third_party/WebKit/Source/platform/TimerTest.cpp - chromium/src - Git at Google

 // Copyright 2015 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 "platform/Timer.h"

 #include "platform/scheduler/base/task_queue_impl.h"
 #include "platform/scheduler/child/web_task_runner_impl.h"
 #include "platform/scheduler/renderer/renderer_scheduler_impl.h"
 #include "platform/testing/TestingPlatformSupport.h"
 #include "public/platform/Platform.h"
 #include "public/platform/WebScheduler.h"
 #include "public/platform/WebThread.h"
 #include "public/platform/WebViewScheduler.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "wtf/CurrentTime.h"
 #include "wtf/PtrUtil.h"
 #include "wtf/RefCounted.h"
 #include <memory>
 #include <queue>

 using testing::ElementsAre;

 namespace blink {
 namespace {

 class TimerTest : public testing::Test {
  public:
   void SetUp() override {
     m_runTimes.clear();
     m_platform.advanceClockSeconds(10.0);
     m_startTime = monotonicallyIncreasingTime();
   }

   void countingTask(TimerBase*) {
     m_runTimes.append(monotonicallyIncreasingTime());
   }

   void recordNextFireTimeTask(TimerBase* timer) {
     m_nextFireTimes.append(monotonicallyIncreasingTime() +
                            timer->nextFireInterval());
   }

   void runUntilDeadline(double deadline) {
     double period = deadline - monotonicallyIncreasingTime();
     EXPECT_GE(period, 0.0);
     m_platform.runForPeriodSeconds(period);
   }

   // Returns false if there are no pending delayed tasks, otherwise sets |time|
   // to the delay in seconds till the next pending delayed task is scheduled to
   // fire.
   bool timeTillNextDelayedTask(double* time) const {
     base::TimeTicks nextRunTime;
     if (!m_platform.rendererScheduler()
              ->TimerTaskRunner()
              ->GetTimeDomain()
              ->NextScheduledRunTime(&nextRunTime))
       return false;
     *time = (nextRunTime -
              m_platform.rendererScheduler()
                  ->TimerTaskRunner()
                  ->GetTimeDomain()
                  ->Now())
                 .InSecondsF();
     return true;
   }

  protected:
   double m_startTime;
   WTF::Vector<double> m_runTimes;
   WTF::Vector<double> m_nextFireTimes;
   TestingPlatformSupportWithMockScheduler m_platform;
 };

 TEST_F(TimerTest, StartOneShot_Zero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime));
 }

 TEST_F(TimerTest, StartOneShot_ZeroAndCancel) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

   timer.stop();

   m_platform.runUntilIdle();
   EXPECT_FALSE(m_runTimes.size());
 }

 TEST_F(TimerTest, StartOneShot_ZeroAndCancelThenRepost) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

   timer.stop();

   m_platform.runUntilIdle();
   EXPECT_FALSE(m_runTimes.size());

   timer.startOneShot(0, BLINK_FROM_HERE);

   EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime));
 }

 TEST_F(TimerTest, StartOneShot_Zero_RepostingAfterRunning) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime));

   timer.startOneShot(0, BLINK_FROM_HERE);

   EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime, m_startTime));
 }

 TEST_F(TimerTest, StartOneShot_NonZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10.0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(10.0, runTime);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));
 }

 TEST_F(TimerTest, StartOneShot_NonZeroAndCancel) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(10.0, runTime);

   timer.stop();
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));

   m_platform.runUntilIdle();
   EXPECT_FALSE(m_runTimes.size());
 }

 TEST_F(TimerTest, StartOneShot_NonZeroAndCancelThenRepost) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(10.0, runTime);

   timer.stop();
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));

   m_platform.runUntilIdle();
   EXPECT_FALSE(m_runTimes.size());

   double secondPostTime = monotonicallyIncreasingTime();
   timer.startOneShot(10, BLINK_FROM_HERE);

