Source/WebCore/page/scrolling/ScrollingTreeScrollingNode.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2012 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. 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 "ScrollingTreeScrollingNode.h"

 #if ENABLE(ASYNC_SCROLLING)

 #include "Logging.h"
 #if ENABLE(SCROLLING_THREAD)
 #include "ScrollingStateFrameScrollingNode.h"
 #endif
 #include "ScrollingEffectsController.h"
 #include "ScrollingStateScrollingNode.h"
 #include "ScrollingStateTree.h"
 #include "ScrollingTree.h"
 #include <wtf/text/TextStream.h>

 namespace WebCore {

 ScrollingTreeScrollingNode::ScrollingTreeScrollingNode(ScrollingTree& scrollingTree, ScrollingNodeType nodeType, ScrollingNodeID nodeID)
     : ScrollingTreeNode(scrollingTree, nodeType, nodeID)
 {
 }

 ScrollingTreeScrollingNode::~ScrollingTreeScrollingNode() = default;

 void ScrollingTreeScrollingNode::commitStateBeforeChildren(const ScrollingStateNode& stateNode)
 {
     const ScrollingStateScrollingNode& state = downcast<ScrollingStateScrollingNode>(stateNode);

     if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollableAreaSize))
         m_scrollableAreaSize = state.scrollableAreaSize();

     if (state.hasChangedProperty(ScrollingStateNode::Property::TotalContentsSize)) {
         if (scrollingTree().isRubberBandInProgressForNode(scrollingNodeID()))
             m_totalContentsSizeForRubberBand = m_totalContentsSize;
         else
             m_totalContentsSizeForRubberBand = state.totalContentsSize();

         m_totalContentsSize = state.totalContentsSize();
     }

     if (state.hasChangedProperty(ScrollingStateNode::Property::ReachableContentsSize))
         m_reachableContentsSize = state.reachableContentsSize();

     if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollPosition)) {
         m_lastCommittedScrollPosition = state.scrollPosition();
         if (m_isFirstCommit && !state.hasScrollPositionRequest())
             m_currentScrollPosition = m_lastCommittedScrollPosition;
     }

     if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollOrigin))
         m_scrollOrigin = state.scrollOrigin();

     if (state.hasChangedProperty(ScrollingStateNode::Property::SnapOffsetsInfo))
         m_snapOffsetsInfo = state.snapOffsetsInfo();

     if (state.hasChangedProperty(ScrollingStateNode::Property::CurrentHorizontalSnapOffsetIndex))
         m_currentHorizontalSnapPointIndex = state.currentHorizontalSnapPointIndex();

     if (state.hasChangedProperty(ScrollingStateNode::Property::CurrentVerticalSnapOffsetIndex))
         m_currentVerticalSnapPointIndex = state.currentVerticalSnapPointIndex();

     if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollableAreaParams))
         m_scrollableAreaParameters = state.scrollableAreaParameters();

 #if ENABLE(SCROLLING_THREAD)
     if (state.hasChangedProperty(ScrollingStateNode::Property::ReasonsForSynchronousScrolling))
         m_synchronousScrollingReasons = state.synchronousScrollingReasons();
 #endif

     if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollContainerLayer))
         m_scrollContainerLayer = state.scrollContainerLayer();

     if (state.hasChangedProperty(ScrollingStateNode::Property::ScrolledContentsLayer))
         m_scrolledContentsLayer = state.scrolledContentsLayer();
 }

 void ScrollingTreeScrollingNode::commitStateAfterChildren(const ScrollingStateNode& stateNode)
 {
     const ScrollingStateScrollingNode& scrollingStateNode = downcast<ScrollingStateScrollingNode>(stateNode);
     if (scrollingStateNode.hasChangedProperty(ScrollingStateNode::Property::RequestedScrollPosition))
         handleScrollPositionRequest(scrollingStateNode.requestedScrollData());

     // This synthetic bit is added back in ScrollingTree::propagateSynchronousScrollingReasons().
 #if ENABLE(SCROLLING_THREAD)
     m_synchronousScrollingReasons.remove(SynchronousScrollingReason::DescendantScrollersHaveSynchronousScrolling);
 #endif
     m_isFirstCommit = false;
 }

 void ScrollingTreeScrollingNode::didCompleteCommitForNode()
 {
     m_scrolledSinceLastCommit = false;
 }

 bool ScrollingTreeScrollingNode::isLatchedNode() const
 {
     return scrollingTree().latchedNodeID() == scrollingNodeID();
 }

 bool ScrollingTreeScrollingNode::shouldRubberBand(const PlatformWheelEvent& wheelEvent, EventTargeting eventTargeting) const
 {
     // We always rubber-band the latched node, or the root node.
     // The stateless wheel event doesn't trigger rubber-band.
     // Also rubberband when we should block scroll propagation
     // at this node, which has overscroll behavior that is not none.
     auto scrollPropagationInfo = computeScrollPropagation(wheelEvent.delta());
     return (isLatchedNode() || eventTargeting == EventTargeting::NodeOnly || (isRootNode() && !wheelEvent.isNonGestureEvent()) || ( scrollPropagationInfo.shouldBlockScrollPropagation && scrollPropagationInfo.isHandled && overscrollBehaviorAllowsRubberBand()));
 }

 bool ScrollingTreeScrollingNode::canHandleWheelEvent(const PlatformWheelEvent& wheelEvent, EventTargeting eventTargeting) const
 {
     if (!canHaveScrollbars())
         return false;

