Source/WebKit/WebProcess/WebPage/CoordinatedGraphics/LayerTreeHost.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2011 Apple Inc. All rights reserved.
  * Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
  * Copyright (C) 2012 Company 100, Inc.
  * Copyright (C) 2014-2019 Igalia S.L.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
  * THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "LayerTreeHost.h"

 #if USE(COORDINATED_GRAPHICS)

 #include "DrawingArea.h"
 #include "WebPage.h"
 #include "WebPageProxyMessages.h"
 #include <WebCore/Chrome.h>
 #include <WebCore/Frame.h>
 #include <WebCore/FrameView.h>
 #include <WebCore/PageOverlayController.h>

 #if USE(GLIB_EVENT_LOOP)
 #include <wtf/glib/RunLoopSourcePriority.h>
 #endif

 namespace WebKit {
 using namespace WebCore;

 LayerTreeHost::LayerTreeHost(WebPage& webPage)
     : m_webPage(webPage)
     , m_compositorClient(*this)
     , m_surface(AcceleratedSurface::create(webPage, *this))
     , m_viewportController(webPage.size())
     , m_layerFlushTimer(RunLoop::main(), this, &LayerTreeHost::layerFlushTimerFired)
     , m_sceneIntegration(Nicosia::SceneIntegration::create(*this))
     , m_coordinator(webPage, *this)
 {
 #if USE(GLIB_EVENT_LOOP)
     m_layerFlushTimer.setPriority(RunLoopSourcePriority::LayerFlushTimer);
     m_layerFlushTimer.setName("[WebKit] LayerTreeHost");
 #endif
     scheduleLayerFlush();

     if (FrameView* frameView = m_webPage.mainFrameView()) {
         auto contentsSize = frameView->contentsSize();
         if (!contentsSize.isEmpty())
             m_viewportController.didChangeContentsSize(contentsSize);
     }

     IntSize scaledSize(m_webPage.size());
     scaledSize.scale(m_webPage.deviceScaleFactor());
     float scaleFactor = m_webPage.deviceScaleFactor() * m_viewportController.pageScaleFactor();

     TextureMapper::PaintFlags paintFlags = 0;
     if (m_surface->shouldPaintMirrored())
         paintFlags |= TextureMapper::PaintingMirrored;

     m_compositor = ThreadedCompositor::create(m_compositorClient, m_compositorClient, m_webPage.corePage()->chrome().displayID(), scaledSize, scaleFactor, paintFlags);
     m_layerTreeContext.contextID = m_surface->surfaceID();

     didChangeViewport();
 }

 LayerTreeHost::~LayerTreeHost()
 {
     cancelPendingLayerFlush();

     m_sceneIntegration->invalidate();
     m_coordinator.invalidate();
     m_compositor->invalidate();
     m_surface = nullptr;
 }

 void LayerTreeHost::setLayerFlushSchedulingEnabled(bool layerFlushingEnabled)
 {
     if (m_layerFlushSchedulingEnabled == layerFlushingEnabled)
         return;

     m_layerFlushSchedulingEnabled = layerFlushingEnabled;

     if (m_layerFlushSchedulingEnabled) {
         m_compositor->resume();
         scheduleLayerFlush();
         return;
     }

     cancelPendingLayerFlush();
     m_compositor->suspend();
 }

 void LayerTreeHost::setShouldNotifyAfterNextScheduledLayerFlush(bool notifyAfterScheduledLayerFlush)
 {
     m_notifyAfterScheduledLayerFlush = notifyAfterScheduledLayerFlush;
 }

 void LayerTreeHost::scheduleLayerFlush()
 {
     if (!m_layerFlushSchedulingEnabled)
         return;

     if (m_isWaitingForRenderer) {
         m_scheduledWhileWaitingForRenderer = true;
         return;
     }

     if (!m_layerFlushTimer.isActive())
         m_layerFlushTimer.startOneShot(0_s);
 }

 void LayerTreeHost::cancelPendingLayerFlush()
 {
     m_layerFlushTimer.stop();
 }

 void LayerTreeHost::layerFlushTimerFired()
 {
     if (m_isSuspended || m_isWaitingForRenderer)
         return;

     m_coordinator.syncDisplayState();
     m_webPage.updateRendering();
     m_webPage.flushPendingEditorStateUpdate();

     if (!m_coordinator.rootCompositingLayer())
         return;

