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| 1 // Copyright 2015 The Chromium Authors. All rights reserved. | 1 // Copyright 2015 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 "platform/scheduler/base/time_domain.h" | 5 #include "platform/scheduler/base/time_domain.h" |
| 6 | 6 |
| 7 #include <set> | 7 #include <set> |
| 8 | 8 |
| 9 #include "platform/scheduler/base/task_queue_impl.h" | 9 #include "platform/scheduler/base/task_queue_impl.h" |
| 10 #include "platform/scheduler/base/task_queue_manager_delegate.h" | 10 #include "platform/scheduler/base/task_queue_manager_delegate.h" |
| 11 #include "platform/scheduler/base/work_queue.h" | 11 #include "platform/scheduler/base/work_queue.h" |
| 12 | 12 |
| 13 namespace blink { | 13 namespace blink { |
| 14 namespace scheduler { | 14 namespace scheduler { |
| 15 | 15 |
| 16 TimeDomain::TimeDomain(Observer* observer) : observer_(observer) {} | 16 TimeDomain::TimeDomain(Observer* observer) : observer_(observer) {} |
| 17 | 17 |
| 18 TimeDomain::~TimeDomain() { | 18 TimeDomain::~TimeDomain() { |
| 19 DCHECK(main_thread_checker_.CalledOnValidThread()); | 19 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 20 } | 20 } |
| 21 | 21 |
| 22 void TimeDomain::RegisterQueue(internal::TaskQueueImpl* queue) { | 22 void TimeDomain::RegisterQueue(internal::TaskQueueImpl* queue) { |
| 23 DCHECK(main_thread_checker_.CalledOnValidThread()); | 23 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 24 DCHECK_EQ(queue->GetTimeDomain(), this); | 24 DCHECK_EQ(queue->GetTimeDomain(), this); |
| 25 |
| 26 queues_.insert(queue); |
| 25 } | 27 } |
| 26 | 28 |
| 27 void TimeDomain::UnregisterQueue(internal::TaskQueueImpl* queue) { | 29 void TimeDomain::UnregisterQueue(internal::TaskQueueImpl* queue) { |
| 28 DCHECK(main_thread_checker_.CalledOnValidThread()); | 30 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 29 DCHECK_EQ(queue->GetTimeDomain(), this); | 31 DCHECK_EQ(queue->GetTimeDomain(), this); |
| 30 UnregisterAsUpdatableTaskQueue(queue); | 32 UnregisterAsUpdatableTaskQueue(queue); |
| 31 | 33 |
| 32 // If present remove |task_queue| from delayed_wakeup_multimap_. | 34 // If no wakeup has been requested then bail out. |
| 33 // O(log n) | 35 if (queue->time_domain_wakeup().is_null()) |
| 34 QueueToDelayedWakeupMultimapIteratorMap::iterator it = | |
| 35 queue_to_delayed_wakeup_multimap_iterator_map_.find(queue); | |
| 36 | |
| 37 if (it == queue_to_delayed_wakeup_multimap_iterator_map_.end()) | |
| 38 return; | 36 return; |
| 39 | 37 |
| 40 // O(1) amortized. | 38 // O(log n) |
| 41 delayed_wakeup_multimap_.erase(it->second); | 39 delayed_wakeup_set_.erase(std::make_pair(queue->time_domain_wakeup(), queue)); |
| 42 queue_to_delayed_wakeup_multimap_iterator_map_.erase(it); | 40 queue->set_time_domain_wakeup(base::TimeTicks()); |
| 41 |
| 42 queues_.erase(queue); |
| 43 } | 43 } |
| 44 | 44 |
| 45 void TimeDomain::MigrateQueue(internal::TaskQueueImpl* queue, | 45 void TimeDomain::MigrateQueue(internal::TaskQueueImpl* queue, |
| 46 TimeDomain* destination_time_domain) { | 46 TimeDomain* destination_time_domain) { |
