author Kartikaya Gupta <>
Sun, 17 Mar 2019 10:42:08 +0000
changeset 522598 aededeb1f164d3c35874820311088ff7967a0ff3
parent 522373 8f2a6dbf221ca51fcb80f1a94eea41d377a0c91c
child 523723 195e208318babe02ee96b45a688ba44317536af2
permissions -rw-r--r--
Bug 1512838 - Redirect one-touch-pinch scale gestures to the root content APZC. r=botond Differential Revision:

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at */

#ifndef mozilla_layers_APZCTreeManager_h
#define mozilla_layers_APZCTreeManager_h

#include <unordered_map>  // for std::unordered_map

#include "FocusState.h"          // for FocusState
#include "gfxPoint.h"            // for gfxPoint
#include "mozilla/Assertions.h"  // for MOZ_ASSERT_HELPER2
#include "mozilla/gfx/CompositorHitTestInfo.h"
#include "mozilla/gfx/Logging.h"              // for gfx::TreeLog
#include "mozilla/gfx/Matrix.h"               // for Matrix4x4
#include "mozilla/layers/APZInputBridge.h"    // for APZInputBridge
#include "mozilla/layers/APZTestData.h"       // for APZTestData
#include "mozilla/layers/IAPZCTreeManager.h"  // for IAPZCTreeManager
#include "mozilla/layers/LayersTypes.h"
#include "mozilla/layers/KeyboardMap.h"      // for KeyboardMap
#include "mozilla/layers/TouchCounter.h"     // for TouchCounter
#include "mozilla/layers/ZoomConstraints.h"  // for ZoomConstraints
#include "mozilla/RecursiveMutex.h"          // for RecursiveMutex
#include "mozilla/RefPtr.h"                  // for RefPtr
#include "mozilla/TimeStamp.h"               // for mozilla::TimeStamp
#include "mozilla/UniquePtr.h"               // for UniquePtr
#include "nsCOMPtr.h"                        // for already_AddRefed

#  include "mozilla/layers/AndroidDynamicToolbarAnimator.h"
#endif  // defined(MOZ_WIDGET_ANDROID)

namespace mozilla {
class MultiTouchInput;

namespace wr {
class TransactionWrapper;
class WebRenderAPI;
struct WrTransformProperty;
}  // namespace wr

namespace layers {

class Layer;
class AsyncPanZoomController;
class APZCTreeManagerParent;
class APZSampler;
class APZUpdater;
class CompositorBridgeParent;
class OverscrollHandoffChain;
struct OverscrollHandoffState;
class FocusTarget;
struct FlingHandoffState;
class LayerMetricsWrapper;
class InputQueue;
class GeckoContentController;
class HitTestingTreeNode;
class HitTestingTreeNodeAutoLock;
class WebRenderScrollDataWrapper;
struct AncestorTransform;
struct ScrollThumbData;

 * ****************** NOTE ON LOCK ORDERING IN APZ **************************
 * There are two main kinds of locks used by APZ: APZCTreeManager::mTreeLock
 * ("the tree lock") and AsyncPanZoomController::mRecursiveMutex ("APZC locks").
 * There is also the APZCTreeManager::mTestDataLock ("test lock") and
 * APZCTreeManager::mMapLock ("map lock").
 * To avoid deadlock, we impose a lock ordering between these locks, which is:
 *      tree lock -> map lock -> APZC locks -> test lock
 * The interpretation of the lock ordering is that if lock A precedes lock B
 * in the ordering sequence, then you must NOT wait on A while holding B.
 * In addition, the WR hit-testing codepath acquires the tree lock and then
 * blocks on the render backend thread to do the hit-test. Similar operations
 * elsewhere mean that we need to be careful with which threads are allowed
 * to acquire which locks and the order they do so. At the time of this writing,
 * contains
 * the most complete description we have of the situation. The total dependency
 * ordering including both threads and locks is as follows:
 * UI main thread
 *  -> GPU main thread          // only if GPU enabled
 *  -> Compositor thread
 *  -> SceneBuilder thread      // only if WR enabled
 *  -> APZ tree lock
 *  -> RenderBackend thread     // only if WR enabled
 *  -> APZC map lock
 *  -> APZC instance lock
 *  -> APZC test lock
 * where the -> annotation means the same as described above.
 * **************************************************************************

