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

/* -*- Mode: Java; c-basic-offset: 4; tab-width: 20; indent-tabs-mode: nil; -*-
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

package org.mozilla.gecko.gfx;

import org.mozilla.gecko.GeckoAppShell;
import org.mozilla.gecko.GeckoEvent;
import org.mozilla.gecko.ScreenshotHandler;
import org.mozilla.gecko.Tab;
import org.mozilla.gecko.Tabs;
import org.mozilla.gecko.ZoomConstraints;
import org.mozilla.gecko.ui.PanZoomController;
import org.mozilla.gecko.ui.PanZoomTarget;
import org.mozilla.gecko.util.EventDispatcher;
import org.mozilla.gecko.util.FloatUtils;
import org.mozilla.gecko.util.GeckoEventResponder;

import org.json.JSONException;
import org.json.JSONObject;

import android.content.Context;
import android.graphics.PointF;
import android.graphics.RectF;
import android.os.SystemClock;
import android.util.DisplayMetrics;
import android.util.Log;

import java.util.HashMap;
import java.util.Map;

public class GeckoLayerClient
        implements GeckoEventResponder, LayerView.Listener, PanZoomTarget
{
    private static final String LOGTAG = "GeckoLayerClient";

    private LayerRenderer mLayerRenderer;
    private boolean mLayerRendererInitialized;

    private final EventDispatcher mEventDispatcher;
    private Context mContext;
    private IntSize mScreenSize;
    private IntSize mWindowSize;
    private DisplayPortMetrics mDisplayPort;
    private DisplayPortMetrics mReturnDisplayPort;

    private boolean mRecordDrawTimes;
    private final DrawTimingQueue mDrawTimingQueue;

    private VirtualLayer mRootLayer;

    /* The Gecko viewport as per the UI thread. Must be touched only on the UI thread.
     * If any events being sent to Gecko that are relative to the Gecko viewport position,
     * they must (a) be relative to this viewport, and (b) be sent on the UI thread to
     * avoid races. As long as these two conditions are satisfied, and the events being
     * sent to Gecko are processed in FIFO order, the events will properly be relative
     * to the Gecko viewport position. Note that if Gecko updates its viewport independently,
     * we get notified synchronously and also update this on the UI thread.
     */
    private ViewportMetrics mGeckoViewport;

    /*
     * The viewport metrics being used to draw the current frame. This is only
     * accessed by the compositor thread, and so needs no synchronisation.
     */
    private ImmutableViewportMetrics mFrameMetrics;

    /* Used by robocop for testing purposes */
    private DrawListener mDrawListener;

    /* Used as a temporary ViewTransform by syncViewportInfo */
    private final ViewTransform mCurrentViewTransform;

    /* Used as the return value of progressiveUpdateCallback */
    private final ProgressiveUpdateData mProgressiveUpdateData;

    /* This is written by the compositor thread and read by the UI thread. */
    private volatile boolean mCompositorCreated;

    private boolean mForceRedraw;

    /* The current viewport metrics.
     * This is volatile so that we can read and write to it from different threads.
     * We avoid synchronization to make getting the viewport metrics from
     * the compositor as cheap as possible. The viewport is immutable so
     * we don't need to worry about anyone mutating it while we're reading from it.
     * Specifically:
     * 1) reading mViewportMetrics from any thread is fine without synchronization
     * 2) writing to mViewportMetrics requires synchronizing on the layer controller object
     * 3) whenver reading multiple fields from mViewportMetrics without synchronization (i.e. in
     *    case 1 above) you should always frist grab a local copy of the reference, and then use
     *    that because mViewportMetrics might get reassigned in between reading the different
     *    fields. */
    private volatile ImmutableViewportMetrics mViewportMetrics;

    private ZoomConstraints mZoomConstraints;

    private boolean mGeckoIsReady;

    private final PanZoomController mPanZoomController;
    private LayerView mView;

    public GeckoLayerClient(Context context, LayerView view, EventDispatcher eventDispatcher) {
        // we can fill these in with dummy values because they are always written
        // to before being read
        mEventDispatcher = eventDispatcher;
        mContext = context;
        mScreenSize = new IntSize(0, 0);
        mWindowSize = new IntSize(0, 0);
        mDisplayPort = new DisplayPortMetrics();
        mRecordDrawTimes = true;
        mDrawTimingQueue = new DrawTimingQueue();
        mCurrentViewTransform = new ViewTransform(0, 0, 1);
        mProgressiveUpdateData = new ProgressiveUpdateData();
        mCompositorCreated = false;

