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|
// Copyright 2010 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_LAYERS_LAYER_H_
#define CC_LAYERS_LAYER_H_
#include <set>
#include <string>
#include "base/callback.h"
#include "base/memory/ref_counted.h"
#include "base/observer_list.h"
#include "cc/animation/layer_animation_controller.h"
#include "cc/animation/layer_animation_value_observer.h"
#include "cc/animation/layer_animation_value_provider.h"
#include "cc/base/cc_export.h"
#include "cc/base/region.h"
#include "cc/base/scoped_ptr_vector.h"
#include "cc/debug/micro_benchmark.h"
#include "cc/layers/draw_properties.h"
#include "cc/layers/layer_lists.h"
#include "cc/layers/layer_position_constraint.h"
#include "cc/layers/paint_properties.h"
#include "cc/layers/render_surface.h"
#include "cc/output/filter_operations.h"
#include "skia/ext/refptr.h"
#include "third_party/skia/include/core/SkColor.h"
#include "third_party/skia/include/core/SkImageFilter.h"
#include "third_party/skia/include/core/SkPicture.h"
#include "third_party/skia/include/core/SkXfermode.h"
#include "ui/gfx/point3_f.h"
#include "ui/gfx/rect.h"
#include "ui/gfx/rect_f.h"
#include "ui/gfx/transform.h"
namespace gfx {
class BoxF;
}
namespace base {
namespace debug {
class ConvertableToTraceFormat;
}
}
namespace cc {
class Animation;
class AnimationDelegate;
struct AnimationEvent;
class CopyOutputRequest;
class LayerAnimationDelegate;
class LayerAnimationEventObserver;
class LayerClient;
class LayerImpl;
class LayerTreeHost;
class LayerTreeImpl;
class PriorityCalculator;
class RenderingStatsInstrumentation;
class ResourceUpdateQueue;
class ScrollbarLayerInterface;
class SimpleEnclosedRegion;
struct AnimationEvent;
template <typename LayerType>
class OcclusionTracker;
// Base class for composited layers. Special layer types are derived from
// this class.
class CC_EXPORT Layer : public base::RefCounted<Layer>,
public LayerAnimationValueObserver,
public LayerAnimationValueProvider {
public:
typedef RenderSurfaceLayerList RenderSurfaceListType;
typedef LayerList LayerListType;
typedef RenderSurface RenderSurfaceType;
enum LayerIdLabels {
INVALID_ID = -1,
};
static scoped_refptr<Layer> Create();
int id() const { return layer_id_; }
Layer* RootLayer();
Layer* parent() { return parent_; }
const Layer* parent() const { return parent_; }
void AddChild(scoped_refptr<Layer> child);
void InsertChild(scoped_refptr<Layer> child, size_t index);
void ReplaceChild(Layer* reference, scoped_refptr<Layer> new_layer);
void RemoveFromParent();
void RemoveAllChildren();
void SetChildren(const LayerList& children);
bool HasAncestor(const Layer* ancestor) const;
const LayerList& children() const { return children_; }
Layer* child_at(size_t index) { return children_[index].get(); }
// This requests the layer and its subtree be rendered and given to the
// callback. If the copy is unable to be produced (the layer is destroyed
// first), then the callback is called with a NULL/empty result.
void RequestCopyOfOutput(scoped_ptr<CopyOutputRequest> request);
bool HasCopyRequest() const {
return !copy_requests_.empty();
}
virtual void SetBackgroundColor(SkColor background_color);
SkColor background_color() const { return background_color_; }
// If contents_opaque(), return an opaque color else return a
// non-opaque color. Tries to return background_color(), if possible.
SkColor SafeOpaqueBackgroundColor() const;
// A layer's bounds are in logical, non-page-scaled pixels (however, the
// root layer's bounds are in physical pixels).
void SetBounds(const gfx::Size& bounds);
gfx::Size bounds() const { return bounds_; }
void SetMasksToBounds(bool masks_to_bounds);
bool masks_to_bounds() const { return masks_to_bounds_; }
void SetMaskLayer(Layer* mask_layer);
Layer* mask_layer() { return mask_layer_.get(); }
const Layer* mask_layer() const { return mask_layer_.get(); }
virtual void SetNeedsDisplayRect(const gfx::RectF& dirty_rect);
void SetNeedsDisplay() { SetNeedsDisplayRect(gfx::RectF(bounds())); }
void SetOpacity(float opacity);
float opacity() const { return opacity_; }
bool OpacityIsAnimating() const;
virtual bool OpacityCanAnimateOnImplThread() const;
void SetBlendMode(SkXfermode::Mode blend_mode);
SkXfermode::Mode blend_mode() const { return blend_mode_; }
bool uses_default_blend_mode() const {
return blend_mode_ == SkXfermode::kSrcOver_Mode;
}
// A layer is root for an isolated group when it and all its descendants are
// drawn over a black and fully transparent background, creating an isolated
// group. It should be used along with SetBlendMode(), in order to restrict
// layers within the group to blend with layers outside this group.
