cc/tiles/tile_manager.h - chromium/src - 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_TILES_TILE_MANAGER_H_
 #define CC_TILES_TILE_MANAGER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <set>
 #include <unordered_map>
 #include <utility>
 #include <vector>

 #include "base/macros.h"
 #include "base/values.h"
 #include "cc/base/unique_notifier.h"
 #include "cc/playback/raster_source.h"
 #include "cc/raster/raster_buffer_provider.h"
 #include "cc/resources/memory_history.h"
 #include "cc/resources/resource_pool.h"
 #include "cc/tiles/eviction_tile_priority_queue.h"
 #include "cc/tiles/image_decode_controller.h"
 #include "cc/tiles/raster_tile_priority_queue.h"
 #include "cc/tiles/tile.h"
 #include "cc/tiles/tile_draw_info.h"
 #include "cc/tiles/tile_task_manager.h"

 namespace base {
 namespace trace_event {
 class ConvertableToTraceFormat;
 class TracedValue;
 }
 }

 namespace cc {
 class PictureLayerImpl;
 class ResourceProvider;

 class CC_EXPORT TileManagerClient {
  public:
   // Called when all tiles marked as required for activation are ready to draw.
   virtual void NotifyReadyToActivate() = 0;

   // Called when all tiles marked as required for draw are ready to draw.
   virtual void NotifyReadyToDraw() = 0;

   // Called when all tile tasks started by the most recent call to PrepareTiles
   // are completed.
   virtual void NotifyAllTileTasksCompleted() = 0;

   // Called when the visible representation of a tile might have changed. Some
   // examples are:
   // - Tile version initialized.
   // - Tile resources freed.
   // - Tile marked for on-demand raster.
   virtual void NotifyTileStateChanged(const Tile* tile) = 0;

   // Given an empty raster tile priority queue, this will build a priority queue
   // that will return tiles in order in which they should be rasterized.
   // Note if the queue was previous built, Reset must be called on it.
   virtual std::unique_ptr<RasterTilePriorityQueue> BuildRasterQueue(
       TreePriority tree_priority,
       RasterTilePriorityQueue::Type type) = 0;

   // Given an empty eviction tile priority queue, this will build a priority
   // queue that will return tiles in order in which they should be evicted.
   // Note if the queue was previous built, Reset must be called on it.
   virtual std::unique_ptr<EvictionTilePriorityQueue> BuildEvictionQueue(
       TreePriority tree_priority) = 0;

   // Informs the client that due to the currently rasterizing (or scheduled to
   // be rasterized) tiles, we will be in a position that will likely require a
   // draw. This can be used to preemptively start a frame.
   virtual void SetIsLikelyToRequireADraw(bool is_likely_to_require_a_draw) = 0;

  protected:
   virtual ~TileManagerClient() {}
 };

 struct RasterTaskCompletionStats {
   RasterTaskCompletionStats();

   size_t completed_count;
   size_t canceled_count;
 };
 std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
 RasterTaskCompletionStatsAsValue(const RasterTaskCompletionStats& stats);

 // This class manages tiles, deciding which should get rasterized and which
 // should no longer have any memory assigned to them. Tile objects are "owned"
 // by layers; they automatically register with the manager when they are
 // created, and unregister from the manager when they are deleted.
 class CC_EXPORT TileManager {
  public:
   TileManager(TileManagerClient* client,
               base::SequencedTaskRunner* task_runner,
               size_t scheduled_raster_task_limit,
               bool use_partial_raster,
               int max_preraster_distance_in_screen_pixels);
   virtual ~TileManager();

   // Assigns tile memory and schedules work to prepare tiles for drawing.
   // - Runs client_->NotifyReadyToActivate() when all tiles required for
   // activation are prepared, or failed to prepare due to OOM.
   // - Runs client_->NotifyReadyToDraw() when all tiles required draw are
   // prepared, or failed to prepare due to OOM.
   bool PrepareTiles(const GlobalStateThatImpactsTilePriority& state);

   // Synchronously finish any in progress work, cancel the rest, and clean up as
   // much resources as possible. Also, prevents any future work until a
   // SetResources call.
   void FinishTasksAndCleanUp();

