Source/WebCore/animation/DocumentTimeline.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2017 Apple Inc. All rights reserved.
  *
  * 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. ``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
  * 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 "DocumentTimeline.h"

 #include "AnimationPlaybackEvent.h"
 #include "Chrome.h"
 #include "ChromeClient.h"
 #include "DOMWindow.h"
 #include "DeclarativeAnimation.h"
 #include "DisplayRefreshMonitor.h"
 #include "DisplayRefreshMonitorManager.h"
 #include "Document.h"
 #include "KeyframeEffect.h"
 #include "Page.h"
 #include "RenderElement.h"

 static const Seconds defaultAnimationInterval { 15_ms };
 static const Seconds throttledAnimationInterval { 30_ms };

 namespace WebCore {

 Ref<DocumentTimeline> DocumentTimeline::create(Document& document, PlatformDisplayID displayID)
 {
     return adoptRef(*new DocumentTimeline(document, displayID));
 }

 DocumentTimeline::DocumentTimeline(Document& document, PlatformDisplayID displayID)
     : AnimationTimeline(DocumentTimelineClass)
     , m_document(&document)
     , m_animationScheduleTimer(*this, &DocumentTimeline::animationScheduleTimerFired)
 #if !USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
     , m_animationResolutionTimer(*this, &DocumentTimeline::animationResolutionTimerFired)
 #endif
 {
     windowScreenDidChange(displayID);
 }

 DocumentTimeline::~DocumentTimeline()
 {
     m_invalidationTaskQueue.close();
     m_eventDispatchTaskQueue.close();
 }

 void DocumentTimeline::detachFromDocument()
 {
     m_document = nullptr;
 }

 void DocumentTimeline::updateThrottlingState()
 {
     m_needsUpdateAnimationSchedule = false;
     timingModelDidChange();
 }

 Seconds DocumentTimeline::animationInterval() const
 {
     if (!m_document || !m_document->page())
         return Seconds::infinity();
     return m_document->page()->isLowPowerModeEnabled() ? throttledAnimationInterval : defaultAnimationInterval;
 }

 void DocumentTimeline::suspendAnimations()
 {
     if (animationsAreSuspended())
         return;

     m_isSuspended = true;

     m_invalidationTaskQueue.cancelAllTasks();
     if (m_animationScheduleTimer.isActive())
         m_animationScheduleTimer.stop();

     for (const auto& animation : animations())
         animation->setSuspended(true);

     applyPendingAcceleratedAnimations();
 }

 void DocumentTimeline::resumeAnimations()
 {
     if (!animationsAreSuspended())
         return;

     m_isSuspended = false;

     for (const auto& animation : animations())
         animation->setSuspended(false);

     m_needsUpdateAnimationSchedule = false;
     timingModelDidChange();
 }

 bool DocumentTimeline::animationsAreSuspended()
 {
     return m_isSuspended;
 }

 unsigned DocumentTimeline::numberOfActiveAnimationsForTesting() const
 {
     unsigned count = 0;
     for (const auto& animation : animations()) {
         if (!animation->isSuspended())
             ++count;
     }
     return count;
 }

 std::optional<Seconds> DocumentTimeline::currentTime()
 {
     if (m_paused || m_isSuspended || !m_document || !m_document->domWindow())
         return AnimationTimeline::currentTime();

     if (!m_cachedCurrentTime) {
         m_cachedCurrentTime = Seconds(m_document->domWindow()->nowTimestamp());
         scheduleInvalidationTaskIfNeeded();
     }
     return m_cachedCurrentTime;
 }

 void DocumentTimeline::pause()
 {
     m_paused = true;
 }

 void DocumentTimeline::timingModelDidChange()
 {
     if (m_needsUpdateAnimationSchedule || m_isSuspended)
         return;

     m_needsUpdateAnimationSchedule = true;

