Google Git
Sign in
chromium / chromium / src / 518a41c1fa7ce1c8bb5e22346e82e42b4d76a96f / . / cc / trees / property_tree.h
blob: 779a94a12cd516cfbe5261e71938f02e6d05ac4f [file] [log] [blame]
// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef CC_TREES_PROPERTY_TREE_H_
#define CC_TREES_PROPERTY_TREE_H_
#include <stddef.h>
#include <memory>
#include <unordered_map>
#include <vector>
#include "base/containers/flat_map.h"
#include "cc/base/synced_property.h"
#include "cc/cc_export.h"
#include "cc/layers/layer_sticky_position_constraint.h"
#include "cc/paint/filter_operations.h"
#include "cc/trees/element_id.h"
#include "cc/trees/mutator_host_client.h"
#include "ui/gfx/geometry/rect_f.h"
#include "ui/gfx/geometry/scroll_offset.h"
#include "ui/gfx/transform.h"
namespace base {
namespace trace_event {
class TracedValue;
}
}
namespace viz {
class CopyOutputRequest;
}
namespace cc {
class LayerTreeImpl;
class MutatorHost;
class RenderSurfaceImpl;
class ScrollState;
struct ClipNode;
struct EffectNode;
struct ScrollAndScaleSet;
struct ScrollNode;
struct TransformNode;
struct TransformCachedNodeData;
typedef SyncedProperty<AdditionGroup<gfx::ScrollOffset>> SyncedScrollOffset;
class PropertyTrees;
template <typename T>
class CC_EXPORT PropertyTree {
public:
PropertyTree();
PropertyTree(const PropertyTree& other) = delete;
// These C++ special member functions cannot be implicit inline because
// they are exported by CC_EXPORT. They will be instantiated in every
// compilation units that included this header, and compilation can fail
// because T may be incomplete.
virtual ~PropertyTree();
PropertyTree<T>& operator=(const PropertyTree<T>&);
// Property tree node starts from index 0. See equivalent constants in
// property_tree_manager.cc for comments.
static const int kInvalidNodeId = -1;
static const int kRootNodeId = 0;
static const int kSecondaryRootNodeId = 1;
bool operator==(const PropertyTree<T>& other) const;
int Insert(const T& tree_node, int parent_id);
T* Node(int i) {
DCHECK(i < static_cast<int>(nodes_.size()));
return i > kInvalidNodeId ? &nodes_[i] : nullptr;
}
const T* Node(int i) const {
DCHECK(i < static_cast<int>(nodes_.size()));
return i > kInvalidNodeId ? &nodes_[i] : nullptr;
}
T* parent(const T* t) { return Node(t->parent_id); }
const T* parent(const T* t) const { return Node(t->parent_id); }
T* back() { return size() ? &nodes_.back() : nullptr; }
const T* back() const { return size() ? &nodes_.back() : nullptr; }
void clear();
size_t size() const { return nodes_.size(); }
virtual void set_needs_update(bool needs_update) {
needs_update_ = needs_update;
}
bool needs_update() const { return needs_update_; }
std::vector<T>& nodes() { return nodes_; }
const std::vector<T>& nodes() const { return nodes_; }
int next_available_id() const { return static_cast<int>(size()); }
void SetPropertyTrees(PropertyTrees* property_trees) {
property_trees_ = property_trees;
}
PropertyTrees* property_trees() const { return property_trees_; }
void AsValueInto(base::trace_event::TracedValue* value) const;
protected:
std::vector<T> nodes_;
bool needs_update_;
PropertyTrees* property_trees_;
};
struct StickyPositionNodeData;
class CC_EXPORT TransformTree final : public PropertyTree<TransformNode> {
public:
TransformTree();
// These C++ special member functions cannot be implicit inline because
// they are exported by CC_EXPORT. They will be instantiated in every
// compilation units that included this header, and compilation can fail
// because TransformCachedNodeData may be incomplete.
TransformTree(const TransformTree&) = delete;
~TransformTree() final;
TransformTree& operator=(const TransformTree&);
bool operator==(const TransformTree& other) const;
static const int kContentsRootNodeId = 1;
int Insert(const TransformNode& tree_node, int parent_id);
void clear();
TransformNode* FindNodeFromElementId(ElementId id);
bool OnTransformAnimated(ElementId element_id,
const gfx::Transform& transform);
// Computes the change of basis transform from node |source_id| to |dest_id|.
