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I've noticed that accessing __m128 fields by index is possible in gcc, without using the union trick.

__m128 t;

float r(t[0] + t[1] + t[2] + t[3]);

I can also load a __m128 just like an array:

__m128 t{1.f, 2.f, 3.f, 4.f};

This is all in line with gcc's vector extensions. These, however, may not be available elsewhere. Are the loading and accessing features supported by the intel compiler and msvc?

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Standard C++ does not support SSE. Which target platforms are you interested in? –  Jan Hudec Oct 25 '13 at 6:50
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2 Answers

up vote 2 down vote accepted

To load a __m128, you can write _mm_setr_ps(1.f, 2.f, 3.f, 4.f), which is supported by GCC, ICC, MSVC and clang.

So far as I know, clang and recent versions of GCC support accessing __m128 fields by index. I don't know how to do this in ICC or MSVC. I guess _mm_extract_ps works for all 4 compilers but its return type is insane making it painful to use.

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If you want you code to work on other compilers then don't use those GCC extensions. Use the set/load/store intrinsics. _mm_setr_ps is fine for setting constant values but should not be used in a loop. To access elements I normally store the values to an array first then read the array.

If you have an array a you should read/store it in with

__m128 t = _mm_loadu_ps(a);
_mm_storeu_ps(a, t);

If the array is 16-byte aligned you can use an aligned load/store which is slightly faster on newer systems but much faster on older systems.

__m128 t = _mm_load_ps(a);
_mm_store_ps(a, t);

To get 16-byte aligned memory on the stack use

__declspec(align(16)) const float a[] = ...//MSVC
__attribute__((aligned(16))) const float a[] ...//GCC, ICC

For 16-byte aligned dynamic arrays use:

float *a = (float*)_mm_malloc(sizeof(float)*n, 16); //MSVC, GCC, ICC, MinGW 
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I like addressing by index, as this allows me not to do those pesky shifts. What about the shifts? –  user1095108 Oct 25 '13 at 12:19
    
Shifts? You store to an array and access the array by index like any array. –  Z boson Oct 25 '13 at 12:25
    
Ahh, now I see what you mean... From disassembly I've seen that the compiler does some shifting of the xmm registers to implement the index addressing. –  user1095108 Oct 25 '13 at 12:29
    
Well you can't have it both ways in this case. Don't expect those GCC extensions to go into MSVC. Those extensions can also lead to non-optimal code if you're not careful. Particularly if you treat the SIMD registers like an array and insert/read one or two elements of the register in a loop. The extensions make this so easy, too easy... –  Z boson Oct 25 '13 at 13:40
    
Well, one doesn't need to think of extensions as being particular to gcc, these extensions have made it (perhaps partially, I don't have icc) into icc. They also wouldn't need to get into MSVC in their entirety. –  user1095108 Oct 25 '13 at 14:25
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