| 47 DCHECK(main_thread_checker_.CalledOnValidThread()); | 47 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 48 DCHECK_EQ(queue->GetTimeDomain(), this); | 48 DCHECK_EQ(queue->GetTimeDomain(), this); |
| 49 DCHECK(destination_time_domain); | 49 DCHECK(destination_time_domain); |
| 50 | 50 |
| 51 // Make sure we remember to update |queue| if it's got incoming immediate | 51 // Make sure we remember to update |queue| if it's got incoming immediate |
| 52 // work. | 52 // work. |
| 53 if (UnregisterAsUpdatableTaskQueue(queue)) | 53 if (UnregisterAsUpdatableTaskQueue(queue)) |
| 54 destination_time_domain->updatable_queue_set_.insert(queue); | 54 destination_time_domain->updatable_queue_set_.insert(queue); |
| 55 | 55 |
| 56 // If present remove |task_queue| from delayed_wakeup_multimap_. | 56 // If no wakeup has been requested then bail out. |
| 57 // O(log n) | 57 if (queue->time_domain_wakeup().is_null()) |
| 58 QueueToDelayedWakeupMultimapIteratorMap::iterator it = | |
| 59 queue_to_delayed_wakeup_multimap_iterator_map_.find(queue); | |
| 60 | |
| 61 if (it == queue_to_delayed_wakeup_multimap_iterator_map_.end()) | |
| 62 return; | 58 return; |
| 63 | 59 |
| 60 // O(log n) |
| 61 delayed_wakeup_set_.erase(std::make_pair(queue->time_domain_wakeup(), queue)); |
| 62 queue->set_time_domain_wakeup(base::TimeTicks()); |
| 63 |
| 64 base::TimeTicks destination_now = destination_time_domain->Now(); | 64 base::TimeTicks destination_now = destination_time_domain->Now(); |
| 65 destination_time_domain->ScheduleDelayedWork(queue, it->second->first, | 65 destination_time_domain->ScheduleDelayedWork( |
| 66 destination_now); | 66 queue, queue->time_domain_wakeup(), destination_now); |
| 67 | |
| 68 // O(1) amortized. | |
| 69 delayed_wakeup_multimap_.erase(it->second); | |
| 70 queue_to_delayed_wakeup_multimap_iterator_map_.erase(it); | |
| 71 } | 67 } |
| 72 | 68 |
| 73 void TimeDomain::ScheduleDelayedWork(internal::TaskQueueImpl* queue, | 69 void TimeDomain::ScheduleDelayedWork(internal::TaskQueueImpl* queue, |
| 74 base::TimeTicks delayed_run_time, | 70 base::TimeTicks delayed_run_time, |
| 75 base::TimeTicks now) { | 71 base::TimeTicks now) { |
| 76 DCHECK(main_thread_checker_.CalledOnValidThread()); | 72 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 77 // We only want to store a single wakeup per queue, so we need to remove any | 73 // We only want to store a single wakeup per queue, so we need to remove any |
| 78 // previously registered wake up for |queue|. | 74 // previously registered wake up for |queue|. |
| 79 QueueToDelayedWakeupMultimapIteratorMap::iterator it = | 75 if (!queue->time_domain_wakeup().is_null()) { |
| 80 queue_to_delayed_wakeup_multimap_iterator_map_.find(queue); | 76 delayed_wakeup_set_.erase( |
| 77 std::make_pair(queue->time_domain_wakeup(), queue)); |
| 78 queue->set_time_domain_wakeup(base::TimeTicks()); |
| 79 } |
| 81 | 80 |
| 82 if (it != queue_to_delayed_wakeup_multimap_iterator_map_.end()) | 81 if (delayed_wakeup_set_.empty() || |
| 83 delayed_wakeup_multimap_.erase(it->second); | 82 delayed_run_time < delayed_wakeup_set_.begin()->first) { |
| 84 | |
