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59c9b324f3
This patch has a bunch of semi-independent changes that unfortunately couldn't be split apart without introducing hacks to make stuff build on the intermediate patches. The main changes are: - Moving TouchEventHandler from LayerView to JavaPanZoomController - Registering the touch interceptor on the LayerView rather than the TouchEventHandler - Moving the Tab:HasTouchListener handler from GeckoApp to JPZC The net effect of all of this is that the TouchEventHandler is hidden behind the PanZoomController interface and not accessible to GeckoApp or GeckoAppShell. Additionally, some of the JPZC methods were renamed from onXXX to handleXXX to maintain the convention that onXXX methods are "interface" methods (i.e. exposed to arbitrary other code) whereas handleXXX methods are private/package and should only be called in very specific ways.
756 lines
33 KiB
Java
756 lines
33 KiB
Java
/* -*- Mode: Java; c-basic-offset: 4; tab-width: 20; indent-tabs-mode: nil; -*-
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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package org.mozilla.gecko.gfx;
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import org.mozilla.gecko.BrowserApp;
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import org.mozilla.gecko.GeckoAppShell;
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import org.mozilla.gecko.GeckoEvent;
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import org.mozilla.gecko.GeckoApp;
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import org.mozilla.gecko.Tab;
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import org.mozilla.gecko.Tabs;
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import org.mozilla.gecko.ZoomConstraints;
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import org.mozilla.gecko.util.EventDispatcher;
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import org.mozilla.gecko.util.FloatUtils;
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import android.content.Context;
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import android.graphics.PointF;
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import android.graphics.RectF;
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import android.os.SystemClock;
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import android.util.DisplayMetrics;
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import android.util.Log;
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public class GeckoLayerClient implements LayerView.Listener, PanZoomTarget
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{
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private static final String LOGTAG = "GeckoLayerClient";
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private LayerRenderer mLayerRenderer;
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private boolean mLayerRendererInitialized;
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private Context mContext;
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private IntSize mScreenSize;
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private IntSize mWindowSize;
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private DisplayPortMetrics mDisplayPort;
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private boolean mRecordDrawTimes;
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private final DrawTimingQueue mDrawTimingQueue;
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private VirtualLayer mRootLayer;
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/* The Gecko viewport as per the UI thread. Must be touched only on the UI thread.
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* If any events being sent to Gecko that are relative to the Gecko viewport position,
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* they must (a) be relative to this viewport, and (b) be sent on the UI thread to
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* avoid races. As long as these two conditions are satisfied, and the events being
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* sent to Gecko are processed in FIFO order, the events will properly be relative
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* to the Gecko viewport position. Note that if Gecko updates its viewport independently,
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* we get notified synchronously and also update this on the UI thread.
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*/
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private ImmutableViewportMetrics mGeckoViewport;
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/*
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* The viewport metrics being used to draw the current frame. This is only
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* accessed by the compositor thread, and so needs no synchronisation.
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*/
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private ImmutableViewportMetrics mFrameMetrics;
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/* Used by robocop for testing purposes */
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private DrawListener mDrawListener;
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/* Used as a temporary ViewTransform by syncViewportInfo */
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private final ViewTransform mCurrentViewTransform;
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/* Used as the return value of progressiveUpdateCallback */
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private final ProgressiveUpdateData mProgressiveUpdateData;
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private DisplayPortMetrics mProgressiveUpdateDisplayPort;
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private boolean mLastProgressiveUpdateWasLowPrecision;
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private boolean mProgressiveUpdateWasInDanger;
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/* This is written by the compositor thread and read by the UI thread. */
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private volatile boolean mCompositorCreated;
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private boolean mForceRedraw;
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/* The current viewport metrics.
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* This is volatile so that we can read and write to it from different threads.
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* We avoid synchronization to make getting the viewport metrics from
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* the compositor as cheap as possible. The viewport is immutable so
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* we don't need to worry about anyone mutating it while we're reading from it.