void SetIsRootForIsolatedGroup(bool root);
bool is_root_for_isolated_group() const {
return is_root_for_isolated_group_;
}
void SetFilters(const FilterOperations& filters);
const FilterOperations& filters() const { return filters_; }
bool FilterIsAnimating() const;
// Background filters are filters applied to what is behind this layer, when
// they are viewed through non-opaque regions in this layer. They are used
// through the WebLayer interface, and are not exposed to HTML.
void SetBackgroundFilters(const FilterOperations& filters);
const FilterOperations& background_filters() const {
return background_filters_;
}
virtual void SetContentsOpaque(bool opaque);
bool contents_opaque() const { return contents_opaque_; }
void SetPosition(const gfx::PointF& position);
gfx::PointF position() const { return position_; }
void SetIsContainerForFixedPositionLayers(bool container);
bool IsContainerForFixedPositionLayers() const;
void SetPositionConstraint(const LayerPositionConstraint& constraint);
const LayerPositionConstraint& position_constraint() const {
return position_constraint_;
}
void SetTransform(const gfx::Transform& transform);
const gfx::Transform& transform() const { return transform_; }
bool TransformIsAnimating() const;
bool transform_is_invertible() const { return transform_is_invertible_; }
void SetTransformOrigin(const gfx::Point3F&);
gfx::Point3F transform_origin() { return transform_origin_; }
void SetScrollParent(Layer* parent);
Layer* scroll_parent() { return scroll_parent_; }
const Layer* scroll_parent() const { return scroll_parent_; }
void AddScrollChild(Layer* child);
void RemoveScrollChild(Layer* child);
std::set<Layer*>* scroll_children() { return scroll_children_.get(); }
const std::set<Layer*>* scroll_children() const {
return scroll_children_.get();
}
void SetClipParent(Layer* ancestor);
Layer* clip_parent() { return clip_parent_; }
const Layer* clip_parent() const {
return clip_parent_;
}
void AddClipChild(Layer* child);
void RemoveClipChild(Layer* child);
std::set<Layer*>* clip_children() { return clip_children_.get(); }
const std::set<Layer*>* clip_children() const {
return clip_children_.get();
}
DrawProperties<Layer>& draw_properties() { return draw_properties_; }
const DrawProperties<Layer>& draw_properties() const {
return draw_properties_;
}
// The following are shortcut accessors to get various information from
// draw_properties_
const gfx::Transform& draw_transform() const {
return draw_properties_.target_space_transform;
}
const gfx::Transform& screen_space_transform() const {
return draw_properties_.screen_space_transform;
}
float draw_opacity() const { return draw_properties_.opacity; }
bool draw_opacity_is_animating() const {
return draw_properties_.opacity_is_animating;
}
bool draw_transform_is_animating() const {
return draw_properties_.target_space_transform_is_animating;
}
bool screen_space_transform_is_animating() const {
return draw_properties_.screen_space_transform_is_animating;
}
bool screen_space_opacity_is_animating() const {
return draw_properties_.screen_space_opacity_is_animating;
}
bool can_use_lcd_text() const { return draw_properties_.can_use_lcd_text; }
bool is_clipped() const { return draw_properties_.is_clipped; }
gfx::Rect clip_rect() const { return draw_properties_.clip_rect; }
gfx::Rect drawable_content_rect() const {
return draw_properties_.drawable_content_rect;
}
gfx::Rect visible_content_rect() const {
return draw_properties_.visible_content_rect;
}
Layer* render_target() {
DCHECK(!draw_properties_.render_target ||
draw_properties_.render_target->render_surface());
return draw_properties_.render_target;
}
const Layer* render_target() const {
DCHECK(!draw_properties_.render_target ||
draw_properties_.render_target->render_surface());
return draw_properties_.render_target;
}
RenderSurface* render_surface() const {
return draw_properties_.render_surface.get();
}
int num_unclipped_descendants() const {
return draw_properties_.num_unclipped_descendants;
}
void SetScrollOffset(gfx::Vector2d scroll_offset);
gfx::Vector2d scroll_offset() const { return scroll_offset_; }
