typedef int f;
namespace N {
struct A {
friend void f(A &);
operator int();
void g(A a) {
int i = f(a); // f is the typedef, not the friend function: equivalent to int(a)
}
};
}
namespace A { namespace N { void f(); } } void A::N::f() { i = 5; // The following scopes are searched for a declaration of i: // 1) outermost block scope of A::N::f, before the use of i // 2) scope of namespace N // 3) scope of namespace A // 4) global scope, before the definition of A::N::f }
namespace M { class B { }; }
namespace N { class Y : public M::B { class X { int a[i]; }; }; } // The following scopes are searched for a declaration of i: // 1) scope of class N::Y::X, before the use of i // 2) scope of class N::Y, before the definition of N::Y::X // 3) scope of N::Y's base class M::B // 4) scope of namespace N, before the definition of N::Y // 5) global scope, before the definition of N
class B { }; namespace M { namespace N { class X : public B { void f(); }; } } void M::N::X::f() { i = 16; } // The following scopes are searched for a declaration of i: // 1) outermost block scope of M::N::X::f, before the use of i // 2) scope of class M::N::X // 3) scope of M::N::X's base class B // 4) scope of namespace M::N // 5) scope of namespace M // 6) global scope, before the definition of M::N::X::f
struct A { typedef int AT; void f1(AT); void f2(float); template <class T> void f3(); }; struct B { typedef char AT; typedef float BT; friend void A::f1(AT); // parameter type is A::AT friend void A::f2(BT); // parameter type is B::BT friend void A::f3<AT>(); // template argument is B::AT };
namespace N {
int i = 4;
extern int j;
}
int i = 2;
int N::j = i; // N::j == 4