third_party/v8/src/tasks/cancelable-task.cc - cobalt - Git at Google

 // Copyright 2015 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/tasks/cancelable-task.h"

 #include "src/base/platform/platform.h"
 #include "src/execution/isolate.h"

 namespace v8 {
 namespace internal {

 Cancelable::~Cancelable() {
   // The following check is needed to avoid calling an already terminated
   // manager object. This happens when the manager cancels all pending tasks
   // in {CancelAndWait} only before destroying the manager object.
   Status previous;
   if (TryRun(&previous) || previous == kRunning) {
     parent_->RemoveFinishedTask(id_);
   }
 }

 CancelableTaskManager::CancelableTaskManager()
     : task_id_counter_(kInvalidTaskId), canceled_(false) {}

 CancelableTaskManager::~CancelableTaskManager() {
   // It is required that {CancelAndWait} is called before the manager object is
   // destroyed. This guarantees that all tasks managed by this
   // {CancelableTaskManager} are either canceled or finished their execution
   // when the {CancelableTaskManager} dies.
   CHECK(canceled_);
 }

 CancelableTaskManager::Id CancelableTaskManager::Register(Cancelable* task) {
   base::MutexGuard guard(&mutex_);
   if (canceled_) {
     // The CancelableTaskManager has already been canceled. Therefore we mark
     // the new task immediately as canceled so that it does not get executed.
     task->Cancel();
     return kInvalidTaskId;
   }
   CancelableTaskManager::Id id = ++task_id_counter_;
   // Id overflows are not supported.
   CHECK_NE(kInvalidTaskId, id);
   CHECK(!canceled_);
   cancelable_tasks_[id] = task;
   return id;
 }

 void CancelableTaskManager::RemoveFinishedTask(CancelableTaskManager::Id id) {
   CHECK_NE(kInvalidTaskId, id);
   base::MutexGuard guard(&mutex_);
   size_t removed = cancelable_tasks_.erase(id);
   USE(removed);
   DCHECK_NE(0u, removed);
   cancelable_tasks_barrier_.NotifyOne();
 }

 TryAbortResult CancelableTaskManager::TryAbort(CancelableTaskManager::Id id) {
   CHECK_NE(kInvalidTaskId, id);
   base::MutexGuard guard(&mutex_);
   auto entry = cancelable_tasks_.find(id);
   if (entry != cancelable_tasks_.end()) {
     Cancelable* value = entry->second;
     if (value->Cancel()) {
       // Cannot call RemoveFinishedTask here because of recursive locking.
       cancelable_tasks_.erase(entry);
       cancelable_tasks_barrier_.NotifyOne();
       return TryAbortResult::kTaskAborted;
     } else {
       return TryAbortResult::kTaskRunning;
     }
   }
   return TryAbortResult::kTaskRemoved;
 }

 void CancelableTaskManager::CancelAndWait() {
   // Clean up all cancelable fore- and background tasks. Tasks are canceled on
   // the way if possible, i.e., if they have not started yet.  After each round
   // of canceling we wait for the background tasks that have already been
   // started.
   base::MutexGuard guard(&mutex_);
   canceled_ = true;

   // Cancelable tasks could be running or could potentially register new
   // tasks, requiring a loop here.
   while (!cancelable_tasks_.empty()) {
     for (auto it = cancelable_tasks_.begin(); it != cancelable_tasks_.end();) {
       auto current = it;
       // We need to get to the next element before erasing the current.
       ++it;
       if (current->second->Cancel()) {
         cancelable_tasks_.erase(current);
       }
     }
     // Wait for already running background tasks.
     if (!cancelable_tasks_.empty()) {
       cancelable_tasks_barrier_.Wait(&mutex_);
     }
   }
 }

 TryAbortResult CancelableTaskManager::TryAbortAll() {
   // Clean up all cancelable fore- and background tasks. Tasks are canceled on
   // the way if possible, i.e., if they have not started yet.
   base::MutexGuard guard(&mutex_);

   if (cancelable_tasks_.empty()) return TryAbortResult::kTaskRemoved;

   for (auto it = cancelable_tasks_.begin(); it != cancelable_tasks_.end();) {
     if (it->second->Cancel()) {
       it = cancelable_tasks_.erase(it);
     } else {
       ++it;
     }
   }

   return cancelable_tasks_.empty() ? TryAbortResult::kTaskAborted
                                    : TryAbortResult::kTaskRunning;
 }

 CancelableTask::CancelableTask(Isolate* isolate)
     : CancelableTask(isolate->cancelable_task_manager()) {}

 CancelableTask::CancelableTask(CancelableTaskManager* manager)
     : Cancelable(manager) {}

 CancelableIdleTask::CancelableIdleTask(Isolate* isolate)
     : CancelableIdleTask(isolate->cancelable_task_manager()) {}

 CancelableIdleTask::CancelableIdleTask(CancelableTaskManager* manager)
     : Cancelable(manager) {}

