src/base/task/lazy_task_runner.h - cobalt - Git at Google

 // Copyright 2017 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_LAZY_TASK_RUNNER_H_
 #define BASE_TASK_LAZY_TASK_RUNNER_H_

 #include <vector>

 #include "base/atomicops.h"
 #include "base/callback.h"
 #include "base/compiler_specific.h"
 #include "base/cpp14oncpp11.h"
 #include "base/lazy_instance_helpers.h"
 #include "base/sequenced_task_runner.h"
 #include "base/single_thread_task_runner.h"
 #include "base/task/single_thread_task_runner_thread_mode.h"
 #include "base/task/task_scheduler/scheduler_lock.h"
 #include "base/task/task_traits.h"
 #include "build/build_config.h"

 // Lazy(Sequenced|SingleThread|COMSTA)TaskRunner lazily creates a TaskRunner.
 //
 // Lazy(Sequenced|SingleThread|COMSTA)TaskRunner is meant to be instantiated in
 // an anonymous namespace (no static initializer is generated) and used to post
 // tasks to the same sequence/thread from pieces of code that don't have a
 // better way of sharing a TaskRunner. It is important to use this class
 // instead of a self-managed global variable or LazyInstance so that the
 // TaskRunners do not outlive the scope of the ScopedTaskEnvironment in unit
 // tests (otherwise the next test in the same process will die in use-after-
 // frees).
 //
 // IMPORTANT: Only use this API as a last resort. Prefer storing a
 // (Sequenced|SingleThread)TaskRunner returned by
 // base::Create(Sequenced|SingleThread|COMSTA)TaskRunnerWithTraits() as a member
 // on an object accessible by all PostTask() call sites.
 //
 // Example usage 1:
 //
 // namespace {
 // base::LazySequencedTaskRunner g_sequenced_task_runner =
 //     LAZY_SEQUENCED_TASK_RUNNER_INITIALIZER(
 //         base::TaskTraits(base::MayBlock(),
 //                          base::TaskPriority::USER_VISIBLE));
 // }  // namespace
 //
 // void SequencedFunction() {
 //   // Different invocations of this function post to the same
 //   // MayBlock() SequencedTaskRunner.
 //   g_sequenced_task_runner.Get()->PostTask(FROM_HERE, base::BindOnce(...));
 // }
 //
 // Example usage 2:
 //
 // namespace {
 // base::LazySequencedTaskRunner g_sequenced_task_task_runner =
 //     LAZY_SEQUENCED_TASK_RUNNER_INITIALIZER({base::MayBlock()});
 // }  // namespace
 //
 // // Code from different files can access the SequencedTaskRunner via this
 // // function.
 // scoped_refptr<base::SequencedTaskRunner> GetTaskRunner() {
 //   return g_sequenced_task_runner.Get();
 // }

 namespace base {

 namespace internal {
 template <typename TaskRunnerType, bool com_sta>
 class BASE_EXPORT LazyTaskRunner;
 }  // namespace internal

 // Lazy SequencedTaskRunner.
 using LazySequencedTaskRunner =
     internal::LazyTaskRunner<SequencedTaskRunner, false>;

 // Lazy SingleThreadTaskRunner.
 using LazySingleThreadTaskRunner =
     internal::LazyTaskRunner<SingleThreadTaskRunner, false>;

 #if defined(OS_WIN)
 // Lazy COM-STA enabled SingleThreadTaskRunner.
 using LazyCOMSTATaskRunner =
     internal::LazyTaskRunner<SingleThreadTaskRunner, true>;
 #endif

 // Helper macros to generate a variable name by concatenation.
 #define LAZY_TASK_RUNNER_CONCATENATE_INTERNAL2(a, b) a##b
 #define LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(a, b) \
   LAZY_TASK_RUNNER_CONCATENATE_INTERNAL2(a, b)

 // Use the macros below to initialize a LazyTaskRunner. These macros verify that
 // their arguments are constexpr, which is important to prevent the generation
 // of a static initializer.

