cc/scheduler/delay_based_time_source_unittest.cc - chromium/src - Git at Google

 // Copyright 2011 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 "cc/scheduler/delay_based_time_source.h"

 #include <stdint.h>

 #include "base/test/test_simple_task_runner.h"
 #include "cc/test/scheduler_test_common.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace cc {
 namespace {

 base::TimeDelta Interval() {
   return base::TimeDelta::FromMicroseconds(base::Time::kMicrosecondsPerSecond /
                                            60);
 }

 TEST(DelayBasedTimeSourceTest, TaskPostedAndTickCalled) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);

   timer->SetActive(true);
   EXPECT_TRUE(timer->Active());
   EXPECT_TRUE(task_runner->HasPendingTask());

   timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(16));
   task_runner->RunPendingTasks();
   EXPECT_TRUE(timer->Active());
   EXPECT_TRUE(client.TickCalled());
 }

 TEST(DelayBasedTimeSourceTest, TickNotCalledWithTaskPosted) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   EXPECT_TRUE(task_runner->HasPendingTask());
   timer->SetActive(false);
   task_runner->RunPendingTasks();
   EXPECT_FALSE(client.TickCalled());
 }

 TEST(DelayBasedTimeSourceTest, StartTwiceEnqueuesOneTask) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   EXPECT_TRUE(task_runner->HasPendingTask());
   task_runner->ClearPendingTasks();
   timer->SetActive(true);
   EXPECT_FALSE(task_runner->HasPendingTask());
 }

 TEST(DelayBasedTimeSourceTest, StartWhenRunningDoesntTick) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   EXPECT_TRUE(task_runner->HasPendingTask());
   task_runner->RunPendingTasks();
   task_runner->ClearPendingTasks();
   timer->SetActive(true);
   EXPECT_FALSE(task_runner->HasPendingTask());
 }

 // At 60Hz, when the tick returns at exactly the requested next time, make sure
 // a 16ms next delay is posted.
 TEST(DelayBasedTimeSourceTest, NextDelaySaneWhenExactlyOnRequestedTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   // Run the first tick.
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   timer->SetNow(timer->Now() + Interval());
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 // At 60Hz, when the tick returns at slightly after the requested next time,
 // make sure a 16ms next delay is posted.
 TEST(DelayBasedTimeSourceTest, NextDelaySaneWhenSlightlyAfterRequestedTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   // Run the first tick.
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   timer->SetNow(timer->Now() + Interval() +
                 base::TimeDelta::FromMicroseconds(1));
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 // At 60Hz, when the tick returns at exactly 2*interval after the requested next
 // time, make sure we don't tick unnecessarily.
 TEST(DelayBasedTimeSourceTest,
      NextDelaySaneWhenExactlyTwiceAfterRequestedTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   // Run the first tick.
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   timer->SetNow(timer->Now() + 2 * Interval());
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 // At 60Hz, when the tick returns at 2*interval and a bit after the requested
 // next time, make sure a 16ms next delay is posted.
 TEST(DelayBasedTimeSourceTest,
      NextDelaySaneWhenSlightlyAfterTwiceRequestedTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   // Run the first tick.
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   timer->SetNow(timer->Now() + 2 * Interval() +
                 base::TimeDelta::FromMicroseconds(1));
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 // At 60Hz, when the tick returns halfway to the next frame time, make sure
 // a correct next delay value is posted.
 TEST(DelayBasedTimeSourceTest, NextDelaySaneWhenHalfAfterRequestedTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);
   // Run the first tick.
   task_runner->RunPendingTasks();

   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   timer->SetNow(timer->Now() + Interval() +
                 base::TimeDelta::FromMilliseconds(8));
   task_runner->RunPendingTasks();

   EXPECT_EQ(8, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 TEST(DelayBasedTimeSourceTest, JitteryRuntimeWithFutureTimebases) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);

   // Run the first tick.
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   base::TimeTicks future_timebase = timer->Now() + Interval() * 10;

   // 1ms jitter
   base::TimeDelta jitter1 = base::TimeDelta::FromMilliseconds(1);

