cc/trees/occlusion_tracker.h - platform/external/chromium_org - Git at Google

 // Copyright 2012 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_OCCLUSION_TRACKER_H_
 #define CC_TREES_OCCLUSION_TRACKER_H_

 #include <vector>

 #include "base/basictypes.h"
 #include "cc/base/cc_export.h"
 #include "cc/base/region.h"
 #include "cc/layers/layer_iterator.h"
 #include "ui/gfx/rect.h"

 namespace cc {
 class OverdrawMetrics;
 class LayerImpl;
 class RenderSurfaceImpl;
 class Layer;
 class RenderSurface;

 // This class is used to track occlusion of layers while traversing them in a
 // front-to-back order. As each layer is visited, one of the methods in this
 // class is called to notify it about the current target surface. Then,
 // occlusion in the content space of the current layer may be queried, via
 // methods such as Occluded() and UnoccludedContentRect(). If the current layer
 // owns a RenderSurfaceImpl, then occlusion on that RenderSurfaceImpl may also
 // be queried via surfaceOccluded() and surfaceUnoccludedContentRect(). Finally,
 // once finished with the layer, occlusion behind the layer should be marked by
 // calling MarkOccludedBehindLayer().
 template <typename LayerType, typename RenderSurfaceType>
 class CC_EXPORT OcclusionTrackerBase {
  public:
   OcclusionTrackerBase(gfx::Rect screen_space_clip_rect,
                        bool record_metrics_for_frame);
   ~OcclusionTrackerBase();

   // Called at the beginning of each step in the LayerIterator's front-to-back
   // traversal. If |prevent_occlusion| is true, the layer will be considered
   // unoccluded.
   void EnterLayer(const LayerIteratorPosition<LayerType>& layer_iterator,
                   bool prevent_occlusion);
   // Called at the end of each step in the LayerIterator's front-to-back
   // traversal.
   void LeaveLayer(const LayerIteratorPosition<LayerType>& layer_iterator);

   // Returns true if the given rect in content space for a layer is fully
   // occluded in either screen space or the layer's target surface.
   // |render_target| is the contributing layer's render target, and
   // |draw_transform| and |impl_draw_transform_is_unknown| are relative to that.
   bool Occluded(const LayerType* render_target,
                 gfx::Rect content_rect,
                 const gfx::Transform& draw_transform,
                 bool impl_draw_transform_is_unknown) const;

   // Gives an unoccluded sub-rect of |content_rect| in the content space of a
   // layer. Used when considering occlusion for a layer that paints/draws
   // something. |render_target| is the contributing layer's render target, and
   // |draw_transform| and |impl_draw_transform_is_unknown| are relative to that.
   gfx::Rect UnoccludedContentRect(
       const LayerType* render_target,
       gfx::Rect content_rect,
       const gfx::Transform& draw_transform,
       bool impl_draw_transform_is_unknown) const;

   // Gives an unoccluded sub-rect of |content_rect| in the content space of the
   // render_target owned by the layer. Used when considering occlusion for a
   // contributing surface that is rendering into another target.
   gfx::Rect UnoccludedContributingSurfaceContentRect(
       const LayerType* layer,
       bool for_replica,
       gfx::Rect content_rect) const;

   // Report operations for recording overdraw metrics.
   OverdrawMetrics* overdraw_metrics() const {
     return overdraw_metrics_.get();
   }

   // Gives the region of the screen that is not occluded by something opaque.
   Region ComputeVisibleRegionInScreen() const {
     DCHECK(!stack_.back().target->parent());
     return SubtractRegions(screen_space_clip_rect_,
                            stack_.back().occlusion_from_inside_target);
   }

   void set_minimum_tracking_size(gfx::Size size) {
     minimum_tracking_size_ = size;
   }

   // The following is used for visualization purposes.
   void set_occluding_screen_space_rects_container(
       std::vector<gfx::Rect>* rects) {
     occluding_screen_space_rects_ = rects;
   }
   void set_non_occluding_screen_space_rects_container(
       std::vector<gfx::Rect>* rects) {
     non_occluding_screen_space_rects_ = rects;
   }

  protected:
   struct StackObject {
     StackObject() : target(0) {}
     explicit StackObject(const LayerType* target) : target(target) {}
     const LayerType* target;
     Region occlusion_from_outside_target;
     Region occlusion_from_inside_target;
   };

