// RUN: %clang_cc1 -std=c++11 -verify %s
template<typename T> struct A {
enum E : T; // expected-note {{here}}
E v;
E f() { return A::e1; } // expected-error {{no member named 'e1' in 'A<T>'}}
E g() { return E::e1; }
E h();
};
A<int> a;
A<int>::E a0 = A<int>().v;
int n = A<int>::E::e1; // expected-error {{implicit instantiation of undefined member}}
template<typename T> enum A<T>::E : T { e1, e2 }; // expected-note 2 {{declared here}}
// FIXME: Now that A<T>::E is defined, we are supposed to inject its enumerators
// into the already-instantiated class A<T>. This seems like a really bad idea,
// though, so we don't implement that, but what we do implement is inconsistent.
//
// Either do as the standard says, or only include enumerators lexically defined
// within the class in its scope.
A<int>::E a1 = A<int>::e1; // expected-error {{no member named 'e1' in 'A<int>'; did you mean simply 'e1'?}}
A<char>::E a2 = A<char>::e2;
template<typename T> typename A<T>::E A<T>::h() { return e2; }
A<short>::E a3 = A<short>().h();
template<typename T> struct B {
enum class E;
E v;
E f() { return E::e1; }
E g();
};
B<int> b;
B<int>::E b0 = B<int>().v;
template<typename T> enum class B<T>::E { e1, e2 };
B<int>::E b1 = B<int>::E::e1;
B<char>::E b2 = B<char>::E::e2;
template<typename T> typename B<T>::E B<T>::g() { return e2; }
B<short>::E b3 = B<short>().g();
// Enumeration members of class templates can be explicitly specialized. For
// unscoped enumerations, specializations must be defined before the primary
// template is, since otherwise the primary template will be implicitly
// instantiated when we parse the nested name specifier.
template<> enum A<long long>::E : long long { e3, e4 }; // expected-error {{explicit specialization of 'E' after instantiation}} expected-note {{first required here}}
template<> enum class B<long long>::E { e3, e4 };
B<long long>::E b4 = B<long long>::E::e4;
B<long>::E b5;
template<> enum class B<long>::E { e5 };
void fb5() { b5 = decltype(b5)::e5; }
B<long>::E b6 = B<long>::E::e5;
template<typename T> struct C {
enum class E : T;
};
template<> enum class C<long long>::E : long long { e3, e4 };
C<long long>::E c0 = C<long long>::E::e3;
C<long>::E c1;
template<> enum class C<long>::E : long { e5 };
void fc1() { c1 = decltype(c1)::e5; }
C<long>::E c2 = C<long>::E::e5;
template<> enum class C<int>::E : int { e6 };
template<typename T> enum class C<T>::E : T { e0 };
C<int>::E c3 = C<int>::E::e6;
C<int>::E c4 = C<int>::E::e0; // expected-error {{no member named 'e0' in 'C<int>::E'}}
// Enumeration members can't be partially-specialized.
template<typename T> enum class B<T*>::E { e5, e6 }; // expected-error {{nested name specifier for a declaration cannot depend on a template parameter}}
// Explicit specializations can be forward-declared.
template<typename T>
struct D {
enum class E { e1 };
};
template<> enum class D<int>::E;
D<int>::E d1 = D<int>::E::e1; // expected-error {{incomplete type 'D<int>::E'}}
template<> enum class D<int>::E { e2 };
D<int>::E d2 = D<int>::E::e2;
D<char>::E d3 = D<char>::E::e1; // expected-note {{first required here}}
D<char>::E d4 = D<char>::E::e2; // expected-error {{no member named 'e2' in 'D<char>::E'; did you mean simply 'e2'?}}
template<> enum class D<char>::E { e3 }; // expected-error {{explicit specialization of 'E' after instantiation}}
template<> enum class D<short>::E;
struct F {
// Per C++11 [class.friend]p3, these friend declarations have no effect.
// Only classes and functions can be friends.
template<typename T> friend enum D<T>::E; // expected-warning {{elaborated enum specifier cannot be declared as a friend}}
// expected-note@-1 {{remove 'enum' to befriend an enum}}
template<> friend enum D<short>::E; // expected-warning {{elaborated enum specifier cannot be declared as a friend}}
// expected-note@-1 {{remove 'enum' to befriend an enum}}
template<> friend enum D<double>::E { e3 }; // expected-error {{cannot define a type in a friend declaration}}
// expected-warning@-1 {{elaborated enum specifier cannot be declared as a friend}}
// expected-note@-2 {{remove 'enum' to befriend an enum}}
private:
static const int n = 1; // expected-note {{private here}}
};
template<> enum class D<short>::E {
e = F::n // expected-error {{private member}}
};
class Access {
friend class X;
template<typename T>
class Priv {
friend class X;
enum class E : T;
};
class S {
typedef int N; // expected-note {{here}}
static const int k = 3; // expected-note {{here}}
friend class Priv<char>;
};
static const int k = 5;
};
template<> enum class Access::Priv<Access::S::N>::E
: Access::S::N { // expected-error {{private member}}
a = Access::k, // ok
b = Access::S::k // expected-error {{private member}}
};
template<typename T> enum class Access::Priv<T>::E : T {
c = Access::k,
d = Access::S::k
};
class X {
Access::Priv<int>::E a = Access::Priv<int>::E::a;
Access::Priv<char>::E c = Access::Priv<char>::E::d;
// FIXME: We should see an access error for this enumerator.
Access::Priv<short>::E b = Access::Priv<short>::E::d;
};