base/message_loop/message_loop.h - gn.git - Git at Google

 // Copyright 2013 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_MESSAGE_LOOP_MESSAGE_LOOP_H_
 #define BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_

 #include <memory>
 #include <queue>
 #include <string>

 #include "base/base_export.h"
 #include "base/callback_forward.h"
 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "base/memory/scoped_refptr.h"
 #include "base/message_loop/incoming_task_queue.h"
 #include "base/message_loop/message_loop_current.h"
 #include "base/message_loop/message_loop_task_runner.h"
 #include "base/message_loop/message_pump.h"
 #include "base/message_loop/timer_slack.h"
 #include "base/observer_list.h"
 #include "base/pending_task.h"
 #include "base/run_loop.h"
 #include "base/synchronization/lock.h"
 #include "base/threading/sequence_local_storage_map.h"
 #include "base/threading/thread_checker.h"
 #include "base/time/time.h"
 #include "build_config.h"

 namespace base {

 class ThreadTaskRunnerHandle;

 // A MessageLoop is used to process events for a particular thread.  There is
 // at most one MessageLoop instance per thread.
 //
 // Events include at a minimum Task instances submitted to the MessageLoop's
 // TaskRunner. Depending on the type of message pump used by the MessageLoop
 // other events such as UI messages may be processed.  On Windows APC calls (as
 // time permits) and signals sent to a registered set of HANDLEs may also be
 // processed.
 //
 // The MessageLoop's API should only be used directly by its owner (and users
 // which the owner opts to share a MessageLoop* with). Other ways to access
 // subsets of the MessageLoop API:
 //   - base::RunLoop : Drive the MessageLoop from the thread it's bound to.
 //   - base::Thread/SequencedTaskRunnerHandle : Post back to the MessageLoop
 //     from a task running on it.
 //   - SequenceLocalStorageSlot : Bind external state to this MessageLoop.
 //   - base::MessageLoopCurrent : Access statically exposed APIs of this
 //     MessageLoop.
 //   - Embedders may provide their own static accessors to post tasks on
 //     specific loops (e.g. content::BrowserThreads).
 //
 // NOTE: Unless otherwise specified, a MessageLoop's methods may only be called
 // on the thread where the MessageLoop's Run method executes.
 //
 // NOTE: MessageLoop has task reentrancy protection.  This means that if a
 // task is being processed, a second task cannot start until the first task is
 // finished.  Reentrancy can happen when processing a task, and an inner
 // message pump is created.  That inner pump then processes native messages
 // which could implicitly start an inner task.  Inner message pumps are created
 // with dialogs (DialogBox), common dialogs (GetOpenFileName), OLE functions
 // (DoDragDrop), printer functions (StartDoc) and *many* others.
 //
 // Sample workaround when inner task processing is needed:
 //   HRESULT hr;
 //   {
 //     MessageLoopCurrent::ScopedNestableTaskAllower allow;
 //     hr = DoDragDrop(...); // Implicitly runs a modal message loop.
 //   }
 //   // Process |hr| (the result returned by DoDragDrop()).
 //
 // Please be SURE your task is reentrant (nestable) and all global variables
 // are stable and accessible before calling SetNestableTasksAllowed(true).
 //
 // TODO(gab): MessageLoop doesn't need to be a MessageLoopCurrent once callers
 // that store MessageLoop::current() in a MessageLoop* variable have been
 // updated to use a MessageLoopCurrent variable.
 class BASE_EXPORT MessageLoop : public MessagePump::Delegate,
                                 public RunLoop::Delegate,
                                 public MessageLoopCurrent {
  public:
   // TODO(gab): Migrate usage of this class to MessageLoopCurrent and remove
   // this forwarded declaration.
   using DestructionObserver = MessageLoopCurrent::DestructionObserver;

