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What are the official names for the operators * and & in the context of pointers? They seem to be frequently called dereference operator and address-of operator respectively, but unfortunately, the section on unary operators in the standard does not name them.

I really don't want to name & address-of anymore, because & returns a pointer, not an address. (see below) The standard is very clear about this:

The result of the unary & operator is a pointer to its operand.

Symmetry suggests to name & reference operator which is a little unfortunate because of the collision with references in C++. The fact that & returns a pointer suggests pointer operator. Are there any official sources that would confirm these (or other) namings?

pointers vs. addresses

A pointer is a language mechanism, while an address is an implementation detail. Addresses are untyped, while pointers aren't, except for void*. Kevlin Henney also distinguishes between pointers and addresses in an Interview:

C [...] allows us to abstract the specifics of the machine to the point that we are talking about pointers and not addresses. There is a whole load of pain that you no longer have to go through.

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* is SPLAT and & is OUCH. – bmargulies Mar 21 '10 at 20:08
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Great question. I often call them "asterisk" or "star", and "ampersand", operators for lack of anything better. – Bob Murphy Mar 21 '10 at 20:09
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Pointers are addresses: "§3.9.2/3: A valid value of an object pointer type represents either the address of a byte in memory or a null pointer." "address of" is suitable; it returns an address in the form of a pointer. – GManNickG Mar 21 '10 at 20:14
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FWIW, I always call them “dereference operator” and “address-of operator” but your objection to the second name is indeed correct. – Konrad Rudolph Mar 21 '10 at 20:14
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I don't think 'address-of' is a bad name for the operator - it returns a pointer containing the address of the operand. – AshleysBrain Mar 21 '10 at 20:19
up vote 12 down vote accepted

From the C99 draft, at the index:

* (indirection operator), 6.5.2.1, 6.5.3.2

& (address operator), 6.3.2.1, 6.5.3.2

From the C++0x draft, at the index:

*, see indirection operator, see multiplication operator

&, see address-of operator, see bitwise AND operator

It's also referenced in 9.6/3 "The address-of operator & shall not be applied to a bit-field, so there are no pointers to bit-fields."

(So, sorry, you still need to call & "address-of" :p)

Personally I don't care the actual name as long as other can understand what I'm saying. I just call * "star" and & "and". :)

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That's funny, I found the remark "see address-of operator" in the index, but there is no such entry in the current draft :) There is only one other mentioning of the "address-of operator" on page 219 regarding bit-fields. Am I blind, or can anyone confirm this? – fredoverflow Mar 21 '10 at 20:30
    
@Fred: There's an index entry "address-of" (without "operator"). And yes, there's only 1 other mentioning of "address-of operator". In all other places it's just referred as "unary & operator". – kennytm Mar 21 '10 at 20:32
    
Ah, thank you very much, Kenny! – fredoverflow Mar 21 '10 at 20:39

The official names are address-of (&) (Found in 2.3.3. Pointers and Arrays) and dereference (or indirection operator) (*) (Found in 5.1.Pointers) operators.

according to "The C++ Programming Language", Third Edition by Bjarne Stroustrup.

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Can you please post citations or specific pages? It almost sounds too good to be true. Frankly, the Wikipedia article on the dereference operator is an embarrassment. "It operates on a pointer variable"? Wrong. *(&i) is well-formed and does not operate on a pointer variable. – fredoverflow Mar 21 '10 at 20:36
    
@FredOverflow Sorry, my bad, I found another place where is cleary said that : "Unary & is the address-of operator." (2.3.3.Pointers and Arrays. The C++ Programming Language, Third Edition by Bjarne Stroustrup.) I have edited my answer too. – Draco Ater Mar 21 '10 at 21:58

Not true.

& does not return a pointer.

A pointer is a variable of pointer type, that may be used to contain address. Pointer has an address of it's own, usually different from its value, which is the address it holds.

As such, pointer is lvalue, and result of &p is not.

Example:

int *p, a, b;

p = &b; // valid, p is a pointer
&a = &b; // invalid, address is not a variable. lvalue required
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"A pointer is a variable" is a common misconception. If you say that & does not return a pointer, you are saying that the standard is wrong, which is extremely unlikely in this basic case. – fredoverflow Mar 21 '10 at 20:32
    
In that case a+b doesn't return an int either because a+b=*p // invalid, lvalue required. – kennytm Mar 21 '10 at 20:33
    
Some pointer variables never have addresses of their own because the compiler may choose to make it exist only in a register and never write it to memory. That would be the same as using '&foo' in a statement, which generates a 'foo*' temporary that may also only be in a register and may or may not be written to memory. – Alan Mar 21 '10 at 20:54
    
Optimization is a different beast. The language always allows you to apply the & operator to a pointer variable, and it never allows you to apply it to a pointer. That is, &p is never an error, whereas &(&i) is always an error. – fredoverflow Mar 21 '10 at 21:11
    
@kenny: there is a term for rvalue expression evaluating to address. It is called "address". No need to call it pointer, and the standard doesn't. – Pavel Radzivilovsky Mar 22 '10 at 13:16

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