When x is a L-value (let's say a variable), then the following identity holds:

x == *(&x)

This is quite easy to explain, because &x is a pointer to x and the dereference operator * applied to &x will then of course return x.

Now I am wondering if the converse makes sense. To be precise I am wondering if

p == &(*p)

when p is a non-dangling pointer. This seems to make sense, because *p is itself a L-value (a value which has an adress), because we already have the pointer (=adress) p to it. So you only need to know, that such pointers are unique, because then &(*p) has no other chance as to be p.

So when both identities are true you can say, that, mathematically, * and & are inverse functions of one another.

Am I correct? Are there any possible exceptions to this alleged rules?

`p`

is not a pointer, you can't do`&(*p)`

. – karlphillip Mar 5 '12 at 20:18