task/sequence_manager/task_order_unittest.cc - chromium/src/base - Git at Google

 // Copyright 2021 The Chromium 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 "base/task/sequence_manager/task_order.h"

 #include "base/task/sequence_manager/enqueue_order.h"
 #include "base/time/time.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "third_party/abseil-cpp/absl/types/optional.h"

 namespace base {
 namespace sequence_manager {

 class TaskOrderTest : public testing::Test {
  protected:
   static TaskOrder MakeImmediateTaskOrder(int enqueue_order) {
     return MakeTaskOrder(enqueue_order, TimeTicks(), enqueue_order);
   }

   static TaskOrder MakeDelayedTaskOrder(int enqueue_order,
                                         TimeTicks delayed_run_time,
                                         int sequence_num) {
     return MakeTaskOrder(enqueue_order, delayed_run_time, sequence_num);
   }

   void ExpectLessThan(TaskOrder& order1, TaskOrder& order2) {
     EXPECT_TRUE(order1 < order2);
     EXPECT_TRUE(order1 <= order2);
     EXPECT_FALSE(order1 == order2);
     EXPECT_TRUE(order1 != order2);
     EXPECT_FALSE(order1 >= order2);
     EXPECT_FALSE(order1 > order2);

     EXPECT_FALSE(order2 < order1);
     EXPECT_FALSE(order2 <= order1);
     EXPECT_FALSE(order2 == order1);
     EXPECT_TRUE(order1 != order2);
     EXPECT_TRUE(order2 >= order1);
     EXPECT_TRUE(order2 > order1);
   }

   void ExpectEqual(TaskOrder& order1, TaskOrder& order2) {
     EXPECT_FALSE(order1 < order2);
     EXPECT_TRUE(order1 <= order2);
     EXPECT_TRUE(order1 == order2);
     EXPECT_FALSE(order1 != order2);
     EXPECT_TRUE(order1 >= order2);
     EXPECT_FALSE(order1 > order2);

     EXPECT_FALSE(order2 < order1);
     EXPECT_TRUE(order2 <= order1);
     EXPECT_TRUE(order2 == order1);
     EXPECT_FALSE(order1 != order2);
     EXPECT_TRUE(order2 >= order1);
     EXPECT_FALSE(order2 > order1);
   }

  private:
   static TaskOrder MakeTaskOrder(int enqueue_order,
                                  TimeTicks delayed_run_time,
                                  int sequence_num) {
     return TaskOrder::CreateForTesting(
         EnqueueOrder::FromIntForTesting(enqueue_order), delayed_run_time,
         sequence_num);
   }
 };

 TEST_F(TaskOrderTest, ImmediateTasksNotEqual) {
   TaskOrder order1 = MakeImmediateTaskOrder(/*enqueue_order=*/10);
   TaskOrder order2 = MakeImmediateTaskOrder(/*enqueue_order=*/11);

   ExpectLessThan(order1, order2);
 }

 TEST_F(TaskOrderTest, ImmediateTasksEqual) {
   TaskOrder order1 = MakeImmediateTaskOrder(/*enqueue_order=*/10);
   TaskOrder order2 = MakeImmediateTaskOrder(/*enqueue_order=*/10);

   ExpectEqual(order1, order2);
 }

 TEST_F(TaskOrderTest, DelayedTasksOrderedByEnqueueNumberFirst) {
   // Enqueued earlier but has and a later delayed run time and posting order.
   TaskOrder order1 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(2),
       /*sequence_num=*/2);
   TaskOrder order2 = MakeDelayedTaskOrder(
       /*enqueue_order=*/11, /*delayed_run_time=*/TimeTicks() + Seconds(1),
       /*sequence_num=*/1);

   ExpectLessThan(order1, order2);
 }

 TEST_F(TaskOrderTest, DelayedTasksSameEnqueueOrder) {
   TaskOrder order1 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(1),
       /*sequence_num=*/2);
   TaskOrder order2 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(2),
       /*sequence_num=*/1);

   ExpectLessThan(order1, order2);
 }

 TEST_F(TaskOrderTest, DelayedTasksSameEnqueueOrderAndRunTime) {
   TaskOrder order1 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(1),
       /*sequence_num=*/1);
   TaskOrder order2 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(1),
       /*sequence_num=*/2);

   ExpectLessThan(order1, order2);
 }

 TEST_F(TaskOrderTest, DelayedTasksEqual) {
   TaskOrder order1 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(1),
       /*sequence_num=*/1);
   TaskOrder order2 = MakeDelayedTaskOrder(
       /*enqueue_order=*/10, /*delayed_run_time=*/TimeTicks() + Seconds(1),
       /*sequence_num=*/1);

