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173 lines
6.2 KiB
C++
173 lines
6.2 KiB
C++
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// Copyright 2015 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/task/sequence_manager/work_queue_sets.h"
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#include "base/logging.h"
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namespace base {
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namespace sequence_manager {
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namespace internal {
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WorkQueueSets::WorkQueueSets(size_t num_sets, const char* name)
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: work_queue_heaps_(num_sets), name_(name) {}
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WorkQueueSets::~WorkQueueSets() = default;
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void WorkQueueSets::AddQueue(WorkQueue* work_queue, size_t set_index) {
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DCHECK(!work_queue->work_queue_sets());
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DCHECK_LT(set_index, work_queue_heaps_.size());
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EnqueueOrder enqueue_order;
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bool has_enqueue_order = work_queue->GetFrontTaskEnqueueOrder(&enqueue_order);
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work_queue->AssignToWorkQueueSets(this);
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work_queue->AssignSetIndex(set_index);
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if (!has_enqueue_order)
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return;
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work_queue_heaps_[set_index].insert({enqueue_order, work_queue});
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}
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void WorkQueueSets::RemoveQueue(WorkQueue* work_queue) {
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DCHECK_EQ(this, work_queue->work_queue_sets());
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work_queue->AssignToWorkQueueSets(nullptr);
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HeapHandle heap_handle = work_queue->heap_handle();
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if (!heap_handle.IsValid())
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return;
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size_t set_index = work_queue->work_queue_set_index();
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DCHECK_LT(set_index, work_queue_heaps_.size());
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work_queue_heaps_[set_index].erase(heap_handle);
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}
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void WorkQueueSets::ChangeSetIndex(WorkQueue* work_queue, size_t set_index) {
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DCHECK_EQ(this, work_queue->work_queue_sets());
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DCHECK_LT(set_index, work_queue_heaps_.size());
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EnqueueOrder enqueue_order;
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bool has_enqueue_order = work_queue->GetFrontTaskEnqueueOrder(&enqueue_order);
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size_t old_set = work_queue->work_queue_set_index();
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DCHECK_LT(old_set, work_queue_heaps_.size());
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DCHECK_NE(old_set, set_index);
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work_queue->AssignSetIndex(set_index);
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if (!has_enqueue_order)
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return;
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work_queue_heaps_[old_set].erase(work_queue->heap_handle());
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work_queue_heaps_[set_index].insert({enqueue_order, work_queue});
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}
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void WorkQueueSets::OnFrontTaskChanged(WorkQueue* work_queue) {
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EnqueueOrder enqueue_order;
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bool has_enqueue_order = work_queue->GetFrontTaskEnqueueOrder(&enqueue_order);
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DCHECK(has_enqueue_order);
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size_t set = work_queue->work_queue_set_index();
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work_queue_heaps_[set].ChangeKey(work_queue->heap_handle(),
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{enqueue_order, work_queue});
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}
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void WorkQueueSets::OnTaskPushedToEmptyQueue(WorkQueue* work_queue) {
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// NOTE if this function changes, we need to keep |WorkQueueSets::AddQueue| in
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// sync.
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DCHECK_EQ(this, work_queue->work_queue_sets());
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EnqueueOrder enqueue_order;
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bool has_enqueue_order = work_queue->GetFrontTaskEnqueueOrder(&enqueue_order);
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DCHECK(has_enqueue_order);
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size_t set_index = work_queue->work_queue_set_index();
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DCHECK_LT(set_index, work_queue_heaps_.size())
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<< " set_index = " << set_index;
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// |work_queue| should not be in work_queue_heaps_[set_index].
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DCHECK(!work_queue->heap_handle().IsValid());
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work_queue_heaps_[set_index].insert({enqueue_order, work_queue});
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}
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void WorkQueueSets::OnPopQueue(WorkQueue* work_queue) {
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// Assume that |work_queue| contains the lowest enqueue_order.
