base/task/thread_pool/priority_queue_unittest.cc - cobalt - Git at Google

 // Copyright 2016 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/task/thread_pool/priority_queue.h"

 #include <memory>
 #include <utility>

 #include "base/functional/callback_helpers.h"
 #include "base/memory/ptr_util.h"
 #include "base/memory/ref_counted.h"
 #include "base/task/task_traits.h"
 #include "base/task/thread_pool/sequence.h"
 #include "base/task/thread_pool/task.h"
 #include "base/test/gtest_util.h"
 #include "base/test/task_environment.h"
 #include "base/time/time.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {
 namespace internal {

 namespace {

 class PriorityQueueWithSequencesTest : public testing::Test {
  protected:
   void ExpectNumSequences(size_t num_best_effort,
                           size_t num_user_visible,
                           size_t num_user_blocking) {
     EXPECT_EQ(pq.GetNumTaskSourcesWithPriority(TaskPriority::BEST_EFFORT),
               num_best_effort);
     EXPECT_EQ(pq.GetNumTaskSourcesWithPriority(TaskPriority::USER_VISIBLE),
               num_user_visible);
     EXPECT_EQ(pq.GetNumTaskSourcesWithPriority(TaskPriority::USER_BLOCKING),
               num_user_blocking);
   }

   scoped_refptr<TaskSource> MakeSequenceWithTraitsAndTask(
       const TaskTraits& traits) {
     // FastForward time to ensure that queue order between task sources is well
     // defined.
     task_environment.FastForwardBy(Microseconds(1));
     scoped_refptr<Sequence> sequence = MakeRefCounted<Sequence>(
         traits, nullptr, TaskSourceExecutionMode::kParallel);
     auto transaction = sequence->BeginTransaction();
     transaction.WillPushImmediateTask();
     transaction.PushImmediateTask(
         Task(FROM_HERE, DoNothing(), TimeTicks::Now(), TimeDelta()));
     return sequence;
   }

   void Push(scoped_refptr<TaskSource> task_source) {
     auto sort_key = task_source->GetSortKey();
     pq.Push(RegisteredTaskSource::CreateForTesting(std::move(task_source)),
             sort_key);
   }

   test::TaskEnvironment task_environment{
       test::TaskEnvironment::TimeSource::MOCK_TIME};

   scoped_refptr<TaskSource> sequence_a =
       MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::USER_VISIBLE));
   TaskSourceSortKey sort_key_a = sequence_a->GetSortKey();

   scoped_refptr<TaskSource> sequence_b =
       MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::USER_BLOCKING));
   TaskSourceSortKey sort_key_b = sequence_b->GetSortKey();

   scoped_refptr<TaskSource> sequence_c =
       MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::USER_BLOCKING));
   TaskSourceSortKey sort_key_c = sequence_c->GetSortKey();

   scoped_refptr<TaskSource> sequence_d =
       MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::BEST_EFFORT));
   TaskSourceSortKey sort_key_d = sequence_d->GetSortKey();

   PriorityQueue pq;
 };

 }  // namespace

 TEST_F(PriorityQueueWithSequencesTest, PushPopPeek) {
   EXPECT_TRUE(pq.IsEmpty());
   ExpectNumSequences(0U, 0U, 0U);

   // Push |sequence_a| in the PriorityQueue. It becomes the sequence with the
   // highest priority.
   Push(sequence_a);
   EXPECT_EQ(sort_key_a, pq.PeekSortKey());
   ExpectNumSequences(0U, 1U, 0U);

   // Push |sequence_b| in the PriorityQueue. It becomes the sequence with the
   // highest priority.
   Push(sequence_b);
   EXPECT_EQ(sort_key_b, pq.PeekSortKey());
   ExpectNumSequences(0U, 1U, 1U);

