base/test/task_runner_test_template.h - chromium/src - Git at Google

 // Copyright (c) 2012 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.

 // This file defines tests that implementations of TaskRunner should
 // pass in order to be conformant, as well as test cases for optional behavior.
 // Here's how you use it to test your implementation.
 //
 // Say your class is called MyTaskRunner.  Then you need to define a
 // class called MyTaskRunnerTestDelegate in my_task_runner_unittest.cc
 // like this:
 //
 //   class MyTaskRunnerTestDelegate {
 //    public:
 //     // Tasks posted to the task runner after this and before
 //     // StopTaskRunner() is called is called should run successfully.
 //     void StartTaskRunner() {
 //       ...
 //     }
 //
 //     // Should return the task runner implementation.  Only called
 //     // after StartTaskRunner and before StopTaskRunner.
 //     scoped_refptr<MyTaskRunner> GetTaskRunner() {
 //       ...
 //     }
 //
 //     // Stop the task runner and make sure all tasks posted before
 //     // this is called are run. Caveat: delayed tasks are not run,
        // they're simply deleted.
 //     void StopTaskRunner() {
 //       ...
 //     }
 //   };
 //
 // The TaskRunnerTest test harness will have a member variable of
 // this delegate type and will call its functions in the various
 // tests.
 //
 // Then you simply #include this file as well as gtest.h and add the
 // following statement to my_task_runner_unittest.cc:
 //
 //   INSTANTIATE_TYPED_TEST_CASE_P(
 //       MyTaskRunner, TaskRunnerTest, MyTaskRunnerTestDelegate);
 //
 // Easy!
 //
 // The optional test harnesses TaskRunnerAffinityTest can be
 // instanciated in the same way, using the same delegate:
 //
 //   INSTANTIATE_TYPED_TEST_CASE_P(
 //       MyTaskRunner, TaskRunnerAffinityTest, MyTaskRunnerTestDelegate);


 #ifndef BASE_TEST_TASK_RUNNER_TEST_TEMPLATE_H_
 #define BASE_TEST_TASK_RUNNER_TEST_TEMPLATE_H_

 #include <cstddef>
 #include <map>

 #include "base/bind.h"
 #include "base/callback.h"
 #include "base/location.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/single_thread_task_runner.h"
 #include "base/synchronization/condition_variable.h"
 #include "base/synchronization/lock.h"
 #include "base/task_runner.h"
 #include "base/threading/thread.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {

 namespace test {

 // Utility class that keeps track of how many times particular tasks
 // are run.
 class TaskTracker : public RefCountedThreadSafe<TaskTracker> {
  public:
   TaskTracker();

   // Returns a closure that runs the given task and increments the run
   // count of |i| by one.  |task| may be null.  It is guaranteed that
   // only one task wrapped by a given tracker will be run at a time.
   Closure WrapTask(const Closure& task, int i);

   std::map<int, int> GetTaskRunCounts() const;

   // Returns after the tracker observes a total of |count| task completions.
   void WaitForCompletedTasks(int count);

  private:
   friend class RefCountedThreadSafe<TaskTracker>;

   ~TaskTracker();

   void RunTask(const Closure& task, int i);

   mutable Lock lock_;
   std::map<int, int> task_run_counts_;
   int task_runs_;
   ConditionVariable task_runs_cv_;

   DISALLOW_COPY_AND_ASSIGN(TaskTracker);
 };

 }  // namespace test

 template <typename TaskRunnerTestDelegate>
 class TaskRunnerTest : public testing::Test {
  protected:
   TaskRunnerTest() : task_tracker_(new test::TaskTracker()) {}

   const scoped_refptr<test::TaskTracker> task_tracker_;
   TaskRunnerTestDelegate delegate_;
 };

 TYPED_TEST_CASE_P(TaskRunnerTest);

 // We can't really test much, since TaskRunner provides very few
 // guarantees.