void SetScrollOffsetFromImplSide(const gfx::Vector2d& scroll_offset);
void SetScrollClipLayerId(int clip_layer_id);
bool scrollable() const { return scroll_clip_layer_id_ != INVALID_ID; }
void SetUserScrollable(bool horizontal, bool vertical);
bool user_scrollable_horizontal() const {
return user_scrollable_horizontal_;
}
bool user_scrollable_vertical() const { return user_scrollable_vertical_; }
void SetShouldScrollOnMainThread(bool should_scroll_on_main_thread);
bool should_scroll_on_main_thread() const {
return should_scroll_on_main_thread_;
}
void SetHaveWheelEventHandlers(bool have_wheel_event_handlers);
bool have_wheel_event_handlers() const { return have_wheel_event_handlers_; }
void SetHaveScrollEventHandlers(bool have_scroll_event_handlers);
bool have_scroll_event_handlers() const {
return have_scroll_event_handlers_;
}
void SetNonFastScrollableRegion(const Region& non_fast_scrollable_region);
const Region& non_fast_scrollable_region() const {
return non_fast_scrollable_region_;
}
void SetTouchEventHandlerRegion(const Region& touch_event_handler_region);
const Region& touch_event_handler_region() const {
return touch_event_handler_region_;
}
void set_did_scroll_callback(const base::Closure& callback) {
did_scroll_callback_ = callback;
}
void SetDrawCheckerboardForMissingTiles(bool checkerboard);
bool draw_checkerboard_for_missing_tiles() const {
return draw_checkerboard_for_missing_tiles_;
}
void SetForceRenderSurface(bool force_render_surface);
bool force_render_surface() const { return force_render_surface_; }
gfx::Vector2d ScrollDelta() const { return gfx::Vector2d(); }
gfx::Vector2dF TotalScrollOffset() const {
// Floating point to match the LayerImpl version.
return scroll_offset() + ScrollDelta();
}
void SetDoubleSided(bool double_sided);
bool double_sided() const { return double_sided_; }
void SetShouldFlattenTransform(bool flatten);
bool should_flatten_transform() const { return should_flatten_transform_; }
bool Is3dSorted() const { return sorting_context_id_ != 0; }
void set_use_parent_backface_visibility(bool use) {
use_parent_backface_visibility_ = use;
}
bool use_parent_backface_visibility() const {
return use_parent_backface_visibility_;
}
virtual void SetLayerTreeHost(LayerTreeHost* host);
virtual bool HasDelegatedContent() const;
bool HasContributingDelegatedRenderPasses() const { return false; }
void SetIsDrawable(bool is_drawable);
void SetHideLayerAndSubtree(bool hide);
bool hide_layer_and_subtree() const { return hide_layer_and_subtree_; }
void SetReplicaLayer(Layer* layer);
Layer* replica_layer() { return replica_layer_.get(); }
const Layer* replica_layer() const { return replica_layer_.get(); }
bool has_mask() const { return !!mask_layer_.get(); }
bool has_replica() const { return !!replica_layer_.get(); }
bool replica_has_mask() const {
return replica_layer_.get() &&
(mask_layer_.get() || replica_layer_->mask_layer_.get());
}
int NumDescendantsThatDrawContent() const;
// This is only virtual for tests.
// TODO(awoloszyn): Remove this once we no longer need it for tests
virtual bool DrawsContent() const;
// This methods typically need to be overwritten by derived classes.
virtual void SavePaintProperties();
// Returns true iff any resources were updated that need to be committed.
virtual bool Update(ResourceUpdateQueue* queue,
const OcclusionTracker<Layer>* occlusion);
virtual bool NeedMoreUpdates();
virtual void SetIsMask(bool is_mask) {}
virtual void ReduceMemoryUsage() {}
virtual void OnOutputSurfaceCreated() {}
virtual bool IsSuitableForGpuRasterization() const;
virtual scoped_refptr<base::debug::ConvertableToTraceFormat> TakeDebugInfo();
void SetLayerClient(LayerClient* client) { client_ = client; }
virtual void PushPropertiesTo(LayerImpl* layer);
void CreateRenderSurface();
void ClearRenderSurface();
void ClearRenderSurfaceLayerList();
// The contents scale converts from logical, non-page-scaled pixels to target
// pixels. The contents scale is 1 for the root layer as it is already in
// physical pixels. By default contents scale is forced to be 1 except for
// subclasses of ContentsScalingLayer.