        mForceRedraw = true;
        DisplayMetrics displayMetrics = context.getResources().getDisplayMetrics();
        mViewportMetrics = new ImmutableViewportMetrics(new ViewportMetrics(displayMetrics));
        mZoomConstraints = new ZoomConstraints(false);

        mPanZoomController = new PanZoomController(this, mEventDispatcher);
        mView = view;
    }

    /** Attaches to root layer so that Gecko appears. */
    public void notifyGeckoReady() {
        mGeckoIsReady = true;

        mRootLayer = new VirtualLayer(new IntSize(mView.getWidth(), mView.getHeight()));
        mLayerRenderer = mView.getRenderer();

        registerEventListener("Checkerboard:Toggle");

        mView.setListener(this);
        sendResizeEventIfNecessary(true);

        DisplayPortCalculator.initPrefs();
        PluginLayer.initPrefs();
    }

    public void destroy() {
        mPanZoomController.destroy();
        unregisterEventListener("Checkerboard:Toggle");
    }

    private void registerEventListener(String event) {
        mEventDispatcher.registerEventListener(event, this);
    }

    private void unregisterEventListener(String event) {
        mEventDispatcher.unregisterEventListener(event, this);
    }

    /**
     * Returns true if this client is fine with performing a redraw operation or false if it
     * would prefer that the action didn't take place.
     */
    private boolean getRedrawHint() {
        if (mForceRedraw) {
            mForceRedraw = false;
            return true;
        }

        if (!mPanZoomController.getRedrawHint()) {
            return false;
        }

        return DisplayPortCalculator.aboutToCheckerboard(mViewportMetrics,
                mPanZoomController.getVelocityVector(), mDisplayPort);
    }

    Layer getRoot() {
        return mGeckoIsReady ? mRootLayer : null;
    }

    public LayerView getView() {
        return mView;
    }

    public FloatSize getViewportSize() {
        return mViewportMetrics.getSize();
    }

    /**
     * The view calls this function to indicate that the viewport changed size. It must hold the
     * monitor while calling it.
     *
     * TODO: Refactor this to use an interface. Expose that interface only to the view and not
     * to the layer client. That way, the layer client won't be tempted to call this, which might
     * result in an infinite loop.
     */
    void setViewportSize(FloatSize size) {
        ViewportMetrics viewportMetrics = new ViewportMetrics(mViewportMetrics);
        viewportMetrics.setSize(size);
        mViewportMetrics = new ImmutableViewportMetrics(viewportMetrics);

        if (mGeckoIsReady) {
            // here we send gecko a resize message. The code in browser.js is responsible for
            // picking up on that resize event, modifying the viewport as necessary, and informing
            // us of the new viewport.
            sendResizeEventIfNecessary(true);
            // the following call also sends gecko a message, which will be processed after the resize
            // message above has updated the viewport. this message ensures that if we have just put
            // focus in a text field, we scroll the content so that the text field is in view.
            GeckoAppShell.viewSizeChanged();
        }
    }

    PanZoomController getPanZoomController() {
        return mPanZoomController;
    }

    /* Informs Gecko that the screen size has changed. */
    private void sendResizeEventIfNecessary(boolean force) {
        DisplayMetrics metrics = mContext.getResources().getDisplayMetrics();

        IntSize newScreenSize = new IntSize(metrics.widthPixels, metrics.heightPixels);
        IntSize newWindowSize = new IntSize(mView.getWidth(), mView.getHeight());

        boolean screenSizeChanged = !mScreenSize.equals(newScreenSize);
        boolean windowSizeChanged = !mWindowSize.equals(newWindowSize);

        if (!force && !screenSizeChanged && !windowSizeChanged) {
            return;
        }

        mScreenSize = newScreenSize;
        mWindowSize = newWindowSize;

        if (screenSizeChanged) {
            Log.d(LOGTAG, "Screen-size changed to " + mScreenSize);
        }

        if (windowSizeChanged) {
            Log.d(LOGTAG, "Window-size changed to " + mWindowSize);
        }

