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plain C have nice feature - void type pointers, which can be used as pointer to any data type.
But, assume I have following struct:


struct token {
    int type;
    void *value;
};

where value field may point to char array, or to int, or something else.
So when allocating new instance of this struct, I need:

1) allocate memory for this struct;
2) allocate memory for value and assign it to value field.

My question is - is there ways to declare "array of type void", which can be casted to any another type like void pointer?

All I want is to use "flexible member array" (described in 6.7.2.1 of C99 standard) with ability to casting to any type.

Something like this:


struct token {
    int type;
    void value[];
};

struct token *p = malloc(sizeof(struct token) + value_size);
memcpy(p->value, val, value_size);
...
char *ptr = token->value;

I suppose declaring token->value as char or int array and casting to needed type later will do this work, but can be very confusing for someone who will read this code later.

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Double pointers? –  Dhaivat Pandya Apr 25 '11 at 22:06
1  
using char[] is fine imho, since sizeof(char) == 1 and you will never get surprised. You may want to consider macros to access p->value with the correct type. –  Alexandre C. Apr 25 '11 at 22:20
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4 Answers

I would probably do this:

struct token {
    int type;
    void *value;
};

struct token p;

p.value = malloc(value_size);

p.value[0] = something;
p.value[1] = something;
...

edit, actually you have to typecast those p.value[index] = somethings. And/or use a union to not have to typecast.

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You'd have to cast p.value before you use it. –  Chris Lutz Apr 25 '11 at 22:11
    
p.value[0] = something will yield a compile-time error, surely? One cannot dereference a void*. –  Robᵩ Apr 25 '11 at 22:12
    
grin, you beat me to it...was trying to get the edit in quickly. –  dwelch Apr 25 '11 at 22:12
3  
This will not even compile. Some compilers allow pointer arithmetic on void * pointers (as an extension), but all of them prohibit dereferencing void pointers. –  AndreyT Apr 25 '11 at 22:13
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Well, sort of, but it's probably not something you want:

struct token {
  // your fields
  size_t item_size;
  size_t length
};

struct token *make_token(/* your arguments */, size_t item_size, size_t length)
{
    struct token *t = malloc(sizeof *t + item_size * length);
    if(t == NULL) return NULL;
    t->item_size = item_size;
    t->length    = length;
    // rest of initialization
}

The following macro can be used to index your data (assuming x is a struct token *):

#define idx(x, i, t) *(t *)(i < x->length ? sizeof(t) == x->item_size ?
                       (void *)(((char *)x[1]) + x->item_size * i)
                     : NULL : NULL)

And, if you like, the following macro can wrap your make_token function to make it a little more intuitive (or more hackish, if you think about it that way):

#define make_token(/* args */, t, l) (make_token)(/* args */, sizeof(t), l)

Usage:

struct token *p = make_token(/* args */, int, 5); // allocates space for 5 ints
...
idx(p, 2, int) = 10;
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You can't have an array of 'void' items, but you should be able to do something like what you want, as long as you know value_size when you do the malloc. But it won't be pretty.

struct token {
        int type;
        void *value;       
};    

value_size = sizeof(type)*item_count;
struct token *p = malloc(sizeof(struct token) + value_size);
//can't do memcpy:  memcpy(p->value, val, value_size);  
//do this instead
type* p = (type*)&(p->value);
type* end = p+item_count;
while (p<end) { *p++ = someItem; }

Note that you need an extra address-of operator when you want to get the extra storage.

type *ptr = (type*)&(token->value); 

This will 'waste' sizeof(void*) bytes, and the original type of value doesn't really matter, so you may as well use a smaller item. I'd probably typedef char placeholder; and make value that type.

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following structure can help you.

struct clib_object_t {
void* raw_data;
size_t size;
};

struct clib_object_t*
new_clib_object(void *inObject, size_t obj_size) {
    struct clib_object_t* tmp = (struct clib_object_t*)malloc(sizeof(struct clib_object_t));   
    if ( ! tmp )
        return (struct clib_object_t*)0;
    tmp->size        = obj_size;
    tmp->raw_data    = (void*)malloc(obj_size);
    if ( !tmp->raw_data ) {
        free ( tmp );
        return (struct clib_object_t*)0;
    }
    memcpy ( tmp->raw_data, inObject, obj_size);
    return tmp;
}

clib_error
get_raw_clib_object ( struct clib_object_t *inObject, void**elem) {
    *elem = (void*)malloc(inObject->size);
    if ( ! *elem )
        return CLIB_ELEMENT_RETURN_ERROR;
    memcpy ( *elem, inObject->raw_data, inObject->size );

    return CLIB_ERROR_SUCCESS;
}

More Details : clibutils

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