base/task_scheduler/post_task.h - gn.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 BASE_TASK_SCHEDULER_POST_TASK_H_
 #define BASE_TASK_SCHEDULER_POST_TASK_H_

 #include <utility>

 #include "base/base_export.h"
 #include "base/bind.h"
 #include "base/callback.h"
 #include "base/location.h"
 #include "base/memory/ref_counted.h"
 #include "base/post_task_and_reply_with_result_internal.h"
 #include "base/sequenced_task_runner.h"
 #include "base/single_thread_task_runner.h"
 #include "base/task_runner.h"
 #include "base/task_scheduler/single_thread_task_runner_thread_mode.h"
 #include "base/task_scheduler/task_traits.h"
 #include "base/time/time.h"
 #include "build_config.h"

 namespace base {

 // This is the preferred interface to post tasks to the TaskScheduler.
 //
 // To post a simple one-off task with default traits:
 //     PostTask(FROM_HERE, Bind(...));
 //
 // To post a high priority one-off task to respond to a user interaction:
 //     PostTaskWithTraits(
 //         FROM_HERE,
 //         {TaskPriority::USER_BLOCKING},
 //         Bind(...));
 //
 // To post tasks that must run in sequence with default traits:
 //     scoped_refptr<SequencedTaskRunner> task_runner =
 //         CreateSequencedTaskRunnerWithTraits(TaskTraits());
 //     task_runner.PostTask(FROM_HERE, Bind(...));
 //     task_runner.PostTask(FROM_HERE, Bind(...));
 //
 // To post tasks that may block, must run in sequence and can be skipped on
 // shutdown:
 //     scoped_refptr<SequencedTaskRunner> task_runner =
 //         CreateSequencedTaskRunnerWithTraits(
 //             {MayBlock(), TaskShutdownBehavior::SKIP_ON_SHUTDOWN});
 //     task_runner.PostTask(FROM_HERE, Bind(...));
 //     task_runner.PostTask(FROM_HERE, Bind(...));
 //
 // The default traits apply to tasks that:
 //     (1) don't block (ref. MayBlock() and WithBaseSyncPrimitives()),
 //     (2) prefer inheriting the current priority to specifying their own, and
 //     (3) can either block shutdown or be skipped on shutdown
 //         (TaskScheduler implementation is free to choose a fitting default).
 // Explicit traits must be specified for tasks for which these loose
 // requirements are not sufficient.
 //
 // Tasks posted through functions below will run on threads owned by the
 // registered TaskScheduler (i.e. not on the main thread). Tasks posted through
 // functions below with a delay may be coalesced (i.e. delays may be adjusted to
 // reduce the number of wakeups and hence power consumption).
 //
 // Prerequisite: A TaskScheduler must have been registered for the current
 // process via TaskScheduler::SetInstance() before the functions below are
 // valid. This is typically done during the initialization phase in each
 // process. If your code is not running in that phase, you most likely don't
 // have to worry about this. You will encounter DCHECKs or nullptr dereferences
 // if this is violated. For tests, prefer base::test::ScopedTaskEnvironment.

 // Posts |task| to the TaskScheduler. Calling this is equivalent to calling
 // PostTaskWithTraits with plain TaskTraits.
 BASE_EXPORT void PostTask(const Location& from_here, OnceClosure task);

 // Posts |task| to the TaskScheduler. |task| will not run before |delay|
 // expires. Calling this is equivalent to calling PostDelayedTaskWithTraits with
 // plain TaskTraits.
 //
 // Use PostDelayedTaskWithTraits to specify a BACKGROUND priority if the task
 // doesn't have to run as soon as |delay| expires.
 BASE_EXPORT void PostDelayedTask(const Location& from_here,
                                  OnceClosure task,
                                  TimeDelta delay);

 // Posts |task| to the TaskScheduler and posts |reply| on the caller's execution
 // context (i.e. same sequence or thread and same TaskTraits if applicable) when
 // |task| completes. Calling this is equivalent to calling
 // PostTaskWithTraitsAndReply with plain TaskTraits. Can only be called when
 // SequencedTaskRunnerHandle::IsSet().
 BASE_EXPORT void PostTaskAndReply(const Location& from_here,
                                   OnceClosure task,
                                   OnceClosure reply);

