11

For one of my OS X programs, I have a few optimized cases which use SSE4.1 instructions. On SSE3-only machines, the non-optimized branch is ran:

// SupportsSSE4_1 returns true on CPUs that support SSE4.1, false otherwise
if (SupportsSSE4_1()) {

    // Code that uses _mm_dp_ps, an SSE4 instruction

    ...

    __m128 hDelta   = _mm_sub_ps(here128, right128);
    __m128 vDelta   = _mm_sub_ps(here128, down128);

    hDelta = _mm_sqrt_ss(_mm_dp_ps(hDelta, hDelta, 0x71));
    vDelta = _mm_sqrt_ss(_mm_dp_ps(vDelta, vDelta, 0x71));

    ...

} else {
    // Equivalent code that uses SSE3 instructions
    ...
}

In order to get the above to compile, I had to set CLANG_X86_VECTOR_INSTRUCTIONS to sse4.1.

However, this seems to instruct clang that it's ok to use the ROUNDSD instruction anywhere in my program. Hence, the program is crashing on SSE3-only machines with SIGILL: ILL_ILLOPC.

What's the best practice for enabling SSE4.1 for just the lines the code inside of true branch of the SupportsSSE4_1() if block?

3 Answers 3

14

There is currently no way to target different ISA extensions at block / function granularity in clang. You can only do it at file granularity (put your SSE4.1 code into a separate file and specify that file to use -msse4.1). If this is an important feature for you, please file a bug report to request it!

However, I should note that the actually benefit of DPPS is pretty small in most real scenarios (and using DPPS even slows down some code sequences!). Unless this particular code sequence is critical, and you have carefully measured the effect of using DPPS, it may not be worth the hassle to special case for SSE4.1 even if that compiler feature is available.

5
  • Thanks! I ended up moving the function in question to it's own file and set up Xcode to compile that file twice (once with -msse4.1 and once with -msse3). I then use preprocessor macros to generate two different versions of the functions and moved the SupportsSSE4_1() up a level to the calling function. I'll re-profile the app, but last time I checked, the DPPS version was a bit faster. Thanks for the heads up! :)
    – iccir
    Jun 8, 2014 at 4:18
  • 1
    Yeah, I don't mean to suggest that one should never use DPPS. Just that its benefit is much less than people often expect. Jun 8, 2014 at 4:55
  • 2
    clang hopefully by now support __attribute__((target(sse4.1))) on functions, the way gcc does. So you can use different inline functions within the same compilation unit. Apr 8, 2018 at 4:11
  • It does support this now. :)
    – echristo
    Apr 11, 2018 at 1:50
  • Even the file level can get you in trouble with Clang for C++ code if there are global constructors, like a static string. Also see Restrict global constructors to base ISA on the LLVM-dev mailing list. In the ml message, the function is AVX2 and source file was compiled with -mavx2. However, the constructors were not guarded like the function and crashed on a late 2011 MacBook Pro with Core2 Duo/SSE4.
    – jww
    Dec 5, 2018 at 11:17
6

You can make a CPU dispatcher. You can do this in one file but you have to compile twice. First with SSE4.1 and then without and then link in the object file for SSE4.1. The first time you call your fucntion myfunc it calls the function myfunc_dispatch which determines the instruction set and sets the pointer to either myfunc_SSE41 or myfunc_SSE3. The next time you call your func myfunc it jumps right to the function for your instruction set.

//clang -c -O3 -msse4.1 foo.cpp -o foo_sse41.o
//clang -O3 -msse3 foo.cpp foo_sse41.o   

typedef float MyFuncType(float*);

MyFuncType myfunc, myfunc_SSE41, myfunc_SSE3, myfunc_dispatch;
MyFuncType * myfunc_pointer = &myfunc_dispatch;

#ifdef __SSE4_1__
float myfunc_SSE41(float* a) {
    //SSE41 code
}
#else
float  myfunc_SSE3(float *a) {
    //SSE3 code
}

float myfunc_dispatch(float *a) {
    if(SupportsSSE4_1()) {
        myfunc_pointer = myfunc_SSE41;
    }
    else {
        myfunc_pointer = myfunc_SSE3;
    }
    myfunc_pointer(a);
}

float myfunc(float *a) {
    (*myfunc_pointer)(a);
}
int main() {
    //myfunc(a);
}
#endif
11
  • Not really though, I just got "error: instruction requires: AVX-512 ISA", and I have a dispatcher like you describe. Usually that works. clang can be a bit arrogant at times, if I said to shoot my foot in inline assembly or with intrinsics, I expect a hole in my foot.
    – doug65536
    May 5, 2017 at 19:12
  • @doug65536, check the assembly. I'm sure I could get it to work using the method I described.
    – Z boson
    May 8, 2017 at 11:49
  • If I add -mavx512f then it will use VEX encoding for all of the SSE in the file, breaking the ones for old SSE. gcc has a way of doing it on a per-function basis, but clang doesn't support #pragma target. I moved the avx ones to a separate file, and the avx512 ones to another file. That worked.
    – doug65536
    May 9, 2017 at 4:37
  • @doug65536, I don't see what the problem is. I have a KNL system with AVX512 I could test it on but I have other things to do. Why don't you ask a question on SO then I can answer it and test it on KNL. I can make a version for Clang, GCC, and ICC. ICC will be more of a challenge because -xMIC-AVX512 creates a dispatcher that I will need to override so that will make the question more interesting.
    – Z boson
    May 9, 2017 at 8:12
  • I don't need to ask a question because I already solved the problem. Just try using vmovntdqa (%[src]),%%zmm0 in inline assembly in a source file that doesn't have -mavx512f and see for yourself if you don't believe that clang says "instruction requires: AVX-512 ISA". It accepts vmovntdqa (%[src]),%%ymm0 just fine with no AVX architecture flags though. It's a (design?) bug in clang. Look here
    – doug65536
    May 9, 2017 at 16:26
5

Depending on the OS you might be able to use something like Function Multiversioning in the future. I'm working on the feature right now, but it'll be a while before it's ready for use in a production compiler.

See http://gcc.gnu.org/wiki/FunctionMultiVersioning for more details.

2
  • OP is using Clang, not GCC. Clang lacks the feature, not GCC. Worse, Clang will pretend it is GCC by defining __GNUC__ and then get into a code path it cannot handle. It gets old working around the same Clang crap time and time again...
    – jww
    Apr 7, 2018 at 18:48
  • 1
    Well, it's been implemented from the time I wrote that comment to well before you wrote your comment so I'm not sure what you're talking about here in this one, or you're just looking to complain.
    – echristo
    Apr 11, 2018 at 1:49

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