fml/message_loop_task_queues.h - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter 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 FLUTTER_FML_MESSAGE_LOOP_TASK_QUEUES_H_
 #define FLUTTER_FML_MESSAGE_LOOP_TASK_QUEUES_H_

 #include <map>
 #include <mutex>
 #include <vector>

 #include "flutter/fml/closure.h"
 #include "flutter/fml/delayed_task.h"
 #include "flutter/fml/macros.h"
 #include "flutter/fml/memory/ref_counted.h"
 #include "flutter/fml/synchronization/shared_mutex.h"
 #include "flutter/fml/wakeable.h"

 namespace fml {

 class TaskQueueId {
  public:
   static const size_t kUnmerged;

   explicit TaskQueueId(size_t value) : value_(value) {}

   operator int() const { return value_; }

  private:
   size_t value_ = kUnmerged;
 };

 static const TaskQueueId _kUnmerged = TaskQueueId(TaskQueueId::kUnmerged);

 // This is keyed by the |TaskQueueId| and contains all the queue
 // components that make up a single TaskQueue.
 class TaskQueueEntry {
  public:
   using TaskObservers = std::map<intptr_t, fml::closure>;
   Wakeable* wakeable;
   TaskObservers task_observers;
   DelayedTaskQueue delayed_tasks;

   // Note: Both of these can be _kUnmerged, which indicates that
   // this queue has not been merged or subsumed. OR exactly one
   // of these will be _kUnmerged, if owner_of is _kUnmerged, it means
   // that the queue has been subsumed or else it owns another queue.
   TaskQueueId owner_of;
   TaskQueueId subsumed_by;

   TaskQueueEntry();

  private:
   FML_DISALLOW_COPY_ASSIGN_AND_MOVE(TaskQueueEntry);
 };

 enum class FlushType {
   kSingle,
   kAll,
 };

 // This class keeps track of all the tasks and observers that
 // need to be run on it's MessageLoopImpl. This also wakes up the
 // loop at the required times.
 class MessageLoopTaskQueues
     : public fml::RefCountedThreadSafe<MessageLoopTaskQueues> {
  public:
   // Lifecycle.

   static fml::RefPtr<MessageLoopTaskQueues> GetInstance();

   TaskQueueId CreateTaskQueue();

   void Dispose(TaskQueueId queue_id);

   void DisposeTasks(TaskQueueId queue_id);

   // Tasks methods.

   void RegisterTask(TaskQueueId queue_id,
                     const fml::closure& task,
                     fml::TimePoint target_time);

   bool HasPendingTasks(TaskQueueId queue_id) const;

   fml::closure GetNextTaskToRun(TaskQueueId queue_id, fml::TimePoint from_time);

   size_t GetNumPendingTasks(TaskQueueId queue_id) const;

   // Observers methods.

   void AddTaskObserver(TaskQueueId queue_id,
                        intptr_t key,
                        const fml::closure& callback);

   void RemoveTaskObserver(TaskQueueId queue_id, intptr_t key);

   std::vector<fml::closure> GetObserversToNotify(TaskQueueId queue_id) const;

   // Misc.

   void SetWakeable(TaskQueueId queue_id, fml::Wakeable* wakeable);

   // Invariants for merge and un-merge
   //  1. RegisterTask will always submit to the queue_id that is passed
   //     to it. It is not aware of whether a queue is merged or not. Same with
   //     task observers.
   //  2. When we get the tasks to run now, we look at both the queue_ids
   //     for the owner, subsumed will spin.
   //  3. Each task queue can only be merged and subsumed once.
   //
   //  Methods currently aware of the merged state of the queues:
   //  HasPendingTasks, GetNextTaskToRun, GetNumPendingTasks

   // This method returns false if either the owner or subsumed has already been
   // merged with something else.
   bool Merge(TaskQueueId owner, TaskQueueId subsumed);

   // Will return false if the owner has not been merged before.
   bool Unmerge(TaskQueueId owner);

   // Returns true if owner owns the subsumed task queue.
   bool Owns(TaskQueueId owner, TaskQueueId subsumed) const;

  private:
   class MergedQueuesRunner;

   MessageLoopTaskQueues();

   ~MessageLoopTaskQueues();

   void WakeUpUnlocked(TaskQueueId queue_id, fml::TimePoint time) const;

   bool HasPendingTasksUnlocked(TaskQueueId queue_id) const;

   const DelayedTask& PeekNextTaskUnlocked(TaskQueueId owner,
                                           TaskQueueId& top_queue_id) const;

   fml::TimePoint GetNextWakeTimeUnlocked(TaskQueueId queue_id) const;

   static std::mutex creation_mutex_;
   static fml::RefPtr<MessageLoopTaskQueues> instance_;

   mutable std::mutex queue_mutex_;
   std::map<TaskQueueId, std::unique_ptr<TaskQueueEntry>> queue_entries_;

   size_t task_queue_id_counter_;

   std::atomic_int order_;

   FML_FRIEND_MAKE_REF_COUNTED(MessageLoopTaskQueues);
   FML_FRIEND_REF_COUNTED_THREAD_SAFE(MessageLoopTaskQueues);
   FML_DISALLOW_COPY_ASSIGN_AND_MOVE(MessageLoopTaskQueues);
 };