     // If a force-repaint callback was registered, we should force a 'frame sync' that
     // will guarantee us a call to renderNextFrame() once the update is complete.
     if (m_forceRepaintAsync.callbackID)
         m_coordinator.forceFrameSync();

     bool didSync = m_coordinator.flushPendingLayerChanges();

     if (m_notifyAfterScheduledLayerFlush && didSync) {
         m_webPage.drawingArea()->layerHostDidFlushLayers();
         m_notifyAfterScheduledLayerFlush = false;
     }
 }

 void LayerTreeHost::setRootCompositingLayer(GraphicsLayer* graphicsLayer)
 {
     m_coordinator.setRootCompositingLayer(graphicsLayer);
 }

 void LayerTreeHost::setViewOverlayRootLayer(GraphicsLayer* viewOverlayRootLayer)
 {
     m_viewOverlayRootLayer = viewOverlayRootLayer;
     m_coordinator.setViewOverlayRootLayer(viewOverlayRootLayer);
 }

 void LayerTreeHost::scrollNonCompositedContents(const IntRect& rect)
 {
     auto* frameView = m_webPage.mainFrameView();
     if (!frameView || !frameView->delegatesScrolling())
         return;

     m_viewportController.didScroll(rect.location());
     if (m_isDiscardable)
         m_discardableSyncActions.add(DiscardableSyncActions::UpdateViewport);
     else
         didChangeViewport();
 }

 void LayerTreeHost::forceRepaint()
 {
     // This is necessary for running layout tests. Since in this case we are not waiting for a UIProcess to reply nicely.
     // Instead we are just triggering forceRepaint. But we still want to have the scripted animation callbacks being executed.
     m_coordinator.syncDisplayState();

     // We need to schedule another flush, otherwise the forced paint might cancel a later expected flush.
     scheduleLayerFlush();

     if (!m_isWaitingForRenderer)
         m_coordinator.flushPendingLayerChanges();
     m_compositor->forceRepaint();
 }

 bool LayerTreeHost::forceRepaintAsync(CallbackID callbackID)
 {
     scheduleLayerFlush();

     // We want a clean repaint, meaning that if we're currently waiting for the renderer
     // to finish an update, we'll have to schedule another flush when it's done.
     ASSERT(!m_forceRepaintAsync.callbackID);
     m_forceRepaintAsync.callbackID = OptionalCallbackID(callbackID);
     m_forceRepaintAsync.needsFreshFlush = m_scheduledWhileWaitingForRenderer;
     return true;
 }

 void LayerTreeHost::sizeDidChange(const IntSize& size)
 {
     if (m_isDiscardable) {
         m_discardableSyncActions.add(DiscardableSyncActions::UpdateSize);
         m_viewportController.didChangeViewportSize(size);
         return;
     }

     if (m_surface->hostResize(size))
         m_layerTreeContext.contextID = m_surface->surfaceID();

     m_coordinator.sizeDidChange(size);
     scheduleLayerFlush();

     m_viewportController.didChangeViewportSize(size);
     IntSize scaledSize(size);
     scaledSize.scale(m_webPage.deviceScaleFactor());
     m_compositor->setViewportSize(scaledSize, m_webPage.deviceScaleFactor() * m_viewportController.pageScaleFactor());
     didChangeViewport();
 }

 void LayerTreeHost::pauseRendering()
 {
     m_isSuspended = true;
     m_compositor->suspend();
 }

 void LayerTreeHost::resumeRendering()
 {
     m_isSuspended = false;
     m_compositor->resume();
     scheduleLayerFlush();
 }

