I want to find out for how long (approximately) some block of code executes. Something like this:

// do some calculations
printf("%lf", timeMesuredInSeconds);


  • @Pmod What do you mean by platform? My OS is Windows.
    – snakile
    Aug 24, 2010 at 14:02
  • 1
    What resolution do you want to achieve, and how much accumulated overhead are you willing to tolerate? Aug 24, 2010 at 14:08
  • @Noah, I can tolerate an error of one millisec
    – snakile
    Aug 24, 2010 at 15:27
  • A millisecond is a long time. Most any software clock will be good enough. Aug 24, 2010 at 18:14
  • For Unix systems, see clock() precision in <time.h>. Nov 25, 2022 at 17:36

8 Answers 8


You can use the clock method in time.h


clock_t start = clock();
/*Do something*/
clock_t end = clock();
float seconds = (float)(end - start) / CLOCKS_PER_SEC;
  • +1: Nice and simple. However, won't you need to cast (end - start) to a floating point before the division if you want to get fractions of a second?
    – torak
    Aug 24, 2010 at 14:25
  • 20
    Note that clock() measures CPU time, not wall-clock time (this may or may not be what you want).
    – caf
    Aug 25, 2010 at 3:09
  • 4
    @caf While true on Linux, clock() actually computes wall-clock time on Windows: msdn.microsoft.com/en-us/library/4e2ess30.aspx
    – undefined
    Sep 26, 2014 at 23:56
  • 1
    @undefined: Not just Linux, it's actually the C standard that says "The clock function determines the processor time used.". I suppose on Windows you can simply say that the implementation's best approximation to processor time used is wall-clock time used.
    – caf
    Oct 1, 2014 at 13:12
  • 2
    Note : For anybody confused CLOCKS_PER_SEC is NOT your cpu's clock frequency.
    – tur11ng
    Nov 27, 2017 at 20:50

You can use the time.h library, specifically the time and difftime functions:

/* difftime example */
#include <stdio.h>
#include <time.h>

int main ()
  time_t start,end;
  double dif;

  time (&start);
  // Do some calculation.
  time (&end);
  dif = difftime (end,start);
  printf ("Your calculations took %.2lf seconds to run.\n", dif );

  return 0;

(Example adapted from the difftime webpage linked above.)

Please note that this method can only give seconds worth of accuracy - time_t records the seconds since the UNIX epoch (Jan 1st, 1970).

  • 1
    This gives only seconds precision. And your example actually doesn't use the <ctime.h>.
    – Dummy00001
    Aug 24, 2010 at 15:15
  • Sorry, the 'c' was a typo - the ctime library is defined in time.h. And yes, it gives only seconds accuracy. Considering the poster said "approximately", I considered that enough. I will edit my answer to include the fact that it will only give seconds level of accuracy, if you wish.
    – Stephen
    Aug 24, 2010 at 15:24

Sometime it's needed to measure astronomical time rather than CPU time (especially this applicable on Linux):

#include <time.h>

double what_time_is_it()
    struct timespec now;
    clock_gettime(CLOCK_REALTIME, &now);
    return now.tv_sec + now.tv_nsec*1e-9;

int main() {
    double time = what_time_is_it();
    printf("time taken %.6lf\n", what_time_is_it() - time);
    return 0;
  • It gives much better precision than clock()! But it is worth to mention that just including time.h was not sufficient for me. I had to link the executable with -lrt. May 1, 2023 at 12:44

The standard C library provides the time function and it is useful if you only need to compare seconds. If you need millisecond precision, though, the most portable way is to call timespec_get. It can tell time up to nanosecond precision, if the system supports. Calling it, however, takes a bit more effort because it involves a struct. Here's a function that just converts the struct to a simple 64-bit integer.

#include <stdio.h>
#include <inttypes.h>
#include <time.h>

int64_t millis()
    struct timespec now;
    timespec_get(&now, TIME_UTC);
    return ((int64_t) now.tv_sec) * 1000 + ((int64_t) now.tv_nsec) / 1000000;

int main(void)
    printf("Unix timestamp with millisecond precision: %" PRId64 "\n", millis());

Unlike clock, this function returns a Unix timestamp so it will correctly account for the time spent in blocking functions, such as sleep. This is a useful property for benchmarking and implementing delays that take running time into account.



#include <windows.h>
void MeasureIt()
    DWORD dwStartTime = GetTickCount();
    DWORD dwElapsed;


    dwElapsed = GetTickCount() - dwStartTime;

    printf("It took %d.%3d seconds to complete\n", dwElapsed/1000, dwElapsed - dwElapsed/1000);

For sake of completeness, there is more precise clock counter than GetTickCount() or clock() which gives you only 32-bit result that can overflow relatively quickly. It's QueryPerformanceCounter(). QueryPerformanceFrequency() gets clock frequency which is a divisor for two counters difference. Something like CLOCKS_PER_SEC in <time.h>.

#include <stdio.h>
#include <windows.h>

int main()
    LARGE_INTEGER tu_freq, tu_start, tu_end;
    __int64 t_ns;

    /* do your stuff */

    t_ns = 1000000000ULL * (tu_end.QuadPart - tu_start.QuadPart) / tu_freq.QuadPart;
    printf("dt = %g[s]; (%llu)[ns]\n", t_ns/(double)1e+9, t_ns);

    return 0;

I would use the QueryPerformanceCounter and QueryPerformanceFrequency functions of the Windows API. Call the former before and after the block and subtract (current − old) to get the number of "ticks" between the instances. Divide this by the value obtained by the latter function to get the duration in seconds.


If you don't need fantastic resolution, you could use GetTickCount(): http://msdn.microsoft.com/en-us/library/ms724408(VS.85).aspx (If it's for something other than your own simple diagnostics, then note that this number can wrap around, so you'll need to handle that with a little arithmetic).

QueryPerformanceCounter is another reasonable option. (It's also described on MSDN)


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