| 85 if (delayed_wakeup_multimap_.empty() || | |
| 86 delayed_run_time < delayed_wakeup_multimap_.begin()->first) { | |
| 87 base::TimeDelta delay = std::max(base::TimeDelta(), delayed_run_time - now); | 83 base::TimeDelta delay = std::max(base::TimeDelta(), delayed_run_time - now); |
| 88 RequestWakeup(now, delay); | 84 RequestWakeup(now, delay); |
| 89 } | 85 } |
| 90 | 86 |
| 91 if (it != queue_to_delayed_wakeup_multimap_iterator_map_.end()) { | 87 delayed_wakeup_set_.insert(std::make_pair(delayed_run_time, queue)); |
| 92 // TODO(alexclarke): Use C++17 extract & insert to more efficiently modify | 88 queue->set_time_domain_wakeup(delayed_run_time); |
| 93 // |queue_to_delayed_wakeup_multimap_iterator_map_|. | |
| 94 it->second = delayed_wakeup_multimap_.insert({delayed_run_time, queue}); | |
| 95 } else { | |
| 96 // Insert the wakeup and store the map iterator for later convenience. | |
| 97 queue_to_delayed_wakeup_multimap_iterator_map_.insert( | |
| 98 {queue, delayed_wakeup_multimap_.insert({delayed_run_time, queue})}); | |
| 99 } | |
| 100 | 89 |
| 101 if (observer_) | 90 if (observer_) |
| 102 observer_->OnTimeDomainHasDelayedWork(queue); | 91 observer_->OnTimeDomainHasDelayedWork(queue); |
| 103 } | 92 } |
| 104 | 93 |
| 105 void TimeDomain::RegisterAsUpdatableTaskQueue(internal::TaskQueueImpl* queue) { | 94 void TimeDomain::RegisterAsUpdatableTaskQueue(internal::TaskQueueImpl* queue) { |
| 106 { | 95 { |
| 107 base::AutoLock lock(newly_updatable_lock_); | 96 base::AutoLock lock(newly_updatable_lock_); |
| 108 newly_updatable_.push_back(queue); | 97 newly_updatable_.push_back(queue); |
| 109 } | 98 } |
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| 160 updatable_queue_set_.insert(newly_updatable_.back()); | 149 updatable_queue_set_.insert(newly_updatable_.back()); |
| 161 newly_updatable_.pop_back(); | 150 newly_updatable_.pop_back(); |
| 162 } | 151 } |
| 163 } | 152 } |
| 164 | 153 |
| 165 void TimeDomain::WakeupReadyDelayedQueues(LazyNow* lazy_now) { | 154 void TimeDomain::WakeupReadyDelayedQueues(LazyNow* lazy_now) { |
| 166 DCHECK(main_thread_checker_.CalledOnValidThread()); | 155 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 167 // Wake up any queues with pending delayed work. Note std::multipmap stores | 156 // Wake up any queues with pending delayed work. Note std::multipmap stores |
| 168 // the elements sorted by key, so the begin() iterator points to the earliest | 157 // the elements sorted by key, so the begin() iterator points to the earliest |
| 169 // queue to wakeup. | 158 // queue to wakeup. |
| 170 while (!delayed_wakeup_multimap_.empty()) { | 159 while (!delayed_wakeup_set_.empty() && |
| 171 DelayedWakeupMultimap::iterator next_wakeup = | 160 delayed_wakeup_set_.begin()->first <= lazy_now->Now()) { |
| 172 delayed_wakeup_multimap_.begin(); | 161 internal::TaskQueueImpl* queue = delayed_wakeup_set_.begin()->second; |
| 173 if (next_wakeup->first > lazy_now->Now()) | 162 delayed_wakeup_set_.erase(delayed_wakeup_set_.begin()); |
| 174 break; | |
| 175 | 163 |
| 176 internal::TaskQueueImpl* queue = next_wakeup->second; | 164 queue->set_time_domain_wakeup(base::TimeTicks()); |
