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Is there any way in C to know if a memory block has previously been freed with free()? Can i do something like...

    //code here
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Ok if you need to check whether a pointer has already been freed you may want to check your design. You should never have to either track reference count on a pointer or if it's freed. Also some pointers are not dynamically allocated memory so I hope you mean ones called with malloc(). This is my opinion but again if you have a solid design you should know when the things your pointers point to are done being used.

The only place I have seen this not work is in monolithic kernels because pages in memory need a usage count because of shared mappings among other things.

In your case simply set unused pointers to NULL and check that. This gives you a guaranteed way of knowing in the case that you have unused fields in structures that were malloced. A simple rule is wherever you free a pointer that needs to be checked in the above way just set it to NULL and replace isFree() with if pointer == NULL. This way no reference count needs to be tracked and you know for sure if your pointer is valid and not pointing to garbage.

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I thought I was gonna catch some flak for this guess not :) – Jesus Ramos Jul 30 '11 at 1:55
In theory I agree with your answer, but you offer no constructive specifics for how to go about creating such a design. – Dave Costa Jul 30 '11 at 2:06
I can't really tell him what to do if I don't know what he's doing. – Jesus Ramos Jul 30 '11 at 2:34
+1 I wish I could give more than one vote. This You should never have to either track reference count on a pointer or if it's freed. is so true. – Rudy Velthuis Jul 30 '11 at 2:51
@Rudy thanks I don't see it as much in C as I do in Obj-C where people are actually checking the retain count and then doing release loops 0_0 – Jesus Ramos Jul 30 '11 at 2:53

No, there is no way.

You can, however, use a little code discipline as follows:

Always always always guard allocations with malloc:

void * vp;
if((vp = malloc(SIZE))==NULL){
   /* do something dreadful here to respond to the out of mem */

After freeing a pointer, set it to 0

free(vp); vp = (void*)0;
/* I like to put them on one line and think of them as one peration */

Anywhere you'd be tempted to use your "is freed" function, just say

if(vp == NULL)[
    /* it's been freed already */


@Jesus in comments says:

I can't really recommend this because as soon as you're done with that memory the pointer should go out of scope immediately (or at least at the end of the function that releases it) these dangling pointers existence just doesn't sit right with me.

That's generally good practice when possible; the problem is that in real life in C it's often not possible. Consider as an example a text editor that contains a doubly-linked list of lines. The list is really simple:

struct line {
    struct line * prev;
    struct line * next;
    char * contents;

I define a guarded_malloc function that allocates memory

void * guarded_malloc(size_t sz){
    return (malloc(sz)) ? : exit(-1); /* cute, eh? */

and create list nodes with newLine()

struct line * newLine(){
    struct line * lp;
    lp = (struct line *) guarded_malloc(sizeof(struct line));
    lp->prev = lp->next = lp-contents = NULL ;
    return lp;

I add text in string s to my line

lp->contents = guarded_malloc(strlen(s)+1);

and don't quibble that I should be using the bounded-length forms, this is just an example.

Now, how can I implement deleting the contents of a line I created with the char * contents going out of scope after freeing?

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I can't really recommend this because as soon as you're done with that memory the pointer should go out of scope immediately (or at least at the end of the function that releases it) these dangling pointers existence just doesn't sit right with me. – Jesus Ramos Jul 30 '11 at 2:40
but still +1 for malloc guarding :) – Jesus Ramos Jul 30 '11 at 2:50
also global pointers to objects (null checking is fine with me if it's a list/queue etc) but passing around things that you know can be freed out from under you without reference checking and such seems off – Jesus Ramos Aug 4 '11 at 4:01
This is excellent, thank you so much – Leandro Galluppi Aug 10 '11 at 2:48

I see nobody has addressed the reason why what you want is fundamentally impossible. To free a resource (in this case memory, but the same applies to basically any resource) means to return it to a resource pool where it's available for reuse. The only way the system could provide a reasonable answer to "Has the memory block at address X already been freed?" is to prevent this address from ever being reused, and store with it a status flag indicating whether it was "freed". But in this case, it has not actually been freed, since it is not available for reuse.

As others have said, the fact that you're trying to answer this question means you have fundamental design errors you need to address.

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Fundamental design errors, like music to my ears. Gonna need to use that one from time to time – Jesus Ramos Jul 30 '11 at 8:09

For a platform-specific solution, you may be interested in the Win32 function IsBadReadPtr (and others like it). This function will be able to (almost) predict whether you will get a segmentation fault when reading from a particular chunk of memory.

Note: IsBadReadPtr has been deprecated by Microsoft.

However, this does not protect you in the general case, because the operating system knows nothing of the C runtime heap manager, and if a caller passes in a buffer that isn't as large as you expect, then the rest of the heap block will continue to be readable from an OS perspective.

Pointers have no information with them other than where they point. The best you can do is say "I know how this particular compiler version allocates memory, so I'll dereference memory, move the pointer back 4 bytes, check the size, makes sure it matches..." and so on. You cannot do it in a standard fashion, since memory allocation is implementation defined. Not to mention they might have not dynamically allocated it at all.

On a side note, I recommend reading 'Writing Solid Code' by Steve McGuire. Excellent sections on memory management.

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No one should ever use IsBadReadPtr. For anything. – Zan Lynx Jul 30 '11 at 1:55
@Zan: Added note that it has been deprecated. Just pointing out the the possibilities :) – user195488 Jul 30 '11 at 1:57
I have that as a StyleCop rule, if you use IsBadReadPtr, it's a compile error :) – Jesus Ramos Jul 30 '11 at 2:35

In general the only way to do this portably is to replace the memory allocation functions. But if you're only concerned about your own code, a fairly common technique is to set pointers to NULL after you free() them, so any subsequent use will throw an exception or segfault:

  pointer = NULL;
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Actually, since the libc free can be called on null with impunity (the Single Unix Specification says, "If ptr is a null pointer, no action shall occur."), your my_free should also be designed that way, for minimal surprise. – Chris Jester-Young Jul 30 '11 at 2:06
@Bo: Thanks for pointing out the obvious mistake--fixed. – Adam Liss Jul 30 '11 at 8:53
@Chris: yes, free() can be called on null, but in practice I've never written code that expects to do that. In general, freeing unallocated memory is something you don't want to do in your own code, and it's helpful to be told if it happens, especially during development/debugging. – Adam Liss Jul 30 '11 at 8:56

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