 * This class manages the tree of AsyncPanZoomController instances. There is one
 * instance of this class owned by each CompositorBridgeParent, and it contains
 * as many AsyncPanZoomController instances as there are scrollable container
 * layers. This class generally lives on the updater thread, although some
 * functions may be called from other threads as noted; thread safety is ensured
 * internally.
 * The bulk of the work of this class happens as part of the
 * UpdateHitTestingTree function, which is when a layer tree update is received
 * by the compositor. This function walks through the layer tree and creates a
 * tree of HitTestingTreeNode instances to match the layer tree and for use in
 * hit-testing on the controller thread. APZC instances may be preserved across
 * calls to this function if the corresponding layers are still present in the
 * layer tree.
 * The other functions on this class are used by various pieces of client code
 * to notify the APZC instances of events relevant to them. This includes, for
 * example, user input events that drive panning and zooming, changes to the
 * scroll viewport area, and changes to pan/zoom constraints.
 * Note that the ClearTree function MUST be called when this class is no longer
 * needed; see the method documentation for details.
 * Behaviour of APZ is controlled by a number of preferences shown
 * \ref APZCPrefs "here".
class APZCTreeManager : public IAPZCTreeManager, public APZInputBridge {
  typedef mozilla::layers::AllowedTouchBehavior AllowedTouchBehavior;
  typedef mozilla::layers::AsyncDragMetrics AsyncDragMetrics;

  // Helper struct to hold some state while we build the hit-testing tree. The
  // sole purpose of this struct is to shorten the argument list to
  // UpdateHitTestingTree. All the state that we don't need to
  // push on the stack during recursion and pop on unwind is stored here.
  struct TreeBuildingState;

  explicit APZCTreeManager(LayersId aRootLayersId);

  void SetSampler(APZSampler* aSampler);
  void SetUpdater(APZUpdater* aUpdater);

   * Notifies this APZCTreeManager that the associated compositor is now
   * responsible for managing another layers id, which got moved over from
   * some other compositor. That other compositor's APZCTreeManager is also
   * provided. This allows APZCTreeManager to transfer any necessary state
   * from the old APZCTreeManager related to that layers id.
   * This function must be called on the updater thread.
  void NotifyLayerTreeAdopted(LayersId aLayersId,
                              const RefPtr<APZCTreeManager>& aOldTreeManager);

   * Notifies this APZCTreeManager that a layer tree being managed by the
   * associated compositor has been removed/destroyed. Note that this does
   * NOT get called during shutdown situations, when the root layer tree is
   * also getting destroyed.
   * This function must be called on the updater thread.
  void NotifyLayerTreeRemoved(LayersId aLayersId);

   * Rebuild the focus state based on the focus target from the layer tree
   * update that just occurred. This must be called on the updater thread.
   * @param aRootLayerTreeId The layer tree ID of the root layer corresponding
   *                         to this APZCTreeManager
   * @param aOriginatingLayersId The layer tree ID of the layer corresponding to
   *                             this layer tree update.
  void UpdateFocusState(LayersId aRootLayerTreeId,
                        LayersId aOriginatingLayersId,
                        const FocusTarget& aFocusTarget);

   * Rebuild the hit-testing tree based on the layer update that just came up.
   * Preserve nodes and APZC instances where possible, but retire those whose
   * layers are no longer in the layer tree.
   * This must be called on the updater thread as it walks the layer tree.
   * @param aRootLayerTreeId The layer tree ID of the root layer corresponding
   *                         to this APZCTreeManager
   * @param aRoot The root of the (full) layer tree
   * @param aFirstPaintLayersId The layers id of the subtree to which
   *                            aIsFirstPaint applies.
   * @param aIsFirstPaint True if the layers update that this is called in
   *                      response to included a first-paint. If this is true,
   *                      the part of the tree that is affected by the
   *                      first-paint flag is indicated by the
   *                      aFirstPaintLayersId parameter.
   * @param aPaintSequenceNumber The sequence number of the paint that triggered
   *                             this layer update. Note that every layer child
   *                             process' layer subtree has its own sequence
   *                             numbers.
  void UpdateHitTestingTree(LayersId aRootLayerTreeId, Layer* aRoot,
                            bool aIsFirstPaint, LayersId aOriginatingLayersId,
                            uint32_t aPaintSequenceNumber);

   * Same as the above UpdateHitTestingTree, except slightly modified to take
   * the scrolling data passed over PWebRenderBridge instead of the raw layer
   * tree. This version is used when WebRender is enabled because we don't have
   * shadow layers in that scenario.
  void UpdateHitTestingTree(LayersId aRootLayerTreeId,
                            const WebRenderScrollDataWrapper& aScrollWrapper,
                            bool aIsFirstPaint, LayersId aOriginatingLayersId,
                            uint32_t aPaintSequenceNumber);

   * Called when webrender is enabled, from the sampler thread. This function
   * populates the provided transaction with any async scroll offsets needed.
   * It also advances APZ animations to the specified sample time, and requests
   * another composite if there are still active animations.
   * In effect it is the webrender equivalent of (part of) the code in
   * AsyncCompositionManager.
  void SampleForWebRender(wr::TransactionWrapper& aTxn,
                          const TimeStamp& aSampleTime);

