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I am trying to calculate the number of ticks a function uses to run and to do so an using the clock() function like so:

unsigned long time = clock();
myfunction();
unsigned long time2 = clock() - time;
printf("time elapsed : %lu",time2);

But the problem is that the value it returns is a multiple of 10000, which I think is the CLOCK_PER_SECOND. Is there a way or an equivalent function value that is more precise?

I am using Ubuntu 64-bit, but would prefer if the solution can work on other systems like Windows & Mac OS.

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2  
see stackoverflow.com/questions/538609/… – NPE Dec 21 '11 at 18:08
    
It's not a good idea to name a variable time, especially if you're using <time.h>, since there's a standard function by that name. – Keith Thompson Dec 21 '11 at 21:08
    
i used time as variable name only for the purpose of the question. – razielone Dec 22 '11 at 16:49
up vote 6 down vote accepted

There are a number of more accurate timers in POSIX.

  • gettimeofday() - officially obsolescent, but very widely available; microsecond resolution.
  • clock_gettime() - the replacement for gettimeofday() (but not necessarily so widely available; on Solaris, requires -lposix4 to link), with nanosecond resolution.

There are other sub-second timers of greater or lesser antiquity, portability, and resolution, including:

  • ftime() - millisecond resolution
  • clock() - which you already know about
  • times() - CLK_TCK or HZ

Do not use ftime() or times() unless there is nothing better. The ultimate fallback, but not meeting your immediate requirements, is

  • time() - one second resolution
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2  
Well the fact that it is available on Solaris is a good thing. One more OS striving for POSIX compliance. That said however, doesn't POSIX mandate that the symbol be available with at least -lrt? – jørgensen Dec 22 '11 at 3:09
    
I wrote those notes a while ago - maybe Solaris 2.6 era (hmmm...1998...yes, quite a while ago!). So the required library may have changed. – Jonathan Leffler Dec 22 '11 at 5:49
    
@jørgensen: The link is to POSIX 2008 and it is still listed as part of POSIX, albeit marked obsolescent since Issue 7 (which is the POSIX 2008 standard; see the heading of the pages linked to). So, I believe you are premature in declaring gettimeofday() obsolete; it is just obsolescent still. – Jonathan Leffler Dec 22 '11 at 5:59

I agree with the solution of Jonathan. Here is the implementation of clock_gettime() with nanoseconds of precision.

//Import 
 #define _XOPEN_SOURCE 500
 #include <stdio.h>
 #include <stdlib.h>
 #include <unistd.h>
 #include <time.h>
 #include <sys/time.h>


 int main(int argc, char *argv[])
 {   
     struct timespec ts;
     int ret;
     while(1)
     {
         ret = clock_gettime (CLOCK_MONOTONIC, &ts);
         if (ret) 
         {
             perror ("clock_gettime");
             return;
         }
         ts.tv_nsec += 20000; //goto sleep for 20000 n
         printf("Print before sleep tid%ld %ld\n",ts.tv_sec,ts.tv_nsec );
        // printf("going to sleep tid%d\n",turn );
         ret = clock_nanosleep (CLOCK_MONOTONIC, TIMER_ABSTIME,&ts, NULL);

     }
 }
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The most precise (but highly not portable) way to measure time is to count CPU ticks.

For instance on x86

 unsigned long long int asmx86Time ()
 {
   unsigned long long int realTimeClock = 0;
   asm volatile ( "rdtsc\n\t"         
                  "salq $32, %%rdx\n\t"    
                  "orq %%rdx, %%rax\n\t"   
                  "movq %%rax, %0"         
                  : "=r" ( realTimeClock ) 
                  : /* no inputs */
                  : "%rax", "%rdx" );
   return realTimeClock;
 }

 double cpuFreq ()
 {
   ifstream file ( "/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq" );
   string sFreq; if ( file ) file >> sFreq;
   stringstream ssFreq ( sFreq ); double freq = 0.;
   if ( ssFreq ) { ssFreq >> freq; freq *= 1000; } // kHz to Hz
   return freq;
 }

 // Timing

 unsigned long long int asmStart = asmx86Time ();
 doStuff ();
 unsigned long long int asmStop  = asmx86Time ();
 float asmDuration = ( asmStop - asmStart ) / cpuFreq ();

If you don't have an x86, you'll have to re-write the assembler code accordingly to your CPU. If you need maximum precision, that's unfortunatelly the only way to go... otherwise use clock_gettime().

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Per the clock() manpage, on POSIX platforms the value of the CLOCKS_PER_SEC macro must be 1000000. As you say that the return value you're getting from clock() is a multiple of 10000, that would imply that the resolution is 10 ms.

Also note that clock() on Linux returns an approximation of the processor time used by the program. On Linux, again, scheduler statistics are updated when the scheduler runs, at CONFIG_HZ frequency. So if the periodic timer tick is 100 Hz, you get process CPU time consumption statistics with 10 ms resolution.

Walltime measurements are not bound by this, and can be much more accurate. clock_gettime(CLOCK_MONOTONIC, ...) on a modern Linux system provides nanosecond resolution.

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thanks every body for your answers , i was able to do with clock_gettime . – razielone Dec 22 '11 at 17:22

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