerGeckoEventListener("Document:Shown", this);
GeckoAppShell.registerGeckoEventListener("Tab:Selected", this);
sendResizeEventIfNecessary();
}
private boolean setHasDirectTexture(boolean hasDirectTexture) {
if (mTileLayer != null && hasDirectTexture == mHasDirectTexture)
return false;
mHasDirectTexture = hasDirectTexture;
if (mHasDirectTexture) {
Log.i(LOGTAG, "Creating WidgetTileLayer");
mTileLayer = new WidgetTileLayer(mCairoImage);
mRenderOffset.set(0, 0);
} else {
Log.i(LOGTAG, "Creating MultiTileLayer");
mTileLayer = new MultiTileLayer(mCairoImage, TILE_SIZE);
}
getLayerController().setRoot(mTileLayer);
// Force a resize event to be sent because the results of this
// are different depending on what tile system we're using
sendResizeEventIfNecessary(true);
return true;
}
public boolean beginDrawing(int width, int height, int tileWidth, int tileHeight, String metadata, boolean hasDirectTexture) {
// If we've changed surface types, cancel this draw
if (setHasDirectTexture(hasDirectTexture)) {
return false;
}
// Make sure the tile-size matches. If it doesn't, we could crash trying
// to access invalid memory.
if (mHasDirectTexture) {
if (tileWidth != 0 || tileHeight != 0) {
Log.e(LOGTAG, "Aborting draw, incorrect tile size of " + tileWidth + "x" + tileHeight);
return false;
}
} else {
if (tileWidth != TILE_SIZE.width || tileHeight != TILE_SIZE.height) {
Log.e(LOGTAG, "Aborting draw, incorrect tile size of " + tileWidth + "x" + tileHeight);
return false;
}
}
try {
JSONObject viewportObject = new JSONObject(metadata);
mNewGeckoViewport = new ViewportMetrics(viewportObject);
// Update the background color, if it's present.
String backgroundColorString = viewportObject.optString("backgroundColor");
if (backgroundColorString != null) {
LayerController controller = getLayerController();
controller.setCheckerboardColor(parseColorFromGecko(backgroundColorString));
}
} catch (JSONException e) {
Log.e(LOGTAG, "Aborting draw, bad viewport description: " + metadata);
return false;
}
beginTransaction(mTileLayer);
// We only need to set a render offset/allocate buffer memory if
// we're using MultiTileLayer. Otherwise, just synchronise the
// buffer size and return.
if (!(mTileLayer instanceof MultiTileLayer)) {
if (mBufferSize.width != width || mBufferSize.height != height)
mBufferSize = new IntSize(width, height);
return true;
}
// If the origin has changed, alter the rendering offset so that
// rendering is snapped to the tile grid and clear the invalid area.
boolean originChanged = true;
Point origin = PointUtils.round(mNewGeckoViewport.getDisplayportOrigin());
if (mGeckoViewport != null) {
Point oldOrigin = PointUtils.round(mGeckoViewport.getDisplayportOrigin());
originChanged = !origin.equals(oldOrigin);
}
if (originChanged) {
Point tileOrigin = new Point((origin.x / TILE_SIZE.width) * TILE_SIZE.width,
(origin.y / TILE_SIZE.height) * TILE_SIZE.height);
mRenderOffset.set(origin.x - tileOrigin.x, origin.y - tileOrigin.y);
((MultiTileLayer)mTileLayer).invalidateBuffer();
}
// If the window size has changed, reallocate the buffer to match.
if (mBufferSize.width != width || mBufferSize.height != height) {
mBufferSize = new IntSize(width, height);
// We over-allocate to allow for the render offset. nsWindow
// assumes that this will happen.
IntSize realBufferSize = new IntSize(width + TILE_SIZE.width,
height + TILE_SIZE.height);
// Reallocate the buffer if necessary
int bpp = CairoUtils.bitsPerPixelForCairoFormat(mFormat) / 8;
int size = realBufferSize.getArea() * bpp;
if (mBuffer == null || mBuffer.capacity() != size) {
// Free the old buffer
if (mBuffer != null) {
GeckoAppShell.freeDirectBuffer(mBuffer);
mBuffer = null;
}
mBuffer = GeckoAppShell.allocateDirectBuffer(size);
}
}
return true;
}
private void updateViewport(final boolean onlyUpdatePageSize) {
// save and restore the viewport size stored in java; never let the
// JS-side viewport dimensions override the java-side ones because
// java is the One True Source of this information, and allowing JS
// to override can lead to race conditions where this data gets clobbered.
