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GCC gives me folowing warning:

note: expected 'const void **' but argument is of type 'const struct auth **

Is there any case, where it could cause problems?

Bigger snippet is

struct auth *current;
gl_list_iterator_next(&it, &current, NULL);

Function just stores in current some void * pointer.

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did you try casting it to void? –  Kache Sep 27 '12 at 12:17
3  
Casting means, that I say to compiler Trust me. I know better. But I am not. –  KAction Sep 27 '12 at 12:18
1  
what's the method signature for gl_list_iterator_next()? –  Kache Sep 27 '12 at 12:20
    
static inline bool gl_list_iterator_next (gl_list_iterator_t *iterator, const void **eltp, gl_list_node_t *nodep) –  KAction Sep 27 '12 at 12:27

2 Answers 2

up vote 5 down vote accepted

The error message is clear enough: you are passing a struct auth ** where a void ** was accepted. There is no implicit conversion between these types as a void* may not have the same size and alignment as other pointer types.

The solution is to use an intermediate void*:

void *current_void;
struct auth *current;

gl_list_iterator_next(&it, &current_void, NULL);
current = current_void;

EDIT: to address the comments below, here's an example of why this is necessary. Suppose you're on a platform where sizeof(struct auth*) == sizeof(short) == 2, while sizeof(void*) == sizeof(long) == 4; that's allowed by the C standard and platforms with varying pointer sizes actually exist. Then the OP's code would be similar to doing

short current;
long *p = (long *)(&current);  // cast added, similar to casting to void**

// now call a function that does writes to *p, as in
*p = 0xDEADBEEF;               // undefined behavior!

However, this program too can be made to work by introducing an intermediate long (although the result may only be meaningful when the long's value is small enough to store in a short).

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how is using an intermediate void* different from just casting it, assuming he isn't using the original *current for anything else? –  Kache Sep 27 '12 at 12:30
    
If the alignment of void* could be different, how is that issue mitigated when you assign the pointer back to your struct auth* type? In other words if the function returns a void* to memory that is of a different alignment, and you simply assigned that pointer back to a struct auth*, shouldn't there be some type of compensation for the lack of alignment? Or is it simply the case that the alignment for void* is always a superset of any other pointer type's alignment requirements, so any other pointer will be compatible with void* alignment? –  Jason Sep 27 '12 at 12:41
1  
@Jason: when you say current = current_void, the compiler inserts a conversion from void* to struct auth* if necessary. Such a conversion is guaranteed to exist for all data pointer types (but not for function pointers, IIRC), because void* was designed to be a universal pointer type. –  larsmans Sep 27 '12 at 12:46
2  
@Kache: the difference is that the intermediate void* serves as a location where a value of type void* can be stored through indirection of a void**. Suppose that a struct auth* would be smaller than void* on some platform (which may happen), then the OP's code + a cast might write past the end of &current. It's as if you'd cast a short* to a long* and then store a long through indirection. –  larsmans Sep 27 '12 at 12:50
    
@larsmans Thanks :-) +1 for the clarification. –  Jason Sep 27 '12 at 12:59

Hm... I think constructs like const void * doesn't makes much sense.

Because if user wants to access data under void * he needs casting from void, and this action bypasses compiler type checks and consequently - constantness.

Consider this example:

#include <stdio.h>
#include <stdlib.h>

int main () {

  int i = 6;
  int * pi = &i;

  const void * pcv = pi;
  const int  * pci = pi;

  // casting avoids type checker, so constantness is irrelevant here
  *(int *)pcv = 7;

  // here we don't need casting, and thus compiler is able to guard read-only data
  *pci = 7;

  return 0;
}

So conclusion is that we need either void pointer Or to ensure constantness of data, but not both.

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You are not right. void * can be implicityle morphed to foo *, but const void * can not. –  KAction Sep 28 '12 at 7:46
    
My point was that const is very useful for getting compile-time error if somebody tries to modify read-only data. But this purpose is bypassed with construct const void * - because you can't modify data under void* without casting it to some concrete pointer. If you do so - type checker is bypassed as well as constantness. In the end user is able to modify read-only data without getting compile-time error. This was my point why const void * is bad thing. –  Agnius Vasiliauskas Sep 28 '12 at 9:07
    
Void * is perfectly good. I do not need cast to use it, I use assignment. –  KAction Sep 28 '12 at 12:16

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