1bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//===----------------------------------------------------------------------===//
2bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//
3f5256e16dfc425c1d466f6308d4026d529ce9e0bHoward Hinnant//                     The LLVM Compiler Infrastructure
4bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//
5b64f8b07c104c6cc986570ac8ee0ed16a9f23976Howard Hinnant// This file is dual licensed under the MIT and the University of Illinois Open
6b64f8b07c104c6cc986570ac8ee0ed16a9f23976Howard Hinnant// Source Licenses. See LICENSE.TXT for details.
7bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//
8bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//===----------------------------------------------------------------------===//
9bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant
10bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// <thread>
11bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant
12bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// template <class Rep, class Period>
13bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//   void sleep_for(const chrono::duration<Rep, Period>& rel_time);
14bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant
15bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant#include <thread>
16bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant#include <cstdlib>
17bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant#include <cassert>
18bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant
19bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnantint main()
20bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant{
21bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    typedef std::chrono::system_clock Clock;
22bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    typedef Clock::time_point time_point;
23bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    typedef Clock::duration duration;
24bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    std::chrono::milliseconds ms(500);
25bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    time_point t0 = Clock::now();
26bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    std::this_thread::sleep_for(ms);
27bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    time_point t1 = Clock::now();
28bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    std::chrono::nanoseconds ns = (t1 - t0) - ms;
296b875ef3746dec865c7071fc3caab8cd2fcceb3bDaniel Dunbar    std::chrono::nanoseconds err = 5 * ms / 100;
306b875ef3746dec865c7071fc3caab8cd2fcceb3bDaniel Dunbar    // The time slept is within 5% of 500ms
31bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant    assert(std::abs(ns.count()) < err.count());
32bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant}
33