   // Set the new given resource pool and tile task runner. Note that
   // FinishTasksAndCleanUp must be called in between consecutive calls to
   // SetResources.
   void SetResources(ResourcePool* resource_pool,
                     ImageDecodeController* image_decode_controller,
                     TileTaskManager* tile_task_manager,
                     RasterBufferProvider* raster_buffer_provider,
                     size_t scheduled_raster_task_limit,
                     bool use_gpu_rasterization);

   // This causes any completed raster work to finalize, so that tiles get up to
   // date draw information.
   void Flush();

   ScopedTilePtr CreateTile(const Tile::CreateInfo& info,
                            int layer_id,
                            int source_frame_number,
                            int flags);

   bool IsReadyToActivate() const;
   bool IsReadyToDraw() const;

   std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
   BasicStateAsValue() const;
   void BasicStateAsValueInto(base::trace_event::TracedValue* dict) const;
   const MemoryHistory::Entry& memory_stats_from_last_assign() const {
     return memory_stats_from_last_assign_;
   }

   // Public methods for testing.
   void InitializeTilesWithResourcesForTesting(const std::vector<Tile*>& tiles) {
     for (size_t i = 0; i < tiles.size(); ++i) {
       TileDrawInfo& draw_info = tiles[i]->draw_info();
       draw_info.resource_ = resource_pool_->AcquireResource(
           tiles[i]->desired_texture_size(),
           raster_buffer_provider_->GetResourceFormat(false));
     }
   }

   void ReleaseTileResourcesForTesting(const std::vector<Tile*>& tiles) {
     for (size_t i = 0; i < tiles.size(); ++i) {
       Tile* tile = tiles[i];
       FreeResourcesForTile(tile);
     }
   }

   void SetGlobalStateForTesting(
       const GlobalStateThatImpactsTilePriority& state) {
     global_state_ = state;
   }

   void SetTileTaskManagerForTesting(TileTaskManager* tile_task_manager);

   void SetRasterBufferProviderForTesting(
       RasterBufferProvider* raster_buffer_provider);

   void FreeResourcesAndCleanUpReleasedTilesForTesting() {
     FreeResourcesForReleasedTiles();
     CleanUpReleasedTiles();
   }

   std::vector<Tile*> AllTilesForTesting() const {
     std::vector<Tile*> tiles;
     for (auto& tile_pair : tiles_)
       tiles.push_back(tile_pair.second);
     return tiles;
   }

   void SetScheduledRasterTaskLimitForTesting(size_t limit) {
     scheduled_raster_task_limit_ = limit;
   }

   void CheckIfMoreTilesNeedToBePreparedForTesting() {
     CheckIfMoreTilesNeedToBePrepared();
   }

   void SetMoreTilesNeedToBeRasterizedForTesting() {
     all_tiles_that_need_to_be_rasterized_are_scheduled_ = false;
   }

   bool HasScheduledTileTasksForTesting() const {
     return has_scheduled_tile_tasks_;
   }

   void OnRasterTaskCompleted(std::unique_ptr<RasterBuffer> raster_buffer,
                              Tile* tile,
                              Resource* resource,
                              bool was_canceled);

  protected:
   void FreeResourcesForReleasedTiles();
   void CleanUpReleasedTiles();

   friend class Tile;
   // Virtual for testing.
   virtual void Release(Tile* tile);
   Tile::Id GetUniqueTileId() { return ++next_tile_id_; }

  private:
   class MemoryUsage {
    public:
     MemoryUsage();
     MemoryUsage(size_t memory_bytes, size_t resource_count);

     static MemoryUsage FromConfig(const gfx::Size& size, ResourceFormat format);
     static MemoryUsage FromTile(const Tile* tile);

     MemoryUsage& operator+=(const MemoryUsage& other);
     MemoryUsage& operator-=(const MemoryUsage& other);
     MemoryUsage operator-(const MemoryUsage& other);

     bool Exceeds(const MemoryUsage& limit) const;
     int64_t memory_bytes() const { return memory_bytes_; }

    private:
     int64_t memory_bytes_;
     int resource_count_;
   };

   struct Signals {
     Signals();

     void reset();

     bool ready_to_activate;
     bool did_notify_ready_to_activate;
     bool ready_to_draw;
     bool did_notify_ready_to_draw;
     bool all_tile_tasks_completed;
     bool did_notify_all_tile_tasks_completed;
   };