   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(10.0, runTime);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(secondPostTime + 10.0));
 }

 TEST_F(TimerTest, StartOneShot_NonZero_RepostingAfterRunning) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(10.0, runTime);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));

   timer.startOneShot(20, BLINK_FROM_HERE);

   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(20.0, runTime);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0, m_startTime + 30.0));
 }

 TEST_F(TimerTest, PostingTimerTwiceWithSameRunTimeDoesNothing) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);
   timer.startOneShot(10, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(10.0, runTime);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));
 }

 TEST_F(TimerTest, PostingTimerTwiceWithNewerRunTimeCancelsOriginalTask) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);
   timer.startOneShot(0, BLINK_FROM_HERE);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 0.0));
 }

 TEST_F(TimerTest, PostingTimerTwiceWithLaterRunTimeCancelsOriginalTask) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);
   timer.startOneShot(10, BLINK_FROM_HERE);

   m_platform.runUntilIdle();
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));
 }

 TEST_F(TimerTest, StartRepeatingTask) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(1.0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(1.0, runTime);

   runUntilDeadline(m_startTime + 5.5);
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0,
                                       m_startTime + 3.0, m_startTime + 4.0,
                                       m_startTime + 5.0));
 }

 TEST_F(TimerTest, StartRepeatingTask_ThenCancel) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(1.0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(1.0, runTime);

   runUntilDeadline(m_startTime + 2.5);
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0));

   timer.stop();
   m_platform.runUntilIdle();

   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0));
 }

 TEST_F(TimerTest, StartRepeatingTask_ThenPostOneShot) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(1.0, BLINK_FROM_HERE);

   double runTime;
   EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
   EXPECT_FLOAT_EQ(1.0, runTime);

   runUntilDeadline(m_startTime + 2.5);
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0));

   timer.startOneShot(0, BLINK_FROM_HERE);
   m_platform.runUntilIdle();

   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0,
                                       m_startTime + 2.5));
 }

 TEST_F(TimerTest, IsActive_NeverPosted) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);

   EXPECT_FALSE(timer.isActive());
 }

 TEST_F(TimerTest, IsActive_AfterPosting_OneShotZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   EXPECT_TRUE(timer.isActive());
 }

 TEST_F(TimerTest, IsActive_AfterPosting_OneShotNonZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   EXPECT_TRUE(timer.isActive());
 }

 TEST_F(TimerTest, IsActive_AfterPosting_Repeating) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(1.0, BLINK_FROM_HERE);

   EXPECT_TRUE(timer.isActive());
 }

 TEST_F(TimerTest, IsActive_AfterRunning_OneShotZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   m_platform.runUntilIdle();
   EXPECT_FALSE(timer.isActive());
 }

 TEST_F(TimerTest, IsActive_AfterRunning_OneShotNonZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   m_platform.runUntilIdle();
   EXPECT_FALSE(timer.isActive());
 }

 TEST_F(TimerTest, IsActive_AfterRunning_Repeating) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(1.0, BLINK_FROM_HERE);

   runUntilDeadline(m_startTime + 10);
   EXPECT_TRUE(timer.isActive());  // It should run until cancelled.
 }

 TEST_F(TimerTest, NextFireInterval_OneShotZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   EXPECT_FLOAT_EQ(0.0, timer.nextFireInterval());
 }

 TEST_F(TimerTest, NextFireInterval_OneShotNonZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   EXPECT_FLOAT_EQ(10.0, timer.nextFireInterval());
 }

 TEST_F(TimerTest, NextFireInterval_OneShotNonZero_AfterAFewSeconds) {
   m_platform.setAutoAdvanceNowToPendingTasks(false);

   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   m_platform.advanceClockSeconds(2.0);
   EXPECT_FLOAT_EQ(8.0, timer.nextFireInterval());
 }

 TEST_F(TimerTest, NextFireInterval_Repeating) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(20, BLINK_FROM_HERE);