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* Specifically:
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* 1) reading mViewportMetrics from any thread is fine without synchronization
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* 2) writing to mViewportMetrics requires synchronizing on the layer controller object
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* 3) whenver reading multiple fields from mViewportMetrics without synchronization (i.e. in
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* case 1 above) you should always frist grab a local copy of the reference, and then use
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* that because mViewportMetrics might get reassigned in between reading the different
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* fields. */
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private volatile ImmutableViewportMetrics mViewportMetrics;
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private ZoomConstraints mZoomConstraints;
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private boolean mGeckoIsReady;
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private final PanZoomController mPanZoomController;
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private LayerView mView;
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public GeckoLayerClient(Context context, LayerView view, EventDispatcher eventDispatcher) {
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// we can fill these in with dummy values because they are always written
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// to before being read
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mContext = context;
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mScreenSize = new IntSize(0, 0);
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mWindowSize = new IntSize(0, 0);
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mDisplayPort = new DisplayPortMetrics();
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mRecordDrawTimes = true;
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mDrawTimingQueue = new DrawTimingQueue();
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mCurrentViewTransform = new ViewTransform(0, 0, 1);
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mProgressiveUpdateData = new ProgressiveUpdateData();
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mProgressiveUpdateDisplayPort = new DisplayPortMetrics();
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mLastProgressiveUpdateWasLowPrecision = false;
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mProgressiveUpdateWasInDanger = false;
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mCompositorCreated = false;
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mForceRedraw = true;
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DisplayMetrics displayMetrics = context.getResources().getDisplayMetrics();
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mViewportMetrics = new ImmutableViewportMetrics(displayMetrics);
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mZoomConstraints = new ZoomConstraints(false);
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mPanZoomController = PanZoomController.Factory.create(this, view, eventDispatcher);
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mView = view;
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mView.setListener(this);
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}
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/** Attaches to root layer so that Gecko appears. */
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public void notifyGeckoReady() {
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mGeckoIsReady = true;
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mRootLayer = new VirtualLayer(new IntSize(mView.getWidth(), mView.getHeight()));
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mLayerRenderer = mView.getRenderer();
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sendResizeEventIfNecessary(true);
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DisplayPortCalculator.initPrefs();
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}
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public void destroy() {
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mPanZoomController.destroy();
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}
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/**
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* Returns true if this client is fine with performing a redraw operation or false if it
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* would prefer that the action didn't take place.
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*/
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private boolean getRedrawHint() {
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if (mForceRedraw) {
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mForceRedraw = false;
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return true;
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}
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if (!mPanZoomController.getRedrawHint()) {
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return false;
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}
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return DisplayPortCalculator.aboutToCheckerboard(mViewportMetrics,
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mPanZoomController.getVelocityVector(), mDisplayPort);
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}
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Layer getRoot() {
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return mGeckoIsReady ? mRootLayer : null;
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}
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public LayerView getView() {
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return mView;
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}
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public FloatSize getViewportSize() {
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return mViewportMetrics.getSize();
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}
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/**
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* The view calls this function to indicate that the viewport changed size. It must hold the
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* monitor while calling it.
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*
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* TODO: Refactor this to use an interface. Expose that interface only to the view and not
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* to the layer client. That way, the layer client won't be tempted to call this, which might
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* result in an infinite loop.
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*/
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void setViewportSize(int width, int height) {
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mViewportMetrics = mViewportMetrics.setViewportSize(width, height);
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if (mGeckoIsReady) {
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// here we send gecko a resize message. The code in browser.js is responsible for
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// picking up on that resize event, modifying the viewport as necessary, and informing
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// us of the new viewport.
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sendResizeEventIfNecessary(true);
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// the following call also sends gecko a message, which will be processed after the resize
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// message above has updated the viewport. this message ensures that if we have just put
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// focus in a text field, we scroll the content so that the text field is in view.
