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static inline void *__memset(void *s, char c, size_t n) {
int d0, d1;
asm volatile (
    "rep; stosb;"
    : "=&c" (d0), "=&D" (d1)
    : "0" (n), "a" (c), "1" (s)
    : "memory");
return s;

What are "d0" and "d1" used for? Could you please explain all the code completely?Thank you!

share|improve this question
Weird. I can't even see how 'c' gets into AL for the rep stosb, never mind the funny locals. Only UNIX developers who are used to using a 3-page bash script to copy one file to another could survive such syntax, (well, OK, maybe COBOL programmers as well:). – Martin James Mar 20 '12 at 13:47
ibiblio.org/gferg/ldp/GCC-Inline-Assembly-HOWTO.html describes the GCC Inline Assembler syntax. – jofel Mar 20 '12 at 13:58
It's horrible. It's like obfuscated assembler, as if assembler isn't obfuscated enough as it is, ('rep stosb' - perfectly clear).. – Martin James Mar 21 '12 at 15:15
up vote 0 down vote accepted

What are "d0" and "d1" used for?

In effect, it says that the final values of %ecx, %edi (assuming 32-bit) are stored in d0, d1 respectively. This serves a couple of purposes:

It lets the compiler know that, as outputs, these registers are effectively clobbered. By assigning them to temporary variables, an optimizing compiler also knows that there is no need to actually perform the 'store' operation.

The "=&" specifies these as early-clobber operands. They may be written to before all the inputs are consumed. So if the compiler is free to choose an input register, it shouldn't alias these two.

This isn't technically necessary for %ecx, since it's explicitly named as an input: "0" (n) - the 'rep' count in this case. I'm not sure it's necessary for %edi either, since it can't be updated before the input "1" (s) is consumed, and the instruction executed. And again, as it's explicitly named as an input, the compiler isn't free to choose another register. In short, "=&" doesn't hurt here, but it doesn't do anything.

As "a" (c) specifies an input-only register %eax set to (c), the compiler may assume that %eax still holds this value after the 'asm' - which is indeed the case with "rep; stosb;".

"memory" specifies that memory can be modified in a way unknown to the compiler - which is true in this case, it's setting (n) bytes starting at (r) to the value (c) - assuming the direction flag is cleared, which it should be. This does have the effect of forcing a reload of values, as the compiler can't assume that registers reflect the memory values they're supposed to anymore. It doesn't hurt, and it may be necessary to make it safe for a general case memset, but it's often overkill.

Edit: Input operands may not overlap clobber operands. It doesn't make sense to specify something as input-only and clobbered. I don't think the compiler allows this, and it wouldn't be wise to use an ambiguous specification even if it did. From the manual:

You may not write a clobber description in a way that overlaps with an input or output operand. For example, you may not have an operand describing a register class with one member if you mention that register in the clobber list.

share|improve this answer
I now have a thought that the output section is to tell the compiler not to use %ecx and %edi except for output so they can keep correct. Is that true? – akirast Mar 20 '12 at 16:49
@akirast, yes, although the output is never really stored. If the compiler wants to use %ecx, %edi again, it knows that it will have to reload them. – Brett Hale Mar 20 '12 at 17:03
@akirast, I should clarify: I wouldn't expect them to be stored. If optimizations are off, they might be. Probably are, if d0 and d1 can be inspected with debugging. – Brett Hale Mar 20 '12 at 17:08
Thank you! I think I need to make an effort to understand what happen exactly. – akirast Mar 21 '12 at 5:12

You need to understand gcc extended inline asm format:

  • The first part is the actual assembly. In this case there are only 2 instructions
  • The second part specifies output constraints and the third part specifies input constraints. The fourth part specifies the assembly will clobber the memory


  • "=&c" associates d0 with the ecx register and marks it for write-only. & means it can be modified before the end of the code
  • "=&D" means the same thing, for the edi register


  • "0" (n) associates n with the first mentioned register. In your case, with ecx
  • "a" (c) associates c with eax
  • "1" (s) associates s with edi


So there you have it. Repeat this ecx times (n times): store eax (c) into edi (s) then increment it.

So then, why the unused d0 and d1 ? I'm not sure. I too think they are useless in this case and the whole output section could be left empty BUT I don't think it's possible to specify "writable" and "early-clobbered" in the input constraints. So I think d0 and d1 are there to make & possible.

I would try writing it like this:

asm volatile (
    : "c" (n), "a" (c), "D" (s)
    : "%ecx", "%edi", "memory"
share|improve this answer

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