The question is actually about when exactly a variable name is defined as an identifier, and the language determines that it is right after the point in code where the variable is declared:
typedef int type;
int main() {
type t; // type refers to ::type
int // type still refers to ::type
type; // variable declared, this shadows ::type
type + 1; // type is a variable of type int.
}
There are similar rules in other contexts, and it is just a matter of deciding when identifiers are declared. There are other similar situations, for example in the initialization list of a class:
struct test {
int x; // declare member
test( int x ) // declare parameter (shadows member)
: x( // refers to member (parameter is not legal here)
x ) // refers to parameter
{};
};
Or in the scope of the identifiers in the definition of member functions:
struct test {
typedef int type;
type f( type );
};
test::type // qualification required, the scope of the return type is
// at namespace level
test::f(
type t ) // but the scope of arguments is the class, no qualification
// required.
{}
As of the rationale for the decision, I cannot tell you but it is consistent and simple.
typedef
in C is actually to create an alias in the global identifier space that refers to an identifier in the user defined type space (i.e.typedef struct X {} X;
has as sole purpose to defineX
in the global identifier space to refer tostruct X
)