The OP writes in the comment section:
... My question is wether [sic] it is legal to redefine a type name before it has been used in a class.
The answer is yes. It is legal to define a type name in a class that shadows a type name in an enclosing scope. What is not allowed is the following:
- A name, call it
T
(though it need not be a type), is used inside a class, and name lookup finds some declaration D
, and
- The class declares a member named
T
, and
- After the class has been completely defined, if the compiler goes back and parses the previous use of the name
T
, it now finds the new member declaration instead of D
.
Let's go over a few examples to clarify the issue.
using T = X;
class C {
using T = Y;
T x;
};
The above example is legal because when the compiler sees T x;
, it has already seen using T = Y;
, so T
can only resolve to Y
. There are no subsequent declarations inside the class that can change the meaning later.
using T = X;
class C {
T x;
using T = Y;
};
The above example is illegal. The compiler at first looks up T
and finds the enclosing definition of T
as X
, since C::T
hasn't been declared yet. But after C::T
has been declared, it implies that if T x;
were to be reinterpreted, then T
would now refer to C::T
instead, since the class scope takes precedence over the enclosing scope.
using T = ::X;
class C {
T x;
using T = ::X;
};
The above example is illegal. The fact that both declarations of T
make it refer to the same type is not relevant. The violation occurs because T x;
would find a different declaration of T
after the class is completely defined.
using T = X;
class C {
::T x;
using T = Y;
};
The above example is legal. The declaration using T = Y;
does not change the meaning of ::T
, because ::T
will always refer to the global declaration even though C::T
is there.
using T = X;
class C {
void foo() { T x; }
using T = Y;
};
The above example is legal. The body of foo
is a complete-class context, which implies that name lookup for T
is not done until after the entire class has been seen. Put another way, the declaration using T = Y;
in a sense always "precedes" the body of foo
so this is similar to the first example.