// This is used by scroll children to compute transform from their scroll
// parent space (source) to their parent space (destination) and it can atmost
// be a translation. This function assumes that the path from source to
// destination has only translations. So, it should not be called when there
// can be intermediate 3d transforms but the end result is a translation.
bool ComputeTranslation(int source_id,
int dest_id,
gfx::Transform* transform) const;
void ResetChangeTracking();
// Updates the parent, target, and screen space transforms and snapping.
void UpdateTransforms(int id);
void UpdateTransformChanged(TransformNode* node,
TransformNode* parent_node,
TransformNode* source_node);
void UpdateNodeAndAncestorsAreAnimatedOrInvertible(
TransformNode* node,
TransformNode* parent_node);
void set_needs_update(bool needs_update) final;
// A TransformNode's source_to_parent value is used to account for the fact
// that fixed-position layers are positioned by Blink wrt to their layer tree
// parent (their "source"), but are parented in the transform tree by their
// fixed-position container. This value needs to be updated on main-thread
// property trees (for position changes initiated by Blink), but not on the
// compositor thread (since the offset from a node corresponding to a
// fixed-position layer to its fixed-position container is unaffected by
// compositor-driven effects).
void set_source_to_parent_updates_allowed(bool allowed) {
source_to_parent_updates_allowed_ = allowed;
}
bool source_to_parent_updates_allowed() const {
return source_to_parent_updates_allowed_;
}
// We store the page scale factor on the transform tree so that it can be
// easily be retrieved and updated in UpdatePageScale.
void set_page_scale_factor(float page_scale_factor) {
page_scale_factor_ = page_scale_factor;
}
float page_scale_factor() const { return page_scale_factor_; }
void set_device_scale_factor(float device_scale_factor) {
device_scale_factor_ = device_scale_factor;
}
float device_scale_factor() const { return device_scale_factor_; }
void SetRootTransformsAndScales(float device_scale_factor,
float page_scale_factor_for_root,
const gfx::Transform& device_transform);
float device_transform_scale_factor() const {
return device_transform_scale_factor_;
}
void UpdateOuterViewportContainerBoundsDelta();
void AddNodeAffectedByOuterViewportBoundsDelta(int node_id);
bool HasNodesAffectedByOuterViewportBoundsDelta() const;
const std::vector<int>& nodes_affected_by_outer_viewport_bounds_delta()
const {
return nodes_affected_by_outer_viewport_bounds_delta_;
}
const gfx::Transform& FromScreen(int node_id) const;
void SetFromScreen(int node_id, const gfx::Transform& transform);
const gfx::Transform& ToScreen(int node_id) const;
void SetToScreen(int node_id, const gfx::Transform& transform);
int TargetId(int node_id) const;
void SetTargetId(int node_id, int target_id);
int ContentTargetId(int node_id) const;
void SetContentTargetId(int node_id, int content_target_id);
const std::vector<TransformCachedNodeData>& cached_data() const {
return cached_data_;
}
StickyPositionNodeData* StickyPositionData(int node_id);
// Computes the combined transform between |source_id| and |dest_id|. These
// two nodes must be on the same ancestor chain.
void CombineTransformsBetween(int source_id,
int dest_id,
gfx::Transform* transform) const;
// Computes the combined inverse transform between |source_id| and |dest_id|
// and returns false if the inverse of a singular transform was used. These
// two nodes must be on the same ancestor chain.
bool CombineInversesBetween(int source_id,
int dest_id,
gfx::Transform* transform) const;
private:
// Returns true iff the node at |desc_id| is a descendant of the node at
// |anc_id|.
bool IsDescendant(int desc_id, int anc_id) const;
void UpdateLocalTransform(TransformNode* node);
void UpdateScreenSpaceTransform(TransformNode* node,
TransformNode* parent_node);
void UpdateAnimationProperties(TransformNode* node,
TransformNode* parent_node);
void UndoSnapping(TransformNode* node);
void UpdateSnapping(TransformNode* node);
void UpdateNodeAndAncestorsHaveIntegerTranslations(
TransformNode* node,
TransformNode* parent_node);
bool NeedsSourceToParentUpdate(TransformNode* node);
bool source_to_parent_updates_allowed_;
// When to_screen transform has perspective, the transform node's sublayer
// scale is calculated using page scale factor, device scale factor and the
// scale factor of device transform. So we need to store them explicitly.
