test/CXX/class.access/class.friend/p1.cpp - clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify -std=c++98 %s
 // RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s
 // RUN: %clang_cc1 -fsyntax-only -verify -std=c++14 %s
 // RUN: %clang_cc1 -fsyntax-only -verify %s

 // C++'0x [class.friend] p1:
 //   A friend of a class is a function or class that is given permission to use
 //   the private and protected member names from the class. A class specifies
 //   its friends, if any, by way of friend declarations. Such declarations give
 //   special access rights to the friends, but they do not make the nominated
 //   friends members of the befriending class.

 struct S { static void f(); }; // expected-note 2 {{'S' declared here}}
 S* g() { return 0; } // expected-note 2 {{'g' declared here}}

 struct X {
   friend struct S;
   friend S* g();
 };

 void test1() {
   S s;
   g()->f();
   S::f();
   X::g(); // expected-error{{no member named 'g' in 'X'; did you mean simply 'g'?}}
   X::S x_s; // expected-error{{no type named 'S' in 'X'; did you mean simply 'S'?}}
   X x;
   x.g(); // expected-error{{no member named 'g' in 'X'}}
 }

 // Test that we recurse through namespaces to find already declared names, but
 // new names are declared within the enclosing namespace.
 namespace N {
   struct X {
     friend struct S;
     friend S* g();

     friend struct S2;
     friend struct S2* g2();
   };

   struct S2 { static void f2(); }; // expected-note 2 {{'S2' declared here}}
   S2* g2() { return 0; } // expected-note 2 {{'g2' declared here}}

   void test() {
     g()->f();
     S s;
     S::f();
     X::g(); // expected-error{{no member named 'g' in 'N::X'; did you mean simply 'g'?}}
     X::S x_s; // expected-error{{no type named 'S' in 'N::X'; did you mean simply 'S'?}}
     X x;
     x.g(); // expected-error{{no member named 'g' in 'N::X'}}

     g2();
     S2 s2;
     ::g2(); // expected-error{{no member named 'g2' in the global namespace; did you mean simply 'g2'?}}
     ::S2 g_s2; // expected-error{{no type named 'S2' in the global namespace; did you mean simply 'S2'?}}
     X::g2(); // expected-error{{no member named 'g2' in 'N::X'; did you mean simply 'g2'?}}
     X::S2 x_s2; // expected-error{{no type named 'S2' in 'N::X'; did you mean simply 'S2'?}}
     x.g2(); // expected-error{{no member named 'g2' in 'N::X'}}
   }
 }

 namespace test0 {
   class ClassFriend {
     void test();
   };

   class MemberFriend {
   public:
     void test();
   };

   void declared_test();

   class Class {
     static void member(); // expected-note 2 {{declared private here}}

     friend class ClassFriend;
     friend class UndeclaredClassFriend;

     friend void undeclared_test();
     friend void declared_test();
     friend void MemberFriend::test();
   };

   void declared_test() {
     Class::member();
   }

   void undeclared_test() {
     Class::member();
   }

   void unfriended_test() {
     Class::member(); // expected-error {{'member' is a private member of 'test0::Class'}}
   }

   void ClassFriend::test() {
     Class::member();
   }

   void MemberFriend::test() {
     Class::member();
   }

   class UndeclaredClassFriend {
     void test() {
       Class::member();
     }
   };

   class ClassNonFriend {
     void test() {
       Class::member(); // expected-error {{'member' is a private member of 'test0::Class'}}
     }
   };
 }

 // Make sure that friends have access to inherited protected members.
 namespace test2 {
   struct X;

   class ilist_half_node {
     friend struct ilist_walker_bad;
     X *Prev;
   protected:
     X *getPrev() { return Prev; } // expected-note{{member is declared here}}
   };

   class ilist_node : private ilist_half_node { // expected-note {{declared private here}} expected-note {{constrained by private inheritance here}}
     friend struct ilist_walker;
     X *Next;
     X *getNext() { return Next; } // expected-note {{declared private here}}
   };

   struct X : ilist_node {};

   struct ilist_walker {
     static X *getPrev(X *N) { return N->getPrev(); }
     static X *getNext(X *N) { return N->getNext(); }
   };

   struct ilist_walker_bad {
     static X *getPrev(X *N) { return N->getPrev(); } // \
     // expected-error {{'getPrev' is a private member of 'test2::ilist_half_node'}} \
     // expected-error {{cannot cast 'test2::X' to its private base class 'test2::ilist_half_node'}}

     static X *getNext(X *N) { return N->getNext(); } // \
     // expected-error {{'getNext' is a private member of 'test2::ilist_node'}}
   };
 }

 namespace test3 {
   class A { protected: int x; }; // expected-note {{declared protected here}}

   class B : public A {
     friend int foo(B*);
   };

   int foo(B *p) {
     return p->x;
   }

   int foo(const B *p) {
     return p->x; // expected-error {{'x' is a protected member of 'test3::A'}}
   }
 }

 namespace test3a {
   class A { protected: int x; };

   class B : public A {
     friend int foo(B*);
   };

   int foo(B * const p) {
     return p->x;
   }
 }

 namespace test4 {
   template <class T> class Holder {
     T object;
     friend bool operator==(Holder &a, Holder &b) {
       return a.object == b.object; // expected-error {{invalid operands to binary expression}}
     }
   };

   struct Inequal {};
   bool test() {
     Holder<Inequal> a, b;
     return a == b;  // expected-note {{requested here}}
   }
 }


 // PR6174
 namespace test5 {
   namespace ns {
     class A;
   }

   class ns::A {
   private: int x;
     friend class B;
   };

   namespace ns {
     class B {
       int test(A *p) { return p->x; }
     };
   }
 }

 // PR6207
 namespace test6 {
   struct A {};

   struct B {
     friend
 #if __cplusplus >= 201103L
       constexpr
 #endif
       A::A();
     friend A::~A();
     friend
 #if __cplusplus >= 201402L
       constexpr
 #endif
       A &A::operator=(const A&);
   };
 }

 namespace test7 {
   template <class T> struct X {
     X();
     ~X();
     void foo();
     void bar();
   };

   class A {
     friend void X<int>::foo();
     friend X<int>::X();
     friend
 #if __cplusplus >= 201103L
       constexpr
 #endif
       X<int>::X(const X&);

   private:
     A(); // expected-note 2 {{declared private here}}
   };

   template<> void X<int>::foo() {
     A a;
   }

   template<> void X<int>::bar() {
     A a; // expected-error {{calling a private constructor}}
   }

   template<> X<int>::X() {
     A a;
   }

   template<> X<int>::~X() {
     A a; // expected-error {{calling a private constructor}}
   }
 }

 // Return types, parameters and default arguments to friend functions.
 namespace test8 {
   class A {
     typedef int I; // expected-note 4 {{declared private here}}
     static const I x = 0; // expected-note {{implicitly declared private here}}
     friend I f(I i);
     template<typename T> friend I g(I i);
   };

   const A::I A::x;
   A::I f(A::I i = A::x) {}
   template<typename T> A::I g(A::I i) {
     T t;
   }
   template A::I g<A::I>(A::I i);

   A::I f2(A::I i = A::x) {} // expected-error 3 {{is a private member of}}
   template<typename T> A::I g2(A::I i) { // expected-error 2 {{is a private member of}}
     T t;
   }
   template A::I g2<A::I>(A::I i);
 }

 // PR6885
 namespace test9 {
   class B {
     friend class test9;
   };
 }

 // PR7230
 namespace test10 {
   extern "C" void test10_f(void);
   extern "C" void test10_g(void);

   namespace NS {
     class C {
       void foo(void); // expected-note {{declared private here}}
       friend void test10::test10_f(void);
     };
     static C* bar;
   }

   void test10_f(void) {
     NS::bar->foo();
   }

   void test10_g(void) {
     NS::bar->foo(); // expected-error {{private member}}
   }
 }

 // PR8705
 namespace test11 {
   class A {
   public:
     void test0(int);
     void test1(int);
     void test2(int);
     void test3(int);
   };

   class B {
     typedef int private_type; // expected-note 2 {{implicitly declared private here}}
     friend void A::test0(int);
     friend void A::test1(int);
   };

   void A::test0(B::private_type x) {}
   void A::test1(int x = B::private_type()) {}
   void A::test2(B::private_type x) {} // expected-error {{'private_type' is a private member of 'test11::B'}}
   void A::test3(int x = B::private_type()) {} // expected-error {{'private_type' is a private member of 'test11::B'}}
 }


 // PR9221
 namespace test12 {
   struct A {
     void foo();
   };
   class B : private A {
     friend void A::foo();
     void *mem;
   };
   void A::foo() {
     void *var = static_cast<B*>(this)->mem;
   }
 }

 namespace PR9103 {
   struct base {
   protected:
     static void foo(void) {}
   };

   struct cls: base {
     friend void bar(void) {
       base::foo();
     }
   };
 }

 // PR13642.  When computing the effective context, we were walking up
 // the DC chain for the canonical decl, which is unfortunate if that's
 // (e.g.) a friend declaration.
 namespace test14 {
   class A {
     class B { // expected-note {{implicitly declared private here}}
       static int i;
       friend void c();
     };
   };

   void c() {
     A::B::i = 5; // expected-error {{'B' is a private member of 'test14::A'}}
   }
 }
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++98 %s
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++14 %s
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	// C++'0x [class.friend] p1:
	// A friend of a class is a function or class that is given permission to use
	// the private and protected member names from the class. A class specifies
	// its friends, if any, by way of friend declarations. Such declarations give
	// special access rights to the friends, but they do not make the nominated
	// friends members of the befriending class.

	struct S { static void f(); }; // expected-note 2 {{'S' declared here}}
	S* g() { return 0; } // expected-note 2 {{'g' declared here}}

	struct X {
	friend struct S;
	friend S* g();
	};

	void test1() {
	S s;
	g()->f();
	S::f();
	X::g(); // expected-error{{no member named 'g' in 'X'; did you mean simply 'g'?}}
	X::S x_s; // expected-error{{no type named 'S' in 'X'; did you mean simply 'S'?}}
	X x;
	x.g(); // expected-error{{no member named 'g' in 'X'}}
	}

	// Test that we recurse through namespaces to find already declared names, but
	// new names are declared within the enclosing namespace.
	namespace N {
	struct X {
	friend struct S;
	friend S* g();

	friend struct S2;
	friend struct S2* g2();
	};

	struct S2 { static void f2(); }; // expected-note 2 {{'S2' declared here}}
	S2* g2() { return 0; } // expected-note 2 {{'g2' declared here}}

	void test() {
	g()->f();
	S s;
	S::f();
	X::g(); // expected-error{{no member named 'g' in 'N::X'; did you mean simply 'g'?}}
	X::S x_s; // expected-error{{no type named 'S' in 'N::X'; did you mean simply 'S'?}}
	X x;
	x.g(); // expected-error{{no member named 'g' in 'N::X'}}

	g2();
	S2 s2;
	::g2(); // expected-error{{no member named 'g2' in the global namespace; did you mean simply 'g2'?}}
	::S2 g_s2; // expected-error{{no type named 'S2' in the global namespace; did you mean simply 'S2'?}}
	X::g2(); // expected-error{{no member named 'g2' in 'N::X'; did you mean simply 'g2'?}}
	X::S2 x_s2; // expected-error{{no type named 'S2' in 'N::X'; did you mean simply 'S2'?}}
	x.g2(); // expected-error{{no member named 'g2' in 'N::X'}}
	}
	}

	namespace test0 {
	class ClassFriend {
	void test();
	};

	class MemberFriend {
	public:
	void test();
	};

	void declared_test();

	class Class {
	static void member(); // expected-note 2 {{declared private here}}

	friend class ClassFriend;
	friend class UndeclaredClassFriend;

	friend void undeclared_test();
	friend void declared_test();
	friend void MemberFriend::test();
	};

	void declared_test() {
	Class::member();
	}

	void undeclared_test() {
	Class::member();
	}

	void unfriended_test() {
	Class::member(); // expected-error {{'member' is a private member of 'test0::Class'}}
	}

	void ClassFriend::test() {
	Class::member();
	}

	void MemberFriend::test() {
	Class::member();
	}

	class UndeclaredClassFriend {
	void test() {
	Class::member();
	}
	};

	class ClassNonFriend {
	void test() {
	Class::member(); // expected-error {{'member' is a private member of 'test0::Class'}}
	}
	};
	}

	// Make sure that friends have access to inherited protected members.
	namespace test2 {
	struct X;

	class ilist_half_node {
	friend struct ilist_walker_bad;
	X *Prev;
	protected:
	X *getPrev() { return Prev; } // expected-note{{member is declared here}}
	};

	class ilist_node : private ilist_half_node { // expected-note {{declared private here}} expected-note {{constrained by private inheritance here}}
	friend struct ilist_walker;
	X *Next;
	X *getNext() { return Next; } // expected-note {{declared private here}}
	};

	struct X : ilist_node {};

	struct ilist_walker {
	static X getPrev(X N) { return N->getPrev(); }
	static X getNext(X N) { return N->getNext(); }
	};

	struct ilist_walker_bad {
	static X getPrev(X N) { return N->getPrev(); } // \
	// expected-error {{'getPrev' is a private member of 'test2::ilist_half_node'}} \
	// expected-error {{cannot cast 'test2::X' to its private base class 'test2::ilist_half_node'}}

	static X getNext(X N) { return N->getNext(); } // \
	// expected-error {{'getNext' is a private member of 'test2::ilist_node'}}
	};
	}

	namespace test3 {
	class A { protected: int x; }; // expected-note {{declared protected here}}

	class B : public A {
	friend int foo(B*);
	};

	int foo(B *p) {
	return p->x;
	}

	int foo(const B *p) {
	return p->x; // expected-error {{'x' is a protected member of 'test3::A'}}
	}
	}

	namespace test3a {
	class A { protected: int x; };

	class B : public A {
	friend int foo(B*);
	};

	int foo(B * const p) {
	return p->x;
	}
	}

	namespace test4 {
	template <class T> class Holder {
	T object;
	friend bool operator==(Holder &a, Holder &b) {
	return a.object == b.object; // expected-error {{invalid operands to binary expression}}
	}
	};

	struct Inequal {};
	bool test() {
	Holder<Inequal> a, b;
	return a == b; // expected-note {{requested here}}
	}
	}


	// PR6174
	namespace test5 {
	namespace ns {
	class A;
	}

	class ns::A {
	private: int x;
	friend class B;
	};

	namespace ns {
	class B {
	int test(A *p) { return p->x; }
	};
	}
	}

	// PR6207
	namespace test6 {
	struct A {};

	struct B {
	friend
	#if __cplusplus >= 201103L
	constexpr
	#endif
	A::A();
	friend A::~A();
	friend
	#if __cplusplus >= 201402L
	constexpr
	#endif
	A &A::operator=(const A&);
	};
	}

	namespace test7 {
	template <class T> struct X {
	X();
	~X();
	void foo();
	void bar();
	};

	class A {
	friend void X<int>::foo();
	friend X<int>::X();
	friend
	#if __cplusplus >= 201103L
	constexpr
	#endif
	X<int>::X(const X&);

	private:
	A(); // expected-note 2 {{declared private here}}
	};

	template<> void X<int>::foo() {
	A a;
	}

	template<> void X<int>::bar() {
	A a; // expected-error {{calling a private constructor}}
	}

	template<> X<int>::X() {
	A a;
	}

	template<> X<int>::~X() {
	A a; // expected-error {{calling a private constructor}}
	}
	}

	// Return types, parameters and default arguments to friend functions.
	namespace test8 {
	class A {
	typedef int I; // expected-note 4 {{declared private here}}
	static const I x = 0; // expected-note {{implicitly declared private here}}
	friend I f(I i);
	template<typename T> friend I g(I i);
	};

	const A::I A::x;
	A::I f(A::I i = A::x) {}
	template<typename T> A::I g(A::I i) {
	T t;
	}
	template A::I g<A::I>(A::I i);

	A::I f2(A::I i = A::x) {} // expected-error 3 {{is a private member of}}
	template<typename T> A::I g2(A::I i) { // expected-error 2 {{is a private member of}}
	T t;
	}
	template A::I g2<A::I>(A::I i);
	}

	// PR6885
	namespace test9 {
	class B {
	friend class test9;
	};
	}

	// PR7230
	namespace test10 {
	extern "C" void test10_f(void);
	extern "C" void test10_g(void);

	namespace NS {
	class C {
	void foo(void); // expected-note {{declared private here}}
	friend void test10::test10_f(void);
	};
	static C* bar;
	}

	void test10_f(void) {
	NS::bar->foo();
	}

	void test10_g(void) {
	NS::bar->foo(); // expected-error {{private member}}
	}
	}

	// PR8705
	namespace test11 {
	class A {
	public:
	void test0(int);
	void test1(int);
	void test2(int);
	void test3(int);
	};

	class B {
	typedef int private_type; // expected-note 2 {{implicitly declared private here}}
	friend void A::test0(int);
	friend void A::test1(int);
	};

	void A::test0(B::private_type x) {}
	void A::test1(int x = B::private_type()) {}
	void A::test2(B::private_type x) {} // expected-error {{'private_type' is a private member of 'test11::B'}}
	void A::test3(int x = B::private_type()) {} // expected-error {{'private_type' is a private member of 'test11::B'}}
	}


	// PR9221
	namespace test12 {
	struct A {
	void foo();
	};
	class B : private A {
	friend void A::foo();
	void *mem;
	};
	void A::foo() {
	void var = static_cast<B>(this)->mem;
	}
	}

	namespace PR9103 {
	struct base {
	protected:
	static void foo(void) {}
	};

	struct cls: base {
	friend void bar(void) {
	base::foo();
	}
	};
	}

	// PR13642. When computing the effective context, we were walking up
	// the DC chain for the canonical decl, which is unfortunate if that's
	// (e.g.) a friend declaration.
	namespace test14 {
	class A {
	class B { // expected-note {{implicitly declared private here}}
	static int i;
	friend void c();
	};
	};

	void c() {
	A::B::i = 5; // expected-error {{'B' is a private member of 'test14::A'}}
	}
	}