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i have a mission to create function which receives variable number of arguments and free all of them, any type of arguments. I tried to do it using a variadic function, but the thing is I do not know the type of the arguments.

Any suggestions how to do it?

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2  
Are they all malloc()ated pointers? If so: you don't need to know their exact type. If not: you can't "free" them (whatever that would mean). –  user529758 Feb 7 '13 at 7:42
    
free them means dealloc them, they're not all malloc(), some of the might be int,char,BOOL, or any type of arguments, the thing is i don't know how the user allocated them, he might have used malloc(),HeapAlloc() or any other alloc function. –  user2049815 Feb 7 '13 at 7:48
1  
then it's the second case (i. e. "you can't"). –  user529758 Feb 7 '13 at 7:49
3  
If you don't know how they were allocated, there isn't a reasonable way to know how to deallocate them. You are asking for the impossible. –  Jonathan Leffler Feb 7 '13 at 7:49
1  
@user2049815 look at some other questions here at stackoverflow - edit your question in order to make it appropriate (stackoverflow is about coding not giving guides how-to, so explain what did you do, or what have you read about...) –  xhudik Feb 7 '13 at 8:06
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1 Answer

Treat each pointer as a void *; pass that to free():

void free_anything(void *arg1, ...)
{
    va_list args;
    void *vp;
    free(arg1);
    va_start(args, arg1);
    while ((vp = va_arg(args, void *)) != 0)
        free(vp);
    va_end(args);
}

Example call:

free_anything(p1, p2, p3, p4, (void *)0);

An alternative design passes in a count of the number of arguments to be freed as the first argument:

free_everything(4, p1, p2, p3, p4);

The implementation of the alternative function is left as an exercise...


Note that the design with a counter (free_everything()) is probably better; you can write a function that cleans up multiple allocations in a function that way:

void memory_intensive(int size)
{
    int *p1 = malloc(size * sizeof(*p1));
    char *p2 = malloc(size * 32);
    struct wotnot *p3 = malloc(sizeof(*p3));
    struct onemore *p4 = malloc(size * sizeof(*p4));
    struct later *p5 = 0;
    struct muchlater *p6 = 0;

    if (some_condition(p1, p3, size))
    {
        p5 = malloc(size * sizeof(*p5));
        ...
    }
    if (another_condition(p2, p4, size))
    {
        p6 = malloc(size * sizeof(*p6));
        ...
    }

    free_everything(6, p1, p2, p3, p4, p5, p6);
}

This frees all the allocated memory in a single function call, regardless of whether p5 or p6 were allocated (or if any of the other allocations failed). However, this is stretching the limits. However, in such a design, it is crucial not to stop at the first null pointer...just in case there are non-null pointers later in the list.

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If pointers, why not NULL? –  user529758 Feb 7 '13 at 7:48
    
If you're referring to the fifth argument of the call, then NULL is a valid alternative way of spelling (void *)0. I don't often use NULL, that's all — laziness, or got bitten once so long ago I don't remember what happened, or ... –  Jonathan Leffler Feb 7 '13 at 7:51
    
I see (yes, I know constant 0 is implicitly treated as NULL, it's just that I prefer it). –  user529758 Feb 7 '13 at 7:53
2  
You'd have to use (void*)0 because NULL is not guaranteed to be a pointer value, it could equally be just 0 in which case you'd have trouble when int and void* have different width. For more please see gustedt.wordpress.com/2010/11/07/dont-use-null –  Jens Gustedt Feb 7 '13 at 8:23
1  
@JensGustedt: It can't be a standard compliant compiler if the value of NULL is not a valid pointer. For example, the specification of <stddef.h> says: The macros are NULL which expands to an implementation-defined null pointer constant... which doesn't leave room for it to be a plain int if a plain int is not the right size to be a void * too. If you have to worry about that, you may have other problems to worry about too. –  Jonathan Leffler Feb 7 '13 at 8:27
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