   * General handler for incoming input events. Manipulates the frame metrics
   * based on what type of input it is. For example, a PinchGestureEvent will
   * cause scaling. This should only be called externally to this class, and
   * must be called on the controller thread.
   * This function transforms |aEvent| to have its coordinates in DOM space.
   * This is so that the event can be passed through the DOM and content can
   * handle them. The event may need to be converted to a WidgetInputEvent
   * by the caller if it wants to do this.
   * The following values may be returned by this function:
   * nsEventStatus_eConsumeNoDefault is returned to indicate the
   *   APZ is consuming this event and the caller should discard the event with
   *   extreme prejudice. The exact scenarios under which this is returned is
   *   implementation-dependent and may vary.
   * nsEventStatus_eIgnore is returned to indicate that the APZ code didn't
   *   use this event. This might be because it was directed at a point on
   *   the screen where there was no APZ, or because the thing the user was
   *   trying to do was not allowed. (For example, attempting to pan a
   *   non-pannable document).
   * nsEventStatus_eConsumeDoDefault is returned to indicate that the APZ
   *   code may have used this event to do some user-visible thing. Note that
   *   in some cases CONSUMED is returned even if the event was NOT used. This
   *   is because we cannot always know at the time of event delivery whether
   *   the event will be used or not. So we err on the side of sending
   *   CONSUMED when we are uncertain.
   * @param aEvent input event object; is modified in-place
   * @param aOutTargetGuid returns the guid of the apzc this event was
   * delivered to. May be null.
   * @param aOutInputBlockId returns the id of the input block that this event
   * was added to, if that was the case. May be null.
  nsEventStatus ReceiveInputEvent(InputData& aEvent,
                                  ScrollableLayerGuid* aOutTargetGuid,
                                  uint64_t* aOutInputBlockId) override;

   * Set the keyboard shortcuts to use for translating keyboard events.
  void SetKeyboardMap(const KeyboardMap& aKeyboardMap) override;

   * Kicks an animation to zoom to a rect. This may be either a zoom out or zoom
   * in. The actual animation is done on the sampler thread after being set
   * up. |aRect| must be given in CSS pixels, relative to the document.
   * |aFlags| is a combination of the ZoomToRectBehavior enum values.
  void ZoomToRect(const ScrollableLayerGuid& aGuid, const CSSRect& aRect,
                  const uint32_t aFlags = DEFAULT_BEHAVIOR) override;

   * If we have touch listeners, this should always be called when we know
   * definitively whether or not content has preventDefaulted any touch events
   * that have come in. If |aPreventDefault| is true, any touch events in the
   * queue will be discarded. This function must be called on the controller
   * thread.
  void ContentReceivedInputBlock(uint64_t aInputBlockId,
                                 bool aPreventDefault) override;

   * When the event regions code is enabled, this function should be invoked to
   * to confirm the target of the input block. This is only needed in cases
   * where the initial input event of the block hit a dispatch-to-content region
   * but is safe to call for all input blocks. This function should always be
   * invoked on the controller thread.
   * The different elements in the array of targets correspond to the targets
   * for the different touch points. In the case where the touch point has no
   * target, or the target is not a scrollable frame, the target's |mScrollId|
   * should be set to ScrollableLayerGuid::NULL_SCROLL_ID.
   * Note: For mouse events that start a scrollbar drag, both SetTargetAPZC()
   *       and StartScrollbarDrag() will be called, and the calls may happen
   *       in either order. That's fine - whichever arrives first will confirm
   *       the block, and StartScrollbarDrag() will fill in the drag metrics.
   *       If the block is confirmed before we have drag metrics, some events
   *       in the drag block may be handled as no-ops until the drag metrics
   *       arrive.
  void SetTargetAPZC(uint64_t aInputBlockId,
                     const nsTArray<ScrollableLayerGuid>& aTargets) override;

   * Updates any zoom constraints contained in the <meta name="viewport"> tag.
   * If the |aConstraints| is Nothing() then previously-provided constraints for
   * the given |aGuid| are cleared.
  void UpdateZoomConstraints(
      const ScrollableLayerGuid& aGuid,
      const Maybe<ZoomConstraints>& aConstraints) override;

   * Cancels any currently running animation.
  void CancelAnimation(const ScrollableLayerGuid& aGuid);

   * Adjusts the root APZC to compensate for a shift in the surface. See the
   * documentation on AsyncPanZoomController::AdjustScrollForSurfaceShift for
   * some more details. This is only currently needed due to surface shifts
   * caused by the dynamic toolbar on Android.
  void AdjustScrollForSurfaceShift(const ScreenPoint& aShift);

   * Calls Destroy() on all APZC instances attached to the tree, and resets the
   * tree back to empty. This function must be called exactly once during the
   * lifetime of this APZCTreeManager, when this APZCTreeManager is no longer
   * needed. Failing to call this function may prevent objects from being freed
   * properly.
   * This must be called on the updater thread.
  void ClearTree();

   * Tests if a screen point intersect an apz in the tree.
  bool HitTestAPZC(const ScreenIntPoint& aPoint);

   * Sets the dpi value used by all AsyncPanZoomControllers attached to this
   * tree manager.
   * DPI defaults to 160 if not set using SetDPI() at any point.
  void SetDPI(float aDpiValue) override;

   * Returns the current dpi value in use.
  float GetDPI() const;