   // Tick with +1ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() + jitter1);
   task_runner->RunPendingTasks();
   EXPECT_EQ(15, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with 0ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() - jitter1);
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with -1ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() - jitter1);
   task_runner->RunPendingTasks();
   EXPECT_EQ(1, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with 0ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() + jitter1);
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   // 8 ms jitter
   base::TimeDelta jitter8 = base::TimeDelta::FromMilliseconds(8);

   // Tick with +8ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() + jitter8);
   task_runner->RunPendingTasks();
   EXPECT_EQ(8, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with 0ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() - jitter8);
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with -8ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() - jitter8);
   task_runner->RunPendingTasks();
   EXPECT_EQ(8, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with 0ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() + jitter8);
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   // 15 ms jitter
   base::TimeDelta jitter15  = base::TimeDelta::FromMilliseconds(15);

   // Tick with +15ms jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() + jitter15);
   task_runner->RunPendingTasks();
   EXPECT_EQ(1, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with 0ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() - jitter15);
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with -15ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() - jitter15);
   task_runner->RunPendingTasks();
   EXPECT_EQ(15, task_runner->NextPendingTaskDelay().InMilliseconds());

   // Tick with 0ms of jitter
   future_timebase += Interval();
   timer->SetTimebaseAndInterval(future_timebase, Interval());
   timer->SetNow(timer->Now() + Interval() + jitter15);
   task_runner->RunPendingTasks();
   EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 TEST(DelayBasedTimeSourceTest, AchievesTargetRateWithNoNoise) {
   int num_iterations = 10;

   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);

   double total_frame_time = 0.0;
   for (int i = 0; i < num_iterations; ++i) {
     int64_t delay_ms = task_runner->NextPendingTaskDelay().InMilliseconds();

     // accumulate the "delay"
     total_frame_time += delay_ms / 1000.0;

     // Run the callback exactly when asked
     timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(delay_ms));
     task_runner->RunPendingTasks();
   }
   double average_interval =
       total_frame_time / static_cast<double>(num_iterations);
   EXPECT_NEAR(1.0 / 60.0, average_interval, 0.1);
 }

 TEST(DelayBasedTimeSourceTest, TestDeactivateWhilePending) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);
   timer->SetActive(true);  // Should post a task.
   timer->SetActive(false);
   timer = NULL;
   // Should run the posted task without crashing.
   EXPECT_TRUE(task_runner->HasPendingTask());
   task_runner->RunPendingTasks();
 }

 TEST(DelayBasedTimeSourceTest, TestDeactivateAndReactivateBeforeNextTickTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);

   // Should run the activate task, and pick up a new timebase.
   timer->SetActive(true);
   task_runner->RunPendingTasks();

   // Stop the timer
   timer->SetActive(false);

   // Task will be pending anyway, run it
   task_runner->RunPendingTasks();

   // Start the timer again, but before the next tick time the timer previously
   // planned on using. That same tick time should still be targeted.
   timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(4));
   timer->SetActive(true);
   EXPECT_EQ(12, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 TEST(DelayBasedTimeSourceTest, TestDeactivateAndReactivateAfterNextTickTime) {
   scoped_refptr<base::TestSimpleTaskRunner> task_runner =
       new base::TestSimpleTaskRunner;
   FakeDelayBasedTimeSourceClient client;
   std::unique_ptr<FakeDelayBasedTimeSource> timer =
       FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
   timer->SetClient(&client);

   // Should run the activate task, and pick up a new timebase.
   timer->SetActive(true);
   task_runner->RunPendingTasks();

   // Stop the timer.
   timer->SetActive(false);

   // Task will be pending anyway, run it.
   task_runner->RunPendingTasks();

   // Start the timer again, but before the next tick time the timer previously
   // planned on using. That same tick time should still be targeted.
   timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(20));
   timer->SetActive(true);
   EXPECT_EQ(13, task_runner->NextPendingTaskDelay().InMilliseconds());
 }

 }  // namespace
 }  // namespace cc
	// Copyright 2011 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 "cc/scheduler/delay_based_time_source.h"

