cc/resources/worker_pool.cc - Issue 73923003: Shared Raster Worker Threads

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Issue 73923003: Shared Raster Worker Threads (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: WIP - number of raster thread code review + nits Created 6 years, 11 months ago

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1 // Copyright 2013 The Chromium Authors. All rights reserved.	1 // Copyright 2013 The Chromium Authors. All rights reserved.

2 // Use of this source code is governed by a BSD-style license that can be	2 // Use of this source code is governed by a BSD-style license that can be

3 // found in the LICENSE file.	3 // found in the LICENSE file.

4	4

5 #include "cc/resources/worker_pool.h"	5 #include "cc/resources/worker_pool.h"

6	6

7 #include <algorithm>	7 #include <algorithm>

8 #include <queue>	8 #include <queue>

9	9

10 #include "base/bind.h"	10 #include "base/bind.h"

11 #include "base/containers/hash_tables.h"	11 #include "base/containers/hash_tables.h"

12 #include "base/debug/trace_event.h"	12 #include "base/debug/trace_event.h"

	13 #include "base/lazy_instance.h"

	14 #include "base/memory/linked_ptr.h"

13 #include "base/strings/stringprintf.h"	15 #include "base/strings/stringprintf.h"

14 #include "base/synchronization/condition_variable.h"	16 #include "base/synchronization/condition_variable.h"

15 #include "base/threading/simple_thread.h"	17 #include "base/threading/simple_thread.h"

16 #include "base/threading/thread_restrictions.h"	18 #include "base/threading/thread_restrictions.h"

17 #include "cc/base/scoped_ptr_deque.h"	19 #include "cc/base/scoped_ptr_deque.h"

	20 #include "cc/base/switches.h"

18	21

19 namespace cc {	22 namespace cc {

20	23

21 namespace internal {	24 namespace {

22	25

23 WorkerPoolTask::WorkerPoolTask()	26 // TaskGraphRunners can process task graphs from multiple

24 : did_schedule_(false),	27 // workerpool instances. All members are guarded by \|lock_\|.

25 did_run_(false),	28 class TaskGraphRunner : public base::DelegateSimpleThread::Delegate {

26 did_complete_(false) {	29 public:

27 }	30 typedef WorkerPool::TaskGraph TaskGraph;

	31 typedef WorkerPool::TaskVector TaskVector;

28	32

29 WorkerPoolTask::~WorkerPoolTask() {	33 TaskGraphRunner(size_t num_threads, const std::string& thread_name_prefix);

30 DCHECK_EQ(did_schedule_, did_complete_);	34 virtual ~TaskGraphRunner();

31 DCHECK(!did_run_ \|\| did_schedule_);

32 DCHECK(!did_run_ \|\| did_complete_);

33 }

34	35

35 void WorkerPoolTask::DidSchedule() {	36 void Register(const WorkerPool* worker_pool);

36 DCHECK(!did_complete_);	37 void Unregister(const WorkerPool* worker_pool);

37 did_schedule_ = true;	38 void WaitForTasksToFinishRunning(const WorkerPool* worker_pool);
	reveman 2013/12/30 08:57:06 Please move the declaration of "WaitForTasksToFini Please move the declaration of "WaitForTasksToFinishRunning" below SetTaskGraph and add this comment above it: // Wait for all scheduled tasks to finish running. sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > Please move the declaration of "WaitForTasksToFinishRunning" below SetTaskGraph > and add this comment above it: > > // Wait for all scheduled tasks to finish running. Done.
38 }

39

40 void WorkerPoolTask::WillRun() {

41 DCHECK(did_schedule_);

42 DCHECK(!did_complete_);

43 DCHECK(!did_run_);

44 }

45

46 void WorkerPoolTask::DidRun() {

47 did_run_ = true;

48 }

49

50 void WorkerPoolTask::WillComplete() {

51 DCHECK(!did_complete_);

52 }

53

54 void WorkerPoolTask::DidComplete() {

55 DCHECK(did_schedule_);

56 DCHECK(!did_complete_);

57 did_complete_ = true;

58 }

59

60 bool WorkerPoolTask::HasFinishedRunning() const {

61 return did_run_;

62 }

63

64 bool WorkerPoolTask::HasCompleted() const {

65 return did_complete_;

66 }

67

68 GraphNode::GraphNode(internal::WorkerPoolTask* task, unsigned priority)

69 : task_(task),

70 priority_(priority),

71 num_dependencies_(0) {

72 }

73

74 GraphNode::~GraphNode() {

75 }

76

77 } // namespace internal

78

79 // Internal to the worker pool. Any data or logic that needs to be

80 // shared between threads lives in this class. All members are guarded

81 // by \|lock_\|.