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GeckoAppShell.viewSizeChanged();
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}
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}
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PanZoomController getPanZoomController() {
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return mPanZoomController;
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}
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/* Informs Gecko that the screen size has changed. */
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private void sendResizeEventIfNecessary(boolean force) {
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DisplayMetrics metrics = mContext.getResources().getDisplayMetrics();
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IntSize newScreenSize = new IntSize(metrics.widthPixels, metrics.heightPixels);
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IntSize newWindowSize = new IntSize(mView.getWidth(), mView.getHeight());
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boolean screenSizeChanged = !mScreenSize.equals(newScreenSize);
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boolean windowSizeChanged = !mWindowSize.equals(newWindowSize);
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if (!force && !screenSizeChanged && !windowSizeChanged) {
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return;
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}
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mScreenSize = newScreenSize;
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mWindowSize = newWindowSize;
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if (screenSizeChanged) {
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Log.d(LOGTAG, "Screen-size changed to " + mScreenSize);
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}
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if (windowSizeChanged) {
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Log.d(LOGTAG, "Window-size changed to " + mWindowSize);
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}
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GeckoEvent event = GeckoEvent.createSizeChangedEvent(mWindowSize.width, mWindowSize.height,
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mScreenSize.width, mScreenSize.height);
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GeckoAppShell.sendEventToGecko(event);
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GeckoAppShell.sendEventToGecko(GeckoEvent.createBroadcastEvent("Window:Resize", ""));
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}
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/** Sets the current page rect. You must hold the monitor while calling this. */
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private void setPageRect(RectF rect, RectF cssRect) {
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// Since the "rect" is always just a multiple of "cssRect" we don't need to
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// check both; this function assumes that both "rect" and "cssRect" are relative
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// the zoom factor in mViewportMetrics.
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if (mViewportMetrics.getCssPageRect().equals(cssRect))
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return;
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mViewportMetrics = mViewportMetrics.setPageRect(rect, cssRect);
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// Page size is owned by the layer client, so no need to notify it of
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// this change.
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post(new Runnable() {
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public void run() {
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mPanZoomController.pageRectUpdated();
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mView.requestRender();
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}
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});
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}
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private void adjustViewport(DisplayPortMetrics displayPort) {
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ImmutableViewportMetrics metrics = getViewportMetrics();
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ImmutableViewportMetrics clampedMetrics = metrics.clamp();
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if (displayPort == null) {
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displayPort = DisplayPortCalculator.calculate(metrics, mPanZoomController.getVelocityVector());
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}
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mDisplayPort = displayPort;
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mGeckoViewport = clampedMetrics;
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if (mRecordDrawTimes) {
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mDrawTimingQueue.add(displayPort);
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}
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GeckoAppShell.sendEventToGecko(GeckoEvent.createViewportEvent(clampedMetrics, displayPort));
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}
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/** Aborts any pan/zoom animation that is currently in progress. */
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private void abortPanZoomAnimation() {
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if (mPanZoomController != null) {
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post(new Runnable() {
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public void run() {
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mPanZoomController.abortAnimation();
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}
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});
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}
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}
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/**
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* The different types of Viewport messages handled. All viewport events
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* expect a display-port to be returned, but can handle one not being
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* returned.
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*/
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private enum ViewportMessageType {
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UPDATE, // The viewport has changed and should be entirely updated
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PAGE_SIZE // The viewport's page-size has changed
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}
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/** Viewport message handler. */
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private DisplayPortMetrics handleViewportMessage(ImmutableViewportMetrics messageMetrics, ViewportMessageType type) {
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synchronized (this) {
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ImmutableViewportMetrics metrics;
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ImmutableViewportMetrics oldMetrics = getViewportMetrics();
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switch (type) {
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default:
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case UPDATE:
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// Keep the old viewport size
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metrics = messageMetrics.setViewportSize(oldMetrics.getWidth(), oldMetrics.getHeight());
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if (!oldMetrics.fuzzyEquals(metrics)) {
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abortPanZoomAnimation();
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}
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break;
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case PAGE_SIZE:
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// adjust the page dimensions to account for differences in zoom
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// between the rendered content (which is what Gecko tells us)
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// and our zoom level (which may have diverged).
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float scaleFactor = oldMetrics.zoomFactor / messageMetrics.zoomFactor;
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metrics = oldMetrics.setPageRect(RectUtils.scale(messageMetrics.getPageRect(), scaleFactor), messageMetrics.getCssPageRect());
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break;
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}
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final ImmutableViewportMetrics newMetrics = metrics;
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post(new Runnable() {
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public void run() {
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mGeckoViewport = newMetrics;
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}
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});
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setViewportMetrics(newMetrics, type == ViewportMessageType.UPDATE);
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mDisplayPort = DisplayPortCalculator.calculate(getViewportMetrics(), null);
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}
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return mDisplayPort;
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}
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public DisplayPortMetrics getDisplayPort(boolean pageSizeUpdate, boolean isBrowserContentDisplayed, int tabId, ImmutableViewportMetrics metrics) {
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Tabs tabs = Tabs.getInstance();
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if (tabs.isSelectedTab(tabs.getTab(tabId)) && isBrowserContentDisplayed) {
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// for foreground tabs, send the viewport update unless the document
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// displayed is different from the content document. In that case, just
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// calculate the display port.
