test/SemaTemplate/instantiate-member-class.cpp - platform/external/clang - Gitiles

 // RUN: %clang_cc1 -fsyntax-only -verify %s

 template<typename T>
 class X {
 public:
   struct C { T &foo(); };

   struct D {
     struct E { T &bar(); }; // expected-error{{cannot form a reference to 'void'}}
     struct F; // expected-note{{member is declared here}}
   };
 };

 X<int>::C *c1;
 X<float>::C *c2;

 X<int>::X *xi; // expected-error{{qualified reference to 'X' is a constructor name rather than a type wherever a constructor can be declared}}
 X<float>::X *xf; // expected-error{{qualified reference to 'X' is a constructor name rather than a type wherever a constructor can be declared}}

 void test_naming() {
   c1 = c2; // expected-error{{assigning to 'X<int>::C *' from incompatible type 'X<float>::C *'}}
   xi = xf;  // expected-error{{assigning to 'X<int>::X<int> *' from incompatible type 'X<float>::X<float> *'}}
     // FIXME: error above doesn't print the type X<int>::X cleanly!
 }

 void test_instantiation(X<double>::C *x,
                         X<float>::D::E *e,
                         X<float>::D::F *f) {
   double &dr = x->foo();
   float &fr = e->bar();
   f->foo(); // expected-error{{implicit instantiation of undefined member 'X<float>::D::F'}}

 }


 X<void>::C *c3; // okay
 X<void>::D::E *e1; // okay
 X<void>::D::E e2; // expected-note{{in instantiation of member class 'X<void>::D::E' requested here}}

 // Redeclarations.
 namespace test1 {
   template <typename T> struct Registry {
     struct node;
     static node *Head;
     struct node {
       node(int v) { Head = this; }
     };
   };
   void test() {
     Registry<int>::node node(0);
   }
 }

 // Redeclarations during explicit instantiations.
 namespace test2 {
   template <typename T> class A {
     class Foo;
     class Foo {
       int foo();
     };
   };
   template class A<int>;

   template <typename T> class B {
     class Foo;
     class Foo {
     public:
       typedef int X;
     };
     typename Foo::X x;
     class Foo;
   };
   template class B<int>;

   template <typename T> class C {
     class Foo;
     class Foo;
   };
   template <typename T> class C<T>::Foo {
     int x;
   };
   template class C<int>;
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	template<typename T>
	class X {
	public:
	struct C { T &foo(); };

	struct D {
	struct E { T &bar(); }; // expected-error{{cannot form a reference to 'void'}}
	struct F; // expected-note{{member is declared here}}
	};
	};

	X<int>::C *c1;
	X<float>::C *c2;

	X<int>::X *xi; // expected-error{{qualified reference to 'X' is a constructor name rather than a type wherever a constructor can be declared}}
	X<float>::X *xf; // expected-error{{qualified reference to 'X' is a constructor name rather than a type wherever a constructor can be declared}}

	void test_naming() {
	c1 = c2; // expected-error{{assigning to 'X<int>::C ' from incompatible type 'X<float>::C '}}
	xi = xf; // expected-error{{assigning to 'X<int>::X<int> ' from incompatible type 'X<float>::X<float> '}}
	// FIXME: error above doesn't print the type X<int>::X cleanly!
	}

	void test_instantiation(X<double>::C *x,
	X<float>::D::E *e,
	X<float>::D::F *f) {
	double &dr = x->foo();
	float &fr = e->bar();
	f->foo(); // expected-error{{implicit instantiation of undefined member 'X<float>::D::F'}}

	}


	X<void>::C *c3; // okay
	X<void>::D::E *e1; // okay
	X<void>::D::E e2; // expected-note{{in instantiation of member class 'X<void>::D::E' requested here}}

	// Redeclarations.
	namespace test1 {
	template <typename T> struct Registry {
	struct node;
	static node *Head;
	struct node {
	node(int v) { Head = this; }
	};
	};
	void test() {
	Registry<int>::node node(0);
	}
	}

	// Redeclarations during explicit instantiations.
	namespace test2 {
	template <typename T> class A {
	class Foo;
	class Foo {
	int foo();
	};
	};
	template class A<int>;

	template <typename T> class B {
	class Foo;
	class Foo {
	public:
	typedef int X;
	};
	typename Foo::X x;
	class Foo;
	};
	template class B<int>;

	template <typename T> class C {
	class Foo;
	class Foo;
	};
	template <typename T> class C<T>::Foo {
	int x;
	};
	template class C<int>;
	}