| 177 | |
| 178 // O(1) amortized. | |
| 179 delayed_wakeup_multimap_.erase(next_wakeup); | |
| 180 // O(log n). | |
| 181 queue_to_delayed_wakeup_multimap_iterator_map_.erase(queue); | |
| 182 | |
| 183 queue->WakeUpForDelayedWork(lazy_now); | 165 queue->WakeUpForDelayedWork(lazy_now); |
| 184 } | 166 } |
| 185 } | 167 } |
| 186 | 168 |
| 187 bool TimeDomain::NextScheduledRunTime(base::TimeTicks* out_time) const { | 169 bool TimeDomain::NextScheduledRunTime(base::TimeTicks* out_time) const { |
| 188 DCHECK(main_thread_checker_.CalledOnValidThread()); | 170 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 189 if (delayed_wakeup_multimap_.empty()) | 171 if (delayed_wakeup_set_.empty()) |
| 190 return false; | 172 return false; |
| 191 | 173 |
| 192 *out_time = delayed_wakeup_multimap_.begin()->first; | 174 *out_time = delayed_wakeup_set_.begin()->first; |
| 193 return true; | 175 return true; |
| 194 } | 176 } |
| 195 | 177 |
| 196 bool TimeDomain::NextScheduledTaskQueue(TaskQueue** out_task_queue) const { | 178 bool TimeDomain::NextScheduledTaskQueue(TaskQueue** out_task_queue) const { |
| 197 DCHECK(main_thread_checker_.CalledOnValidThread()); | 179 DCHECK(main_thread_checker_.CalledOnValidThread()); |
| 198 if (delayed_wakeup_multimap_.empty()) | 180 if (delayed_wakeup_set_.empty()) |
| 199 return false; | 181 return false; |
| 200 | 182 |
| 201 *out_task_queue = delayed_wakeup_multimap_.begin()->second; | 183 *out_task_queue = delayed_wakeup_set_.begin()->second; |
| 202 return true; | 184 return true; |
| 203 } | 185 } |
| 204 | 186 |
| 205 void TimeDomain::AsValueInto(base::trace_event::TracedValue* state) const { | 187 void TimeDomain::AsValueInto(base::trace_event::TracedValue* state) const { |
| 206 state->BeginDictionary(); | 188 state->BeginDictionary(); |
| 207 state->SetString("name", GetName()); | 189 state->SetString("name", GetName()); |
| 208 state->BeginArray("updatable_queue_set"); | 190 state->BeginArray("updatable_queue_set"); |
| 209 for (auto* queue : updatable_queue_set_) | 191 for (auto* queue : updatable_queue_set_) |
| 210 state->AppendString(queue->GetName()); | 192 state->AppendString(queue->GetName()); |
| 211 state->EndArray(); | 193 state->EndArray(); |
| 212 state->SetInteger("registered_delay_count", delayed_wakeup_multimap_.size()); | 194 state->SetInteger("registered_delay_count", delayed_wakeup_set_.size()); |
| 213 if (!delayed_wakeup_multimap_.empty()) { | 195 if (!delayed_wakeup_set_.empty()) { |
| 214 base::TimeDelta delay = delayed_wakeup_multimap_.begin()->first - Now(); | 196 base::TimeDelta delay = delayed_wakeup_set_.begin()->first - Now(); |
| 215 state->SetDouble("next_delay_ms", delay.InMillisecondsF()); | 197 state->SetDouble("next_delay_ms", delay.InMillisecondsF()); |
| 216 } | 198 } |
| 217 AsValueIntoInternal(state); | 199 AsValueIntoInternal(state); |
| 218 state->EndDictionary(); | 200 state->EndDictionary(); |
| 219 } | 201 } |
| 220 | 202 |
| 221 } // namespace scheduler | 203 } // namespace scheduler |
| 222 } // namespace blink | 204 } // namespace blink |
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