     // We know that we will resolve animations again, so we can cancel the timer right away.
     if (m_animationScheduleTimer.isActive())
         m_animationScheduleTimer.stop();

     scheduleInvalidationTaskIfNeeded();
 }

 void DocumentTimeline::scheduleInvalidationTaskIfNeeded()
 {
     if (m_invalidationTaskQueue.hasPendingTasks())
         return;

     m_invalidationTaskQueue.enqueueTask(std::bind(&DocumentTimeline::performInvalidationTask, this));
 }

 void DocumentTimeline::performInvalidationTask()
 {
     // Now that the timing model has changed we can see if there are DOM events to dispatch for declarative animations.
     for (auto& animation : animations()) {
         if (is<DeclarativeAnimation>(animation))
             downcast<DeclarativeAnimation>(*animation).invalidateDOMEvents();
     }

     applyPendingAcceleratedAnimations();

     updateAnimationSchedule();
     m_cachedCurrentTime = std::nullopt;
 }

 void DocumentTimeline::updateAnimationSchedule()
 {
     if (!m_needsUpdateAnimationSchedule)
         return;

     m_needsUpdateAnimationSchedule = false;

     if (!m_acceleratedAnimationsPendingRunningStateChange.isEmpty()) {
         scheduleAnimationResolution();
         return;
     }

     Seconds scheduleDelay = Seconds::infinity();

     for (const auto& animation : animations()) {
         auto animationTimeToNextRequiredTick = animation->timeToNextRequiredTick();
         if (animationTimeToNextRequiredTick < animationInterval()) {
             scheduleAnimationResolution();
             return;
         }
         scheduleDelay = std::min(scheduleDelay, animationTimeToNextRequiredTick);
     }

     if (scheduleDelay < Seconds::infinity())
         m_animationScheduleTimer.startOneShot(scheduleDelay);
 }

 void DocumentTimeline::animationScheduleTimerFired()
 {
     scheduleAnimationResolution();
 }

 void DocumentTimeline::scheduleAnimationResolution()
 {
 #if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
     DisplayRefreshMonitorManager::sharedManager().scheduleAnimation(*this);
 #else
     // FIXME: We need to use the same logic as ScriptedAnimationController here,
     // which will be addressed by the refactor tracked by webkit.org/b/179293.
     m_animationResolutionTimer.startOneShot(animationInterval());
 #endif
 }

 #if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
 void DocumentTimeline::displayRefreshFired()
 #else
 void DocumentTimeline::animationResolutionTimerFired()
 #endif
 {
     updateAnimations();
 }

 void DocumentTimeline::updateAnimations()
 {
     if (m_document && hasElementAnimations()) {
         for (const auto& elementToAnimationsMapItem : elementToAnimationsMap())
             elementToAnimationsMapItem.key->invalidateStyleAndLayerComposition();
         for (const auto& elementToCSSAnimationsMapItem : elementToCSSAnimationsMap())
             elementToCSSAnimationsMapItem.key->invalidateStyleAndLayerComposition();
         for (const auto& elementToCSSTransitionsMapItem : elementToCSSTransitionsMap())
             elementToCSSTransitionsMapItem.key->invalidateStyleAndLayerComposition();
         m_document->updateStyleIfNeeded();
     }

     // Time has advanced, the timing model requires invalidation now.
     timingModelDidChange();
 }

 bool DocumentTimeline::computeExtentOfAnimation(RenderElement& renderer, LayoutRect& bounds) const
 {
     if (!renderer.element())
         return true;

     KeyframeEffectReadOnly* matchingEffect = nullptr;
     for (const auto& animation : animationsForElement(*renderer.element())) {
         auto* effect = animation->effect();
         if (is<KeyframeEffectReadOnly>(effect)) {
             auto* keyframeEffect = downcast<KeyframeEffectReadOnly>(effect);
             if (keyframeEffect->animatedProperties().contains(CSSPropertyTransform))
                 matchingEffect = downcast<KeyframeEffectReadOnly>(effect);
         }
     }

     if (matchingEffect)
         return matchingEffect->computeExtentOfTransformAnimation(bounds);

     return true;
 }

 bool DocumentTimeline::isRunningAnimationOnRenderer(RenderElement& renderer, CSSPropertyID property) const
 {
     if (!renderer.element())
         return false;

     for (const auto& animation : animationsForElement(*renderer.element())) {
         auto playState = animation->playState();
         if (playState != WebAnimation::PlayState::Running && playState != WebAnimation::PlayState::Paused)
             continue;
         auto* effect = animation->effect();
         if (is<KeyframeEffectReadOnly>(effect) && downcast<KeyframeEffectReadOnly>(effect)->animatedProperties().contains(property))
             return true;
     }

     return false;
 }

 bool DocumentTimeline::isRunningAcceleratedAnimationOnRenderer(RenderElement& renderer, CSSPropertyID property) const
 {
     if (!renderer.element())
         return false;

     for (const auto& animation : animationsForElement(*renderer.element())) {
         auto playState = animation->playState();
         if (playState != WebAnimation::PlayState::Running && playState != WebAnimation::PlayState::Paused)
             continue;
         auto* effect = animation->effect();
         if (is<KeyframeEffectReadOnly>(effect)) {
             auto* keyframeEffect = downcast<KeyframeEffectReadOnly>(effect);
             if (keyframeEffect->isRunningAccelerated() && keyframeEffect->animatedProperties().contains(property))
                 return true;
         }
     }

     return false;
 }

 std::unique_ptr<RenderStyle> DocumentTimeline::animatedStyleForRenderer(RenderElement& renderer)
 {
     std::unique_ptr<RenderStyle> result;

     if (auto* element = renderer.element()) {
         for (const auto& animation : animationsForElement(*element)) {
             if (is<KeyframeEffectReadOnly>(animation->effect()))
                 downcast<KeyframeEffectReadOnly>(animation->effect())->getAnimatedStyle(result);
         }
     }

     if (!result)
         result = RenderStyle::clonePtr(renderer.style());

     return result;
 }

 void DocumentTimeline::animationAcceleratedRunningStateDidChange(WebAnimation& animation)
 {
     m_acceleratedAnimationsPendingRunningStateChange.add(&animation);
 }

 void DocumentTimeline::applyPendingAcceleratedAnimations()
 {
     bool hasForcedLayout = false;
     for (auto& animation : m_acceleratedAnimationsPendingRunningStateChange) {
         if (!hasForcedLayout) {
             auto* effect = animation->effect();
             if (is<KeyframeEffectReadOnly>(effect))
                 hasForcedLayout |= downcast<KeyframeEffectReadOnly>(effect)->forceLayoutIfNeeded();
         }
         animation->applyPendingAcceleratedActions();
     }

     m_acceleratedAnimationsPendingRunningStateChange.clear();
 }

 bool DocumentTimeline::runningAnimationsForElementAreAllAccelerated(Element& element)
 {
     // FIXME: This will let animations run using hardware compositing even if later in the active
     // span of the current animations a new animation should require hardware compositing to be
     // disabled (webkit.org/b/179974).
     auto animations = animationsForElement(element);
     for (const auto& animation : animations) {
         if (is<KeyframeEffectReadOnly>(animation->effect()) && !downcast<KeyframeEffectReadOnly>(animation->effect())->isRunningAccelerated())
             return false;
     }
     return !animations.isEmpty();
 }

 void DocumentTimeline::enqueueAnimationPlaybackEvent(AnimationPlaybackEvent& event)
 {
     m_pendingAnimationEvents.append(event);

     if (!m_eventDispatchTaskQueue.hasPendingTasks())
         m_eventDispatchTaskQueue.enqueueTask(std::bind(&DocumentTimeline::performEventDispatchTask, this));
 }

 static inline bool compareAnimationPlaybackEvents(const Ref<WebCore::AnimationPlaybackEvent>& lhs, const Ref<WebCore::AnimationPlaybackEvent>& rhs)
 {
     // Sort the events by their scheduled event time such that events that were scheduled to occur earlier, sort before events scheduled to occur later
     // and events whose scheduled event time is unresolved sort before events with a resolved scheduled event time.
     if (lhs->timelineTime() && !rhs->timelineTime())
         return false;
     if (!lhs->timelineTime() && rhs->timelineTime())
         return true;
     if (!lhs->timelineTime() && !rhs->timelineTime())
         return true;
     return lhs->timelineTime().value() < rhs->timelineTime().value();
 }

 void DocumentTimeline::performEventDispatchTask()
 {
     if (m_pendingAnimationEvents.isEmpty())
         return;

     auto pendingAnimationEvents = WTFMove(m_pendingAnimationEvents);

     std::stable_sort(pendingAnimationEvents.begin(), pendingAnimationEvents.end(), compareAnimationPlaybackEvents);
     for (auto& pendingEvent : pendingAnimationEvents)
         pendingEvent->target()->dispatchEvent(pendingEvent);
 }

 void DocumentTimeline::windowScreenDidChange(PlatformDisplayID displayID)
 {
 #if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
     DisplayRefreshMonitorManager::sharedManager().windowScreenDidChange(displayID, *this);
 #else
     UNUSED_PARAM(displayID);
 #endif
 }

 #if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
 RefPtr<DisplayRefreshMonitor> DocumentTimeline::createDisplayRefreshMonitor(PlatformDisplayID displayID) const
 {
     if (!m_document || !m_document->page())
         return nullptr;

     if (auto monitor = m_document->page()->chrome().client().createDisplayRefreshMonitor(displayID))
         return monitor;

     return DisplayRefreshMonitor::createDefaultDisplayRefreshMonitor(displayID);
 }
 #endif

 } // namespace WebCore
	/*
	* Copyright (C) 2017 Apple Inc. All rights reserved.
	*
	* 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. ``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
	* 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 "DocumentTimeline.h"

	#include "AnimationPlaybackEvent.h"
	#include "Chrome.h"
	#include "ChromeClient.h"
	#include "DOMWindow.h"
	#include "DeclarativeAnimation.h"
	#include "DisplayRefreshMonitor.h"
	#include "DisplayRefreshMonitorManager.h"
	#include "Document.h"
	#include "KeyframeEffect.h"
	#include "Page.h"
	#include "RenderElement.h"

	static const Seconds defaultAnimationInterval { 15_ms };
	static const Seconds throttledAnimationInterval { 30_ms };

	namespace WebCore {

	Ref<DocumentTimeline> DocumentTimeline::create(Document& document, PlatformDisplayID displayID)
	{
	return adoptRef(*new DocumentTimeline(document, displayID));
	}

	DocumentTimeline::DocumentTimeline(Document& document, PlatformDisplayID displayID)
	: AnimationTimeline(DocumentTimelineClass)
	, m_document(&document)
	, m_animationScheduleTimer(*this, &DocumentTimeline::animationScheduleTimerFired)
	#if !USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
	, m_animationResolutionTimer(*this, &DocumentTimeline::animationResolutionTimerFired)
	#endif
	{
	windowScreenDidChange(displayID);
	}

	DocumentTimeline::~DocumentTimeline()
	{
	m_invalidationTaskQueue.close();
	m_eventDispatchTaskQueue.close();
	}

	void DocumentTimeline::detachFromDocument()
	{
	m_document = nullptr;
	}

	void DocumentTimeline::updateThrottlingState()
	{
	m_needsUpdateAnimationSchedule = false;
	timingModelDidChange();
	}

	Seconds DocumentTimeline::animationInterval() const
	{
	if (!m_document \|\| !m_document->page())
	return Seconds::infinity();
	return m_document->page()->isLowPowerModeEnabled() ? throttledAnimationInterval : defaultAnimationInterval;
	}

	void DocumentTimeline::suspendAnimations()
	{
	if (animationsAreSuspended())
	return;

	m_isSuspended = true;

	m_invalidationTaskQueue.cancelAllTasks();
	if (m_animationScheduleTimer.isActive())
	m_animationScheduleTimer.stop();

	for (const auto& animation : animations())
	animation->setSuspended(true);

	applyPendingAcceleratedAnimations();
	}

	void DocumentTimeline::resumeAnimations()
	{
	if (!animationsAreSuspended())
	return;

	m_isSuspended = false;

	for (const auto& animation : animations())
	animation->setSuspended(false);

	m_needsUpdateAnimationSchedule = false;
	timingModelDidChange();
	}

	bool DocumentTimeline::animationsAreSuspended()
	{
	return m_isSuspended;
	}

	unsigned DocumentTimeline::numberOfActiveAnimationsForTesting() const
	{
	unsigned count = 0;
	for (const auto& animation : animations()) {
	if (!animation->isSuspended())
	++count;
	}
	return count;
	}

	std::optional<Seconds> DocumentTimeline::currentTime()
	{
	if (m_paused \|\| m_isSuspended \|\| !m_document \|\| !m_document->domWindow())
	return AnimationTimeline::currentTime();

	if (!m_cachedCurrentTime) {
	m_cachedCurrentTime = Seconds(m_document->domWindow()->nowTimestamp());
	scheduleInvalidationTaskIfNeeded();
	}
	return m_cachedCurrentTime;
	}

	void DocumentTimeline::pause()
	{
	m_paused = true;
	}

	void DocumentTimeline::timingModelDidChange()
	{
	if (m_needsUpdateAnimationSchedule \|\| m_isSuspended)
	return;

	m_needsUpdateAnimationSchedule = true;

	// We know that we will resolve animations again, so we can cancel the timer right away.
	if (m_animationScheduleTimer.isActive())
	m_animationScheduleTimer.stop();

	scheduleInvalidationTaskIfNeeded();
	}

	void DocumentTimeline::scheduleInvalidationTaskIfNeeded()
	{
	if (m_invalidationTaskQueue.hasPendingTasks())
	return;

	m_invalidationTaskQueue.enqueueTask(std::bind(&DocumentTimeline::performInvalidationTask, this));
	}

	void DocumentTimeline::performInvalidationTask()
	{
	// Now that the timing model has changed we can see if there are DOM events to dispatch for declarative animations.
	for (auto& animation : animations()) {
	if (is<DeclarativeAnimation>(animation))
	downcast<DeclarativeAnimation>(*animation).invalidateDOMEvents();
	}

	applyPendingAcceleratedAnimations();

	updateAnimationSchedule();
	m_cachedCurrentTime = std::nullopt;
	}

	void DocumentTimeline::updateAnimationSchedule()
	{
	if (!m_needsUpdateAnimationSchedule)
	return;

	m_needsUpdateAnimationSchedule = false;

	if (!m_acceleratedAnimationsPendingRunningStateChange.isEmpty()) {
	scheduleAnimationResolution();
	return;
	}

	Seconds scheduleDelay = Seconds::infinity();

	for (const auto& animation : animations()) {
	auto animationTimeToNextRequiredTick = animation->timeToNextRequiredTick();
	if (animationTimeToNextRequiredTick < animationInterval()) {
	scheduleAnimationResolution();
	return;
	}
	scheduleDelay = std::min(scheduleDelay, animationTimeToNextRequiredTick);
	}

	if (scheduleDelay < Seconds::infinity())
	m_animationScheduleTimer.startOneShot(scheduleDelay);
	}

	void DocumentTimeline::animationScheduleTimerFired()
	{
	scheduleAnimationResolution();
	}

	void DocumentTimeline::scheduleAnimationResolution()
	{
	#if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
	DisplayRefreshMonitorManager::sharedManager().scheduleAnimation(*this);
	#else
	// FIXME: We need to use the same logic as ScriptedAnimationController here,
	// which will be addressed by the refactor tracked by webkit.org/b/179293.
	m_animationResolutionTimer.startOneShot(animationInterval());
	#endif
	}