 GraphicsLayerFactory* LayerTreeHost::graphicsLayerFactory()
 {
     return &m_coordinator;
 }

 void LayerTreeHost::contentsSizeChanged(const IntSize& newSize)
 {
     m_viewportController.didChangeContentsSize(newSize);
     if (m_isDiscardable)
         m_discardableSyncActions.add(DiscardableSyncActions::UpdateViewport);
     else
         didChangeViewport();
 }

 void LayerTreeHost::didChangeViewportAttributes(ViewportAttributes&& attr)
 {
     m_viewportController.didChangeViewportAttributes(WTFMove(attr));
     if (m_isDiscardable)
         m_discardableSyncActions.add(DiscardableSyncActions::UpdateViewport);
     else
         didChangeViewport();
 }

 void LayerTreeHost::didChangeViewport()
 {
     FloatRect visibleRect(m_viewportController.visibleContentsRect());
     if (visibleRect.isEmpty())
         return;

     // When using non overlay scrollbars, the contents size doesn't include the scrollbars, but we need to include them
     // in the visible area used by the compositor to ensure that the scrollbar layers are also updated.
     // See https://bugs.webkit.org/show_bug.cgi?id=160450.
     FrameView* view = m_webPage.corePage()->mainFrame().view();
     Scrollbar* scrollbar = view->verticalScrollbar();
     if (scrollbar && !scrollbar->isOverlayScrollbar())
         visibleRect.expand(scrollbar->width(), 0);
     scrollbar = view->horizontalScrollbar();
     if (scrollbar && !scrollbar->isOverlayScrollbar())
         visibleRect.expand(0, scrollbar->height());

     m_coordinator.setVisibleContentsRect(visibleRect);
     scheduleLayerFlush();

     float pageScale = m_viewportController.pageScaleFactor();
     IntPoint scrollPosition = roundedIntPoint(visibleRect.location());
     if (m_lastScrollPosition != scrollPosition) {
         m_lastScrollPosition = scrollPosition;
         m_compositor->setScrollPosition(m_lastScrollPosition, m_webPage.deviceScaleFactor() * pageScale);

         if (!view->useFixedLayout())
             view->notifyScrollPositionChanged(m_lastScrollPosition);
     }

     if (m_lastPageScaleFactor != pageScale) {
         m_lastPageScaleFactor = pageScale;
         m_webPage.scalePage(pageScale, m_lastScrollPosition);
     }
 }

 void LayerTreeHost::setIsDiscardable(bool discardable)
 {
     m_isDiscardable = discardable;
     if (m_isDiscardable) {
         m_discardableSyncActions = OptionSet<DiscardableSyncActions>();
         return;
     }

     if (m_discardableSyncActions.isEmpty())
         return;

     if (m_discardableSyncActions.contains(DiscardableSyncActions::UpdateSize)) {
         // Size changes already sets the scale factor and updates the viewport.
         sizeDidChange(m_webPage.size());
         return;
     }

     if (m_discardableSyncActions.contains(DiscardableSyncActions::UpdateScale))
         deviceOrPageScaleFactorChanged();

     if (m_discardableSyncActions.contains(DiscardableSyncActions::UpdateViewport))
         didChangeViewport();
 }

 void LayerTreeHost::deviceOrPageScaleFactorChanged()
 {
     if (m_isDiscardable) {
         m_discardableSyncActions.add(DiscardableSyncActions::UpdateScale);
         return;
     }

     if (m_surface->hostResize(m_webPage.size()))
         m_layerTreeContext.contextID = m_surface->surfaceID();

     m_coordinator.deviceOrPageScaleFactorChanged();
     m_webPage.corePage()->pageOverlayController().didChangeDeviceScaleFactor();
     m_compositor->setScaleFactor(m_webPage.deviceScaleFactor() * m_viewportController.pageScaleFactor());
 }