float contents_scale_x() const { return draw_properties_.contents_scale_x; }
float contents_scale_y() const { return draw_properties_.contents_scale_y; }
gfx::Size content_bounds() const { return draw_properties_.content_bounds; }
virtual void CalculateContentsScale(float ideal_contents_scale,
float* contents_scale_x,
float* contents_scale_y,
gfx::Size* content_bounds);
LayerTreeHost* layer_tree_host() { return layer_tree_host_; }
const LayerTreeHost* layer_tree_host() const { return layer_tree_host_; }
// Set the priority of all desired textures in this layer.
virtual void SetTexturePriorities(const PriorityCalculator& priority_calc) {}
bool AddAnimation(scoped_ptr<Animation> animation);
void PauseAnimation(int animation_id, double time_offset);
void RemoveAnimation(int animation_id);
LayerAnimationController* layer_animation_controller() {
return layer_animation_controller_.get();
}
void SetLayerAnimationControllerForTest(
scoped_refptr<LayerAnimationController> controller);
void set_layer_animation_delegate(AnimationDelegate* delegate) {
layer_animation_controller_->set_layer_animation_delegate(delegate);
}
bool HasActiveAnimation() const;
void AddLayerAnimationEventObserver(
LayerAnimationEventObserver* animation_observer);
void RemoveLayerAnimationEventObserver(
LayerAnimationEventObserver* animation_observer);
virtual SimpleEnclosedRegion VisibleContentOpaqueRegion() const;
virtual ScrollbarLayerInterface* ToScrollbarLayer();
gfx::Rect LayerRectToContentRect(const gfx::RectF& layer_rect) const;
virtual skia::RefPtr<SkPicture> GetPicture() const;
// Constructs a LayerImpl of the correct runtime type for this Layer type.
virtual scoped_ptr<LayerImpl> CreateLayerImpl(LayerTreeImpl* tree_impl);
bool NeedsDisplayForTesting() const { return !update_rect_.IsEmpty(); }
void ResetNeedsDisplayForTesting() { update_rect_ = gfx::RectF(); }
RenderingStatsInstrumentation* rendering_stats_instrumentation() const;
const PaintProperties& paint_properties() const {
return paint_properties_;
}
// The scale at which contents should be rastered, to match the scale at
// which they will drawn to the screen. This scale is a component of the
// contents scale but does not include page/device scale factors.
// TODO(danakj): This goes away when TiledLayer goes away.
void set_raster_scale(float scale) { raster_scale_ = scale; }
float raster_scale() const { return raster_scale_; }
bool raster_scale_is_unknown() const { return raster_scale_ == 0.f; }
virtual bool SupportsLCDText() const;
void SetNeedsPushProperties();
bool needs_push_properties() const { return needs_push_properties_; }
bool descendant_needs_push_properties() const {
return num_dependents_need_push_properties_ > 0;
}
void reset_needs_push_properties_for_testing() {
needs_push_properties_ = false;
}
virtual void RunMicroBenchmark(MicroBenchmark* benchmark);
void Set3dSortingContextId(int id);
int sorting_context_id() const { return sorting_context_id_; }
protected:
friend class LayerImpl;
friend class TreeSynchronizer;
virtual ~Layer();
Layer();
// These SetNeeds functions are in order of severity of update:
//
// Called when this layer has been modified in some way, but isn't sure
// that it needs a commit yet. It needs CalcDrawProperties and UpdateLayers
// before it knows whether or not a commit is required.
void SetNeedsUpdate();
// Called when a property has been modified in a way that the layer
// knows immediately that a commit is required. This implies SetNeedsUpdate
// as well as SetNeedsPushProperties to push that property.
void SetNeedsCommit();
// Called when there's been a change in layer structure. Implies both
// SetNeedsUpdate and SetNeedsCommit, but not SetNeedsPushProperties.
void SetNeedsFullTreeSync();
// Called when the next commit should wait until the pending tree is activated
// before finishing the commit and unblocking the main thread. Used to ensure
// unused resources on the impl thread are returned before commit completes.
void SetNextCommitWaitsForActivation();
// Will recalculate whether the layer draws content and set draws_content_
// appropriately.
void UpdateDrawsContent(bool has_drawable_content);
virtual bool HasDrawableContent() const;
// Called when the layer's number of drawable descendants changes.
void AddDrawableDescendants(int num);
void AddDependentNeedsPushProperties();
void RemoveDependentNeedsPushProperties();
bool parent_should_know_need_push_properties() const {
return needs_push_properties() || descendant_needs_push_properties();
}
bool IsPropertyChangeAllowed() const;
void reset_raster_scale_to_unknown() { raster_scale_ = 0.f; }
// This flag is set when the layer needs to push properties to the impl
// side.
bool needs_push_properties_;
// The number of direct children or dependent layers that need to be recursed
// to in order for them or a descendent of them to push properties to the impl
// side.
int num_dependents_need_push_properties_;
// Tracks whether this layer may have changed stacking order with its
// siblings.
bool stacking_order_changed_;
// The update rect is the region of the compositor resource that was
// actually updated by the compositor. For layers that may do updating
// outside the compositor's control (i.e. plugin layers), this information
// is not available and the update rect will remain empty.