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return handleViewportMessage(metrics, pageSizeUpdate ? ViewportMessageType.PAGE_SIZE : ViewportMessageType.UPDATE);
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} else {
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// for background tabs, request a new display port calculation, so that
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// when we do switch to that tab, we have the correct display port and
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// don't need to draw twice (once to allow the first-paint viewport to
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// get to java, and again once java figures out the display port).
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return DisplayPortCalculator.calculate(metrics, null);
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}
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}
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// This is called on the Gecko thread to determine if we're still interested
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// in the update of this display-port to continue. We can return true here
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// to abort the current update and continue with any subsequent ones. This
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// is useful for slow-to-render pages when the display-port starts lagging
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// behind enough that continuing to draw it is wasted effort.
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public ProgressiveUpdateData progressiveUpdateCallback(boolean aHasPendingNewThebesContent,
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float x, float y, float width, float height,
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float resolution, boolean lowPrecision) {
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// Skip all low precision draws until we're at risk of checkerboarding
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if (lowPrecision && !mProgressiveUpdateWasInDanger) {
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mProgressiveUpdateData.abort = true;
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return mProgressiveUpdateData;
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}
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// Reset the checkerboard risk flag
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if (!lowPrecision && mLastProgressiveUpdateWasLowPrecision) {
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mProgressiveUpdateWasInDanger = false;
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}
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mLastProgressiveUpdateWasLowPrecision = lowPrecision;
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// Grab a local copy of the last display-port sent to Gecko and the
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// current viewport metrics to avoid races when accessing them.
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DisplayPortMetrics displayPort = mDisplayPort;
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ImmutableViewportMetrics viewportMetrics = mViewportMetrics;
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mProgressiveUpdateData.setViewport(viewportMetrics);
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mProgressiveUpdateData.abort = false;
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// Always abort updates if the resolution has changed. There's no use
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// in drawing at the incorrect resolution.
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if (!FloatUtils.fuzzyEquals(resolution, viewportMetrics.zoomFactor)) {
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Log.d(LOGTAG, "Aborting draw due to resolution change");
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mProgressiveUpdateData.abort = true;
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return mProgressiveUpdateData;
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}
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// Store the high precision displayport for comparison when doing low
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// precision updates.
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if (!lowPrecision) {
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if (!FloatUtils.fuzzyEquals(resolution, mProgressiveUpdateDisplayPort.resolution) ||
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!FloatUtils.fuzzyEquals(x, mProgressiveUpdateDisplayPort.getLeft()) ||
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!FloatUtils.fuzzyEquals(y, mProgressiveUpdateDisplayPort.getTop()) ||
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!FloatUtils.fuzzyEquals(x + width, mProgressiveUpdateDisplayPort.getRight()) ||
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!FloatUtils.fuzzyEquals(y + height, mProgressiveUpdateDisplayPort.getBottom())) {
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mProgressiveUpdateDisplayPort =
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new DisplayPortMetrics(x, y, x+width, y+height, resolution);
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}
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}
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// XXX All sorts of rounding happens inside Gecko that becomes hard to
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// account exactly for. Given we align the display-port to tile
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// boundaries (and so they rarely vary by sub-pixel amounts), just
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// check that values are within a couple of pixels of the
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// display-port bounds.
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// Never abort drawing if we can't be sure we've sent a more recent
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// display-port. If we abort updating when we shouldn't, we can end up
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// with blank regions on the screen and we open up the risk of entering
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// an endless updating cycle.