82 class WorkerPool::Inner : public base::DelegateSimpleThread::Delegate {

83 public:

84 Inner(size_t num_threads, const std::string& thread_name_prefix);

85 virtual ~Inner();

86

87 void Shutdown();

88	39

89 // Schedule running of tasks in \|graph\|. Tasks previously scheduled but	40 // Schedule running of tasks in \|graph\|. Tasks previously scheduled but

90 // no longer needed will be canceled unless already running. Canceled	41 // no longer needed will be canceled unless already running. Canceled

91 // tasks are moved to \|completed_tasks_\| without being run. The result	42 // tasks are moved to \|completed_tasks\| without being run. The result

92 // is that once scheduled, a task is guaranteed to end up in the	43 // is that once scheduled, a task is guaranteed to end up in the

93 // \|completed_tasks_\| queue even if they later get canceled by another	44 // \|completed_tasks\| queue even if it later get canceled by another

94 // call to SetTaskGraph().	45 // call to SetTaskGraph().

95 void SetTaskGraph(TaskGraph* graph);	46 void SetTaskGraph(const WorkerPool* worker_pool, TaskGraph* graph);

96	47

97 // Collect all completed tasks in \|completed_tasks\|.	48 // Collect all completed tasks in \|completed_tasks\|.

98 void CollectCompletedTasks(TaskVector* completed_tasks);	49 void CollectCompletedTasks(const WorkerPool* worker_pool,

	50 TaskVector* completed_tasks);

99	51

100 private:	52 private:

101 class PriorityComparator {	53 class TaskPriorityComparator {

102 public:	54 public:

103 bool operator()(const internal::GraphNode* a,	55 bool operator()(internal::GraphNode* a,

104 const internal::GraphNode* b) {	56 internal::GraphNode* b) {

105 // In this system, numerically lower priority is run first.	57 // In this system, numerically lower priority is run first.

106 if (a->priority() != b->priority())	58 if (a->priority() != b->priority())

107 return a->priority() > b->priority();	59 return a->priority() > b->priority();

108	60

109 // Run task with most dependents first when priority is the same.	61 // Run task with most dependents first when priority is the same.

110 return a->dependents().size() < b->dependents().size();	62 return a->dependents().size() < b->dependents().size();

111 }	63 }

112 };	64 };

113	65

	66 // Ordered set of tasks that are ready to run.
	reveman 2013/12/30 08:57:06 This comment is supposed to be next to "ready_to_r This comment is supposed to be next to "ready_to_run_tasks" in TaskNamespace. Please move it. sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > This comment is supposed to be next to "ready_to_run_tasks" in TaskNamespace. > Please move it. Done.
	67 typedef std::priority_queue<internal::GraphNode*,

	68 std::vector<internal::GraphNode*>,

	69 TaskPriorityComparator> TaskQueue;

	70

	71 struct TaskNamespace {

	72 TaskGraph pending_tasks;

	73 TaskGraph running_tasks;

	74 TaskVector completed_tasks;

	75 TaskQueue ready_to_run_tasks;

	76 };

	77

	78 class TaskNamespacePriorityComparator {

	79 public:

	80 bool operator()(TaskNamespace* a,

	81 TaskNamespace* b) {

	82 return task_comparators_.operator()(a->ready_to_run_tasks.top(),

	83 b->ready_to_run_tasks.top());

	84 }

	85 TaskPriorityComparator task_comparators_;

	86 };

	87

	88 typedef std::map<const WorkerPool*, linked_ptr<TaskNamespace> >

	89 TaskNamespaceMap;

	90

	91 // Ordered set of tasks namespaces that have ready to run tasks.
	reveman 2013/12/30 08:57:06 Please move this comment above \|ready_to_run_names Please move this comment above \|ready_to_run_namespaces_\| instead. sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > Please move this comment above \|ready_to_run_namespaces_\| instead. Done.
	92 typedef std::priority_queue<TaskNamespace*,

	93 std::vector<TaskNamespace*>,

	94 TaskNamespacePriorityComparator>

	95 TaskNamespaceQueue;

	96

114 // Overridden from base::DelegateSimpleThread:	97 // Overridden from base::DelegateSimpleThread:

115 virtual void Run() OVERRIDE;	98 virtual void Run() OVERRIDE;

116	99

	100 inline bool has_finished_running_tasks(TaskNamespace* task_namespace) {

	101 return (task_namespace->pending_tasks.empty() &&

	102 task_namespace->running_tasks.empty());

	103 }

	104

117 // This lock protects all members of this class except	105 // This lock protects all members of this class except

118 // \|worker_pool_on_origin_thread_\|. Do not read or modify anything	106 // \|worker_pool_on_origin_thread_\|. Do not read or modify anything

119 // without holding this lock. Do not block while holding this lock.	107 // without holding this lock. Do not block while holding this lock.

120 mutable base::Lock lock_;	108 mutable base::Lock lock_;

121	109

122 // Condition variable that is waited on by worker threads until new	110 // Condition variable that is waited on by worker threads until new

123 // tasks are ready to run or shutdown starts.	111 // tasks are ready to run or shutdown starts.

124 base::ConditionVariable has_ready_to_run_tasks_cv_;	112 base::ConditionVariable has_ready_to_run_tasks_cv_;

125	113

	114 // Condition variable that is waited on by origin threads until a

	115 // namespace has finished running all associated tasks.