   struct PrioritizedWorkToSchedule {
     PrioritizedWorkToSchedule();
     PrioritizedWorkToSchedule(PrioritizedWorkToSchedule&& other);
     ~PrioritizedWorkToSchedule();

     std::vector<PrioritizedTile> tiles_to_raster;
     std::vector<PrioritizedTile> tiles_to_process_for_images;
   };

   void FreeResourcesForTile(Tile* tile);
   void FreeResourcesForTileAndNotifyClientIfTileWasReadyToDraw(Tile* tile);
   scoped_refptr<TileTask> CreateRasterTask(
       const PrioritizedTile& prioritized_tile);

   std::unique_ptr<EvictionTilePriorityQueue>
   FreeTileResourcesUntilUsageIsWithinLimit(
       std::unique_ptr<EvictionTilePriorityQueue> eviction_priority_queue,
       const MemoryUsage& limit,
       MemoryUsage* usage);
   std::unique_ptr<EvictionTilePriorityQueue>
   FreeTileResourcesWithLowerPriorityUntilUsageIsWithinLimit(
       std::unique_ptr<EvictionTilePriorityQueue> eviction_priority_queue,
       const MemoryUsage& limit,
       const TilePriority& oother_priority,
       MemoryUsage* usage);
   bool TilePriorityViolatesMemoryPolicy(const TilePriority& priority);
   bool AreRequiredTilesReadyToDraw(RasterTilePriorityQueue::Type type) const;
   void CheckIfMoreTilesNeedToBePrepared();
   void CheckAndIssueSignals();
   bool MarkTilesOutOfMemory(
       std::unique_ptr<RasterTilePriorityQueue> queue) const;

   ResourceFormat DetermineResourceFormat(const Tile* tile) const;
   bool DetermineResourceRequiresSwizzle(const Tile* tile) const;

   void DidFinishRunningTileTasksRequiredForActivation();
   void DidFinishRunningTileTasksRequiredForDraw();
   void DidFinishRunningAllTileTasks();

   scoped_refptr<TileTask> CreateTaskSetFinishedTask(
       void (TileManager::*callback)());
   PrioritizedWorkToSchedule AssignGpuMemoryToTiles();
   void ScheduleTasks(const PrioritizedWorkToSchedule& work_to_schedule);

   std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
   ScheduledTasksStateAsValue() const;

   TileManagerClient* client_;
   base::SequencedTaskRunner* task_runner_;
   ResourcePool* resource_pool_;
   TileTaskManager* tile_task_manager_;
   RasterBufferProvider* raster_buffer_provider_;
   GlobalStateThatImpactsTilePriority global_state_;
   size_t scheduled_raster_task_limit_;
   const bool use_partial_raster_;
   bool use_gpu_rasterization_;

   std::unordered_map<Tile::Id, Tile*> tiles_;

   bool all_tiles_that_need_to_be_rasterized_are_scheduled_;
   MemoryHistory::Entry memory_stats_from_last_assign_;

   bool did_check_for_completed_tasks_since_last_schedule_tasks_;
   bool did_oom_on_last_assign_;

   ImageDecodeController* image_decode_controller_;

   RasterTaskCompletionStats flush_stats_;

   std::vector<Tile*> released_tiles_;

   std::vector<scoped_refptr<TileTask>> orphan_tasks_;

   TaskGraph graph_;
   scoped_refptr<TileTask> required_for_activation_done_task_;
   scoped_refptr<TileTask> required_for_draw_done_task_;
   scoped_refptr<TileTask> all_done_task_;

   UniqueNotifier more_tiles_need_prepare_check_notifier_;

   Signals signals_;

   UniqueNotifier signals_check_notifier_;

   bool has_scheduled_tile_tasks_;

   uint64_t prepare_tiles_count_;
   uint64_t next_tile_id_;

   std::unordered_map<Tile::Id, std::vector<DrawImage>> scheduled_draw_images_;
   const int max_preraster_distance_in_screen_pixels_;
   std::vector<std::pair<DrawImage, scoped_refptr<TileTask>>> locked_images_;

   base::WeakPtrFactory<TileManager> task_set_finished_weak_ptr_factory_;

   DISALLOW_COPY_AND_ASSIGN(TileManager);
 };