 // Posts |task| to the TaskScheduler and posts |reply| with the return value of
 // |task| as argument on the caller's execution context (i.e. same sequence or
 // thread and same TaskTraits if applicable) when |task| completes. Calling this
 // is equivalent to calling PostTaskWithTraitsAndReplyWithResult with plain
 // TaskTraits. Can only be called when SequencedTaskRunnerHandle::IsSet().
 template <typename TaskReturnType, typename ReplyArgType>
 void PostTaskAndReplyWithResult(const Location& from_here,
                                 OnceCallback<TaskReturnType()> task,
                                 OnceCallback<void(ReplyArgType)> reply) {
   PostTaskWithTraitsAndReplyWithResult(from_here, TaskTraits(), std::move(task),
                                        std::move(reply));
 }

 // Callback version of PostTaskAndReplyWithResult above.
 // Though RepeatingCallback is convertible to OnceCallback, we need this since
 // we can not use template deduction and object conversion at once on the
 // overload resolution.
 // TODO(tzik): Update all callers of the Callback version to use OnceCallback.
 template <typename TaskReturnType, typename ReplyArgType>
 void PostTaskAndReplyWithResult(const Location& from_here,
                                 Callback<TaskReturnType()> task,
                                 Callback<void(ReplyArgType)> reply) {
   PostTaskAndReplyWithResult(
       from_here, OnceCallback<TaskReturnType()>(std::move(task)),
       OnceCallback<void(ReplyArgType)>(std::move(reply)));
 }

 // Posts |task| with specific |traits| to the TaskScheduler.
 BASE_EXPORT void PostTaskWithTraits(const Location& from_here,
                                     const TaskTraits& traits,
                                     OnceClosure task);

 // Posts |task| with specific |traits| to the TaskScheduler. |task| will not run
 // before |delay| expires.
 //
 // Specify a BACKGROUND priority via |traits| if the task doesn't have to run as
 // soon as |delay| expires.
 BASE_EXPORT void PostDelayedTaskWithTraits(const Location& from_here,
                                            const TaskTraits& traits,
                                            OnceClosure task,
                                            TimeDelta delay);

 // Posts |task| with specific |traits| to the TaskScheduler and posts |reply| on
 // the caller's execution context (i.e. same sequence or thread and same
 // TaskTraits if applicable) when |task| completes. Can only be called when
 // SequencedTaskRunnerHandle::IsSet().
 BASE_EXPORT void PostTaskWithTraitsAndReply(const Location& from_here,
                                             const TaskTraits& traits,
                                             OnceClosure task,
                                             OnceClosure reply);

 // Posts |task| with specific |traits| to the TaskScheduler and posts |reply|
 // with the return value of |task| as argument on the caller's execution context
 // (i.e. same sequence or thread and same TaskTraits if applicable) when |task|
 // completes. Can only be called when SequencedTaskRunnerHandle::IsSet().
 template <typename TaskReturnType, typename ReplyArgType>
 void PostTaskWithTraitsAndReplyWithResult(
     const Location& from_here,
     const TaskTraits& traits,
     OnceCallback<TaskReturnType()> task,
     OnceCallback<void(ReplyArgType)> reply) {
   TaskReturnType* result = new TaskReturnType();
   return PostTaskWithTraitsAndReply(
       from_here, traits,
       BindOnce(&internal::ReturnAsParamAdapter<TaskReturnType>, std::move(task),
                result),
       BindOnce(&internal::ReplyAdapter<TaskReturnType, ReplyArgType>,
                std::move(reply), Owned(result)));
 }

 // Callback version of PostTaskWithTraitsAndReplyWithResult above.
 // Though RepeatingCallback is convertible to OnceCallback, we need this since
 // we can not use template deduction and object conversion at once on the
 // overload resolution.
 // TODO(tzik): Update all callers of the Callback version to use OnceCallback.
 template <typename TaskReturnType, typename ReplyArgType>
 void PostTaskWithTraitsAndReplyWithResult(const Location& from_here,
                                           const TaskTraits& traits,
                                           Callback<TaskReturnType()> task,
                                           Callback<void(ReplyArgType)> reply) {
   PostTaskWithTraitsAndReplyWithResult(
       from_here, traits, OnceCallback<TaskReturnType()>(std::move(task)),
       OnceCallback<void(ReplyArgType)>(std::move(reply)));
 }

 // Returns a TaskRunner whose PostTask invocations result in scheduling tasks
 // using |traits|. Tasks may run in any order and in parallel.
 BASE_EXPORT scoped_refptr<TaskRunner> CreateTaskRunnerWithTraits(
     const TaskTraits& traits);

 // Returns a SequencedTaskRunner whose PostTask invocations result in scheduling
 // tasks using |traits|. Tasks run one at a time in posting order.
 BASE_EXPORT scoped_refptr<SequencedTaskRunner>
 CreateSequencedTaskRunnerWithTraits(const TaskTraits& traits);