     // MayBegin is used to flash scrollbars; if this node is scrollable, it can handle it.
     if (wheelEvent.phase() == PlatformWheelEventPhase::MayBegin)
         return true;

     if (shouldRubberBand(wheelEvent, eventTargeting))
         return true;

     return eventCanScrollContents(wheelEvent);
 }

 WheelEventHandlingResult ScrollingTreeScrollingNode::handleWheelEvent(const PlatformWheelEvent&, EventTargeting)
 {
     return WheelEventHandlingResult::unhandled();
 }

 FloatPoint ScrollingTreeScrollingNode::clampScrollPosition(const FloatPoint& scrollPosition) const
 {
     return scrollPosition.constrainedBetween(minimumScrollPosition(), maximumScrollPosition());
 }

 FloatPoint ScrollingTreeScrollingNode::minimumScrollPosition() const
 {
     auto minimumScrollOffset = FloatPoint { };
     return ScrollableArea::scrollPositionFromOffset(minimumScrollOffset, toFloatSize(scrollOrigin()));
 }

 FloatPoint ScrollingTreeScrollingNode::maximumScrollPosition() const
 {
     FloatPoint contentSizePoint(totalContentsSize());
     auto maximumScrollOffset = FloatPoint(contentSizePoint - scrollableAreaSize()).expandedTo(FloatPoint());
     return ScrollableArea::scrollPositionFromOffset(maximumScrollOffset, toFloatSize(scrollOrigin()));
 }

 bool ScrollingTreeScrollingNode::eventCanScrollContents(const PlatformWheelEvent& wheelEvent) const
 {
 #if PLATFORM(GTK)
     // In case of GTK platform the end of momentum scroll events
     // always have a delta of 0. More information in the documentation
     // of the API gdk_event_is_scroll_stop_event.
     if (wheelEvent.isEndOfNonMomentumScroll())
         return true;
 #endif

     if (wheelEvent.delta().isZero())
         return false;

     auto wheelDelta = wheelEvent.delta();

     if (!m_scrollableAreaParameters.allowsHorizontalScrolling)
         wheelDelta.setWidth(0);

     if (!m_scrollableAreaParameters.allowsVerticalScrolling)
         wheelDelta.setHeight(0);

     auto oldScrollPosition = currentScrollPosition();
     auto newScrollPosition = (oldScrollPosition - wheelDelta).constrainedBetween(minimumScrollPosition(), maximumScrollPosition());
     return newScrollPosition != oldScrollPosition;
 }

 RectEdges<bool> ScrollingTreeScrollingNode::edgePinnedState() const
 {
     auto scrollPosition = currentScrollPosition();
     auto minScrollPosition = minimumScrollPosition();
     auto maxScrollPosition = maximumScrollPosition();

     bool horizontallyUnscrollable = !allowsHorizontalScrolling();
     bool verticallyUnscrollable = !allowsVerticalScrolling();

     // Top, right, bottom, left.
     return {
         verticallyUnscrollable || scrollPosition.y() <= minScrollPosition.y(),
         horizontallyUnscrollable || scrollPosition.x() >= maxScrollPosition.x(),
         verticallyUnscrollable || scrollPosition.y() >= maxScrollPosition.y(),
         horizontallyUnscrollable || scrollPosition.x() <= minScrollPosition.x()
     };
 }

 bool ScrollingTreeScrollingNode::isUserScrollInProgress() const
 {
     return scrollingTree().isUserScrollInProgressForNode(scrollingNodeID());
 }

 void ScrollingTreeScrollingNode::setUserScrollInProgress(bool isUserScrolling)
 {
     scrollingTree().setUserScrollInProgressForNode(scrollingNodeID(), isUserScrolling);
 }

 bool ScrollingTreeScrollingNode::isScrollSnapInProgress() const
 {
     return scrollingTree().isScrollSnapInProgressForNode(scrollingNodeID());
 }

 void ScrollingTreeScrollingNode::setScrollSnapInProgress(bool isSnapping)
 {
     scrollingTree().setNodeScrollSnapInProgress(scrollingNodeID(), isSnapping);
 }

 void ScrollingTreeScrollingNode::willStartAnimatedScroll()
 {
 }

 void ScrollingTreeScrollingNode::didStopAnimatedScroll()
 {
     LOG_WITH_STREAM(Scrolling, stream << "ScrollingTreeScrollingNode " << scrollingNodeID() << " didStopAnimatedScroll");
     scrollingTree().scrollingTreeNodeDidStopAnimatedScroll(*this);
 }

