9

I have a simple function which counts the letter t in a string:

#include <stdio.h>
#include <string.h>

static int count_t_letters(const char *t) {
    int r;

    r = 0;
    while(*t) {
        if(*t == 't') {
            ++r;
        }

        ++t;
    }

    return r;
}

int main() {
    printf("%i", count_t_letters("test"));
}

here's the optimization I was expecting:

int main() {
    printf("%i", 2);
}

Why is this simple function not optimized like I expected in neither gcc nor clang? (godbolt)

What I figured out so far:

  • Simple functions with integer pointer arguments are optimized to a constant (godbolt)
  • Using C++ with a constexpr enables this optimization (godbolt)
  • Clang is able to do such an optimization if there is no ++t after the if (godbolt)
  • 2
    like expected Is there a standard saying something about expected? – tilz0R Dec 31 '18 at 15:32
  • 6
    This is not a language-lawyer question. It is related to quality of implementation of one compiler, not to the C language. – Peter Dec 31 '18 at 15:36
  • 1
    ...although strlen with a literal argument is likely to be reduced to a constant. – rici Dec 31 '18 at 16:31
  • 8
    interesting... if you a normal loop over with strlen and index access then it is optimized away by both gcc and clang: godbolt.org/z/9CCOBz – bolov Dec 31 '18 at 17:00
  • 1
    @phuclv even marking if as such (__attribute__((pure))) doesn't affect the codegen, at least for gcc. – Matteo Italia Jan 3 at 6:25
1

Because you're creating side effects by modifying the pointer.

If instead of incrementing t you simply use a normal index int and increment that instead, then gcc has no trouble optimizing it as you desire.

Modifying the pointer has side effects.

Another way, simply make a copy of the pointer, and modify the copy. Again it optimizes.

  • There's no conceptual difference between incrementing the pointer and incrementing an index - both are local variables, whose modifications aren't seen anywhere outside the function. – Matteo Italia Jan 2 at 23:32
  • 2
    Can you give a godbolt link demonstrating that "make a copy of the point, and modify the copy" optimizes this way? I can't reproduce that. – Rob Napier Jan 3 at 0:13
  • Thanks for your answer! Could you elaborate on those side effects? Somehow I can't figure out any way to make this optimization to happen through a copied pointer (godbolt - tested gcc and clang) – Julius Jan 3 at 9:22
  • That site's javascript doesn't let me paste out from there, so that isn't useful to me. If you make a gist at github though I'd be happy to compile it in gcc to verify. – RubyPanther Jan 4 at 5:19
  • I tested in gcc before posting my answer, I have no idea about clang optimizations. I agree with Matteo that there isn't a conceptual difference; rather, the compiler implementation is such that it doesn't do the work to tell that it is the same. Only when you isolate the changes to the function's stack frame does is it confident that the pointer doesn't get changed somewhere else. – RubyPanther Jan 4 at 5:23

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.