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gcc - GNU C native vectors: how to broadcast a scalar, like x86's _mm_set1_epi16

How do I write a portable GNU C builtin vectors version of this, which doesn't depend on the x86 set1 intrinsic?

typedef uint16_t v8su __attribute__((vector_size(16)));

v8su set1_u16_x86(uint16_t scalar) {
    return (v8su)_mm_set1_epi16(scalar);   // cast needed for gcc
}

Surely there must be a better way than

v8su set1_u16(uint16_t s) {
    return (v8su){s,s,s,s,  s,s,s,s};
}

I don't want to write an AVX2 version of that for broadcasting a single byte!

Even a gcc-only or clang-only answer to this part would be interesting, for cases where you want to assign to a variable instead of only using as an operand to a binary operator (which works well with gcc, see below).


If I want to use a broadcast-scalar as one operand of a binary operator, this works with gcc (as documented in the manual), but not with clang:

v8su vecdiv10(v8su v) { return v / 10; }   // doesn't compile with clang

With clang, if I'm targeting only x86 and just using native vector syntax to get the compiler to generate modular multiplicative inverse constants and instructions for me, I can write:

v8su vecdiv_set1(v8su v) {
    return v / (v8su)_mm_set1_epi16(10);   // gcc needs the cast
}

But then I have to change the intrinsic if I widen the vector (to _mm256_set1_epi16), instead of converting the whole code to AVX2 by changing to vector_size(32) in one place (for pure-vertical SIMD that doesn't need shuffling). It also defeats part of the purpose of native vectors, since that won't compile for ARM or any non-x86 target.

The ugly cast is required because gcc, unlike clang, doesn't consider v8us {aka __vector(8) short unsigned int} compatible with __m128i {aka __vector(2) long long int}.

BTW, all of this compiles to good asm with gcc and clang (see it on Godbolt). This is just a question of how to write elegantly, with readable syntax that doesn't repeat the scalar N times. e.g. v / 10 is compact enough that there's no need to even put it in its own function.

Compiling efficiently with ICC is a bonus, but not required. GNU C native vectors are clearly an afterthought for ICC, and even simple stuff like this doesn't compile efficiently. set1_u16 compiles to 8 scalar stores and a vector load, instead of MOVD / VPBROADCASTW (with -xHOST enabled, because it doesn't recognize -march=haswell, but Godbolt runs on a server with AVX2 support). Purely casting the results of _mm_ intrinsics is ok, but the division calls an SVML function!

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A generic broadcast solution can be found for GCC and Clang using two observations

  1. Clang's OpenCL vector extensions and GCC's vector extensions support scalar - vector operations.
  2. x - 0 = x (but x + 0 does not work due to signed zero).

Here is a solution for a vector of four floats.

#if defined (__clang__)
typedef float v4sf __attribute__((ext_vector_type(4)));
#else
typedef float v4sf __attribute__ ((vector_size (16)));
#endif

v4sf broadcast4f(float x) {
  return x - (v4sf){};
}

https://godbolt.org/g/PXr3Xb

The same generic solution can be used for different vectors. Here is an example for a vector of eight unsigned shorts.

#if defined (__clang__)
typedef unsigned short v8su __attribute__((ext_vector_type(8)));
#else
typedef unsigned short v8su __attribute__((vector_size(16)));
#endif

v8su broadcast8us(short x) {
  return x - (v8su){};
}

ICC (17) supports a subset of the GCC vector extensions but does not support either vector + scalar or vector*scalar yet so intrinsics are still necessary for broadcasts. MSVC does not support any vector extensions.


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