If I want to do a bitwise equality test between two __m128i variables, am I required to use an SSE instruction or can I use ==? If not, which SSE instruction should I use?


Although using _mm_movemask_epi8 is one solution, if you have a processor with SSE4.1 I think a better solution is to use an instruction which sets the zero or carry flag in the FLAGS register. This saves a test or cmp instruction.

To do this you could do this:

if(_mm_test_all_ones(_mm_cmpeq_epi8(v1,v2))) {
    //v0 == v1

Edit: as Paul R pointed out _mm_test_all_ones generates two instructions: pcmpeqd and ptest. With _mm_cmpeq_epi8 that's three instructions total. Here's a better solution which only uses two instructions in total:

__m128i neq = _mm_xor_si128(v1,v2);
if(_mm_test_all_zeros(neq,neq)) {
    //v0 == v1

This generates

pxor    %xmm1, %xmm0
ptest   %xmm0, %xmm0
  • Note that _mm_test_all_ones is a macro which generates two instructions: _mm_cmpeq_epi32 and _mm_testc_si128, so you have a total of three SSE instructions in your solution. It would be interesting to benchmark this against the "old skool" implementation with _mm_movemask_epi8 though. – Paul R Nov 12 '14 at 13:30
  • @PaulR, good point, I have not found a way to get it down to two instructions yet. I feel like it should be possible now. Your soltuion is basically pcmpeqb, pmovmsk, test. I think it should be possible to to pcmpxxx, ptest. – Z boson Nov 12 '14 at 13:48
  • Yes, it ought to be possible - it seems that there is a fundamental flaw in the design of _mm_testX_si128 (PTEST) though, in that you can't easily use it to test for all 1s, so you always need an extra instruction to invert all the bits at some point. – Paul R Nov 12 '14 at 13:52
  • @PaulR, yeah exactly. AVX512 has a cmpneq instruction. That would solve it. I can get it to __m128i eq = _mm_cmpeq_epi8(v1,v2); eq = _mm_xor_si128(eq,_mm_set1_epi32(-1)); _mm_test_all_zeros(eq,eq);. That generates four instructions but _mm_set1_epi32(-1) could be precomputed (it generate pcmpeq xmm1, xmm1 anyway) so this could be seen as three instructions. – Z boson Nov 12 '14 at 13:56
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    A word of warning: the trick does not work with floating-point vectors, due to the possibility of +/-0. – user1095108 Feb 29 '16 at 9:19

You can use a compare and then extract a mask from the comparison result:

__m128i vcmp = _mm_cmpeq_epi8(v0, v1);       // PCMPEQB
uint16_t vmask = _mm_movemask_epi8(vcmp);    // PMOVMSKB
if (vmask == 0xffff)
    // v0 == v1

This works with SSE2 and later.

As noted by @Zboson, if you have SSE 4.1 then you can do it like this, which may be slightly more efficient, as it's two SSE instructions and then a test on a flag (ZF):

__m128i vcmp = _mm_xor_si128(v0, v1);        // PXOR
if (_mm_testz_si128(vcmp, vcmp))             // PTEST (requires SSE 4.1)
    // v0 == v1

FWIW I just benchmarked both of these implementations on a Haswell Core i7 using clang to compile the test harness and the timing results were very similar - the SSE4 implementation appears to be very slightly faster but it's hard to measure the difference.

  • It might be tricky to time. You may need to unroll. The latency of xor is 1 and ptest 2. Whereas cmpeq it's 1, movemask 3, test, 1. So from a latency point of view the SSE4.1 method is about half the latency. The reciprocal throughput of xor 0.33, ptest 1 whereas cmpeq it's 0.5, movemask 1, test 0.25. For reciprocal throughput it's closer. – Z boson Nov 12 '14 at 20:12
  • I did some unrolling and a few other things to see if I could make the difference any bigger but it's still relatively small (a few percent). The compiler (clang) is generating the same three instructions after the test in each case, so the unrolled instruction sequence is the same in both cases apart from the 3 SSE2 instructions (6 instructions total per iteration) versus the 2 SSE4 instructions (5 instructions total per iteration). It's using SETE after the test in both cases, so no branching. I'm keeping the data set well within L2 cache. – Paul R Nov 12 '14 at 22:21
  • Thanks for checking this. I guess I'm just disappointed that my clever solution is not so much better afterall (yet). Probably you would have to find a case where the total fused microops is four with the SSE4 version but the SSE2 version pushes it past four or where the SSE2 version needs the same port twice. You could use IACA to check this. Probably it shows that in both your current tests there is no difference. I mean the Block Throughput is the same. So you would have to find a test where it makes a difference. That's the only thing I can think of. – Z boson Nov 13 '14 at 8:36
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    Well there is a serial dependency between the pxor and the ptest anyway, so I'm not sure that it matters that they are on the same port in this case, but it's been a useful exercise anyway, and of course, who knows what future architectures will do with this. – Paul R Nov 13 '14 at 9:16
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    You're welcome, if I had known about IACA I probably would not have spent a 500 rep bounty on this stackoverflow.com/questions/25899395/… But I learned so much from that so I'm glad I did it. – Z boson Nov 13 '14 at 9:21

Consider using an SSE4.1 instruction ptest:

if(_mm_testc_si128(v0, v1)) {if equal}

else {if not} 

ptest computes the bitwise AND of 128 bits (representing integer data) in a and mask, and return 1 if the result is zero, otherwise return 0.

  • A bitwise AND does not test for equality per se - you need to do a compare first and then test the result of the comparison. – Paul R Dec 4 '17 at 17:24
  • This is certainly wrong. I made this mistake today. You do NOT test equivalence with "testc". "TestC" first of all generates "and-not" and then checks if all bits are zero. Therefore, _mm_testc_si128(anything, zero) will ALWAYS return true. In particular, testc(anything, zero) is effectively "zero & (~anything) == 0", which is always true. TestC is certainly a useful function, but it doesn't answer this particular question. If you wanted to "only" do an and operation, you should use "testz" instead. – Dragontamer5788 Oct 6 '18 at 19:28
  • Can PTEST be used to test if two registers are both zero or some other condition? no, it can't. And definitely not equality. – Peter Cordes Feb 27 at 5:01

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