// Note this rect is in layer space (not content space).
gfx::RectF update_rect_;
scoped_refptr<Layer> mask_layer_;
int layer_id_;
// When true, the layer is about to perform an update. Any commit requests
// will be handled implicitly after the update completes.
bool ignore_set_needs_commit_;
// Layers that share a sorting context id will be sorted together in 3d
// space. 0 is a special value that means this layer will not be sorted and
// will be drawn in paint order.
int sorting_context_id_;
private:
friend class base::RefCounted<Layer>;
void SetParent(Layer* layer);
bool DescendantIsFixedToContainerLayer() const;
// Returns the index of the child or -1 if not found.
int IndexOfChild(const Layer* reference);
// This should only be called from RemoveFromParent().
void RemoveChildOrDependent(Layer* child);
// LayerAnimationValueProvider implementation.
virtual gfx::Vector2dF ScrollOffsetForAnimation() const OVERRIDE;
// LayerAnimationValueObserver implementation.
virtual void OnFilterAnimated(const FilterOperations& filters) OVERRIDE;
virtual void OnOpacityAnimated(float opacity) OVERRIDE;
virtual void OnTransformAnimated(const gfx::Transform& transform) OVERRIDE;
virtual void OnScrollOffsetAnimated(
const gfx::Vector2dF& scroll_offset) OVERRIDE;
virtual void OnAnimationWaitingForDeletion() OVERRIDE;
virtual bool IsActive() const OVERRIDE;
// If this layer has a scroll parent, it removes |this| from its list of
// scroll children.
void RemoveFromScrollTree();
// If this layer has a clip parent, it removes |this| from its list of clip
// children.
void RemoveFromClipTree();
LayerList children_;
Layer* parent_;
// Layer instances have a weak pointer to their LayerTreeHost.
// This pointer value is nil when a Layer is not in a tree and is
// updated via SetLayerTreeHost() if a layer moves between trees.
LayerTreeHost* layer_tree_host_;
scoped_refptr<LayerAnimationController> layer_animation_controller_;
// Layer properties.
gfx::Size bounds_;
gfx::Vector2d scroll_offset_;
// This variable indicates which ancestor layer (if any) whose size,
// transformed relative to this layer, defines the maximum scroll offset for
// this layer.
int scroll_clip_layer_id_;
int num_descendants_that_draw_content_;
bool should_scroll_on_main_thread_ : 1;
bool have_wheel_event_handlers_ : 1;
bool have_scroll_event_handlers_ : 1;
bool user_scrollable_horizontal_ : 1;
bool user_scrollable_vertical_ : 1;
bool is_root_for_isolated_group_ : 1;
bool is_container_for_fixed_position_layers_ : 1;
bool is_drawable_ : 1;
bool draws_content_ : 1;
bool hide_layer_and_subtree_ : 1;
bool masks_to_bounds_ : 1;
bool contents_opaque_ : 1;
bool double_sided_ : 1;
bool should_flatten_transform_ : 1;
bool use_parent_backface_visibility_ : 1;
bool draw_checkerboard_for_missing_tiles_ : 1;
bool force_render_surface_ : 1;
bool transform_is_invertible_ : 1;
Region non_fast_scrollable_region_;
Region touch_event_handler_region_;
gfx::PointF position_;
SkColor background_color_;
float opacity_;
SkXfermode::Mode blend_mode_;
FilterOperations filters_;
FilterOperations background_filters_;
LayerPositionConstraint position_constraint_;
Layer* scroll_parent_;
scoped_ptr<std::set<Layer*> > scroll_children_;
Layer* clip_parent_;
scoped_ptr<std::set<Layer*> > clip_children_;
gfx::Transform transform_;
gfx::Point3F transform_origin_;
// Replica layer used for reflections.
scoped_refptr<Layer> replica_layer_;
// Transient properties.
float raster_scale_;
LayerClient* client_;
ScopedPtrVector<CopyOutputRequest> copy_requests_;
base::Closure did_scroll_callback_;
DrawProperties<Layer> draw_properties_;
PaintProperties paint_properties_;
DISALLOW_COPY_AND_ASSIGN(Layer);
};
} // namespace cc
#endif // CC_LAYERS_LAYER_H_
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