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When compiled for x64, the following function uses the XMM0 register for parameter passing:

void foo (double const scalar)
{
    __m256d vector = _mm256_broadcast_sd(&scalar);
}

In assembly, the vbroadcastsd opcode can take a register operand. The equivalent intrinsic appears to only accept a pointer to a memory operand. Is there a way to guarantee that compilers will optimise loads like this to avoid a store to memory?

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2 Answers 2

up vote 2 down vote accepted

I wouldn't think anyone can GUARANTEE it, but assuming you enable at least some optimisation, I'd be very disappointed if any modern compiler didn't remove unnecessary pointer indirections... I have certainly seen more intricate problems that the compiler has figured out how to simplify.

I take it you haven't looked at the generated code to determine what it does (because your question would have been phrased differently).

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Thanks for the input... I realise there may not be such a thing as 'guarantee', but I notices that VS2010 emits vmovsd to copy the double to the stack, before vbroadcastsd with a memory operand... I haven't tried ICC yet, but the issue made me wonder about the wider issue of getting plain old doubles and floats into SSE registers. –  headeronly Sep 10 '13 at 12:15
    
g++-4.8 does optimize away the store to memory. Interestingly enough, icc-13 doesn't, regardless of the optimization level. –  us2012 Sep 10 '13 at 12:20
    
@us2012 Can you show assembler, please? –  Petr Budnik Sep 10 '13 at 12:20
2  
@PetrBudnik tinyurl'ed link to GCC godbolt worksheet. Change compilers there to see different ones. –  us2012 Sep 10 '13 at 12:24
    
@us2012 Awesome tool, thanks for the link! –  Petr Budnik Sep 10 '13 at 12:28

If you're worried about parameter passing on the stack, then you're function is likely too short or too important to end up being called as a separate function. Use

__forceinline

with visual C++ or

__attribute__((always_inline)) 

with g++.

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