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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?

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1  
If p is not a pointer, you can't do &(*p). –  karlphillip Mar 5 '12 at 20:18
    
...but question already states, "when p is a non-dangling pointer." –  kotlinski Mar 5 '12 at 20:23
    
Maybe "adjoint functors" would be a better term than "inverses", since the two operate on different kinds of things. –  Kerrek SB Mar 5 '12 at 20:27

1 Answer 1

up vote 3 down vote accepted

When p is an object pointer, &*p is equivalent to p. The evaluation of *p doesn't occur and this is guaranteed by the C Standard.

char *q, *p = NULL;
q = &*p;  // equivalent to q = p;

Here is the relevant paragraph of the Standard:

(C99, 6.5.3.2p3) "If the operand is the result of a unary * operator, neither that operator nor the & operator is evaluated and the result is as if both were omitted, except that the constraints on the operators still apply and the result is not an lvalue."

EDIT: After @ldav1s comment, I changed the word pointer to object pointer. Indeed if p is of type void *, then &*p is invalid. For information, this has been discussed by the C Committee in Defect Report #102: http://www.open-std.org/jtc1/sc22/wg14/www/docs/dr_012.html

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+1. However p cannot be a void *, since it's not allowed to dereference a void *. –  ldav1s Mar 5 '12 at 20:31
    
@ldav1s agree, p cannot be a void * I edited my answer for object pointer instead of pointer. –  ouah Mar 5 '12 at 20:37
    
Very nice answer. I find it interesting that &*p is itself not a L-value, so you can't do something like q = &(&*p); but q = &p; is no problem. May the rationale behind this be, that at least in theory *p could be a copy of the value behind p, so that the adress of this copy is different from p itself? Or am I overthinking and not making any sense? –  Anthales Mar 5 '12 at 21:44
    
@Anthales the result of the & operator is actually never a lvalue, so it makes sense that &*p is not a lvalue even if p is a lvalue. –  ouah Mar 6 '12 at 14:38
    
@ouah yeah you are right, my comment was confused - I was really thinking about what would happen without the equivalence of &*p to p (for example when compiling with the non-C99 compliant MSVC) and I'm guessing the result would be random, or maybe a stack adress. –  Anthales Mar 7 '12 at 17:55

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