int *ptr;

I noticed if I use option number one more than once, the value of the first memory address (which ptr points to), becomes undefined (although all other values in the memory block are fine and can be accessed by subscripting ptr).

However, I assumed that all realloc does is either shrink or increase the size of a memory block, and ptr will still point to the same memory block and none of its values will change. So if I use option number one, why does the first address in the memory block end up having an unexpected value, because doesn't ptr still point to the same address?

EDIT: I did remember to allocate memory to ptr, just didn't think it work mentioning.

  • 2
    You cannot guarantee that there will be more consecutive space to expand into without grabbing a new chunk of memory.
    – chris
    Aug 21, 2014 at 20:12
  • 1
    @chris: And even if there is, reusing the pointer passed to realloc is UB unless realloc failed. Aug 21, 2014 at 20:25
  • @Deduplicator even if it points to the same memory location?
    – M.M
    Aug 21, 2014 at 20:25
  • @MattMcNabb: There is no conformant way for you to find out, and the answer is yes. (I too once naively thought otherwise...) Aug 21, 2014 at 20:33

2 Answers 2


The pointer returned by realloc may or may not point to the same address as the pointer you passed to it.

Typically if you're expanding a memory block, there may not be enough room to expand it in place. In that case realloc allocates a new chunk of memory, copies the contents of the old object to the newly allocated chunk, and returns a pointer to the new chunk. If you don't assign the result to a pointer object, you've just lost it (the old chunk is deallocated, and you don't know where the new one is).

realloc can even return a pointer to a newly allocated block of memory if it shrinks the allocated block. There might be good reasons to allocate smaller chunks from a different region of memory.

You also need to be aware that realloc can fail. If it does, it returns a null pointer -- and the old pointer is still valid (just not pointing to a block of memory of the size you wanted). (In principle, realloc can fail even if the new size is smaller than the old one.) So unless your response to an allocation failure is to abort the program, or at least the part of it that uses the pointer, you should assign the result to a different pointer object:

int *ptr = ...;
int *new_ptr;
new_ptr = realloc(ptr, new_size);
if (new_ptr == NULL) {
    /* ptr still points to the old block of memory; you can try something else */
else {
    ptr = new_ptr; /* Now you can forget the old pointer value */

If realloc succeeds, the pointer value it returns is valid, and the pointer you passed to it is invalid.

If realloc fails, it returns a null pointer, and the pointer you passed to it is still valid.

  • 2
    Perhaps mention that using any pointer derived from the old pointer is only allowed if realloc failed: Even if the old is bitwise identical to the new one, using the old one is UB and can result in interesting experiences. Also, realloc(not 0, 0) is interesting. Aug 21, 2014 at 20:22
  • True that realloc() can fail and return NULL. But realloc() can work and return NULL C11dr §J.3.12, hinted by @Deduplicator with realloc(not 0, 0). Maybe if (new_ptr == NULL && new_size > 0) {? Aug 22, 2014 at 2:57

The actual implementation of realloc is implementation-defined, but typically realloc tries to get more memory in two steps. First, it tries to see whether it can expand the allocated block without having to relocate it in memory. If that succeeds, then realloc doesn't have to move anything in memory and the old pointer is valid.

However, there might not be space to expand the allocated block to the new size. For example, you could imagine that there's another block of allocated memory right after the currently-allocated block, so it would be impossible to expand the boundary forward. In that case, realloc has to allocate a brand-new piece of memory to store the larger block, and the old pointer will no longer be valid. This is why you should write

ptr = realloc(ptr, newSize);

instead of

realloc(ptr, newSize);

Of course, there are other reasons why realloc might move memory around. The memory allocator might have specific size requirements for blocks in different parts of memory, or it might try to optimize performance by compacting memory as it goes. In either case, realloc might move memory around without notice, so you may need to change where ptr points.

Hope this helps!

  • Correction: THe old pointer is invalid even if it's bit-for-bit the same as the new pointer. Do not ever use it for anything at all, even comparisons. Aug 21, 2014 at 20:18
  • @Deduplicator The "invalid even if it's bit-for-bit the same" comment at first sounds like you are saying if (old_ptr == new_ptr) DoNotUse(old_ptr); Or do you mean "invalid even if it(the data pointed to by the pointers) is bit-for-bit the same"? Aug 21, 2014 at 23:11
  • 2
    @chux: The old pointer may not be used for anything at all, including comparison to the new pointer. My "bit-for-bit" is about the pointer, not what it points to. Aug 21, 2014 at 23:14
  • @Deduplicator Now I'm curious. (certainly old_ptr = new_ptr; is OK) What about an old_ptr would make printf("%p", (void*) old_ptr) a problem? Maybe the conversion to void*? I'm beginning to see your point. So unless the pointer was originally a void*, printf("%p", (void*) old_ptr) involves a conversion. Hmmm. Aug 21, 2014 at 23:20
  • @chux: No, conversions are not related. The reason any pointer to the old object has indeterminate value after realloc (or free) is that the compiler is justified to assume, after realloc returns with a nonzero value, that no other pointer can be equal to the pointer it returned, and thereby that no other object can alias the object pointed-to. So even if the numeric value of the new pointer is the same as the old one, an optimizing compiler can and will compile the expression old_ptr == new_ptr to a constant 0. Aug 22, 2014 at 1:57

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