   * Find the hit testing node for the scrollbar thumb that matches these
   * drag metrics. Initializes aOutThumbNode with the node, if there is one.
  void FindScrollThumbNode(const AsyncDragMetrics& aDragMetrics,
                           HitTestingTreeNodeAutoLock& aOutThumbNode);

   * Sets allowed touch behavior values for current touch-session for specific
   * input block (determined by aInputBlock).
   * Should be invoked by the widget. Each value of the aValues arrays
   * corresponds to the different touch point that is currently active.
   * Must be called after receiving the TOUCH_START event that starts the
   * touch-session.
   * This must be called on the controller thread.
  void SetAllowedTouchBehavior(
      uint64_t aInputBlockId,
      const nsTArray<TouchBehaviorFlags>& aValues) override;

   * This is a callback for AsyncPanZoomController to call when it wants to
   * scroll in response to a touch-move event, or when it needs to hand off
   * overscroll to the next APZC. Note that because of scroll grabbing, the
   * first APZC to scroll may not be the one that is receiving the touch events.
   * |aAPZC| is the APZC that received the touch events triggering the scroll
   *   (in the case of an initial scroll), or the last APZC to scroll (in the
   *   case of overscroll)
   * |aStartPoint| and |aEndPoint| are in |aAPZC|'s transformed screen
   *   coordinates (i.e. the same coordinates in which touch points are given to
   *   APZCs). The amount of (over)scroll is represented by two points rather
   *   than a displacement because with certain 3D transforms, the same
   *   displacement between different points in transformed coordinates can
   *   represent different displacements in untransformed coordinates.
   * |aOverscrollHandoffChain| is the overscroll handoff chain used for
   *   determining the order in which scroll should be handed off between
   *   APZCs
   * |aOverscrollHandoffChainIndex| is the next position in the overscroll
   *   handoff chain that should be scrolled.
   * aStartPoint and aEndPoint will be modified depending on how much of the
   * scroll each APZC consumes. This is to allow the sending APZC to go into
   * an overscrolled state if no APZC further up in the handoff chain accepted
   * the entire scroll.
   * The way this method works is best illustrated with an example.
   * Consider three nested APZCs, A, B, and C, with C being the innermost one.
   * Say B is scroll-grabbing.
   * The touch events go to C because it's the innermost one (so e.g. taps
   * should go through C), but the overscroll handoff chain is B -> C -> A
   * because B is scroll-grabbing.
   * For convenience I'll refer to the three APZC objects as A, B, and C, and
   * to the tree manager object as TM.
   * Here's what happens when C receives a touch-move event:
   *   - C.TrackTouch() calls TM.DispatchScroll() with index = 0.
   *   - TM.DispatchScroll() calls B.AttemptScroll() (since B is at index 0 in
   *     the chain).
   *   - B.AttemptScroll() scrolls B. If there is overscroll, it calls
   *     TM.DispatchScroll() with index = 1.
   *   - TM.DispatchScroll() calls C.AttemptScroll() (since C is at index 1 in
   *     the chain)
   *   - C.AttemptScroll() scrolls C. If there is overscroll, it calls
   *     TM.DispatchScroll() with index = 2.
   *   - TM.DispatchScroll() calls A.AttemptScroll() (since A is at index 2 in
   *     the chain)
   *   - A.AttemptScroll() scrolls A. If there is overscroll, it calls
   *     TM.DispatchScroll() with index = 3.
   *   - TM.DispatchScroll() discards the rest of the scroll as there are no
   *     more elements in the chain.
   * Note: this should be used for panning only. For handing off overscroll for
   *       a fling, use DispatchFling().
  void DispatchScroll(AsyncPanZoomController* aApzc,
                      ParentLayerPoint& aStartPoint,
                      ParentLayerPoint& aEndPoint,
                      OverscrollHandoffState& aOverscrollHandoffState);

   * This is a callback for AsyncPanZoomController to call when it wants to
   * start a fling in response to a touch-end event, or when it needs to hand
   * off a fling to the next APZC. Note that because of scroll grabbing, the
   * first APZC to fling may not be the one that is receiving the touch events.
   * @param aApzc the APZC that wants to start or hand off the fling
   * @param aHandoffState a collection of state about the operation,
   *                      which contains the following:
   *        mVelocity the current velocity of the fling, in |aApzc|'s screen
   *                  pixels per millisecond
   *        mChain the chain of APZCs along which the fling
   *                   should be handed off
   *        mIsHandoff is true if |aApzc| is handing off an existing fling (in
   *                   this case the fling is given to the next APZC in the
   *                   handoff chain after |aApzc|), and false is |aApzc| wants
   *                   start a fling (in this case the fling is given to the
   *                   first APZC in the chain)
   * The return value is the "residual velocity", the portion of
   * |aHandoffState.mVelocity| that was not consumed by APZCs in the
   * handoff chain doing flings.
   * The caller can use this value to determine whether it should consume
   * the excess velocity by going into overscroll.
  ParentLayerPoint DispatchFling(AsyncPanZoomController* aApzc,
                                 const FlingHandoffState& aHandoffState);

  void StartScrollbarDrag(const ScrollableLayerGuid& aGuid,
                          const AsyncDragMetrics& aDragMetrics) override;

  bool StartAutoscroll(const ScrollableLayerGuid& aGuid,
                       const ScreenPoint& aAnchorLocation) override;

  void StopAutoscroll(const ScrollableLayerGuid& aGuid) override;

