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As a newcomer to C, I'm confused about when casting a pointer is actually OK.

As I understand, you can pretty much cast any pointer type to any other type, and the compiler will let you do it. For example:

int a = 5;
int* intPtr = &a;
char* charPtr = (char*) intPtr; 

However, in general this invokes undefined behavior (though it happens to work on many platforms). This said, there seem to be some exceptions:

  • you can cast to and from void* freely (?)
  • you can cast to and from char* freely (?)

(at least I've seen it in code...).

So which casts between pointer types are not undefined behaviour in C?


I tried looking into the C standard (section " Pointers", at http://c0x.coding-guidelines.com/ ), but didn't really understand it, apart from the bit about void*.


Just for clarification: I'm explicitly only asking about "normal" pointers, i.e. not about function pointers. I realize that the rules for casting function pointers are very restrictive. As I matter of fact, I've already asked about that :-): What happens if I cast a function pointer, changing the number of parameters

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4 Answers 4

up vote 13 down vote accepted


  • a T * may be freely converted to a void * and back again (where T * is not a function pointer), and you will get the original pointer.
  • a T * may be freely converted to a U * and back again (where T * and U * are not function pointers), and you will get the original pointer if the alignment requirements are the same. If not, the behaviour is undefined.
  • a function-pointer may be freely converted to any other function-pointer type and back again, and you will get the original pointer.

Note: T * (for non-function-pointers) always satisfies the alignment requirements for char *.

Important: None of these rules says anything about what happens if you convert, say, a T * to a U * and then try to dereference it. That's a whole different area of the standard.

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In addition to point two, if the alignment requirements are the same, a cast back from U* to T* will compare equal to the original T*. –  James Greenhalgh Jan 26 '11 at 22:03
@malfy: there's no requirement that alignment be the same as an object's size. An object's size will influence it's alignment requirements, and the alignment of an object will influence the size of the object (in that the size will have to be a multiple of the alignment). But there's nothing that says that an object's size and alignment need to be the same. There are even platforms where alignment isn't a requirement at all. –  Michael Burr Jan 26 '11 at 22:29
@sleske: A T * (for any non-function T) is guaranteed by design to be correctly aligned for a char *. What's more, the standard guarantees that one is allowed to dereference the char * and access the underlying data (this isn't true for any other destination type). –  Oliver Charlesworth Jan 26 '11 at 22:35
@sleske: Due to the way arrays and object sizes interact (the size of a type is equal to the spacing of that type within an array), required alignment of a type must evenly divide the size of a type. Since the size of char is fixed as 1, the alignment of char cannot be anything else but 1 also. –  caf Jan 27 '11 at 4:57
@Oli: Well, it's your answer :-). I'd appreciate some mention of the fact that T*->char*->T* always works. It's true that it logically follows from point two, but I feel that that is far from obvious, yet important, because char* is often used as a "generic pointer". An answer should be as concise as possible, but no more than that ;-) (with apologies to Einstein). Maybe you could add some note? –  sleske Jan 27 '11 at 13:52

Generally, if as usual nowadays the pointers themselves have the same alignment properties, the problem is not the cast itself, but whether or not you may access the data through the pointer.

Casting any type T* to void* and back is guaranteed for any object type T: this is guaranteed to give you exactly the same pointer back. void* is the catch all object pointer type.

For other casts between object types there is no guarantee, accessing an object through such a pointer may cause all sorts of problems, such as alignments (bus error), trap representations of integers. Different pointer types are not even guaranteed to have the same width, so theoretically you might even loose information.

One cast that should always work, though, is to (unsigned char*). Through such a pointer you may then investigate the individual bytes of your object.

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Note that casting from one pointer type to another pointer type might result in undefined behavior even if you don't attempt to dereference the pointer (if the pointer would be of an incorrect alignment for the destination type). –  Michael Burr Jan 26 '11 at 22:35
There's no need for the (void *) in (unsigned char *)(void *). –  R.. Jan 27 '11 at 0:10
@Michael, @R, right, corrected accordingly. –  Jens Gustedt Jan 27 '11 at 7:50
AFAIK, casting a pointer to a different type and then dereferencing it is always UB, or at least implementation-defined (except maybe if the two types are just typedefsfor the same type). –  sleske Jan 27 '11 at 14:29
@sleske: I didn't say char I said unsigned char. For signed char (and so for char if it is signed) this is special because of the possible problems with trap representations for the type. But by definition in the standard unsigned char never has trap representations or padding bits, and so accessing the individual bytes as unsigned char is always well defined and there is no room for interpretation. Access through unsigned char to the components of an object is foreseen as such at several places of the standard. –  Jens Gustedt Jan 27 '11 at 16:22

Oli Charlesworth's excellent answer lists all cases where casting a pointer to a pointer of a different type gives a well-defined result.

In addition, there are four cases where casting a pointer gives implementation-defined results:

  • You can cast an integer to a pointer. The result is implementation-defined; commonly it interprets the numeric value as the memory address the pointer should point to. This of course more or less assumes that a memory address can be designated by a single number, i.e. that memory can be addressed as a contiguous stream of bytes (which may not be true on all platforms, which is why this is implementation-defined :-) ).
  • Similarly, you can cast a pointer to an sufficiently large (!) integer type. The result is again implementation-defined, but is usually the reverse of the conversion described above.
  • You can cast a pointer to any object to char*. Then the result points to the lowest addressed byte of the object (C Standard sent. 761), and you can read the remaining bytes of the object by incrementing the pointer, upto the object's size. Of course, which values you actually get is again implementation-defined...
  • You can freely cast null pointers, they'll always stay null pointers regardless of pointer type :-).

As far as I can tell, all other casts of a pointer to a pointer of a different type are undefined behavior. In particular, if you are not casting to char or a sufficiently large integer type, it is always UB to cast a pointer to a different pointer type and then dereference it.

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It's undefined behaviour, when you cast to a type with a different size. For example, casting from a char to an int. A char is 1 byte long. Integers are 4 bytes long (on a 32 bit Linux system). So if you have a pointer to a char and you cast that to a pointer to an int, that will cause undefined behaviour. Hope this helps.

Something like the following below, would cause undefined behaviour:

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

int main() {

    char *str = "my str";
    int *val;

    val = calloc(1, sizeof(int));
    if (val == NULL) {
    *val = 1;

    str = (char) val;

    return 0;

EDIT: What Oli said about void* pointers is correct, by the way. You can cast between any void pointer and another pointer.

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-1 Casting to a type with different size is not UB. It's only UB if the types have different alignment requirements; types with different sizes can have the same alignment (e.g. always 1). See Oli Charlesworth's answer above. –  sleske Jan 27 '11 at 14:15
BTW, your example code there is not even a pointer cast (just a regular "value cast"). –  sleske Jan 27 '11 at 14:16
True that, I forgot he was asking specifically about pointers. –  atx Jan 27 '11 at 19:06

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