   // The stack holds occluded regions for subtrees in the
   // RenderSurfaceImpl-Layer tree, so that when we leave a subtree we may apply
   // a mask to it, but not to the parts outside the subtree.
   // - The first time we see a new subtree under a target, we add that target to
   // the top of the stack. This can happen as a layer representing itself, or as
   // a target surface.
   // - When we visit a target surface, we apply its mask to its subtree, which
   // is at the top of the stack.
   // - When we visit a layer representing itself, we add its occlusion to the
   // current subtree, which is at the top of the stack.
   // - When we visit a layer representing a contributing surface, the current
   // target will never be the top of the stack since we just came from the
   // contributing surface.
   // We merge the occlusion at the top of the stack with the new current
   // subtree. This new target is pushed onto the stack if not already there.
   std::vector<StackObject> stack_;

  private:
   // Called when visiting a layer representing itself. If the target was not
   // already current, then this indicates we have entered a new surface subtree.
   void EnterRenderTarget(const LayerType* new_target);

   // Called when visiting a layer representing a target surface. This indicates
   // we have visited all the layers within the surface, and we may perform any
   // surface-wide operations.
   void FinishedRenderTarget(const LayerType* finished_target);

   // Called when visiting a layer representing a contributing surface. This
   // indicates that we are leaving our current surface, and entering the new
   // one. We then perform any operations required for merging results from the
   // child subtree into its parent.
   void LeaveToRenderTarget(const LayerType* new_target);

   // Add the layer's occlusion to the tracked state.
   void MarkOccludedBehindLayer(const LayerType* layer);

   gfx::Rect screen_space_clip_rect_;
   scoped_ptr<class OverdrawMetrics> overdraw_metrics_;
   gfx::Size minimum_tracking_size_;
   bool prevent_occlusion_;

   // This is used for visualizing the occlusion tracking process.
   std::vector<gfx::Rect>* occluding_screen_space_rects_;
   std::vector<gfx::Rect>* non_occluding_screen_space_rects_;

   DISALLOW_COPY_AND_ASSIGN(OcclusionTrackerBase);
 };

 typedef OcclusionTrackerBase<Layer, RenderSurface> OcclusionTracker;
 typedef OcclusionTrackerBase<LayerImpl, RenderSurfaceImpl> OcclusionTrackerImpl;
 #if !defined(COMPILER_MSVC)
 extern template class OcclusionTrackerBase<Layer, RenderSurface>;
 extern template class OcclusionTrackerBase<LayerImpl, RenderSurfaceImpl>;
 #endif

 }  // namespace cc

 #endif  // CC_TREES_OCCLUSION_TRACKER_H_
	// Copyright 2012 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_OCCLUSION_TRACKER_H_
	#define CC_TREES_OCCLUSION_TRACKER_H_

	#include <vector>

	#include "base/basictypes.h"
	#include "cc/base/cc_export.h"
	#include "cc/base/region.h"
	#include "cc/layers/layer_iterator.h"
	#include "ui/gfx/rect.h"

	namespace cc {
	class OverdrawMetrics;
	class LayerImpl;
	class RenderSurfaceImpl;
	class Layer;
	class RenderSurface;

	// This class is used to track occlusion of layers while traversing them in a
	// front-to-back order. As each layer is visited, one of the methods in this
	// class is called to notify it about the current target surface. Then,
	// occlusion in the content space of the current layer may be queried, via
	// methods such as Occluded() and UnoccludedContentRect(). If the current layer
	// owns a RenderSurfaceImpl, then occlusion on that RenderSurfaceImpl may also
	// be queried via surfaceOccluded() and surfaceUnoccludedContentRect(). Finally,
	// once finished with the layer, occlusion behind the layer should be marked by
	// calling MarkOccludedBehindLayer().
	template <typename LayerType, typename RenderSurfaceType>
	class CC_EXPORT OcclusionTrackerBase {
	public:
	OcclusionTrackerBase(gfx::Rect screen_space_clip_rect,
	bool record_metrics_for_frame);
	~OcclusionTrackerBase();

	// Called at the beginning of each step in the LayerIterator's front-to-back
	// traversal. If \|prevent_occlusion\| is true, the layer will be considered
	// unoccluded.
	void EnterLayer(const LayerIteratorPosition<LayerType>& layer_iterator,
	bool prevent_occlusion);
	// Called at the end of each step in the LayerIterator's front-to-back
	// traversal.
	void LeaveLayer(const LayerIteratorPosition<LayerType>& layer_iterator);

	// Returns true if the given rect in content space for a layer is fully
	// occluded in either screen space or the layer's target surface.
	// \|render_target\| is the contributing layer's render target, and
	// \|draw_transform\| and \|impl_draw_transform_is_unknown\| are relative to that.
	bool Occluded(const LayerType* render_target,
	gfx::Rect content_rect,
	const gfx::Transform& draw_transform,
	bool impl_draw_transform_is_unknown) const;