   // A MessageLoop has a particular type, which indicates the set of
   // asynchronous events it may process in addition to tasks and timers.
   //
   // TYPE_DEFAULT
   //   This type of ML only supports tasks and timers.
   //
   // TYPE_UI
   //   This type of ML also supports native UI events (e.g., Windows messages).
   //   See also MessageLoopForUI.
   //
   // TYPE_IO
   //   This type of ML also supports asynchronous IO.  See also
   //   MessageLoopForIO.
   //
   // TYPE_JAVA
   //   This type of ML is backed by a Java message handler which is responsible
   //   for running the tasks added to the ML. This is only for use on Android.
   //   TYPE_JAVA behaves in essence like TYPE_UI, except during construction
   //   where it does not use the main thread specific pump factory.
   //
   // TYPE_CUSTOM
   //   MessagePump was supplied to constructor.
   //
   enum Type {
     TYPE_DEFAULT,
     TYPE_UI,
     TYPE_CUSTOM,
     TYPE_IO,
 #if defined(OS_ANDROID)
     TYPE_JAVA,
 #endif  // defined(OS_ANDROID)
   };

   // Normally, it is not necessary to instantiate a MessageLoop.  Instead, it
   // is typical to make use of the current thread's MessageLoop instance.
   explicit MessageLoop(Type type = TYPE_DEFAULT);
   // Creates a TYPE_CUSTOM MessageLoop with the supplied MessagePump, which must
   // be non-NULL.
   explicit MessageLoop(std::unique_ptr<MessagePump> pump);

   ~MessageLoop() override;

   // TODO(gab): Mass migrate callers to MessageLoopCurrent::Get().
   static MessageLoopCurrent current();

   using MessagePumpFactory = std::unique_ptr<MessagePump>();
   // Uses the given base::MessagePumpForUIFactory to override the default
   // MessagePump implementation for 'TYPE_UI'. Returns true if the factory
   // was successfully registered.
   static bool InitMessagePumpForUIFactory(MessagePumpFactory* factory);

   // Creates the default MessagePump based on |type|. Caller owns return
   // value.
   static std::unique_ptr<MessagePump> CreateMessagePumpForType(Type type);

   // Set the timer slack for this message loop.
   void SetTimerSlack(TimerSlack timer_slack) {
     pump_->SetTimerSlack(timer_slack);
   }

   // Returns true if this loop is |type|. This allows subclasses (especially
   // those in tests) to specialize how they are identified.
   virtual bool IsType(Type type) const;

   // Returns the type passed to the constructor.
   Type type() const { return type_; }

   // Returns the name of the thread this message loop is bound to. This function
   // is only valid when this message loop is running, BindToCurrentThread has
   // already been called and has an "happens-before" relationship with this call
   // (this relationship is obtained implicitly by the MessageLoop's task posting
   // system unless calling this very early).
   std::string GetThreadName() const;

   // Gets the TaskRunner associated with this message loop.
   const scoped_refptr<SingleThreadTaskRunner>& task_runner() const {
     return task_runner_;
   }

   // Sets a new TaskRunner for this message loop. The message loop must already
   // have been bound to a thread prior to this call, and the task runner must
   // belong to that thread. Note that changing the task runner will also affect
   // the ThreadTaskRunnerHandle for the target thread. Must be called on the
   // thread to which the message loop is bound.
   void SetTaskRunner(scoped_refptr<SingleThreadTaskRunner> task_runner);

   // Clears task_runner() and the ThreadTaskRunnerHandle for the target thread.
   // Must be called on the thread to which the message loop is bound.
   void ClearTaskRunnerForTesting();

   // TODO(https://crbug.com/825327): Remove users of TaskObservers through
   // MessageLoop::current() and migrate the type back here.
   using TaskObserver = MessageLoopCurrent::TaskObserver;

   // These functions can only be called on the same thread that |this| is
   // running on.
   void AddTaskObserver(TaskObserver* task_observer);
   void RemoveTaskObserver(TaskObserver* task_observer);

   // Returns true if the message loop is idle (ignoring delayed tasks). This is
   // the same condition which triggers DoWork() to return false: i.e.
   // out of tasks which can be processed at the current run-level -- there might
   // be deferred non-nestable tasks remaining if currently in a nested run
   // level.
   bool IsIdleForTesting();

   // Runs the specified PendingTask.
   void RunTask(PendingTask* pending_task);

