safecode/tools/clang/test/CXX/dcl.decl/dcl.meaning/p1-0x.cpp - llvm-archive - Git at Google

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

 // The nested-name-specifier of a qualified declarator-id shall not begin with a decltype-specifier.
 class foo {
   static int i;
   void func();
 };

 int decltype(foo())::i; // expected-error{{'decltype' cannot be used to name a declaration}}
 void decltype(foo())::func() { // expected-error{{'decltype' cannot be used to name a declaration}}
 }


 template<typename T>
 class tfoo {
   static int i;
   void func();
 };

 template<typename T>
 int decltype(tfoo<T>())::i; // expected-error{{nested name specifier 'decltype(tfoo<T>())::' for declaration does not refer into a class, class template or class template partial specialization}}
 template<typename T>
 void decltype(tfoo<T>())::func() { // expected-error{{nested name specifier 'decltype(tfoo<T>())::' for declaration does not refer into a class, class template or class template partial specialization}}
 }

 // An init-declarator named with a qualified-id can refer to an element of the
 // inline namespace set of the named namespace.
 namespace inline_namespaces {
   namespace N {
     inline namespace M {
       void f(); // expected-note {{possible target}}
       void g();
       extern int m; // expected-note {{candidate}}
       extern int n;
       struct S; // expected-note {{candidate}}
       struct T;
       enum E : int; // expected-note {{candidate}}
       enum F : int;
       template<typename T> void ft(); // expected-note {{here}}
       template<typename T> void gt(); // expected-note {{here}}
       template<typename T> extern int mt; // expected-note {{here}} expected-warning {{extension}}
       template<typename T> extern int nt; // expected-note {{here}} expected-warning {{extension}}
       template<typename T> struct U; // expected-note {{here}}
       template<typename T> struct V; // expected-note {{here}}
     }

     // When named by unqualified-id, we do *not* look in the inline namespace
     // set.
     void f() {} // expected-note {{possible target}}
     int m; // expected-note {{candidate}}
     struct S {}; // expected-note {{candidate}}
     enum E : int {}; // expected-note {{candidate}}

     static_assert(&f != &M::f, ""); // expected-error {{reference to overloaded function could not be resolved}}
     static_assert(&m != &M::m, ""); // expected-error {{ambiguous}}
     typedef S X; // expected-error {{ambiguous}}
     typedef E Y; // expected-error {{ambiguous}}

     // When named by (unqualified) template-id, we do look in the inline
     // namespace set.  See [namespace.def]p8, [temp.explicit]p3,
     // [temp.expl.spec]p2.
     //
     // This is not explicitly specified for partial specializations, but
     // that is just a language defect.
     template<> void ft<int>() {}
     template void ft<char>(); // expected-error {{undefined}}

     template<typename T> int mt<T*>;
     template<> int mt<int>;
     template int mt<int*>;
     template int mt<char>; // expected-error {{undefined}}

     template<typename T> struct U<T*> {};
     template<> struct U<int> {};
     template struct U<int*>;
     template struct U<char>; // expected-error {{undefined}}
   }

   // When named by qualified-id, we *do* look in the inline namespace set.
   void N::g() {}
   int N::n;
   struct N::T {};
   enum N::F : int {};

   static_assert(&N::g == &N::M::g, "");
   static_assert(&N::n == &N::M::n, "");
   typedef N::T X;
   typedef N::M::T X;
   typedef N::F Y;
   typedef N::M::F Y;

   template<> void N::gt<int>() {}
   template void N::gt<char>(); // expected-error {{undefined}}

   template<typename T> int N::nt<T*>;
   template<> int N::nt<int>;
   template int N::nt<int*>;
   template int N::nt<char>; // expected-error {{undefined}}

   template<typename T> struct N::V<T*> {};
   template<> struct N::V<int> {};
   template struct N::V<int*>;
   template struct N::V<char>; // expected-error {{undefined}}
 }
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s

	// The nested-name-specifier of a qualified declarator-id shall not begin with a decltype-specifier.
	class foo {
	static int i;
	void func();
	};

	int decltype(foo())::i; // expected-error{{'decltype' cannot be used to name a declaration}}
	void decltype(foo())::func() { // expected-error{{'decltype' cannot be used to name a declaration}}
	}


	template<typename T>
	class tfoo {
	static int i;
	void func();
	};

	template<typename T>
	int decltype(tfoo<T>())::i; // expected-error{{nested name specifier 'decltype(tfoo<T>())::' for declaration does not refer into a class, class template or class template partial specialization}}
	template<typename T>
	void decltype(tfoo<T>())::func() { // expected-error{{nested name specifier 'decltype(tfoo<T>())::' for declaration does not refer into a class, class template or class template partial specialization}}
	}

	// An init-declarator named with a qualified-id can refer to an element of the
	// inline namespace set of the named namespace.
	namespace inline_namespaces {
	namespace N {
	inline namespace M {
	void f(); // expected-note {{possible target}}
	void g();
	extern int m; // expected-note {{candidate}}
	extern int n;
	struct S; // expected-note {{candidate}}
	struct T;
	enum E : int; // expected-note {{candidate}}
	enum F : int;
	template<typename T> void ft(); // expected-note {{here}}
	template<typename T> void gt(); // expected-note {{here}}
	template<typename T> extern int mt; // expected-note {{here}} expected-warning {{extension}}
	template<typename T> extern int nt; // expected-note {{here}} expected-warning {{extension}}
	template<typename T> struct U; // expected-note {{here}}
	template<typename T> struct V; // expected-note {{here}}
	}

	// When named by unqualified-id, we do not look in the inline namespace
	// set.
	void f() {} // expected-note {{possible target}}
	int m; // expected-note {{candidate}}
	struct S {}; // expected-note {{candidate}}
	enum E : int {}; // expected-note {{candidate}}

	static_assert(&f != &M::f, ""); // expected-error {{reference to overloaded function could not be resolved}}
	static_assert(&m != &M::m, ""); // expected-error {{ambiguous}}
	typedef S X; // expected-error {{ambiguous}}
	typedef E Y; // expected-error {{ambiguous}}

	// When named by (unqualified) template-id, we do look in the inline
	// namespace set. See [namespace.def]p8, [temp.explicit]p3,
	// [temp.expl.spec]p2.
	//
	// This is not explicitly specified for partial specializations, but
	// that is just a language defect.
	template<> void ft<int>() {}
	template void ft<char>(); // expected-error {{undefined}}

	template<typename T> int mt<T*>;
	template<> int mt<int>;
	template int mt<int*>;
	template int mt<char>; // expected-error {{undefined}}

	template<typename T> struct U<T*> {};
	template<> struct U<int> {};
	template struct U<int*>;
	template struct U<char>; // expected-error {{undefined}}
	}

	// When named by qualified-id, we do look in the inline namespace set.
	void N::g() {}
	int N::n;
	struct N::T {};
	enum N::F : int {};

	static_assert(&N::g == &N::M::g, "");
	static_assert(&N::n == &N::M::n, "");
	typedef N::T X;
	typedef N::M::T X;
	typedef N::F Y;
	typedef N::M::F Y;

	template<> void N::gt<int>() {}
	template void N::gt<char>(); // expected-error {{undefined}}

	template<typename T> int N::nt<T*>;
	template<> int N::nt<int>;
	template int N::nt<int*>;
	template int N::nt<char>; // expected-error {{undefined}}

	template<typename T> struct N::V<T*> {};
	template<> struct N::V<int> {};
	template struct N::V<int*>;
	template struct N::V<char>; // expected-error {{undefined}}
	}