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size_t set_index = work_queue->work_queue_set_index();
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DCHECK_EQ(this, work_queue->work_queue_sets());
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DCHECK_LT(set_index, work_queue_heaps_.size());
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DCHECK(!work_queue_heaps_[set_index].empty()) << " set_index = " << set_index;
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DCHECK_EQ(work_queue_heaps_[set_index].Min().value, work_queue)
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<< " set_index = " << set_index;
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DCHECK(work_queue->heap_handle().IsValid());
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EnqueueOrder enqueue_order;
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if (work_queue->GetFrontTaskEnqueueOrder(&enqueue_order)) {
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// O(log n)
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work_queue_heaps_[set_index].ReplaceMin({enqueue_order, work_queue});
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} else {
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// O(log n)
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work_queue_heaps_[set_index].Pop();
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DCHECK(work_queue_heaps_[set_index].empty() ||
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work_queue_heaps_[set_index].Min().value != work_queue);
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}
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}
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void WorkQueueSets::OnQueueBlocked(WorkQueue* work_queue) {
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DCHECK_EQ(this, work_queue->work_queue_sets());
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HeapHandle heap_handle = work_queue->heap_handle();
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if (!heap_handle.IsValid())
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return;
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size_t set_index = work_queue->work_queue_set_index();
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DCHECK_LT(set_index, work_queue_heaps_.size());
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work_queue_heaps_[set_index].erase(heap_handle);
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}
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bool WorkQueueSets::GetOldestQueueInSet(size_t set_index,
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WorkQueue** out_work_queue) const {
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DCHECK_LT(set_index, work_queue_heaps_.size());
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if (work_queue_heaps_[set_index].empty())
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return false;
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*out_work_queue = work_queue_heaps_[set_index].Min().value;
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DCHECK_EQ(set_index, (*out_work_queue)->work_queue_set_index());
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DCHECK((*out_work_queue)->heap_handle().IsValid());
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return true;
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}
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bool WorkQueueSets::GetOldestQueueAndEnqueueOrderInSet(
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size_t set_index,
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WorkQueue** out_work_queue,
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EnqueueOrder* out_enqueue_order) const {
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DCHECK_LT(set_index, work_queue_heaps_.size());
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if (work_queue_heaps_[set_index].empty())
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return false;
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const OldestTaskEnqueueOrder& oldest = work_queue_heaps_[set_index].Min();
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*out_work_queue = oldest.value;
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*out_enqueue_order = oldest.key;
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EnqueueOrder enqueue_order;
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DCHECK(oldest.value->GetFrontTaskEnqueueOrder(&enqueue_order) &&
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oldest.key == enqueue_order);
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return true;
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}
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bool WorkQueueSets::IsSetEmpty(size_t set_index) const {
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DCHECK_LT(set_index, work_queue_heaps_.size())
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<< " set_index = " << set_index;
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return work_queue_heaps_[set_index].empty();
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}
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#if DCHECK_IS_ON() || !defined(NDEBUG)
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bool WorkQueueSets::ContainsWorkQueueForTest(
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const WorkQueue* work_queue) const {
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EnqueueOrder enqueue_order;
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bool has_enqueue_order = work_queue->GetFrontTaskEnqueueOrder(&enqueue_order);
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for (const IntrusiveHeap<OldestTaskEnqueueOrder>& heap : work_queue_heaps_) {
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for (const OldestTaskEnqueueOrder& heap_value_pair : heap) {
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if (heap_value_pair.value == work_queue) {
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DCHECK(has_enqueue_order);
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DCHECK_EQ(heap_value_pair.key, enqueue_order);
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DCHECK_EQ(this, work_queue->work_queue_sets());
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return true;
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}
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}
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}
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if (work_queue->work_queue_sets() == this) {
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DCHECK(!has_enqueue_order);
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return true;
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}
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return false;
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}
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#endif
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} // namespace internal
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} // namespace sequence_manager
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} // namespace base
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