   //----------------------------------------------------------------------------
  protected:
   std::unique_ptr<MessagePump> pump_;

   using MessagePumpFactoryCallback =
       OnceCallback<std::unique_ptr<MessagePump>()>;

   // Common protected constructor. Other constructors delegate the
   // initialization to this constructor.
   // A subclass can invoke this constructor to create a message_loop of a
   // specific type with a custom loop. The implementation does not call
   // BindToCurrentThread. If this constructor is invoked directly by a subclass,
   // then the subclass must subsequently bind the message loop.
   MessageLoop(Type type, MessagePumpFactoryCallback pump_factory);

   // Configure various members and bind this message loop to the current thread.
   void BindToCurrentThread();

  private:
   friend class internal::IncomingTaskQueue;
   friend class MessageLoopCurrent;
   friend class MessageLoopCurrentForIO;
   friend class MessageLoopCurrentForUI;
   friend class ScheduleWorkTest;
   friend class Thread;
   FRIEND_TEST_ALL_PREFIXES(MessageLoopTest, DeleteUnboundLoop);

   // Creates a MessageLoop without binding to a thread.
   // If |type| is TYPE_CUSTOM non-null |pump_factory| must be also given
   // to create a message pump for this message loop.  Otherwise a default
   // message pump for the |type| is created.
   //
   // It is valid to call this to create a new message loop on one thread,
   // and then pass it to the thread where the message loop actually runs.
   // The message loop's BindToCurrentThread() method must be called on the
   // thread the message loop runs on, before calling Run().
   // Before BindToCurrentThread() is called, only Post*Task() functions can
   // be called on the message loop.
   static std::unique_ptr<MessageLoop> CreateUnbound(
       Type type,
       MessagePumpFactoryCallback pump_factory);

   // Sets the ThreadTaskRunnerHandle for the current thread to point to the
   // task runner for this message loop.
   void SetThreadTaskRunnerHandle();

   // RunLoop::Delegate:
   void Run(bool application_tasks_allowed) override;
   void Quit() override;
   void EnsureWorkScheduled() override;

   // Called to process any delayed non-nestable tasks.
   bool ProcessNextDelayedNonNestableTask();

   // Calls RunTask or queues the pending_task on the deferred task list if it
   // cannot be run right now.  Returns true if the task was run.
   bool DeferOrRunPendingTask(PendingTask pending_task);

   // Delete tasks that haven't run yet without running them.  Used in the
   // destructor to make sure all the task's destructors get called.
   void DeletePendingTasks();

   // Wakes up the message pump. Can be called on any thread. The caller is
   // responsible for synchronizing ScheduleWork() calls.
   void ScheduleWork();

   // MessagePump::Delegate methods:
   bool DoWork() override;
   bool DoDelayedWork(TimeTicks* next_delayed_work_time) override;
   bool DoIdleWork() override;

   const Type type_;

 #if defined(OS_WIN)
   // Tracks if we have requested high resolution timers. Its only use is to
   // turn off the high resolution timer upon loop destruction.
   bool in_high_res_mode_ = false;
 #endif

   // A recent snapshot of Time::Now(), used to check delayed_work_queue_.
   TimeTicks recent_time_;

   ObserverList<DestructionObserver> destruction_observers_;

   // A boolean which prevents unintentional reentrant task execution (e.g. from
   // induced nested message loops). As such, nested message loops will only
   // process system messages (not application tasks) by default. A nested loop
   // layer must have been explicitly granted permission to be able to execute
   // application tasks. This is granted either by
   // RunLoop::Type::kNestableTasksAllowed when the loop is driven by the
   // application or by a ScopedNestableTaskAllower preceding a system call that
   // is known to generate a system-driven nested loop.
   bool task_execution_allowed_ = true;

   // pump_factory_.Run() is called to create a message pump for this loop
   // if type_ is TYPE_CUSTOM and pump_ is null.
   MessagePumpFactoryCallback pump_factory_;

   ObserverList<TaskObserver> task_observers_;

   scoped_refptr<internal::IncomingTaskQueue> incoming_task_queue_;

   // A task runner which we haven't bound to a thread yet.
   scoped_refptr<internal::MessageLoopTaskRunner> unbound_task_runner_;