   // Push |sequence_c| in the PriorityQueue. |sequence_b| is still the sequence
   // with the highest priority.
   Push(sequence_c);
   EXPECT_EQ(sort_key_b, pq.PeekSortKey());
   ExpectNumSequences(0U, 1U, 2U);

   // Push |sequence_d| in the PriorityQueue. |sequence_b| is still the sequence
   // with the highest priority.
   Push(sequence_d);
   EXPECT_EQ(sort_key_b, pq.PeekSortKey());
   ExpectNumSequences(1U, 1U, 2U);

   // Pop |sequence_b| from the PriorityQueue. |sequence_c| becomes the sequence
   // with the highest priority.
   EXPECT_EQ(sequence_b, pq.PopTaskSource().Unregister());
   EXPECT_EQ(sort_key_c, pq.PeekSortKey());
   ExpectNumSequences(1U, 1U, 1U);

   // Pop |sequence_c| from the PriorityQueue. |sequence_a| becomes the sequence
   // with the highest priority.
   EXPECT_EQ(sequence_c, pq.PopTaskSource().Unregister());
   EXPECT_EQ(sort_key_a, pq.PeekSortKey());
   ExpectNumSequences(1U, 1U, 0U);

   // Pop |sequence_a| from the PriorityQueue. |sequence_d| becomes the sequence
   // with the highest priority.
   EXPECT_EQ(sequence_a, pq.PopTaskSource().Unregister());
   EXPECT_EQ(sort_key_d, pq.PeekSortKey());
   ExpectNumSequences(1U, 0U, 0U);

   // Pop |sequence_d| from the PriorityQueue. It is now empty.
   EXPECT_EQ(sequence_d, pq.PopTaskSource().Unregister());
   EXPECT_TRUE(pq.IsEmpty());
   ExpectNumSequences(0U, 0U, 0U);
 }

 TEST_F(PriorityQueueWithSequencesTest, RemoveSequence) {
   EXPECT_TRUE(pq.IsEmpty());

   // Push all test Sequences into the PriorityQueue. |sequence_b|
   // will be the sequence with the highest priority.
   Push(sequence_a);
   Push(sequence_b);
   Push(sequence_c);
   Push(sequence_d);
   EXPECT_EQ(sort_key_b, pq.PeekSortKey());
   ExpectNumSequences(1U, 1U, 2U);

   // Remove |sequence_a| from the PriorityQueue. |sequence_b| is still the
   // sequence with the highest priority.
   EXPECT_TRUE(pq.RemoveTaskSource(*sequence_a).Unregister());
   EXPECT_EQ(sort_key_b, pq.PeekSortKey());
   ExpectNumSequences(1U, 0U, 2U);

   // RemoveTaskSource() should return false if called on a sequence not in the
   // PriorityQueue.
   EXPECT_FALSE(pq.RemoveTaskSource(*sequence_a).Unregister());
   ExpectNumSequences(1U, 0U, 2U);

   // Remove |sequence_b| from the PriorityQueue. |sequence_c| becomes the
   // sequence with the highest priority.
   EXPECT_TRUE(pq.RemoveTaskSource(*sequence_b).Unregister());
   EXPECT_EQ(sort_key_c, pq.PeekSortKey());
   ExpectNumSequences(1U, 0U, 1U);

   // Remove |sequence_d| from the PriorityQueue. |sequence_c| is still the
   // sequence with the highest priority.
   EXPECT_TRUE(pq.RemoveTaskSource(*sequence_d).Unregister());
   EXPECT_EQ(sort_key_c, pq.PeekSortKey());
   ExpectNumSequences(0U, 0U, 1U);

   // Remove |sequence_c| from the PriorityQueue, making it empty.
   EXPECT_TRUE(pq.RemoveTaskSource(*sequence_c).Unregister());
   EXPECT_TRUE(pq.IsEmpty());
   ExpectNumSequences(0U, 0U, 0U);