 // |traits| are TaskTraits used when creating the SequencedTaskRunner.
 #define LAZY_SEQUENCED_TASK_RUNNER_INITIALIZER(traits)        \
   base::LazySequencedTaskRunner::CreateInternal(traits);      \
   ALLOW_UNUSED_TYPE CONSTEXPR                                 \
       base::TaskTraits LAZY_TASK_RUNNER_CONCATENATE_INTERNAL( \
           kVerifyTraitsAreConstexpr, __LINE__) = traits

 // |traits| are TaskTraits used when creating the SingleThreadTaskRunner.
 // |thread_mode| specifies whether the SingleThreadTaskRunner can share its
 // thread with other SingleThreadTaskRunners.
 #define LAZY_SINGLE_THREAD_TASK_RUNNER_INITIALIZER(traits, thread_mode)   \
   base::LazySingleThreadTaskRunner::CreateInternal(traits, thread_mode);  \
   ALLOW_UNUSED_TYPE CONSTEXPR                                             \
       base::TaskTraits LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(             \
           kVerifyTraitsAreConstexpr, __LINE__) = traits;                  \
   ALLOW_UNUSED_TYPE CONSTEXPR base::SingleThreadTaskRunnerThreadMode      \
       LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(kVerifyThreadModeIsConstexpr, \
                                             __LINE__) = thread_mode

 // |traits| are TaskTraits used when creating the COM STA
 // SingleThreadTaskRunner. |thread_mode| specifies whether the COM STA
 // SingleThreadTaskRunner can share its thread with other
 // SingleThreadTaskRunners.
 #define LAZY_COM_STA_TASK_RUNNER_INITIALIZER(traits, thread_mode)         \
   base::LazyCOMSTATaskRunner::CreateInternal(traits, thread_mode);        \
   ALLOW_UNUSED_TYPE constexpr base::TaskTraits                            \
       LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(kVerifyTraitsAreConstexpr,    \
                                             __LINE__) = traits;           \
   ALLOW_UNUSED_TYPE constexpr base::SingleThreadTaskRunnerThreadMode      \
       LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(kVerifyThreadModeIsConstexpr, \
                                             __LINE__) = thread_mode

 namespace internal {

 template <typename TaskRunnerType, bool com_sta>
 class BASE_EXPORT LazyTaskRunner {
  public:
   // Use the macros above rather than a direct call to this.
   //
   // |traits| are TaskTraits to use to create the TaskRunner. If this
   // LazyTaskRunner is specialized to create a SingleThreadTaskRunner,
   // |thread_mode| specifies whether the SingleThreadTaskRunner can share its
   // thread with other SingleThreadTaskRunner. Otherwise, it is unused.
   static constexpr LazyTaskRunner CreateInternal(
       const TaskTraits& traits,
       SingleThreadTaskRunnerThreadMode thread_mode =
           SingleThreadTaskRunnerThreadMode::SHARED) {
     return LazyTaskRunner(traits, thread_mode);
   }

   // Returns the TaskRunner held by this instance. Creates it if it didn't
   // already exist. Thread-safe.
   scoped_refptr<TaskRunnerType> Get();

  private:
   constexpr LazyTaskRunner(const TaskTraits& traits,
                            SingleThreadTaskRunnerThreadMode thread_mode =
                                SingleThreadTaskRunnerThreadMode::SHARED)
       : traits_(traits), thread_mode_(thread_mode) {}

   // Releases the TaskRunner held by this instance.
   void Reset();

   // Creates and returns a new TaskRunner.
   scoped_refptr<TaskRunnerType> Create();

   // Creates a new TaskRunner via Create(), adds an explicit ref to it, and
   // returns it raw. Used as an adapter for lazy instance helpers. Static and
   // takes |this| as an explicit param to match the void* signature of
   // GetOrCreateLazyPointer().
   static TaskRunnerType* CreateRaw(void* void_self);

   // TaskTraits to create the TaskRunner.
   const TaskTraits traits_;

   // SingleThreadTaskRunnerThreadMode to create the TaskRunner.
   const SingleThreadTaskRunnerThreadMode thread_mode_;