FloatSize viewportSize = getLayerController().getViewportSize();
mGeckoViewport = mNewGeckoViewport;
mGeckoViewport.setSize(viewportSize);
LayerController controller = getLayerController();
PointF displayportOrigin = mGeckoViewport.getDisplayportOrigin();
Point tileOrigin = PointUtils.round(displayportOrigin);
tileOrigin.offset(-mRenderOffset.x, -mRenderOffset.y);
mTileLayer.setOrigin(tileOrigin);
mTileLayer.setResolution(mGeckoViewport.getZoomFactor());
if (onlyUpdatePageSize) {
// Don't adjust page size when zooming unless zoom levels are
// approximately equal.
if (FloatUtils.fuzzyEquals(controller.getZoomFactor(),
mGeckoViewport.getZoomFactor()))
controller.setPageSize(mGeckoViewport.getPageSize());
} else {
controller.setViewportMetrics(mGeckoViewport);
controller.abortPanZoomAnimation();
}
}
/*
* TODO: Would be cleaner if this took an android.graphics.Rect instead, but that would require
* a little more JNI magic.
*/
public void endDrawing(int x, int y, int width, int height) {
synchronized (getLayerController()) {
try {
updateViewport(!mUpdateViewportOnEndDraw);
mUpdateViewportOnEndDraw = false;
if (mTileLayer instanceof MultiTileLayer) {
Rect rect = new Rect(x, y, x + width, y + height);
rect.offset(mRenderOffset.x, mRenderOffset.y);
((MultiTileLayer)mTileLayer).invalidate(rect);
}
} finally {
endTransaction(mTileLayer);
}
}
}
public ViewportMetrics getGeckoViewportMetrics() {
// Return a copy, as we modify this inside the Gecko thread
if (mGeckoViewport != null)
return new ViewportMetrics(mGeckoViewport);
return null;
}
public void copyPixelsFromMultiTileLayer(Bitmap target) {
Canvas c = new Canvas(target);
ByteBuffer tileBuffer = mBuffer.slice();
int bpp = CairoUtils.bitsPerPixelForCairoFormat(mFormat) / 8;
for (int y = 0; y <= mBufferSize.height; y += TILE_SIZE.height) {
for (int x = 0; x <= mBufferSize.width; x += TILE_SIZE.width) {
// Create a Bitmap from this tile
Bitmap tile = Bitmap.createBitmap(TILE_SIZE.width, TILE_SIZE.height,
CairoUtils.cairoFormatTobitmapConfig(mFormat));
tile.copyPixelsFromBuffer(tileBuffer.asIntBuffer());
// Copy the tile to the master Bitmap and recycle it
c.drawBitmap(tile, x - mRenderOffset.x, y - mRenderOffset.y, null);
tile.recycle();
// Progress the buffer to the next tile
tileBuffer.position(TILE_SIZE.getArea() * bpp);
tileBuffer = tileBuffer.slice();
}
}
}
public Bitmap getBitmap() {
if (mTileLayer == null)
return null;
// Begin a tile transaction, otherwise the buffer can be destroyed while
// we're reading from it.
beginTransaction(mTileLayer);
try {
if (mBuffer == null || mBufferSize.width <= 0 || mBufferSize.height <= 0)
return null;
try {
Bitmap b = null;
if (mTileLayer instanceof MultiTileLayer) {
b = Bitmap.createBitmap(mBufferSize.width, mBufferSize.height,
CairoUtils.cairoFormatTobitmapConfig(mFormat));
copyPixelsFromMultiTileLayer(b);
} else {
Log.w(LOGTAG, "getBitmap() called on a layer (" + mTileLayer + ") we don't know how to get a bitmap from");
}
return b;
} catch (OutOfMemoryError oom) {
Log.w(LOGTAG, "Unable to create bitmap", oom);
return null;
}
} finally {
endTransaction(mTileLayer);
}
}
/** Returns the back buffer. This function is for Gecko to use. */
public ByteBuffer lockBuffer() {
return mBuffer;
}
public Point getRenderOffset() {
return mRenderOffset;
}
/**
* Gecko calls this function to signal that it is done with the back buffer. After this call,
* it is forbidden for Gecko to touch the buffer.