        GeckoEvent event = GeckoEvent.createSizeChangedEvent(mWindowSize.width, mWindowSize.height,
                                                             mScreenSize.width, mScreenSize.height);
        GeckoAppShell.sendEventToGecko(event);
        GeckoAppShell.sendEventToGecko(GeckoEvent.createBroadcastEvent("Window:Resize", ""));
    }

    /** Sets the current page rect. You must hold the monitor while calling this. */
    private void setPageRect(RectF rect, RectF cssRect) {
        // Since the "rect" is always just a multiple of "cssRect" we don't need to
        // check both; this function assumes that both "rect" and "cssRect" are relative
        // the zoom factor in mViewportMetrics.
        if (mViewportMetrics.getCssPageRect().equals(cssRect))
            return;

        ViewportMetrics viewportMetrics = new ViewportMetrics(mViewportMetrics);
        viewportMetrics.setPageRect(rect, cssRect);
        mViewportMetrics = new ImmutableViewportMetrics(viewportMetrics);

        // Page size is owned by the layer client, so no need to notify it of
        // this change.

        post(new Runnable() {
            public void run() {
                mPanZoomController.pageRectUpdated();
                mView.requestRender();
            }
        });
    }

    private void adjustViewport(DisplayPortMetrics displayPort) {
        ImmutableViewportMetrics metrics = getViewportMetrics();

        ViewportMetrics clampedMetrics = new ViewportMetrics(metrics);
        clampedMetrics.setViewport(clampedMetrics.getClampedViewport());

        if (displayPort == null) {
            displayPort = DisplayPortCalculator.calculate(metrics, mPanZoomController.getVelocityVector());
        }

        mDisplayPort = displayPort;
        mGeckoViewport = clampedMetrics;

        if (mRecordDrawTimes) {
            mDrawTimingQueue.add(displayPort);
        }

        GeckoAppShell.sendEventToGecko(GeckoEvent.createViewportEvent(clampedMetrics, displayPort));
    }

    /** Aborts any pan/zoom animation that is currently in progress. */
    private void abortPanZoomAnimation() {
        if (mPanZoomController != null) {
            post(new Runnable() {
                public void run() {
                    mPanZoomController.abortAnimation();
                }
            });
        }
    }

    /**
     * The different types of Viewport messages handled. All viewport events
     * expect a display-port to be returned, but can handle one not being
     * returned.
     */
    private enum ViewportMessageType {
        UPDATE,       // The viewport has changed and should be entirely updated
        PAGE_SIZE     // The viewport's page-size has changed
    }

    /** Viewport message handler. */
    private DisplayPortMetrics handleViewportMessage(ViewportMetrics messageMetrics, ViewportMessageType type) {
        synchronized (this) {
            final ViewportMetrics newMetrics;
            ImmutableViewportMetrics oldMetrics = getViewportMetrics();

            switch (type) {
            default:
            case UPDATE:
                newMetrics = messageMetrics;
                // Keep the old viewport size
                newMetrics.setSize(oldMetrics.getSize());
                abortPanZoomAnimation();
                break;
            case PAGE_SIZE:
                // adjust the page dimensions to account for differences in zoom
                // between the rendered content (which is what Gecko tells us)
                // and our zoom level (which may have diverged).
                float scaleFactor = oldMetrics.zoomFactor / messageMetrics.getZoomFactor();
                newMetrics = new ViewportMetrics(oldMetrics);
                newMetrics.setPageRect(RectUtils.scale(messageMetrics.getPageRect(), scaleFactor), messageMetrics.getCssPageRect());
                break;
            }

            post(new Runnable() {
                public void run() {
                    mGeckoViewport = newMetrics;
                }
            });
            setViewportMetrics(newMetrics, type == ViewportMessageType.UPDATE);
            mDisplayPort = DisplayPortCalculator.calculate(getViewportMetrics(), null);
        }
        return mDisplayPort;
    }