   * Build the chain of APZCs that will handle overscroll for a pan starting at
   * |aInitialTarget|.
  RefPtr<const OverscrollHandoffChain> BuildOverscrollHandoffChain(
      const RefPtr<AsyncPanZoomController>& aInitialTarget);

   * Function used to disable LongTap gestures.
   * On slow running tests, drags and touch events can be misinterpreted
   * as a long tap. This allows tests to disable long tap gesture detection.
  void SetLongTapEnabled(bool aTapGestureEnabled) override;

  APZInputBridge* InputBridge() override { return this; }

  // Methods to help process WidgetInputEvents (or manage conversion to/from
  // InputData)

  void ProcessUnhandledEvent(LayoutDeviceIntPoint* aRefPoint,
                             ScrollableLayerGuid* aOutTargetGuid,
                             uint64_t* aOutFocusSequenceNumber,
                             LayersId* aOutLayersId) override;

  void UpdateWheelTransaction(LayoutDeviceIntPoint aRefPoint,
                              EventMessage aEventMessage) override;

  bool GetAPZTestData(LayersId aLayersId, APZTestData* aOutData);

   * Iterates over the hit testing tree, collects LayersIds and associated
   * transforms from layer coordinate space to root coordinate space, and
   * sends these over to the main thread of the chrome process.
  void CollectTransformsForChromeMainThread(LayersId aRootLayerTreeId);

   * Compute the updated shadow transform for a scroll thumb layer that
   * reflects async scrolling of the associated scroll frame.
   * @param aCurrentTransform The current shadow transform on the scroll thumb
   *    layer, as returned by Layer::GetLocalTransform() or similar.
   * @param aScrollableContentTransform The current content transform on the
   *    scrollable content, as returned by Layer::GetTransform().
   * @param aApzc The APZC that scrolls the scroll frame.
   * @param aMetrics The metrics associated with the scroll frame, reflecting
   *    the last paint of the associated content. Note: this metrics should
   *    NOT reflect async scrolling, i.e. they should be the layer tree's
   *    copy of the metrics, or APZC's last-content-paint metrics.
   * @param aScrollbarData The scrollbar data for the the scroll thumb layer.
   * @param aScrollbarIsDescendant True iff. the scroll thumb layer is a
   *    descendant of the layer bearing the scroll frame's metrics.
   * @param aOutClipTransform If not null, and |aScrollbarIsDescendant| is true,
   *    this will be populated with a transform that should be applied to the
   *    clip rects of all layers between the scroll thumb layer and the ancestor
   *    layer for the scrollable content.
   * @return The new shadow transform for the scroll thumb layer, including
   *    any pre- or post-scales.
  static LayerToParentLayerMatrix4x4 ComputeTransformForScrollThumb(
      const LayerToParentLayerMatrix4x4& aCurrentTransform,
      const gfx::Matrix4x4& aScrollableContentTransform,
      AsyncPanZoomController* aApzc, const FrameMetrics& aMetrics,
      const ScrollbarData& aScrollbarData, bool aScrollbarIsDescendant,
      AsyncTransformComponentMatrix* aOutClipTransform);

   * Dispatch a flush complete notification from the repaint thread of the
   * content controller for the given layers id.
  static void FlushApzRepaints(LayersId aLayersId);

  // Assert that the current thread is the sampler thread for this APZCTM.
  void AssertOnSamplerThread();
  // Assert that the current thread is the updater thread for this APZCTM.
  void AssertOnUpdaterThread();

  // Returns a pointer to the WebRenderAPI for the root layers id this
  // APZCTreeManager is for. This might be null (for example, if WebRender is
  // not enabled).
  already_AddRefed<wr::WebRenderAPI> GetWebRenderAPI() const;

  // Protected destructor, to discourage deletion outside of Release():
  virtual ~APZCTreeManager();

  APZSampler* GetSampler() const;
  APZUpdater* GetUpdater() const;

  // We need to allow APZUpdater to lock and unlock this tree during a WR
  // scene swap. We do this using private helpers to avoid exposing these
  // functions to the world.
  friend class APZUpdater;
  void LockTree();
  void UnlockTree();

  // Protected hooks for gtests subclass
  virtual AsyncPanZoomController* NewAPZCInstance(
      LayersId aLayersId, GeckoContentController* aController);

  // Public hooks for gtests subclass
  virtual TimeStamp GetFrameTime();

