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I have written a function that sorts a big scale of data. To test its performance, I compared it with qsort. If I compile it on my desktop which is running FreeBSD with GCC 4.2.2, the result is that qsort taking less time than my function. However, I compiled it on a server which is running RedHat with GCC 4.1.2, the result is that my function takes less time than qsort.

I am confused about whether my function is better than qsort or not. Could someone help me explain this strange situation?

I have tested it a lot of times using the same CFLAGS, running it in same machine and all the other same conditions except the different functions.

My code:

 53 int
 54 main(void)
 55 {
 56     int * array_first, * array_next;
 57     int len = 1000000;
 58     int i;
 59     struct timeval start, duration;
 63     array_first = malloc(sizeof(int) * len);
 64     array_next = malloc(sizeof(int) * len);
 67     for(i = 0; i < len; i++){
 68         *(array_first + i) = rand() % 1000;
 69         *(array_next + i) = *(array_first + i);
 70     }
 72     set_starttime(&start);
 73     quicksort(array_first, len, sizeof(int), compar);
 74     get_runningtime(start, &duration);
 75     printf("%lu\n", duration.tv_sec * MICRO_PER_SEC + duration.tv_usec);
 76     set_starttime(&start);
 77     qsort(array_next, len, sizeof(int), compar);
 78     get_runningtime(start, &duration);
 79     printf("%lu\n", duration.tv_sec * MICRO_PER_SEC + duration.tv_usec);
 81     assert(memcmp(array_first, array_next, sizeof(int) * len) == 0);
 83     free(array_first);
 84     free(array_next);
 86     return 0;
 87 }
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closed as unclear what you're asking by larsmans, Steve Fallows, Kerrek SB, wilx, Marek Lipka Apr 7 '14 at 8:44

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question.If this question can be reworded to fit the rules in the help center, please edit the question.

There is not a single, universal implementation of qsort. Did you use the same test set on both machines? Where they inactive apart from your test programs? Did you run the programs 11 times, averaging over the last ten runs? –  larsmans Jul 4 '12 at 12:16
Different hardware, different OS, different architecture, different compiler versions. All these can contribute in varying ways and to varying amounts. –  Daniel Fischer Jul 4 '12 at 12:16
Be aware that the qsort() function might not implement the quicksort algorithm. –  nos Jul 4 '12 at 12:20
How different are the times between each method? How much do the times vary between multiple test runs? Do the times vary if you call srand() so your test data is different each test run? –  Blastfurnace Jul 4 '12 at 13:07
@Blastfurnace, about twenty times(is it too few?), and mostly same result as my question. I add srand() and test, same result. –  MYMNeo Jul 4 '12 at 13:14

3 Answers 3

up vote 1 down vote accepted

There could be many many reasons why the performances are different.

  • Implementation of qsort could be different in the two systems, one happens to suite your test-case better
  • If test-cases are generated randomly, you could have just got unlucky with one test case
  • Compiling your code with different compiler versions, means different optimizations are done that change the performance of your code
  • Running the tests on different systems means that there would be different performances in the same code. On one architecture with a certain test-case, the cache may be marginally misused, while on another architecture with bigger cache this is not issue.

I could think of a 100 hundred other reasons, but this should be enough to let you know you shouldn't try making such a comparison.

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See my updated question.To avoid the difference, I ran it in the same environment. –  MYMNeo Jul 4 '12 at 13:05
Based on your update, you say you have run it over an over with the same machine, right? What happens now? Do you see sometimes qsort is better and sometimes your own function? If that is the case, then that shows that qsort works better on certain ordering of input while yours works better on another. This is quite typical in sorting algorithms –  Shahbaz Jul 4 '12 at 13:29
I make a addtion test, If there is a lot of same data, qsort is better, but if they are mostly random, mine is better. –  MYMNeo Jul 4 '12 at 13:35
@MYMNeo, congratulations. I think you can be happy with your sort. –  Shahbaz Jul 4 '12 at 13:39
the new problem is that with a lot of same data, it takes lots of times but qsort not.Tick your answer for your comment with patience –  MYMNeo Jul 4 '12 at 13:49

I assume you made sure to use the same data on both computers, and made sure no other programs running at the same time skewed your testing results.

First, you could have a look at the generated assembly code, and check whether both compiler versions generate the same output.

If they do, the difference is probably caused by a different hardware architecture of the two computers, mainly CPU and its caches.

One implementation might be faster if run on a CPU with a large L2/L3 cache, but way slower if there is less space available.

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See my updated question.To avoid the differences, I ran it in the same environment. –  MYMNeo Jul 4 '12 at 13:03

If your compar() function can be inlined (static functions can be inlined), that would be a big win. The amount of inlining depends very much on the compiler, and flags.

For qsort(), inlining cannot be used: qsort depends on the call-back function being a true function. Normally, the compare function will show up eating xx% of the CPU in a profile, even for cheap compare functions(when the call overhead is relatively large). (have you profiled?)

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