I know that there are implementations of memcpy, which copied memory in reverse order to optimize for some processors. At one time, a bug "Strange sound on mp3 flash website" was connected with that. Well, it was an interesting story, but my question is about another function.

I am wondering, there is a memset function in the world, which fills the buffer, starting from the end. It is clear that in theory nothing prevents doing such an implementation of a function. But I am interested exactly in the fact that this function was done in practice by someone somewhere. I would be especially grateful on the link on the library with such a function.

P.S. I understand that in terms of applications programming it has completely no difference whether the buffer is filled in the ascending or descending order. However, it is important for me to find out whether there was any "reverse" function implementation. I need it for writing an article.

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    I'm voting to close this question as off-topic because it's not really a practical programming problem. (It's also impossible to answer this question with "no", FWIW.) Dec 5 '17 at 13:03
  • Possibly there are such implementation, the standard doesn't specify anything about the order. If some software depends on the fact that memcpy copies top down instead of bottom up then that software is broken. Dec 5 '17 at 13:05
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    Asking for information relevant to writing about programming for others (who are likely programmers) to read seems completely on-topic. Dec 5 '17 at 13:06
  • Performance properties may depend on it, e.g. in terms of what's fresh in the cache after memset. Dec 5 '17 at 13:07
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    Note. I'm planning to write the article not about the optimization, but about the interesting kind of errors in programs. It would be valuable for me to find the "reverse" memset. Then I could give a beautiful example. Dec 5 '17 at 13:14

The Linux kernel's memset for the SuperH architecture has this property:


Presumably it's done this way because the mov instruction exists in predecrement form (mov.l Rm,@-Rn) but not postincrement form. See:


If you want something that's not technically kernel internals on a freestanding implementation, but an actual hosted C implementation that application code could get linked to, musl libc also has an example:


Here, the C version of memset (used on many but not all target archs) does not actually fill the whole buffer backwards, but rather starts from both the beginning and end in a manner that reduces the number of conditional branches and makes them all predictable for very small memsets. See the commit message where it was added for details:


Some of the arch-specific asm versions of memset also have this property:


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