float page_scale_factor_;
float device_scale_factor_;
float device_transform_scale_factor_;
std::vector<int> nodes_affected_by_outer_viewport_bounds_delta_;
std::vector<TransformCachedNodeData> cached_data_;
std::vector<StickyPositionNodeData> sticky_position_data_;
};
struct StickyPositionNodeData {
int scroll_ancestor;
LayerStickyPositionConstraint constraints;
// In order to properly compute the sticky offset, we need to know if we have
// any sticky ancestors both between ourselves and our containing block and
// between our containing block and the viewport. These ancestors are then
// used to correct the constraining rect locations.
int nearest_node_shifting_sticky_box;
int nearest_node_shifting_containing_block;
// For performance we cache our accumulated sticky offset to allow descendant
// sticky elements to offset their constraint rects. Because we can either
// affect the sticky box constraint rect or the containing block constraint
// rect, we need to accumulate both.
gfx::Vector2dF total_sticky_box_sticky_offset;
gfx::Vector2dF total_containing_block_sticky_offset;
StickyPositionNodeData()
: scroll_ancestor(TransformTree::kInvalidNodeId),
nearest_node_shifting_sticky_box(TransformTree::kInvalidNodeId),
nearest_node_shifting_containing_block(TransformTree::kInvalidNodeId) {}
};
class CC_EXPORT ClipTree final : public PropertyTree<ClipNode> {
public:
bool operator==(const ClipTree& other) const;
static const int kViewportNodeId = 1;
void SetViewportClip(gfx::RectF viewport_rect);
gfx::RectF ViewportClip() const;
};
class CC_EXPORT EffectTree final : public PropertyTree<EffectNode> {
public:
EffectTree();
~EffectTree() final;
EffectTree& operator=(const EffectTree& from);
bool operator==(const EffectTree& other) const;
static const int kContentsRootNodeId = 1;
int Insert(const EffectNode& tree_node, int parent_id);
void clear();
float EffectiveOpacity(const EffectNode* node) const;
void UpdateSurfaceContentsScale(EffectNode* node);
EffectNode* FindNodeFromElementId(ElementId id);
bool OnOpacityAnimated(ElementId id, float opacity);
bool OnFilterAnimated(ElementId id, const FilterOperations& filters);
void UpdateEffects(int id);
void UpdateEffectChanged(EffectNode* node, EffectNode* parent_node);
void AddCopyRequest(int node_id,
std::unique_ptr<viz::CopyOutputRequest> request);
void PushCopyRequestsTo(EffectTree* other_tree);
void TakeCopyRequestsAndTransformToSurface(
int node_id,
std::vector<std::unique_ptr<viz::CopyOutputRequest>>* requests);
bool HasCopyRequests() const;
void ClearCopyRequests();
// Given the ids of two effect nodes that have render surfaces, returns the
// id of the lowest common ancestor effect node that also has a render
// surface.
int LowestCommonAncestorWithRenderSurface(int id_1, int id_2) const;
void AddMaskLayerId(int id);
const std::vector<int>& mask_layer_ids() const { return mask_layer_ids_; }
RenderSurfaceImpl* GetRenderSurface(int id) {
return render_surfaces_[id].get();
}
const RenderSurfaceImpl* GetRenderSurface(int id) const {
return render_surfaces_[id].get();
}
void UpdateRenderSurfaces(LayerTreeImpl* layer_tree_impl);
bool ContributesToDrawnSurface(int id);
void ResetChangeTracking();
void TakeRenderSurfaces(
std::vector<std::unique_ptr<RenderSurfaceImpl>>* render_surfaces);
// Returns true if render surfaces changed (that is, if any render surfaces
// were created or destroyed).
bool CreateOrReuseRenderSurfaces(
std::vector<std::unique_ptr<RenderSurfaceImpl>>* old_render_surfaces,
LayerTreeImpl* layer_tree_impl);
// This function checks if the layer's hit test region is a rectangle so that
// we may be able to use |visible_layer_rect| for viz hit test. It returns
// true when the following three conditions are met:
// 1) All clips preserve 2d axis.