 void ScrollingTreeScrollingNode::setScrollAnimationInProgress(bool animationInProgress)
 {
     scrollingTree().setScrollAnimationInProgressForNode(scrollingNodeID(), animationInProgress);
 }

 void ScrollingTreeScrollingNode::handleScrollPositionRequest(const RequestedScrollData& requestedScrollData)
 {
     LOG_WITH_STREAM(Scrolling, stream << "ScrollingTreeScrollingNode " << scrollingNodeID() << " handleScrollPositionRequest() - position " << requestedScrollData.scrollPosition << " animated " << (requestedScrollData.animated == ScrollIsAnimated::Yes));

     stopAnimatedScroll();

     if (requestedScrollData.requestType == ScrollRequestType::CancelAnimatedScroll) {
         scrollingTree().removePendingScrollAnimationForNode(scrollingNodeID());
         return;
     }

     if (scrollingTree().scrollingTreeNodeRequestsScroll(scrollingNodeID(), requestedScrollData))
         return;

     if (requestedScrollData.animated == ScrollIsAnimated::Yes) {
         startAnimatedScrollToPosition(requestedScrollData.scrollPosition);
         return;
     }

     scrollTo(requestedScrollData.scrollPosition, requestedScrollData.scrollType, requestedScrollData.clamping);
 }

 FloatPoint ScrollingTreeScrollingNode::adjustedScrollPosition(const FloatPoint& scrollPosition, ScrollClamping clamping) const
 {
     if (clamping == ScrollClamping::Clamped)
         return clampScrollPosition(scrollPosition);

     return scrollPosition;
 }

 void ScrollingTreeScrollingNode::scrollBy(const FloatSize& delta, ScrollClamping clamp)
 {
     scrollTo(currentScrollPosition() + delta, ScrollType::User, clamp);
 }

 void ScrollingTreeScrollingNode::scrollTo(const FloatPoint& position, ScrollType scrollType, ScrollClamping clamp)
 {
     if (position == m_currentScrollPosition)
         return;

     scrollingTree().setIsHandlingProgrammaticScroll(scrollType == ScrollType::Programmatic);

     if (scrollType == ScrollType::Programmatic)
         willDoProgrammaticScroll(position);

     m_currentScrollPosition = adjustedScrollPosition(position, clamp);

     LOG_WITH_STREAM(Scrolling, stream << "ScrollingTreeScrollingNode " << scrollingNodeID() << " scrollTo " << position << " adjusted to "
         << m_currentScrollPosition << " (" << scrollType << ", " << clamp << ") (delta from last committed position " << (m_lastCommittedScrollPosition - m_currentScrollPosition) << ")"
         << " rubberbanding " << scrollingTree().isRubberBandInProgressForNode(scrollingNodeID()));

     updateViewportForCurrentScrollPosition();
     currentScrollPositionChanged(scrollType);

     scrollingTree().setIsHandlingProgrammaticScroll(false);
 }

 void ScrollingTreeScrollingNode::currentScrollPositionChanged(ScrollType, ScrollingLayerPositionAction action)
 {
     m_scrolledSinceLastCommit = true;
     scrollingTree().scrollingTreeNodeDidScroll(*this, action);
 }

 bool ScrollingTreeScrollingNode::scrollPositionAndLayoutViewportMatch(const FloatPoint& position, std::optional<FloatRect>)
 {
     return position == m_currentScrollPosition;
 }

 void ScrollingTreeScrollingNode::applyLayerPositions()
 {
     repositionScrollingLayers();
     repositionRelatedLayers();
 }

 void ScrollingTreeScrollingNode::wasScrolledByDelegatedScrolling(const FloatPoint& position, std::optional<FloatRect> overrideLayoutViewport, ScrollingLayerPositionAction scrollingLayerPositionAction)
 {
     bool scrollPositionChanged = !scrollPositionAndLayoutViewportMatch(position, overrideLayoutViewport);
     if (!scrollPositionChanged && scrollingLayerPositionAction != ScrollingLayerPositionAction::Set)
         return;

     m_currentScrollPosition = adjustedScrollPosition(position, ScrollClamping::Unclamped);
     updateViewportForCurrentScrollPosition(overrideLayoutViewport);

     repositionRelatedLayers();

     scrollingTree().notifyRelatedNodesAfterScrollPositionChange(*this);
     scrollingTree().scrollingTreeNodeDidScroll(*this, scrollingLayerPositionAction);
     scrollingTree().setNeedsApplyLayerPositionsAfterCommit();
 }