 // Returns a SingleThreadTaskRunner whose PostTask invocations result in
 // scheduling tasks using |traits| on a thread determined by |thread_mode|. See
 // base/task_scheduler/single_thread_task_runner_thread_mode.h for |thread_mode|
 // details. Tasks run on a single thread in posting order.
 //
 // If all you need is to make sure that tasks don't run concurrently (e.g.
 // because they access a data structure which is not thread-safe), use
 // CreateSequencedTaskRunnerWithTraits(). Only use this if you rely on a thread-
 // affine API (it might be safer to assume thread-affinity when dealing with
 // under-documented third-party APIs, e.g. other OS') or share data across tasks
 // using thread-local storage.
 BASE_EXPORT scoped_refptr<SingleThreadTaskRunner>
 CreateSingleThreadTaskRunnerWithTraits(
     const TaskTraits& traits,
     SingleThreadTaskRunnerThreadMode thread_mode =
         SingleThreadTaskRunnerThreadMode::SHARED);

 #if defined(OS_WIN)
 // Returns a SingleThreadTaskRunner whose PostTask invocations result in
 // scheduling tasks using |traits| in a COM Single-Threaded Apartment on a
 // thread determined by |thread_mode|. See
 // base/task_scheduler/single_thread_task_runner_thread_mode.h for |thread_mode|
 // details. Tasks run in the same Single-Threaded Apartment in posting order for
 // the returned SingleThreadTaskRunner. There is not necessarily a one-to-one
 // correspondence between SingleThreadTaskRunners and Single-Threaded
 // Apartments. The implementation is free to share apartments or create new
 // apartments as necessary. In either case, care should be taken to make sure
 // COM pointers are not smuggled across apartments.
 BASE_EXPORT scoped_refptr<SingleThreadTaskRunner>
 CreateCOMSTATaskRunnerWithTraits(const TaskTraits& traits,
                                  SingleThreadTaskRunnerThreadMode thread_mode =
                                      SingleThreadTaskRunnerThreadMode::SHARED);
 #endif  // defined(OS_WIN)

 }  // namespace base

 #endif  // BASE_TASK_SCHEDULER_POST_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 BASE_TASK_SCHEDULER_POST_TASK_H_
	#define BASE_TASK_SCHEDULER_POST_TASK_H_

	#include <utility>

	#include "base/base_export.h"
	#include "base/bind.h"
	#include "base/callback.h"
	#include "base/location.h"
	#include "base/memory/ref_counted.h"
	#include "base/post_task_and_reply_with_result_internal.h"
	#include "base/sequenced_task_runner.h"
	#include "base/single_thread_task_runner.h"
	#include "base/task_runner.h"
	#include "base/task_scheduler/single_thread_task_runner_thread_mode.h"
	#include "base/task_scheduler/task_traits.h"
	#include "base/time/time.h"
	#include "build_config.h"

	namespace base {

	// This is the preferred interface to post tasks to the TaskScheduler.
	//
	// To post a simple one-off task with default traits:
	// PostTask(FROM_HERE, Bind(...));
	//
	// To post a high priority one-off task to respond to a user interaction:
	// PostTaskWithTraits(
	// FROM_HERE,
	// {TaskPriority::USER_BLOCKING},
	// Bind(...));
	//
	// To post tasks that must run in sequence with default traits:
	// scoped_refptr<SequencedTaskRunner> task_runner =
	// CreateSequencedTaskRunnerWithTraits(TaskTraits());
	// task_runner.PostTask(FROM_HERE, Bind(...));
	// task_runner.PostTask(FROM_HERE, Bind(...));
	//
	// To post tasks that may block, must run in sequence and can be skipped on
	// shutdown:
	// scoped_refptr<SequencedTaskRunner> task_runner =
	// CreateSequencedTaskRunnerWithTraits(
	// {MayBlock(), TaskShutdownBehavior::SKIP_ON_SHUTDOWN});
	// task_runner.PostTask(FROM_HERE, Bind(...));
	// task_runner.PostTask(FROM_HERE, Bind(...));
	//
	// The default traits apply to tasks that:
	// (1) don't block (ref. MayBlock() and WithBaseSyncPrimitives()),
	// (2) prefer inheriting the current priority to specifying their own, and
	// (3) can either block shutdown or be skipped on shutdown
	// (TaskScheduler implementation is free to choose a fitting default).
	// Explicit traits must be specified for tasks for which these loose
	// requirements are not sufficient.
	//
	// Tasks posted through functions below will run on threads owned by the
	// registered TaskScheduler (i.e. not on the main thread). Tasks posted through
	// functions below with a delay may be coalesced (i.e. delays may be adjusted to
	// reduce the number of wakeups and hence power consumption).
	//
	// Prerequisite: A TaskScheduler must have been registered for the current
	// process via TaskScheduler::SetInstance() before the functions below are
	// valid. This is typically done during the initialization phase in each
	// process. If your code is not running in that phase, you most likely don't
	// have to worry about this. You will encounter DCHECKs or nullptr dereferences
	// if this is violated. For tests, prefer base::test::ScopedTaskEnvironment.

