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I'm trying to write a (very) short assembly routine which tests for equality of two dwords and returns a boolean value (1 = true, 0 = false). So far I've come up with three methods, one of which uses LAHF which apparently isn't supported on some x86_64 processors, so that one is out unfortunately of the question.

Version one is:

    mov eax, [esp + 8]
    cmp b, [esp + 4]
    mov eax, 1
    jnz jpt 
    mov eax, 0
jpt:    ret

and version two is:

    mov eax, [ebp + 8]
    cmp b, [ebp + 4]
    pushf       ; Get lowest word of the flags register
    pop ax      
    and eax, 0x0040 ; Extract the zero flag
    shr eax, 6  ; eax is now true(1) if arg1 == arg2    

Version one has an extra branch instruction, but version two has an extra push and an extra pop instruction. Which one would you expect to be fastest and why? Is this dependent of if the branch would be taken/predicted or not?

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Neither, because in any real software, the bottlenecks won't occur in an equality test of two dwords. –  Cat Plus Plus May 28 '11 at 13:05
What is 'real software'? –  James May 28 '11 at 13:10
Just the act of calling an "equality routine" could be more expensive than the actual comparison. –  Mat May 28 '11 at 13:11
I understand that this isn't a likely bottleneck, but this is more of an academic exercise. This is part of a simplistic code generator, so any performance benefit would be applied, obviously inlined, to a fairly large body of code. –  eyesathousand May 28 '11 at 13:20
@Cat, I've seen this be a bottleneck more than once. –  Jasper Bekkers May 28 '11 at 13:54

2 Answers 2

up vote 2 down vote accepted

Both are version are bad. A random branch takes ages to execute, because it can't be predicted and lahf is just a no no because of a partial register write. But of course, writing a test for equality in assembler is complete nonsense anyway, because the function overhead will be a multiple of the equivalent instructions inline, so here I go:

mov eax, [ebp + 8]
cmp eax, [ebp + 4]
setz al                ;set al to 1 if equal
movzx eax,al         ;convert to dword
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I wasn't aware of the existence of SZ, this is much better than either of my attempts. –  eyesathousand May 28 '11 at 13:55
"sz al" don't you mean "setz al"? –  PhiS May 28 '11 at 15:40
Yes, of course. Thanks, fixed it –  hirschhornsalz May 28 '11 at 20:58

I have found these bottlenecks before in applications I needed to optimize and they are a sure indication that you've hit a wall and can't really optimize any further.

The best course of actions would be to choose a different algorithm or data layout, one that fits the platform and access patterns better than the one you currently have. This is probably the single most important thing you can do.

However, due to deadlines or other constraints that sometimes isn't possible either and so you'll need to be creative about it and that would probably imply testing multiple elements at a time using SIMD operations (eg. use the _mm_cmpeq_epi32 intrinsic to compare 4 elements). If you're going to branch on that, you might compare 16 elements, bitwise or the masks together and branch on that (then select the correct data inside the branch).

That is primarily of benefit on platforms where branches are very costly and on IA-32/64 that isn't the case (eg. branches are cheap).

Also be aware that due to the Out-of-order Execution (OOE) Intel platforms then to use; it could very well be that the profiler you're using is reporting a stall on a more-or-less random location because it just so happens that the processor needs to wait for data to be read from the cache or RAM.

If you happen to be in that situation, make sure that you optimize your algorithm to be more cache-friendly (eg. figure out how many items fit in a cache line, reduce the size the data structures etc.)

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