   // The task runner associated with this message loop.
   scoped_refptr<SingleThreadTaskRunner> task_runner_;
   std::unique_ptr<ThreadTaskRunnerHandle> thread_task_runner_handle_;

   // Id of the thread this message loop is bound to. Initialized once when the
   // MessageLoop is bound to its thread and constant forever after.
   PlatformThreadId thread_id_ = kInvalidThreadId;

   // Holds data stored through the SequenceLocalStorageSlot API.
   internal::SequenceLocalStorageMap sequence_local_storage_map_;

   // Enables the SequenceLocalStorageSlot API within its scope.
   // Instantiated in BindToCurrentThread().
   std::unique_ptr<internal::ScopedSetSequenceLocalStorageMapForCurrentThread>
       scoped_set_sequence_local_storage_map_for_current_thread_;

   // Verifies that calls are made on the thread on which BindToCurrentThread()
   // was invoked.
   THREAD_CHECKER(bound_thread_checker_);

   DISALLOW_COPY_AND_ASSIGN(MessageLoop);
 };

 #if !defined(OS_NACL)

 //-----------------------------------------------------------------------------
 // MessageLoopForUI extends MessageLoop with methods that are particular to a
 // MessageLoop instantiated with TYPE_UI.
 //
 // By instantiating a MessageLoopForUI on the current thread, the owner enables
 // native UI message pumping.
 //
 // MessageLoopCurrentForUI is exposed statically on its thread via
 // MessageLoopCurrentForUI::Get() to provide additional functionality.
 //
 class BASE_EXPORT MessageLoopForUI : public MessageLoop {
  public:
   MessageLoopForUI() : MessageLoop(TYPE_UI) {
   }

   explicit MessageLoopForUI(std::unique_ptr<MessagePump> pump);

   // TODO(gab): Mass migrate callers to MessageLoopCurrentForUI::Get()/IsSet().
   static MessageLoopCurrentForUI current();
   static bool IsCurrent();

 #if defined(OS_IOS)
   // On iOS, the main message loop cannot be Run().  Instead call Attach(),
   // which connects this MessageLoop to the UI thread's CFRunLoop and allows
   // PostTask() to work.
   void Attach();
 #endif

 #if defined(OS_ANDROID)
   // On Android, the UI message loop is handled by Java side. So Run() should
   // never be called. Instead use Start(), which will forward all the native UI
   // events to the Java message loop.
   void Start();

   // In Android there are cases where we want to abort immediately without
   // calling Quit(), in these cases we call Abort().
   void Abort();
 #endif
 };

 // Do not add any member variables to MessageLoopForUI!  This is important b/c
 // MessageLoopForUI is often allocated via MessageLoop(TYPE_UI).  Any extra
 // data that you need should be stored on the MessageLoop's pump_ instance.
 static_assert(sizeof(MessageLoop) == sizeof(MessageLoopForUI),
               "MessageLoopForUI should not have extra member variables");

 #endif  // !defined(OS_NACL)

 //-----------------------------------------------------------------------------
 // MessageLoopForIO extends MessageLoop with methods that are particular to a
 // MessageLoop instantiated with TYPE_IO.
 //
 // By instantiating a MessageLoopForIO on the current thread, the owner enables
 // native async IO message pumping.
 //
 // MessageLoopCurrentForIO is exposed statically on its thread via
 // MessageLoopCurrentForIO::Get() to provide additional functionality.
 //
 class BASE_EXPORT MessageLoopForIO : public MessageLoop {
  public:
   MessageLoopForIO() : MessageLoop(TYPE_IO) {}

   // TODO(gab): Mass migrate callers to MessageLoopCurrentForIO::Get()/IsSet().
   static MessageLoopCurrentForIO current();
   static bool IsCurrent();
 };

 // Do not add any member variables to MessageLoopForIO!  This is important b/c
 // MessageLoopForIO is often allocated via MessageLoop(TYPE_IO).  Any extra
 // data that you need should be stored on the MessageLoop's pump_ instance.
 static_assert(sizeof(MessageLoop) == sizeof(MessageLoopForIO),
               "MessageLoopForIO should not have extra member variables");