 }  // namespace cc

 #endif  // CC_TILES_TILE_MANAGER_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_TILES_TILE_MANAGER_H_
	#define CC_TILES_TILE_MANAGER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <set>
	#include <unordered_map>
	#include <utility>
	#include <vector>

	#include "base/macros.h"
	#include "base/values.h"
	#include "cc/base/unique_notifier.h"
	#include "cc/playback/raster_source.h"
	#include "cc/raster/raster_buffer_provider.h"
	#include "cc/resources/memory_history.h"
	#include "cc/resources/resource_pool.h"
	#include "cc/tiles/eviction_tile_priority_queue.h"
	#include "cc/tiles/image_decode_controller.h"
	#include "cc/tiles/raster_tile_priority_queue.h"
	#include "cc/tiles/tile.h"
	#include "cc/tiles/tile_draw_info.h"
	#include "cc/tiles/tile_task_manager.h"

	namespace base {
	namespace trace_event {
	class ConvertableToTraceFormat;
	class TracedValue;
	}
	}

	namespace cc {
	class PictureLayerImpl;
	class ResourceProvider;

	class CC_EXPORT TileManagerClient {
	public:
	// Called when all tiles marked as required for activation are ready to draw.
	virtual void NotifyReadyToActivate() = 0;

	// Called when all tiles marked as required for draw are ready to draw.
	virtual void NotifyReadyToDraw() = 0;

	// Called when all tile tasks started by the most recent call to PrepareTiles
	// are completed.
	virtual void NotifyAllTileTasksCompleted() = 0;

	// Called when the visible representation of a tile might have changed. Some
	// examples are:
	// - Tile version initialized.
	// - Tile resources freed.
	// - Tile marked for on-demand raster.
	virtual void NotifyTileStateChanged(const Tile* tile) = 0;

	// Given an empty raster tile priority queue, this will build a priority queue
	// that will return tiles in order in which they should be rasterized.
	// Note if the queue was previous built, Reset must be called on it.
	virtual std::unique_ptr<RasterTilePriorityQueue> BuildRasterQueue(
	TreePriority tree_priority,
	RasterTilePriorityQueue::Type type) = 0;

	// Given an empty eviction tile priority queue, this will build a priority
	// queue that will return tiles in order in which they should be evicted.
	// Note if the queue was previous built, Reset must be called on it.
	virtual std::unique_ptr<EvictionTilePriorityQueue> BuildEvictionQueue(
	TreePriority tree_priority) = 0;

	// Informs the client that due to the currently rasterizing (or scheduled to
	// be rasterized) tiles, we will be in a position that will likely require a
	// draw. This can be used to preemptively start a frame.
	virtual void SetIsLikelyToRequireADraw(bool is_likely_to_require_a_draw) = 0;

	protected:
	virtual ~TileManagerClient() {}
	};

	struct RasterTaskCompletionStats {
	RasterTaskCompletionStats();

	size_t completed_count;
	size_t canceled_count;
	};
	std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
	RasterTaskCompletionStatsAsValue(const RasterTaskCompletionStats& stats);

	// This class manages tiles, deciding which should get rasterized and which
	// should no longer have any memory assigned to them. Tile objects are "owned"
	// by layers; they automatically register with the manager when they are
	// created, and unregister from the manager when they are deleted.
	class CC_EXPORT TileManager {
	public:
	TileManager(TileManagerClient* client,
	base::SequencedTaskRunner* task_runner,
	size_t scheduled_raster_task_limit,
	bool use_partial_raster,
	int max_preraster_distance_in_screen_pixels);
	virtual ~TileManager();

	// Assigns tile memory and schedules work to prepare tiles for drawing.
	// - Runs client_->NotifyReadyToActivate() when all tiles required for
	// activation are prepared, or failed to prepare due to OOM.
	// - Runs client_->NotifyReadyToDraw() when all tiles required draw are
	// prepared, or failed to prepare due to OOM.
	bool PrepareTiles(const GlobalStateThatImpactsTilePriority& state);

	// Synchronously finish any in progress work, cancel the rest, and clean up as
	// much resources as possible. Also, prevents any future work until a
	// SetResources call.
	void FinishTasksAndCleanUp();

