Your assumption that "all pointers (on the same machine) are of the same size" is incorrect. It may well be true for your particular machine, and it's fairly likely to be true on any machine you're likely to use, but the C standard makes no such guarantee, and there have been real-world machines where it's not true. For example, on a word-addressed machine, an
int* might be represented as a word pointer, but a
void* might require additional information to specify which byte within a word it refers to. And function pointers, on some architectures, are quite different beasts than data pointers.
If you find yourself casting pointer types, it's likely that there's something wrong with your design, and the pointer should have been of the correct type in the first place.
That's not always true, of course; there are case where that kind of low-level access is appropriate and necessary, and one of C's great strengths is that it allows you to do that kind of thing.
But it's difficult to tell whether it's appropriate without a more concrete example.
The point of having distinct types isn't just that they have different sizes or representations; the point is that they're used for different purposes. An
int* points to an
char* points to a
The difference between your examples is that one refers to an
int* object, and the other refers to a
char* object. They're different types, and they're not interchangeable, even if they happen to have the same size and representation. Your commented-out
some other address on the right hand side of the assignment has to be some actual expression, and it has to be of some type.
What are you trying to accomplish?