  /* Some helper functions to find an APZC given some identifying input. These
     functions lock the tree of APZCs while they find the right one, and then
     return an addref'd pointer to it. This allows caller code to just use the
     target APZC without worrying about it going away. These are public for
     testing code and generally should not be used by other production code.
  RefPtr<HitTestingTreeNode> GetRootNode() const;
  already_AddRefed<AsyncPanZoomController> GetTargetAPZC(
      const ScreenPoint& aPoint, gfx::CompositorHitTestInfo* aOutHitResult,
      LayersId* aOutLayersId,
      HitTestingTreeNodeAutoLock* aOutScrollbarNode = nullptr);
  already_AddRefed<AsyncPanZoomController> GetTargetAPZC(
      const LayersId& aLayersId, const ScrollableLayerGuid::ViewID& aScrollId);
  ScreenToParentLayerMatrix4x4 GetScreenToApzcTransform(
      const AsyncPanZoomController* aApzc) const;
  ParentLayerToScreenMatrix4x4 GetApzcToGeckoTransform(
      const AsyncPanZoomController* aApzc) const;
  ScreenPoint GetCurrentMousePosition() const;

   * Process a movement of the dynamic toolbar by |aDeltaY| over the time
   * period from |aStartTimestampMs| to |aEndTimestampMs|.
   * This is used to track velocities accurately in the presence of movement
   * of the dynamic toolbar, since in such cases the finger can be moving
   * relative to the screen even though no scrolling is occurring.
   * Note that this function expects "spatial coordinates" (i.e. toolbar
   * moves up --> negative delta).
  void ProcessDynamicToolbarMovement(uint32_t aStartTimestampMs,
                                     uint32_t aEndTimestampMs,
                                     ScreenCoord aDeltaY);

   * Find the zoomable APZC in the same layer subtree (i.e. with the same
   * layers id) as the given APZC.
  already_AddRefed<AsyncPanZoomController> FindZoomableApzc(
      AsyncPanZoomController* aStart) const;

  typedef bool (*GuidComparator)(const ScrollableLayerGuid&,
                                 const ScrollableLayerGuid&);

  /* Helpers */
  template <class ScrollNode>
  void UpdateHitTestingTreeImpl(LayersId aRootLayerTreeId,
                                const ScrollNode& aRoot, bool aIsFirstPaint,
                                LayersId aOriginatingLayersId,
                                uint32_t aPaintSequenceNumber);

  void AttachNodeToTree(HitTestingTreeNode* aNode, HitTestingTreeNode* aParent,
                        HitTestingTreeNode* aNextSibling);
  already_AddRefed<AsyncPanZoomController> GetTargetAPZC(
      const ScrollableLayerGuid& aGuid);
  already_AddRefed<HitTestingTreeNode> GetTargetNode(
      const ScrollableLayerGuid& aGuid, GuidComparator aComparator) const;
  HitTestingTreeNode* FindTargetNode(HitTestingTreeNode* aNode,
                                     const ScrollableLayerGuid& aGuid,
                                     GuidComparator aComparator);
  AsyncPanZoomController* GetTargetApzcForNode(HitTestingTreeNode* aNode);
  AsyncPanZoomController* GetAPZCAtPoint(
      HitTestingTreeNode* aNode, const ScreenPoint& aHitTestPoint,
      gfx::CompositorHitTestInfo* aOutHitResult,
      HitTestingTreeNode** aOutScrollbarNode);
  already_AddRefed<AsyncPanZoomController> GetAPZCAtPointWR(
      const ScreenPoint& aHitTestPoint,
      gfx::CompositorHitTestInfo* aOutHitResult, LayersId* aOutLayersId,
      HitTestingTreeNode** aOutScrollbarNode);
  AsyncPanZoomController* FindRootApzcForLayersId(LayersId aLayersId) const;
  AsyncPanZoomController* FindRootContentApzcForLayersId(
      LayersId aLayersId) const;
  AsyncPanZoomController* FindRootContentOrRootApzc() const;
  already_AddRefed<AsyncPanZoomController> GetZoomableTarget(
      AsyncPanZoomController* aApzc1, AsyncPanZoomController* aApzc2) const;
  already_AddRefed<AsyncPanZoomController> CommonAncestor(
      AsyncPanZoomController* aApzc1, AsyncPanZoomController* aApzc2) const;
   * Perform hit testing for a touch-start event.
   * @param aEvent The touch-start event.
   * The remaining parameters are out-parameter used to communicate additional
   * return values:
   * @param aOutTouchBehaviors
   *     The touch behaviours that should be allowed for this touch block.
   * @param aOutHitResult The hit test result.
   * @param aOutHitScrollbarNode
   *     If the touch event contains a single touch point (so that it may
   *     potentially start a scrollbar drag), and a scrollbar node was hit,
   *     that scrollbar node, otherwise nullptr.
   * @return The APZC that was hit.
  already_AddRefed<AsyncPanZoomController> GetTouchInputBlockAPZC(
      const MultiTouchInput& aEvent,
      nsTArray<TouchBehaviorFlags>* aOutTouchBehaviors,
      gfx::CompositorHitTestInfo* aOutHitResult, LayersId* aOutLayersId,
      HitTestingTreeNodeAutoLock* aOutHitScrollbarNode);
  nsEventStatus ProcessTouchInput(MultiTouchInput& aInput,
                                  ScrollableLayerGuid* aOutTargetGuid,
                                  uint64_t* aOutInputBlockId);
   * Given a mouse-down event that hit a scroll thumb node, set up APZ
   * dragging of the scroll thumb.
   * Must be called after the mouse event has been sent to InputQueue.
   * @param aMouseInput The mouse-down event.
   * @param aScrollThumbNode Tthe scroll thumb node that was hit.
   * @param aApzc
   *     The APZC for the scroll frame scrolled by the scroll thumb, if that
   *     scroll frame is layerized. (A thumb can be layerized without its
   *     target scroll frame being layerized.) Otherwise, an enclosing APZC.
  void SetupScrollbarDrag(MouseInput& aMouseInput,
                          const HitTestingTreeNodeAutoLock& aScrollThumbNode,
                          AsyncPanZoomController* aApzc);
   * Process a touch event that's part of a scrollbar touch-drag gesture.
   * @param aInput The touch event.
   * @param aScrollThumbNode
   *     If this is the touch-start event, the node representing the scroll
   *     thumb we are starting to drag. Otherwise nullptr.
   * @param aOutTargetGuid
   *     The guid of the APZC for the scroll frame whose scroll thumb is
   *     being dragged.
   * @param aOutInputBlockId
   *     The ID of the input block for the touch-drag gesture.
   * @return See ReceiveInputEvent() for what the return value means.
  nsEventStatus ProcessTouchInputForScrollbarDrag(
      MultiTouchInput& aInput,
      const HitTestingTreeNodeAutoLock& aScrollThumbNode,
      ScrollableLayerGuid* aOutTargetGuid, uint64_t* aOutInputBlockId);
  void FlushRepaintsToClearScreenToGeckoTransform();