	// Posts \|task\| to the TaskScheduler. Calling this is equivalent to calling
	// PostTaskWithTraits with plain TaskTraits.
	BASE_EXPORT void PostTask(const Location& from_here, OnceClosure task);

	// Posts \|task\| to the TaskScheduler. \|task\| will not run before \|delay\|
	// expires. Calling this is equivalent to calling PostDelayedTaskWithTraits with
	// plain TaskTraits.
	//
	// Use PostDelayedTaskWithTraits to specify a BACKGROUND priority if the task
	// doesn't have to run as soon as \|delay\| expires.
	BASE_EXPORT void PostDelayedTask(const Location& from_here,
	OnceClosure task,
	TimeDelta delay);

	// Posts \|task\| to the TaskScheduler and posts \|reply\| on the caller's execution
	// context (i.e. same sequence or thread and same TaskTraits if applicable) when
	// \|task\| completes. Calling this is equivalent to calling
	// PostTaskWithTraitsAndReply with plain TaskTraits. Can only be called when
	// SequencedTaskRunnerHandle::IsSet().
	BASE_EXPORT void PostTaskAndReply(const Location& from_here,
	OnceClosure task,
	OnceClosure reply);

	// Posts \|task\| to the TaskScheduler and posts \|reply\| with the return value of
	// \|task\| as argument on the caller's execution context (i.e. same sequence or
	// thread and same TaskTraits if applicable) when \|task\| completes. Calling this
	// is equivalent to calling PostTaskWithTraitsAndReplyWithResult with plain
	// TaskTraits. Can only be called when SequencedTaskRunnerHandle::IsSet().
	template <typename TaskReturnType, typename ReplyArgType>
	void PostTaskAndReplyWithResult(const Location& from_here,
	OnceCallback<TaskReturnType()> task,
	OnceCallback<void(ReplyArgType)> reply) {
	PostTaskWithTraitsAndReplyWithResult(from_here, TaskTraits(), std::move(task),
	std::move(reply));
	}

	// Callback version of PostTaskAndReplyWithResult above.
	// Though RepeatingCallback is convertible to OnceCallback, we need this since
	// we can not use template deduction and object conversion at once on the
	// overload resolution.
	// TODO(tzik): Update all callers of the Callback version to use OnceCallback.
	template <typename TaskReturnType, typename ReplyArgType>
	void PostTaskAndReplyWithResult(const Location& from_here,
	Callback<TaskReturnType()> task,
	Callback<void(ReplyArgType)> reply) {
	PostTaskAndReplyWithResult(
	from_here, OnceCallback<TaskReturnType()>(std::move(task)),
	OnceCallback<void(ReplyArgType)>(std::move(reply)));
	}

	// Posts \|task\| with specific \|traits\| to the TaskScheduler.
	BASE_EXPORT void PostTaskWithTraits(const Location& from_here,
	const TaskTraits& traits,
	OnceClosure task);

	// Posts \|task\| with specific \|traits\| to the TaskScheduler. \|task\| will not run
	// before \|delay\| expires.
	//
	// Specify a BACKGROUND priority via \|traits\| if the task doesn't have to run as
	// soon as \|delay\| expires.
	BASE_EXPORT void PostDelayedTaskWithTraits(const Location& from_here,
	const TaskTraits& traits,
	OnceClosure task,
	TimeDelta delay);

	// Posts \|task\| with specific \|traits\| to the TaskScheduler and posts \|reply\| on
	// the caller's execution context (i.e. same sequence or thread and same
	// TaskTraits if applicable) when \|task\| completes. Can only be called when
	// SequencedTaskRunnerHandle::IsSet().
	BASE_EXPORT void PostTaskWithTraitsAndReply(const Location& from_here,
	const TaskTraits& traits,
	OnceClosure task,
	OnceClosure reply);