   // Can have 3 states:
   // - This instance does not hold a TaskRunner: 0
   // - This instance is creating a TaskRunner: kLazyInstanceStateCreating
   // - This instance holds a TaskRunner: Pointer to the TaskRunner.
   // LazyInstance's internals are reused to handle transition between states.
   subtle::AtomicWord state_ = 0;

   // No DISALLOW_COPY_AND_ASSIGN since that prevents static initialization with
   // Visual Studio (warning C4592: 'symbol will be dynamically initialized
   // (implementation limitation))'.
 };

 // When a LazyTaskRunner becomes active (invokes Get()), it adds a callback to
 // the current ScopedLazyTaskRunnerListForTesting, if any. Callbacks run when
 // the ScopedLazyTaskRunnerListForTesting is destroyed. In a test process, a
 // ScopedLazyTaskRunnerListForTesting must be instantiated before any
 // LazyTaskRunner becomes active.
 class BASE_EXPORT ScopedLazyTaskRunnerListForTesting {
  public:
   ScopedLazyTaskRunnerListForTesting();
   ~ScopedLazyTaskRunnerListForTesting();

  private:
   friend class LazyTaskRunner<SequencedTaskRunner, false>;
   friend class LazyTaskRunner<SingleThreadTaskRunner, false>;

 #if defined(OS_WIN)
   friend class LazyTaskRunner<SingleThreadTaskRunner, true>;
 #endif

   // Add |callback| to the list of callbacks to run on destruction.
   void AddCallback(OnceClosure callback);

   // Synchronizes accesses to |callbacks_|.
   SchedulerLock lock_;

   // List of callbacks to run on destruction.
   std::vector<OnceClosure> callbacks_;

   DISALLOW_COPY_AND_ASSIGN(ScopedLazyTaskRunnerListForTesting);
 };

 }  // namespace internal
 }  // namespace base

 #endif  // BASE_TASK_LAZY_TASK_RUNNER_H_
	// Copyright 2017 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_LAZY_TASK_RUNNER_H_
	#define BASE_TASK_LAZY_TASK_RUNNER_H_

	#include <vector>

	#include "base/atomicops.h"
	#include "base/callback.h"
	#include "base/compiler_specific.h"
	#include "base/cpp14oncpp11.h"
	#include "base/lazy_instance_helpers.h"
	#include "base/sequenced_task_runner.h"
	#include "base/single_thread_task_runner.h"
	#include "base/task/single_thread_task_runner_thread_mode.h"
	#include "base/task/task_scheduler/scheduler_lock.h"
	#include "base/task/task_traits.h"
	#include "build/build_config.h"

	// Lazy(Sequenced\|SingleThread\|COMSTA)TaskRunner lazily creates a TaskRunner.
	//
	// Lazy(Sequenced\|SingleThread\|COMSTA)TaskRunner is meant to be instantiated in
	// an anonymous namespace (no static initializer is generated) and used to post
	// tasks to the same sequence/thread from pieces of code that don't have a
	// better way of sharing a TaskRunner. It is important to use this class
	// instead of a self-managed global variable or LazyInstance so that the
	// TaskRunners do not outlive the scope of the ScopedTaskEnvironment in unit
	// tests (otherwise the next test in the same process will die in use-after-
	// frees).
	//
	// IMPORTANT: Only use this API as a last resort. Prefer storing a
	// (Sequenced\|SingleThread)TaskRunner returned by
	// base::Create(Sequenced\|SingleThread\|COMSTA)TaskRunnerWithTraits() as a member
	// on an object accessible by all PostTask() call sites.
	//
	// Example usage 1:
	//
	// namespace {
	// base::LazySequencedTaskRunner g_sequenced_task_runner =
	// LAZY_SEQUENCED_TASK_RUNNER_INITIALIZER(
	// base::TaskTraits(base::MayBlock(),
	// base::TaskPriority::USER_VISIBLE));
	// } // namespace
	//
	// void SequencedFunction() {
	// // Different invocations of this function post to the same
	// // MayBlock() SequencedTaskRunner.
	// g_sequenced_task_runner.Get()->PostTask(FROM_HERE, base::BindOnce(...));
	// }
	//
	// Example usage 2:
	//
	// namespace {
	// base::LazySequencedTaskRunner g_sequenced_task_task_runner =
	// LAZY_SEQUENCED_TASK_RUNNER_INITIALIZER({base::MayBlock()});
	// } // namespace
	//
	// // Code from different files can access the SequencedTaskRunner via this
	// // function.
	// scoped_refptr<base::SequencedTaskRunner> GetTaskRunner() {
	// return g_sequenced_task_runner.Get();
	// }