	116 base::ConditionVariable has_namespaces_with_finished_running_tasks_cv_;

	117

126 // Provides each running thread loop with a unique index. First thread	118 // Provides each running thread loop with a unique index. First thread

127 // loop index is 0.	119 // loop index is 0.

128 unsigned next_thread_index_;	120 unsigned next_thread_index_;

129	121

130 // Set during shutdown. Tells workers to exit when no more tasks	122 // Set during shutdown. Tells workers to exit when no more tasks

131 // are pending.	123 // are pending.

132 bool shutdown_;	124 bool shutdown_;

133	125

134 // This set contains all pending tasks.
reveman 2013/12/30 08:57:06 nit: please keep this comment by moving it to "str nit: please keep this comment by moving it to "struct TaskNamespace" sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > nit: please keep this comment by moving it to "struct TaskNamespace" Done.
135 GraphNodeMap pending_tasks_;

136

137 // Ordered set of tasks that are ready to run.

138 typedef std::priority_queue<internal::GraphNode*,

139 std::vector<internal::GraphNode*>,

140 PriorityComparator> TaskQueue;

141 TaskQueue ready_to_run_tasks_;

142

143 // This set contains all currently running tasks.
reveman 2013/12/30 08:57:06 nit: please keep this comment by moving it to "str nit: please keep this comment by moving it to "struct TaskNamespace" sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > nit: please keep this comment by moving it to "struct TaskNamespace" Done.
144 GraphNodeMap running_tasks_;

145

146 // Completed tasks not yet collected by origin thread.
reveman 2013/12/30 08:57:06 nit: please keep this comment by moving it to "str nit: please keep this comment by moving it to "struct TaskNamespace" sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > nit: please keep this comment by moving it to "struct TaskNamespace" Done.
147 TaskVector completed_tasks_;

148

149 ScopedPtrDeque<base::DelegateSimpleThread> workers_;	126 ScopedPtrDeque<base::DelegateSimpleThread> workers_;
	reveman 2013/12/30 08:57:06 nit: Let's keep this at the bottom, below \|ready_t nit: Let's keep this at the bottom, below \|ready_to_run_namespaces_\| sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > nit: Let's keep this at the bottom, below \|ready_to_run_namespaces_\| Done.
150	127

151 DISALLOW_COPY_AND_ASSIGN(Inner);	128 TaskNamespaceMap namespaces_;
	reveman 2013/12/30 08:57:06 Add this comment here: // This set contains all re Add this comment here: // This set contains all registered namespaces. sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > Add this comment here: > // This set contains all registered namespaces. Done.
	129

	130 TaskNamespaceQueue ready_to_run_namespaces_;

	131

	132 DISALLOW_COPY_AND_ASSIGN(TaskGraphRunner);

152 };	133 };

153	134

154 WorkerPool::Inner::Inner(	135 TaskGraphRunner::TaskGraphRunner(

155 size_t num_threads, const std::string& thread_name_prefix)	136 size_t num_threads, const std::string& thread_name_prefix)

156 : lock_(),	137 : lock_(),

157 has_ready_to_run_tasks_cv_(&lock_),	138 has_ready_to_run_tasks_cv_(&lock_),

	139 has_namespaces_with_finished_running_tasks_cv_(&lock_),

158 next_thread_index_(0),	140 next_thread_index_(0),

159 shutdown_(false) {	141 shutdown_(false) {

160 base::AutoLock lock(lock_);	142 base::AutoLock lock(lock_);

161	143

162 while (workers_.size() < num_threads) {	144 while (workers_.size() < num_threads) {

163 scoped_ptr<base::DelegateSimpleThread> worker = make_scoped_ptr(	145 scoped_ptr<base::DelegateSimpleThread> worker = make_scoped_ptr(

164 new base::DelegateSimpleThread(	146 new base::DelegateSimpleThread(

165 this,	147 this,

166 thread_name_prefix +	148 thread_name_prefix +

167 base::StringPrintf(	149 base::StringPrintf(

168 "Worker%u",	150 "Worker%u",

169 static_cast<unsigned>(workers_.size() + 1)).c_str()));	151 static_cast<unsigned>(workers_.size() + 1)).c_str()));

170 worker->Start();	152 worker->Start();

171 #if defined(OS_ANDROID) \|\| defined(OS_LINUX)	153 #if defined(OS_ANDROID) \|\| defined(OS_LINUX)

172 worker->SetThreadPriority(base::kThreadPriority_Background);	154 worker->SetThreadPriority(base::kThreadPriority_Background);

173 #endif	155 #endif

174 workers_.push_back(worker.Pass());	156 workers_.push_back(worker.Pass());

175 }	157 }

176 }	158 }

177	159

178 WorkerPool::Inner::~Inner() {	160 TaskGraphRunner::~TaskGraphRunner() {

179 base::AutoLock lock(lock_);

180

181 DCHECK(shutdown_);

182

183 DCHECK_EQ(0u, pending_tasks_.size());

184 DCHECK_EQ(0u, ready_to_run_tasks_.size());

185 DCHECK_EQ(0u, running_tasks_.size());

186 DCHECK_EQ(0u, completed_tasks_.size());

187 }

188

189 void WorkerPool::Inner::Shutdown() {

190 {	161 {

191 base::AutoLock lock(lock_);	162 base::AutoLock lock(lock_);