	// Set the new given resource pool and tile task runner. Note that
	// FinishTasksAndCleanUp must be called in between consecutive calls to
	// SetResources.
	void SetResources(ResourcePool* resource_pool,
	ImageDecodeController* image_decode_controller,
	TileTaskManager* tile_task_manager,
	RasterBufferProvider* raster_buffer_provider,
	size_t scheduled_raster_task_limit,
	bool use_gpu_rasterization);

	// This causes any completed raster work to finalize, so that tiles get up to
	// date draw information.
	void Flush();

	ScopedTilePtr CreateTile(const Tile::CreateInfo& info,
	int layer_id,
	int source_frame_number,
	int flags);

	bool IsReadyToActivate() const;
	bool IsReadyToDraw() const;

	std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
	BasicStateAsValue() const;
	void BasicStateAsValueInto(base::trace_event::TracedValue* dict) const;
	const MemoryHistory::Entry& memory_stats_from_last_assign() const {
	return memory_stats_from_last_assign_;
	}

	// Public methods for testing.
	void InitializeTilesWithResourcesForTesting(const std::vector<Tile*>& tiles) {
	for (size_t i = 0; i < tiles.size(); ++i) {
	TileDrawInfo& draw_info = tiles[i]->draw_info();
	draw_info.resource_ = resource_pool_->AcquireResource(
	tiles[i]->desired_texture_size(),
	raster_buffer_provider_->GetResourceFormat(false));
	}
	}

	void ReleaseTileResourcesForTesting(const std::vector<Tile*>& tiles) {
	for (size_t i = 0; i < tiles.size(); ++i) {
	Tile* tile = tiles[i];
	FreeResourcesForTile(tile);
	}
	}

	void SetGlobalStateForTesting(
	const GlobalStateThatImpactsTilePriority& state) {
	global_state_ = state;
	}

	void SetTileTaskManagerForTesting(TileTaskManager* tile_task_manager);

	void SetRasterBufferProviderForTesting(
	RasterBufferProvider* raster_buffer_provider);

	void FreeResourcesAndCleanUpReleasedTilesForTesting() {
	FreeResourcesForReleasedTiles();
	CleanUpReleasedTiles();
	}

	std::vector<Tile*> AllTilesForTesting() const {
	std::vector<Tile*> tiles;
	for (auto& tile_pair : tiles_)
	tiles.push_back(tile_pair.second);
	return tiles;
	}

	void SetScheduledRasterTaskLimitForTesting(size_t limit) {
	scheduled_raster_task_limit_ = limit;
	}

	void CheckIfMoreTilesNeedToBePreparedForTesting() {
	CheckIfMoreTilesNeedToBePrepared();
	}

	void SetMoreTilesNeedToBeRasterizedForTesting() {
	all_tiles_that_need_to_be_rasterized_are_scheduled_ = false;
	}

	bool HasScheduledTileTasksForTesting() const {
	return has_scheduled_tile_tasks_;
	}

	void OnRasterTaskCompleted(std::unique_ptr<RasterBuffer> raster_buffer,
	Tile* tile,
	Resource* resource,
	bool was_canceled);

	protected:
	void FreeResourcesForReleasedTiles();
	void CleanUpReleasedTiles();

	friend class Tile;
	// Virtual for testing.
	virtual void Release(Tile* tile);
	Tile::Id GetUniqueTileId() { return ++next_tile_id_; }

	private:
	class MemoryUsage {
	public:
	MemoryUsage();
	MemoryUsage(size_t memory_bytes, size_t resource_count);

	static MemoryUsage FromConfig(const gfx::Size& size, ResourceFormat format);
	static MemoryUsage FromTile(const Tile* tile);

	MemoryUsage& operator+=(const MemoryUsage& other);
	MemoryUsage& operator-=(const MemoryUsage& other);
	MemoryUsage operator-(const MemoryUsage& other);

	bool Exceeds(const MemoryUsage& limit) const;
	int64_t memory_bytes() const { return memory_bytes_; }

	private:
	int64_t memory_bytes_;
	int resource_count_;
	};

	struct Signals {
	Signals();

	void reset();

	bool ready_to_activate;
	bool did_notify_ready_to_activate;
	bool ready_to_draw;
	bool did_notify_ready_to_draw;
	bool all_tile_tasks_completed;
	bool did_notify_all_tile_tasks_completed;
	};