   EXPECT_FLOAT_EQ(20.0, timer.nextFireInterval());
 }

 TEST_F(TimerTest, RepeatInterval_NeverStarted) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);

   EXPECT_FLOAT_EQ(0.0, timer.repeatInterval());
 }

 TEST_F(TimerTest, RepeatInterval_OneShotZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   EXPECT_FLOAT_EQ(0.0, timer.repeatInterval());
 }

 TEST_F(TimerTest, RepeatInterval_OneShotNonZero) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startOneShot(10, BLINK_FROM_HERE);

   EXPECT_FLOAT_EQ(0.0, timer.repeatInterval());
 }

 TEST_F(TimerTest, RepeatInterval_Repeating) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(20, BLINK_FROM_HERE);

   EXPECT_FLOAT_EQ(20.0, timer.repeatInterval());
 }

 TEST_F(TimerTest, AugmentRepeatInterval) {
   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(10, BLINK_FROM_HERE);
   EXPECT_FLOAT_EQ(10.0, timer.repeatInterval());
   EXPECT_FLOAT_EQ(10.0, timer.nextFireInterval());

   m_platform.advanceClockSeconds(2.0);
   timer.augmentRepeatInterval(10);

   EXPECT_FLOAT_EQ(20.0, timer.repeatInterval());
   EXPECT_FLOAT_EQ(18.0, timer.nextFireInterval());

   // NOTE setAutoAdvanceNowToPendingTasks(true) (which uses
   // cc::OrderedSimpleTaskRunner) results in somewhat strange behavior of the
   // test clock which breaks this test.  Specifically the test clock advancing
   // logic ignores newly posted delayed tasks and advances too far.
   runUntilDeadline(m_startTime + 50.0);
   EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 20.0, m_startTime + 40.0));
 }

 TEST_F(TimerTest, AugmentRepeatInterval_TimerFireDelayed) {
   m_platform.setAutoAdvanceNowToPendingTasks(false);

   Timer<TimerTest> timer(this, &TimerTest::countingTask);
   timer.startRepeating(10, BLINK_FROM_HERE);
   EXPECT_FLOAT_EQ(10.0, timer.repeatInterval());
   EXPECT_FLOAT_EQ(10.0, timer.nextFireInterval());

   m_platform.advanceClockSeconds(123.0);  // Make the timer long overdue.
   timer.augmentRepeatInterval(10);

   EXPECT_FLOAT_EQ(20.0, timer.repeatInterval());
   // The timer is overdue so it should be scheduled to fire immediatly.
   EXPECT_FLOAT_EQ(0.0, timer.nextFireInterval());
 }

 TEST_F(TimerTest, RepeatingTimerDoesNotDrift) {
   m_platform.setAutoAdvanceNowToPendingTasks(false);

   Timer<TimerTest> timer(this, &TimerTest::recordNextFireTimeTask);
   timer.startRepeating(2.0, BLINK_FROM_HERE);

   recordNextFireTimeTask(
       &timer);  // Next scheduled task to run at m_startTime + 2.0

   // Simulate timer firing early. Next scheduled task to run at
   // m_startTime + 4.0
   m_platform.advanceClockSeconds(1.9);
   runUntilDeadline(monotonicallyIncreasingTime() + 0.2);

   // Next scheduled task to run at m_startTime + 6.0
   m_platform.runForPeriodSeconds(2.0);
   // Next scheduled task to run at m_startTime + 8.0
   m_platform.runForPeriodSeconds(2.1);
   // Next scheduled task to run at m_startTime + 10.0
   m_platform.runForPeriodSeconds(2.9);
   // Next scheduled task to run at m_startTime + 14.0 (skips a beat)
   m_platform.advanceClockSeconds(3.1);
   m_platform.runUntilIdle();
   // Next scheduled task to run at m_startTime + 18.0 (skips a beat)
   m_platform.advanceClockSeconds(4.0);
   m_platform.runUntilIdle();
   // Next scheduled task to run at m_startTime + 28.0 (skips 5 beats)
   m_platform.advanceClockSeconds(10.0);
   m_platform.runUntilIdle();

