// RUN: %clang_cc1 -fsyntax-only -verify %s // [class.mfct.non-static]p3: // When an id-expression (5.1) that is not part of a class member // access syntax (5.2.5) and not used to form a pointer to member // (5.3.1) is used in the body of a non-static member function of // class X, if name lookup (3.4.1) resolves the name in the // id-expression to a non-static non-type member of some class C, // the id-expression is transformed into a class member access // expression (5.2.5) using (*this) (9.3.2) as the // postfix-expression to the left of the . operator. [ Note: if C is // not X or a base class of X, the class member access expression is // ill-formed. --end note] Similarly during name lookup, when an // unqualified-id (5.1) used in the definition of a member function // for class X resolves to a static member, an enumerator or a // nested type of class X or of a base class of X, the // unqualified-id is transformed into a qualified-id (5.1) in which // the nested-name-specifier names the class of the member function. namespace test0 { class A { int data_member; int instance_method(); static int static_method(); bool test() { return data_member + instance_method() < static_method(); } }; } namespace test1 { struct Opaque1 {}; struct Opaque2 {}; struct Opaque3 {}; struct A { void foo(Opaque1); // expected-note {{candidate}} void foo(Opaque2); // expected-note {{candidate}} }; struct B : A { void test(); }; struct C1 : A { }; struct C2 : B { }; void B::test() { A::foo(Opaque1()); A::foo(Opaque2()); A::foo(Opaque3()); // expected-error {{no matching member function}} C1::foo(Opaque1()); // expected-error {{call to non-static member function without an object argument}} C2::foo(Opaque1()); // expected-error {{call to non-static member function without an object argument}} } } namespace test2 { struct Unrelated { void foo(); }; template <class T> struct B; template <class T> struct C; template <class T> struct A { void foo(); void test0() { Unrelated::foo(); // expected-error {{call to non-static member function without an object argument}} } void test1() { B<T>::foo(); } static void test2() { B<T>::foo(); // expected-error {{call to non-static member function without an object argument}} } void test3() { C<T>::foo(); // expected-error {{no member named 'foo'}} } }; template <class T> struct B : A<T> { }; template <class T> struct C { }; int test() { A<int> a; a.test0(); // no instantiation note here, decl is ill-formed a.test1(); a.test2(); // expected-note {{in instantiation}} a.test3(); // expected-note {{in instantiation}} } }