    public DisplayPortMetrics getDisplayPort(boolean pageSizeUpdate, boolean isBrowserContentDisplayed, int tabId, ViewportMetrics metrics) {
        Tabs tabs = Tabs.getInstance();
        if (tabs.isSelectedTab(tabs.getTab(tabId)) && isBrowserContentDisplayed) {
            // for foreground tabs, send the viewport update unless the document
            // displayed is different from the content document. In that case, just
            // calculate the display port.
            return handleViewportMessage(metrics, pageSizeUpdate ? ViewportMessageType.PAGE_SIZE : ViewportMessageType.UPDATE);
        } else {
            // for background tabs, request a new display port calculation, so that
            // when we do switch to that tab, we have the correct display port and
            // don't need to draw twice (once to allow the first-paint viewport to
            // get to java, and again once java figures out the display port).
            ImmutableViewportMetrics newMetrics = new ImmutableViewportMetrics(metrics);
            return DisplayPortCalculator.calculate(newMetrics, null);
        }
    }

    // This is called on the Gecko thread to determine if we're still interested
    // in the update of this display-port to continue. We can return true here
    // to abort the current update and continue with any subsequent ones. This
    // is useful for slow-to-render pages when the display-port starts lagging
    // behind enough that continuing to draw it is wasted effort.
    public ProgressiveUpdateData progressiveUpdateCallback(boolean aHasPendingNewThebesContent,
                                                           float x, float y, float width, float height, float resolution) {
        // Grab a local copy of the last display-port sent to Gecko and the
        // current viewport metrics to avoid races when accessing them.
        DisplayPortMetrics displayPort = mDisplayPort;
        ImmutableViewportMetrics viewportMetrics = mViewportMetrics;
        mProgressiveUpdateData.setViewport(viewportMetrics);
        mProgressiveUpdateData.abort = false;

        // Always abort updates if the resolution has changed. There's no use
        // in drawing at the incorrect resolution.
        if (!FloatUtils.fuzzyEquals(resolution, displayPort.resolution)) {
            Log.d(LOGTAG, "Aborting draw due to resolution change");
            mProgressiveUpdateData.abort = true;
            return mProgressiveUpdateData;
        }

        // XXX All sorts of rounding happens inside Gecko that becomes hard to
        //     account exactly for. Given we align the display-port to tile
        //     boundaries (and so they rarely vary by sub-pixel amounts), just
        //     check that values are within a pixel of the display-port bounds.

        // Never abort drawing if we can't be sure we've sent a more recent
        // display-port. If we abort updating when we shouldn't, we can end up
        // with blank regions on the screen and we open up the risk of entering
        // an endless updating cycle.
        if (Math.abs(displayPort.getLeft() - x) <= 1 &&
            Math.abs(displayPort.getTop() - y) <= 1 &&
            Math.abs(displayPort.getBottom() - (y + height)) <= 1 &&
            Math.abs(displayPort.getRight() - (x + width)) <= 1) {
            return mProgressiveUpdateData;
        }

        // Abort updates when the display-port no longer contains the visible
        // area of the page (that is, the viewport cropped by the page
        // boundaries).
        // XXX This makes the assumption that we never let the visible area of
        //     the page fall outside of the display-port.
        if (Math.max(viewportMetrics.viewportRectLeft, viewportMetrics.pageRectLeft) + 1 < x ||
            Math.max(viewportMetrics.viewportRectTop, viewportMetrics.pageRectTop) + 1 < y ||
            Math.min(viewportMetrics.viewportRectRight, viewportMetrics.pageRectRight) - 1 > x + width ||
            Math.min(viewportMetrics.viewportRectBottom, viewportMetrics.pageRectBottom) - 1 > y + height) {
            Log.d(LOGTAG, "Aborting update due to viewport not in display-port");
            mProgressiveUpdateData.abort = true;
            return mProgressiveUpdateData;
        }

        // There's no new content (where new content is considered to be an
        // update in a region that wasn't previously visible), and we've sent a
        // more recent display-port.
        // Aborting in this situation helps us recover more quickly when the
        // user starts scrolling on a page that contains animated content that
        // is slow to draw.
        if (!aHasPendingNewThebesContent) {
            Log.d(LOGTAG, "Aborting update due to more relevant display-port in event queue");
            mProgressiveUpdateData.abort = true;
            return mProgressiveUpdateData;
        }

        return mProgressiveUpdateData;
    }

    /** Implementation of GeckoEventResponder/GeckoEventListener. */
    public void handleMessage(String event, JSONObject message) {
        try {
            if ("Checkerboard:Toggle".equals(event)) {
                mView.setCheckerboardShouldShowChecks(message.getBoolean("value"));
            }
        } catch (JSONException e) {
            Log.e(LOGTAG, "Error decoding JSON in " + event + " handler", e);
        }
    }