 void ScrollingTreeScrollingNode::dumpProperties(TextStream& ts, OptionSet<ScrollingStateTreeAsTextBehavior> behavior) const
 {
     ScrollingTreeNode::dumpProperties(ts, behavior);
     ts.dumpProperty("scrollable area size", m_scrollableAreaSize);
     ts.dumpProperty("total content size", m_totalContentsSize);
     if (m_totalContentsSizeForRubberBand != m_totalContentsSize)
         ts.dumpProperty("total content size for rubber band", m_totalContentsSizeForRubberBand);
     if (m_reachableContentsSize != m_totalContentsSize)
         ts.dumpProperty("reachable content size", m_reachableContentsSize);
     ts.dumpProperty("last committed scroll position", m_lastCommittedScrollPosition);

     if (!m_currentScrollPosition.isZero())
         ts.dumpProperty("scroll position", m_currentScrollPosition);

     if (!m_scrollOrigin.isZero())
         ts.dumpProperty("scroll origin", m_scrollOrigin);

     if (m_snapOffsetsInfo.horizontalSnapOffsets.size())
         ts.dumpProperty("horizontal snap offsets", m_snapOffsetsInfo.horizontalSnapOffsets);

     if (m_snapOffsetsInfo.verticalSnapOffsets.size())
         ts.dumpProperty("vertical snap offsets", m_snapOffsetsInfo.verticalSnapOffsets);

     if (m_currentHorizontalSnapPointIndex)
         ts.dumpProperty("current horizontal snap point index", m_currentHorizontalSnapPointIndex);

     if (m_currentVerticalSnapPointIndex)
         ts.dumpProperty("current vertical snap point index", m_currentVerticalSnapPointIndex);

     ts.dumpProperty("scrollable area parameters", m_scrollableAreaParameters);

 #if ENABLE(SCROLLING_THREAD)
     if (!m_synchronousScrollingReasons.isEmpty())
         ts.dumpProperty("synchronous scrolling reasons", ScrollingCoordinator::synchronousScrollingReasonsAsText(m_synchronousScrollingReasons));
 #endif
 }

 const FloatScrollSnapOffsetsInfo& ScrollingTreeScrollingNode::snapOffsetsInfo() const
 {
     return m_snapOffsetsInfo;
 }

 std::optional<unsigned> ScrollingTreeScrollingNode::currentHorizontalSnapPointIndex() const
 {
     return m_currentHorizontalSnapPointIndex;
 }

 std::optional<unsigned> ScrollingTreeScrollingNode::currentVerticalSnapPointIndex() const
 {
     return m_currentVerticalSnapPointIndex;
 }

 void ScrollingTreeScrollingNode::setCurrentHorizontalSnapPointIndex(std::optional<unsigned> index)
 {
     m_currentHorizontalSnapPointIndex = index;
 }

 void ScrollingTreeScrollingNode::setCurrentVerticalSnapPointIndex(std::optional<unsigned> index)
 {
     m_currentVerticalSnapPointIndex = index;
 }

 PlatformWheelEvent ScrollingTreeScrollingNode::eventForPropagation(const PlatformWheelEvent& wheelEvent) const
 {
     auto filteredDelta = wheelEvent.delta();
 #if PLATFORM(MAC)
     auto biasedDelta = ScrollingEffectsController::wheelDeltaBiasingTowardsVertical(wheelEvent.delta());
 #else
     auto biasedDelta = wheelEvent.delta();
 #endif
     if (horizontalOverscrollBehaviorPreventsPropagation() || verticalOverscrollBehaviorPreventsPropagation()) {
         if(horizontalOverscrollBehaviorPreventsPropagation() || (verticalOverscrollBehaviorPreventsPropagation() && !biasedDelta.width()))
            filteredDelta.setWidth(0);
         if(verticalOverscrollBehaviorPreventsPropagation() || (horizontalOverscrollBehaviorPreventsPropagation() && !biasedDelta.height()))
            filteredDelta.setHeight(0);
         return wheelEvent.copyWithDeltaAndVelocity(filteredDelta, wheelEvent.scrollingVelocity());
     }
     return wheelEvent;
 }

 ScrollPropagationInfo ScrollingTreeScrollingNode::computeScrollPropagation(const FloatSize& delta) const
 {
     ScrollPropagationInfo propagation;
     if (!horizontalOverscrollBehaviorPreventsPropagation() && !verticalOverscrollBehaviorPreventsPropagation())
         return propagation;

     // History swipe case
     if (horizontalOverscrollBehaviorPreventsPropagation() && !delta.height() && delta.width()) {
         propagation.shouldBlockScrollPropagation = true;
         propagation.isHandled = false;
         return propagation;
     }

     if ((horizontalOverscrollBehaviorPreventsPropagation() && verticalOverscrollBehaviorPreventsPropagation())
         || (horizontalOverscrollBehaviorPreventsPropagation() && !delta.height())
         || (verticalOverscrollBehaviorPreventsPropagation() && !delta.width())) {
         propagation.shouldBlockScrollPropagation = true;
         propagation.isHandled = true;
     }
     return propagation;
 }

 } // namespace WebCore

 #endif // ENABLE(ASYNC_SCROLLING)
	/*
	* Copyright (C) 2012 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. 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 "ScrollingTreeScrollingNode.h"