 }  // namespace base

 #endif  // BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_
	// Copyright 2013 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_MESSAGE_LOOP_MESSAGE_LOOP_H_
	#define BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_

	#include <memory>
	#include <queue>
	#include <string>

	#include "base/base_export.h"
	#include "base/callback_forward.h"
	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "base/memory/scoped_refptr.h"
	#include "base/message_loop/incoming_task_queue.h"
	#include "base/message_loop/message_loop_current.h"
	#include "base/message_loop/message_loop_task_runner.h"
	#include "base/message_loop/message_pump.h"
	#include "base/message_loop/timer_slack.h"
	#include "base/observer_list.h"
	#include "base/pending_task.h"
	#include "base/run_loop.h"
	#include "base/synchronization/lock.h"
	#include "base/threading/sequence_local_storage_map.h"
	#include "base/threading/thread_checker.h"
	#include "base/time/time.h"
	#include "build_config.h"

	namespace base {

	class ThreadTaskRunnerHandle;

	// A MessageLoop is used to process events for a particular thread. There is
	// at most one MessageLoop instance per thread.
	//
	// Events include at a minimum Task instances submitted to the MessageLoop's
	// TaskRunner. Depending on the type of message pump used by the MessageLoop
	// other events such as UI messages may be processed. On Windows APC calls (as
	// time permits) and signals sent to a registered set of HANDLEs may also be
	// processed.
	//
	// The MessageLoop's API should only be used directly by its owner (and users
	// which the owner opts to share a MessageLoop* with). Other ways to access
	// subsets of the MessageLoop API:
	// - base::RunLoop : Drive the MessageLoop from the thread it's bound to.
	// - base::Thread/SequencedTaskRunnerHandle : Post back to the MessageLoop
	// from a task running on it.
	// - SequenceLocalStorageSlot : Bind external state to this MessageLoop.
	// - base::MessageLoopCurrent : Access statically exposed APIs of this
	// MessageLoop.
	// - Embedders may provide their own static accessors to post tasks on
	// specific loops (e.g. content::BrowserThreads).
	//
	// NOTE: Unless otherwise specified, a MessageLoop's methods may only be called
	// on the thread where the MessageLoop's Run method executes.
	//
	// NOTE: MessageLoop has task reentrancy protection. This means that if a
	// task is being processed, a second task cannot start until the first task is
	// finished. Reentrancy can happen when processing a task, and an inner
	// message pump is created. That inner pump then processes native messages
	// which could implicitly start an inner task. Inner message pumps are created
	// with dialogs (DialogBox), common dialogs (GetOpenFileName), OLE functions
	// (DoDragDrop), printer functions (StartDoc) and many others.
	//
	// Sample workaround when inner task processing is needed:
	// HRESULT hr;
	// {
	// MessageLoopCurrent::ScopedNestableTaskAllower allow;
	// hr = DoDragDrop(...); // Implicitly runs a modal message loop.
	// }
	// // Process \|hr\| (the result returned by DoDragDrop()).
	//
	// Please be SURE your task is reentrant (nestable) and all global variables
	// are stable and accessible before calling SetNestableTasksAllowed(true).
	//
	// TODO(gab): MessageLoop doesn't need to be a MessageLoopCurrent once callers
	// that store MessageLoop::current() in a MessageLoop* variable have been
	// updated to use a MessageLoopCurrent variable.
	class BASE_EXPORT MessageLoop : public MessagePump::Delegate,
	public RunLoop::Delegate,
	public MessageLoopCurrent {
	public:
	// TODO(gab): Migrate usage of this class to MessageLoopCurrent and remove
	// this forwarded declaration.
	using DestructionObserver = MessageLoopCurrent::DestructionObserver;

