| // RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++11 |
| |
| void f(); // expected-note{{possible target for call}} |
| void f(int); // expected-note{{possible target for call}} |
| decltype(f) a; // expected-error{{reference to overloaded function could not be resolved; did you mean to call it with no arguments?}} expected-error {{variable has incomplete type 'decltype(f())' (aka 'void')}} |
| |
| template<typename T> struct S { |
| decltype(T::f) * f; // expected-error {{call to non-static member function without an object argument}} |
| }; |
| |
| struct K { |
| void f(); |
| void f(int); |
| }; |
| S<K> b; // expected-note{{in instantiation of template class 'S<K>' requested here}} |
| |
| namespace PR13978 { |
| template<typename T> struct S { decltype(1) f(); }; |
| template<typename T> decltype(1) S<T>::f() { return 1; } |
| |
| // This case is ill-formed (no diagnostic required) because the decltype |
| // expressions are functionally equivalent but not equivalent. It would |
| // be acceptable for us to reject this case. |
| template<typename T> struct U { struct A {}; decltype(A{}) f(); }; |
| template<typename T> decltype(typename U<T>::A{}) U<T>::f() {} |
| |
| // This case is valid. |
| template<typename T> struct V { struct A {}; decltype(typename V<T>::A{}) f(); }; |
| template<typename T> decltype(typename V<T>::A{}) V<T>::f() {} |
| } |