	#include <stdint.h>

	#include "base/test/test_simple_task_runner.h"
	#include "cc/test/scheduler_test_common.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace cc {
	namespace {

	base::TimeDelta Interval() {
	return base::TimeDelta::FromMicroseconds(base::Time::kMicrosecondsPerSecond /
	60);
	}

	TEST(DelayBasedTimeSourceTest, TaskPostedAndTickCalled) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);

	timer->SetActive(true);
	EXPECT_TRUE(timer->Active());
	EXPECT_TRUE(task_runner->HasPendingTask());

	timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(16));
	task_runner->RunPendingTasks();
	EXPECT_TRUE(timer->Active());
	EXPECT_TRUE(client.TickCalled());
	}

	TEST(DelayBasedTimeSourceTest, TickNotCalledWithTaskPosted) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	EXPECT_TRUE(task_runner->HasPendingTask());
	timer->SetActive(false);
	task_runner->RunPendingTasks();
	EXPECT_FALSE(client.TickCalled());
	}

	TEST(DelayBasedTimeSourceTest, StartTwiceEnqueuesOneTask) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	EXPECT_TRUE(task_runner->HasPendingTask());
	task_runner->ClearPendingTasks();
	timer->SetActive(true);
	EXPECT_FALSE(task_runner->HasPendingTask());
	}

	TEST(DelayBasedTimeSourceTest, StartWhenRunningDoesntTick) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	EXPECT_TRUE(task_runner->HasPendingTask());
	task_runner->RunPendingTasks();
	task_runner->ClearPendingTasks();
	timer->SetActive(true);
	EXPECT_FALSE(task_runner->HasPendingTask());
	}

	// At 60Hz, when the tick returns at exactly the requested next time, make sure
	// a 16ms next delay is posted.
	TEST(DelayBasedTimeSourceTest, NextDelaySaneWhenExactlyOnRequestedTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	// Run the first tick.
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	timer->SetNow(timer->Now() + Interval());
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	// At 60Hz, when the tick returns at slightly after the requested next time,
	// make sure a 16ms next delay is posted.
	TEST(DelayBasedTimeSourceTest, NextDelaySaneWhenSlightlyAfterRequestedTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	// Run the first tick.
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	timer->SetNow(timer->Now() + Interval() +
	base::TimeDelta::FromMicroseconds(1));
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	// At 60Hz, when the tick returns at exactly 2*interval after the requested next
	// time, make sure we don't tick unnecessarily.
	TEST(DelayBasedTimeSourceTest,
	NextDelaySaneWhenExactlyTwiceAfterRequestedTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	// Run the first tick.
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	timer->SetNow(timer->Now() + 2 * Interval());
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	// At 60Hz, when the tick returns at 2*interval and a bit after the requested
	// next time, make sure a 16ms next delay is posted.
	TEST(DelayBasedTimeSourceTest,
	NextDelaySaneWhenSlightlyAfterTwiceRequestedTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	// Run the first tick.
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	timer->SetNow(timer->Now() + 2 * Interval() +
	base::TimeDelta::FromMicroseconds(1));
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	// At 60Hz, when the tick returns halfway to the next frame time, make sure
	// a correct next delay value is posted.
	TEST(DelayBasedTimeSourceTest, NextDelaySaneWhenHalfAfterRequestedTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);
	// Run the first tick.
	task_runner->RunPendingTasks();

	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	timer->SetNow(timer->Now() + Interval() +
	base::TimeDelta::FromMilliseconds(8));
	task_runner->RunPendingTasks();

	EXPECT_EQ(8, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	TEST(DelayBasedTimeSourceTest, JitteryRuntimeWithFutureTimebases) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);

	// Run the first tick.
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	base::TimeTicks future_timebase = timer->Now() + Interval() * 10;

	// 1ms jitter
	base::TimeDelta jitter1 = base::TimeDelta::FromMilliseconds(1);

