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I developed a class for calculations on multithreads and only one instance of this class is used by a thread. Also I want to measure the duration of calculations by iterating over a container of this class from another thread. The application is win32. The thing is I have read QueryPerformanceCounter is useful when comparing the measuremnts on a single thread. Because I can not use it my problem, I think of clock() or GetSystemTime(). It is sad that both methods have a 'resolution' of milliseconds (since CLOCKS_PER_SEC is 1000 on win32). Which method should I use or to generalize, is there a better option for me? As a rule I have to take the measurements outside the working thread. Here is some code as an example.

unsinged long GetCounter()
  return ww.wMilliseconds + 1000 * ww.wSeconds; 
// or
  return clock();

class WorkClass
  bool is_working;
  unsigned long counter;
  HANDLE threadHandle;
    threadHandle = GetCurrentThread();
    is_working = true;
    counter = GetCounter();
    // Do some work
    is_working = false;

void CheckDurations() // will work on another thread;
  for(size_t i =0;i < vector_of_workClass.size(); ++i)
    WorkClass & wc = vector_of_workClass[i];
      unsigned long dur = GetCounter() - wc.counter;
      if( dur > someLimitValue)
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up vote 3 down vote accepted

QueryPerformanceCounter is fine for multithreaded applications. The processor instruction that may be used (rdtsc) can potentially provide invalid results when called on different processors.

I recommend reading "Game Timing and Multicore Processors".

For your specific application, the problem it appears you are trying to solve is using a timeout on some potentially long-running threads. The proper solution to this would be to use the WaitForMultipleObjects function with a timeout value. If the time expires, then you can terminate any threads that are still running - ideally by setting a flag that each thread checks, but TerminateThread may be suitable.

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+1: QueryPerformanceCounter was pretty much designed for this problem. – Puppy Dec 22 '10 at 11:42
While QueryPerformanceCounter and QueryPerformanceFrequency typically adjust for multiple processors, bugs in the BIOS or drivers may result in these routines returning different values as the thread moves from one processor to another. says microsoft. How should I be aware of that kind of bugs – ali_bahoo Dec 22 '10 at 13:32
@sad_man More importantly, what can you do about it? If the BIOS can't keep track of time properly, how are you supposed to be able to? You could use the wall clock, which realistically is useless for measurements under 1 second, or you can rearrange your code to do relative timings on a single thread (avoiding the issue) or not use timers at all. – Zooba Dec 22 '10 at 22:41

both methods have a precision of milliseconds

They don't. They have a resolution of a millisecond, the precision is far worse. Most machines increment the value only at intervals of 15.625 msec. That's a heckofalot of CPU cycles, usually not good enough to get any reliable indicator of code efficiency.

QPF does much better, no idea why you couldn't use it. A profiler is a the standard tool to measure code efficiency. Beats taking dependencies you don't want.

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Most machines have a HPET, which is better than 15 msec – osgx Dec 22 '10 at 10:39
Right, use QPF to use it. – Hans Passant Dec 22 '10 at 10:49

QueryPerformanceCounter should give you the best precision, but there is issues when the function get run on different processors (you get a different result for each processor). So when running in a thread you will experience shifts when the thread switch processor. To solve this you can set processor affinity for the thread that measures time.

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GetSystemTime gets an absolute time, clock is a relative time but both measure elapsed time, not CPU time related to the actual thread/process.

Of course clock() is more portable. Having said that I use clock_gettime on Linux because I can get both elapsed and thread CPU time with that call.

boost has some time functions that you could use that will run on multiple platforms if you want platform independent code.

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