Most C implementations use the same size and format for all pointers, but this is not required by the C standard.
Some machines do not have byte addressing, so the C implementation implements it by using shifts and other operations. In these implementations, pointers to larger types, such as
int, may be normal addresses, but pointers to
char would have to have both a machine address and a byte-within-word offset.
Additionally, C makes use of the type information for a variety of purposes, including reducing mistakes made by programmers (possibly giving warnings or errors when you attempt to use a pointer to
int where a pointer to
float is needed) and optimization. Regarding optimization, consider this example:
void foo(float *array, int *limit)
for (int i = 0; i < *limit; ++i)
array[i] = <some calculation>;
The C standard says a compiler may use the fact that
limit are pointers to different types to conclude that they do not overlap. Given this rule, the C implementation may evaluate
*limit once when the loop starts, because it knows it will not change during the loop. Without this rule, the compiler would have to assume that one of the assignments to
array[i] might change
*limit, and it would have to load
*limit from memory in each iteration.