   EXPECT_THAT(
       m_nextFireTimes,
       ElementsAre(m_startTime + 2.0, m_startTime + 4.0, m_startTime + 6.0,
                   m_startTime + 8.0, m_startTime + 10.0, m_startTime + 14.0,
                   m_startTime + 18.0, m_startTime + 28.0));
 }

 template <typename TimerFiredClass>
 class TimerForTest : public TaskRunnerTimer<TimerFiredClass> {
  public:
   using TimerFiredFunction =
       typename TaskRunnerTimer<TimerFiredClass>::TimerFiredFunction;

   ~TimerForTest() override {}

   TimerForTest(WebTaskRunner* webTaskRunner,
                TimerFiredClass* timerFiredClass,
                TimerFiredFunction timerFiredFunction)
       : TaskRunnerTimer<TimerFiredClass>(webTaskRunner,
                                          timerFiredClass,
                                          timerFiredFunction) {}
 };

 TEST_F(TimerTest, UserSuppliedWebTaskRunner) {
   scoped_refptr<scheduler::TaskQueue> taskRunner(
       m_platform.rendererScheduler()->NewTimerTaskRunner(
           scheduler::TaskQueue::QueueType::TEST));
   scheduler::WebTaskRunnerImpl webTaskRunner(taskRunner);
   TimerForTest<TimerTest> timer(&webTaskRunner, this, &TimerTest::countingTask);
   timer.startOneShot(0, BLINK_FROM_HERE);

   // Make sure the task was posted on taskRunner.
   EXPECT_FALSE(taskRunner->IsEmpty());
 }

 }  // namespace
 }  // namespace blink
	// Copyright 2015 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 "platform/Timer.h"

	#include "platform/scheduler/base/task_queue_impl.h"
	#include "platform/scheduler/child/web_task_runner_impl.h"
	#include "platform/scheduler/renderer/renderer_scheduler_impl.h"
	#include "platform/testing/TestingPlatformSupport.h"
	#include "public/platform/Platform.h"
	#include "public/platform/WebScheduler.h"
	#include "public/platform/WebThread.h"
	#include "public/platform/WebViewScheduler.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "wtf/CurrentTime.h"
	#include "wtf/PtrUtil.h"
	#include "wtf/RefCounted.h"
	#include <memory>
	#include <queue>

	using testing::ElementsAre;

	namespace blink {
	namespace {

	class TimerTest : public testing::Test {
	public:
	void SetUp() override {
	m_runTimes.clear();
	m_platform.advanceClockSeconds(10.0);
	m_startTime = monotonicallyIncreasingTime();
	}

	void countingTask(TimerBase*) {
	m_runTimes.append(monotonicallyIncreasingTime());
	}

	void recordNextFireTimeTask(TimerBase* timer) {
	m_nextFireTimes.append(monotonicallyIncreasingTime() +
	timer->nextFireInterval());
	}

	void runUntilDeadline(double deadline) {
	double period = deadline - monotonicallyIncreasingTime();
	EXPECT_GE(period, 0.0);
	m_platform.runForPeriodSeconds(period);
	}

	// Returns false if there are no pending delayed tasks, otherwise sets \|time\|
	// to the delay in seconds till the next pending delayed task is scheduled to
	// fire.
	bool timeTillNextDelayedTask(double* time) const {
	base::TimeTicks nextRunTime;
	if (!m_platform.rendererScheduler()
	->TimerTaskRunner()
	->GetTimeDomain()
	->NextScheduledRunTime(&nextRunTime))
	return false;
	*time = (nextRunTime -
	m_platform.rendererScheduler()
	->TimerTaskRunner()
	->GetTimeDomain()
	->Now())
	.InSecondsF();
	return true;
	}

	protected:
	double m_startTime;
	WTF::Vector<double> m_runTimes;
	WTF::Vector<double> m_nextFireTimes;
	TestingPlatformSupportWithMockScheduler m_platform;
	};