	namespace base {

	namespace internal {
	template <typename TaskRunnerType, bool com_sta>
	class BASE_EXPORT LazyTaskRunner;
	} // namespace internal

	// Lazy SequencedTaskRunner.
	using LazySequencedTaskRunner =
	internal::LazyTaskRunner<SequencedTaskRunner, false>;

	// Lazy SingleThreadTaskRunner.
	using LazySingleThreadTaskRunner =
	internal::LazyTaskRunner<SingleThreadTaskRunner, false>;

	#if defined(OS_WIN)
	// Lazy COM-STA enabled SingleThreadTaskRunner.
	using LazyCOMSTATaskRunner =
	internal::LazyTaskRunner<SingleThreadTaskRunner, true>;
	#endif

	// Helper macros to generate a variable name by concatenation.
	#define LAZY_TASK_RUNNER_CONCATENATE_INTERNAL2(a, b) a##b
	#define LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(a, b) \
	LAZY_TASK_RUNNER_CONCATENATE_INTERNAL2(a, b)

	// Use the macros below to initialize a LazyTaskRunner. These macros verify that
	// their arguments are constexpr, which is important to prevent the generation
	// of a static initializer.

	// \|traits\| are TaskTraits used when creating the SequencedTaskRunner.
	#define LAZY_SEQUENCED_TASK_RUNNER_INITIALIZER(traits) \
	base::LazySequencedTaskRunner::CreateInternal(traits); \
	ALLOW_UNUSED_TYPE CONSTEXPR \
	base::TaskTraits LAZY_TASK_RUNNER_CONCATENATE_INTERNAL( \
	kVerifyTraitsAreConstexpr, __LINE__) = traits

	// \|traits\| are TaskTraits used when creating the SingleThreadTaskRunner.
	// \|thread_mode\| specifies whether the SingleThreadTaskRunner can share its
	// thread with other SingleThreadTaskRunners.
	#define LAZY_SINGLE_THREAD_TASK_RUNNER_INITIALIZER(traits, thread_mode) \
	base::LazySingleThreadTaskRunner::CreateInternal(traits, thread_mode); \
	ALLOW_UNUSED_TYPE CONSTEXPR \
	base::TaskTraits LAZY_TASK_RUNNER_CONCATENATE_INTERNAL( \
	kVerifyTraitsAreConstexpr, __LINE__) = traits; \
	ALLOW_UNUSED_TYPE CONSTEXPR base::SingleThreadTaskRunnerThreadMode \
	LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(kVerifyThreadModeIsConstexpr, \
	__LINE__) = thread_mode

	// \|traits\| are TaskTraits used when creating the COM STA
	// SingleThreadTaskRunner. \|thread_mode\| specifies whether the COM STA
	// SingleThreadTaskRunner can share its thread with other
	// SingleThreadTaskRunners.
	#define LAZY_COM_STA_TASK_RUNNER_INITIALIZER(traits, thread_mode) \
	base::LazyCOMSTATaskRunner::CreateInternal(traits, thread_mode); \
	ALLOW_UNUSED_TYPE constexpr base::TaskTraits \
	LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(kVerifyTraitsAreConstexpr, \
	__LINE__) = traits; \
	ALLOW_UNUSED_TYPE constexpr base::SingleThreadTaskRunnerThreadMode \
	LAZY_TASK_RUNNER_CONCATENATE_INTERNAL(kVerifyThreadModeIsConstexpr, \
	__LINE__) = thread_mode