    /** Implementation of GeckoEventResponder. */
    public String getResponse() {
        // We are responding to the events handled in handleMessage() above with the
        // display port we calculated. Different messages will generate different
        // display ports and put them in mReturnDisplayPort, so we just return that.
        // Note that mReturnDisplayPort is always touched on the Gecko thread, so
        // no synchronization is needed for it.
        if (mReturnDisplayPort == null) {
            return "";
        }
        try {
            return mReturnDisplayPort.toJSON();
        } finally {
            mReturnDisplayPort = null;
        }
    }

    void setZoomConstraints(ZoomConstraints constraints) {
        mZoomConstraints = constraints;
    }

    /** This function is invoked by Gecko via JNI; be careful when modifying signature.
      * The compositor invokes this function just before compositing a frame where the document
      * is different from the document composited on the last frame. In these cases, the viewport
      * information we have in Java is no longer valid and needs to be replaced with the new
      * viewport information provided. setPageRect will never be invoked on the same frame that
      * this function is invoked on; and this function will always be called prior to syncViewportInfo.
      */
    public void setFirstPaintViewport(float offsetX, float offsetY, float zoom,
            float pageLeft, float pageTop, float pageRight, float pageBottom,
            float cssPageLeft, float cssPageTop, float cssPageRight, float cssPageBottom) {
        synchronized (this) {
            final ViewportMetrics currentMetrics = new ViewportMetrics(getViewportMetrics());
            currentMetrics.setOrigin(new PointF(offsetX, offsetY));
            currentMetrics.setZoomFactor(zoom);
            currentMetrics.setPageRect(new RectF(pageLeft, pageTop, pageRight, pageBottom),
                                       new RectF(cssPageLeft, cssPageTop, cssPageRight, cssPageBottom));
            // Since we have switched to displaying a different document, we need to update any
            // viewport-related state we have lying around. This includes mGeckoViewport and
            // mViewportMetrics. Usually this information is updated via handleViewportMessage
            // while we remain on the same document.
            post(new Runnable() {
                public void run() {
                    mGeckoViewport = currentMetrics;
                }
            });
            setViewportMetrics(currentMetrics);

            Tab tab = Tabs.getInstance().getSelectedTab();
            mView.setCheckerboardColor(tab.getCheckerboardColor());
            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. We accomplish this by passing true to abortPanZoomAnimation, which
            // sends the request after aborting the animation. 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();
        mView.getRenderer().resetCheckerboard();
        ScreenshotHandler.screenshotWholePage(Tabs.getInstance().getSelectedTab());
    }

    /** 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() {
        GeckoAppShell.scheduleComposite();
    }

    /** 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 surfaceChanged(int width, int height) {
        setViewportSize(new FloatSize(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);
        renderRequested();
    }

    /** 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 void setAnimationTarget(ViewportMetrics viewport) {
        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.
            ImmutableViewportMetrics metrics = new ImmutableViewportMetrics(viewport);
            DisplayPortMetrics displayPort = DisplayPortCalculator.calculate(metrics, null);
            adjustViewport(displayPort);
        }
    }

    /** Implementation of PanZoomTarget
     * You must hold the monitor while calling this.
     */
    public void setViewportMetrics(ViewportMetrics viewport) {
        setViewportMetrics(viewport, true);
    }

    private void setViewportMetrics(ViewportMetrics viewport, boolean notifyGecko) {
        mViewportMetrics = new ImmutableViewportMetrics(viewport);
        mView.requestRender();
        if (notifyGecko && mGeckoIsReady) {
            geometryChanged();
        }
    }

    /** Implementation of PanZoomTarget */
    public void setForceRedraw() {
        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;
        ViewportMetrics geckoViewport = mGeckoViewport;
        PointF geckoOrigin = geckoViewport.getOrigin();
        float geckoZoom = geckoViewport.getZoomFactor();

        // 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();
    }
}