// RUN: %clang_cc1 -fsyntax-only -verify %s // C++0x [class.access]p6: // All access controls in [class.access] affect the ability to // access a class member name from a particular scope. For purposes // of access control, the base-specifiers of a class and the // definitions of class members that appear outside of the class // definition are considered to be within the scope of that // class. In particular, access controls apply as usual to member // names accessed as part of a function return type, even though it // is not possible to determine the access privileges of that use // without first parsing the rest of the function // declarator. Similarly, access control for implicit calls to the // constructors, the conversion functions, or the destructor called // to create and destroy a static data member is performed as if // these calls appeared in the scope of the member's class. struct Public {}; struct Protected {}; struct Private {}; namespace test0 { class A { typedef int type; // expected-note {{declared private here}} type foo(); }; A::type foo() { } // expected-error {{'type' is a private member}} A::type A::foo() { } } // conversion decls namespace test1 { class A { public: A(); operator Public (); A(Public); protected: operator Protected (); // expected-note {{declared protected here}} A(Protected); // expected-note {{declared protected here}} private: operator Private (); // expected-note {{declared private here}} A(Private); // expected-note {{declared private here}} }; void test() { A a; Public pub = a; Protected prot = a; // expected-error {{'operator Protected' is a protected member}} Private priv = a; // expected-error {{'operator Private' is a private member}} A apub = pub; A aprot = prot; // expected-error {{protected constructor}} A apriv = priv; // expected-error {{private constructor}} } } // PR6967 namespace test2 { class A { public: template <class T> static void set(T &t, typename T::type v) { t.value = v; } template <class T> static typename T::type get(const T &t) { return t.value; } }; class B { friend class A; private: typedef int type; type value; }; int test() { B b; A::set(b, 0); return A::get(b); } } namespace test3 { class Green {}; class Blue {}; // We have to wrap this in a class because a partial specialization // isn't actually in the context of the template. struct Outer { template <class T, class Nat> class A { }; }; template <class T> class Outer::A<T, typename T::nature> { public: static void foo(); // expected-note {{'Outer::A<B, Green>::foo' declared here}} }; class B { private: typedef Green nature; friend class Outer; }; void test() { Outer::A<B, Green>::foo(); Outer::A<B, Blue>::foo(); // expected-error {{no member named 'foo' in 'test3::Outer::A<test3::B, test3::Blue>'; did you mean 'Outer::A<B, Green>::foo'?}} } } namespace test4 { template <class T> class A { private: typedef int type; template <class U> friend void foo(U &, typename U::type); }; template <class U> void foo(U &, typename U::type) {} void test() { A<int> a; foo(a, 0); } } // PR7644 namespace test5 { class A { enum Enum { E0, E1, E2 }; // expected-note 4 {{declared private here}} template <Enum> void foo(); template <Enum> class bar; }; template <A::Enum en> void A::foo() {} template <A::Enum en> class A::bar {}; template <A::Enum en> void foo() {} // expected-error {{'Enum' is a private member of 'test5::A'}} template <A::Enum en> class bar {}; // expected-error {{'Enum' is a private member of 'test5::A'}} class B { template <A::Enum en> void foo() {} // expected-error {{'Enum' is a private member of 'test5::A'}} template <A::Enum en> class bar {}; // expected-error {{'Enum' is a private member of 'test5::A'}} }; } namespace test6 { class A { public: class public_inner {}; protected: class protected_inner {}; private: class private_inner {}; // expected-note {{declared private here}} }; class B : A { public_inner a; protected_inner b; private_inner c; // expected-error {{'private_inner' is a private member of 'test6::A'}} }; } // PR9229 namespace test7 { void foo(int arg[1]); class A { void check(); }; class B { friend class A; A ins; }; void A::check() { void foo(int arg[__builtin_offsetof(B, ins)]); } } // rdar://problem/10155256 namespace test8 { class A { typedef void* (A::*UnspecifiedBoolType)() const; operator UnspecifiedBoolType() const; // expected-note {{implicitly declared private here}} }; void test(A &a) { if (a) return; // expected-error-re {{'operator void *(test8::A::*)(){{( __attribute__\(\(thiscall\)\))?}} const' is a private member of 'test8::A'}} } } namespace test9 { class A { operator char*() const; // expected-note {{implicitly declared private here}} }; void test(A &a) { delete a; // expected-error {{'operator char *' is a private member of 'test9::A'}} } }