	#if ENABLE(ASYNC_SCROLLING)

	#include "Logging.h"
	#if ENABLE(SCROLLING_THREAD)
	#include "ScrollingStateFrameScrollingNode.h"
	#endif
	#include "ScrollingEffectsController.h"
	#include "ScrollingStateScrollingNode.h"
	#include "ScrollingStateTree.h"
	#include "ScrollingTree.h"
	#include <wtf/text/TextStream.h>

	namespace WebCore {

	ScrollingTreeScrollingNode::ScrollingTreeScrollingNode(ScrollingTree& scrollingTree, ScrollingNodeType nodeType, ScrollingNodeID nodeID)
	: ScrollingTreeNode(scrollingTree, nodeType, nodeID)
	{
	}

	ScrollingTreeScrollingNode::~ScrollingTreeScrollingNode() = default;

	void ScrollingTreeScrollingNode::commitStateBeforeChildren(const ScrollingStateNode& stateNode)
	{
	const ScrollingStateScrollingNode& state = downcast<ScrollingStateScrollingNode>(stateNode);

	if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollableAreaSize))
	m_scrollableAreaSize = state.scrollableAreaSize();

	if (state.hasChangedProperty(ScrollingStateNode::Property::TotalContentsSize)) {
	if (scrollingTree().isRubberBandInProgressForNode(scrollingNodeID()))
	m_totalContentsSizeForRubberBand = m_totalContentsSize;
	else
	m_totalContentsSizeForRubberBand = state.totalContentsSize();

	m_totalContentsSize = state.totalContentsSize();
	}

	if (state.hasChangedProperty(ScrollingStateNode::Property::ReachableContentsSize))
	m_reachableContentsSize = state.reachableContentsSize();

	if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollPosition)) {
	m_lastCommittedScrollPosition = state.scrollPosition();
	if (m_isFirstCommit && !state.hasScrollPositionRequest())
	m_currentScrollPosition = m_lastCommittedScrollPosition;
	}

	if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollOrigin))
	m_scrollOrigin = state.scrollOrigin();

	if (state.hasChangedProperty(ScrollingStateNode::Property::SnapOffsetsInfo))
	m_snapOffsetsInfo = state.snapOffsetsInfo();

	if (state.hasChangedProperty(ScrollingStateNode::Property::CurrentHorizontalSnapOffsetIndex))
	m_currentHorizontalSnapPointIndex = state.currentHorizontalSnapPointIndex();

	if (state.hasChangedProperty(ScrollingStateNode::Property::CurrentVerticalSnapOffsetIndex))
	m_currentVerticalSnapPointIndex = state.currentVerticalSnapPointIndex();

	if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollableAreaParams))
	m_scrollableAreaParameters = state.scrollableAreaParameters();

	#if ENABLE(SCROLLING_THREAD)
	if (state.hasChangedProperty(ScrollingStateNode::Property::ReasonsForSynchronousScrolling))
	m_synchronousScrollingReasons = state.synchronousScrollingReasons();
	#endif

	if (state.hasChangedProperty(ScrollingStateNode::Property::ScrollContainerLayer))
	m_scrollContainerLayer = state.scrollContainerLayer();

	if (state.hasChangedProperty(ScrollingStateNode::Property::ScrolledContentsLayer))
	m_scrolledContentsLayer = state.scrolledContentsLayer();
	}

	void ScrollingTreeScrollingNode::commitStateAfterChildren(const ScrollingStateNode& stateNode)
	{
	const ScrollingStateScrollingNode& scrollingStateNode = downcast<ScrollingStateScrollingNode>(stateNode);
	if (scrollingStateNode.hasChangedProperty(ScrollingStateNode::Property::RequestedScrollPosition))
	handleScrollPositionRequest(scrollingStateNode.requestedScrollData());

	// This synthetic bit is added back in ScrollingTree::propagateSynchronousScrollingReasons().
	#if ENABLE(SCROLLING_THREAD)
	m_synchronousScrollingReasons.remove(SynchronousScrollingReason::DescendantScrollersHaveSynchronousScrolling);
	#endif
	m_isFirstCommit = false;
	}

	void ScrollingTreeScrollingNode::didCompleteCommitForNode()
	{
	m_scrolledSinceLastCommit = false;
	}

	bool ScrollingTreeScrollingNode::isLatchedNode() const
	{
	return scrollingTree().latchedNodeID() == scrollingNodeID();
	}

	bool ScrollingTreeScrollingNode::shouldRubberBand(const PlatformWheelEvent& wheelEvent, EventTargeting eventTargeting) const
	{
	// We always rubber-band the latched node, or the root node.
	// The stateless wheel event doesn't trigger rubber-band.
	// Also rubberband when we should block scroll propagation
	// at this node, which has overscroll behavior that is not none.
	auto scrollPropagationInfo = computeScrollPropagation(wheelEvent.delta());
	return (isLatchedNode() \|\| eventTargeting == EventTargeting::NodeOnly \|\| (isRootNode() && !wheelEvent.isNonGestureEvent()) \|\| ( scrollPropagationInfo.shouldBlockScrollPropagation && scrollPropagationInfo.isHandled && overscrollBehaviorAllowsRubberBand()));
	}

	bool ScrollingTreeScrollingNode::canHandleWheelEvent(const PlatformWheelEvent& wheelEvent, EventTargeting eventTargeting) const
	{
	if (!canHaveScrollbars())
	return false;