	// Posts \|task\| with specific \|traits\| to the TaskScheduler and posts \|reply\|
	// with the return value of \|task\| as argument on the caller's execution context
	// (i.e. same sequence or thread and same TaskTraits if applicable) when \|task\|
	// completes. Can only be called when SequencedTaskRunnerHandle::IsSet().
	template <typename TaskReturnType, typename ReplyArgType>
	void PostTaskWithTraitsAndReplyWithResult(
	const Location& from_here,
	const TaskTraits& traits,
	OnceCallback<TaskReturnType()> task,
	OnceCallback<void(ReplyArgType)> reply) {
	TaskReturnType* result = new TaskReturnType();
	return PostTaskWithTraitsAndReply(
	from_here, traits,
	BindOnce(&internal::ReturnAsParamAdapter<TaskReturnType>, std::move(task),
	result),
	BindOnce(&internal::ReplyAdapter<TaskReturnType, ReplyArgType>,
	std::move(reply), Owned(result)));
	}

	// Callback version of PostTaskWithTraitsAndReplyWithResult above.
	// Though RepeatingCallback is convertible to OnceCallback, we need this since
	// we can not use template deduction and object conversion at once on the
	// overload resolution.
	// TODO(tzik): Update all callers of the Callback version to use OnceCallback.
	template <typename TaskReturnType, typename ReplyArgType>
	void PostTaskWithTraitsAndReplyWithResult(const Location& from_here,
	const TaskTraits& traits,
	Callback<TaskReturnType()> task,
	Callback<void(ReplyArgType)> reply) {
	PostTaskWithTraitsAndReplyWithResult(
	from_here, traits, OnceCallback<TaskReturnType()>(std::move(task)),
	OnceCallback<void(ReplyArgType)>(std::move(reply)));
	}

	// Returns a TaskRunner whose PostTask invocations result in scheduling tasks
	// using \|traits\|. Tasks may run in any order and in parallel.
	BASE_EXPORT scoped_refptr<TaskRunner> CreateTaskRunnerWithTraits(
	const TaskTraits& traits);

	// Returns a SequencedTaskRunner whose PostTask invocations result in scheduling
	// tasks using \|traits\|. Tasks run one at a time in posting order.
	BASE_EXPORT scoped_refptr<SequencedTaskRunner>
	CreateSequencedTaskRunnerWithTraits(const TaskTraits& traits);

	// Returns a SingleThreadTaskRunner whose PostTask invocations result in
	// scheduling tasks using \|traits\| on a thread determined by \|thread_mode\|. See
	// base/task_scheduler/single_thread_task_runner_thread_mode.h for \|thread_mode\|
	// details. Tasks run on a single thread in posting order.
	//
	// If all you need is to make sure that tasks don't run concurrently (e.g.
	// because they access a data structure which is not thread-safe), use
	// CreateSequencedTaskRunnerWithTraits(). Only use this if you rely on a thread-
	// affine API (it might be safer to assume thread-affinity when dealing with
	// under-documented third-party APIs, e.g. other OS') or share data across tasks
	// using thread-local storage.
	BASE_EXPORT scoped_refptr<SingleThreadTaskRunner>
	CreateSingleThreadTaskRunnerWithTraits(
	const TaskTraits& traits,
	SingleThreadTaskRunnerThreadMode thread_mode =
	SingleThreadTaskRunnerThreadMode::SHARED);

	#if defined(OS_WIN)
	// Returns a SingleThreadTaskRunner whose PostTask invocations result in
	// scheduling tasks using \|traits\| in a COM Single-Threaded Apartment on a
	// thread determined by \|thread_mode\|. See
	// base/task_scheduler/single_thread_task_runner_thread_mode.h for \|thread_mode\|
	// details. Tasks run in the same Single-Threaded Apartment in posting order for
	// the returned SingleThreadTaskRunner. There is not necessarily a one-to-one
	// correspondence between SingleThreadTaskRunners and Single-Threaded
	// Apartments. The implementation is free to share apartments or create new
	// apartments as necessary. In either case, care should be taken to make sure
	// COM pointers are not smuggled across apartments.
	BASE_EXPORT scoped_refptr<SingleThreadTaskRunner>
	CreateCOMSTATaskRunnerWithTraits(const TaskTraits& traits,
	SingleThreadTaskRunnerThreadMode thread_mode =
	SingleThreadTaskRunnerThreadMode::SHARED);
	#endif // defined(OS_WIN)

	} // namespace base

	#endif // BASE_TASK_SCHEDULER_POST_TASK_H_