// 2) There are no mask layers.
bool ClippedHitTestRegionIsRectangle(int effect_node_id) const;
private:
void UpdateOpacities(EffectNode* node, EffectNode* parent_node);
void UpdateSubtreeHidden(EffectNode* node, EffectNode* parent_node);
void UpdateIsDrawn(EffectNode* node, EffectNode* parent_node);
void UpdateBackfaceVisibility(EffectNode* node, EffectNode* parent_node);
void UpdateHasMaskingChild(EffectNode* node, EffectNode* parent_node);
void UpdateIsMasked(EffectNode* node, EffectNode* parent_node);
// Stores copy requests, keyed by node id.
std::unordered_multimap<int, std::unique_ptr<viz::CopyOutputRequest>>
copy_requests_;
// Unsorted list of all mask layer ids that effect nodes refer to.
std::vector<int> mask_layer_ids_;
// Indexed by node id.
std::vector<std::unique_ptr<RenderSurfaceImpl>> render_surfaces_;
};
class CC_EXPORT ScrollTree final : public PropertyTree<ScrollNode> {
public:
ScrollTree();
~ScrollTree() final;
ScrollTree& operator=(const ScrollTree& from);
bool operator==(const ScrollTree& other) const;
void clear();
gfx::ScrollOffset MaxScrollOffset(int scroll_node_id) const;
void OnScrollOffsetAnimated(ElementId id,
int scroll_tree_index,
const gfx::ScrollOffset& scroll_offset,
LayerTreeImpl* layer_tree_impl);
gfx::Size container_bounds(int scroll_node_id) const;
gfx::SizeF scroll_bounds(int scroll_node_id) const;
ScrollNode* CurrentlyScrollingNode();
const ScrollNode* CurrentlyScrollingNode() const;
#if DCHECK_IS_ON()
int CurrentlyScrollingNodeId() const;
#endif
void set_currently_scrolling_node(int scroll_node_id);
gfx::Transform ScreenSpaceTransform(int scroll_node_id) const;
gfx::Vector2dF ClampScrollToMaxScrollOffset(ScrollNode* node, LayerTreeImpl*);
// Returns the current scroll offset. On the main thread this would return the
// value for the LayerTree while on the impl thread this is the current value
// on the active tree.
const gfx::ScrollOffset current_scroll_offset(ElementId id) const;
// Returns the scroll offset taking into account any adjustments that may be
// included due to pixel snapping.
//
// Note: Using this method may causes the associated transform node for this
// scroll node to update its transforms.
//
// TODO(crbug.com/585458): Updating single transform node only works for
// simple cases but we really should update the whole transform tree otherwise
// we are ignoring any parent transform node that needs updating and thus our
// snap amount can be incorrect.
const gfx::ScrollOffset GetPixelSnappedScrollOffset(int scroll_node_id) const;
// Collects deltas for scroll changes on the impl thread that need to be
// reported to the main thread during the main frame. As such, should only be
// called on the impl thread side PropertyTrees.
void CollectScrollDeltas(ScrollAndScaleSet* scroll_info,
ElementId inner_viewport_scroll_element_id,
bool use_fractional_deltas);
// Applies deltas sent in the previous main frame onto the impl thread state.
// Should only be called on the impl thread side PropertyTrees.
void ApplySentScrollDeltasFromAbortedCommit();
// Pushes scroll updates from the ScrollTree on the main thread onto the
// impl thread associated state.
void PushScrollUpdatesFromMainThread(PropertyTrees* main_property_trees,
LayerTreeImpl* sync_tree);
// Pushes scroll updates from the ScrollTree on the pending tree onto the
// active tree associated state.
