test/std/thread/thread.condition/thread.condition.condvarany/wait_until.pass.cpp - libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // UNSUPPORTED: libcpp-has-no-threads

 // <condition_variable>

 // class condition_variable_any;

 // template <class Lock, class Clock, class Duration>
 //   cv_status
 //   wait_until(Lock& lock, const chrono::time_point<Clock, Duration>& abs_time);

 #include <condition_variable>
 #include <mutex>
 #include <thread>
 #include <chrono>
 #include <cassert>

 #include "test_macros.h"

 struct Clock
 {
     typedef std::chrono::milliseconds duration;
     typedef duration::rep             rep;
     typedef duration::period          period;
     typedef std::chrono::time_point<Clock> time_point;
     static const bool is_steady =  true;

     static time_point now()
     {
         using namespace std::chrono;
         return time_point(duration_cast<duration>(
                 steady_clock::now().time_since_epoch()
                                                  ));
     }
 };

 std::condition_variable_any cv;

 typedef std::timed_mutex L0;
 typedef std::unique_lock<L0> L1;

 L0 m0;

 int test1 = 0;
 int test2 = 0;

 int runs = 0;

 void f()
 {
     L1 lk(m0);
     assert(test2 == 0);
     test1 = 1;
     cv.notify_one();
     Clock::time_point t0 = Clock::now();
     Clock::time_point t = t0 + Clock::duration(250);
     while (test2 == 0 && cv.wait_until(lk, t) == std::cv_status::no_timeout)
         ;
     Clock::time_point t1 = Clock::now();
     if (runs == 0)
     {
         assert(t1 - t0 < Clock::duration(250));
         assert(test2 != 0);
     }
     else
     {
         assert(t1 - t0 - Clock::duration(250) < Clock::duration(50));
         assert(test2 == 0);
     }
     ++runs;
 }

 int main(int, char**)
 {
     {
         L1 lk(m0);
         std::thread t(f);
         assert(test1 == 0);
         while (test1 == 0)
             cv.wait(lk);
         assert(test1 != 0);
         test2 = 1;
         lk.unlock();
         cv.notify_one();
         t.join();
     }
     test1 = 0;
     test2 = 0;
     {
         L1 lk(m0);
         std::thread t(f);
         assert(test1 == 0);
         while (test1 == 0)
             cv.wait(lk);
         assert(test1 != 0);
         lk.unlock();
         t.join();
     }

   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// UNSUPPORTED: libcpp-has-no-threads

	// <condition_variable>

	// class condition_variable_any;

	// template <class Lock, class Clock, class Duration>
	// cv_status
	// wait_until(Lock& lock, const chrono::time_point<Clock, Duration>& abs_time);

	#include <condition_variable>
	#include <mutex>
	#include <thread>
	#include <chrono>
	#include <cassert>

	#include "test_macros.h"

	struct Clock
	{
	typedef std::chrono::milliseconds duration;
	typedef duration::rep rep;
	typedef duration::period period;
	typedef std::chrono::time_point<Clock> time_point;
	static const bool is_steady = true;

	static time_point now()
	{
	using namespace std::chrono;
	return time_point(duration_cast<duration>(
	steady_clock::now().time_since_epoch()
	));
	}
	};

	std::condition_variable_any cv;

	typedef std::timed_mutex L0;
	typedef std::unique_lock<L0> L1;

	L0 m0;

	int test1 = 0;
	int test2 = 0;

	int runs = 0;

	void f()
	{
	L1 lk(m0);
	assert(test2 == 0);
	test1 = 1;
	cv.notify_one();
	Clock::time_point t0 = Clock::now();
	Clock::time_point t = t0 + Clock::duration(250);
	while (test2 == 0 && cv.wait_until(lk, t) == std::cv_status::no_timeout)
	;
	Clock::time_point t1 = Clock::now();
	if (runs == 0)
	{
	assert(t1 - t0 < Clock::duration(250));
	assert(test2 != 0);
	}
	else
	{
	assert(t1 - t0 - Clock::duration(250) < Clock::duration(50));
	assert(test2 == 0);
	}
	++runs;
	}

	int main(int, char**)
	{
	{
	L1 lk(m0);
	std::thread t(f);
	assert(test1 == 0);
	while (test1 == 0)
	cv.wait(lk);
	assert(test1 != 0);
	test2 = 1;
	lk.unlock();
	cv.notify_one();
	t.join();
	}
	test1 = 0;
	test2 = 0;
	{
	L1 lk(m0);
	std::thread t(f);
	assert(test1 == 0);
	while (test1 == 0)
	cv.wait(lk);
	assert(test1 != 0);
	lk.unlock();
	t.join();
	}

	return 0;
	}