	// MayBegin is used to flash scrollbars; if this node is scrollable, it can handle it.
	if (wheelEvent.phase() == PlatformWheelEventPhase::MayBegin)
	return true;

	if (shouldRubberBand(wheelEvent, eventTargeting))
	return true;

	return eventCanScrollContents(wheelEvent);
	}

	WheelEventHandlingResult ScrollingTreeScrollingNode::handleWheelEvent(const PlatformWheelEvent&, EventTargeting)
	{
	return WheelEventHandlingResult::unhandled();
	}

	FloatPoint ScrollingTreeScrollingNode::clampScrollPosition(const FloatPoint& scrollPosition) const
	{
	return scrollPosition.constrainedBetween(minimumScrollPosition(), maximumScrollPosition());
	}

	FloatPoint ScrollingTreeScrollingNode::minimumScrollPosition() const
	{
	auto minimumScrollOffset = FloatPoint { };
	return ScrollableArea::scrollPositionFromOffset(minimumScrollOffset, toFloatSize(scrollOrigin()));
	}

	FloatPoint ScrollingTreeScrollingNode::maximumScrollPosition() const
	{
	FloatPoint contentSizePoint(totalContentsSize());
	auto maximumScrollOffset = FloatPoint(contentSizePoint - scrollableAreaSize()).expandedTo(FloatPoint());
	return ScrollableArea::scrollPositionFromOffset(maximumScrollOffset, toFloatSize(scrollOrigin()));
	}

	bool ScrollingTreeScrollingNode::eventCanScrollContents(const PlatformWheelEvent& wheelEvent) const
	{
	#if PLATFORM(GTK)
	// In case of GTK platform the end of momentum scroll events
	// always have a delta of 0. More information in the documentation
	// of the API gdk_event_is_scroll_stop_event.
	if (wheelEvent.isEndOfNonMomentumScroll())
	return true;
	#endif

	if (wheelEvent.delta().isZero())
	return false;

	auto wheelDelta = wheelEvent.delta();

	if (!m_scrollableAreaParameters.allowsHorizontalScrolling)
	wheelDelta.setWidth(0);

	if (!m_scrollableAreaParameters.allowsVerticalScrolling)
	wheelDelta.setHeight(0);

	auto oldScrollPosition = currentScrollPosition();
	auto newScrollPosition = (oldScrollPosition - wheelDelta).constrainedBetween(minimumScrollPosition(), maximumScrollPosition());
	return newScrollPosition != oldScrollPosition;
	}

	RectEdges<bool> ScrollingTreeScrollingNode::edgePinnedState() const
	{
	auto scrollPosition = currentScrollPosition();
	auto minScrollPosition = minimumScrollPosition();
	auto maxScrollPosition = maximumScrollPosition();

	bool horizontallyUnscrollable = !allowsHorizontalScrolling();
	bool verticallyUnscrollable = !allowsVerticalScrolling();

	// Top, right, bottom, left.
	return {
	verticallyUnscrollable \|\| scrollPosition.y() <= minScrollPosition.y(),
	horizontallyUnscrollable \|\| scrollPosition.x() >= maxScrollPosition.x(),
	verticallyUnscrollable \|\| scrollPosition.y() >= maxScrollPosition.y(),
	horizontallyUnscrollable \|\| scrollPosition.x() <= minScrollPosition.x()
	};
	}

	bool ScrollingTreeScrollingNode::isUserScrollInProgress() const
	{
	return scrollingTree().isUserScrollInProgressForNode(scrollingNodeID());
	}

	void ScrollingTreeScrollingNode::setUserScrollInProgress(bool isUserScrolling)
	{
	scrollingTree().setUserScrollInProgressForNode(scrollingNodeID(), isUserScrolling);
	}

	bool ScrollingTreeScrollingNode::isScrollSnapInProgress() const
	{
	return scrollingTree().isScrollSnapInProgressForNode(scrollingNodeID());
	}

	void ScrollingTreeScrollingNode::setScrollSnapInProgress(bool isSnapping)
	{
	scrollingTree().setNodeScrollSnapInProgress(scrollingNodeID(), isSnapping);
	}

	void ScrollingTreeScrollingNode::willStartAnimatedScroll()
	{
	}

	void ScrollingTreeScrollingNode::didStopAnimatedScroll()
	{
	LOG_WITH_STREAM(Scrolling, stream << "ScrollingTreeScrollingNode " << scrollingNodeID() << " didStopAnimatedScroll");
	scrollingTree().scrollingTreeNodeDidStopAnimatedScroll(*this);
	}