192	163

	164 DCHECK_EQ(0u, ready_to_run_namespaces_.size());

	165 DCHECK_EQ(0u, namespaces_.size());

	166

193 DCHECK(!shutdown_);	167 DCHECK(!shutdown_);

194 shutdown_ = true;	168 shutdown_ = true;

195	169

196 // Wake up a worker so it knows it should exit. This will cause all workers	170 // Wake up a worker so it knows it should exit. This will cause all workers

197 // to exit as each will wake up another worker before exiting.	171 // to exit as each will wake up another worker before exiting.

198 has_ready_to_run_tasks_cv_.Signal();	172 has_ready_to_run_tasks_cv_.Signal();

199 }	173 }

200	174

201 while (workers_.size()) {	175 while (workers_.size()) {

202 scoped_ptr<base::DelegateSimpleThread> worker = workers_.take_front();	176 scoped_ptr<base::DelegateSimpleThread> worker = workers_.take_front();

203 // http://crbug.com/240453 - Join() is considered IO and will block this	177 // http://crbug.com/240453 - Join() is considered IO and will block this

204 // thread. See also http://crbug.com/239423 for further ideas.	178 // thread. See also http://crbug.com/239423 for further ideas.

205 base::ThreadRestrictions::ScopedAllowIO allow_io;	179 base::ThreadRestrictions::ScopedAllowIO allow_io;

206 worker->Join();	180 worker->Join();

207 }	181 }

208 }	182 }

209	183

210 void WorkerPool::Inner::SetTaskGraph(TaskGraph* graph) {	184 void TaskGraphRunner::Register(const WorkerPool* worker_pool) {

	185 base::AutoLock lock(lock_);

	186

	187 DCHECK(namespaces_.find(worker_pool) == namespaces_.end());

	188 linked_ptr<TaskNamespace> task_set = make_linked_ptr(new TaskNamespace());

	189 namespaces_[worker_pool] = task_set;

	190 }

	191

	192 void TaskGraphRunner::Unregister(const WorkerPool* worker_pool) {

	193 base::AutoLock lock(lock_);

	194

	195 DCHECK(namespaces_.find(worker_pool) != namespaces_.end());

	196

	197 TaskNamespace* task_namespace = namespaces_[worker_pool].get();

	198 DCHECK_EQ(0u, task_namespace->pending_tasks.size());

	199 DCHECK_EQ(0u, task_namespace->ready_to_run_tasks.size());

	200 DCHECK_EQ(0u, task_namespace->running_tasks.size());

	201 DCHECK_EQ(0u, task_namespace->completed_tasks.size());

	202

	203 namespaces_.erase(worker_pool);

	204 }

	205

	206 void TaskGraphRunner::WaitForTasksToFinishRunning(

	207 const WorkerPool* worker_pool) {

	208 base::AutoLock lock(lock_);

	209

	210 DCHECK(namespaces_.find(worker_pool) != namespaces_.end());

	211 TaskNamespace* task_namespace = namespaces_[worker_pool].get();

	212

	213 while (true) {

	214 if (has_finished_running_tasks(task_namespace)) {

	215 // There may be other namespaces that have finished running

	216 // tasks, so wake up another origin thread.

	217 has_namespaces_with_finished_running_tasks_cv_.Signal();

	218 return;

	219 }

	220 has_namespaces_with_finished_running_tasks_cv_.Wait();

	221 }

	222 }

	223

	224 void TaskGraphRunner::SetTaskGraph(const WorkerPool* worker_pool,

	225 TaskGraph* graph) {

211 // It is OK to call SetTaskGraph() after shutdown if \|graph\| is empty.	226 // It is OK to call SetTaskGraph() after shutdown if \|graph\| is empty.

212 DCHECK(graph->empty() \|\| !shutdown_);	227 DCHECK(graph->empty() \|\| !shutdown_);
	reveman 2013/12/30 08:57:06 This DCHECK is no longer correct. Please make it " This DCHECK is no longer correct. Please make it "DCHECK(!shutdown_)" and move it below "base::AutoLock lock(lock_);" as shutdown_ is protected by lock. sohanjg 2013/12/30 09:18:55 Done. Show quoted text On 2013/12/30 08:57:06, David Reveman wrote: > This DCHECK is no longer correct. Please make it "DCHECK(!shutdown_)" and move > it below "base::AutoLock lock(lock_);" as shutdown_ is protected by lock. Done.
213	228

214 GraphNodeMap new_pending_tasks;	229 TaskGraph new_pending_tasks;

215 GraphNodeMap new_running_tasks;	230 TaskGraph new_running_tasks;

216 TaskQueue new_ready_to_run_tasks;	231 TaskQueue new_ready_to_run_tasks;

	232 TaskNamespaceQueue new_ready_to_run_namespaces;

217	233

218 new_pending_tasks.swap(*graph);	234 new_pending_tasks.swap(*graph);

219	235

220 {	236 {

221 base::AutoLock lock(lock_);	237 base::AutoLock lock(lock_);

222	238

	239 DCHECK(namespaces_.find(worker_pool) != namespaces_.end());

	240 TaskNamespace* task_namespace = namespaces_[worker_pool].get();

	241

223 // First remove all completed tasks from \|new_pending_tasks\| and	242 // First remove all completed tasks from \|new_pending_tasks\| and

224 // adjust number of dependencies.	243 // adjust number of dependencies.