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if (Math.abs(displayPort.getLeft() - mProgressiveUpdateDisplayPort.getLeft()) <= 2 &&
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Math.abs(displayPort.getTop() - mProgressiveUpdateDisplayPort.getTop()) <= 2 &&
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Math.abs(displayPort.getBottom() - mProgressiveUpdateDisplayPort.getBottom()) <= 2 &&
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Math.abs(displayPort.getRight() - mProgressiveUpdateDisplayPort.getRight()) <= 2) {
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return mProgressiveUpdateData;
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}
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if (!lowPrecision && !mProgressiveUpdateWasInDanger) {
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// If we're not doing low precision draws and we're about to
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// checkerboard, give up and move onto low precision drawing.
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if (DisplayPortCalculator.aboutToCheckerboard(viewportMetrics,
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mPanZoomController.getVelocityVector(), mProgressiveUpdateDisplayPort)) {
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mProgressiveUpdateWasInDanger = true;
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}
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}
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// Abort updates when the display-port no longer contains the visible
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// area of the page (that is, the viewport cropped by the page
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// boundaries).
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// XXX This makes the assumption that we never let the visible area of
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// the page fall outside of the display-port.
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if (Math.max(viewportMetrics.viewportRectLeft, viewportMetrics.pageRectLeft) + 1 < x ||
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Math.max(viewportMetrics.viewportRectTop, viewportMetrics.pageRectTop) + 1 < y ||
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Math.min(viewportMetrics.viewportRectRight, viewportMetrics.pageRectRight) - 1 > x + width ||
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Math.min(viewportMetrics.viewportRectBottom, viewportMetrics.pageRectBottom) - 1 > y + height) {
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Log.d(LOGTAG, "Aborting update due to viewport not in display-port");
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mProgressiveUpdateData.abort = true;
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return mProgressiveUpdateData;
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}
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// Abort drawing stale low-precision content if there's a more recent
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// display-port in the pipeline.
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if (lowPrecision && !aHasPendingNewThebesContent) {
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mProgressiveUpdateData.abort = true;
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}
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return mProgressiveUpdateData;
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}
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void setZoomConstraints(ZoomConstraints constraints) {
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mZoomConstraints = constraints;
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}
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/** This function is invoked by Gecko via JNI; be careful when modifying signature.
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* The compositor invokes this function just before compositing a frame where the document
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* is different from the document composited on the last frame. In these cases, the viewport
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* information we have in Java is no longer valid and needs to be replaced with the new
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* viewport information provided. setPageRect will never be invoked on the same frame that
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* this function is invoked on; and this function will always be called prior to syncViewportInfo.
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*/
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public void setFirstPaintViewport(float offsetX, float offsetY, float zoom,
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float pageLeft, float pageTop, float pageRight, float pageBottom,
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float cssPageLeft, float cssPageTop, float cssPageRight, float cssPageBottom) {
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synchronized (this) {
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final ImmutableViewportMetrics newMetrics = getViewportMetrics()
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.setViewportOrigin(offsetX, offsetY)
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.setZoomFactor(zoom)
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.setPageRect(new RectF(pageLeft, pageTop, pageRight, pageBottom),
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new RectF(cssPageLeft, cssPageTop, cssPageRight, cssPageBottom));
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// Since we have switched to displaying a different document, we need to update any
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// viewport-related state we have lying around. This includes mGeckoViewport and
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// mViewportMetrics. Usually this information is updated via handleViewportMessage
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// while we remain on the same document.
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post(new Runnable() {
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public void run() {
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mGeckoViewport = newMetrics;
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}
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});
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setViewportMetrics(newMetrics);
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Tab tab = Tabs.getInstance().getSelectedTab();
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mView.setBackgroundColor(tab.getBackgroundColor());
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setZoomConstraints(tab.getZoomConstraints());
|
|
|
|
// At this point, we have just switched to displaying a different document than we
|
|
// we previously displaying. This means we need to abort any panning/zooming animations
|
|
// that are in progress and send an updated display port request to browser.js as soon
|
|
// as possible. The call to PanZoomController.abortAnimation accomplishes this by calling the
|
|
// forceRedraw function, which sends the viewport to gecko. The display port request is
|
|
// actually a full viewport update, which is fine because if browser.js has somehow moved to
|
|
// be out of sync with this first-paint viewport, then we force them back in sync.
