cc/raster/task.h - chromium/src.git - Git at Google

 // Copyright 2016 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_RASTER_TASK_H_
 #define CC_RASTER_TASK_H_

 #include <stdint.h>

 #include <string>
 #include <vector>

 #include "base/memory/ref_counted.h"
 #include "cc/cc_export.h"

 namespace cc {
 class Task;

 // This class provides states to manage life cycle of a task and given below is
 // how it is used by TaskGraphWorkQueue to process life cycle of a task.
 // Task is in NEW state when it is created. When task is added to
 // |ready_to_run_tasks| then its state is changed to SCHEDULED. Task can be
 // canceled from NEW state (not yet scheduled to run) or from SCHEDULED state,
 // when new ScheduleTasks() is triggered and its state is changed to CANCELED.
 // When task is about to run it is added |running_tasks| and its state is
 // changed to RUNNING. Once task finishes running, its state is changed to
 // FINISHED. Both CANCELED and FINISHED tasks are added to |completed_tasks|.
 //                ╔═════╗
 //         +------║ NEW ║------+
 //         |      ╚═════╝      |
 //         v                   v
 //   ┌───────────┐        ╔══════════╗
 //   │ SCHEDULED │------> ║ CANCELED ║
 //   └───────────┘        ╚══════════╝
 //         |
 //         v
 //    ┌─────────┐         ╔══════════╗
 //    │ RUNNING │-------> ║ FINISHED ║
 //    └─────────┘         ╚══════════╝
 class CC_EXPORT TaskState {
  public:
   bool IsNew() const;
   bool IsScheduled() const;
   bool IsRunning() const;
   bool IsFinished() const;
   bool IsCanceled() const;

   // Functions to change the state of task. These functions should be called
   // only from TaskGraphWorkQueue where the life cycle of a task is decided or
   // from tests. These functions are not thread-safe. Caller is responsible for
   // thread safety.
   void Reset();  // Sets state to NEW.
   void DidSchedule();
   void DidStart();
   void DidFinish();
   void DidCancel();

   std::string ToString() const;

  private:
   friend class Task;

   // Let only Task class create the TaskState.
   TaskState();
   ~TaskState();

   enum class Value : uint16_t { NEW, SCHEDULED, RUNNING, FINISHED, CANCELED };

   Value value_;
 };

 // A task which can be run by a TaskGraphRunner. To run a Task, it should be
 // inserted into a TaskGraph, which can then be scheduled on the
 // TaskGraphRunner.
 class CC_EXPORT Task : public base::RefCountedThreadSafe<Task> {
  public:
   typedef std::vector<scoped_refptr<Task>> Vector;

   TaskState& state() { return state_; }
   void set_frame_number(int64_t frame_number) { frame_number_ = frame_number; }
   int64_t frame_number() { return frame_number_; }

   // Subclasses should implement this method. RunOnWorkerThread may be called
   // on any thread, and subclasses are responsible for locking and thread
   // safety.
   virtual void RunOnWorkerThread() = 0;

  protected:
   friend class base::RefCountedThreadSafe<Task>;

   Task();
   virtual ~Task();

  private:
   TaskState state_;
   int64_t frame_number_ = -1;
 };

 // A task dependency graph describes the order in which to execute a set
 // of tasks. Dependencies are represented as edges. Each node is assigned
 // a category, a priority and a run count that matches the number of
 // dependencies. Priority range from 0 (most favorable scheduling) to UINT16_MAX
 // (least favorable). Categories range from 0 to UINT16_MAX. It is up to the
 // implementation and its consumer to determine the meaning (if any) of a
 // category. A TaskGraphRunner implementation may chose to prioritize certain
 // categories over others, regardless of the individual priorities of tasks.
 struct CC_EXPORT TaskGraph {
   struct CC_EXPORT Node {
     typedef std::vector<Node> Vector;

     Node(scoped_refptr<Task> task,
          uint16_t category,
          uint16_t priority,
          uint32_t dependencies);
     Node(Node&& other);
     ~Node();

     Node& operator=(Node&& other) = default;

     scoped_refptr<Task> task;
     uint16_t category;
     uint16_t priority;
     uint32_t dependencies;

    private:
     DISALLOW_COPY_AND_ASSIGN(Node);
   };

   struct Edge {
     typedef std::vector<Edge> Vector;

     Edge(const Task* task, Task* dependent)
         : task(task), dependent(dependent) {}

     const Task* task;
     Task* dependent;
   };

   TaskGraph();
   TaskGraph(TaskGraph&& other);
   ~TaskGraph();

   void Swap(TaskGraph* other);
   void Reset();

   Node::Vector nodes;
   Edge::Vector edges;

  private:
   DISALLOW_COPY_AND_ASSIGN(TaskGraph);
 };

