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I've got some code, originally given to me by someone working with MSVC, and I'm trying to get it to work on CLang. Here's the function that I'm having trouble with:

float vectorGetByIndex( __m128 V, unsigned int i )
{
    assert( i <= 3 );
    return V.m128_f32;
}

The error I get is as follows:

Member reference has base type '__m128' is not a structure or union.

I've looked around and found that CLang (and maybe GCC) has a problem with treating __m128 as a struct or union. However I haven't managed to find a straight answer as to how I can get these values back. I've tried using the subscript operator and couldn't do that, and I've glanced around the huge list of SSE intrinsics functions and haven't yet found an appropriate one.

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5  
It's useful to know that the original intrinsic interface intentionally left out this functionality because there is no efficient way to do it efficiently in the hardware. Compilers (like MSVC) will provide extensions (like m128_f32) to do it. But it only masks the performance problem. –  Mysticial Sep 27 '12 at 16:04
    
Yeah I understand that it completely removes the benefit of processing the vector at once - I think this particular function isn't intended for heavy use. Since I'm porting though, I'd like to avoid leaving anything unimplemented. –  benwad Sep 27 '12 at 16:12
    
@Mysticial on gcc, when using -mfpmath=sse (and on msvc when generating 64 bit code), floating point values are in sse registers. You can return the least significant part of a vector efficiently using _mm_cvtss_f32(V), and other elements by first shuffling the desired value into the low element. –  doug65536 Jun 28 '13 at 1:57
1  
It's worth noting that with newer builds of clang, you can just do return V[i]. –  Stephen Canon Jun 29 '13 at 17:41

4 Answers 4

up vote 10 down vote accepted

A union is probably the most portable way to do this:

union {
    __m128 v;    // SSE 4 x float vector
    float a[4];  // scalar array of 4 floats
} U;

float vectorGetByIndex(__m128 V, unsigned int i)
{
    U u;

    assert(i <= 3);
    u.v = V;
    return u.a[i];
}
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MSDN says you should not do this, leaving access via load and set operators. –  Steve-o Sep 27 '12 at 15:32
1  
@Steve-o: gcc says otherwise: gcc.gnu.org/onlinedocs/gcc-4.7.2/gcc/… –  hirschhornsalz Sep 27 '12 at 16:00
1  
I've seen a lot of contradictory opinions about this approach, but it looks like it's the only viable option on Mac. Thanks! –  benwad Sep 27 '12 at 16:11
    
It's certainly the most portable way, IME - it works on Mac OS X, Linux, Windows, with gcc, clang, ICC, MSVC, etc. –  Paul R Sep 27 '12 at 16:12

Even if SSE4.1 is available and i is a compile time constant, you can't use pextract etc. this way:

// broken code starts here
template<unsigned i>
float vectorGetByIndex( __m128 V) {
    return _mm_extract_epi32(V, i);
}
// broken code ends here

I don't delete it because it is a useful reminder how to not do things and let it stand as a public humiliation.

Better use

template<unsigned i>
float vectorGetByIndex( __m128 V) {
    union {
        __m128 v;    
        float a[4];  
    } converter;
    converter.v = V;
    return converter.a[i];
}

which will work regardless of the available instruction set.

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This is wrong. 1) _mm_extract_epi32 takes __m128i as its first parameter, you are passing __m128 - the code won't compile. 2) if you solved that with _mm_castps_si128, _mm_extract_epi32 returns the raw floating point value as an integer in a general register (such as eax). 3) That value would be the int converted to a float: 1.0f == 0x3F800000 = 1,065,353,216. For 1.0f your code will return 1.06535e+09 on SSE4. 4) Even if you solved that with casts and reinterpreted dereference, it would be inefficient. Your code uses the wrong intrinsics. Use _mm_shuffle_ps and _mm_cvtss_f32. –  doug65536 Jun 28 '13 at 2:15
    
@doug65536 This code works and compiles actually fine. Do you use MSVC? –  hirschhornsalz Jun 29 '13 at 9:23
    
no, I use gcc, I run linux. I even tested it, your code doesn't compile. You probably aren't passing -msse4 to gcc so the #ifdef is always false. I tested it here I had to change the _mm_extract_epi32 to _mm_extract_ps for it to compile. Extract gets a value into a general (integer) register with the movd instruction. –  doug65536 Jun 29 '13 at 10:00
    
You are right, _mm_extract_epi32 does not work for floats - I had taken the code from a similar integer routine without further checking the #ifdef __SSE4_1__ case. Thank you for your remarks. –  hirschhornsalz Jun 29 '13 at 11:48
    
No worries, SSE intrinsics are very error prone. We all make those mistakes. –  doug65536 Jun 29 '13 at 13:58

As a modification to hirschhornsalz's solution, if i is a compile-time constant, you could avoid the union path entirely by using a shuffle/store:

template<unsigned i>
float vectorGetByIndex( __m128 V)
{
#ifdef __SSE4_1__
    return _mm_extract_epi32(V, i);
#else
    float ret;
    // shuffle V so that the element that you want is moved to the least-
    // significant element of the vector (V[0])
    V = _mm_shuffle_ps(V, V, _MM_SHUFFLE(i, i, i, i));
    // move the value in V[0] to "ret"
    _mm_store_ss(&ret, V);
    return ret;
#endif
}

You could also avoid the need for the float temporary on the stack if, instead of returning a float, your function took a parameter to a float for the answer to be written to.

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The way I use is

union vec { __m128 sse, float f[4] };

float accessmember(__m128 v, int index)
{
    vec v.sse = v;
    return v.f[index];
}

Seems to work out pretty well for me.

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