  void SynthesizePinchGestureFromMouseWheel(
      const ScrollWheelInput& aWheelInput,
      const RefPtr<AsyncPanZoomController>& aTarget);

  already_AddRefed<HitTestingTreeNode> RecycleOrCreateNode(
      const RecursiveMutexAutoLock& aProofOfTreeLock, TreeBuildingState& aState,
      AsyncPanZoomController* aApzc, LayersId aLayersId);
  template <class ScrollNode>
  HitTestingTreeNode* PrepareNodeForLayer(
      const RecursiveMutexAutoLock& aProofOfTreeLock, const ScrollNode& aLayer,
      const FrameMetrics& aMetrics, LayersId aLayersId,
      const AncestorTransform& aAncestorTransform, HitTestingTreeNode* aParent,
      HitTestingTreeNode* aNextSibling, TreeBuildingState& aState);

  template <class ScrollNode>
  void PrintAPZCInfo(const ScrollNode& aLayer,
                     const AsyncPanZoomController* apzc);

  void NotifyScrollbarDragInitiated(uint64_t aDragBlockId,
                                    const ScrollableLayerGuid& aGuid,
                                    ScrollDirection aDirection) const;
  void NotifyScrollbarDragRejected(const ScrollableLayerGuid& aGuid) const;
  void NotifyAutoscrollRejected(const ScrollableLayerGuid& aGuid) const;

  // Requires the caller to hold mTreeLock.
  LayerToParentLayerMatrix4x4 ComputeTransformForNode(
      const HitTestingTreeNode* aNode) const;

  // Look up the GeckoContentController for the given layers id.
  static already_AddRefed<GeckoContentController> GetContentController(
      LayersId aLayersId);

  /* The input queue where input events are held until we know enough to
   * figure out where they're going. Protected so gtests can access it.
  RefPtr<InputQueue> mInputQueue;

  /* Layers id for the root CompositorBridgeParent that owns this
   * APZCTreeManager. */
  LayersId mRootLayersId;

  /* Pointer to the APZSampler instance that is bound to this APZCTreeManager.
   * The sampler has a RefPtr to this class, and this non-owning raw pointer
   * back to the APZSampler is nulled out in the sampler's destructor, so this
   * pointer should always be valid.
  APZSampler* MOZ_NON_OWNING_REF mSampler;
  /* Pointer to the APZUpdater instance that is bound to this APZCTreeManager.
   * The updater has a RefPtr to this class, and this non-owning raw pointer
   * back to the APZUpdater is nulled out in the updater's destructor, so this
   * pointer should always be valid.
  APZUpdater* MOZ_NON_OWNING_REF mUpdater;

  /* Whenever walking or mutating the tree rooted at mRootNode, mTreeLock must
   * be held. This lock does not need to be held while manipulating a single
   * APZC instance in isolation (that is, if its tree pointers are not being
   * accessed or mutated). The lock also needs to be held when accessing the
   * mRootNode instance variable, as that is considered part of the APZC tree
   * management state.
   * IMPORTANT: See the note about lock ordering at the top of this file. */
  mutable mozilla::RecursiveMutex mTreeLock;
  RefPtr<HitTestingTreeNode> mRootNode;