	void ScrollingTreeScrollingNode::setScrollAnimationInProgress(bool animationInProgress)
	{
	scrollingTree().setScrollAnimationInProgressForNode(scrollingNodeID(), animationInProgress);
	}

	void ScrollingTreeScrollingNode::handleScrollPositionRequest(const RequestedScrollData& requestedScrollData)
	{
	LOG_WITH_STREAM(Scrolling, stream << "ScrollingTreeScrollingNode " << scrollingNodeID() << " handleScrollPositionRequest() - position " << requestedScrollData.scrollPosition << " animated " << (requestedScrollData.animated == ScrollIsAnimated::Yes));

	stopAnimatedScroll();

	if (requestedScrollData.requestType == ScrollRequestType::CancelAnimatedScroll) {
	scrollingTree().removePendingScrollAnimationForNode(scrollingNodeID());
	return;
	}

	if (scrollingTree().scrollingTreeNodeRequestsScroll(scrollingNodeID(), requestedScrollData))
	return;

	if (requestedScrollData.animated == ScrollIsAnimated::Yes) {
	startAnimatedScrollToPosition(requestedScrollData.scrollPosition);
	return;
	}

	scrollTo(requestedScrollData.scrollPosition, requestedScrollData.scrollType, requestedScrollData.clamping);
	}

	FloatPoint ScrollingTreeScrollingNode::adjustedScrollPosition(const FloatPoint& scrollPosition, ScrollClamping clamping) const
	{
	if (clamping == ScrollClamping::Clamped)
	return clampScrollPosition(scrollPosition);

	return scrollPosition;
	}

	void ScrollingTreeScrollingNode::scrollBy(const FloatSize& delta, ScrollClamping clamp)
	{
	scrollTo(currentScrollPosition() + delta, ScrollType::User, clamp);
	}

	void ScrollingTreeScrollingNode::scrollTo(const FloatPoint& position, ScrollType scrollType, ScrollClamping clamp)
	{
	if (position == m_currentScrollPosition)
	return;

	scrollingTree().setIsHandlingProgrammaticScroll(scrollType == ScrollType::Programmatic);

	if (scrollType == ScrollType::Programmatic)
	willDoProgrammaticScroll(position);

	m_currentScrollPosition = adjustedScrollPosition(position, clamp);

	LOG_WITH_STREAM(Scrolling, stream << "ScrollingTreeScrollingNode " << scrollingNodeID() << " scrollTo " << position << " adjusted to "
	<< m_currentScrollPosition << " (" << scrollType << ", " << clamp << ") (delta from last committed position " << (m_lastCommittedScrollPosition - m_currentScrollPosition) << ")"
	<< " rubberbanding " << scrollingTree().isRubberBandInProgressForNode(scrollingNodeID()));

	updateViewportForCurrentScrollPosition();
	currentScrollPositionChanged(scrollType);

	scrollingTree().setIsHandlingProgrammaticScroll(false);
	}

	void ScrollingTreeScrollingNode::currentScrollPositionChanged(ScrollType, ScrollingLayerPositionAction action)
	{
	m_scrolledSinceLastCommit = true;
	scrollingTree().scrollingTreeNodeDidScroll(*this, action);
	}

	bool ScrollingTreeScrollingNode::scrollPositionAndLayoutViewportMatch(const FloatPoint& position, std::optional<FloatRect>)
	{
	return position == m_currentScrollPosition;
	}

	void ScrollingTreeScrollingNode::applyLayerPositions()
	{
	repositionScrollingLayers();
	repositionRelatedLayers();
	}

	void ScrollingTreeScrollingNode::wasScrolledByDelegatedScrolling(const FloatPoint& position, std::optional<FloatRect> overrideLayoutViewport, ScrollingLayerPositionAction scrollingLayerPositionAction)
	{
	bool scrollPositionChanged = !scrollPositionAndLayoutViewportMatch(position, overrideLayoutViewport);
	if (!scrollPositionChanged && scrollingLayerPositionAction != ScrollingLayerPositionAction::Set)
	return;

	m_currentScrollPosition = adjustedScrollPosition(position, ScrollClamping::Unclamped);
	updateViewportForCurrentScrollPosition(overrideLayoutViewport);

	repositionRelatedLayers();

	scrollingTree().notifyRelatedNodesAfterScrollPositionChange(*this);
	scrollingTree().scrollingTreeNodeDidScroll(*this, scrollingLayerPositionAction);
	scrollingTree().setNeedsApplyLayerPositionsAfterCommit();
	}

	void ScrollingTreeScrollingNode::dumpProperties(TextStream& ts, OptionSet<ScrollingStateTreeAsTextBehavior> behavior) const
	{
	ScrollingTreeNode::dumpProperties(ts, behavior);
	ts.dumpProperty("scrollable area size", m_scrollableAreaSize);
	ts.dumpProperty("total content size", m_totalContentsSize);
	if (m_totalContentsSizeForRubberBand != m_totalContentsSize)
	ts.dumpProperty("total content size for rubber band", m_totalContentsSizeForRubberBand);
	if (m_reachableContentsSize != m_totalContentsSize)
	ts.dumpProperty("reachable content size", m_reachableContentsSize);
	ts.dumpProperty("last committed scroll position", m_lastCommittedScrollPosition);

	if (!m_currentScrollPosition.isZero())
	ts.dumpProperty("scroll position", m_currentScrollPosition);

	if (!m_scrollOrigin.isZero())
	ts.dumpProperty("scroll origin", m_scrollOrigin);

	if (m_snapOffsetsInfo.horizontalSnapOffsets.size())
	ts.dumpProperty("horizontal snap offsets", m_snapOffsetsInfo.horizontalSnapOffsets);

	if (m_snapOffsetsInfo.verticalSnapOffsets.size())
	ts.dumpProperty("vertical snap offsets", m_snapOffsetsInfo.verticalSnapOffsets);

	if (m_currentHorizontalSnapPointIndex)
	ts.dumpProperty("current horizontal snap point index", m_currentHorizontalSnapPointIndex);

	if (m_currentVerticalSnapPointIndex)
	ts.dumpProperty("current vertical snap point index", m_currentVerticalSnapPointIndex);

	ts.dumpProperty("scrollable area parameters", m_scrollableAreaParameters);

	#if ENABLE(SCROLLING_THREAD)
	if (!m_synchronousScrollingReasons.isEmpty())
	ts.dumpProperty("synchronous scrolling reasons", ScrollingCoordinator::synchronousScrollingReasonsAsText(m_synchronousScrollingReasons));
	#endif
	}

	const FloatScrollSnapOffsetsInfo& ScrollingTreeScrollingNode::snapOffsetsInfo() const
	{
	return m_snapOffsetsInfo;
	}

	std::optional<unsigned> ScrollingTreeScrollingNode::currentHorizontalSnapPointIndex() const
	{
	return m_currentHorizontalSnapPointIndex;
	}

	std::optional<unsigned> ScrollingTreeScrollingNode::currentVerticalSnapPointIndex() const
	{
	return m_currentVerticalSnapPointIndex;
	}

	void ScrollingTreeScrollingNode::setCurrentHorizontalSnapPointIndex(std::optional<unsigned> index)
	{
	m_currentHorizontalSnapPointIndex = index;
	}

	void ScrollingTreeScrollingNode::setCurrentVerticalSnapPointIndex(std::optional<unsigned> index)
	{
	m_currentVerticalSnapPointIndex = index;
	}

	PlatformWheelEvent ScrollingTreeScrollingNode::eventForPropagation(const PlatformWheelEvent& wheelEvent) const
	{
	auto filteredDelta = wheelEvent.delta();
	#if PLATFORM(MAC)
	auto biasedDelta = ScrollingEffectsController::wheelDeltaBiasingTowardsVertical(wheelEvent.delta());
	#else
	auto biasedDelta = wheelEvent.delta();
	#endif
	if (horizontalOverscrollBehaviorPreventsPropagation() \|\| verticalOverscrollBehaviorPreventsPropagation()) {
	if(horizontalOverscrollBehaviorPreventsPropagation() \|\| (verticalOverscrollBehaviorPreventsPropagation() && !biasedDelta.width()))
	filteredDelta.setWidth(0);
	if(verticalOverscrollBehaviorPreventsPropagation() \|\| (horizontalOverscrollBehaviorPreventsPropagation() && !biasedDelta.height()))
	filteredDelta.setHeight(0);
	return wheelEvent.copyWithDeltaAndVelocity(filteredDelta, wheelEvent.scrollingVelocity());
	}
	return wheelEvent;
	}

	ScrollPropagationInfo ScrollingTreeScrollingNode::computeScrollPropagation(const FloatSize& delta) const
	{
	ScrollPropagationInfo propagation;
	if (!horizontalOverscrollBehaviorPreventsPropagation() && !verticalOverscrollBehaviorPreventsPropagation())
	return propagation;

	// History swipe case
	if (horizontalOverscrollBehaviorPreventsPropagation() && !delta.height() && delta.width()) {
	propagation.shouldBlockScrollPropagation = true;
	propagation.isHandled = false;
	return propagation;
	}

	if ((horizontalOverscrollBehaviorPreventsPropagation() && verticalOverscrollBehaviorPreventsPropagation())
	\|\| (horizontalOverscrollBehaviorPreventsPropagation() && !delta.height())
	\|\| (verticalOverscrollBehaviorPreventsPropagation() && !delta.width())) {
	propagation.shouldBlockScrollPropagation = true;
	propagation.isHandled = true;
	}
	return propagation;
	}

	} // namespace WebCore

	#endif // ENABLE(ASYNC_SCROLLING)