	struct PrioritizedWorkToSchedule {
	PrioritizedWorkToSchedule();
	PrioritizedWorkToSchedule(PrioritizedWorkToSchedule&& other);
	~PrioritizedWorkToSchedule();

	std::vector<PrioritizedTile> tiles_to_raster;
	std::vector<PrioritizedTile> tiles_to_process_for_images;
	};

	void FreeResourcesForTile(Tile* tile);
	void FreeResourcesForTileAndNotifyClientIfTileWasReadyToDraw(Tile* tile);
	scoped_refptr<TileTask> CreateRasterTask(
	const PrioritizedTile& prioritized_tile);

	std::unique_ptr<EvictionTilePriorityQueue>
	FreeTileResourcesUntilUsageIsWithinLimit(
	std::unique_ptr<EvictionTilePriorityQueue> eviction_priority_queue,
	const MemoryUsage& limit,
	MemoryUsage* usage);
	std::unique_ptr<EvictionTilePriorityQueue>
	FreeTileResourcesWithLowerPriorityUntilUsageIsWithinLimit(
	std::unique_ptr<EvictionTilePriorityQueue> eviction_priority_queue,
	const MemoryUsage& limit,
	const TilePriority& oother_priority,
	MemoryUsage* usage);
	bool TilePriorityViolatesMemoryPolicy(const TilePriority& priority);
	bool AreRequiredTilesReadyToDraw(RasterTilePriorityQueue::Type type) const;
	void CheckIfMoreTilesNeedToBePrepared();
	void CheckAndIssueSignals();
	bool MarkTilesOutOfMemory(
	std::unique_ptr<RasterTilePriorityQueue> queue) const;

	ResourceFormat DetermineResourceFormat(const Tile* tile) const;
	bool DetermineResourceRequiresSwizzle(const Tile* tile) const;

	void DidFinishRunningTileTasksRequiredForActivation();
	void DidFinishRunningTileTasksRequiredForDraw();
	void DidFinishRunningAllTileTasks();

	scoped_refptr<TileTask> CreateTaskSetFinishedTask(
	void (TileManager::*callback)());
	PrioritizedWorkToSchedule AssignGpuMemoryToTiles();
	void ScheduleTasks(const PrioritizedWorkToSchedule& work_to_schedule);

	std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
	ScheduledTasksStateAsValue() const;

	TileManagerClient* client_;
	base::SequencedTaskRunner* task_runner_;
	ResourcePool* resource_pool_;
	TileTaskManager* tile_task_manager_;
	RasterBufferProvider* raster_buffer_provider_;
	GlobalStateThatImpactsTilePriority global_state_;
	size_t scheduled_raster_task_limit_;
	const bool use_partial_raster_;
	bool use_gpu_rasterization_;

	std::unordered_map<Tile::Id, Tile*> tiles_;

	bool all_tiles_that_need_to_be_rasterized_are_scheduled_;
	MemoryHistory::Entry memory_stats_from_last_assign_;

	bool did_check_for_completed_tasks_since_last_schedule_tasks_;
	bool did_oom_on_last_assign_;

	ImageDecodeController* image_decode_controller_;

	RasterTaskCompletionStats flush_stats_;

	std::vector<Tile*> released_tiles_;

	std::vector<scoped_refptr<TileTask>> orphan_tasks_;

	TaskGraph graph_;
	scoped_refptr<TileTask> required_for_activation_done_task_;
	scoped_refptr<TileTask> required_for_draw_done_task_;
	scoped_refptr<TileTask> all_done_task_;

	UniqueNotifier more_tiles_need_prepare_check_notifier_;

	Signals signals_;

	UniqueNotifier signals_check_notifier_;

	bool has_scheduled_tile_tasks_;

	uint64_t prepare_tiles_count_;
	uint64_t next_tile_id_;

	std::unordered_map<Tile::Id, std::vector<DrawImage>> scheduled_draw_images_;
	const int max_preraster_distance_in_screen_pixels_;
	std::vector<std::pair<DrawImage, scoped_refptr<TileTask>>> locked_images_;

	base::WeakPtrFactory<TileManager> task_set_finished_weak_ptr_factory_;

	DISALLOW_COPY_AND_ASSIGN(TileManager);
	};

	} // namespace cc

	#endif // CC_TILES_TILE_MANAGER_H_