*/
public void unlockBuffer() {
/* no-op */
}
@Override
public void geometryChanged() {
/* Let Gecko know if the screensize has changed */
sendResizeEventIfNecessary();
render();
}
private void sendResizeEventIfNecessary() {
sendResizeEventIfNecessary(false);
}
/* Informs Gecko that the screen size has changed. */
private void sendResizeEventIfNecessary(boolean force) {
DisplayMetrics metrics = new DisplayMetrics();
GeckoApp.mAppContext.getWindowManager().getDefaultDisplay().getMetrics(metrics);
if (!force && metrics.widthPixels == mScreenSize.width &&
metrics.heightPixels == mScreenSize.height) {
return;
}
mScreenSize = new IntSize(metrics.widthPixels, metrics.heightPixels);
IntSize bufferSize;
IntSize tileSize;
// Round up depending on layer implementation to remove texture wastage
if (!mHasDirectTexture) {
// Round to the next multiple of the tile size
bufferSize = new IntSize(((mScreenSize.width + LayerController.MIN_BUFFER.width - 1) / TILE_SIZE.width + 1) * TILE_SIZE.width,
((mScreenSize.height + LayerController.MIN_BUFFER.height - 1) / TILE_SIZE.height + 1) * TILE_SIZE.height);
tileSize = TILE_SIZE;
} else {
int maxSize = getLayerController().getView().getMaxTextureSize();
// XXX Integrate gralloc/tiling work to circumvent this
if (mScreenSize.width > maxSize || mScreenSize.height > maxSize)
throw new RuntimeException("Screen size of " + mScreenSize + " larger than maximum texture size of " + maxSize);
// Round to next power of two until we have NPOT texture support, respecting maximum texture size
bufferSize = new IntSize(Math.min(maxSize, IntSize.nextPowerOfTwo(mScreenSize.width + LayerController.MIN_BUFFER.width)),
Math.min(maxSize, IntSize.nextPowerOfTwo(mScreenSize.height + LayerController.MIN_BUFFER.height)));
tileSize = new IntSize(0, 0);
}
Log.i(LOGTAG, "Screen-size changed to " + mScreenSize);
GeckoEvent event = new GeckoEvent(GeckoEvent.SIZE_CHANGED,
bufferSize.width, bufferSize.height,
metrics.widthPixels, metrics.heightPixels,
tileSize.width, tileSize.height);
GeckoAppShell.sendEventToGecko(event);
}
@Override
public void viewportSizeChanged() {
mViewportSizeChanged = true;
}
@Override
public void render() {
adjustViewportWithThrottling();
}
private void adjustViewportWithThrottling() {
if (!getLayerController().getRedrawHint())
return;
if (mPendingViewportAdjust)
return;
long timeDelta = System.currentTimeMillis() - mLastViewportChangeTime;
if (timeDelta < MIN_VIEWPORT_CHANGE_DELAY) {
getLayerController().getView().postDelayed(
new Runnable() {
public void run() {
mPendingViewportAdjust = false;
adjustViewport();
}
}, MIN_VIEWPORT_CHANGE_DELAY - timeDelta);
mPendingViewportAdjust = true;
return;
}
adjustViewport();
}
private void adjustViewport() {
ViewportMetrics viewportMetrics =
new ViewportMetrics(getLayerController().getViewportMetrics());
PointF viewportOffset = viewportMetrics.getOptimumViewportOffset(mBufferSize);
viewportMetrics.setViewportOffset(viewportOffset);
viewportMetrics.setViewport(viewportMetrics.getClampedViewport());
GeckoAppShell.sendEventToGecko(new GeckoEvent(viewportMetrics));
if (mViewportSizeChanged) {
mViewportSizeChanged = false;
GeckoAppShell.viewSizeChanged();
}
mLastViewportChangeTime = System.currentTimeMillis();
}
public void handleMessage(String event, JSONObject message) {
if ("Viewport:UpdateAndDraw".equals(event)) {
mUpdateViewportOnEndDraw = true;
// Redraw everything.
Rect rect = new Rect(0, 0, mBufferSize.width, mBufferSize.height);
GeckoAppShell.sendEventToGecko(new GeckoEvent(GeckoEvent.DRAW, rect));
} else if ("Viewport:UpdateLater".equals(event)) {
mUpdateViewportOnEndDraw = true;
} else if (("Document:Shown".equals(event) ||
"Tab:Selected".equals(event)) &&
(mTileLayer instanceof MultiTileLayer)) {
beginTransaction(mTileLayer);
try {
((MultiTileLayer)mTileLayer).invalidateTiles();
((MultiTileLayer)mTileLayer).invalidateBuffer();
} finally {
endTransaction(mTileLayer);
}
}
}
// Parses a color from an RGB triple of the form "rgb([0-9]+, [0-9]+, [0-9]+)". If the color
// cannot be parsed, returns white.
private static int parseColorFromGecko(String string) {
if (sColorPattern == null) {
sColorPattern = Pattern.compile("rgb\\((\\d+),\\s*(\\d+),\\s*(\\d+)\\)");
}
Matcher matcher = sColorPattern.matcher(string);
if (!matcher.matches()) {
return Color.WHITE;
}
int r = Integer.parseInt(matcher.group(1));
int g = Integer.parseInt(matcher.group(2));
int b = Integer.parseInt(matcher.group(3));
return Color.rgb(r, g, b);
}
}