Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

This code prints different values after compiling with -O1 and -O2 (both gcc and clang):

#include <stdio.h>

static void check (int *h, long *k)
  *h = 5;
  *k = 6;
  printf("%d\n", *h);

union MyU
    long l;
    int i;

int main (void)
  union MyU u;
  check(&u.i, &u.l);
  return 0;

I think it should be undefined behavior, because of the pointer aliasing, but I cannot pinpoint exactly what part of the code is forbidden.

It does write to one union element and then read from the other, but according to Defect Report #283 that is allowed. Is it UB when the union elements are accessed through pointers rather than directly?

This question is similar to Accessing C union members via pointers, but I think that one was never fully answered.

share|improve this question
Not that I'm an expert, but reading the link you provided in your last paragraph, it appears like you are violating the rule given in the accepted answer there: "The value of a union member other than the last one stored into (" Specifically, you write a 6 into u.l then read from *h, which points to u.i, making it what that post argues is "unspecified" behavior. –  Turix Apr 6 at 16:59
@Tor: It was, and your example is amply explained by the accepted answer. –  Deduplicator Apr 6 at 17:08
1 of the ISO standard says: "When a value is stored in a member of an object of union type, the bytes of the object representation that do not correspond to that member but do correspond to other members take unspecified values." –  mfro Apr 6 at 17:14
I found this blog post and an other defect report #236. I think the answer is that a union has an "active member" (the member last written to) and the active member may only be changed through the union. Trying to change the active member by writing to a pointer to a union member is undefined behavior. –  Tor Klingberg Apr 6 at 17:44
@Deduplicator, I think the suggested duplicate is different. The aliasing rules specify that it's OK to use char to alias other types , however in this post it is int and long being aliased, so "unspecified" is no longer the right answer IMO; violation of aliasing rules trumps this. –  Matt McNabb Apr 6 at 23:43

3 Answers 3

I have compiled your code with -O1 and -O2 and ran a gdb session, here is the output:

(gdb) r
Starting program: /home/sheri/test 
Breakpoint 1, main () at test.c:17
17  {
(gdb) s
19          check(&u.i, &u.l);
(gdb) p u
$1 = <optimized out>
(gdb) p u.i
$2 = <optimized out>
(gdb) p u.l
$3 = <optimized out>`

I am not a gdb expert but here are the things to note. 1. the union is not present in the stack but it's kept in a register, and that's why it prints when you print it, or it's i or l

I have disassembled the executable and looked at main, and here is what I found: 0000000000400440 :

400440: 48 83 ec 08             sub    $0x8,%rsp
400444: ba 06 00 00 00          mov    $0x6,%edx
400449: be 3c 06 40 00          mov    $0x40063c,%esi
40044e: bf 01 00 00 00          mov    $0x1,%edi
400453: 31 c0                   xor    %eax,%eax
400455: e8 d6 ff ff ff          callq  400430 <__printf_chk@plt>

So in line 2 the compiler pushed 0x6 into %edx register directly, and it didn't create the function check at first place, as it already figured out that the value that is passed to printf will always be 6.

May be u should try the same and see what output did you got in your machine.

share|improve this answer
UB can be the expected behaviour or it can be something completely different. Just because it works with <vendor> compiler <version> on <processor> running <operating system> doesn't mean it will have the same behaviour with all configurations of those. –  dave Apr 7 at 1:13
@dave Machine code can, however, show that something doesn't work in a reasonable way, which points to it either being undefined or there being a compiler bug. –  Kaz Apr 7 at 4:23
@Kaz my point was that showing that it does work however doesn't point to it not being undefined behaviour. And that's the problem with your answer. You can show that it isn't working in a reasonable way but can't show that it IS working reasonably. –  dave Apr 26 at 4:19

It took me a while to realize what the crux of the issue is here. DR236 discusses it. The issue is actually about passing pointers to a function which point to overlapping storage; and whether the compiler is allowed to assume that such pointers may alias each other or not.

If we are just discussing aliasing of union members then it would be simpler. In the following code:

u.i = 5;
u.l = 6;
printf("%d\n", u.i);

the behaviour is undefined because the effective type of u is long; i.e. the storage of u contains a value that was stored as a long. But accessing these bytes via an lvalue of type int violates the aliasing rules of 6.5p7. The text about inactive union members having unspecified values does not apply (IMO); the aliasing rules trump that, and that text comes into play when aliasing rules are not violated, for example, when accessed via an lvalue of character type.