	// A MessageLoop has a particular type, which indicates the set of
	// asynchronous events it may process in addition to tasks and timers.
	//
	// TYPE_DEFAULT
	// This type of ML only supports tasks and timers.
	//
	// TYPE_UI
	// This type of ML also supports native UI events (e.g., Windows messages).
	// See also MessageLoopForUI.
	//
	// TYPE_IO
	// This type of ML also supports asynchronous IO. See also
	// MessageLoopForIO.
	//
	// TYPE_JAVA
	// This type of ML is backed by a Java message handler which is responsible
	// for running the tasks added to the ML. This is only for use on Android.
	// TYPE_JAVA behaves in essence like TYPE_UI, except during construction
	// where it does not use the main thread specific pump factory.
	//
	// TYPE_CUSTOM
	// MessagePump was supplied to constructor.
	//
	enum Type {
	TYPE_DEFAULT,
	TYPE_UI,
	TYPE_CUSTOM,
	TYPE_IO,
	#if defined(OS_ANDROID)
	TYPE_JAVA,
	#endif // defined(OS_ANDROID)
	};

	// Normally, it is not necessary to instantiate a MessageLoop. Instead, it
	// is typical to make use of the current thread's MessageLoop instance.
	explicit MessageLoop(Type type = TYPE_DEFAULT);
	// Creates a TYPE_CUSTOM MessageLoop with the supplied MessagePump, which must
	// be non-NULL.
	explicit MessageLoop(std::unique_ptr<MessagePump> pump);

	~MessageLoop() override;

	// TODO(gab): Mass migrate callers to MessageLoopCurrent::Get().
	static MessageLoopCurrent current();

	using MessagePumpFactory = std::unique_ptr<MessagePump>();
	// Uses the given base::MessagePumpForUIFactory to override the default
	// MessagePump implementation for 'TYPE_UI'. Returns true if the factory
	// was successfully registered.
	static bool InitMessagePumpForUIFactory(MessagePumpFactory* factory);

	// Creates the default MessagePump based on \|type\|. Caller owns return
	// value.
	static std::unique_ptr<MessagePump> CreateMessagePumpForType(Type type);

	// Set the timer slack for this message loop.
	void SetTimerSlack(TimerSlack timer_slack) {
	pump_->SetTimerSlack(timer_slack);
	}

	// Returns true if this loop is \|type\|. This allows subclasses (especially
	// those in tests) to specialize how they are identified.
	virtual bool IsType(Type type) const;

	// Returns the type passed to the constructor.
	Type type() const { return type_; }

	// Returns the name of the thread this message loop is bound to. This function
	// is only valid when this message loop is running, BindToCurrentThread has
	// already been called and has an "happens-before" relationship with this call
	// (this relationship is obtained implicitly by the MessageLoop's task posting
	// system unless calling this very early).
	std::string GetThreadName() const;

	// Gets the TaskRunner associated with this message loop.
	const scoped_refptr<SingleThreadTaskRunner>& task_runner() const {
	return task_runner_;
	}

	// Sets a new TaskRunner for this message loop. The message loop must already
	// have been bound to a thread prior to this call, and the task runner must
	// belong to that thread. Note that changing the task runner will also affect
	// the ThreadTaskRunnerHandle for the target thread. Must be called on the
	// thread to which the message loop is bound.
	void SetTaskRunner(scoped_refptr<SingleThreadTaskRunner> task_runner);

	// Clears task_runner() and the ThreadTaskRunnerHandle for the target thread.
	// Must be called on the thread to which the message loop is bound.
	void ClearTaskRunnerForTesting();

	// TODO(https://crbug.com/825327): Remove users of TaskObservers through
	// MessageLoop::current() and migrate the type back here.
	using TaskObserver = MessageLoopCurrent::TaskObserver;

	// These functions can only be called on the same thread that \|this\| is
	// running on.
	void AddTaskObserver(TaskObserver* task_observer);
	void RemoveTaskObserver(TaskObserver* task_observer);

	// Returns true if the message loop is idle (ignoring delayed tasks). This is
	// the same condition which triggers DoWork() to return false: i.e.
	// out of tasks which can be processed at the current run-level -- there might
	// be deferred non-nestable tasks remaining if currently in a nested run
	// level.
	bool IsIdleForTesting();

	// Runs the specified PendingTask.
	void RunTask(PendingTask* pending_task);

	//----------------------------------------------------------------------------
	protected:
	std::unique_ptr<MessagePump> pump_;

	using MessagePumpFactoryCallback =
	OnceCallback<std::unique_ptr<MessagePump>()>;