   // Return false if RemoveTaskSource() is called on an empty PriorityQueue.
   EXPECT_FALSE(pq.RemoveTaskSource(*sequence_c).Unregister());
   ExpectNumSequences(0U, 0U, 0U);
 }

 TEST_F(PriorityQueueWithSequencesTest, UpdateSortKey) {
   EXPECT_TRUE(pq.IsEmpty());

   // Push all test Sequences into the PriorityQueue. |sequence_b| becomes the
   // sequence with the highest priority.
   Push(sequence_a);
   Push(sequence_b);
   Push(sequence_c);
   Push(sequence_d);
   EXPECT_EQ(sort_key_b, pq.PeekSortKey());
   ExpectNumSequences(1U, 1U, 2U);

   {
     // Downgrade |sequence_b| from USER_BLOCKING to BEST_EFFORT. |sequence_c|
     // (USER_BLOCKING priority) becomes the sequence with the highest priority.
     auto sequence_b_transaction = sequence_b->BeginTransaction();
     sequence_b_transaction.UpdatePriority(TaskPriority::BEST_EFFORT);

     pq.UpdateSortKey(*sequence_b, sequence_b->GetSortKey());
     EXPECT_EQ(sort_key_c, pq.PeekSortKey());
     ExpectNumSequences(2U, 1U, 1U);
   }

   {
     // Update |sequence_c|'s sort key to one with the same priority.
     // |sequence_c| (USER_BLOCKING priority) is still the sequence with the
     // highest priority.
     auto sequence_c_transaction = sequence_c->BeginTransaction();
     sequence_c_transaction.UpdatePriority(TaskPriority::USER_BLOCKING);

     pq.UpdateSortKey(*sequence_c, sequence_c->GetSortKey());
     ExpectNumSequences(2U, 1U, 1U);

     // Note: |sequence_c| is popped for comparison as |sort_key_c| becomes
     // obsolete. |sequence_a| (USER_VISIBLE priority) becomes the sequence with
     // the highest priority.
     EXPECT_EQ(sequence_c, pq.PopTaskSource().Unregister());
     EXPECT_EQ(sort_key_a, pq.PeekSortKey());
     ExpectNumSequences(2U, 1U, 0U);
   }

   {
     // Upgrade |sequence_d| from BEST_EFFORT to USER_BLOCKING. |sequence_d|
     // becomes the sequence with the highest priority.
     auto sequence_d_and_transaction = sequence_d->BeginTransaction();
     sequence_d_and_transaction.UpdatePriority(TaskPriority::USER_BLOCKING);

     pq.UpdateSortKey(*sequence_d, sequence_d->GetSortKey());
     ExpectNumSequences(1U, 1U, 1U);

     // Note: |sequence_d| is popped for comparison as |sort_key_d| becomes
     // obsolete.
     EXPECT_EQ(sequence_d, pq.PopTaskSource().Unregister());
     // No-op if UpdateSortKey() is called on a Sequence not in the
     // PriorityQueue.
     EXPECT_EQ(sort_key_a, pq.PeekSortKey());
     ExpectNumSequences(1U, 1U, 0U);
   }

   {
     pq.UpdateSortKey(*sequence_d, sequence_d->GetSortKey());
     ExpectNumSequences(1U, 1U, 0U);
     EXPECT_EQ(sequence_a, pq.PopTaskSource().Unregister());
     ExpectNumSequences(1U, 0U, 0U);
     EXPECT_EQ(sequence_b, pq.PopTaskSource().Unregister());
     ExpectNumSequences(0U, 0U, 0U);
   }

   {
     // No-op if UpdateSortKey() is called on an empty PriorityQueue.
     pq.UpdateSortKey(*sequence_b, sequence_b->GetSortKey());
     EXPECT_TRUE(pq.IsEmpty());
     ExpectNumSequences(0U, 0U, 0U);
   }
 }

 }  // namespace internal
 }  // namespace base
	// Copyright 2016 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/task/thread_pool/priority_queue.h"