 }  // namespace internal
 }  // namespace v8
	// Copyright 2015 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/tasks/cancelable-task.h"

	#include "src/base/platform/platform.h"
	#include "src/execution/isolate.h"

	namespace v8 {
	namespace internal {

	Cancelable::~Cancelable() {
	// The following check is needed to avoid calling an already terminated
	// manager object. This happens when the manager cancels all pending tasks
	// in {CancelAndWait} only before destroying the manager object.
	Status previous;
	if (TryRun(&previous) \|\| previous == kRunning) {
	parent_->RemoveFinishedTask(id_);
	}
	}

	CancelableTaskManager::CancelableTaskManager()
	: task_id_counter_(kInvalidTaskId), canceled_(false) {}

	CancelableTaskManager::~CancelableTaskManager() {
	// It is required that {CancelAndWait} is called before the manager object is
	// destroyed. This guarantees that all tasks managed by this
	// {CancelableTaskManager} are either canceled or finished their execution
	// when the {CancelableTaskManager} dies.
	CHECK(canceled_);
	}

	CancelableTaskManager::Id CancelableTaskManager::Register(Cancelable* task) {
	base::MutexGuard guard(&mutex_);
	if (canceled_) {
	// The CancelableTaskManager has already been canceled. Therefore we mark
	// the new task immediately as canceled so that it does not get executed.
	task->Cancel();
	return kInvalidTaskId;
	}
	CancelableTaskManager::Id id = ++task_id_counter_;
	// Id overflows are not supported.
	CHECK_NE(kInvalidTaskId, id);
	CHECK(!canceled_);
	cancelable_tasks_[id] = task;
	return id;
	}

	void CancelableTaskManager::RemoveFinishedTask(CancelableTaskManager::Id id) {
	CHECK_NE(kInvalidTaskId, id);
	base::MutexGuard guard(&mutex_);
	size_t removed = cancelable_tasks_.erase(id);
	USE(removed);
	DCHECK_NE(0u, removed);
	cancelable_tasks_barrier_.NotifyOne();
	}

	TryAbortResult CancelableTaskManager::TryAbort(CancelableTaskManager::Id id) {
	CHECK_NE(kInvalidTaskId, id);
	base::MutexGuard guard(&mutex_);
	auto entry = cancelable_tasks_.find(id);
	if (entry != cancelable_tasks_.end()) {
	Cancelable* value = entry->second;
	if (value->Cancel()) {
	// Cannot call RemoveFinishedTask here because of recursive locking.
	cancelable_tasks_.erase(entry);
	cancelable_tasks_barrier_.NotifyOne();
	return TryAbortResult::kTaskAborted;
	} else {
	return TryAbortResult::kTaskRunning;
	}
	}
	return TryAbortResult::kTaskRemoved;
	}

	void CancelableTaskManager::CancelAndWait() {
	// Clean up all cancelable fore- and background tasks. Tasks are canceled on
	// the way if possible, i.e., if they have not started yet. After each round
	// of canceling we wait for the background tasks that have already been
	// started.
	base::MutexGuard guard(&mutex_);
	canceled_ = true;

	// Cancelable tasks could be running or could potentially register new
	// tasks, requiring a loop here.
	while (!cancelable_tasks_.empty()) {
	for (auto it = cancelable_tasks_.begin(); it != cancelable_tasks_.end();) {
	auto current = it;
	// We need to get to the next element before erasing the current.
	++it;
	if (current->second->Cancel()) {
	cancelable_tasks_.erase(current);
	}
	}
	// Wait for already running background tasks.
	if (!cancelable_tasks_.empty()) {
	cancelable_tasks_barrier_.Wait(&mutex_);
	}
	}
	}

	TryAbortResult CancelableTaskManager::TryAbortAll() {
	// Clean up all cancelable fore- and background tasks. Tasks are canceled on
	// the way if possible, i.e., if they have not started yet.
	base::MutexGuard guard(&mutex_);

	if (cancelable_tasks_.empty()) return TryAbortResult::kTaskRemoved;

	for (auto it = cancelable_tasks_.begin(); it != cancelable_tasks_.end();) {
	if (it->second->Cancel()) {
	it = cancelable_tasks_.erase(it);
	} else {
	++it;
	}
	}

	return cancelable_tasks_.empty() ? TryAbortResult::kTaskAborted
	: TryAbortResult::kTaskRunning;
	}

	CancelableTask::CancelableTask(Isolate* isolate)
	: CancelableTask(isolate->cancelable_task_manager()) {}

	CancelableTask::CancelableTask(CancelableTaskManager* manager)
	: Cancelable(manager) {}

	CancelableIdleTask::CancelableIdleTask(Isolate* isolate)
	: CancelableIdleTask(isolate->cancelable_task_manager()) {}

	CancelableIdleTask::CancelableIdleTask(CancelableTaskManager* manager)
	: Cancelable(manager) {}

	} // namespace internal
	} // namespace v8