  /* True if the current hit-testing tree contains an async zoom container
   * node.
  bool mUsingAsyncZoomContainer;

  /** A lock that protects mApzcMap and mScrollThumbInfo. */
  mutable mozilla::Mutex mMapLock;
   * A map for quick access to get APZC instances by guid, without having to
   * acquire the tree lock. mMapLock must be acquired while accessing or
   * modifying mApzcMap.
  std::unordered_map<ScrollableLayerGuid, RefPtr<AsyncPanZoomController>,
   * A helper structure to store all the information needed to compute the
   * async transform for a scrollthumb on the sampler thread.
  struct ScrollThumbInfo {
    uint64_t mThumbAnimationId;
    CSSTransformMatrix mThumbTransform;
    ScrollbarData mThumbData;
    ScrollableLayerGuid mTargetGuid;
    CSSTransformMatrix mTargetTransform;
    bool mTargetIsAncestor;

    ScrollThumbInfo(const uint64_t& aThumbAnimationId,
                    const CSSTransformMatrix& aThumbTransform,
                    const ScrollbarData& aThumbData,
                    const ScrollableLayerGuid& aTargetGuid,
                    const CSSTransformMatrix& aTargetTransform,
                    bool aTargetIsAncestor)
        : mThumbAnimationId(aThumbAnimationId),
          mTargetIsAncestor(aTargetIsAncestor) {
      MOZ_ASSERT(mTargetGuid.mScrollId == mThumbData.mTargetViewId);
   * If this APZCTreeManager is being used with WebRender, this vector gets
   * populated during a layers update. It holds a package of information needed
   * to compute and set the async transforms on scroll thumbs. This information
   * is extracted from the HitTestingTreeNodes for the WebRender case because
   * accessing the HitTestingTreeNodes requires holding the tree lock which
   * we cannot do on the WR sampler thread. mScrollThumbInfo, however, can
   * be accessed while just holding the mMapLock which is safe to do on the
   * sampler thread.
   * mMapLock must be acquired while accessing or modifying mScrollThumbInfo.
  std::vector<ScrollThumbInfo> mScrollThumbInfo;

  /* Holds the zoom constraints for scrollable layers, as determined by the
   * the main-thread gecko code. This can only be accessed on the updater
   * thread. */
  std::unordered_map<ScrollableLayerGuid, ZoomConstraints,
  /* A list of keyboard shortcuts to use for translating keyboard inputs into
   * keyboard actions. This is gathered on the main thread from XBL bindings.
   * This must only be accessed on the controller thread.
  KeyboardMap mKeyboardMap;
  /* This tracks the focus targets of chrome and content and whether we have
   * a current focus target or whether we are waiting for a new confirmation.
  FocusState mFocusState;
  /* This tracks the APZC that should receive all inputs for the current input
   * event block. This allows touch points to move outside the thing they
   * started on, but still have the touch events delivered to the same initial
   * APZC. This will only ever be touched on the input delivery thread, and so
   * does not require locking.
  RefPtr<AsyncPanZoomController> mApzcForInputBlock;
  /* The hit result for the current input event block; this should always be in
   * sync with mApzcForInputBlock.
  gfx::CompositorHitTestInfo mHitResultForInputBlock;
  /* Sometimes we want to ignore all touches except one. In such cases, this
   * is set to the identifier of the touch we are not ignoring; in other cases,
   * this is set to -1.
  int32_t mRetainedTouchIdentifier;
  /* This tracks whether the current input block represents a touch-drag of
   * a scrollbar. In this state, touch events are forwarded to content as touch
   * events, but converted to mouse events before going into InputQueue and
   * being handled by an APZC (to reuse the APZ code for scrollbar dragging
   * with a mouse).
  bool mInScrollbarTouchDrag;
  /* Tracks the number of touch points we are tracking that are currently on
   * the screen. */
  TouchCounter mTouchCounter;
  /* Stores the current mouse position in screen coordinates.
  ScreenPoint mCurrentMousePosition;
  /* For logging the APZC tree for debugging (enabled by the apz.printtree
   * pref). */
  gfx::TreeLog mApzcTreeLog;

  class CheckerboardFlushObserver;
  friend class CheckerboardFlushObserver;
  RefPtr<CheckerboardFlushObserver> mFlushObserver;

  // Map from layers id to APZTestData. Accesses and mutations must be
  // protected by the mTestDataLock.
  std::unordered_map<LayersId, UniquePtr<APZTestData>, LayersId::HashFn>
  mutable mozilla::Mutex mTestDataLock;

  // This must only be touched on the controller thread.
  float mDPI;

  AndroidDynamicToolbarAnimator* GetAndroidDynamicToolbarAnimator();

  RefPtr<AndroidDynamicToolbarAnimator> mToolbarAnimator;
#endif  // defined(MOZ_WIDGET_ANDROID)

}  // namespace layers
}  // namespace mozilla

#endif  // mozilla_layers_PanZoomController_h