void PushScrollUpdatesFromPendingTree(PropertyTrees* pending_property_trees,
LayerTreeImpl* active_tree);
void SetBaseScrollOffset(ElementId id,
const gfx::ScrollOffset& scroll_offset);
bool SetScrollOffset(ElementId id, const gfx::ScrollOffset& scroll_offset);
void SetScrollOffsetClobberActiveValue(ElementId id) {
GetOrCreateSyncedScrollOffset(id)->set_clobber_active_value();
}
bool UpdateScrollOffsetBaseForTesting(ElementId id,
const gfx::ScrollOffset& offset);
bool SetScrollOffsetDeltaForTesting(ElementId id,
const gfx::Vector2dF& delta);
const gfx::ScrollOffset GetScrollOffsetBaseForTesting(ElementId id) const;
const gfx::ScrollOffset GetScrollOffsetDeltaForTesting(ElementId id) const;
void CollectScrollDeltasForTesting();
void DistributeScroll(ScrollNode* scroll_node, ScrollState* scroll_state);
gfx::Vector2dF ScrollBy(ScrollNode* scroll_node,
const gfx::Vector2dF& scroll,
LayerTreeImpl* layer_tree_impl);
gfx::ScrollOffset ClampScrollOffsetToLimits(
gfx::ScrollOffset offset,
const ScrollNode& scroll_node) const;
const SyncedScrollOffset* GetSyncedScrollOffset(ElementId id) const;
#if DCHECK_IS_ON()
void CopyCompleteTreeState(const ScrollTree& other);
#endif
ScrollNode* FindNodeFromElementId(ElementId id);
const ScrollNode* FindNodeFromElementId(ElementId id) const;
private:
using ScrollOffsetMap = base::flat_map<ElementId, gfx::ScrollOffset>;
using SyncedScrollOffsetMap =
base::flat_map<ElementId, scoped_refptr<SyncedScrollOffset>>;
int currently_scrolling_node_id_;
// On the main thread we store the scroll offsets directly since the main
// thread only needs to keep track of the current main thread state. The impl
// thread stores a map of SyncedProperty instances in order to track
// additional state necessary to synchronize scroll changes between the main
// and impl threads.
ScrollOffsetMap scroll_offset_map_;
SyncedScrollOffsetMap synced_scroll_offset_map_;
SyncedScrollOffset* GetOrCreateSyncedScrollOffset(ElementId id);
gfx::ScrollOffset PullDeltaForMainThread(SyncedScrollOffset* scroll_offset,
bool use_fractional_deltas);
};
struct AnimationScaleData {
// Variable used to invalidate cached animation scale data when transform tree
// updates.
int update_number;
// Current animations, considering only scales at keyframes not including the
// starting keyframe of each animation.
float local_maximum_animation_target_scale;
// The maximum scale that this node's |local| transform will have during
// current animatons, considering only the starting scale of each animation.
float local_starting_animation_scale;
// The maximum scale that this node's |to_target| transform will have during
// current animations, considering only scales at keyframes not incuding the
// starting keyframe of each animation.
float combined_maximum_animation_target_scale;
// The maximum scale that this node's |to_target| transform will have during
// current animations, considering only the starting scale of each animation.
float combined_starting_animation_scale;
bool to_screen_has_scale_animation;
AnimationScaleData() {
update_number = -1;
local_maximum_animation_target_scale = 0.f;
local_starting_animation_scale = 0.f;
combined_maximum_animation_target_scale = 0.f;
combined_starting_animation_scale = 0.f;
to_screen_has_scale_animation = false;
}
};
struct CombinedAnimationScale {
float maximum_animation_scale;
float starting_animation_scale;
CombinedAnimationScale(float maximum, float starting)
: maximum_animation_scale(maximum), starting_animation_scale(starting) {}
bool operator==(const CombinedAnimationScale& other) const {
return maximum_animation_scale == other.maximum_animation_scale &&
starting_animation_scale == other.starting_animation_scale;
}
};
struct DrawTransforms {
// We compute invertibility of a draw transforms lazily.
// Might_be_invertible is true if we have not computed the inverse of either
// to_target or from_target, or to_target / from_target is invertible.
bool might_be_invertible;
// From_valid is true if the from_target is already computed directly or
// computed by inverting an invertible to_target.
bool from_valid;
// To_valid is true if to_target stores a valid result, similar to from_valid.
bool to_valid;
gfx::Transform from_target;
gfx::Transform to_target;
DrawTransforms(gfx::Transform from, gfx::Transform to)
: might_be_invertible(true),
from_valid(false),
to_valid(false),
from_target(from),
to_target(to) {}
bool operator==(const DrawTransforms& other) const {
return from_valid == other.from_valid && to_valid == other.to_valid &&
from_target == other.from_target && to_target == other.to_target;
}
};
struct DrawTransformData {
int update_number;
int target_id;
DrawTransforms transforms;
// TODO(sunxd): Move screen space transforms here if it can improve
// performance.
