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I need to use some x86 instructions that have no GCC intrinsics, such as BSF and BSR. With GCC inline assembly, I can write something like the following

__INTRIN_INLINE unsigned char bsf64(unsigned long* const index, const uint64_t mask)
{
__asm__("bsf %[mask], %[index]" : [index] "=r" (*index) : [mask] "mr" (mask));
return mask ? 1 : 0;
}

Code like if (bsf64(x, y)) { /* use x */ } is translated by GCC to something like

0x000000010001bf04 <bsf64+0>:   bsf    %rax,%rdx
0x000000010001bf08 <bsf64+4>:   test   %rax,%rax
0x000000010001bf0b <bsf64+7>:   jne    0x10001bf44 <...>

However if mask is zero, BSF already sets the ZF flag, so the test after bsf is redundant.

Instead of returning mask ? 1 : 0, is it possible to retrieve the ZF flag and returning it, making GCC not generate the test?

EDIT: made the if example more clear

EDIT: In response to Damon, __builtin_ffsl generates even less optimal code. If I use the following code

    int b = __builtin_ffsl(mask);
    if (b) {
        *index = b - 1;
        return true;
    } else {
        return false;
    }

GCC generates this assembly

   0x000000000044736d <+1101>:  bsf    %r14,%r14
   0x0000000000447371 <+1105>:  cmove  %r12,%r14
   0x0000000000447375 <+1109>:  add    $0x1,%r14d
   0x0000000000447379 <+1113>:  je     0x4471c0 <...>
   0x000000000044737f <+1119>:  lea    -0x1(%r14),%ecx

So the test is gone, but redundant conditional move, increment and decrement are generated.

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1 Answer 1

A couple of remarks:

  • This is an "anti-optimization". You're trying to do a micro-optimization on something that the compiler already supports.
  • Your code does not generate the bsf instruction at all with my version of gcc with all optimization switches turned on. Looking at the code, that is not surprising, because you return mask, which is the source operand, not the destination operand (gcc uses AT&T syntax!). The compiler is intelligent enough to figure this out and drops the assembler code (which doesn't do anything) alltogether.
  • There is an intrinsic function __builtin_ffsl which does exactly the same as your inline assembly (though, correctly). An intrinsic is no less portable than inline assembler, but easier for the compiler to optimize.
  • Using the intrinsic function results in a bsf cmov sequence on my compiler (assuming the calling code forces it to actually emit the instruction), which shows that the compiler uses the zero-flag just fine without an additional test instruction.
  • Returning a char when you want a bool is not the best possible hint for the compiler, though it will probably figure it out anyway most of the time. However, telling the compiler to use a bitscan instruction when you are really only interested in "zero or not zero" is certainly sub-optimal. if(x) and if(!x) work perfectly well for that matter. It would be different if you returned the result as reference, so you could reuse it in another place, but as it is, your code is only a very complicated way of writing if(x).
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First, thanks for the builtin -- I didn't know it. Unfortunately, I can't find a similar builtin for BSR -- clz is undefined on x=0, so I need the test explicitly anyway. So I consider the question still unanswered. –  Giuseppe Ottaviano Aug 1 '11 at 10:25
    
About your other remarks: I think you tested my function in some dead code, because for me it is correctly generating the bsf (the disass above comes from real code, stepping in with gdb) and the operands are correct (otherwise nothing in my code would work, it depends heavily on this function). Of course I am not using bsf for "zero or not zero", all my code is of the form "if there is at least one bit tell me the LSB otherwise do something else", which is why I need a jmp right after the bsf. –  Giuseppe Ottaviano Aug 1 '11 at 10:27
1  
For BSR, you want 8*sizeof(type) - __builtin_clz(x) (or __builtin_clzl for long). This is kind of contorted because the intrinsic is "the other way around", but the compiler emits a single BSR for that construct (I've used it in the past). Now, don't ask me why this intrinsic is the other way around ... probably because "leading zeroes" is a known idiom or something :-) –  Damon Aug 1 '11 at 10:29
    
"Of course I am not using bsf for 'zero or not zero', all my code is of the form 'if there is at least one bit tell me the LSB otherwise do something else'" so in other words, you are writing something like if((x = bsr64(y,z))) { /* use x */ }. Ok, that will work, but it's different from what the question suggested to me. That kind of thing should indeed work just fine with the intrinsic and CSE enabled, too (does for me, anyway). –  Damon Aug 1 '11 at 10:34
1  
Another option is of course to test for the operand being zero before calling the asm routine. If that is the most common case, it might even be an optimization! –  Bo Persson Aug 1 '11 at 22:11

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