	#if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
	void DocumentTimeline::displayRefreshFired()
	#else
	void DocumentTimeline::animationResolutionTimerFired()
	#endif
	{
	updateAnimations();
	}

	void DocumentTimeline::updateAnimations()
	{
	if (m_document && hasElementAnimations()) {
	for (const auto& elementToAnimationsMapItem : elementToAnimationsMap())
	elementToAnimationsMapItem.key->invalidateStyleAndLayerComposition();
	for (const auto& elementToCSSAnimationsMapItem : elementToCSSAnimationsMap())
	elementToCSSAnimationsMapItem.key->invalidateStyleAndLayerComposition();
	for (const auto& elementToCSSTransitionsMapItem : elementToCSSTransitionsMap())
	elementToCSSTransitionsMapItem.key->invalidateStyleAndLayerComposition();
	m_document->updateStyleIfNeeded();
	}

	// Time has advanced, the timing model requires invalidation now.
	timingModelDidChange();
	}

	bool DocumentTimeline::computeExtentOfAnimation(RenderElement& renderer, LayoutRect& bounds) const
	{
	if (!renderer.element())
	return true;

	KeyframeEffectReadOnly* matchingEffect = nullptr;
	for (const auto& animation : animationsForElement(*renderer.element())) {
	auto* effect = animation->effect();
	if (is<KeyframeEffectReadOnly>(effect)) {
	auto* keyframeEffect = downcast<KeyframeEffectReadOnly>(effect);
	if (keyframeEffect->animatedProperties().contains(CSSPropertyTransform))
	matchingEffect = downcast<KeyframeEffectReadOnly>(effect);
	}
	}

	if (matchingEffect)
	return matchingEffect->computeExtentOfTransformAnimation(bounds);

	return true;
	}

	bool DocumentTimeline::isRunningAnimationOnRenderer(RenderElement& renderer, CSSPropertyID property) const
	{
	if (!renderer.element())
	return false;

	for (const auto& animation : animationsForElement(*renderer.element())) {
	auto playState = animation->playState();
	if (playState != WebAnimation::PlayState::Running && playState != WebAnimation::PlayState::Paused)
	continue;
	auto* effect = animation->effect();
	if (is<KeyframeEffectReadOnly>(effect) && downcast<KeyframeEffectReadOnly>(effect)->animatedProperties().contains(property))
	return true;
	}

	return false;
	}

	bool DocumentTimeline::isRunningAcceleratedAnimationOnRenderer(RenderElement& renderer, CSSPropertyID property) const
	{
	if (!renderer.element())
	return false;

	for (const auto& animation : animationsForElement(*renderer.element())) {
	auto playState = animation->playState();
	if (playState != WebAnimation::PlayState::Running && playState != WebAnimation::PlayState::Paused)
	continue;
	auto* effect = animation->effect();
	if (is<KeyframeEffectReadOnly>(effect)) {
	auto* keyframeEffect = downcast<KeyframeEffectReadOnly>(effect);
	if (keyframeEffect->isRunningAccelerated() && keyframeEffect->animatedProperties().contains(property))
	return true;
	}
	}

	return false;
	}

	std::unique_ptr<RenderStyle> DocumentTimeline::animatedStyleForRenderer(RenderElement& renderer)
	{
	std::unique_ptr<RenderStyle> result;

	if (auto* element = renderer.element()) {
	for (const auto& animation : animationsForElement(*element)) {
	if (is<KeyframeEffectReadOnly>(animation->effect()))
	downcast<KeyframeEffectReadOnly>(animation->effect())->getAnimatedStyle(result);
	}
	}