225 for (TaskVector::iterator it = completed_tasks_.begin();	244 for (TaskVector::iterator it = task_namespace->completed_tasks.begin();

226 it != completed_tasks_.end(); ++it) {	245 it != task_namespace->completed_tasks.end(); ++it) {

227 internal::WorkerPoolTask* task = it->get();	246 internal::WorkerPoolTask* task = it->get();

228	247

229 scoped_ptr<internal::GraphNode> node = new_pending_tasks.take_and_erase(	248 scoped_ptr<internal::GraphNode> node = new_pending_tasks.take_and_erase(

230 task);	249 task);

231 if (node) {	250 if (node) {

232 for (internal::GraphNode::Vector::const_iterator it =	251 for (internal::GraphNode::Vector::const_iterator it =

233 node->dependents().begin();	252 node->dependents().begin();

234 it != node->dependents().end(); ++it) {	253 it != node->dependents().end(); ++it) {

235 internal::GraphNode* dependent_node = *it;	254 internal::GraphNode* dependent_node = *it;

236 dependent_node->remove_dependency();	255 dependent_node->remove_dependency();

237 }	256 }

238 }	257 }

239 }	258 }

240	259

241 // Build new running task set.	260 // Build new running task set.

242 for (GraphNodeMap::iterator it = running_tasks_.begin();	261 for (TaskGraph::iterator it = task_namespace->running_tasks.begin();

243 it != running_tasks_.end(); ++it) {	262 it != task_namespace->running_tasks.end(); ++it) {

244 internal::WorkerPoolTask* task = it->first;	263 internal::WorkerPoolTask* task = it->first;

245 // Transfer scheduled task value from \|new_pending_tasks\| to	264 // Transfer scheduled task value from \|new_pending_tasks\| to

246 // \|new_running_tasks\| if currently running. Value must be set to	265 // \|new_running_tasks\| if currently running. Value must be set to

247 // NULL if \|new_pending_tasks\| doesn't contain task. This does	266 // NULL if \|new_pending_tasks\| doesn't contain task. This does

248 // the right in both cases.	267 // the right in both cases.

249 new_running_tasks.set(task, new_pending_tasks.take_and_erase(task));	268 new_running_tasks.set(task, new_pending_tasks.take_and_erase(task));

250 }	269 }

251	270

252 // Build new "ready to run" tasks queue.	271 // Build new "ready to run" tasks queue.

253 // TODO(reveman): Create this queue when building the task graph instead.	272 // TODO(reveman): Create this queue when building the task graph instead.

254 for (GraphNodeMap::iterator it = new_pending_tasks.begin();	273 for (TaskGraph::iterator it = new_pending_tasks.begin();

255 it != new_pending_tasks.end(); ++it) {	274 it != new_pending_tasks.end(); ++it) {

256 internal::WorkerPoolTask* task = it->first;	275 internal::WorkerPoolTask* task = it->first;

257 DCHECK(task);	276 DCHECK(task);

258 internal::GraphNode* node = it->second;	277 internal::GraphNode* node = it->second;

259	278

260 // Completed tasks should not exist in \|new_pending_tasks\|.	279 // Completed tasks should not exist in \|new_pending_tasks\|.

261 DCHECK(!task->HasFinishedRunning());	280 DCHECK(!task->HasFinishedRunning());

262	281

263 // Call DidSchedule() to indicate that this task has been scheduled.	282 // Call DidSchedule() to indicate that this task has been scheduled.

264 // Note: This is only for debugging purposes.	283 // Note: This is only for debugging purposes.

265 task->DidSchedule();	284 task->DidSchedule();

266	285

267 if (!node->num_dependencies())	286 if (!node->num_dependencies())

268 new_ready_to_run_tasks.push(node);	287 new_ready_to_run_tasks.push(node);

269	288

270 // Erase the task from old pending tasks.	289 // Erase the task from old pending tasks.

271 pending_tasks_.erase(task);	290 task_namespace->pending_tasks.erase(task);

272 }	291 }

273	292

274 completed_tasks_.reserve(completed_tasks_.size() + pending_tasks_.size());	293 task_namespace->completed_tasks.reserve(

	294 task_namespace->completed_tasks.size() +

	295 task_namespace->pending_tasks.size());

275	296

276 // The items left in \|pending_tasks_\| need to be canceled.	297 // The items left in \|pending_tasks\| need to be canceled.

