Why is memcmp(a, b, size) so much faster than:

for(i = 0; i < nelements; i++) {
    if a[i] != b[i] return 0;
return 1;

Is memcmp a CPU instruction or something? It must be pretty deep because I got a massive speedup using memcmp over the loop.

  • 1
    Compile with -S to see the assembly-language output and find out. On x86, as others have mentioned, there are instructions for this, but often these can be vectorized. – Davislor Apr 21 '18 at 3:31
  • But what optimization level are you using? Many compilers can unroll that loop. – Davislor Apr 21 '18 at 3:39

memcmp is often implemented in assembly to take advantage of a number of architecture-specific features, which can make it much faster than a simple loop in C.

As a "builtin"

GCC supports memcmp (as well as a ton of other functions) as builtins. In some versions / configurations of GCC, a call to memcmp will be recognized as __builtin_memcmp. Instead of emitting a call to the memcmp library function, GCC will emit a handful of instructions to act as an optimized inline version of the function.

On x86, this leverages the use of the cmpsb instruction, which compares a string of bytes at one memory location to another. This is coupled with the repe prefix, so the strings are compared until they are no longer equal, or a count is exhausted. (Exactly what memcmp does).

Given the following code:

int test(const void* s1, const void* s2, int count)
    return memcmp(s1, s2, count) == 0;

gcc version 3.4.4 on Cygwin generates the following assembly:

; (prologue)
mov     esi, [ebp+arg_0]    ; Move first pointer to esi
mov     edi, [ebp+arg_4]    ; Move second pointer to edi
mov     ecx, [ebp+arg_8]    ; Move length to ecx

cld                         ; Clear DF, the direction flag, so comparisons happen
                            ; at increasing addresses
cmp     ecx, ecx            ; Special case: If length parameter to memcmp is
                            ; zero, don't compare any bytes.
repe cmpsb                  ; Compare bytes at DS:ESI and ES:EDI, setting flags
                            ; Repeat this while equal ZF is set
setz    al                  ; Set al (return value) to 1 if ZF is still set
                            ; (all bytes were equal).
; (epilogue) 


As a library function

Highly-optimized versions of memcmp exist in many C standard libraries. These will usually take advantage of architecture-specific instructions to work with lots of data in parallel.

In Glibc, there are versions of memcmp for x86_64 that can take advantage of the following instruction set extensions:

The cool part is that glibc will detect (at run-time) the newest instruction set your CPU has, and execute the version optimized for it. See this snippet from sysdeps/x86_64/multiarch/memcmp.S:

    .type   memcmp, @gnu_indirect_function
    jnz 2f
    leaq    __memcmp_sse2(%rip), %rax

    jz  3f  
    leaq    __memcmp_sse4_1(%rip), %rax

3:  leaq    __memcmp_ssse3(%rip), %rax


In the Linux kernel

Linux does not seem to have an optimized version of memcmp for x86_64, but it does for memcpy, in arch/x86/lib/memcpy_64.S. Note that is uses the alternatives infrastructure (arch/x86/kernel/alternative.c) for not only deciding at runtime which version to use, but actually patching itself to only make this decision once at boot-up.

  • rep cmpsb, that is. – cHao Jan 14 '14 at 5:45
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    It would be interesting to profile the builtin version with non builtin version (-fno-builtin). At some point the builtin version was much slower. I don't know if it has improved. – Z boson Jan 14 '14 at 13:12
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    IIRC instructions like rep cmpsb are actually quite slow. gcc now generates a call to the libc version of memcmp, which (in glibc) has an optimized asm implementation (using SIMD, not rep cmpsb). – Marc Glisse Nov 12 '14 at 15:09
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    That is not universally true. Modern CPUs have a "fast string operations" feature that puts the rep * versions back at the top. The Linux kernel detects your whether your CPU supports this feature and live patches the appropriate code in place. (Although that may be only for movsb and friends) – Jonathon Reinhart Nov 12 '14 at 16:23
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    Marc Glisse is correct; but "fast strings" only applies to rep, not repz/repnz. rep movsb / rep stosb are fast (especially with ERMSB on Ivybridge+), but repz cmpsb isn't. See agner.org/optimize for instruction tables: On Skylake, repz cmps has a runtime of >=2n cycles, taking >= 8n uops. (Where n is the element count, rcx if it goes to the end, i.e. 1 byte per 2 cycles for cmpsb.) But rep movs has a best-case of 1/32B (copy 32 bytes per cycle). – Peter Cordes Nov 27 '17 at 10:08

Is memcmp a CPU instruction or something?

It is at least a very highly optimized compiler-provided intrinsic function. Possibly a single machine instruction, or two, depending on the platform, which you haven't specified.


It's usually a compiler intrinsic that is translated into fast assembly with specialized instructions for comparing blocks of memory.

intrinsic memcmp

  • memcmp is a GCC builtin, not intrinsic. intrinsic typically refers to C-level access to specific CPU instructions. – Jonathon Reinhart Jan 14 '14 at 6:07
  • and intrinsic is what they're called in Visual C++ – a_mole Jan 14 '14 at 15:42

Yes, on intel hardware, there's a single assembly instruction for such a loop. The runtime will use that. (I don't exactly remember, it was something like rep cmps[b|w], depending also on the datasize)

  • repe cmpsb is unfortunately not fast. agner.org/optimize says it takes about 2 cycles per byte (from both buffers) on Haswell. But a pcmpeqb loop can run 16 bytes (from both buffers) per clock cycle with SSE2. – Peter Cordes Apr 21 '18 at 2:13
  • I never said that it was the fastest possible solution, and it wasn't the question. It is a lot faster than a manually coded loop. – PMF Apr 21 '18 at 19:59
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    No it isn't, not in C or asm. With optimization enabled, the OP's loop should run at about 1 per clock on Haswell, compiled by gcc or ICC godbolt.org/g/D27DXr to a simple byte-at-a-time loop. So rep cmpsb doesn't explain libc memcmp being faster at all; that would be slower (except for possible differences from branch misprediction vs. repe startup overhead for short strings.) – Peter Cordes Apr 21 '18 at 20:10

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