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It is known that if we pass a pointer by value to a function, it cannot be freed inside the function, like so:

void func(int *p)
    p = NULL;

p holds a copy of a (presumably valid) address, so free(p) tries to, well, free it. But since it is a copy, it cannot really free it. How does the call to free() know that it cannot really free it ?

The code above does not produce an error. Does that mean free() just fails silently, "somehow" knowing that address passed in as argument cannot be worked upon ?

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eh... that would work just fine. Of course the pointer passed in to the function would not be NULL, but the memory would be free'd. –  JasonD Dec 18 '12 at 17:20
StackOverflow Rule of Thumb #3: If the OP says "It is known", it is not. –  Kerrek SB Dec 18 '12 at 17:24
Wouldn't the memory be freed, but to set the original pointer to null, you would need the address of the pointer itself and not a copy of the pointer. –  Steve Wellens Dec 18 '12 at 17:25

5 Answers 5

up vote 8 down vote accepted

p holds a copy of a (presumably valid) address, so free(p) tries to, well, free it. But since it is a copy, it cannot really free it.

It's not true. free() can work just fine if p is a valid address returned by malloc() (or NULL).

In fact, this is a common pattern for implementing custom "destructor" functions (when writing OO-style code in C).

What you probably mean is that p won't change to NULL after this - but that's natural, since you're passing it by value. If you want to free() and null out the pointer, then pass it by pointer ("byref"):

void func(int **p)
    if (p != NULL) {
        *p = NULL;

and use this like

int *p = someConstructor();
// here 'p' will actually be NULL
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Downvoter: any reason? –  user529758 Dec 18 '12 at 17:46
Downvotes seem to be happening now an again at random... –  Germann Arlington Dec 18 '12 at 18:02
@GermannArlington yeah, pretty much. –  user529758 Dec 18 '12 at 18:03

Passing p to func() by value, which will copy the pointer and creates the local copy to func() which frees the memory. func() then sets it's own instance of the pointer p to NULL but which is useless. Once the function is complete the parameter p come to end of existence. In calling function you still have pointer p holding an address, but the block is now on the free list and not useful for storage until allocated again.

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The only problem is if this function is in a different DLL (Windows). Then, it may be linked with a different version of the standard library and have different ideas on how the heap is built.

Otherwise no problem.

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Oh what? No, not at all. –  user529758 Dec 18 '12 at 17:24
What do you mean, not at all? –  Pavel Radzivilovsky Dec 18 '12 at 17:44
I mean this is not true. –  user529758 Dec 18 '12 at 17:44
Oh, but it is - I also explained why. –  Pavel Radzivilovsky Dec 18 '12 at 17:45
You can say "it is incorrect" any number of times and it does not change anything. Please re-read my answer to learn how standard library version matters, and you will be able to avoid a dangerous pitfall that hurt many amateurs. –  Pavel Radzivilovsky Dec 18 '12 at 17:49

What everybody is saying is that your memory will be freed by free(p);, but your original pointer (which you use to call the function with) will still hold the (now invalid) address. If a new block of memory including your address is allocated at a later stage than your original pointer will become valid (for memory manager) again, but will now point to completely different data causing all sorts of problems and confusion.

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No you really free the block of memory. After the function call, the pointer passed to this function is pointing to nowhere : same address but the MMU don't know anymore what to do with this address

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