Doesn't & mean "memory address of" x in C++?
Short answer: That depends.
Longer answer: The unary prefix operator
&, when applied to an object, indeed yields the address of the object:
&obj. There is, however, also the type modifier
&, which, when applied to a type, will modify it to be a reference type:
The same applies to
*: When used as a unary prefix operator, it will dereference a pointer:
*ptr. When used as a type modifier, it will modify the type to be a pointer:
It's not helpful either that type modifiers apply to the variable that is declared. For example, this
int *p, **pp, i, &r = i;
int pointer, a pointer to a pointer to an
int, a vanilla
int, and an
int reference. (The latter is immediately initialized, because you cannot have an uninitialized reference.) Note that the type modifiers syntactically belong to the declared variable whose type they are modifying, not to the declared variable's type. Nevertheless, type modifiers (
&) modify the type of the variable.
In the following case, however, with
i presumed to be variables that have already been declared
*pp = &i;
& are unary prefix operators dereferencing
pp and yielding the address of
(In the same vein, the type modifier
 when applied to a variable that's being declared, will modify the variable's type to an array, while the binary infix operator
, when applied to an object of array type will access one of its sub-objects.)
To complicate things even further, besides the type modifiers and the unary prefix operators
*, there are also the binary infix operators
*, meaning "bitwise AND" and "multiplication". And to add insult to injury, in C++ you can overload both the unary prefix and the binary infix variants of these operators (and the binary infix
) for user-defined types and be completely free as to their semantics.