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I've been scratching my head over this one for some time. I'm using GCC 4.4.4 (I have checked GCCs 3.4.6, 4.4.6, and 4.6.3.) and ran into an issue in some math I was doing. I boiled the example into the following self-contained program:

#include <stdio.h>
int main()
    float something[4] = { 1.0f, 2.0f, 3.0f, 4.0f };
    asm volatile
        "movups %0, %%xmm0 \n\t"
        "movups %%xmm0, %0 \n\t"
        : "=m" (*something)
        : "memory", "xmm0"
    printf("%.0f %.0f %.0f %.0f\n",
        something[0], something[1], something[2], something[3]);
    return 0;

Compiled simply with

gcc -msse -O -o something something.c

it fails by somehow corrupting the first array element (except on the GCC 3.4.6 I tried ... there, it works fine). I can't, for the life of me, see anything fundamentally wrong here.

If I, instead, change the ASM block in question to

_mm_storeu_ps(something, _mm_loadu_ps(something));

it works fine. I checked the generated assembly code and found that the version with the ASM block contained one less store operation leading up to the SSE part:

    pushl   %ebp
    movl    %esp, %ebp
    andl    $-16, %esp
    subl    $64, %esp
    movl    $0x40000000, 52(%esp)
    movl    $0x40400000, 56(%esp)
    movl    $0x40800000, 60(%esp)

versus the more correct (code using intrinsics):

    pushl   %ebp
    movl    %esp, %ebp
    andl    $-16, %esp
    subl    $64, %esp
    movl    $0x3f800000, 48(%esp)
    movl    $0x40000000, 52(%esp)
    movl    $0x40400000, 56(%esp)
    movl    $0x40800000, 60(%esp)

WTF is wrong with either me or GCC?

(Note, this is a boiled-down, concise example showing the root problem I've tracked down. There are reasons for the ASM block and the volatile keyword all of which don't really seem to address the main concern I'm putting forward here.)

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If I had some time to sit down I'd try and sort this one out, seems interesting :P – Jesus Ramos Jan 11 '13 at 19:41
You're not guaranteed 16-byte boundaries on *something, try using __attribute__ ((aligned (16), packed)). – Steve-o Jan 11 '13 at 19:55
For a memory operand constraint, you'll need to use (something) (do not dereference). – Michael Foukarakis Jan 11 '13 at 20:03
Steve-o, that still fails. float something[4] __attribute__ ((aligned(16)) = { 1.0f, 2.0f, 3.0f, 4.0f }; failed to resolve the issue. The generated assembly code comes out exactly the same. – Paul Braman Jan 11 '13 at 20:05
Michael, while I originally thought your answer was correct it turns out that's not the case. (See the accepted answer below.) I've come to think of it as assuming the compiled performs addressof() on whatever it's passed. Address of the pointer just assigns to the pointer, not the array like I wanted in the example. – Paul Braman Jan 14 '13 at 14:50

1 Answer 1

up vote 3 down vote accepted

You used wrong constraint (incidentally this is the second such problem asked here today). The = means output, so gcc thought you were going to assign *something which is the first array element. So it figured it can omit the initialization since you will overwrite it anyway. You should use + sign to mark an operand as input-output, like so: "+m" (*something).

"=m" (something) in general means you will assign to the pointer, as such gcc could decide to omit all the initialization. Note that for arrays this shouldn't even compile, just like the equivalent C code doesn't. It's just a lucky accident (aka. compiler bug) that it compiles and even works.

share|improve this answer
A good way of testing this is to use an array longer than four elements and try working with the middle of it. "+m" (something[2]) works within a longer array while, using pointer math, "+m" (something+2) would fail to compile. – Paul Braman Jan 14 '13 at 14:52

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