Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

As pointed out in an answer to this question, the compiler (in this case gcc-4.1.2, yes it's old, no I can't change it) can replace struct assignments with memcpy where it thinks it is appropriate.

I'm running some code under valgrind and got a warning about memcpy source/destination overlap. When I look at the code, I see this (paraphrasing):

struct outer
    struct inner i;
    // lots of other stuff

struct inner
    int x;
    // lots of other stuff

void frob(struct inner* i, struct outer* o)
    o->i = *i;

int main()
    struct outer o;

    // assign a bunch of fields in o->i...

    frob(&o.i, o);
    return 0;

If gcc decides to replace that assignment with memcpy, then it's an invalid call because the source and dest overlap.

Obviously, if I change the assignment statement in frob to call memmove instead, then the problem goes away.

But is this a compiler bug, or is that assignment statement somehow invalid?

share|improve this question
I'm pretty sure you meant to write frob(..., &o), and not (..., 0). –  Andy Finkenstadt Mar 23 '11 at 22:01
It's a compiler bug. The entire gcc 4.x series is full of crap like this, including breaking LIST_ENTRY / LIST_HEAD type punning which predates gcc 1.0. Join the gcc-4 resistance! –  Heath Hunnicutt Mar 23 '11 at 22:02
@Andy - My fat fingers. Thanks. –  bstpierre Mar 24 '11 at 2:46
@Heath: The entire 4.x series? Are you seriously suggesting that we move back to 3.x? Or did you invent a time machine and you have access to the awesome futuristic 5.x series? –  Adam Rosenfield Mar 24 '11 at 3:32
Accepted Jens' answer as I think it most clearly defines the issue. R.. is probably right in thinking that this is a gcc bug (at least a lurking bug) but in my particular combination it isn't a problem. At the very least I changed it to memmove to get valgrind to shut up. Thanks for the answers. –  bstpierre Mar 25 '11 at 12:55

3 Answers 3

up vote 4 down vote accepted

I think that you are mixing up the levels. gcc is perfectly correct to replace an assignment operation by a call to any library function of its liking, as long as it can guarantee the correct behavior.

It is not "calling" memcpy or whatsoever in the sense of the standard. It is just using one function it its library for which it might have additional information that guarantees correctness. The properties of memcpy as they are described in the standard are properties seen as interfaces for the programmer, not for the compiler/environment implementor.

Whether or not memcpy in that implementation in question implements a behavior that makes it valid for the assignment operation is another question. It should not be so difficult to check that or even to inspect the code.

share|improve this answer
Right. The bug, if anywhere, is in valgrind - you're not allowed to use a memcpy() there, but the implementation is, since it's the one that provides memcpy(). –  caf Mar 23 '11 at 22:44
So you're essentially saying that, in this case gcc knows that the particular implementation of memcpy it is using is overlap-safe? –  bstpierre Mar 24 '11 at 2:54
@bstpierre, no, I am saying that it should know, and that using it is in itself not a violation of the standard. Whether or not it is effectively overlap safe (or their use in an assignment operator) should be subject to tests. –  Jens Gustedt Mar 24 '11 at 6:56
In practice, any sane implementation of memcpy will be fine if the objects overlap exactly. It's only when they overlap partially that special consideration is needed. This is probably gcc's justification for assuming it just works. –  R.. Jun 23 '13 at 3:46

I suppose that there is a typo: "&o" instead of "0". Under this hypothesis, the "overlap" is actually a strict overwrite: memcpy(&o->i,&o->i,sizeof(o->i)). In this particular case memcpy behaves correctly.

share|improve this answer
How so? The behavior is undefined. –  R.. Mar 23 '11 at 22:08
Yes and no... the implementation of memcpy on which gcc relies works correctly when source and destination are the same: it copies each byte/word on itself. –  Giuseppe Guerrini Mar 23 '11 at 22:12
The implementation is not part of gcc, and it's not gcc's business to make assumptions about it. Those assumptions could even change with different library versions. For example look at what happened to Adobe Flash Player when it assumed glibc memcpy copies in order of increasing address.... –  R.. Mar 23 '11 at 22:37
Unfortunately gcc DOES assume that memcpy works this way :-( ... –  Giuseppe Guerrini Mar 24 '11 at 7:46
GCC_WONTFIX_BUGS++ –  R.. Mar 24 '11 at 13:13

As far as I can tell, this is a compiler bug. i is allowed to alias &o.i according to the aliasing rules, since the types match and the compiler cannot prove that the address of o.i could not have been previously taken. And of course calling memcpy with overlapping (or same) pointers invokes UB.

By the way note that, in your example, o->i is nonsense. You meant o.i I think...

share|improve this answer
"invokes UB" - well, it would if a program did it. gcc might conceivably be relying on some guarantee by glibc that defines the result. Maybe I misremember, but I think I've seen kernel comments before to the effect that an aligned memcpy is guaranteed to be a forward copy, or something. Or maybe comments in an implementation of memmove? Might not have been GNU at all, though. –  Steve Jessop Mar 23 '11 at 22:12
Last I checked glibc was not part of gcc or a requirement for using gcc.... –  R.. Mar 23 '11 at 22:37
glibc is part of my C implementation, though. So when you checked, I hope you checked really closely how gcc is documented to behave with C library implementations whose documented behavior differs from the documented behavior of glibc, because in the event that there is some relevant guarantee, it becomes quite important. –  Steve Jessop Mar 23 '11 at 22:41
Nonetheless, the compiler itself can't invoke "undefined behaviour". It's up to the combination of the compiler and standard library to correctly implement the standard. If you used gcc with a C library where the memcpy() caused a problem in this instance, you'd have a nonconforming implementation - whether that was the fault of gcc or the library is a matter for the gcc and library authors to argue out between them. –  caf Mar 23 '11 at 22:46
Thanks for pointing out the typo, fixed now. –  bstpierre Mar 24 '11 at 2:57

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.