|
|
abortPanZoomAnimation();
|
|
|
|
// Indicate that the document is about to be composited so the
|
|
// LayerView background can be removed.
|
|
if (mView.getPaintState() == LayerView.PAINT_START) {
|
|
mView.setPaintState(LayerView.PAINT_BEFORE_FIRST);
|
|
}
|
|
}
|
|
DisplayPortCalculator.resetPageState();
|
|
mDrawTimingQueue.reset();
|
|
}
|
|
|
|
/** This function is invoked by Gecko via JNI; be careful when modifying signature.
|
|
* The compositor invokes this function whenever it determines that the page rect
|
|
* has changed (based on the information it gets from layout). If setFirstPaintViewport
|
|
* is invoked on a frame, then this function will not be. For any given frame, this
|
|
* function will be invoked before syncViewportInfo.
|
|
*/
|
|
public void setPageRect(float cssPageLeft, float cssPageTop, float cssPageRight, float cssPageBottom) {
|
|
synchronized (this) {
|
|
RectF cssPageRect = new RectF(cssPageLeft, cssPageTop, cssPageRight, cssPageBottom);
|
|
float ourZoom = getViewportMetrics().zoomFactor;
|
|
setPageRect(RectUtils.scale(cssPageRect, ourZoom), cssPageRect);
|
|
// Here the page size of the document has changed, but the document being displayed
|
|
// is still the same. Therefore, we don't need to send anything to browser.js; any
|
|
// changes we need to make to the display port will get sent the next time we call
|
|
// adjustViewport().
|
|
}
|
|
}
|
|
|
|
/** This function is invoked by Gecko via JNI; be careful when modifying signature.
|
|
* The compositor invokes this function on every frame to figure out what part of the
|
|
* page to display, and to inform Java of the current display port. Since it is called
|
|
* on every frame, it needs to be ultra-fast.
|
|
* It avoids taking any locks or allocating any objects. We keep around a
|
|
* mCurrentViewTransform so we don't need to allocate a new ViewTransform
|
|
* everytime we're called. NOTE: we might be able to return a ImmutableViewportMetrics
|
|
* which would avoid the copy into mCurrentViewTransform.
|
|
*/
|
|
public ViewTransform syncViewportInfo(int x, int y, int width, int height, float resolution, boolean layersUpdated) {
|
|
// getViewportMetrics is thread safe so we don't need to synchronize.
|
|
// We save the viewport metrics here, so we later use it later in
|
|
// createFrame (which will be called by nsWindow::DrawWindowUnderlay on
|
|
// the native side, by the compositor). The viewport
|
|
// metrics can change between here and there, as it's accessed outside
|
|
// of the compositor thread.
|
|
mFrameMetrics = getViewportMetrics();
|
|
|
|
mCurrentViewTransform.x = mFrameMetrics.viewportRectLeft;
|
|
mCurrentViewTransform.y = mFrameMetrics.viewportRectTop;
|
|
mCurrentViewTransform.scale = mFrameMetrics.zoomFactor;
|
|
|
|
mRootLayer.setPositionAndResolution(x, y, x + width, y + height, resolution);
|
|
|
|
if (layersUpdated && mRecordDrawTimes) {
|
|
// If we got a layers update, that means a draw finished. Check to see if the area drawn matches
|
|
// one of our requested displayports; if it does calculate the draw time and notify the
|
|
// DisplayPortCalculator
|
|
DisplayPortMetrics drawn = new DisplayPortMetrics(x, y, x + width, y + height, resolution);
|
|
long time = mDrawTimingQueue.findTimeFor(drawn);
|
|
if (time >= 0) {
|
|
long now = SystemClock.uptimeMillis();
|
|
time = now - time;
|
|
mRecordDrawTimes = DisplayPortCalculator.drawTimeUpdate(time, width * height);
|
|
}
|
|
}
|
|
|
|
if (layersUpdated && mDrawListener != null) {
|
|
/* Used by robocop for testing purposes */
|
|
mDrawListener.drawFinished();
|
|
}
|
|
|
|
return mCurrentViewTransform;
|
|
}
|
|
|
|
/** This function is invoked by Gecko via JNI; be careful when modifying signature. */
|
|
public LayerRenderer.Frame createFrame() {
|
|
// Create the shaders and textures if necessary.