 }  // namespace fml

 #endif  // FLUTTER_FML_MESSAGE_LOOP_TASK_QUEUES_H_
	// Copyright 2013 The Flutter 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 FLUTTER_FML_MESSAGE_LOOP_TASK_QUEUES_H_
	#define FLUTTER_FML_MESSAGE_LOOP_TASK_QUEUES_H_

	#include <map>
	#include <mutex>
	#include <vector>

	#include "flutter/fml/closure.h"
	#include "flutter/fml/delayed_task.h"
	#include "flutter/fml/macros.h"
	#include "flutter/fml/memory/ref_counted.h"
	#include "flutter/fml/synchronization/shared_mutex.h"
	#include "flutter/fml/wakeable.h"

	namespace fml {

	class TaskQueueId {
	public:
	static const size_t kUnmerged;

	explicit TaskQueueId(size_t value) : value_(value) {}

	operator int() const { return value_; }

	private:
	size_t value_ = kUnmerged;
	};

	static const TaskQueueId _kUnmerged = TaskQueueId(TaskQueueId::kUnmerged);

	// This is keyed by the \|TaskQueueId\| and contains all the queue
	// components that make up a single TaskQueue.
	class TaskQueueEntry {
	public:
	using TaskObservers = std::map<intptr_t, fml::closure>;
	Wakeable* wakeable;
	TaskObservers task_observers;
	DelayedTaskQueue delayed_tasks;

	// Note: Both of these can be _kUnmerged, which indicates that
	// this queue has not been merged or subsumed. OR exactly one
	// of these will be _kUnmerged, if owner_of is _kUnmerged, it means
	// that the queue has been subsumed or else it owns another queue.
	TaskQueueId owner_of;
	TaskQueueId subsumed_by;

	TaskQueueEntry();

	private:
	FML_DISALLOW_COPY_ASSIGN_AND_MOVE(TaskQueueEntry);
	};

	enum class FlushType {
	kSingle,
	kAll,
	};

	// This class keeps track of all the tasks and observers that
	// need to be run on it's MessageLoopImpl. This also wakes up the
	// loop at the required times.
	class MessageLoopTaskQueues
	: public fml::RefCountedThreadSafe<MessageLoopTaskQueues> {
	public:
	// Lifecycle.

	static fml::RefPtr<MessageLoopTaskQueues> GetInstance();

	TaskQueueId CreateTaskQueue();

	void Dispose(TaskQueueId queue_id);

	void DisposeTasks(TaskQueueId queue_id);

	// Tasks methods.

	void RegisterTask(TaskQueueId queue_id,
	const fml::closure& task,
	fml::TimePoint target_time);

	bool HasPendingTasks(TaskQueueId queue_id) const;

	fml::closure GetNextTaskToRun(TaskQueueId queue_id, fml::TimePoint from_time);

	size_t GetNumPendingTasks(TaskQueueId queue_id) const;

	// Observers methods.

	void AddTaskObserver(TaskQueueId queue_id,
	intptr_t key,
	const fml::closure& callback);

	void RemoveTaskObserver(TaskQueueId queue_id, intptr_t key);

	std::vector<fml::closure> GetObserversToNotify(TaskQueueId queue_id) const;

	// Misc.

	void SetWakeable(TaskQueueId queue_id, fml::Wakeable* wakeable);

	// Invariants for merge and un-merge
	// 1. RegisterTask will always submit to the queue_id that is passed
	// to it. It is not aware of whether a queue is merged or not. Same with
	// task observers.
	// 2. When we get the tasks to run now, we look at both the queue_ids
	// for the owner, subsumed will spin.
	// 3. Each task queue can only be merged and subsumed once.
	//
	// Methods currently aware of the merged state of the queues:
	// HasPendingTasks, GetNextTaskToRun, GetNumPendingTasks

	// This method returns false if either the owner or subsumed has already been
	// merged with something else.
	bool Merge(TaskQueueId owner, TaskQueueId subsumed);

	// Will return false if the owner has not been merged before.
	bool Unmerge(TaskQueueId owner);

	// Returns true if owner owns the subsumed task queue.
	bool Owns(TaskQueueId owner, TaskQueueId subsumed) const;

	private:
	class MergedQueuesRunner;

	MessageLoopTaskQueues();

	~MessageLoopTaskQueues();

	void WakeUpUnlocked(TaskQueueId queue_id, fml::TimePoint time) const;

	bool HasPendingTasksUnlocked(TaskQueueId queue_id) const;

	const DelayedTask& PeekNextTaskUnlocked(TaskQueueId owner,
	TaskQueueId& top_queue_id) const;

	fml::TimePoint GetNextWakeTimeUnlocked(TaskQueueId queue_id) const;

	static std::mutex creation_mutex_;
	static fml::RefPtr<MessageLoopTaskQueues> instance_;

	mutable std::mutex queue_mutex_;
	std::map<TaskQueueId, std::unique_ptr<TaskQueueEntry>> queue_entries_;

	size_t task_queue_id_counter_;

	std::atomic_int order_;

	FML_FRIEND_MAKE_REF_COUNTED(MessageLoopTaskQueues);
	FML_FRIEND_REF_COUNTED_THREAD_SAFE(MessageLoopTaskQueues);
	FML_DISALLOW_COPY_ASSIGN_AND_MOVE(MessageLoopTaskQueues);
	};

	} // namespace fml

	#endif // FLUTTER_FML_MESSAGE_LOOP_TASK_QUEUES_H_