If we exchange the order of the first two lines above then the program would be well-defined.

However, things all seem to change when the accesses are "hidden" behind pointers to a function.

The DR236 addresses this via two examples. Both examples have check() as in this post. Example 1 mallocs some memory and passes h and k both pointing to the start of that block. Example 2 has a union similar to this post.

Their conclusion is that Example 1 is "unresolved", and Example 2 is UB. However, this excellent blog post points out that the logic used by DR236 in reaching these conclusions is inconsistent. (Thanks to Tor Klingberg for finding this).

The last line of DR236 also says:

Both programs invoke undefined behavior, by calling function f with pointers qi and qd that have different types but designate the same region of storage. The translator has every right to rearrange accesses to *qi and *qd by the usual aliasing rules.

(apparently in contradiction of the earlier claim that Example 1 was unresolved).

This quote suggests that the compiler is allowed to assume that two pointers passed to a function are restrict if they have different types, however I cannot find any wording in the Standard to this effect, or even addressing the issue of the compiler re-ordering accesses through pointers.

It has been suggested that the aliasing rules allow the compiler to conclude that an int * and a long * cannot access the same memory. However, Examples 1 and 2 flatly contradict this.

If the pointers had the same type, then I think we agree that the compiler cannot reorder the accesses, because they might both point to the same object. The compiler has to assume the pointers are not restrict unless specifically declared as such.

Yet, I fail to see the difference between this case, and the cases of Example 1 and 2.

DR236 also says:

Common understanding is that the union declaration must be visible in the translation unit.

which again contradicts the claim that Example 2 is UB, because in Example 2 all of the code is in the same translation unit.

My conclusion: it seems to me that the C99 wording indicates that the compiler should not be allowed to re-order *h = 5; and *k = 6; in case they alias overlapping storage. Notwithstanding the fact that the DR236 contradicts the C99 wording and does not clarify matters. But reading *h after that should cause undefined behaviour, so the compiler is allowed to generate output of 5 or 6 , or anything else.

In my reading, if you modify check() to be *k = 6; *h=5; then it should be well-defined to print 5. It'd be interesting to see whether a compiler still does something else in this case, and also the compiler's rationale if it does.

share|improve this answer
"But accessing these bytes via an lvalue of type int violates the aliasing rules of 6.5p7" The value is accessed via the union object which is one of the cases explicitly allowed by 6.5p7. absolutely applies, in fact there's no other situation where it could apply. –  tab Apr 7 at 2:22
u has "aggregate or union type" as in 6.5p7, but u.l does not. As discussed in detail in the linked blog post, it's not very clear what that bullet point is trying to say, but the purpose could be to ensure that it is well-defined to write union MyU v; v = u;. –  Matt McNabb Apr 7 at 2:27

The relevant quote from the standard is the relevant aliasing rules which are violated. Violation of a normative shall always results in Undefined Behavior, so everything goes:

6.5 Expressions §7
An object shall have its stored value accessed only by an lvalue expression that has one of the following types:88)
— a type compatible with the effective type of the object,
— a qualified version of a type compatible with the effective type of the object,
— a type that is the signed or unsigned type corresponding to the effective type of the object,
— a type that is the signed or unsigned type corresponding to a qualified version of the effective type of the object,
— an aggregate or union type that includes one of the aforementioned types among its members (including, recursively, a member of a subaggregate or contained union), or
— a character type.

While main() does use a union, check() does not.

share|improve this answer
What's your opinion of the alternate version of check, with *k = 6; *h = 5; printf("%d\n", *h); ? –  Matt McNabb Apr 7 at 1:18
@MattMcNabb: Still UB as far as I can see. Though I don't think anything catastrophic will happen in either case. –  Deduplicator Apr 7 at 1:20
There's no aliasing violation in this alternate version though (if the writes are not re-ordered) - *h is only read immediately after *h was written. Also, OP was being charitable by using int and long; if one type was double or a pointer type, then things could get hairy. –  Matt McNabb Apr 7 at 1:22
@MattMcNabb: Hm. Cannot find anything I'm sure would make the alternate version UB, so it might be ok. But I would not bet on it, nor on any specific compiler correctly following that understanding. Just too dangerous. –  Deduplicator Apr 7 at 1:30

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.