4

Yes, I know perfectly well you should not do that. If we have this code:

int *foo() {
    int a = 42;
    return &a;
}

As most C coders know, this is undefined behavior: Using pointer after free()

int *p = foo();
printf("%d\n", *p);

Just so that future readers don't take this as the truth. Everything below until the question was based on a false assumption from me. It's not UB. It's just bad.

As some C coders know, but less than for above, that this also is UB, even though no dereferencing is done: (Was trying to find a good question about this, but did not find anyone)

int *p = foo();
printf("%p\n", p); // Should be printf("%p\n", (void*) p);
                   // Eric P clarified this in his answer, but this missing cast
                   // is not a part of the primary question

And for the same reason, also this is UB, because what happens, is that the pointer become indeterminate, just like an uninitialized variable. A so called dangling pointer.

int *p = foo();
int *q = p;

And somewhat surprising to some, even this is not ok:

free(ptr);
if(ptr == NULL) // Just as bad as if ptr is not initialized

The question

What I do wonder, is if also this single line invokes UB:

int *p = foo();

Or maybe even this?

foo();

In other words, does p become a dangling pointer, or does it get assigned to a dangling pointer?

I don't know if there's any practical use for this, except deeper understanding for the C language. Well one good use case would be to figure out which refactorings that are urgent and which can wait.

23
  • 1
    I'll need to look thoroughly into to the Standard (or maybe someone else will) but, as far as I can tell, int *p = foo(); is not UB, and nor is the subsequent printf("%p\n", p);. That pointer will have a value (an address) and that address can be printed. Only when you attempt to dereference it does UB kick in. Mar 12, 2021 at 19:50
  • Related: stackoverflow.com/q/51083356/1606345 Mar 12, 2021 at 19:50
  • The value of a pointer becomes indeterminate when the object it points to (or just past) reaches the end of its lifetime. - port70.net/~nsz/c/c11/n1570.html#6.2.4
    – Eugene Sh.
    Mar 12, 2021 at 19:54
  • 3
    I always trust @EricPostpischil when it comes to questions like this. We have very different personalities and opinions, but he is really the master when it comes to small details in the C language, and his answers are always extremely informative. I love them.
    – klutt
    Mar 12, 2021 at 20:26
  • 1
    @klutt Yeah, I git it. So the question is boiling down to whether it is UB to assign a dangling pointer to another pointer variable. I believe we have had similar discussions few times..
    – Eugene Sh.
    Mar 12, 2021 at 20:29

1 Answer 1

3

C 2018 6.2.4 says “… The value of a pointer becomes indeterminate when the object it points to (or just past) reaches the end of its lifetime.” 3.19.2 tells us an indeterminate value is “either an unspecified value or a trap representation.” 3.19.3 tells us an unspecified value is a “valid value of the relevant type where this document imposes no requirements on which value is chosen in any instance” (meaning the value can appear to be different each time we use it, even if no apparent changes are made to it).

Thus in:

int *p = foo();
printf("%p\n", (void *) p); // "(void *)" added to pass correct type for %p.

We do not know what value will be printed for p. If the C implementation has no trap representations for pointers, then its indeterminate value cannot be a trap representation, so there is no undefined behavior. However, it is, per 3.19.3, some valid value.

This answer does not speak to other questions in the post, such as whether:

int *p = foo();
int *q = p;

assigns to q some value that is fixed once the assignment is done (thus printing q repeatedly always prints the same value) or assigns to q the notional “indeterminate value” (thus printing q repeatedly would be allowed to print different values). (Either way, it is not undefined behavior, except for the possibility of trap representations.)

9
  • 1
    "This answer does not speak to other questions in the post," - I would REALLY like to know the answer if you know it. But really good answer so far.
    – klutt
    Mar 12, 2021 at 20:40
  • "If the C implementation has no trap representations for pointers, then its indeterminate value cannot be a trap representation, so there is no undefined behavior." --> So if the implementation does has a pointer trap value, it is UB to do the assignment? Mar 12, 2021 at 21:40
  • Would it be trap representation to have pointer that points to an address misaligned for the type? Mar 12, 2021 at 22:18
  • @chux-ReinstateMonica: If the implementation has a trap representation and the value of the pointer is a trap representation, then the behavior is not defined by the C standard. Mar 12, 2021 at 22:40
  • @ChristianGibbons: Possibly, but one might have to interpret the wording in 6.2.8 that regarding alignment restricting “allocation” of an object to multiples of the alignment requirement as meaning that unaligned pointers are not values of the trap (and so are trap representations, although they need not trap, as the behavior is not defined), and that is not really the point of the question here, so I do not think we should get into it. A separate question could be entered. Mar 12, 2021 at 22:43

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