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/*
* Copyright (C) 2012-2015 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.
*/
#pragma once
#if ENABLE(ASYNC_SCROLLING)
#include "EventTrackingRegions.h"
#include "PageIdentifier.h"
#include "PlatformWheelEvent.h"
#include "RectEdges.h"
#include "Region.h"
#include "ScrollTypes.h"
#include "ScrollingCoordinatorTypes.h"
#include "ScrollingTreeGestureState.h"
#include "ScrollingTreeLatchingController.h"
#include "WheelEventTestMonitor.h"
#include <wtf/HashMap.h>
#include <wtf/Lock.h>
#include <wtf/MonotonicTime.h>
#include <wtf/ThreadSafeRefCounted.h>
#include <wtf/TypeCasts.h>
namespace WebCore {
class IntPoint;
class ScrollingStateTree;
class ScrollingStateNode;
class ScrollingTreeFrameScrollingNode;
class ScrollingTreeNode;
class ScrollingTreeOverflowScrollProxyNode;
class ScrollingTreePositionedNode;
class ScrollingTreeScrollingNode;
enum class EventListenerRegionType : uint8_t;
using PlatformDisplayID = uint32_t;
struct WheelEventHandlingResult {
OptionSet<WheelEventProcessingSteps> steps;
bool wasHandled { false };
bool needsMainThreadProcessing() const { return steps.containsAny({ WheelEventProcessingSteps::MainThreadForScrolling, WheelEventProcessingSteps::MainThreadForDOMEventDispatch }); }
static WheelEventHandlingResult handled()
{
return { { }, true };
}
static WheelEventHandlingResult unhandled()
{
return { { }, false };
}
static WheelEventHandlingResult result(bool handled)
{
return { { }, handled };
}
};
class ScrollingTree : public ThreadSafeRefCounted<ScrollingTree> {
friend class ScrollingTreeLatchingController;
public:
WEBCORE_EXPORT ScrollingTree();
WEBCORE_EXPORT virtual ~ScrollingTree();
virtual bool isThreadedScrollingTree() const { return false; }
virtual bool isRemoteScrollingTree() const { return false; }
virtual bool isScrollingTreeIOS() const { return false; }
// This implies that we'll do hit-testing in the scrolling tree.
bool asyncFrameOrOverflowScrollingEnabled() const { return m_asyncFrameOrOverflowScrollingEnabled; }
void setAsyncFrameOrOverflowScrollingEnabled(bool);
WEBCORE_EXPORT OptionSet<WheelEventProcessingSteps> determineWheelEventProcessing(const PlatformWheelEvent&);
WEBCORE_EXPORT virtual WheelEventHandlingResult handleWheelEvent(const PlatformWheelEvent&);
void setMainFrameIsRubberBanding(bool);
bool isRubberBandInProgress();
void setNodeScrollSnapInProgress(ScrollingNodeID, bool);
bool isScrollSnapInProgressForNode(ScrollingNodeID);
virtual void invalidate() { }
WEBCORE_EXPORT virtual void commitTreeState(std::unique_ptr<ScrollingStateTree>&&);
WEBCORE_EXPORT virtual void applyLayerPositions();
WEBCORE_EXPORT void applyLayerPositionsAfterCommit();
virtual Ref<ScrollingTreeNode> createScrollingTreeNode(ScrollingNodeType, ScrollingNodeID) = 0;
WEBCORE_EXPORT ScrollingTreeNode* nodeForID(ScrollingNodeID) const;
using VisitorFunction = WTF::Function<void (ScrollingNodeID, ScrollingNodeType, Optional<FloatPoint> scrollPosition, Optional<FloatPoint> layoutViewportOrigin, bool scrolledSinceLastCommit)>;
void traverseScrollingTree(VisitorFunction&&);
// Called after a scrolling tree node has handled a scroll and updated its layers.