   ExpectEqual(order1, order2);
 }

 }  // namespace sequence_manager
 }  // namespace base
	// Copyright 2021 The Chromium 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 "base/task/sequence_manager/task_order.h"

	#include "base/task/sequence_manager/enqueue_order.h"
	#include "base/time/time.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "third_party/abseil-cpp/absl/types/optional.h"

	namespace base {
	namespace sequence_manager {

	class TaskOrderTest : public testing::Test {
	protected:
	static TaskOrder MakeImmediateTaskOrder(int enqueue_order) {
	return MakeTaskOrder(enqueue_order, TimeTicks(), enqueue_order);
	}

	static TaskOrder MakeDelayedTaskOrder(int enqueue_order,
	TimeTicks delayed_run_time,
	int sequence_num) {
	return MakeTaskOrder(enqueue_order, delayed_run_time, sequence_num);
	}

	void ExpectLessThan(TaskOrder& order1, TaskOrder& order2) {
	EXPECT_TRUE(order1 < order2);
	EXPECT_TRUE(order1 <= order2);
	EXPECT_FALSE(order1 == order2);
	EXPECT_TRUE(order1 != order2);
	EXPECT_FALSE(order1 >= order2);
	EXPECT_FALSE(order1 > order2);

	EXPECT_FALSE(order2 < order1);
	EXPECT_FALSE(order2 <= order1);
	EXPECT_FALSE(order2 == order1);
	EXPECT_TRUE(order1 != order2);
	EXPECT_TRUE(order2 >= order1);
	EXPECT_TRUE(order2 > order1);
	}

	void ExpectEqual(TaskOrder& order1, TaskOrder& order2) {
	EXPECT_FALSE(order1 < order2);
	EXPECT_TRUE(order1 <= order2);
	EXPECT_TRUE(order1 == order2);
	EXPECT_FALSE(order1 != order2);
	EXPECT_TRUE(order1 >= order2);
	EXPECT_FALSE(order1 > order2);

	EXPECT_FALSE(order2 < order1);
	EXPECT_TRUE(order2 <= order1);
	EXPECT_TRUE(order2 == order1);
	EXPECT_FALSE(order1 != order2);
	EXPECT_TRUE(order2 >= order1);
	EXPECT_FALSE(order2 > order1);
	}

	private:
	static TaskOrder MakeTaskOrder(int enqueue_order,
	TimeTicks delayed_run_time,
	int sequence_num) {
	return TaskOrder::CreateForTesting(
	EnqueueOrder::FromIntForTesting(enqueue_order), delayed_run_time,
	sequence_num);
	}
	};

	TEST_F(TaskOrderTest, ImmediateTasksNotEqual) {
	TaskOrder order1 = MakeImmediateTaskOrder(/enqueue_order=/10);
	TaskOrder order2 = MakeImmediateTaskOrder(/enqueue_order=/11);

	ExpectLessThan(order1, order2);
	}

	TEST_F(TaskOrderTest, ImmediateTasksEqual) {
	TaskOrder order1 = MakeImmediateTaskOrder(/enqueue_order=/10);
	TaskOrder order2 = MakeImmediateTaskOrder(/enqueue_order=/10);

	ExpectEqual(order1, order2);
	}

	TEST_F(TaskOrderTest, DelayedTasksOrderedByEnqueueNumberFirst) {
	// Enqueued earlier but has and a later delayed run time and posting order.
	TaskOrder order1 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(2),
	/sequence_num=/2);
	TaskOrder order2 = MakeDelayedTaskOrder(
	/enqueue_order=/11, /delayed_run_time=/TimeTicks() + Seconds(1),
	/sequence_num=/1);

	ExpectLessThan(order1, order2);
	}

	TEST_F(TaskOrderTest, DelayedTasksSameEnqueueOrder) {
	TaskOrder order1 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(1),
	/sequence_num=/2);
	TaskOrder order2 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(2),
	/sequence_num=/1);

	ExpectLessThan(order1, order2);
	}

	TEST_F(TaskOrderTest, DelayedTasksSameEnqueueOrderAndRunTime) {
	TaskOrder order1 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(1),
	/sequence_num=/1);
	TaskOrder order2 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(1),
	/sequence_num=/2);

	ExpectLessThan(order1, order2);
	}

	TEST_F(TaskOrderTest, DelayedTasksEqual) {
	TaskOrder order1 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(1),
	/sequence_num=/1);
	TaskOrder order2 = MakeDelayedTaskOrder(
	/enqueue_order=/10, /delayed_run_time=/TimeTicks() + Seconds(1),
	/sequence_num=/1);

	ExpectEqual(order1, order2);
	}

	} // namespace sequence_manager
	} // namespace base