shell/common/vsync_waiter.h - external/github.com/flutter/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_SHELL_COMMON_VSYNC_WAITER_H_
 #define FLUTTER_SHELL_COMMON_VSYNC_WAITER_H_

 #include <functional>
 #include <memory>
 #include <mutex>
 #include <unordered_map>

 #include "flutter/common/task_runners.h"
 #include "flutter/flow/frame_timings.h"
 #include "flutter/fml/time/time_point.h"

 namespace flutter {

 /// Abstract Base Class that represents a platform specific mechanism for
 /// getting callbacks when a vsync event happens.
 class VsyncWaiter : public std::enable_shared_from_this<VsyncWaiter> {
  public:
   using Callback = std::function<void(std::unique_ptr<FrameTimingsRecorder>)>;

   virtual ~VsyncWaiter();

   void AsyncWaitForVsync(const Callback& callback);

   /// Add a secondary callback for key |id| for the next vsync.
   ///
   /// See also |PointerDataDispatcher::ScheduleSecondaryVsyncCallback| and
   /// |Animator::ScheduleMaybeClearTraceFlowIds|.
   void ScheduleSecondaryCallback(uintptr_t id, const fml::closure& callback);

  protected:
   // On some backends, the |FireCallback| needs to be made from a static C
   // method.
   friend class VsyncWaiterAndroid;
   friend class VsyncWaiterEmbedder;

   const TaskRunners task_runners_;

   explicit VsyncWaiter(TaskRunners task_runners);

   // There are two distinct situations where VsyncWaiter wishes to awaken at
   // the next vsync. Although the functionality can be the same, the intent is
   // different, therefore it makes sense to have a method for each intent.

   // The intent of AwaitVSync() is that the Animator wishes to produce a frame.
   // The underlying implementation can choose to be aware of this intent when
   // it comes to implementing backpressure and other scheduling invariants.
   //
   // Implementations are meant to override this method and arm their vsync
   // latches when in response to this invocation. On vsync, they are meant to
   // invoke the |FireCallback| method once (and only once) with the appropriate
   // arguments. This method should not block the current thread.
   virtual void AwaitVSync() = 0;

   // The intent of AwaitVSyncForSecondaryCallback() is simply to wake up at the
   // next vsync.
   //
   // Because there is no association with frame scheduling, underlying
   // implementations do not need to worry about maintaining invariants or
   // backpressure. The default implementation is to simply follow the same logic
   // as AwaitVSync().
   virtual void AwaitVSyncForSecondaryCallback() { AwaitVSync(); }

   // Schedules the callback on the UI task runner. Needs to be invoked as close
   // to the `frame_start_time` as possible.
   void FireCallback(fml::TimePoint frame_start_time,
                     fml::TimePoint frame_target_time,
                     bool pause_secondary_tasks = true);

  private:
   std::mutex callback_mutex_;
   Callback callback_;
   std::unordered_map<uintptr_t, fml::closure> secondary_callbacks_;

   void PauseDartMicroTasks();
   static void ResumeDartMicroTasks(fml::TaskQueueId ui_task_queue_id);

   FML_DISALLOW_COPY_AND_ASSIGN(VsyncWaiter);
 };

 }  // namespace flutter

 #endif  // FLUTTER_SHELL_COMMON_VSYNC_WAITER_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_SHELL_COMMON_VSYNC_WAITER_H_
	#define FLUTTER_SHELL_COMMON_VSYNC_WAITER_H_

	#include <functional>
	#include <memory>
	#include <mutex>
	#include <unordered_map>

	#include "flutter/common/task_runners.h"
	#include "flutter/flow/frame_timings.h"
	#include "flutter/fml/time/time_point.h"

	namespace flutter {

	/// Abstract Base Class that represents a platform specific mechanism for
	/// getting callbacks when a vsync event happens.
	class VsyncWaiter : public std::enable_shared_from_this<VsyncWaiter> {
	public:
	using Callback = std::function<void(std::unique_ptr<FrameTimingsRecorder>)>;

	virtual ~VsyncWaiter();

	void AsyncWaitForVsync(const Callback& callback);

	/// Add a secondary callback for key \|id\| for the next vsync.
	///
	/// See also \|PointerDataDispatcher::ScheduleSecondaryVsyncCallback\| and
	/// \|Animator::ScheduleMaybeClearTraceFlowIds\|.
	void ScheduleSecondaryCallback(uintptr_t id, const fml::closure& callback);

	protected:
	// On some backends, the \|FireCallback\| needs to be made from a static C
	// method.
	friend class VsyncWaiterAndroid;
	friend class VsyncWaiterEmbedder;

	const TaskRunners task_runners_;

	explicit VsyncWaiter(TaskRunners task_runners);

	// There are two distinct situations where VsyncWaiter wishes to awaken at
	// the next vsync. Although the functionality can be the same, the intent is
	// different, therefore it makes sense to have a method for each intent.

	// The intent of AwaitVSync() is that the Animator wishes to produce a frame.
	// The underlying implementation can choose to be aware of this intent when
	// it comes to implementing backpressure and other scheduling invariants.
	//
	// Implementations are meant to override this method and arm their vsync
	// latches when in response to this invocation. On vsync, they are meant to
	// invoke the \|FireCallback\| method once (and only once) with the appropriate
	// arguments. This method should not block the current thread.
	virtual void AwaitVSync() = 0;

	// The intent of AwaitVSyncForSecondaryCallback() is simply to wake up at the
	// next vsync.
	//
	// Because there is no association with frame scheduling, underlying
	// implementations do not need to worry about maintaining invariants or
	// backpressure. The default implementation is to simply follow the same logic
	// as AwaitVSync().
	virtual void AwaitVSyncForSecondaryCallback() { AwaitVSync(); }

	// Schedules the callback on the UI task runner. Needs to be invoked as close
	// to the `frame_start_time` as possible.
	void FireCallback(fml::TimePoint frame_start_time,
	fml::TimePoint frame_target_time,
	bool pause_secondary_tasks = true);

	private:
	std::mutex callback_mutex_;
	Callback callback_;
	std::unordered_map<uintptr_t, fml::closure> secondary_callbacks_;

	void PauseDartMicroTasks();
	static void ResumeDartMicroTasks(fml::TaskQueueId ui_task_queue_id);

	FML_DISALLOW_COPY_AND_ASSIGN(VsyncWaiter);
	};

	} // namespace flutter

	#endif // FLUTTER_SHELL_COMMON_VSYNC_WAITER_H_