// Updates FrameView/RenderLayer scrolling state and GraphicsLayers.
virtual void scrollingTreeNodeDidScroll(ScrollingTreeScrollingNode&, ScrollingLayerPositionAction = ScrollingLayerPositionAction::Sync) = 0;
// Called for requested scroll position updates.
virtual void scrollingTreeNodeRequestsScroll(ScrollingNodeID, const FloatPoint& /*scrollPosition*/, ScrollType, ScrollClamping) { }
// Delegated scrolling/zooming has caused the viewport to change, so update viewport-constrained layers
WEBCORE_EXPORT void mainFrameViewportChangedViaDelegatedScrolling(const FloatPoint& scrollPosition, const WebCore::FloatRect& layoutViewport, double scale);
void setNeedsApplyLayerPositionsAfterCommit() { m_needsApplyLayerPositionsAfterCommit = true; }
void notifyRelatedNodesAfterScrollPositionChange(ScrollingTreeScrollingNode& changedNode);
virtual void reportSynchronousScrollingReasonsChanged(MonotonicTime, OptionSet<SynchronousScrollingReason>) { }
virtual void reportExposedUnfilledArea(MonotonicTime, unsigned /* unfilledArea */) { }
#if PLATFORM(IOS_FAMILY)
virtual void scrollingTreeNodeWillStartPanGesture() { }
virtual void scrollingTreeNodeWillStartScroll() { }
virtual void scrollingTreeNodeDidEndScroll() { }
#endif
WEBCORE_EXPORT TrackingType eventTrackingTypeForPoint(const AtomString& eventName, IntPoint);
#if PLATFORM(MAC)
virtual void handleWheelEventPhase(ScrollingNodeID, PlatformWheelEventPhase) = 0;
virtual void setActiveScrollSnapIndices(ScrollingNodeID, unsigned /*horizontalIndex*/, unsigned /*verticalIndex*/) { }
virtual void setWheelEventTestMonitor(RefPtr<WheelEventTestMonitor>&&) { }
virtual void deferWheelEventTestCompletionForReason(WheelEventTestMonitor::ScrollableAreaIdentifier, WheelEventTestMonitor::DeferReason) { }
virtual void removeWheelEventTestCompletionDeferralForReason(WheelEventTestMonitor::ScrollableAreaIdentifier, WheelEventTestMonitor::DeferReason) { }
#else
void handleWheelEventPhase(ScrollingNodeID, PlatformWheelEventPhase) { }
#endif
#if PLATFORM(COCOA)
WEBCORE_EXPORT virtual void currentSnapPointIndicesDidChange(ScrollingNodeID, unsigned horizontal, unsigned vertical) = 0;
#endif
void setMainFramePinnedState(RectEdges<bool>);
// Can be called from any thread. Will update what edges allow rubber-banding.
WEBCORE_EXPORT void setMainFrameCanRubberBand(RectEdges<bool>);
bool mainFrameCanRubberBandInDirection(ScrollDirection);
bool isHandlingProgrammaticScroll() const { return m_isHandlingProgrammaticScroll; }
void setIsHandlingProgrammaticScroll(bool isHandlingProgrammaticScroll) { m_isHandlingProgrammaticScroll = isHandlingProgrammaticScroll; }
void setScrollPinningBehavior(ScrollPinningBehavior);
WEBCORE_EXPORT ScrollPinningBehavior scrollPinningBehavior();
WEBCORE_EXPORT bool willWheelEventStartSwipeGesture(const PlatformWheelEvent&);
WEBCORE_EXPORT void setScrollingPerformanceLoggingEnabled(bool flag);
bool scrollingPerformanceLoggingEnabled();
ScrollingTreeFrameScrollingNode* rootNode() const { return m_rootNode.get(); }
Optional<ScrollingNodeID> latchedNodeID() const;
void clearLatchedNode();
bool hasFixedOrSticky() const { return !!m_fixedOrStickyNodeCount; }
void fixedOrStickyNodeAdded() { ++m_fixedOrStickyNodeCount; }
void fixedOrStickyNodeRemoved()
{
ASSERT(m_fixedOrStickyNodeCount);
--m_fixedOrStickyNodeCount;
}
// A map of overflow scrolling nodes to positioned nodes which need to be updated
// when the scroller changes, but are not descendants.