	// Gives an unoccluded sub-rect of \|content_rect\| in the content space of a
	// layer. Used when considering occlusion for a layer that paints/draws
	// something. \|render_target\| is the contributing layer's render target, and
	// \|draw_transform\| and \|impl_draw_transform_is_unknown\| are relative to that.
	gfx::Rect UnoccludedContentRect(
	const LayerType* render_target,
	gfx::Rect content_rect,
	const gfx::Transform& draw_transform,
	bool impl_draw_transform_is_unknown) const;

	// Gives an unoccluded sub-rect of \|content_rect\| in the content space of the
	// render_target owned by the layer. Used when considering occlusion for a
	// contributing surface that is rendering into another target.
	gfx::Rect UnoccludedContributingSurfaceContentRect(
	const LayerType* layer,
	bool for_replica,
	gfx::Rect content_rect) const;

	// Report operations for recording overdraw metrics.
	OverdrawMetrics* overdraw_metrics() const {
	return overdraw_metrics_.get();
	}

	// Gives the region of the screen that is not occluded by something opaque.
	Region ComputeVisibleRegionInScreen() const {
	DCHECK(!stack_.back().target->parent());
	return SubtractRegions(screen_space_clip_rect_,
	stack_.back().occlusion_from_inside_target);
	}

	void set_minimum_tracking_size(gfx::Size size) {
	minimum_tracking_size_ = size;
	}

	// The following is used for visualization purposes.
	void set_occluding_screen_space_rects_container(
	std::vector<gfx::Rect>* rects) {
	occluding_screen_space_rects_ = rects;
	}
	void set_non_occluding_screen_space_rects_container(
	std::vector<gfx::Rect>* rects) {
	non_occluding_screen_space_rects_ = rects;
	}

	protected:
	struct StackObject {
	StackObject() : target(0) {}
	explicit StackObject(const LayerType* target) : target(target) {}
	const LayerType* target;
	Region occlusion_from_outside_target;
	Region occlusion_from_inside_target;
	};

	// The stack holds occluded regions for subtrees in the
	// RenderSurfaceImpl-Layer tree, so that when we leave a subtree we may apply
	// a mask to it, but not to the parts outside the subtree.
	// - The first time we see a new subtree under a target, we add that target to
	// the top of the stack. This can happen as a layer representing itself, or as
	// a target surface.
	// - When we visit a target surface, we apply its mask to its subtree, which
	// is at the top of the stack.
	// - When we visit a layer representing itself, we add its occlusion to the
	// current subtree, which is at the top of the stack.
	// - When we visit a layer representing a contributing surface, the current
	// target will never be the top of the stack since we just came from the
	// contributing surface.
	// We merge the occlusion at the top of the stack with the new current
	// subtree. This new target is pushed onto the stack if not already there.
	std::vector<StackObject> stack_;

	private:
	// Called when visiting a layer representing itself. If the target was not
	// already current, then this indicates we have entered a new surface subtree.
	void EnterRenderTarget(const LayerType* new_target);

	// Called when visiting a layer representing a target surface. This indicates
	// we have visited all the layers within the surface, and we may perform any
	// surface-wide operations.
	void FinishedRenderTarget(const LayerType* finished_target);

	// Called when visiting a layer representing a contributing surface. This
	// indicates that we are leaving our current surface, and entering the new
	// one. We then perform any operations required for merging results from the
	// child subtree into its parent.
	void LeaveToRenderTarget(const LayerType* new_target);

	// Add the layer's occlusion to the tracked state.
	void MarkOccludedBehindLayer(const LayerType* layer);

	gfx::Rect screen_space_clip_rect_;
	scoped_ptr<class OverdrawMetrics> overdraw_metrics_;
	gfx::Size minimum_tracking_size_;
	bool prevent_occlusion_;

	// This is used for visualizing the occlusion tracking process.
	std::vector<gfx::Rect>* occluding_screen_space_rects_;
	std::vector<gfx::Rect>* non_occluding_screen_space_rects_;

	DISALLOW_COPY_AND_ASSIGN(OcclusionTrackerBase);
	};

	typedef OcclusionTrackerBase<Layer, RenderSurface> OcclusionTracker;
	typedef OcclusionTrackerBase<LayerImpl, RenderSurfaceImpl> OcclusionTrackerImpl;
	#if !defined(COMPILER_MSVC)
	extern template class OcclusionTrackerBase<Layer, RenderSurface>;
	extern template class OcclusionTrackerBase<LayerImpl, RenderSurfaceImpl>;
	#endif

	} // namespace cc

	#endif // CC_TREES_OCCLUSION_TRACKER_H_