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I am trying to write some bare metal code with a memset-style loop in it:

for (int i = 0; i < N; ++i) {
  arr[i] = 0;
}

It is compiled with GCC and GCC is smart enough to turn that into a call to memset(). Unfortunately because it's bare metal I have no memset() (normally in libc) so I get a link error.

 undefined reference to `memset'

It seems like the optimisation that does this transformation is -ftree-loop-distribute-patterns:

Perform loop distribution of patterns that can be code generated with calls to a library. This flag is enabled by default at -O2 and higher, and by -fprofile-use and -fauto-profile.

So one person's solution was to just lower the optimisation level. Not very satisfying.

I also found this really helpful page that explains that -ffreestanding is not enough to get GCC not to do this, and there's basically no option but to provide your own implementations of memcpy, memmove, memset and memcmp. I'm happy to do that, but how?

If I just write memset the compiler will detect the loop inside it and transform it into a call to memset! In fact in the code provided by the CPU vendor I'm using I actually found this comment:

/*
// This is commented out because the assembly code that the compiler generates appears to be
// wrong.  The code would recursively call the memset function and eventually overruns the
// stack space.
void * memset(void *dest, int ch, size_t count)
...

So I assume that is the issue they ran into.

How do I supply a C implementation of memset without the compiler optimising it to a call to itself and without disabling that optimisation?

24
  • 2
    Does this answer your question? stackoverflow.com/questions/2548486/compiling-without-libc – YSC Apr 22 at 9:32
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    Weird, -ffreestanding works for me. – ssbssa Apr 22 at 10:37
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    @Lundin: I don't see why you need to know the target system. I think you misunderstood. – Timmmm Apr 22 at 10:55
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    @EricPostpischil It turns out the compiler really inserts memset and memcpy calls even with -ffreestanding, when initializing/copying large structs. This is also mentioned in the gcc documentation: GCC requires the freestanding environment provide memcpy, memmove, memset and memcmp. – ssbssa Apr 22 at 17:36
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    @supercat I think the answer provided here is the "correct" way, since glibc is doing it like this (and AFAIK they work hand in hand with gcc). – ssbssa Apr 22 at 18:56
28

Aha I checked in the glibc code and there's a inhibit_loop_to_libcall modifier which sounds like it should do this. It is defined like this:

/* Add the compiler optimization to inhibit loop transformation to library
   calls.  This is used to avoid recursive calls in memset and memmove
   default implementations.  */
#ifdef HAVE_CC_INHIBIT_LOOP_TO_LIBCALL
# define inhibit_loop_to_libcall \
    __attribute__ ((__optimize__ ("-fno-tree-loop-distribute-patterns")))
#else
# define inhibit_loop_to_libcall
#endif
5
  • No, you aren't likely able to run glibc on bare metal systems. I think other attempts to more suitable libs for Linux-flavoured systems are out there, such as uClibc. I haven't used it myself so I can't vouch for it. – Lundin Apr 22 at 9:41
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    @Lundin hem. This is the solution, i.e. __attribute__ ((__optimize__ ("-fno-tree-loop-distribute-patterns"))) modifier to Timmmm's own definition of memset etc. – Antti Haapala Apr 22 at 9:59
  • @AnttiHaapala That depends on the gcc target port. Also if you are rolling out your own std lib replacement you shouldn't be using another std lib at the same time, obviously... – Lundin Apr 22 at 10:12
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    I'm not using any libc implementation. I think you might have misunderstood the problem. – Timmmm Apr 22 at 10:52
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    @Lundin, the point here is that since glibc provides an implementation of memset, it needs to have some method of suppressing GCC's "replace this code with a call to memset" optimization, without reducing the global optimization level. – Mark Apr 23 at 0:39
3

You mention in your question:

It seems like the optimisation that does this transformation is -ftree-loop-distribute-patterns

all you need to do to turn off this optimization is pass -fno-tree-loop-distribute-patterns to the compiler. This turns off the optimization globally.

7
  • This is strictly worse than my answer, which just turns it off for memset. – Timmmm Apr 24 at 12:44
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    @Timmmm This is the answer you want rather than the answer you think you want; assuming your memset won't be any different than the naive C implementation, it could be slower than having the compiler simply generate a loop inside the code. The compiler really only generates calls to memset because it assumes (and is correct in most cases) that memset is faster than anything it could generate itself. – S.S. Anne Apr 25 at 14:50
  • That is a good point, but your solution still won't work in general because the compiler can still generate calls to memset() even with this flag. See ssbssa's example. – Timmmm May 4 at 9:05
  • @Timm your answer uses the same flag so that's a moot point – S.S. Anne May 5 at 22:26
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    Mine only uses the flag for specific functions which don't do anything else to trigger GCC's insertion of calls to memset()/memcpy(). – Timmmm May 6 at 8:58

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