7

So, AVX has a function from immintrin.h, which should allow to store the concatenation of two __m128i values into a single __m256i value. The function is

__m256i _mm256_set_m128i (__m128i hi, __m128i lo)

However, when I use it, like so:

__m256i as[2]; __m128i s[4]; as[0] = _mm256_setr_m128i(s[0], s[1]);

I get a compilation error:

error: incompatible types when assigning to type ‘__m256i’ from type ‘int’

I don't really understand why this happens. Any help is greatly appreciated!

1
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    Are you sure that function is in that header? When I try to use the function as you have after #include <immintrin.h>, I get the warning message "implicit declaration of _mm256_set_m128i". In C, an implicit declaration means that the compiler assumes the function will return an int, which would explain the compiler error as well. – R_Kapp Sep 17 '15 at 12:46
11

Not all compilers seem to have _mm256_setr_m128i, or even _mm256_set_m128i, defined in immintrin.h. So I usually just define macros as needed, bracketed with suitable #ifdefs which test for compiler and version:

#define _mm256_set_m128i(v0, v1)  _mm256_insertf128_si256(_mm256_castsi128_si256(v1), (v0), 1)

#define _mm256_setr_m128i(v0, v1) _mm256_set_m128i((v1), (v0))

  • Intel ICC 11.1 and later has both _mm256_set_m128i and _mm256_setr_m128i.

  • MSVC 2012 and later has just _mm256_set_m128i.

  • gcc/clang don't seem to have either, although I haven't checked recent versions to see if this has been fixed yet.

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    GCC seems to lack a lot of the "composite" intrinsics. I recently found that _mm256_loadu2_m128 and family was the best way to do transposes from memory since (on ICC) it compiles to two instructions that don't use the vector shuffle port. On GCC, inline assembly is the only way to get the same effect. For AVX512, GCC lacks all the reduction intrinsics. – Mysticial Sep 17 '15 at 14:39
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    @Mysticial: hmm, ok I see the problem you're talking about. You have to make sure all your memory references go through a loadu, or the compiler might do them with a movaps at -O0. Solution: use gcc 4.9.2 or newer, then loadu does fold into vinsertf128. Or for gcc 4.8: always use at least -Og: "optimize for debugging", and keep your code that will fault if compiled at -O0. goo.gl/eBPD5a. Note that clang has both the intrinsics in question, _mm256_set_m128i and _mm256_loadu2_m128. – Peter Cordes Sep 17 '15 at 16:59
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    @PeterCordes Oh that's neat! I was indeed testing with GCC 4.8. Thanks! – Mysticial Sep 17 '15 at 17:36
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    I just ran into this. I wanted to vbroadcastf128 a pshufb constant into both lanes of a ymm register. But gcc6.3.1 is horrible at everything I tried. Your macro is the best of a bad situation, compiling to vmovdqa+vinserti128. (clang compiles to a 256b vector). Other attempts with gcc: const __m128 tmp = _mm_castsi128_ps(shufmask128); _mm256_castps_si256(_mm256_broadcast_ps(&tmp)) compiles to an FP 128b load of the constant, an FP 128b store to the stack, and then a vinsertf128 from the just-stored copy. Pointer-casting was even worse, if you can believe that. – Peter Cordes Apr 13 '17 at 3:47
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    Pain, pain, pain. It is on gcc 8.1. It is not on gcc 7.3. See source code at github.com/gcc-mirror/gcc/blob/master/gcc/config/i386/… . _mm256_set_m128i is there. – Pierre Aug 27 '18 at 20:04
0

We had the same problem and used a macro to work around it.

#ifdef __GNUC__ 
#if __GNUC__ < 8
#define _mm256_set_m128i(xmm1, xmm2) _mm256_permute2f128_si256(_mm256_castsi128_si256(xmm1), _mm256_castsi128_si256(xmm2), 2)
#define _mm256_set_m128f(xmm1, xmm2) _mm256_permute2f128_ps(_mm256_castps128_ps256(xmm1), _mm256_castps128_ps256(xmm2), 2)
#endif
#endif
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  • _mm256_insertf128_si256 is always at least as cheap as _mm256_permute2f128_ps, or at least the corresponding asm instructions are. I didn't check how this compiles for constants vs. runtime variables. – Peter Cordes Nov 2 '18 at 22:14

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