	// Common protected constructor. Other constructors delegate the
	// initialization to this constructor.
	// A subclass can invoke this constructor to create a message_loop of a
	// specific type with a custom loop. The implementation does not call
	// BindToCurrentThread. If this constructor is invoked directly by a subclass,
	// then the subclass must subsequently bind the message loop.
	MessageLoop(Type type, MessagePumpFactoryCallback pump_factory);

	// Configure various members and bind this message loop to the current thread.
	void BindToCurrentThread();

	private:
	friend class internal::IncomingTaskQueue;
	friend class MessageLoopCurrent;
	friend class MessageLoopCurrentForIO;
	friend class MessageLoopCurrentForUI;
	friend class ScheduleWorkTest;
	friend class Thread;
	FRIEND_TEST_ALL_PREFIXES(MessageLoopTest, DeleteUnboundLoop);

	// Creates a MessageLoop without binding to a thread.
	// If \|type\| is TYPE_CUSTOM non-null \|pump_factory\| must be also given
	// to create a message pump for this message loop. Otherwise a default
	// message pump for the \|type\| is created.
	//
	// It is valid to call this to create a new message loop on one thread,
	// and then pass it to the thread where the message loop actually runs.
	// The message loop's BindToCurrentThread() method must be called on the
	// thread the message loop runs on, before calling Run().
	// Before BindToCurrentThread() is called, only Post*Task() functions can
	// be called on the message loop.
	static std::unique_ptr<MessageLoop> CreateUnbound(
	Type type,
	MessagePumpFactoryCallback pump_factory);

	// Sets the ThreadTaskRunnerHandle for the current thread to point to the
	// task runner for this message loop.
	void SetThreadTaskRunnerHandle();

	// RunLoop::Delegate:
	void Run(bool application_tasks_allowed) override;
	void Quit() override;
	void EnsureWorkScheduled() override;

	// Called to process any delayed non-nestable tasks.
	bool ProcessNextDelayedNonNestableTask();

	// Calls RunTask or queues the pending_task on the deferred task list if it
	// cannot be run right now. Returns true if the task was run.
	bool DeferOrRunPendingTask(PendingTask pending_task);

	// Delete tasks that haven't run yet without running them. Used in the
	// destructor to make sure all the task's destructors get called.
	void DeletePendingTasks();

	// Wakes up the message pump. Can be called on any thread. The caller is
	// responsible for synchronizing ScheduleWork() calls.
	void ScheduleWork();

	// MessagePump::Delegate methods:
	bool DoWork() override;
	bool DoDelayedWork(TimeTicks* next_delayed_work_time) override;
	bool DoIdleWork() override;

	const Type type_;

	#if defined(OS_WIN)
	// Tracks if we have requested high resolution timers. Its only use is to
	// turn off the high resolution timer upon loop destruction.
	bool in_high_res_mode_ = false;
	#endif

	// A recent snapshot of Time::Now(), used to check delayed_work_queue_.
	TimeTicks recent_time_;

	ObserverList<DestructionObserver> destruction_observers_;

	// A boolean which prevents unintentional reentrant task execution (e.g. from
	// induced nested message loops). As such, nested message loops will only
	// process system messages (not application tasks) by default. A nested loop
	// layer must have been explicitly granted permission to be able to execute
	// application tasks. This is granted either by
	// RunLoop::Type::kNestableTasksAllowed when the loop is driven by the
	// application or by a ScopedNestableTaskAllower preceding a system call that
	// is known to generate a system-driven nested loop.
	bool task_execution_allowed_ = true;

	// pump_factory_.Run() is called to create a message pump for this loop
	// if type_ is TYPE_CUSTOM and pump_ is null.
	MessagePumpFactoryCallback pump_factory_;

	ObserverList<TaskObserver> task_observers_;

	scoped_refptr<internal::IncomingTaskQueue> incoming_task_queue_;

	// A task runner which we haven't bound to a thread yet.
	scoped_refptr<internal::MessageLoopTaskRunner> unbound_task_runner_;