 // Post a bunch of tasks to the task runner.  They should all
 // complete.
 TYPED_TEST_P(TaskRunnerTest, Basic) {
   std::map<int, int> expected_task_run_counts;

   this->delegate_.StartTaskRunner();
   scoped_refptr<TaskRunner> task_runner = this->delegate_.GetTaskRunner();
   // Post each ith task i+1 times.
   for (int i = 0; i < 20; ++i) {
     const Closure& ith_task = this->task_tracker_->WrapTask(Closure(), i);
     for (int j = 0; j < i + 1; ++j) {
       task_runner->PostTask(FROM_HERE, ith_task);
       ++expected_task_run_counts[i];
     }
   }
   this->delegate_.StopTaskRunner();

   EXPECT_EQ(expected_task_run_counts,
             this->task_tracker_->GetTaskRunCounts());
 }

 // Post a bunch of delayed tasks to the task runner.  They should all
 // complete.
 TYPED_TEST_P(TaskRunnerTest, Delayed) {
   std::map<int, int> expected_task_run_counts;
   int expected_total_tasks = 0;

   this->delegate_.StartTaskRunner();
   scoped_refptr<TaskRunner> task_runner = this->delegate_.GetTaskRunner();
   // Post each ith task i+1 times with delays from 0-i.
   for (int i = 0; i < 20; ++i) {
     const Closure& ith_task = this->task_tracker_->WrapTask(Closure(), i);
     for (int j = 0; j < i + 1; ++j) {
       task_runner->PostDelayedTask(
           FROM_HERE, ith_task, base::TimeDelta::FromMilliseconds(j));
       ++expected_task_run_counts[i];
       ++expected_total_tasks;
     }
   }
   this->task_tracker_->WaitForCompletedTasks(expected_total_tasks);
   this->delegate_.StopTaskRunner();

   EXPECT_EQ(expected_task_run_counts,
             this->task_tracker_->GetTaskRunCounts());
 }

 // The TaskRunnerTest test case verifies behaviour that is expected from a
 // task runner in order to be conformant.
 REGISTER_TYPED_TEST_CASE_P(TaskRunnerTest, Basic, Delayed);

 namespace test {

 // Calls RunsTasksInCurrentSequence() on |task_runner| and expects it to
 // equal |expected_value|.
 void ExpectRunsTasksInCurrentSequence(bool expected_value,
                                       TaskRunner* task_runner);

 }  // namespace test

 template <typename TaskRunnerTestDelegate>
 class TaskRunnerAffinityTest : public TaskRunnerTest<TaskRunnerTestDelegate> {};

 TYPED_TEST_CASE_P(TaskRunnerAffinityTest);

 // Post a bunch of tasks to the task runner as well as to a separate
 // thread, each checking the value of RunsTasksInCurrentSequence(),
 // which should return true for the tasks posted on the task runner
 // and false for the tasks posted on the separate thread.
 TYPED_TEST_P(TaskRunnerAffinityTest, RunsTasksInCurrentSequence) {
   std::map<int, int> expected_task_run_counts;

   Thread thread("Non-task-runner thread");
   ASSERT_TRUE(thread.Start());
   this->delegate_.StartTaskRunner();

   scoped_refptr<TaskRunner> task_runner = this->delegate_.GetTaskRunner();
   // Post each ith task i+1 times on the task runner and i+1 times on
   // the non-task-runner thread.
   for (int i = 0; i < 20; ++i) {
     const Closure& ith_task_runner_task = this->task_tracker_->WrapTask(
         Bind(&test::ExpectRunsTasksInCurrentSequence, true,
              base::RetainedRef(task_runner)),
         i);
     const Closure& ith_non_task_runner_task = this->task_tracker_->WrapTask(
         Bind(&test::ExpectRunsTasksInCurrentSequence, false,
              base::RetainedRef(task_runner)),
         i);
     for (int j = 0; j < i + 1; ++j) {
       task_runner->PostTask(FROM_HERE, ith_task_runner_task);
       thread.task_runner()->PostTask(FROM_HERE, ith_non_task_runner_task);
       expected_task_run_counts[i] += 2;
     }
   }

   this->delegate_.StopTaskRunner();
   thread.Stop();

   EXPECT_EQ(expected_task_run_counts,
             this->task_tracker_->GetTaskRunCounts());
 }

 // TaskRunnerAffinityTest tests that the TaskRunner implementation
 // can determine if tasks will never be run on a specific thread.
 REGISTER_TYPED_TEST_CASE_P(TaskRunnerAffinityTest, RunsTasksInCurrentSequence);

 }  // namespace base

 #endif  // BASE_TEST_TASK_RUNNER_TEST_TEMPLATE_H_
	// Copyright (c) 2012 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.