	namespace internal {

	template <typename TaskRunnerType, bool com_sta>
	class BASE_EXPORT LazyTaskRunner {
	public:
	// Use the macros above rather than a direct call to this.
	//
	// \|traits\| are TaskTraits to use to create the TaskRunner. If this
	// LazyTaskRunner is specialized to create a SingleThreadTaskRunner,
	// \|thread_mode\| specifies whether the SingleThreadTaskRunner can share its
	// thread with other SingleThreadTaskRunner. Otherwise, it is unused.
	static constexpr LazyTaskRunner CreateInternal(
	const TaskTraits& traits,
	SingleThreadTaskRunnerThreadMode thread_mode =
	SingleThreadTaskRunnerThreadMode::SHARED) {
	return LazyTaskRunner(traits, thread_mode);
	}

	// Returns the TaskRunner held by this instance. Creates it if it didn't
	// already exist. Thread-safe.
	scoped_refptr<TaskRunnerType> Get();

	private:
	constexpr LazyTaskRunner(const TaskTraits& traits,
	SingleThreadTaskRunnerThreadMode thread_mode =
	SingleThreadTaskRunnerThreadMode::SHARED)
	: traits_(traits), thread_mode_(thread_mode) {}

	// Releases the TaskRunner held by this instance.
	void Reset();

	// Creates and returns a new TaskRunner.
	scoped_refptr<TaskRunnerType> Create();

	// Creates a new TaskRunner via Create(), adds an explicit ref to it, and
	// returns it raw. Used as an adapter for lazy instance helpers. Static and
	// takes \|this\| as an explicit param to match the void* signature of
	// GetOrCreateLazyPointer().
	static TaskRunnerType* CreateRaw(void* void_self);

	// TaskTraits to create the TaskRunner.
	const TaskTraits traits_;

	// SingleThreadTaskRunnerThreadMode to create the TaskRunner.
	const SingleThreadTaskRunnerThreadMode thread_mode_;

	// Can have 3 states:
	// - This instance does not hold a TaskRunner: 0
	// - This instance is creating a TaskRunner: kLazyInstanceStateCreating
	// - This instance holds a TaskRunner: Pointer to the TaskRunner.
	// LazyInstance's internals are reused to handle transition between states.
	subtle::AtomicWord state_ = 0;

	// No DISALLOW_COPY_AND_ASSIGN since that prevents static initialization with
	// Visual Studio (warning C4592: 'symbol will be dynamically initialized
	// (implementation limitation))'.
	};

	// When a LazyTaskRunner becomes active (invokes Get()), it adds a callback to
	// the current ScopedLazyTaskRunnerListForTesting, if any. Callbacks run when
	// the ScopedLazyTaskRunnerListForTesting is destroyed. In a test process, a
	// ScopedLazyTaskRunnerListForTesting must be instantiated before any
	// LazyTaskRunner becomes active.
	class BASE_EXPORT ScopedLazyTaskRunnerListForTesting {
	public:
	ScopedLazyTaskRunnerListForTesting();
	~ScopedLazyTaskRunnerListForTesting();

	private:
	friend class LazyTaskRunner<SequencedTaskRunner, false>;
	friend class LazyTaskRunner<SingleThreadTaskRunner, false>;

	#if defined(OS_WIN)
	friend class LazyTaskRunner<SingleThreadTaskRunner, true>;
	#endif

	// Add \|callback\| to the list of callbacks to run on destruction.
	void AddCallback(OnceClosure callback);

	// Synchronizes accesses to \|callbacks_\|.
	SchedulerLock lock_;

	// List of callbacks to run on destruction.
	std::vector<OnceClosure> callbacks_;

	DISALLOW_COPY_AND_ASSIGN(ScopedLazyTaskRunnerListForTesting);
	};

	} // namespace internal
	} // namespace base

	#endif // BASE_TASK_LAZY_TASK_RUNNER_H_