	TEST_F(TimerTest, StartOneShot_Zero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime));
	}

	TEST_F(TimerTest, StartOneShot_ZeroAndCancel) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

	timer.stop();

	m_platform.runUntilIdle();
	EXPECT_FALSE(m_runTimes.size());
	}

	TEST_F(TimerTest, StartOneShot_ZeroAndCancelThenRepost) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

	timer.stop();

	m_platform.runUntilIdle();
	EXPECT_FALSE(m_runTimes.size());

	timer.startOneShot(0, BLINK_FROM_HERE);

	EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime));
	}

	TEST_F(TimerTest, StartOneShot_Zero_RepostingAfterRunning) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime));

	timer.startOneShot(0, BLINK_FROM_HERE);

	EXPECT_FALSE(timeTillNextDelayedTask(&runTime));

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime, m_startTime));
	}

	TEST_F(TimerTest, StartOneShot_NonZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10.0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(10.0, runTime);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));
	}

	TEST_F(TimerTest, StartOneShot_NonZeroAndCancel) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(10.0, runTime);

	timer.stop();
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));

	m_platform.runUntilIdle();
	EXPECT_FALSE(m_runTimes.size());
	}

	TEST_F(TimerTest, StartOneShot_NonZeroAndCancelThenRepost) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(10.0, runTime);

	timer.stop();
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));

	m_platform.runUntilIdle();
	EXPECT_FALSE(m_runTimes.size());

	double secondPostTime = monotonicallyIncreasingTime();
	timer.startOneShot(10, BLINK_FROM_HERE);

	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(10.0, runTime);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(secondPostTime + 10.0));
	}

	TEST_F(TimerTest, StartOneShot_NonZero_RepostingAfterRunning) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(10.0, runTime);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));

	timer.startOneShot(20, BLINK_FROM_HERE);

	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(20.0, runTime);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0, m_startTime + 30.0));
	}

	TEST_F(TimerTest, PostingTimerTwiceWithSameRunTimeDoesNothing) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);
	timer.startOneShot(10, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(10.0, runTime);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));
	}

	TEST_F(TimerTest, PostingTimerTwiceWithNewerRunTimeCancelsOriginalTask) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);
	timer.startOneShot(0, BLINK_FROM_HERE);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 0.0));
	}

	TEST_F(TimerTest, PostingTimerTwiceWithLaterRunTimeCancelsOriginalTask) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);
	timer.startOneShot(10, BLINK_FROM_HERE);

	m_platform.runUntilIdle();
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 10.0));
	}

	TEST_F(TimerTest, StartRepeatingTask) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(1.0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(1.0, runTime);

	runUntilDeadline(m_startTime + 5.5);
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0,
	m_startTime + 3.0, m_startTime + 4.0,
	m_startTime + 5.0));
	}

	TEST_F(TimerTest, StartRepeatingTask_ThenCancel) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(1.0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(1.0, runTime);

	runUntilDeadline(m_startTime + 2.5);
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0));

	timer.stop();
	m_platform.runUntilIdle();

	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0));
	}

	TEST_F(TimerTest, StartRepeatingTask_ThenPostOneShot) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(1.0, BLINK_FROM_HERE);

	double runTime;
	EXPECT_TRUE(timeTillNextDelayedTask(&runTime));
	EXPECT_FLOAT_EQ(1.0, runTime);

	runUntilDeadline(m_startTime + 2.5);
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0));

	timer.startOneShot(0, BLINK_FROM_HERE);
	m_platform.runUntilIdle();

	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 1.0, m_startTime + 2.0,
	m_startTime + 2.5));
	}