	// This file defines tests that implementations of TaskRunner should
	// pass in order to be conformant, as well as test cases for optional behavior.
	// Here's how you use it to test your implementation.
	//
	// Say your class is called MyTaskRunner. Then you need to define a
	// class called MyTaskRunnerTestDelegate in my_task_runner_unittest.cc
	// like this:
	//
	// class MyTaskRunnerTestDelegate {
	// public:
	// // Tasks posted to the task runner after this and before
	// // StopTaskRunner() is called is called should run successfully.
	// void StartTaskRunner() {
	// ...
	// }
	//
	// // Should return the task runner implementation. Only called
	// // after StartTaskRunner and before StopTaskRunner.
	// scoped_refptr<MyTaskRunner> GetTaskRunner() {
	// ...
	// }
	//
	// // Stop the task runner and make sure all tasks posted before
	// // this is called are run. Caveat: delayed tasks are not run,
	// they're simply deleted.
	// void StopTaskRunner() {
	// ...
	// }
	// };
	//
	// The TaskRunnerTest test harness will have a member variable of
	// this delegate type and will call its functions in the various
	// tests.
	//
	// Then you simply #include this file as well as gtest.h and add the
	// following statement to my_task_runner_unittest.cc:
	//
	// INSTANTIATE_TYPED_TEST_CASE_P(
	// MyTaskRunner, TaskRunnerTest, MyTaskRunnerTestDelegate);
	//
	// Easy!
	//
	// The optional test harnesses TaskRunnerAffinityTest can be
	// instanciated in the same way, using the same delegate:
	//
	// INSTANTIATE_TYPED_TEST_CASE_P(
	// MyTaskRunner, TaskRunnerAffinityTest, MyTaskRunnerTestDelegate);


	#ifndef BASE_TEST_TASK_RUNNER_TEST_TEMPLATE_H_
	#define BASE_TEST_TASK_RUNNER_TEST_TEMPLATE_H_

	#include <cstddef>
	#include <map>

	#include "base/bind.h"
	#include "base/callback.h"
	#include "base/location.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/single_thread_task_runner.h"
	#include "base/synchronization/condition_variable.h"
	#include "base/synchronization/lock.h"
	#include "base/task_runner.h"
	#include "base/threading/thread.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {

	namespace test {

	// Utility class that keeps track of how many times particular tasks
	// are run.
	class TaskTracker : public RefCountedThreadSafe<TaskTracker> {
	public:
	TaskTracker();

	// Returns a closure that runs the given task and increments the run
	// count of \|i\| by one. \|task\| may be null. It is guaranteed that
	// only one task wrapped by a given tracker will be run at a time.
	Closure WrapTask(const Closure& task, int i);

	std::map<int, int> GetTaskRunCounts() const;

	// Returns after the tracker observes a total of \|count\| task completions.
	void WaitForCompletedTasks(int count);

	private:
	friend class RefCountedThreadSafe<TaskTracker>;

	~TaskTracker();

	void RunTask(const Closure& task, int i);

	mutable Lock lock_;
	std::map<int, int> task_run_counts_;
	int task_runs_;
	ConditionVariable task_runs_cv_;

	DISALLOW_COPY_AND_ASSIGN(TaskTracker);
	};

	} // namespace test

	template <typename TaskRunnerTestDelegate>
	class TaskRunnerTest : public testing::Test {
	protected:
	TaskRunnerTest() : task_tracker_(new test::TaskTracker()) {}

	const scoped_refptr<test::TaskTracker> task_tracker_;
	TaskRunnerTestDelegate delegate_;
	};

	TYPED_TEST_CASE_P(TaskRunnerTest);

	// We can't really test much, since TaskRunner provides very few
	// guarantees.

