本文首先通过QueryPerformanceFrequency获取高精度计时器的时钟频率,然后通过两次调用QueryPerformanceCounter获取高精度计时器的差值,最后以差值除以时钟频率获取精确计时。
但要注意,时钟频率及计时器的值均为LONGLONG类型,需转换为double后才能计算精确的秒数。
以下为代码:
LARGE_INTEGER frequency; LARGE_INTEGER start; LARGE_INTEGER stop; QueryPerformanceFrequency(&frequency); //获取计时器的时钟频率 QueryPerformanceCounter(&start); //获得计数器初始值 Sleep(10); //耗时操作(暂停10ms) QueryPerformanceCounter(&stop); //获得计数器终止值 const auto interval = static_cast<double>(stop.QuadPart - start.QuadPart); const auto timeSpanSecond = interval / frequency.QuadPart; //获取秒数 const auto timeSpanMillisecond = timeSpanSecond * 1000.0; //获取毫秒数 std::cout << "Sleep(10) takes " << timeSpanMillisecond << "ms." << std::endl;
下面为结果:
