// RUN: %clang_cc1 -fcxx-exceptions -fexceptions -fsyntax-only -verify %s // C++0x [class.access]p4: // Access control is applied uniformly to all names, whether the // names are referred to from declarations or expressions. In the // case of overloaded function names, access control is applied to // the function selected by overload resolution. class Public {} PublicInst; class Protected {} ProtectedInst; class Private {} PrivateInst; namespace test0 { class A { public: void foo(Public&); protected: void foo(Protected&); // expected-note 2 {{declared protected here}} private: void foo(Private&); // expected-note 2 {{declared private here}} }; void test(A *op) { op->foo(PublicInst); op->foo(ProtectedInst); // expected-error {{'foo' is a protected member}} op->foo(PrivateInst); // expected-error {{'foo' is a private member}} void (A::*a)(Public&) = &A::foo; void (A::*b)(Protected&) = &A::foo; // expected-error {{'foo' is a protected member}} void (A::*c)(Private&) = &A::foo; // expected-error {{'foo' is a private member}} } } // Member operators. namespace test1 { class A { public: void operator+(Public&); void operator[](Public&); void operator()(Public&); typedef void (*PublicSurrogate)(Public&); operator PublicSurrogate() const; protected: void operator+(Protected&); // expected-note {{declared protected here}} void operator[](Protected&); // expected-note {{declared protected here}} void operator()(Protected&); // expected-note {{declared protected here}} typedef void (*ProtectedSurrogate)(Protected&); operator ProtectedSurrogate() const; // expected-note {{declared protected here}} private: void operator+(Private&); // expected-note {{declared private here}} void operator[](Private&); // expected-note {{declared private here}} void operator()(Private&); // expected-note {{declared private here}} void operator-(); // expected-note {{declared private here}} typedef void (*PrivateSurrogate)(Private&); operator PrivateSurrogate() const; // expected-note {{declared private here}} }; void operator+(const A &, Public&); void operator+(const A &, Protected&); void operator+(const A &, Private&); void operator-(const A &); void test(A &a, Public &pub, Protected &prot, Private &priv) { a + pub; a + prot; // expected-error {{'operator+' is a protected member}} a + priv; // expected-error {{'operator+' is a private member}} a[pub]; a[prot]; // expected-error {{'operator[]' is a protected member}} a[priv]; // expected-error {{'operator[]' is a private member}} a(pub); a(prot); // expected-error {{'operator()' is a protected member}} a(priv); // expected-error {{'operator()' is a private member}} -a; // expected-error {{'operator-' is a private member}} const A &ca = a; ca + pub; ca + prot; ca + priv; -ca; // These are all surrogate calls ca(pub); ca(prot); // expected-error {{'operator void (*)(class Protected &)' is a protected member}} ca(priv); // expected-error {{'operator void (*)(class Private &)' is a private member}} } } // Implicit constructor calls. namespace test2 { class A { private: A(); // expected-note 3 {{declared private here}} static A foo; }; A a; // expected-error {{calling a private constructor}} A A::foo; // okay class B : A { }; // expected-error {{base class 'test2::A' has private default constructor}} B b; // expected-note{{implicit default constructor}} class C : virtual A { public: C(); }; class D : C { }; // expected-error {{inherited virtual base class 'test2::A' has private default constructor}} D d; // expected-note{{implicit default constructor}} } // Implicit destructor calls. namespace test3 { class A { private: ~A(); // expected-note 2 {{declared private here}} static A foo; }; A a; // expected-error {{variable of type 'test3::A' has private destructor}} A A::foo; void foo(A param) { // okay A local; // expected-error {{variable of type 'test3::A' has private destructor}} } template <unsigned N> class Base { ~Base(); }; // expected-note 14 {{declared private here}} class Base2 : virtual Base<2> { ~Base2(); }; // expected-note 3 {{declared private here}} \ // expected-error {{base class 'Base<2>' has private destructor}} class Base3 : virtual Base<3> { public: ~Base3(); }; // expected-error {{base class 'Base<3>' has private destructor}} // These don't cause diagnostics because we don't need the destructor. class Derived0 : Base<0> { ~Derived0(); }; class Derived1 : Base<1> { }; class Derived2 : // expected-error {{inherited virtual base class 'Base<2>' has private destructor}} \ // expected-error {{inherited virtual base class 'Base<3>' has private destructor}} Base<0>, // expected-error {{base class 'Base<0>' has private destructor}} virtual Base<1>, // expected-error {{base class 'Base<1>' has private destructor}} Base2, // expected-error {{base class 'test3::Base2' has private destructor}} virtual Base3 { ~Derived2() {} }; class Derived3 : // expected-error 2 {{inherited virtual base class 'Base<2>' has private destructor}} \ // expected-error 2 {{inherited virtual base class 'Base<3>' has private destructor}} \ // expected-note 2{{implicit default constructor}} Base<0>, // expected-error 2 {{base class 'Base<0>' has private destructor}} virtual Base<1>, // expected-error 2 {{base class 'Base<1>' has private destructor}} Base2, // expected-error 2 {{base class 'test3::Base2' has private destructor}} virtual Base3 {}; Derived3 d3; // expected-note {{implicit default constructor}}\ // expected-note{{implicit default destructor}}} } // Conversion functions. namespace test4 { class Base { private: operator Private(); // expected-note 4 {{declared private here}} public: operator Public(); // expected-note 2{{member is declared here}} }; class Derived1 : private Base { // expected-note 2 {{declared private here}} \ // expected-note {{constrained by private inheritance}} Private test1() { return *this; } // expected-error {{'operator Private' is a private member}} Public test2() { return *this; } }; Private test1(Derived1 &d) { return d; } // expected-error {{'operator Private' is a private member}} \ // expected-error {{cannot cast 'test4::Derived1' to its private base class}} Public test2(Derived1 &d) { return d; } // expected-error {{cannot cast 'test4::Derived1' to its private base class}} \ // expected-error {{'operator Public' is a private member}} class Derived2 : public Base { Private test1() { return *this; } // expected-error {{'operator Private' is a private member}} Public test2() { return *this; } }; Private test1(Derived2 &d) { return d; } // expected-error {{'operator Private' is a private member}} Public test2(Derived2 &d) { return d; } class Derived3 : private Base { // expected-note {{constrained by private inheritance here}} \ // expected-note {{declared private here}} public: operator Private(); }; Private test1(Derived3 &d) { return d; } Public test2(Derived3 &d) { return d; } // expected-error {{'operator Public' is a private member of 'test4::Base'}} \ // expected-error {{cannot cast 'test4::Derived3' to its private base class}} class Derived4 : public Base { public: operator Private(); }; Private test1(Derived4 &d) { return d; } Public test2(Derived4 &d) { return d; } } // Implicit copy assignment operator uses. namespace test5 { class A { void operator=(const A &); // expected-note 2 {{implicitly declared private here}} }; class Test1 { A a; }; // expected-error {{private member}} void test1() { Test1 a; a = Test1(); // expected-note{{implicit default copy}} } class Test2 : A {}; // expected-error {{private member}} void test2() { Test2 a; a = Test2(); // expected-note{{implicit default copy}} } } // Implicit copy constructor uses. namespace test6 { class A { public: A(); private: A(const A &); // expected-note 2 {{declared private here}} }; class Test1 { A a; }; // expected-error {{field of type 'test6::A' has private copy constructor}} void test1(const Test1 &t) { Test1 a = t; // expected-note{{implicit default copy}} } class Test2 : A {}; // expected-error {{base class 'test6::A' has private copy constructor}} void test2(const Test2 &t) { Test2 a = t; // expected-note{{implicit default copy}} } } // Redeclaration lookups are not accesses. namespace test7 { class A { int private_member; }; class B : A { int foo(int private_member) { return 0; } }; } // Ignored operator new and delete overloads are not namespace test8 { typedef __typeof__(sizeof(int)) size_t; class A { void *operator new(size_t s); void operator delete(void *p); public: void *operator new(size_t s, int n); void operator delete(void *p, int n); }; void test() { new (2) A(); } } // Don't silently upgrade forbidden-access paths to private. namespace test9 { class A { public: static int x; // expected-note {{member is declared here}} }; class B : private A { // expected-note {{constrained by private inheritance here}} }; class C : public B { static int getX() { return x; } // expected-error {{'x' is a private member of 'test9::A'}} }; } namespace test10 { class A { enum { value = 10 // expected-note {{declared private here}} }; friend class C; }; class B { enum { value = A::value // expected-error {{'value' is a private member of 'test10::A'}} }; }; class C { enum { value = A::value }; }; } namespace test11 { class A { protected: virtual ~A(); }; class B : public A { ~B(); }; B::~B() {}; } namespace test12 { class A { int x; void foo() { class Local { int foo(A *a) { return a->x; } }; } }; } namespace test13 { struct A { int x; unsigned foo() const; }; struct B : protected A { using A::foo; using A::x; }; void test() { A *d; d->foo(); (void) d->x; } } // Destructors for temporaries. namespace test14 { class A { private: ~A(); // expected-note {{declared private here}} }; A foo(); void test() { foo(); // expected-error {{temporary of type 'test14::A' has private destructor}} } class X { ~X(); // expected-note {{declared private here}} }; struct Y1 { operator X(); }; void g() { const X &xr = Y1(); // expected-error{{temporary of type 'test14::X' has private destructor}} } } // PR 7024 namespace test15 { template <class T> class A { private: int private_foo; // expected-note {{declared private here}} static int private_sfoo; // expected-note {{declared private here}} protected: int protected_foo; // expected-note 3 {{declared protected here}} // expected-note {{object type must derive from context type 'test15::B<int>'}} static int protected_sfoo; // expected-note 3 {{declared protected here}} int test1(A<int> &a) { return a.private_foo; // expected-error {{private member}} } int test2(A<int> &a) { return a.private_sfoo; // expected-error {{private member}} } int test3(A<int> &a) { return a.protected_foo; // expected-error {{protected member}} } int test4(A<int> &a) { return a.protected_sfoo; // expected-error {{protected member}} } }; template class A<int>; template class A<long>; // expected-note 4 {{in instantiation}} template <class T> class B : public A<T> { // TODO: These first two accesses can be detected as ill-formed at // definition time because they're member accesses and A<int> can't // be a subclass of B<T> for any T. int test1(A<int> &a) { return a.protected_foo; // expected-error 2 {{protected member}} } int test2(A<int> &a) { return a.protected_sfoo; // expected-error {{protected member}} } int test3(B<int> &b) { return b.protected_foo; // expected-error {{protected member}} } int test4(B<int> &b) { return b.protected_sfoo; // expected-error {{protected member}} } }; template class B<int>; // expected-note {{in instantiation}} template class B<long>; // expected-note 4 {{in instantiation}} } // PR7281 namespace test16 { class A { ~A(); }; // expected-note 2{{declared private here}} void b() { throw A(); } // expected-error{{temporary of type 'test16::A' has private destructor}} \ // expected-error{{exception object of type 'test16::A' has private destructor}} } // rdar://problem/8146294 namespace test17 { class A { template <typename T> class Inner { }; // expected-note {{declared private here}} }; A::Inner<int> s; // expected-error {{'Inner' is a private member of 'test17::A'}} } namespace test18 { template <class T> class A {}; class B : A<int> { A<int> member; }; // FIXME: this access to A should be forbidden (because C++ is dumb), // but LookupResult can't express the necessary information to do // the check, so we aggressively suppress access control. class C : B { A<int> member; }; } // PR8325 namespace test19 { class A { ~A(); }; // The destructor is not implicitly referenced here. Contrast to test16, // testing PR7281, earlier in this file. void b(A* x) { throw x; } } // PR7930 namespace test20 { class Foo { Foo(); // expected-note {{implicitly declared private here}} }; Foo::Foo() {} void test() { Foo a; // expected-error {{calling a private constructor}} } } namespace test21 { template <class T> class A { void foo(); void bar(); class Inner; // expected-note {{implicitly declared private here}} public: void baz(); }; template <class T> class A<T>::Inner {}; class B { template <class T> class A<T>::Inner; }; void test() { A<int>::Inner i; // expected-error {{'Inner' is a private member}} } } namespace rdar8876150 { struct A { operator bool(); }; struct B : private A { using A::operator bool; }; bool f() { B b; return !b; } } namespace test23 { template <typename T> class A { A(); static A instance; }; template <typename T> A<T> A<T>::instance; template class A<int>; }