	// Post a bunch of tasks to the task runner. They should all
	// complete.
	TYPED_TEST_P(TaskRunnerTest, Basic) {
	std::map<int, int> expected_task_run_counts;

	this->delegate_.StartTaskRunner();
	scoped_refptr<TaskRunner> task_runner = this->delegate_.GetTaskRunner();
	// Post each ith task i+1 times.
	for (int i = 0; i < 20; ++i) {
	const Closure& ith_task = this->task_tracker_->WrapTask(Closure(), i);
	for (int j = 0; j < i + 1; ++j) {
	task_runner->PostTask(FROM_HERE, ith_task);
	++expected_task_run_counts[i];
	}
	}
	this->delegate_.StopTaskRunner();

	EXPECT_EQ(expected_task_run_counts,
	this->task_tracker_->GetTaskRunCounts());
	}

	// Post a bunch of delayed tasks to the task runner. They should all
	// complete.
	TYPED_TEST_P(TaskRunnerTest, Delayed) {
	std::map<int, int> expected_task_run_counts;
	int expected_total_tasks = 0;

	this->delegate_.StartTaskRunner();
	scoped_refptr<TaskRunner> task_runner = this->delegate_.GetTaskRunner();
	// Post each ith task i+1 times with delays from 0-i.
	for (int i = 0; i < 20; ++i) {
	const Closure& ith_task = this->task_tracker_->WrapTask(Closure(), i);
	for (int j = 0; j < i + 1; ++j) {
	task_runner->PostDelayedTask(
	FROM_HERE, ith_task, base::TimeDelta::FromMilliseconds(j));
	++expected_task_run_counts[i];
	++expected_total_tasks;
	}
	}
	this->task_tracker_->WaitForCompletedTasks(expected_total_tasks);
	this->delegate_.StopTaskRunner();

	EXPECT_EQ(expected_task_run_counts,
	this->task_tracker_->GetTaskRunCounts());
	}

	// The TaskRunnerTest test case verifies behaviour that is expected from a
	// task runner in order to be conformant.
	REGISTER_TYPED_TEST_CASE_P(TaskRunnerTest, Basic, Delayed);

	namespace test {

	// Calls RunsTasksInCurrentSequence() on \|task_runner\| and expects it to
	// equal \|expected_value\|.
	void ExpectRunsTasksInCurrentSequence(bool expected_value,
	TaskRunner* task_runner);

	} // namespace test

	template <typename TaskRunnerTestDelegate>
	class TaskRunnerAffinityTest : public TaskRunnerTest<TaskRunnerTestDelegate> {};

	TYPED_TEST_CASE_P(TaskRunnerAffinityTest);

	// Post a bunch of tasks to the task runner as well as to a separate
	// thread, each checking the value of RunsTasksInCurrentSequence(),
	// which should return true for the tasks posted on the task runner
	// and false for the tasks posted on the separate thread.
	TYPED_TEST_P(TaskRunnerAffinityTest, RunsTasksInCurrentSequence) {
	std::map<int, int> expected_task_run_counts;

	Thread thread("Non-task-runner thread");
	ASSERT_TRUE(thread.Start());
	this->delegate_.StartTaskRunner();

	scoped_refptr<TaskRunner> task_runner = this->delegate_.GetTaskRunner();
	// Post each ith task i+1 times on the task runner and i+1 times on
	// the non-task-runner thread.
	for (int i = 0; i < 20; ++i) {
	const Closure& ith_task_runner_task = this->task_tracker_->WrapTask(
	Bind(&test::ExpectRunsTasksInCurrentSequence, true,
	base::RetainedRef(task_runner)),
	i);
	const Closure& ith_non_task_runner_task = this->task_tracker_->WrapTask(
	Bind(&test::ExpectRunsTasksInCurrentSequence, false,
	base::RetainedRef(task_runner)),
	i);
	for (int j = 0; j < i + 1; ++j) {
	task_runner->PostTask(FROM_HERE, ith_task_runner_task);
	thread.task_runner()->PostTask(FROM_HERE, ith_non_task_runner_task);
	expected_task_run_counts[i] += 2;
	}
	}

	this->delegate_.StopTaskRunner();
	thread.Stop();

	EXPECT_EQ(expected_task_run_counts,
	this->task_tracker_->GetTaskRunCounts());
	}

	// TaskRunnerAffinityTest tests that the TaskRunner implementation
	// can determine if tasks will never be run on a specific thread.
	REGISTER_TYPED_TEST_CASE_P(TaskRunnerAffinityTest, RunsTasksInCurrentSequence);

	} // namespace base

	#endif // BASE_TEST_TASK_RUNNER_TEST_TEMPLATE_H_