277 for (GraphNodeMap::const_iterator it = pending_tasks_.begin();	298 for (TaskGraph::const_iterator it = task_namespace->pending_tasks.begin();

278 it != pending_tasks_.end();	299 it != task_namespace->pending_tasks.end(); ++it) {

279 ++it) {	300 task_namespace->completed_tasks.push_back(it->first);

280 completed_tasks_.push_back(it->first);

281 }	301 }

282	302

283 // Swap task sets.	303 // Swap task sets.

284 // Note: old tasks are intentionally destroyed after releasing \|lock_\|.	304 // Note: old tasks are intentionally destroyed after releasing \|lock_\|.

285 pending_tasks_.swap(new_pending_tasks);	305 task_namespace->pending_tasks.swap(new_pending_tasks);

286 running_tasks_.swap(new_running_tasks);	306 task_namespace->running_tasks.swap(new_running_tasks);

287 std::swap(ready_to_run_tasks_, new_ready_to_run_tasks);	307 std::swap(task_namespace->ready_to_run_tasks, new_ready_to_run_tasks);

288	308

289 // If \|ready_to_run_tasks_\| is empty, it means we either have	309 // If \|ready_to_run_tasks\| is empty, it means we either have

290 // running tasks, or we have no pending tasks.	310 // running tasks, or we have no pending tasks.

291 DCHECK(!ready_to_run_tasks_.empty() \|\|	311 DCHECK(!task_namespace->ready_to_run_tasks.empty() \|\|

292 (pending_tasks_.empty() \|\| !running_tasks_.empty()));	312 (task_namespace->pending_tasks.empty() \|\|

	313 !task_namespace->running_tasks.empty()));

	314

	315 // Build new "ready to run" task namespaces queue.

	316 for (TaskNamespaceMap::iterator it = namespaces_.begin();

	317 it != namespaces_.end(); ++it) {

	318 if (!it->second->ready_to_run_tasks.empty())

	319 new_ready_to_run_namespaces.push(it->second.get());

	320 }

	321 std::swap(ready_to_run_namespaces_, new_ready_to_run_namespaces);

293	322

294 // If there is more work available, wake up worker thread.	323 // If there is more work available, wake up worker thread.

295 if (!ready_to_run_tasks_.empty())	324 if (!ready_to_run_namespaces_.empty())

296 has_ready_to_run_tasks_cv_.Signal();	325 has_ready_to_run_tasks_cv_.Signal();

297 }	326 }

298 }	327 }

299	328

300 void WorkerPool::Inner::CollectCompletedTasks(TaskVector* completed_tasks) {	329 void TaskGraphRunner::CollectCompletedTasks(

	330 const WorkerPool* worker_pool, TaskVector* completed_tasks) {

301 base::AutoLock lock(lock_);	331 base::AutoLock lock(lock_);

302	332

303 DCHECK_EQ(0u, completed_tasks->size());	333 DCHECK_EQ(0u, completed_tasks->size());

304 completed_tasks->swap(completed_tasks_);	334 DCHECK(namespaces_.find(worker_pool) != namespaces_.end());

	335 completed_tasks->swap(namespaces_[worker_pool]->completed_tasks);

305 }	336 }

306	337

307 void WorkerPool::Inner::Run() {	338 void TaskGraphRunner::Run() {

308 base::AutoLock lock(lock_);	339 base::AutoLock lock(lock_);

309	340

310 // Get a unique thread index.	341 // Get a unique thread index.

311 int thread_index = next_thread_index_++;	342 int thread_index = next_thread_index_++;

312	343

313 while (true) {	344 while (true) {

314 if (ready_to_run_tasks_.empty()) {	345 if (ready_to_run_namespaces_.empty()) {

315 // Exit when shutdown is set and no more tasks are pending.	346 // Exit when shutdown is set and no more tasks are pending.

316 if (shutdown_ && pending_tasks_.empty())	347 if (shutdown_)

317 break;	348 break;

318	349

319 // Wait for more tasks.	350 // Wait for more tasks.

320 has_ready_to_run_tasks_cv_.Wait();	351 has_ready_to_run_tasks_cv_.Wait();

321 continue;	352 continue;

322 }	353 }

323	354

324 // Take top priority task from \|ready_to_run_tasks_\|.	355 // Take top priority TaskNamespace from \|ready_to_run_namespaces_\|.

	356 TaskNamespace* task_namespace = ready_to_run_namespaces_.top();

	357 ready_to_run_namespaces_.pop();

	358 DCHECK(!task_namespace->ready_to_run_tasks.empty());

	359

	360 // Take top priority task from \|ready_to_run_tasks\|.

325 scoped_refptr<internal::WorkerPoolTask> task(	361 scoped_refptr<internal::WorkerPoolTask> task(

326 ready_to_run_tasks_.top()->task());	362 task_namespace->ready_to_run_tasks.top()->task());

327 ready_to_run_tasks_.pop();	363 task_namespace->ready_to_run_tasks.pop();

328	364

329 // Move task from \|pending_tasks_\| to \|running_tasks_\|.	365 // Add task namespace back to \|ready_to_run_namespaces_\| if not

330 DCHECK(pending_tasks_.contains(task.get()));	366 // empty after taking top priority task.

331 DCHECK(!running_tasks_.contains(task.get()));	367 if (!task_namespace->ready_to_run_tasks.empty())

332 running_tasks_.set(task.get(), pending_tasks_.take_and_erase(task.get()));	368 ready_to_run_namespaces_.push(task_namespace);

	369

	370 // Move task from \|pending_tasks\| to \|running_tasks\|.