	if (!result)
	result = RenderStyle::clonePtr(renderer.style());

	return result;
	}

	void DocumentTimeline::animationAcceleratedRunningStateDidChange(WebAnimation& animation)
	{
	m_acceleratedAnimationsPendingRunningStateChange.add(&animation);
	}

	void DocumentTimeline::applyPendingAcceleratedAnimations()
	{
	bool hasForcedLayout = false;
	for (auto& animation : m_acceleratedAnimationsPendingRunningStateChange) {
	if (!hasForcedLayout) {
	auto* effect = animation->effect();
	if (is<KeyframeEffectReadOnly>(effect))
	hasForcedLayout \|= downcast<KeyframeEffectReadOnly>(effect)->forceLayoutIfNeeded();
	}
	animation->applyPendingAcceleratedActions();
	}

	m_acceleratedAnimationsPendingRunningStateChange.clear();
	}

	bool DocumentTimeline::runningAnimationsForElementAreAllAccelerated(Element& element)
	{
	// FIXME: This will let animations run using hardware compositing even if later in the active
	// span of the current animations a new animation should require hardware compositing to be
	// disabled (webkit.org/b/179974).
	auto animations = animationsForElement(element);
	for (const auto& animation : animations) {
	if (is<KeyframeEffectReadOnly>(animation->effect()) && !downcast<KeyframeEffectReadOnly>(animation->effect())->isRunningAccelerated())
	return false;
	}
	return !animations.isEmpty();
	}

	void DocumentTimeline::enqueueAnimationPlaybackEvent(AnimationPlaybackEvent& event)
	{
	m_pendingAnimationEvents.append(event);

	if (!m_eventDispatchTaskQueue.hasPendingTasks())
	m_eventDispatchTaskQueue.enqueueTask(std::bind(&DocumentTimeline::performEventDispatchTask, this));
	}

	static inline bool compareAnimationPlaybackEvents(const Ref<WebCore::AnimationPlaybackEvent>& lhs, const Ref<WebCore::AnimationPlaybackEvent>& rhs)
	{
	// Sort the events by their scheduled event time such that events that were scheduled to occur earlier, sort before events scheduled to occur later
	// and events whose scheduled event time is unresolved sort before events with a resolved scheduled event time.
	if (lhs->timelineTime() && !rhs->timelineTime())
	return false;
	if (!lhs->timelineTime() && rhs->timelineTime())
	return true;
	if (!lhs->timelineTime() && !rhs->timelineTime())
	return true;
	return lhs->timelineTime().value() < rhs->timelineTime().value();
	}

	void DocumentTimeline::performEventDispatchTask()
	{
	if (m_pendingAnimationEvents.isEmpty())
	return;

	auto pendingAnimationEvents = WTFMove(m_pendingAnimationEvents);

	std::stable_sort(pendingAnimationEvents.begin(), pendingAnimationEvents.end(), compareAnimationPlaybackEvents);
	for (auto& pendingEvent : pendingAnimationEvents)
	pendingEvent->target()->dispatchEvent(pendingEvent);
	}

	void DocumentTimeline::windowScreenDidChange(PlatformDisplayID displayID)
	{
	#if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
	DisplayRefreshMonitorManager::sharedManager().windowScreenDidChange(displayID, *this);
	#else
	UNUSED_PARAM(displayID);
	#endif
	}

	#if USE(REQUEST_ANIMATION_FRAME_DISPLAY_MONITOR)
	RefPtr<DisplayRefreshMonitor> DocumentTimeline::createDisplayRefreshMonitor(PlatformDisplayID displayID) const
	{
	if (!m_document \|\| !m_document->page())
	return nullptr;

	if (auto monitor = m_document->page()->chrome().client().createDisplayRefreshMonitor(displayID))
	return monitor;

	return DisplayRefreshMonitor::createDefaultDisplayRefreshMonitor(displayID);
	}
	#endif

	} // namespace WebCore