	#include <memory>
	#include <utility>

	#include "base/functional/callback_helpers.h"
	#include "base/memory/ptr_util.h"
	#include "base/memory/ref_counted.h"
	#include "base/task/task_traits.h"
	#include "base/task/thread_pool/sequence.h"
	#include "base/task/thread_pool/task.h"
	#include "base/test/gtest_util.h"
	#include "base/test/task_environment.h"
	#include "base/time/time.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {
	namespace internal {

	namespace {

	class PriorityQueueWithSequencesTest : public testing::Test {
	protected:
	void ExpectNumSequences(size_t num_best_effort,
	size_t num_user_visible,
	size_t num_user_blocking) {
	EXPECT_EQ(pq.GetNumTaskSourcesWithPriority(TaskPriority::BEST_EFFORT),
	num_best_effort);
	EXPECT_EQ(pq.GetNumTaskSourcesWithPriority(TaskPriority::USER_VISIBLE),
	num_user_visible);
	EXPECT_EQ(pq.GetNumTaskSourcesWithPriority(TaskPriority::USER_BLOCKING),
	num_user_blocking);
	}

	scoped_refptr<TaskSource> MakeSequenceWithTraitsAndTask(
	const TaskTraits& traits) {
	// FastForward time to ensure that queue order between task sources is well
	// defined.
	task_environment.FastForwardBy(Microseconds(1));
	scoped_refptr<Sequence> sequence = MakeRefCounted<Sequence>(
	traits, nullptr, TaskSourceExecutionMode::kParallel);
	auto transaction = sequence->BeginTransaction();
	transaction.WillPushImmediateTask();
	transaction.PushImmediateTask(
	Task(FROM_HERE, DoNothing(), TimeTicks::Now(), TimeDelta()));
	return sequence;
	}

	void Push(scoped_refptr<TaskSource> task_source) {
	auto sort_key = task_source->GetSortKey();
	pq.Push(RegisteredTaskSource::CreateForTesting(std::move(task_source)),
	sort_key);
	}

	test::TaskEnvironment task_environment{
	test::TaskEnvironment::TimeSource::MOCK_TIME};

	scoped_refptr<TaskSource> sequence_a =
	MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::USER_VISIBLE));
	TaskSourceSortKey sort_key_a = sequence_a->GetSortKey();

	scoped_refptr<TaskSource> sequence_b =
	MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::USER_BLOCKING));
	TaskSourceSortKey sort_key_b = sequence_b->GetSortKey();

	scoped_refptr<TaskSource> sequence_c =
	MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::USER_BLOCKING));
	TaskSourceSortKey sort_key_c = sequence_c->GetSortKey();

	scoped_refptr<TaskSource> sequence_d =
	MakeSequenceWithTraitsAndTask(TaskTraits(TaskPriority::BEST_EFFORT));
	TaskSourceSortKey sort_key_d = sequence_d->GetSortKey();

	PriorityQueue pq;
	};

	} // namespace

	TEST_F(PriorityQueueWithSequencesTest, PushPopPeek) {
	EXPECT_TRUE(pq.IsEmpty());
	ExpectNumSequences(0U, 0U, 0U);

	// Push \|sequence_a\| in the PriorityQueue. It becomes the sequence with the
	// highest priority.
	Push(sequence_a);
	EXPECT_EQ(sort_key_a, pq.PeekSortKey());
	ExpectNumSequences(0U, 1U, 0U);

	// Push \|sequence_b\| in the PriorityQueue. It becomes the sequence with the
	// highest priority.
	Push(sequence_b);
	EXPECT_EQ(sort_key_b, pq.PeekSortKey());
	ExpectNumSequences(0U, 1U, 1U);

	// Push \|sequence_c\| in the PriorityQueue. \|sequence_b\| is still the sequence
	// with the highest priority.
	Push(sequence_c);
	EXPECT_EQ(sort_key_b, pq.PeekSortKey());
	ExpectNumSequences(0U, 1U, 2U);