 #if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
 RefPtr<DisplayRefreshMonitor> LayerTreeHost::createDisplayRefreshMonitor(PlatformDisplayID displayID)
 {
     return m_compositor->displayRefreshMonitor(displayID);
 }
 #endif

 void LayerTreeHost::didFlushRootLayer(const FloatRect& visibleContentRect)
 {
     // Because our view-relative overlay root layer is not attached to the FrameView's GraphicsLayer tree, we need to flush it manually.
     if (m_viewOverlayRootLayer)
         m_viewOverlayRootLayer->flushCompositingState(visibleContentRect);
 }

 void LayerTreeHost::commitSceneState(const CoordinatedGraphicsState& state)
 {
     m_isWaitingForRenderer = true;
     m_compositor->updateSceneState(state);
 }

 RefPtr<Nicosia::SceneIntegration> LayerTreeHost::sceneIntegration()
 {
     return m_sceneIntegration.copyRef();
 }

 void LayerTreeHost::frameComplete()
 {
     m_compositor->frameComplete();
 }

 void LayerTreeHost::requestUpdate()
 {
     m_compositor->updateScene();
 }

 uint64_t LayerTreeHost::nativeSurfaceHandleForCompositing()
 {
     m_surface->initialize();
     return m_surface->window();
 }

 void LayerTreeHost::didDestroyGLContext()
 {
     m_surface->finalize();
 }

 void LayerTreeHost::willRenderFrame()
 {
     m_surface->willRenderFrame();
 }

 void LayerTreeHost::didRenderFrame()
 {
     m_surface->didRenderFrame();
 }

 void LayerTreeHost::requestDisplayRefreshMonitorUpdate()
 {
     // Flush layers to cause a repaint. If m_isWaitingForRenderer was true at this point, the layer
     // flush won't do anything, but that means there's a painting ongoing that will send the
     // display refresh notification when it's done.
     m_coordinator.forceFrameSync();
     scheduleLayerFlush();
 }

 void LayerTreeHost::handleDisplayRefreshMonitorUpdate(bool hasBeenRescheduled)
 {
     // Call renderNextFrame. If hasBeenRescheduled is true, the layer flush will force a repaint
     // that will cause the display refresh notification to come.
     renderNextFrame(hasBeenRescheduled);
 }

 void LayerTreeHost::renderNextFrame(bool forceRepaint)
 {
     m_isWaitingForRenderer = false;
     bool scheduledWhileWaitingForRenderer = std::exchange(m_scheduledWhileWaitingForRenderer, false);
     m_coordinator.renderNextFrame();

     if (m_forceRepaintAsync.callbackID) {
         // If the asynchronous force-repaint needs a separate fresh flush, it was due to
         // the force-repaint request being registered while CoordinatedLayerTreeHost was
         // waiting for the renderer to finish an update.
         ASSERT(!m_forceRepaintAsync.needsFreshFlush || scheduledWhileWaitingForRenderer);

         // Execute the callback if another layer flush and the subsequent state update
         // aren't needed. If they are, the callback will be executed when this function
         // is called after the next update.
         if (!m_forceRepaintAsync.needsFreshFlush) {
             m_webPage.send(Messages::WebPageProxy::VoidCallback(m_forceRepaintAsync.callbackID.callbackID()));
             m_forceRepaintAsync.callbackID = OptionalCallbackID();
         }
         m_forceRepaintAsync.needsFreshFlush = false;
     }

     if (scheduledWhileWaitingForRenderer || m_layerFlushTimer.isActive() || forceRepaint) {
         m_layerFlushTimer.stop();
         if (forceRepaint)
             m_coordinator.forceFrameSync();
         layerFlushTimerFired();
     }
 }

