In particular, is it allowed for the addresses of two automatic variables in different functions to compare equal as follows:


#include <stdio.h>
#include <stdlib.h>

void sink(void *l, void *r) {
    puts(l == r ? "equal" : "not equal");


typedef struct { char x[32]; } Foo;

void sink(void *l, void *r);

Foo make(void *p) {
    Foo f2;
    sink(&f2, p);
    return f2;

int main() {
    Foo f1 = make(&f1);

I would expect this to print not equal as f1 and f2 are distinct objects. With gcc I get not equal, but with my local version of clang 3.81, it prints equal, when compiled as clang -O1 sink.c main.c2.

Disassembling make and main ...

0000000000400570 <make>:
  400570:   53                      push   rbx
  400571:   48 89 fb                mov    rbx,rdi
  400574:   e8 d7 ff ff ff          call   400550 <sink>
  400579:   48 89 d8                mov    rax,rbx
  40057c:   5b                      pop    rbx
  40057d:   c3                      ret    
  40057e:   66 90                   xchg   ax,ax

0000000000400580 <main>:
  400580:   48 83 ec 28             sub    rsp,0x28
  400584:   48 8d 7c 24 08          lea    rdi,[rsp+0x8]
  400589:   48 89 fe                mov    rsi,rdi
  40058c:   e8 df ff ff ff          call   400570 <make>
  400591:   31 c0                   xor    eax,eax
  400593:   48 83 c4 28             add    rsp,0x28
  400597:   c3                      ret    

... we see that make never seems to create the Foo f2 object at all, it just calls sink with the existing rdi and rsi (the l and r parameters, respectively). These are passed by main and are the same: the first, rdi, is the hidden pointer to the location to put the return value, and the second is &f1, so we expect these to be the same.

1 I checked versions up to 7.0 and the behavior is roughly the same.

2 It happens for -O1, -O2 and -O3, but not -O0 which prints not equal instead.

  • 1
    @r3musn0x on the [c] tag questions are about Standard C unless otherwise specified
    – M.M
    Jun 3 '18 at 8:14
  • 1
    I'm asking whether this is allowed by the language, like most "Can X happen" questions. It's not clear that the pointers are comparing equal in my case: perhaps there is some UB lurking in my program that lets the compiler do whatever it wants. I suppose I could have left the clang behavior out entirely, but compiler behavior usually serves as a good positive test for what the standard allows. @r3
    – BeeOnRope
    Jun 3 '18 at 8:17
  • 3
    Compiler bug. Overzealous optimizer. The result must be "not equals". Jun 3 '18 at 8:35
  • 3
  • 2
    @RbMm - that's C++, but this question is about C. In the C++ the rules are different, in particular RVO. Use the drop-down in godbolt to select C.
    – BeeOnRope
    Jun 3 '18 at 21:43

The C11 standard part 6.5.9/6 says:

Two pointers compare equal if and only if both are null pointers, both are pointers to the same object (including a pointer to an object and a subobject at its beginning) or function, both are pointers to one past the last element of the same array object, or one is a pointer to one past the end of one array object and the other is a pointer to the start of a different array object that happens to immediately follow the first array object in the address space.

In this code none of the listed conditions hold; &f1 and &f2 are pointers to different objects, and one is not a subobject of the other.

So the pointers must not compare equal. The compiler reporting equal is non-conforming.

Note: If anyone has doubts about the legality of Foo f1 = make(&f1);, see this question. It is fine and the automatic object's lifetime begins at the preceding {.

  • You should add the first sentence from 6.2.4p6 Jun 3 '18 at 8:35
  • Ah, so you could link that one here too, for a casual reader. I hadn't read that other one yet. Jun 3 '18 at 8:40
  • may be this and compiler (gcc,clang,zapcc) bug, but construction, when function return object (not fit general register size) is bad by design (by my opinion). technically direct do this impossible. when some function (T fn()) return object - compiler need pass additional hidden parameter to this function - pointer to object - T t = fn(); will be implemented as T t; fn(&t) really always. and if we write construction T fn(T*) and T t = fn(&t) - not very surprised that some compiler implement this as T t; fn(&t, &t)
    – RbMm
    Jun 3 '18 at 10:58
  • 1
    @RbMm we're not surprised either, but it is still wrong. Jun 3 '18 at 22:46
  • @RbMm - as mentioned in the comment thread on the question, those other compilers do this in C++, not C. In C++ this optimization is probably valid due to RVO and/or NRVO which explicitly allows objects to be elided in this case.
    – BeeOnRope
    Jun 3 '18 at 22:47

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