5

My program is going to race different sorting algorithms against each other, both in time and space. I've got space covered, but measuring time is giving me some trouble. Here is the code that runs the sorts:

void test(short* n, short len) {
  short i, j, a[1024];

  for(i=0; i<2; i++) {         // Loop over each sort algo
    memused = 0;               // Initialize memory marker
    for(j=0; j<len; j++)       // Copy scrambled list into fresh array
      a[j] = n[j];             // (Sorting algos are in-place)
                               // ***Point A***
    switch(i) {                // Pick sorting algo
    case 0:
      selectionSort(a, len);
    case 1:
      quicksort(a, len);
    }
                               // ***Point B***    
    spc[i][len] = memused;     // Record how much mem was used
  }
}

(I removed some of the sorting algos for simplicity)

Now, I need to measure how much time the sorting algo takes. The most obvious way to do this is to record the time at point (a) and then subtract that from the time at point (b). But none of the C time functions are good enough:

time() gives me time in seconds, but the algos are faster than that, so I need something more accurate.

clock() gives me CPU ticks since the program started, but seems to round to the nearest 10,000; still not small enough

The time shell command works well enough, except that I need to run over 1,000 tests per algorithm, and I need the individual time for each one.

I have no idea what getrusage() returns, but it's also too long.

What I need is time in units (significantly, if possible) smaller than the run time of the sorting functions: about 2ms. So my question is: Where can I get that?

3
  • Which platform? Mentioning getrusage() suggests a POSIX system, in which case gettimeofday() or clock_gettime() is appropriate (microsecond and nanosecond resolution, respectively, not necessarily with the stated accuracy). May 26, 2013 at 22:34
  • man 2 clock_gettime, or, if you can use C 2011, int timespec_get(struct timespec *ts, int base); May 26, 2013 at 22:35
  • Platform: AMD Athlon 64 (Running Debian Linux)
    – MegaWidget
    May 26, 2013 at 23:31

4 Answers 4

13

gettimeofday() has microseconds resolution and is easy to use.

A pair of useful timer functions is:

static struct timeval tm1;

static inline void start()
{
    gettimeofday(&tm1, NULL);
}

static inline void stop()
{
    struct timeval tm2;
    gettimeofday(&tm2, NULL);

    unsigned long long t = 1000 * (tm2.tv_sec - tm1.tv_sec) + (tm2.tv_usec - tm1.tv_usec) / 1000;
    printf("%llu ms\n", t);
}
5
  • @OliCharlesworth Unfortunately no, but at least it generally provides a good approximation. Of course these 10 or so lines don't make good production code, but that wasn't my goal either.
    – user529758
    May 26, 2013 at 22:42
  • Microseconds is µs (using ascii code 230 -- '\181' in octal), not ms (which stands for milliseconds). It's commonly written with a u instead of a mu: us.
    – paddy
    May 26, 2013 at 23:42
  • @paddy Euh... did I assert something that opposes that?
    – user529758
    May 27, 2013 at 5:29
  • Oh, sorry about that, I misread and thought you were outputting microseconds.
    – paddy
    May 27, 2013 at 21:55
  • Yeah, do not use gettimeofday. It is subject to time server updates and drift.
    – TheBuzzSaw
    May 28, 2013 at 4:14
10

For measuring time, use clock_gettime with CLOCK_MONOTONIC (or CLOCK_MONOTONIC_RAW if it is available). Where possible, avoid using gettimeofday. It is specifically deprecated in favor of clock_gettime, and the time returned from it is subject to adjustments from time servers, which can throw off your measurements.

3

You can get the total user + kernel time (or choose just one) using getrusage as follows:

#include <sys/time.h>
#include <sys/resource.h>

double get_process_time() {
    struct rusage usage;
    if( 0 == getrusage(RUSAGE_SELF, &usage) ) {
        return (double)(usage.ru_utime.tv_sec + usage.ru_stime.tv_sec) +
               (double)(usage.ru_utime.tv_usec + usage.ru_stime.tv_usec) / 1.0e6;
    }
    return 0;
}

I elected to create a double containing fractional seconds...

double t_begin, t_end;

t_begin = get_process_time();
// Do some operation...
t_end = get_process_time();

printf( "Elapsed time: %.6f seconds\n", t_end - t_begin );
2

The Time Stamp Counter could be helpful here:

static unsigned long long rdtsctime() {
    unsigned int eax, edx;
    unsigned long long val;
    __asm__ __volatile__("rdtsc":"=a"(eax), "=d"(edx));
    val = edx;
    val = val << 32;
    val += eax;
    return val;
}

Though there are some caveats to this. The timestamps for different processor cores may be different, and changing clock speeds (due to power saving features and the like) can cause erroneous results.

3
  • 2
    Assuming you're on an Intel/AMD x86_64 platform, not SPARC, PPC, PA-RISC (and probably not IA-64 either). May 26, 2013 at 22:35
  • I believe from Pentium 4 onward, the TSC is independent of the instantaneous CPU frequency (see chapter 17.12 of the Intel-64 SDM). May 26, 2013 at 22:37
  • 2
    There is no need for CPU specific instructions to solve the original question above, even if an Intel based system is being used. Comparing sort algorithms does not require this type of granularity (at all) if done properly. May 26, 2013 at 22:39

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