using RelatedNodesMap = HashMap<ScrollingNodeID, Vector<ScrollingNodeID>>;
RelatedNodesMap& overflowRelatedNodes() { return m_overflowRelatedNodesMap; }
HashSet<Ref<ScrollingTreeOverflowScrollProxyNode>>& activeOverflowScrollProxyNodes() { return m_activeOverflowScrollProxyNodes; }
HashSet<Ref<ScrollingTreePositionedNode>>& activePositionedNodes() { return m_activePositionedNodes; }
WEBCORE_EXPORT String scrollingTreeAsText(ScrollingStateTreeAsTextBehavior = ScrollingStateTreeAsTextBehaviorNormal);
bool isMonitoringWheelEvents() const { return m_isMonitoringWheelEvents; }
bool inCommitTreeState() const { return m_inCommitTreeState; }
void scrollBySimulatingWheelEventForTesting(ScrollingNodeID, FloatSize);
virtual void lockLayersForHitTesting() { }
virtual void unlockLayersForHitTesting() { }
Lock& treeMutex() { return m_treeMutex; }
void windowScreenDidChange(PlatformDisplayID, Optional<unsigned> nominalFramesPerSecond);
PlatformDisplayID displayID();
protected:
FloatPoint mainFrameScrollPosition() const;
void setMainFrameScrollPosition(FloatPoint);
Optional<unsigned> nominalFramesPerSecond();
void applyLayerPositionsInternal();
void removeAllNodes();
Lock m_treeMutex; // Protects the scrolling tree.
private:
void updateTreeFromStateNodeRecursive(const ScrollingStateNode*, struct CommitTreeState&);
virtual void propagateSynchronousScrollingReasons(const HashSet<ScrollingNodeID>&) { }
void applyLayerPositionsRecursive(ScrollingTreeNode&);
void notifyRelatedNodesRecursive(ScrollingTreeNode&);
void traverseScrollingTreeRecursive(ScrollingTreeNode&, const VisitorFunction&);
WEBCORE_EXPORT virtual RefPtr<ScrollingTreeNode> scrollingNodeForPoint(FloatPoint);
WEBCORE_EXPORT virtual OptionSet<EventListenerRegionType> eventListenerRegionTypesForPoint(FloatPoint) const;
virtual void receivedWheelEvent(const PlatformWheelEvent&) { }
RefPtr<ScrollingTreeFrameScrollingNode> m_rootNode;
using ScrollingTreeNodeMap = HashMap<ScrollingNodeID, RefPtr<ScrollingTreeNode>>;
ScrollingTreeNodeMap m_nodeMap;
ScrollingTreeLatchingController m_latchingController;
ScrollingTreeGestureState m_gestureState;
RelatedNodesMap m_overflowRelatedNodesMap;
HashSet<Ref<ScrollingTreeOverflowScrollProxyNode>> m_activeOverflowScrollProxyNodes;
HashSet<Ref<ScrollingTreePositionedNode>> m_activePositionedNodes;
struct TreeState {
EventTrackingRegions eventTrackingRegions;
FloatPoint mainFrameScrollPosition;
PlatformDisplayID displayID { 0 };
Optional<unsigned> nominalFramesPerSecond;
HashSet<ScrollingNodeID> nodesWithActiveScrollSnap;
bool mainFrameIsRubberBanding { false };
};
Lock m_treeStateMutex;
TreeState m_treeState;
struct SwipeState {
ScrollPinningBehavior scrollPinningBehavior { DoNotPin };
bool rubberBandsAtLeft { true };
bool rubberBandsAtRight { true };
bool rubberBandsAtTop { true };
bool rubberBandsAtBottom { true };
RectEdges<bool> canRubberBand { true, true, true, true };
RectEdges<bool> mainFramePinnedState { true, true, true, true };
};
Lock m_swipeStateMutex;
SwipeState m_swipeState;
protected:
bool m_allowLatching { true };
private:
unsigned m_fixedOrStickyNodeCount { 0 };
bool m_isHandlingProgrammaticScroll { false };
bool m_isMonitoringWheelEvents { false };
bool m_scrollingPerformanceLoggingEnabled { false };
bool m_asyncFrameOrOverflowScrollingEnabled { false };
bool m_needsApplyLayerPositionsAfterCommit { false };
bool m_inCommitTreeState { false };
};
} // namespace WebCore
#define SPECIALIZE_TYPE_TRAITS_SCROLLING_TREE(ToValueTypeName, predicate) \
SPECIALIZE_TYPE_TRAITS_BEGIN(ToValueTypeName) \
static bool isType(const WebCore::ScrollingTree& tree) { return tree.predicate; } \
SPECIALIZE_TYPE_TRAITS_END()
#endif // ENABLE(ASYNC_SCROLLING)