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Since this is a void* I should be able to pass a pointer of anytype right? Why is the compiler giving me errors?

int cmp_func(void *, void *));

typedef struct word_{
  char key[WORD_SIZE];
  int *frequency;
} word;

Phash_table new_hash(int size, int (*hash_func)(char *), int (*cmp_func)(void *\
, void *));

int comp_function(struct word_ *word1,struct word_ *word2){
  if( word1->frequency < word2->frequency){
    return -1;
  if(word1->frequency <  word2->frequency){
      return 1;
  if(word1->frequency == word2->frequency){
    return 0;

project4_functions.c:47:3: warning: passing argument 3 of 'new_hash' from incompatible pointer type [enabled by default]
hash.h:38:13: note: expected 'int (*)(void *, void *)' but argument is of type 'int (*)(struct word_ *, struct word_ *)'
share|improve this question
Why is cmp_func closed with two parentheses and where is the definition of new_hash or its usage?! –  Shahbaz May 6 '12 at 19:31
Seems an error unrelated to this function. Check new_hash function. –  dbrank0 May 6 '12 at 19:31
Also, any pointer can be sent to void *, but you are sending a pointer to int (*)(void *, void *) not a void * –  Shahbaz May 6 '12 at 19:32

3 Answers 3

up vote 6 down vote accepted

The key is to make your compare function take void pointers as well:

int comp_function(void *a, void *b){
  struct word *word1 = a;
  struct word *word2 = b;
  // Use word1 and word2 as before.

Addendum, concerning why the compiler is giving you warnings:

To quote the c99 standard which I found here

A pointer to void may be converted to or from a pointer to any incomplete or object type. A pointer to any incomplete or object type may be converted to a pointer to void and back again; the result shall compare equal to the original pointer.

This means that you can have code like the following, and the compiler won't issue the warning you're seeing:

void *a = NULL;
int (*f)(int a, char *b) = NULL;
a = f;
f = a;

It's tempting to extrapolate that this means the following will also work (after all, we're just substituting "void*" with "struct foo*", right?)

int (*f1)(void*, void*);
int (*f2)(struct foo*, struct foo*);
f1 = f2;

However, this generates your warning since it is not trying to assign a pointer type to a pointer to void (or vice-versa) as is allowed by the standard. Instead it is trying to assign a value of type int (*)(struct foo*, struct foo*) to a variable of type int (*)(void*, void*).

Of course, you could try to make the compiler happy with an explicit cast, which convinces the compiler that you must know what you're doing. But in doing so you lose the privilege and safety of getting these warnings even when invoking "iffy" behavior.

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Your question does not match your code. Your code does not pass a structure pointer as a void pointer. It is passing one function pointer as another. The function pointers are not compatible, hence the error.

It is legal to pass a structure pointer where a void pointer is expected because a structure pointer can be implicitly converted to a void pointer. It is not required to be representationally identical to a void pointer. (There are some machines where structure pointers are not the same size as a void pointer, for example.)

By analogy consider the case of passing an int when a long is expected. This is legal because there is an implicit conversion, but that doesn't meant that a function accepting int is interchangeable with function accepting long.

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+1 for the analogy –  R.. May 6 '12 at 22:50

You need to cast the function pointer since your function prototype does not match the one the function expects:

typedef int (cmp_f)(void *, void *));
new_hash(..., ..., (cmp_f*)cmp_func_p);

Of course that typedef is not necessary, but it makes your code much more readable than without (you usually only do it without that typedef in exams where you are not allowed to use typedef for this purpose ;))

share|improve this answer
Watch out with calling conventions... –  Mehrdad May 6 '12 at 19:31
Won't matter - a pointer is a pointer. –  ThiefMaster May 6 '12 at 19:32
This answer is incorrect. Calling a function through a pointer to the wrong function type invokes undefined behavior. "A pointer is a pointer" is NOT true in C. –  R.. May 6 '12 at 22:49
@R..: Do you have any reliable source for this? I think it's pretty common to cast function pointers if the original function has a void* argument while you want to save yourself from casting the argument inside the function body. gcc with -Wall also doesn't complain about it... –  ThiefMaster May 7 '12 at 8:37
"If the function is defined with a type that is not compatible with the type (of the expression) pointed to by the expression that denotes the called function, the behavior is undefined." ( This is not just theoretical UB; it's actually going to break if the implementation uses different argument passing convention for different types of pointers. A practical reason to do this might be if the cpu has only a few registers that admit small-constant offsets in the opcodes that dereference them (most useful for structures), or if void pointers are larger than struct pointers. –  R.. May 7 '12 at 12:02

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