	// Push \|sequence_d\| in the PriorityQueue. \|sequence_b\| is still the sequence
	// with the highest priority.
	Push(sequence_d);
	EXPECT_EQ(sort_key_b, pq.PeekSortKey());
	ExpectNumSequences(1U, 1U, 2U);

	// Pop \|sequence_b\| from the PriorityQueue. \|sequence_c\| becomes the sequence
	// with the highest priority.
	EXPECT_EQ(sequence_b, pq.PopTaskSource().Unregister());
	EXPECT_EQ(sort_key_c, pq.PeekSortKey());
	ExpectNumSequences(1U, 1U, 1U);

	// Pop \|sequence_c\| from the PriorityQueue. \|sequence_a\| becomes the sequence
	// with the highest priority.
	EXPECT_EQ(sequence_c, pq.PopTaskSource().Unregister());
	EXPECT_EQ(sort_key_a, pq.PeekSortKey());
	ExpectNumSequences(1U, 1U, 0U);

	// Pop \|sequence_a\| from the PriorityQueue. \|sequence_d\| becomes the sequence
	// with the highest priority.
	EXPECT_EQ(sequence_a, pq.PopTaskSource().Unregister());
	EXPECT_EQ(sort_key_d, pq.PeekSortKey());
	ExpectNumSequences(1U, 0U, 0U);

	// Pop \|sequence_d\| from the PriorityQueue. It is now empty.
	EXPECT_EQ(sequence_d, pq.PopTaskSource().Unregister());
	EXPECT_TRUE(pq.IsEmpty());
	ExpectNumSequences(0U, 0U, 0U);
	}

	TEST_F(PriorityQueueWithSequencesTest, RemoveSequence) {
	EXPECT_TRUE(pq.IsEmpty());

	// Push all test Sequences into the PriorityQueue. \|sequence_b\|
	// will be the sequence with the highest priority.
	Push(sequence_a);
	Push(sequence_b);
	Push(sequence_c);
	Push(sequence_d);
	EXPECT_EQ(sort_key_b, pq.PeekSortKey());
	ExpectNumSequences(1U, 1U, 2U);

	// Remove \|sequence_a\| from the PriorityQueue. \|sequence_b\| is still the
	// sequence with the highest priority.
	EXPECT_TRUE(pq.RemoveTaskSource(*sequence_a).Unregister());
	EXPECT_EQ(sort_key_b, pq.PeekSortKey());
	ExpectNumSequences(1U, 0U, 2U);

	// RemoveTaskSource() should return false if called on a sequence not in the
	// PriorityQueue.
	EXPECT_FALSE(pq.RemoveTaskSource(*sequence_a).Unregister());
	ExpectNumSequences(1U, 0U, 2U);

	// Remove \|sequence_b\| from the PriorityQueue. \|sequence_c\| becomes the
	// sequence with the highest priority.
	EXPECT_TRUE(pq.RemoveTaskSource(*sequence_b).Unregister());
	EXPECT_EQ(sort_key_c, pq.PeekSortKey());
	ExpectNumSequences(1U, 0U, 1U);

	// Remove \|sequence_d\| from the PriorityQueue. \|sequence_c\| is still the
	// sequence with the highest priority.
	EXPECT_TRUE(pq.RemoveTaskSource(*sequence_d).Unregister());
	EXPECT_EQ(sort_key_c, pq.PeekSortKey());
	ExpectNumSequences(0U, 0U, 1U);

	// Remove \|sequence_c\| from the PriorityQueue, making it empty.
	EXPECT_TRUE(pq.RemoveTaskSource(*sequence_c).Unregister());
	EXPECT_TRUE(pq.IsEmpty());
	ExpectNumSequences(0U, 0U, 0U);