	TEST_F(TimerTest, IsActive_NeverPosted) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);

	EXPECT_FALSE(timer.isActive());
	}

	TEST_F(TimerTest, IsActive_AfterPosting_OneShotZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	EXPECT_TRUE(timer.isActive());
	}

	TEST_F(TimerTest, IsActive_AfterPosting_OneShotNonZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	EXPECT_TRUE(timer.isActive());
	}

	TEST_F(TimerTest, IsActive_AfterPosting_Repeating) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(1.0, BLINK_FROM_HERE);

	EXPECT_TRUE(timer.isActive());
	}

	TEST_F(TimerTest, IsActive_AfterRunning_OneShotZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	m_platform.runUntilIdle();
	EXPECT_FALSE(timer.isActive());
	}

	TEST_F(TimerTest, IsActive_AfterRunning_OneShotNonZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	m_platform.runUntilIdle();
	EXPECT_FALSE(timer.isActive());
	}

	TEST_F(TimerTest, IsActive_AfterRunning_Repeating) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(1.0, BLINK_FROM_HERE);

	runUntilDeadline(m_startTime + 10);
	EXPECT_TRUE(timer.isActive()); // It should run until cancelled.
	}

	TEST_F(TimerTest, NextFireInterval_OneShotZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	EXPECT_FLOAT_EQ(0.0, timer.nextFireInterval());
	}

	TEST_F(TimerTest, NextFireInterval_OneShotNonZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	EXPECT_FLOAT_EQ(10.0, timer.nextFireInterval());
	}

	TEST_F(TimerTest, NextFireInterval_OneShotNonZero_AfterAFewSeconds) {
	m_platform.setAutoAdvanceNowToPendingTasks(false);

	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	m_platform.advanceClockSeconds(2.0);
	EXPECT_FLOAT_EQ(8.0, timer.nextFireInterval());
	}

	TEST_F(TimerTest, NextFireInterval_Repeating) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(20, BLINK_FROM_HERE);

	EXPECT_FLOAT_EQ(20.0, timer.nextFireInterval());
	}

	TEST_F(TimerTest, RepeatInterval_NeverStarted) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);

	EXPECT_FLOAT_EQ(0.0, timer.repeatInterval());
	}

	TEST_F(TimerTest, RepeatInterval_OneShotZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	EXPECT_FLOAT_EQ(0.0, timer.repeatInterval());
	}

	TEST_F(TimerTest, RepeatInterval_OneShotNonZero) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startOneShot(10, BLINK_FROM_HERE);

	EXPECT_FLOAT_EQ(0.0, timer.repeatInterval());
	}

	TEST_F(TimerTest, RepeatInterval_Repeating) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(20, BLINK_FROM_HERE);

	EXPECT_FLOAT_EQ(20.0, timer.repeatInterval());
	}

	TEST_F(TimerTest, AugmentRepeatInterval) {
	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(10, BLINK_FROM_HERE);
	EXPECT_FLOAT_EQ(10.0, timer.repeatInterval());
	EXPECT_FLOAT_EQ(10.0, timer.nextFireInterval());

	m_platform.advanceClockSeconds(2.0);
	timer.augmentRepeatInterval(10);

	EXPECT_FLOAT_EQ(20.0, timer.repeatInterval());
	EXPECT_FLOAT_EQ(18.0, timer.nextFireInterval());

	// NOTE setAutoAdvanceNowToPendingTasks(true) (which uses
	// cc::OrderedSimpleTaskRunner) results in somewhat strange behavior of the
	// test clock which breaks this test. Specifically the test clock advancing
	// logic ignores newly posted delayed tasks and advances too far.
	runUntilDeadline(m_startTime + 50.0);
	EXPECT_THAT(m_runTimes, ElementsAre(m_startTime + 20.0, m_startTime + 40.0));
	}