 } // namespace WebKit

 #endif // USE(COORDINATED_GRAPHICS)
	/*
	* Copyright (C) 2011 Apple Inc. All rights reserved.
	* Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
	* Copyright (C) 2012 Company 100, Inc.
	* Copyright (C) 2014-2019 Igalia S.L.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	* THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "LayerTreeHost.h"

	#if USE(COORDINATED_GRAPHICS)

	#include "DrawingArea.h"
	#include "WebPage.h"
	#include "WebPageProxyMessages.h"
	#include <WebCore/Chrome.h>
	#include <WebCore/Frame.h>
	#include <WebCore/FrameView.h>
	#include <WebCore/PageOverlayController.h>

	#if USE(GLIB_EVENT_LOOP)
	#include <wtf/glib/RunLoopSourcePriority.h>
	#endif

	namespace WebKit {
	using namespace WebCore;

	LayerTreeHost::LayerTreeHost(WebPage& webPage)
	: m_webPage(webPage)
	, m_compositorClient(*this)
	, m_surface(AcceleratedSurface::create(webPage, *this))
	, m_viewportController(webPage.size())
	, m_layerFlushTimer(RunLoop::main(), this, &LayerTreeHost::layerFlushTimerFired)
	, m_sceneIntegration(Nicosia::SceneIntegration::create(*this))
	, m_coordinator(webPage, *this)
	{
	#if USE(GLIB_EVENT_LOOP)
	m_layerFlushTimer.setPriority(RunLoopSourcePriority::LayerFlushTimer);
	m_layerFlushTimer.setName("[WebKit] LayerTreeHost");
	#endif
	scheduleLayerFlush();

	if (FrameView* frameView = m_webPage.mainFrameView()) {
	auto contentsSize = frameView->contentsSize();
	if (!contentsSize.isEmpty())
	m_viewportController.didChangeContentsSize(contentsSize);
	}

	IntSize scaledSize(m_webPage.size());
	scaledSize.scale(m_webPage.deviceScaleFactor());
	float scaleFactor = m_webPage.deviceScaleFactor() * m_viewportController.pageScaleFactor();

	TextureMapper::PaintFlags paintFlags = 0;
	if (m_surface->shouldPaintMirrored())
	paintFlags \|= TextureMapper::PaintingMirrored;

	m_compositor = ThreadedCompositor::create(m_compositorClient, m_compositorClient, m_webPage.corePage()->chrome().displayID(), scaledSize, scaleFactor, paintFlags);
	m_layerTreeContext.contextID = m_surface->surfaceID();

	didChangeViewport();
	}

	LayerTreeHost::~LayerTreeHost()
	{
	cancelPendingLayerFlush();

	m_sceneIntegration->invalidate();
	m_coordinator.invalidate();
	m_compositor->invalidate();
	m_surface = nullptr;
	}

	void LayerTreeHost::setLayerFlushSchedulingEnabled(bool layerFlushingEnabled)
	{
	if (m_layerFlushSchedulingEnabled == layerFlushingEnabled)
	return;

	m_layerFlushSchedulingEnabled = layerFlushingEnabled;

	if (m_layerFlushSchedulingEnabled) {
	m_compositor->resume();
	scheduleLayerFlush();
	return;
	}

	cancelPendingLayerFlush();
	m_compositor->suspend();
	}

	void LayerTreeHost::setShouldNotifyAfterNextScheduledLayerFlush(bool notifyAfterScheduledLayerFlush)
	{
	m_notifyAfterScheduledLayerFlush = notifyAfterScheduledLayerFlush;
	}

	void LayerTreeHost::scheduleLayerFlush()
	{
	if (!m_layerFlushSchedulingEnabled)
	return;

	if (m_isWaitingForRenderer) {
	m_scheduledWhileWaitingForRenderer = true;
	return;
	}

	if (!m_layerFlushTimer.isActive())
	m_layerFlushTimer.startOneShot(0_s);
	}

	void LayerTreeHost::cancelPendingLayerFlush()
	{
	m_layerFlushTimer.stop();
	}

	void LayerTreeHost::layerFlushTimerFired()
	{
	if (m_isSuspended \|\| m_isWaitingForRenderer)
	return;

	m_coordinator.syncDisplayState();
	m_webPage.updateRendering();
	m_webPage.flushPendingEditorStateUpdate();

	if (!m_coordinator.rootCompositingLayer())
	return;

