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I came across this in an IRC channel yesterday and didn't understand why it was bad behavior:

#include <stdio.h>

int main(void)
     char x[sizeof(int)] = { '\0' }; int *y = (int *) x;
     printf("%d\n", *y);

Is there any loss of data or anything? Can anyone give me any docs to explain further about what it does wrong?

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Does it matter? Why would you write such code? – Clifford Jan 18 '10 at 19:14
@Cliff, depends on your definition of matters. If knowing more about a language, including corner-cases, is a good thing, this matters. Knowledge is always good. – GManNickG Jan 18 '10 at 19:16
@Clifford - even if you wouldn't write that code, you may someday need to maintain someone else's code that is written that way. – R Samuel Klatchko Jan 18 '10 at 19:59

4 Answers 4

For one thing, the array x is not guaranteed to be aligned properly for an int.

There's been a conversation topic about how this might affect techniques like placement new. It should be noted that placement new needs to occur on properly aligned memory as well, but placement new is often used with memory that allocated dynamically, and allocation functions (in C and C++) are required to return memory that's suitably aligned for any type specifically so the address can be assigned to a pointer of any type.

The same isn't true for the memory allocated by the compiler for automatic variables.

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Is there a difference in rules between C and C++? This is valid in C++. (Just like placement new, int *y = new (x) int;) – GManNickG Jan 18 '10 at 19:14
I don't think this is valid C++. The types involved do not satisfy 3.10/15. In particular, the behavior of the code depends on the alignment of int and on the value representation of int. In C++, this is even more of an issue, because C++ states that unspecified behavior introduces non-determinism into its abstract machine, and if any of such possible execution paths yield undefined behavior, then it has no requirements on the executing implementation. That means, the code above is effectively executing undefined behavior, because the value and object representation is unspecified. – ᐅ Johannes Schaub - litb ᐊ Jan 18 '10 at 19:35
The C++-FAQ itself even uses almost the same kind of code: I know the C++-FAQ isn't the final word on things, but I don't think the author would miss something like that. EDIT: But now that litb has chimed in... :P – GManNickG Jan 18 '10 at 19:36
Hm, looking around a bit it does seem the case you guys are right. I retract my bad statement, and learn my new thing for the day. – GManNickG Jan 18 '10 at 19:38
@GMan this is different than placement new. Assuming the array is properly aligned, then if you use placement new, you reuse the storage of the array to create a new object. If you then read from that object, the object type and the accessing expression have compatible types. Luckily, the alignment of an object is implementation-defined, and so there is no problem with regard to non-determinism. Assuming proper alignment, you first have to "reuse" the storage of x for a new object of type int. Granted, i've never been able to find out what "reuse" means exactly (see 3.8/1). – ᐅ Johannes Schaub - litb ᐊ Jan 18 '10 at 19:40

The array x may not be properly aligned in memory for an int. On x86 you won't notice, but on other architectures, such as SPARC, dereferencing y will trigger a bus error (SIGBUS) and crash your program.

This problem may occur for any address:

int main(void)
    short a = 1;
    char b = 2;

    /* y not aligned */
    int* y = (int *)(&b);
    printf("%d\n", *y); /* SIGBUS */
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You are casting char to pointer, so its obvious that it fails. While his array have same size as int, and its casting to int. – qba Jan 18 '10 at 19:42
@qba - the issue is alignment, not size. There's a good discussion about this following Michael Burr's answer. – R Samuel Klatchko Jan 18 '10 at 19:57
It would probably be clearer if you made b an int. – GManNickG Jan 18 '10 at 20:25
But if b were an int, it wouldn't illustrate the issue. Better would be char b[8] = { 0, 1, 2, 3, 4, 5, 6, 7}; and int* y = (int*)(&b[1]); which has a higher probability of triggering a bus error. – Mike DeSimone Jan 18 '10 at 20:29
Well, it would still demonstrate the possibility of it happening. You're out to definitely get a bus error, I only thought we were showing a situation where it might fail, even though it looks innocent. – GManNickG Jan 18 '10 at 20:43

Why not use a union instead?

union xy {
    int y;
    char x[sizeof(int)];
union xy xyvar = { .x = { 0 } };
printf("%d\n", xyvar.y);

I haven't verified it, but I would think the alignment problems mentioned by others would not be a problem here. If anyone has an argument for why this isn't portable, I'd like to hear it.

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It isn't portable, because the standard says that writing one member of a union, and then reading the other isn't portable. OTOH, if you're going to do type punning at all, this is about as portable as it gets. – Jerry Coffin Jan 18 '10 at 20:19
So, it is not officially portable, but is practicly portable. I was looking for some setup where it wouldn't work (ignoring the obvious endianness problems). – Tim Schaeffer Jan 18 '10 at 21:00
@Jerry, if x was of type unsigned char, then it would be defined and portable, wouldn't it? – Alok Singhal Jan 18 '10 at 22:03
@Alok: that depends -- according to C89/90, it's not, but according to C++ and C99, it is portable to a degree. The resulting values are unspecified, but at least it doesn't involve any undefined behavior. – Jerry Coffin Jan 18 '10 at 22:13
@Tim: there are times/places that it won't work, but they're pretty unusual. Just for example, at least one compiler has been written that uses type-tagging so any attempt at type punning like this will fail. As far as I know, that was never publicly released though, so I don't know whether you count it as practical or not. – Jerry Coffin Jan 18 '10 at 22:21

I think that while the alignment issue is true, it is not the whole story. Even if alignment is not a problem, you are still taking 4 bytes on the stack, only one of them initialized to zero, and treating them like an integer. This means that the printed value has 24 un-initialized bits. And using un-initialized values is a basic 'wrong'.

(Assuming sizeof(int)==4 for simplicity).

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No, all the elements of the array x are initialized to 0. In C, if an aggregate type has fewer initializers than needed, they're rest are all taken to be 0. – Alok Singhal Jan 18 '10 at 21:58

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