 }  // namespace cc

 #endif  // CC_RASTER_TASK_H_
	// Copyright 2016 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_RASTER_TASK_H_
	#define CC_RASTER_TASK_H_

	#include <stdint.h>

	#include <string>
	#include <vector>

	#include "base/memory/ref_counted.h"
	#include "cc/cc_export.h"

	namespace cc {
	class Task;

	// This class provides states to manage life cycle of a task and given below is
	// how it is used by TaskGraphWorkQueue to process life cycle of a task.
	// Task is in NEW state when it is created. When task is added to
	// \|ready_to_run_tasks\| then its state is changed to SCHEDULED. Task can be
	// canceled from NEW state (not yet scheduled to run) or from SCHEDULED state,
	// when new ScheduleTasks() is triggered and its state is changed to CANCELED.
	// When task is about to run it is added \|running_tasks\| and its state is
	// changed to RUNNING. Once task finishes running, its state is changed to
	// FINISHED. Both CANCELED and FINISHED tasks are added to \|completed_tasks\|.
	// ╔═════╗
	// +------║ NEW ║------+
	// \| ╚═════╝ \|
	// v v
	// ┌───────────┐ ╔══════════╗
	// │ SCHEDULED │------> ║ CANCELED ║
	// └───────────┘ ╚══════════╝
	// \|
	// v
	// ┌─────────┐ ╔══════════╗
	// │ RUNNING │-------> ║ FINISHED ║
	// └─────────┘ ╚══════════╝
	class CC_EXPORT TaskState {
	public:
	bool IsNew() const;
	bool IsScheduled() const;
	bool IsRunning() const;
	bool IsFinished() const;
	bool IsCanceled() const;

	// Functions to change the state of task. These functions should be called
	// only from TaskGraphWorkQueue where the life cycle of a task is decided or
	// from tests. These functions are not thread-safe. Caller is responsible for
	// thread safety.
	void Reset(); // Sets state to NEW.
	void DidSchedule();
	void DidStart();
	void DidFinish();
	void DidCancel();

	std::string ToString() const;

	private:
	friend class Task;

	// Let only Task class create the TaskState.
	TaskState();
	~TaskState();

	enum class Value : uint16_t { NEW, SCHEDULED, RUNNING, FINISHED, CANCELED };

	Value value_;
	};

	// A task which can be run by a TaskGraphRunner. To run a Task, it should be
	// inserted into a TaskGraph, which can then be scheduled on the
	// TaskGraphRunner.
	class CC_EXPORT Task : public base::RefCountedThreadSafe<Task> {
	public:
	typedef std::vector<scoped_refptr<Task>> Vector;

	TaskState& state() { return state_; }
	void set_frame_number(int64_t frame_number) { frame_number_ = frame_number; }
	int64_t frame_number() { return frame_number_; }

	// Subclasses should implement this method. RunOnWorkerThread may be called
	// on any thread, and subclasses are responsible for locking and thread
	// safety.
	virtual void RunOnWorkerThread() = 0;

	protected:
	friend class base::RefCountedThreadSafe<Task>;

	Task();
	virtual ~Task();

	private:
	TaskState state_;
	int64_t frame_number_ = -1;
	};

	// A task dependency graph describes the order in which to execute a set
	// of tasks. Dependencies are represented as edges. Each node is assigned
	// a category, a priority and a run count that matches the number of
	// dependencies. Priority range from 0 (most favorable scheduling) to UINT16_MAX
	// (least favorable). Categories range from 0 to UINT16_MAX. It is up to the
	// implementation and its consumer to determine the meaning (if any) of a
	// category. A TaskGraphRunner implementation may chose to prioritize certain
	// categories over others, regardless of the individual priorities of tasks.
	struct CC_EXPORT TaskGraph {
	struct CC_EXPORT Node {
	typedef std::vector<Node> Vector;

	Node(scoped_refptr<Task> task,
	uint16_t category,
	uint16_t priority,
	uint32_t dependencies);
	Node(Node&& other);
	~Node();

	Node& operator=(Node&& other) = default;

	scoped_refptr<Task> task;
	uint16_t category;
	uint16_t priority;
	uint32_t dependencies;

	private:
	DISALLOW_COPY_AND_ASSIGN(Node);
	};

	struct Edge {
	typedef std::vector<Edge> Vector;

	Edge(const Task* task, Task* dependent)
	: task(task), dependent(dependent) {}

	const Task* task;
	Task* dependent;
	};

	TaskGraph();
	TaskGraph(TaskGraph&& other);
	~TaskGraph();

	void Swap(TaskGraph* other);
	void Reset();

	Node::Vector nodes;
	Edge::Vector edges;

	private:
	DISALLOW_COPY_AND_ASSIGN(TaskGraph);
	};

	} // namespace cc

	#endif // CC_RASTER_TASK_H_