	TEST_F(TimerTest, AugmentRepeatInterval_TimerFireDelayed) {
	m_platform.setAutoAdvanceNowToPendingTasks(false);

	Timer<TimerTest> timer(this, &TimerTest::countingTask);
	timer.startRepeating(10, BLINK_FROM_HERE);
	EXPECT_FLOAT_EQ(10.0, timer.repeatInterval());
	EXPECT_FLOAT_EQ(10.0, timer.nextFireInterval());

	m_platform.advanceClockSeconds(123.0); // Make the timer long overdue.
	timer.augmentRepeatInterval(10);

	EXPECT_FLOAT_EQ(20.0, timer.repeatInterval());
	// The timer is overdue so it should be scheduled to fire immediatly.
	EXPECT_FLOAT_EQ(0.0, timer.nextFireInterval());
	}

	TEST_F(TimerTest, RepeatingTimerDoesNotDrift) {
	m_platform.setAutoAdvanceNowToPendingTasks(false);

	Timer<TimerTest> timer(this, &TimerTest::recordNextFireTimeTask);
	timer.startRepeating(2.0, BLINK_FROM_HERE);

	recordNextFireTimeTask(
	&timer); // Next scheduled task to run at m_startTime + 2.0

	// Simulate timer firing early. Next scheduled task to run at
	// m_startTime + 4.0
	m_platform.advanceClockSeconds(1.9);
	runUntilDeadline(monotonicallyIncreasingTime() + 0.2);

	// Next scheduled task to run at m_startTime + 6.0
	m_platform.runForPeriodSeconds(2.0);
	// Next scheduled task to run at m_startTime + 8.0
	m_platform.runForPeriodSeconds(2.1);
	// Next scheduled task to run at m_startTime + 10.0
	m_platform.runForPeriodSeconds(2.9);
	// Next scheduled task to run at m_startTime + 14.0 (skips a beat)
	m_platform.advanceClockSeconds(3.1);
	m_platform.runUntilIdle();
	// Next scheduled task to run at m_startTime + 18.0 (skips a beat)
	m_platform.advanceClockSeconds(4.0);
	m_platform.runUntilIdle();
	// Next scheduled task to run at m_startTime + 28.0 (skips 5 beats)
	m_platform.advanceClockSeconds(10.0);
	m_platform.runUntilIdle();

	EXPECT_THAT(
	m_nextFireTimes,
	ElementsAre(m_startTime + 2.0, m_startTime + 4.0, m_startTime + 6.0,
	m_startTime + 8.0, m_startTime + 10.0, m_startTime + 14.0,
	m_startTime + 18.0, m_startTime + 28.0));
	}

	template <typename TimerFiredClass>
	class TimerForTest : public TaskRunnerTimer<TimerFiredClass> {
	public:
	using TimerFiredFunction =
	typename TaskRunnerTimer<TimerFiredClass>::TimerFiredFunction;

	~TimerForTest() override {}

	TimerForTest(WebTaskRunner* webTaskRunner,
	TimerFiredClass* timerFiredClass,
	TimerFiredFunction timerFiredFunction)
	: TaskRunnerTimer<TimerFiredClass>(webTaskRunner,
	timerFiredClass,
	timerFiredFunction) {}
	};

	TEST_F(TimerTest, UserSuppliedWebTaskRunner) {
	scoped_refptr<scheduler::TaskQueue> taskRunner(
	m_platform.rendererScheduler()->NewTimerTaskRunner(
	scheduler::TaskQueue::QueueType::TEST));
	scheduler::WebTaskRunnerImpl webTaskRunner(taskRunner);
	TimerForTest<TimerTest> timer(&webTaskRunner, this, &TimerTest::countingTask);
	timer.startOneShot(0, BLINK_FROM_HERE);

	// Make sure the task was posted on taskRunner.
	EXPECT_FALSE(taskRunner->IsEmpty());
	}

	} // namespace
	} // namespace blink