	// If a force-repaint callback was registered, we should force a 'frame sync' that
	// will guarantee us a call to renderNextFrame() once the update is complete.
	if (m_forceRepaintAsync.callbackID)
	m_coordinator.forceFrameSync();

	bool didSync = m_coordinator.flushPendingLayerChanges();

	if (m_notifyAfterScheduledLayerFlush && didSync) {
	m_webPage.drawingArea()->layerHostDidFlushLayers();
	m_notifyAfterScheduledLayerFlush = false;
	}
	}

	void LayerTreeHost::setRootCompositingLayer(GraphicsLayer* graphicsLayer)
	{
	m_coordinator.setRootCompositingLayer(graphicsLayer);
	}

	void LayerTreeHost::setViewOverlayRootLayer(GraphicsLayer* viewOverlayRootLayer)
	{
	m_viewOverlayRootLayer = viewOverlayRootLayer;
	m_coordinator.setViewOverlayRootLayer(viewOverlayRootLayer);
	}

	void LayerTreeHost::scrollNonCompositedContents(const IntRect& rect)
	{
	auto* frameView = m_webPage.mainFrameView();
	if (!frameView \|\| !frameView->delegatesScrolling())
	return;

	m_viewportController.didScroll(rect.location());
	if (m_isDiscardable)
	m_discardableSyncActions.add(DiscardableSyncActions::UpdateViewport);
	else
	didChangeViewport();
	}

	void LayerTreeHost::forceRepaint()
	{
	// This is necessary for running layout tests. Since in this case we are not waiting for a UIProcess to reply nicely.
	// Instead we are just triggering forceRepaint. But we still want to have the scripted animation callbacks being executed.
	m_coordinator.syncDisplayState();

	// We need to schedule another flush, otherwise the forced paint might cancel a later expected flush.
	scheduleLayerFlush();

	if (!m_isWaitingForRenderer)
	m_coordinator.flushPendingLayerChanges();
	m_compositor->forceRepaint();
	}

	bool LayerTreeHost::forceRepaintAsync(CallbackID callbackID)
	{
	scheduleLayerFlush();

	// We want a clean repaint, meaning that if we're currently waiting for the renderer
	// to finish an update, we'll have to schedule another flush when it's done.
	ASSERT(!m_forceRepaintAsync.callbackID);
	m_forceRepaintAsync.callbackID = OptionalCallbackID(callbackID);
	m_forceRepaintAsync.needsFreshFlush = m_scheduledWhileWaitingForRenderer;
	return true;
	}

	void LayerTreeHost::sizeDidChange(const IntSize& size)
	{
	if (m_isDiscardable) {
	m_discardableSyncActions.add(DiscardableSyncActions::UpdateSize);
	m_viewportController.didChangeViewportSize(size);
	return;
	}

	if (m_surface->hostResize(size))
	m_layerTreeContext.contextID = m_surface->surfaceID();

	m_coordinator.sizeDidChange(size);
	scheduleLayerFlush();

	m_viewportController.didChangeViewportSize(size);
	IntSize scaledSize(size);
	scaledSize.scale(m_webPage.deviceScaleFactor());
	m_compositor->setViewportSize(scaledSize, m_webPage.deviceScaleFactor() * m_viewportController.pageScaleFactor());
	didChangeViewport();
	}

	void LayerTreeHost::pauseRendering()
	{
	m_isSuspended = true;
	m_compositor->suspend();
	}

	void LayerTreeHost::resumeRendering()
	{
	m_isSuspended = false;
	m_compositor->resume();
	scheduleLayerFlush();
	}