	// Return false if RemoveTaskSource() is called on an empty PriorityQueue.
	EXPECT_FALSE(pq.RemoveTaskSource(*sequence_c).Unregister());
	ExpectNumSequences(0U, 0U, 0U);
	}

	TEST_F(PriorityQueueWithSequencesTest, UpdateSortKey) {
	EXPECT_TRUE(pq.IsEmpty());

	// Push all test Sequences into the PriorityQueue. \|sequence_b\| becomes the
	// sequence with the highest priority.
	Push(sequence_a);
	Push(sequence_b);
	Push(sequence_c);
	Push(sequence_d);
	EXPECT_EQ(sort_key_b, pq.PeekSortKey());
	ExpectNumSequences(1U, 1U, 2U);

	{
	// Downgrade \|sequence_b\| from USER_BLOCKING to BEST_EFFORT. \|sequence_c\|
	// (USER_BLOCKING priority) becomes the sequence with the highest priority.
	auto sequence_b_transaction = sequence_b->BeginTransaction();
	sequence_b_transaction.UpdatePriority(TaskPriority::BEST_EFFORT);

	pq.UpdateSortKey(*sequence_b, sequence_b->GetSortKey());
	EXPECT_EQ(sort_key_c, pq.PeekSortKey());
	ExpectNumSequences(2U, 1U, 1U);
	}

	{
	// Update \|sequence_c\|'s sort key to one with the same priority.
	// \|sequence_c\| (USER_BLOCKING priority) is still the sequence with the
	// highest priority.
	auto sequence_c_transaction = sequence_c->BeginTransaction();
	sequence_c_transaction.UpdatePriority(TaskPriority::USER_BLOCKING);

	pq.UpdateSortKey(*sequence_c, sequence_c->GetSortKey());
	ExpectNumSequences(2U, 1U, 1U);

	// Note: \|sequence_c\| is popped for comparison as \|sort_key_c\| becomes
	// obsolete. \|sequence_a\| (USER_VISIBLE priority) becomes the sequence with
	// the highest priority.
	EXPECT_EQ(sequence_c, pq.PopTaskSource().Unregister());
	EXPECT_EQ(sort_key_a, pq.PeekSortKey());
	ExpectNumSequences(2U, 1U, 0U);
	}

	{
	// Upgrade \|sequence_d\| from BEST_EFFORT to USER_BLOCKING. \|sequence_d\|
	// becomes the sequence with the highest priority.
	auto sequence_d_and_transaction = sequence_d->BeginTransaction();
	sequence_d_and_transaction.UpdatePriority(TaskPriority::USER_BLOCKING);

	pq.UpdateSortKey(*sequence_d, sequence_d->GetSortKey());
	ExpectNumSequences(1U, 1U, 1U);

	// Note: \|sequence_d\| is popped for comparison as \|sort_key_d\| becomes
	// obsolete.
	EXPECT_EQ(sequence_d, pq.PopTaskSource().Unregister());
	// No-op if UpdateSortKey() is called on a Sequence not in the
	// PriorityQueue.
	EXPECT_EQ(sort_key_a, pq.PeekSortKey());
	ExpectNumSequences(1U, 1U, 0U);
	}

	{
	pq.UpdateSortKey(*sequence_d, sequence_d->GetSortKey());
	ExpectNumSequences(1U, 1U, 0U);
	EXPECT_EQ(sequence_a, pq.PopTaskSource().Unregister());
	ExpectNumSequences(1U, 0U, 0U);
	EXPECT_EQ(sequence_b, pq.PopTaskSource().Unregister());
	ExpectNumSequences(0U, 0U, 0U);
	}

	{
	// No-op if UpdateSortKey() is called on an empty PriorityQueue.
	pq.UpdateSortKey(*sequence_b, sequence_b->GetSortKey());
	EXPECT_TRUE(pq.IsEmpty());
	ExpectNumSequences(0U, 0U, 0U);
	}
	}

	} // namespace internal
	} // namespace base