|
|
if (!mLayerRendererInitialized) {
|
|
mLayerRenderer.checkMonitoringEnabled();
|
|
mLayerRenderer.createDefaultProgram();
|
|
mLayerRendererInitialized = true;
|
|
}
|
|
|
|
return mLayerRenderer.createFrame(mFrameMetrics);
|
|
}
|
|
|
|
/** This function is invoked by Gecko via JNI; be careful when modifying signature. */
|
|
public void activateProgram() {
|
|
mLayerRenderer.activateDefaultProgram();
|
|
}
|
|
|
|
/** This function is invoked by Gecko via JNI; be careful when modifying signature. */
|
|
public void deactivateProgram() {
|
|
mLayerRenderer.deactivateDefaultProgram();
|
|
}
|
|
|
|
private void geometryChanged() {
|
|
/* Let Gecko know if the screensize has changed */
|
|
sendResizeEventIfNecessary(false);
|
|
if (getRedrawHint()) {
|
|
adjustViewport(null);
|
|
}
|
|
}
|
|
|
|
/** Implementation of LayerView.Listener */
|
|
public void renderRequested() {
|
|
try {
|
|
GeckoAppShell.scheduleComposite();
|
|
} catch (UnsupportedOperationException uoe) {
|
|
// In some very rare cases this gets called before libxul is loaded,
|
|
// so catch and ignore the exception that will throw. See bug 837821
|
|
Log.d(LOGTAG, "Dropping renderRequested call before libxul load.");
|
|
}
|
|
}
|
|
|
|
/** Implementation of LayerView.Listener */
|
|
public void compositionPauseRequested() {
|
|
// We need to coordinate with Gecko when pausing composition, to ensure
|
|
// that Gecko never executes a draw event while the compositor is paused.
|
|
// This is sent synchronously to make sure that we don't attempt to use
|
|
// any outstanding Surfaces after we call this (such as from a
|
|
// surfaceDestroyed notification), and to make sure that any in-flight
|
|
// Gecko draw events have been processed. When this returns, composition is
|
|
// definitely paused -- it'll synchronize with the Gecko event loop, which
|
|
// in turn will synchronize with the compositor thread.
|
|
if (mCompositorCreated) {
|
|
GeckoAppShell.sendEventToGeckoSync(GeckoEvent.createCompositorPauseEvent());
|
|
}
|
|
}
|
|
|
|
/** Implementation of LayerView.Listener */
|
|
public void compositionResumeRequested(int width, int height) {
|
|
// Asking Gecko to resume the compositor takes too long (see
|
|
// https://bugzilla.mozilla.org/show_bug.cgi?id=735230#c23), so we
|
|
// resume the compositor directly. We still need to inform Gecko about
|
|
// the compositor resuming, so that Gecko knows that it can now draw.
|
|
if (mCompositorCreated) {
|
|
GeckoAppShell.scheduleResumeComposition(width, height);
|
|
GeckoAppShell.sendEventToGecko(GeckoEvent.createCompositorResumeEvent());
|
|
}
|
|
}
|
|
|
|
/** Implementation of LayerView.Listener */
|
|
public void sizeChanged(int width, int height) {
|
|
// We need to make sure a draw happens synchronously at this point,
|
|
// but resizing the surface before the SurfaceView has resized will
|
|
// cause a visible jump.
|
|
compositionResumeRequested(mWindowSize.width, mWindowSize.height);
|
|
}
|
|
|
|
/** Implementation of LayerView.Listener */
|
|
public void surfaceChanged(int width, int height) {
|
|
setViewportSize(width, height);
|
|
|
|
// We need to make this call even when the compositor isn't currently
|
|
// paused (e.g. during an orientation change), to make the compositor
|
|
// aware of the changed surface.