	GraphicsLayerFactory* LayerTreeHost::graphicsLayerFactory()
	{
	return &m_coordinator;
	}

	void LayerTreeHost::contentsSizeChanged(const IntSize& newSize)
	{
	m_viewportController.didChangeContentsSize(newSize);
	if (m_isDiscardable)
	m_discardableSyncActions.add(DiscardableSyncActions::UpdateViewport);
	else
	didChangeViewport();
	}

	void LayerTreeHost::didChangeViewportAttributes(ViewportAttributes&& attr)
	{
	m_viewportController.didChangeViewportAttributes(WTFMove(attr));
	if (m_isDiscardable)
	m_discardableSyncActions.add(DiscardableSyncActions::UpdateViewport);
	else
	didChangeViewport();
	}

	void LayerTreeHost::didChangeViewport()
	{
	FloatRect visibleRect(m_viewportController.visibleContentsRect());
	if (visibleRect.isEmpty())
	return;

	// When using non overlay scrollbars, the contents size doesn't include the scrollbars, but we need to include them
	// in the visible area used by the compositor to ensure that the scrollbar layers are also updated.
	// See https://bugs.webkit.org/show_bug.cgi?id=160450.
	FrameView* view = m_webPage.corePage()->mainFrame().view();
	Scrollbar* scrollbar = view->verticalScrollbar();
	if (scrollbar && !scrollbar->isOverlayScrollbar())
	visibleRect.expand(scrollbar->width(), 0);
	scrollbar = view->horizontalScrollbar();
	if (scrollbar && !scrollbar->isOverlayScrollbar())
	visibleRect.expand(0, scrollbar->height());

	m_coordinator.setVisibleContentsRect(visibleRect);
	scheduleLayerFlush();

	float pageScale = m_viewportController.pageScaleFactor();
	IntPoint scrollPosition = roundedIntPoint(visibleRect.location());
	if (m_lastScrollPosition != scrollPosition) {
	m_lastScrollPosition = scrollPosition;
	m_compositor->setScrollPosition(m_lastScrollPosition, m_webPage.deviceScaleFactor() * pageScale);

	if (!view->useFixedLayout())
	view->notifyScrollPositionChanged(m_lastScrollPosition);
	}

	if (m_lastPageScaleFactor != pageScale) {
	m_lastPageScaleFactor = pageScale;
	m_webPage.scalePage(pageScale, m_lastScrollPosition);
	}
	}

	void LayerTreeHost::setIsDiscardable(bool discardable)
	{
	m_isDiscardable = discardable;
	if (m_isDiscardable) {
	m_discardableSyncActions = OptionSet<DiscardableSyncActions>();
	return;
	}

	if (m_discardableSyncActions.isEmpty())
	return;

	if (m_discardableSyncActions.contains(DiscardableSyncActions::UpdateSize)) {
	// Size changes already sets the scale factor and updates the viewport.
	sizeDidChange(m_webPage.size());
	return;
	}

	if (m_discardableSyncActions.contains(DiscardableSyncActions::UpdateScale))
	deviceOrPageScaleFactorChanged();

	if (m_discardableSyncActions.contains(DiscardableSyncActions::UpdateViewport))
	didChangeViewport();
	}

	void LayerTreeHost::deviceOrPageScaleFactorChanged()
	{
	if (m_isDiscardable) {
	m_discardableSyncActions.add(DiscardableSyncActions::UpdateScale);
	return;
	}

	if (m_surface->hostResize(m_webPage.size()))
	m_layerTreeContext.contextID = m_surface->surfaceID();

	m_coordinator.deviceOrPageScaleFactorChanged();
	m_webPage.corePage()->pageOverlayController().didChangeDeviceScaleFactor();
	m_compositor->setScaleFactor(m_webPage.deviceScaleFactor() * m_viewportController.pageScaleFactor());
	}