	371 DCHECK(task_namespace->pending_tasks.contains(task.get()));

	372 DCHECK(!task_namespace->running_tasks.contains(task.get()));

	373 task_namespace->running_tasks.set(

	374 task.get(),

	375 task_namespace->pending_tasks.take_and_erase(task.get()));

333	376

334 // There may be more work available, so wake up another worker thread.	377 // There may be more work available, so wake up another worker thread.

335 has_ready_to_run_tasks_cv_.Signal();	378 has_ready_to_run_tasks_cv_.Signal();

336	379

337 // Call WillRun() before releasing \|lock_\| and running task.	380 // Call WillRun() before releasing \|lock_\| and running task.

338 task->WillRun();	381 task->WillRun();

339	382

340 {	383 {

341 base::AutoUnlock unlock(lock_);	384 base::AutoUnlock unlock(lock_);

342	385

343 task->RunOnWorkerThread(thread_index);	386 task->RunOnWorkerThread(thread_index);

344 }	387 }

345	388

346 // This will mark task as finished running.	389 // This will mark task as finished running.

347 task->DidRun();	390 task->DidRun();

348	391

349 // Now iterate over all dependents to remove dependency and check	392 // Now iterate over all dependents to remove dependency and check

350 // if they are ready to run.	393 // if they are ready to run.

351 scoped_ptr<internal::GraphNode> node = running_tasks_.take_and_erase(	394 scoped_ptr<internal::GraphNode> node =

352 task.get());	395 task_namespace->running_tasks.take_and_erase(task.get());

353 if (node) {	396 if (node) {

354 for (internal::GraphNode::Vector::const_iterator it =	397 for (internal::GraphNode::Vector::const_iterator it =

355 node->dependents().begin();	398 node->dependents().begin();

356 it != node->dependents().end(); ++it) {	399 it != node->dependents().end(); ++it) {

357 internal::GraphNode* dependent_node = *it;	400 internal::GraphNode* dependent_node = *it;

358	401

359 dependent_node->remove_dependency();	402 dependent_node->remove_dependency();

360 // Task is ready if it has no dependencies. Add it to	403 // Task is ready if it has no dependencies. Add it to

361 // \|ready_to_run_tasks_\|.	404 // \|ready_to_run_tasks\|.

362 if (!dependent_node->num_dependencies())	405 if (!dependent_node->num_dependencies()) {

363 ready_to_run_tasks_.push(dependent_node);	406 bool was_empty = task_namespace->ready_to_run_tasks.empty();

	407 task_namespace->ready_to_run_tasks.push(dependent_node);

	408 // Task namespace is ready if it has at least one ready

	409 // to run task. Add it to \|ready_to_run_namespaces_\| if

	410 // it just become ready.

	411 if (was_empty)

	412 ready_to_run_namespaces_.push(task_namespace);

	413 }

364 }	414 }

365 }	415 }

366	416

367 // Finally add task to \|completed_tasks_\|.	417 // Finally add task to \|completed_tasks\|.

368 completed_tasks_.push_back(task);	418 task_namespace->completed_tasks.push_back(task);

	419

	420 // If namespace has finished running all tasks, wake up origin thread.

	421 if (has_finished_running_tasks(task_namespace))

	422 has_namespaces_with_finished_running_tasks_cv_.Signal();

369 }	423 }

370	424

371 // We noticed we should exit. Wake up the next worker so it knows it should	425 // We noticed we should exit. Wake up the next worker so it knows it should

372 // exit as well (because the Shutdown() code only signals once).	426 // exit as well (because the Shutdown() code only signals once).

373 has_ready_to_run_tasks_cv_.Signal();	427 has_ready_to_run_tasks_cv_.Signal();

374 }	428 }

375	429

376 WorkerPool::WorkerPool(size_t num_threads,	430 class CC_EXPORT CompositorRasterTaskGraphRunner

377 const std::string& thread_name_prefix)	431 : public TaskGraphRunner {

378 : in_dispatch_completion_callbacks_(false),	432 public:

379 inner_(make_scoped_ptr(new Inner(num_threads, thread_name_prefix))) {	433 CompositorRasterTaskGraphRunner() : TaskGraphRunner(

	434 switches::GetNumRasterThreads(), "CompositorRaster") {

	435 }

	436 };

	437

	438 base::LazyInstance<CompositorRasterTaskGraphRunner>

	439 g_task_graph_runner = LAZY_INSTANCE_INITIALIZER;

