You can implement the first as a macro:
#define incr(x) (++(x))
Of course, this can have unpleasant side effects if you're not careful. It's about the only method C provides for applying the same operation to any of a variety of types though. In particular, since the macro is implemented using text substitution, by the time the compiler sees it, you just have the literal code
++whatever;, and it can apply
++ properly for the type of item you've provided. With a pointer to void, you don't know much (if anything) about the actual type, so you can't do much direct manipulation on that data).
void * is normally used when the function in question doesn't really need to know the exact type of the data involved. In some cases (e.g.,
qsort) it uses a callback function to avoid having to know any details of the data.
Since it does both sort and swap, let's look at qsort in a little more detail. Its signature is:
void qsort(void *base, size_t nmemb, size_t size,
int(*cmp)(void const *, void const *));
So, the first is the
void * you asked about -- a pointer to the data to be sorted. The second tells qsort the number of elements in the array. The third, the size of each element in the array. The last is a pointer to a function that can compare individual items, so
qsort doesn't need to know how to do that. For example, somewhere inside qsort will be some code something like:
// if (base[j] < base[i]) ...
if (cmp((char *)base+i, (char *)base+j) == -1)
Likewise, to swap two items, it'll normally have a local array for temporary storage. It'll then copy bytes from
array[i] to its temp, then from
array[i] and finally from
memcpy(temp, (char *)base+i, size); // temp = base[i]
memcpy((char *)base+i, (char *)base+j, size); // base[i] = base[j]
memcpy((char *)base+j, temp, size); // base[j] = temp