	#if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
	RefPtr<DisplayRefreshMonitor> LayerTreeHost::createDisplayRefreshMonitor(PlatformDisplayID displayID)
	{
	return m_compositor->displayRefreshMonitor(displayID);
	}
	#endif

	void LayerTreeHost::didFlushRootLayer(const FloatRect& visibleContentRect)
	{
	// Because our view-relative overlay root layer is not attached to the FrameView's GraphicsLayer tree, we need to flush it manually.
	if (m_viewOverlayRootLayer)
	m_viewOverlayRootLayer->flushCompositingState(visibleContentRect);
	}

	void LayerTreeHost::commitSceneState(const CoordinatedGraphicsState& state)
	{
	m_isWaitingForRenderer = true;
	m_compositor->updateSceneState(state);
	}

	RefPtr<Nicosia::SceneIntegration> LayerTreeHost::sceneIntegration()
	{
	return m_sceneIntegration.copyRef();
	}

	void LayerTreeHost::frameComplete()
	{
	m_compositor->frameComplete();
	}

	void LayerTreeHost::requestUpdate()
	{
	m_compositor->updateScene();
	}

	uint64_t LayerTreeHost::nativeSurfaceHandleForCompositing()
	{
	m_surface->initialize();
	return m_surface->window();
	}

	void LayerTreeHost::didDestroyGLContext()
	{
	m_surface->finalize();
	}

	void LayerTreeHost::willRenderFrame()
	{
	m_surface->willRenderFrame();
	}

	void LayerTreeHost::didRenderFrame()
	{
	m_surface->didRenderFrame();
	}

	void LayerTreeHost::requestDisplayRefreshMonitorUpdate()
	{
	// Flush layers to cause a repaint. If m_isWaitingForRenderer was true at this point, the layer
	// flush won't do anything, but that means there's a painting ongoing that will send the
	// display refresh notification when it's done.
	m_coordinator.forceFrameSync();
	scheduleLayerFlush();
	}

	void LayerTreeHost::handleDisplayRefreshMonitorUpdate(bool hasBeenRescheduled)
	{
	// Call renderNextFrame. If hasBeenRescheduled is true, the layer flush will force a repaint
	// that will cause the display refresh notification to come.
	renderNextFrame(hasBeenRescheduled);
	}

	void LayerTreeHost::renderNextFrame(bool forceRepaint)
	{
	m_isWaitingForRenderer = false;
	bool scheduledWhileWaitingForRenderer = std::exchange(m_scheduledWhileWaitingForRenderer, false);
	m_coordinator.renderNextFrame();

	if (m_forceRepaintAsync.callbackID) {
	// If the asynchronous force-repaint needs a separate fresh flush, it was due to
	// the force-repaint request being registered while CoordinatedLayerTreeHost was
	// waiting for the renderer to finish an update.
	ASSERT(!m_forceRepaintAsync.needsFreshFlush \|\| scheduledWhileWaitingForRenderer);

	// Execute the callback if another layer flush and the subsequent state update
	// aren't needed. If they are, the callback will be executed when this function
	// is called after the next update.
	if (!m_forceRepaintAsync.needsFreshFlush) {
	m_webPage.send(Messages::WebPageProxy::VoidCallback(m_forceRepaintAsync.callbackID.callbackID()));
	m_forceRepaintAsync.callbackID = OptionalCallbackID();
	}
	m_forceRepaintAsync.needsFreshFlush = false;
	}

	if (scheduledWhileWaitingForRenderer \|\| m_layerFlushTimer.isActive() \|\| forceRepaint) {
	m_layerFlushTimer.stop();
	if (forceRepaint)
	m_coordinator.forceFrameSync();
	layerFlushTimerFired();
	}
	}

	} // namespace WebKit

	#endif // USE(COORDINATED_GRAPHICS)