	// Tick with +1ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() + jitter1);
	task_runner->RunPendingTasks();
	EXPECT_EQ(15, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with 0ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() - jitter1);
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with -1ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() - jitter1);
	task_runner->RunPendingTasks();
	EXPECT_EQ(1, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with 0ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() + jitter1);
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	// 8 ms jitter
	base::TimeDelta jitter8 = base::TimeDelta::FromMilliseconds(8);

	// Tick with +8ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() + jitter8);
	task_runner->RunPendingTasks();
	EXPECT_EQ(8, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with 0ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() - jitter8);
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with -8ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() - jitter8);
	task_runner->RunPendingTasks();
	EXPECT_EQ(8, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with 0ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() + jitter8);
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	// 15 ms jitter
	base::TimeDelta jitter15 = base::TimeDelta::FromMilliseconds(15);

	// Tick with +15ms jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() + jitter15);
	task_runner->RunPendingTasks();
	EXPECT_EQ(1, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with 0ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() - jitter15);
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with -15ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() - jitter15);
	task_runner->RunPendingTasks();
	EXPECT_EQ(15, task_runner->NextPendingTaskDelay().InMilliseconds());

	// Tick with 0ms of jitter
	future_timebase += Interval();
	timer->SetTimebaseAndInterval(future_timebase, Interval());
	timer->SetNow(timer->Now() + Interval() + jitter15);
	task_runner->RunPendingTasks();
	EXPECT_EQ(16, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	TEST(DelayBasedTimeSourceTest, AchievesTargetRateWithNoNoise) {
	int num_iterations = 10;

	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true);

	double total_frame_time = 0.0;
	for (int i = 0; i < num_iterations; ++i) {
	int64_t delay_ms = task_runner->NextPendingTaskDelay().InMilliseconds();

	// accumulate the "delay"
	total_frame_time += delay_ms / 1000.0;

	// Run the callback exactly when asked
	timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(delay_ms));
	task_runner->RunPendingTasks();
	}
	double average_interval =
	total_frame_time / static_cast<double>(num_iterations);
	EXPECT_NEAR(1.0 / 60.0, average_interval, 0.1);
	}

	TEST(DelayBasedTimeSourceTest, TestDeactivateWhilePending) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);
	timer->SetActive(true); // Should post a task.
	timer->SetActive(false);
	timer = NULL;
	// Should run the posted task without crashing.
	EXPECT_TRUE(task_runner->HasPendingTask());
	task_runner->RunPendingTasks();
	}

	TEST(DelayBasedTimeSourceTest, TestDeactivateAndReactivateBeforeNextTickTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);

	// Should run the activate task, and pick up a new timebase.
	timer->SetActive(true);
	task_runner->RunPendingTasks();

	// Stop the timer
	timer->SetActive(false);

	// Task will be pending anyway, run it
	task_runner->RunPendingTasks();

	// Start the timer again, but before the next tick time the timer previously
	// planned on using. That same tick time should still be targeted.
	timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(4));
	timer->SetActive(true);
	EXPECT_EQ(12, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	TEST(DelayBasedTimeSourceTest, TestDeactivateAndReactivateAfterNextTickTime) {
	scoped_refptr<base::TestSimpleTaskRunner> task_runner =
	new base::TestSimpleTaskRunner;
	FakeDelayBasedTimeSourceClient client;
	std::unique_ptr<FakeDelayBasedTimeSource> timer =
	FakeDelayBasedTimeSource::Create(Interval(), task_runner.get());
	timer->SetClient(&client);

	// Should run the activate task, and pick up a new timebase.
	timer->SetActive(true);
	task_runner->RunPendingTasks();

	// Stop the timer.
	timer->SetActive(false);

	// Task will be pending anyway, run it.
	task_runner->RunPendingTasks();

	// Start the timer again, but before the next tick time the timer previously
	// planned on using. That same tick time should still be targeted.
	timer->SetNow(timer->Now() + base::TimeDelta::FromMilliseconds(20));
	timer->SetActive(true);
	EXPECT_EQ(13, task_runner->NextPendingTaskDelay().InMilliseconds());
	}

	} // namespace
	} // namespace cc