|
|
compositionResumeRequested(width, height);
|
|
}
|
|
|
|
/** Implementation of LayerView.Listener */
|
|
public void compositorCreated() {
|
|
mCompositorCreated = true;
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public ImmutableViewportMetrics getViewportMetrics() {
|
|
return mViewportMetrics;
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public ZoomConstraints getZoomConstraints() {
|
|
return mZoomConstraints;
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public boolean isFullScreen() {
|
|
return mView.isFullScreen();
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public void setAnimationTarget(ImmutableViewportMetrics metrics) {
|
|
if (mGeckoIsReady) {
|
|
// We know what the final viewport of the animation is going to be, so
|
|
// immediately request a draw of that area by setting the display port
|
|
// accordingly. This way we should have the content pre-rendered by the
|
|
// time the animation is done.
|
|
DisplayPortMetrics displayPort = DisplayPortCalculator.calculate(metrics, null);
|
|
adjustViewport(displayPort);
|
|
}
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget
|
|
* You must hold the monitor while calling this.
|
|
*/
|
|
public void setViewportMetrics(ImmutableViewportMetrics metrics) {
|
|
setViewportMetrics(metrics, true);
|
|
}
|
|
|
|
private void setViewportMetrics(ImmutableViewportMetrics metrics, boolean notifyGecko) {
|
|
mViewportMetrics = metrics;
|
|
mView.requestRender();
|
|
if (notifyGecko && mGeckoIsReady) {
|
|
geometryChanged();
|
|
}
|
|
setShadowVisibility();
|
|
}
|
|
|
|
private void setShadowVisibility() {
|
|
GeckoApp.mAppContext.mMainHandler.post(new Runnable() {
|
|
public void run() {
|
|
if (BrowserApp.mBrowserToolbar == null) {
|
|
return;
|
|
}
|
|
ImmutableViewportMetrics m = mViewportMetrics;
|
|
BrowserApp.mBrowserToolbar.setShadowVisibility(m.viewportRectTop >= m.pageRectTop);
|
|
}
|
|
});
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public void forceRedraw() {
|
|
mForceRedraw = true;
|
|
if (mGeckoIsReady) {
|
|
geometryChanged();
|
|
}
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public boolean post(Runnable action) {
|
|
return mView.post(action);
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget */
|
|
public Object getLock() {
|
|
return this;
|
|
}
|
|
|
|
/** Implementation of PanZoomTarget
|
|
* Converts a point from layer view coordinates to layer coordinates. In other words, given a
|
|
* point measured in pixels from the top left corner of the layer view, returns the point in
|
|
* pixels measured from the last scroll position we sent to Gecko, in CSS pixels. Assuming the
|
|
* events being sent to Gecko are processed in FIFO order, this calculation should always be
|
|
* correct.
|
|
*/
|
|
public PointF convertViewPointToLayerPoint(PointF viewPoint) {
|
|
if (!mGeckoIsReady) {
|
|
return null;
|
|
}
|
|
|
|
ImmutableViewportMetrics viewportMetrics = mViewportMetrics;
|
|
PointF origin = viewportMetrics.getOrigin();
|
|
float zoom = viewportMetrics.zoomFactor;
|
|
ImmutableViewportMetrics geckoViewport = mGeckoViewport;
|
|
PointF geckoOrigin = geckoViewport.getOrigin();
|
|
float geckoZoom = geckoViewport.zoomFactor;
|
|
|
|
// viewPoint + origin gives the coordinate in device pixels from the top-left corner of the page.
|
|
// Divided by zoom, this gives us the coordinate in CSS pixels from the top-left corner of the page.
|
|
// geckoOrigin / geckoZoom is where Gecko thinks it is (scrollTo position) in CSS pixels from
|
|
// the top-left corner of the page. Subtracting the two gives us the offset of the viewPoint from
|
|
// the current Gecko coordinate in CSS pixels.
|
|
PointF layerPoint = new PointF(
|
|
((viewPoint.x + origin.x) / zoom) - (geckoOrigin.x / geckoZoom),
|
|
((viewPoint.y + origin.y) / zoom) - (geckoOrigin.y / geckoZoom));
|
|
|
|
return layerPoint;
|
|
}
|
|
|
|
/** Used by robocop for testing purposes. Not for production use! */
|
|
public void setDrawListener(DrawListener listener) {
|
|
mDrawListener = listener;
|
|
}
|
|
|
|
/** Used by robocop for testing purposes. Not for production use! */
|
|
public static interface DrawListener {
|
|
public void drawFinished();
|
|
}
|
|
}
|