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What does the pointer of a dynamically allocated memory points to after calling the free() function. Does the pointer points to NULL, or it still points to the same place it pointed before the deallocation. does the implementation of free() has some kind of standard for this, or it's implemented differently in different platforms.

uint8_t * pointer = malloc(12);
printf("%p", pointer); // The current address the pointer points to
free (pointer);
printf("%p", pointer); // must it be NULL or the same value as before ?

Edit: I know that the printf will produce the same results, I just want to know if I can count on that on different implementations.

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Why do you want to printf after free()? Why count on it? –  Vinayak Garg Jun 25 '12 at 8:35
@VinayakGarg: I think it's more of a debugging print statement. –  nhahtdh Jun 25 '12 at 8:37
@VinayakGarg I'm programming an embedded device, and in a certain task I allocate memories. There is a problem once I get an interrupt which is higher priority and needs also to allocate memory. I need to deallocate the previously allocated memory without knowing if it succeeded in allocation or not. –  stdcall Jun 25 '12 at 8:38
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3 Answers

up vote 4 down vote accepted

According to the standard (6.2.4/2 of C99):

The value of a pointer becomes indeterminate when the object it points to reaches the end of its lifetime.

In practice, all implementations I know of will print the same value twice for your example code. However, it is permitted that when you free the memory, the pointer value itself becomes a trap representation, and the implementation does something strange when you try to use the value of the pointer (even though you don't dereference it).

Supposing that an implementation wants to do something unusual, a hardware exception or program abort would be the most plausible I think. You probably have to imagine an implementation/hardware that does a lot of extra work, though, so that every time a pointer value is loaded into a register, it somehow checks whether the address is valid. That could be by checking it in the memory map (in which case I suppose my hypothetical implementation would only trap if the whole page containing the allocation has been released and unmapped), or some other means.

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The pointer value is not modified. You pass the pointer (memory address) by value to free(). The free() function does not have access to the pointer variable, so it cannot set it to NULL.

The two printf() calls should produce identical output.

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Can the downvote troll please explain the reason for their vote? Thanks. –  cdhowie Jun 25 '12 at 8:43
I guess either somebody really likes my answer, or I have a downvote coming any moment now... –  Steve Jessop Jun 25 '12 at 8:45
Yeah, the spec-nazis tend to downvote answers on a technicality that makes them incorrect in theory, but correct just about everywhere in practice. :S At any rate, I think we can all agree that using a pointer value after you have freed it is a very bad thing to do, no matter which C implementation you are using. –  cdhowie Jun 25 '12 at 8:46
Not the downvoter, but reading the freed pointer could theoretically cause an invalid address trap on some hardware (with dedicated address registers). –  Bo Persson Jun 25 '12 at 8:51
@BoPersson How would such an environment handle the code void * foo = malloc(10); void * bar = foo; free(foo); -- is bar set to a trap value as well? –  cdhowie Jun 25 '12 at 8:56
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free() only deallocates the memory. The pointer is still pointing to the old location (dangling pointer), which you should manually set to NULL.

Setting the pointer to NULL is a good practice. As the memory location may be reused for other object, you may be able to access and modify data which doesn't belong to you. This is especially hard to debug, since it won't produce a crash, or produce crash at some point which is irrelevant. Setting to NULL will guarantee a re-producible crash if you ever access the non-existent object.

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Changing the code to { uint8_t * pointer = malloc(12); ... free(pointer); } is far better practice than setting it to null, though. You can't use a dangling pointer if you make sure the pointer goes out of scope as soon as it becomes dangling. –  Steve Jessop Jun 25 '12 at 8:42
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