	440

	441 } // namespace

	442

	443 namespace internal {

	444

	445 WorkerPoolTask::WorkerPoolTask()

	446 : did_schedule_(false),

	447 did_run_(false),

	448 did_complete_(false) {

	449 }

	450

	451 WorkerPoolTask::~WorkerPoolTask() {

	452 DCHECK_EQ(did_schedule_, did_complete_);

	453 DCHECK(!did_run_ \|\| did_schedule_);

	454 DCHECK(!did_run_ \|\| did_complete_);

	455 }

	456

	457 void WorkerPoolTask::DidSchedule() {

	458 DCHECK(!did_complete_);

	459 did_schedule_ = true;

	460 }

	461

	462 void WorkerPoolTask::WillRun() {

	463 DCHECK(did_schedule_);

	464 DCHECK(!did_complete_);

	465 DCHECK(!did_run_);

	466 }

	467

	468 void WorkerPoolTask::DidRun() {

	469 did_run_ = true;

	470 }

	471

	472 void WorkerPoolTask::WillComplete() {

	473 DCHECK(!did_complete_);

	474 }

	475

	476 void WorkerPoolTask::DidComplete() {

	477 DCHECK(did_schedule_);

	478 DCHECK(!did_complete_);

	479 did_complete_ = true;

	480 }

	481

	482 bool WorkerPoolTask::HasFinishedRunning() const {

	483 return did_run_;

	484 }

	485

	486 bool WorkerPoolTask::HasCompleted() const {

	487 return did_complete_;

	488 }

	489

	490 GraphNode::GraphNode(internal::WorkerPoolTask* task, unsigned priority)

	491 : task_(task),

	492 priority_(priority),

	493 num_dependencies_(0) {

	494 }

	495

	496 GraphNode::~GraphNode() {

	497 }

	498

	499 } // namespace internal

	500

	501 WorkerPool::WorkerPool() : in_dispatch_completion_callbacks_(false) {

	502 g_task_graph_runner.Pointer()->Register(this);

380 }	503 }

381	504

382 WorkerPool::~WorkerPool() {	505 WorkerPool::~WorkerPool() {

	506 g_task_graph_runner.Pointer()->Unregister(this);

383 }	507 }

384	508

385 void WorkerPool::Shutdown() {	509 void WorkerPool::Shutdown() {

386 TRACE_EVENT0("cc", "WorkerPool::Shutdown");	510 TRACE_EVENT0("cc", "WorkerPool::Shutdown");

387	511

388 DCHECK(!in_dispatch_completion_callbacks_);	512 DCHECK(!in_dispatch_completion_callbacks_);

389	513

390 inner_->Shutdown();	514 g_task_graph_runner.Pointer()->WaitForTasksToFinishRunning(this);

391 }	515 }

392	516

393 void WorkerPool::CheckForCompletedTasks() {	517 void WorkerPool::CheckForCompletedTasks() {

394 TRACE_EVENT0("cc", "WorkerPool::CheckForCompletedTasks");	518 TRACE_EVENT0("cc", "WorkerPool::CheckForCompletedTasks");

395	519

396 DCHECK(!in_dispatch_completion_callbacks_);	520 DCHECK(!in_dispatch_completion_callbacks_);

397	521

398 TaskVector completed_tasks;	522 TaskVector completed_tasks;

399 inner_->CollectCompletedTasks(&completed_tasks);	523 g_task_graph_runner.Pointer()->CollectCompletedTasks(this, &completed_tasks);

400 ProcessCompletedTasks(completed_tasks);	524 ProcessCompletedTasks(completed_tasks);

401 }	525 }

402	526

403 void WorkerPool::ProcessCompletedTasks(	527 void WorkerPool::ProcessCompletedTasks(

404 const TaskVector& completed_tasks) {	528 const TaskVector& completed_tasks) {

405 TRACE_EVENT1("cc", "WorkerPool::ProcessCompletedTasks",	529 TRACE_EVENT1("cc", "WorkerPool::ProcessCompletedTasks",

406 "completed_task_count", completed_tasks.size());	530 "completed_task_count", completed_tasks.size());

407	531

408 // Worker pool instance is not reentrant while processing completed tasks.	532 // Worker pool instance is not reentrant while processing completed tasks.

409 in_dispatch_completion_callbacks_ = true;	533 in_dispatch_completion_callbacks_ = true;

(...skipping 10 matching lines...) Expand all Loading...
420	544

421 in_dispatch_completion_callbacks_ = false;	545 in_dispatch_completion_callbacks_ = false;

422 }	546 }

423	547

424 void WorkerPool::SetTaskGraph(TaskGraph* graph) {	548 void WorkerPool::SetTaskGraph(TaskGraph* graph) {

425 TRACE_EVENT1("cc", "WorkerPool::SetTaskGraph",	549 TRACE_EVENT1("cc", "WorkerPool::SetTaskGraph",

426 "num_tasks", graph->size());	550 "num_tasks", graph->size());

427	551

428 DCHECK(!in_dispatch_completion_callbacks_);	552 DCHECK(!in_dispatch_completion_callbacks_);

429	553

430 inner_->SetTaskGraph(graph);	554 g_task_graph_runner.Pointer()->SetTaskGraph(this, graph);

431 }	555 }

432	556

433 } // namespace cc	557 } // namespace cc

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