	// The task runner associated with this message loop.
	scoped_refptr<SingleThreadTaskRunner> task_runner_;
	std::unique_ptr<ThreadTaskRunnerHandle> thread_task_runner_handle_;

	// Id of the thread this message loop is bound to. Initialized once when the
	// MessageLoop is bound to its thread and constant forever after.
	PlatformThreadId thread_id_ = kInvalidThreadId;

	// Holds data stored through the SequenceLocalStorageSlot API.
	internal::SequenceLocalStorageMap sequence_local_storage_map_;

	// Enables the SequenceLocalStorageSlot API within its scope.
	// Instantiated in BindToCurrentThread().
	std::unique_ptr<internal::ScopedSetSequenceLocalStorageMapForCurrentThread>
	scoped_set_sequence_local_storage_map_for_current_thread_;

	// Verifies that calls are made on the thread on which BindToCurrentThread()
	// was invoked.
	THREAD_CHECKER(bound_thread_checker_);

	DISALLOW_COPY_AND_ASSIGN(MessageLoop);
	};

	#if !defined(OS_NACL)

	//-----------------------------------------------------------------------------
	// MessageLoopForUI extends MessageLoop with methods that are particular to a
	// MessageLoop instantiated with TYPE_UI.
	//
	// By instantiating a MessageLoopForUI on the current thread, the owner enables
	// native UI message pumping.
	//
	// MessageLoopCurrentForUI is exposed statically on its thread via
	// MessageLoopCurrentForUI::Get() to provide additional functionality.
	//
	class BASE_EXPORT MessageLoopForUI : public MessageLoop {
	public:
	MessageLoopForUI() : MessageLoop(TYPE_UI) {
	}

	explicit MessageLoopForUI(std::unique_ptr<MessagePump> pump);

	// TODO(gab): Mass migrate callers to MessageLoopCurrentForUI::Get()/IsSet().
	static MessageLoopCurrentForUI current();
	static bool IsCurrent();

	#if defined(OS_IOS)
	// On iOS, the main message loop cannot be Run(). Instead call Attach(),
	// which connects this MessageLoop to the UI thread's CFRunLoop and allows
	// PostTask() to work.
	void Attach();
	#endif

	#if defined(OS_ANDROID)
	// On Android, the UI message loop is handled by Java side. So Run() should
	// never be called. Instead use Start(), which will forward all the native UI
	// events to the Java message loop.
	void Start();

	// In Android there are cases where we want to abort immediately without
	// calling Quit(), in these cases we call Abort().
	void Abort();
	#endif
	};

	// Do not add any member variables to MessageLoopForUI! This is important b/c
	// MessageLoopForUI is often allocated via MessageLoop(TYPE_UI). Any extra
	// data that you need should be stored on the MessageLoop's pump_ instance.
	static_assert(sizeof(MessageLoop) == sizeof(MessageLoopForUI),
	"MessageLoopForUI should not have extra member variables");

	#endif // !defined(OS_NACL)

	//-----------------------------------------------------------------------------
	// MessageLoopForIO extends MessageLoop with methods that are particular to a
	// MessageLoop instantiated with TYPE_IO.
	//
	// By instantiating a MessageLoopForIO on the current thread, the owner enables
	// native async IO message pumping.
	//
	// MessageLoopCurrentForIO is exposed statically on its thread via
	// MessageLoopCurrentForIO::Get() to provide additional functionality.
	//
	class BASE_EXPORT MessageLoopForIO : public MessageLoop {
	public:
	MessageLoopForIO() : MessageLoop(TYPE_IO) {}

	// TODO(gab): Mass migrate callers to MessageLoopCurrentForIO::Get()/IsSet().
	static MessageLoopCurrentForIO current();
	static bool IsCurrent();
	};

	// Do not add any member variables to MessageLoopForIO! This is important b/c
	// MessageLoopForIO is often allocated via MessageLoop(TYPE_IO). Any extra
	// data that you need should be stored on the MessageLoop's pump_ instance.
	static_assert(sizeof(MessageLoop) == sizeof(MessageLoopForIO),
	"MessageLoopForIO should not have extra member variables");

	} // namespace base

	#endif // BASE_MESSAGE_LOOP_MESSAGE_LOOP_H_