DrawTransformData()
: update_number(-1),
target_id(EffectTree::kInvalidNodeId),
transforms(gfx::Transform(), gfx::Transform()) {}
};
struct ConditionalClip {
bool is_clipped;
gfx::RectF clip_rect;
};
struct ClipRectData {
int target_id;
ConditionalClip clip;
ClipRectData() : target_id(-1) {}
};
struct PropertyTreesCachedData {
int transform_tree_update_number;
std::vector<AnimationScaleData> animation_scales;
mutable std::vector<std::vector<DrawTransformData>> draw_transforms;
PropertyTreesCachedData();
~PropertyTreesCachedData();
};
class CC_EXPORT PropertyTrees final {
public:
PropertyTrees();
PropertyTrees(const PropertyTrees& other) = delete;
~PropertyTrees();
bool operator==(const PropertyTrees& other) const;
PropertyTrees& operator=(const PropertyTrees& from);
// These maps allow mapping directly from a compositor element id to the
// respective property node. This will eventually allow simplifying logic in
// various places that today has to map from element id to layer id, and then
// from layer id to the respective property node. Completing that work is
// pending the launch of BlinkGenPropertyTrees and reworking UI compositor
// logic to produce cc property trees and these maps.
base::flat_map<ElementId, int> element_id_to_effect_node_index;
base::flat_map<ElementId, int> element_id_to_scroll_node_index;
base::flat_map<ElementId, int> element_id_to_transform_node_index;
TransformTree transform_tree;
EffectTree effect_tree;
ClipTree clip_tree;
ScrollTree scroll_tree;
bool needs_rebuild;
bool can_adjust_raster_scales;
// Change tracking done on property trees needs to be preserved across commits
// (when they are not rebuild). We cache a global bool which stores whether
// we did any change tracking so that we can skip copying the change status
// between property trees when this bool is false.
bool changed;
// We cache a global bool for full tree damages to avoid walking the entire
// tree.
// TODO(jaydasika): Changes to transform and effects that damage the entire
// tree should be tracked by this bool. Currently, they are tracked by the
// individual nodes.
bool full_tree_damaged;
int sequence_number;
bool is_main_thread;
bool is_active;
void clear();
// Applies an animation state change for a particular element in
// this property tree. Returns whether a draw property update is
// needed.
bool ElementIsAnimatingChanged(const MutatorHost* mutator_host,
const PropertyToElementIdMap& element_id_map,
ElementListType list_type,
const PropertyAnimationState& mask,
const PropertyAnimationState& state,
bool check_node_existence);
void SetInnerViewportContainerBoundsDelta(gfx::Vector2dF bounds_delta);
void SetOuterViewportContainerBoundsDelta(gfx::Vector2dF bounds_delta);
void SetInnerViewportScrollBoundsDelta(gfx::Vector2dF bounds_delta);
void UpdateChangeTracking();
void PushChangeTrackingTo(PropertyTrees* tree);
void ResetAllChangeTracking();
gfx::Vector2dF inner_viewport_container_bounds_delta() const {
return inner_viewport_container_bounds_delta_;
}
gfx::Vector2dF outer_viewport_container_bounds_delta() const {
return outer_viewport_container_bounds_delta_;
}
gfx::Vector2dF inner_viewport_scroll_bounds_delta() const {
return inner_viewport_scroll_bounds_delta_;
}
std::unique_ptr<base::trace_event::TracedValue> AsTracedValue() const;
std::string ToString() const;
CombinedAnimationScale GetAnimationScales(int transform_node_id,
LayerTreeImpl* layer_tree_impl);
void SetAnimationScalesForTesting(int transform_id,
float maximum_animation_scale,
float starting_animation_scale);
bool GetToTarget(int transform_id,
int effect_id,
gfx::Transform* to_target) const;
bool GetFromTarget(int transform_id,
int effect_id,
gfx::Transform* from_target) const;
void ResetCachedData();
void UpdateTransformTreeUpdateNumber();
gfx::Transform ToScreenSpaceTransformWithoutSurfaceContentsScale(
int transform_id,
int effect_id) const;
ClipRectData* FetchClipRectFromCache(int clip_id, int target_id);
private:
gfx::Vector2dF inner_viewport_container_bounds_delta_;
gfx::Vector2dF outer_viewport_container_bounds_delta_;
gfx::Vector2dF inner_viewport_scroll_bounds_delta_;
// GetDrawTransforms may change the value of cached_data_.
DrawTransforms& GetDrawTransforms(int transform_id, int effect_id) const;
DrawTransformData& FetchDrawTransformsDataFromCache(int transform_id,
int effect_id) const;
PropertyTreesCachedData cached_data_;
};
} // namespace cc
#endif // CC_TREES_PROPERTY_TREE_H_