safecode/tools/clang/test/CXX/temp/temp.param/p11-0x.cpp - llvm-archive - Git at Google

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

 // If a template-parameter of a class template or alias template has a default
 // template-argument, each subsequent template-parameter shall either have a
 // default template-argument supplied or be a template parameter pack.
 template<typename> struct vector;

 template<typename T = int, typename> struct X3t; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
 template<typename T = int, typename> using A3t = int; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
 template<int V = 0, int> struct X3nt; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
 template<int V = 0, int> using A3nt = int; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
 template<template<class> class M = vector, template<class> class> struct X3tt; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
 template<template<class> class M = vector, template<class> class> using A3tt = int; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}

 template<typename T = int, typename ...Types> struct X2t;
 template<typename T = int, typename ...Types> using A2t = X2t<T, Types...>;
 template<int V = 0, int ...Values> struct X2nt;
 template<int V = 0, int ...Values> using A2nt = X2nt<V, Values...>;
 template<template<class> class M = vector, template<class> class... Metas>
   struct X2tt;
 template<template<class> class M = vector, template<class> class... Metas>
   using A2tt = X2tt<M, Metas...>;

 // If a template-parameter of a primary class template or alias template is a
 // template parameter pack, it shall be the last template-parameter.
 template<typename ...Types, // expected-error{{template parameter pack must be the last template parameter}}
          int After, int After2>
 struct X0t;
 X0t<int> pr9789();
 template<typename ...Types, // expected-error{{template parameter pack must be the last template parameter}}
          int After>
 using A0t = int;

 template<int ...Values, // expected-error{{template parameter pack must be the last template parameter}}
          int After>
 struct X0nt;
 template<int ...Values, // expected-error{{template parameter pack must be the last template parameter}}
          int After>
 using A0nt = int;

 template<template<typename> class ...Templates, // expected-error{{template parameter pack must be the last template parameter}}
          int After>
 struct X0tt;
 template<template<typename> class ...Templates, // expected-error{{template parameter pack must be the last template parameter}}
          int After>
 using A0tt = int;

 // [ Note: These are not requirements for function templates or class
 // template partial specializations because template arguments can be
 // deduced (14.8.2). -- end note]
 template<typename... Types> struct X1t;
 template<typename ...Types, typename T> struct X1t<T, Types...> { };

 template<int... Values> struct X1nt;
 template<int ...Values, int V> struct X1nt<V, Values...> { };

 template<template<int> class... Meta> struct X1tt;
 template<template<int> class... Meta, template<int> class M>
   struct X1tt<M, Meta...> { };

 template<typename ...Types, typename T>
 void f1t(X1t<T, Types...>);

 template<int ...Values, int V>
 void f1nt(X1nt<V, Values...>);

 template<template<int> class... Meta, template<int> class M>
 void f1tt(X1tt<M, Meta...>);

 namespace DefaultTemplateArgsInFunction {
   template<typename T = int, typename U>  T &f0(U) { T *x = 0; return *x; }

   void test_f0() {
     int &ir0 = f0(3.14159);
     int &ir1 = f0<int>(3.14159);
     float &fr0 = f0<float>(3.14159);
   }

   template<> int &f0(int*);
   template int &f0(double&);
 }
	// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s

	// If a template-parameter of a class template or alias template has a default
	// template-argument, each subsequent template-parameter shall either have a
	// default template-argument supplied or be a template parameter pack.
	template<typename> struct vector;

	template<typename T = int, typename> struct X3t; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
	template<typename T = int, typename> using A3t = int; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
	template<int V = 0, int> struct X3nt; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
	template<int V = 0, int> using A3nt = int; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
	template<template<class> class M = vector, template<class> class> struct X3tt; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}
	template<template<class> class M = vector, template<class> class> using A3tt = int; // expected-error{{template parameter missing a default argument}} expected-note{{previous default template argument defined here}}

	template<typename T = int, typename ...Types> struct X2t;
	template<typename T = int, typename ...Types> using A2t = X2t<T, Types...>;
	template<int V = 0, int ...Values> struct X2nt;
	template<int V = 0, int ...Values> using A2nt = X2nt<V, Values...>;
	template<template<class> class M = vector, template<class> class... Metas>
	struct X2tt;
	template<template<class> class M = vector, template<class> class... Metas>
	using A2tt = X2tt<M, Metas...>;

	// If a template-parameter of a primary class template or alias template is a
	// template parameter pack, it shall be the last template-parameter.
	template<typename ...Types, // expected-error{{template parameter pack must be the last template parameter}}
	int After, int After2>
	struct X0t;
	X0t<int> pr9789();
	template<typename ...Types, // expected-error{{template parameter pack must be the last template parameter}}
	int After>
	using A0t = int;

	template<int ...Values, // expected-error{{template parameter pack must be the last template parameter}}
	int After>
	struct X0nt;
	template<int ...Values, // expected-error{{template parameter pack must be the last template parameter}}
	int After>
	using A0nt = int;

	template<template<typename> class ...Templates, // expected-error{{template parameter pack must be the last template parameter}}
	int After>
	struct X0tt;
	template<template<typename> class ...Templates, // expected-error{{template parameter pack must be the last template parameter}}
	int After>
	using A0tt = int;

	// [ Note: These are not requirements for function templates or class
	// template partial specializations because template arguments can be
	// deduced (14.8.2). -- end note]
	template<typename... Types> struct X1t;
	template<typename ...Types, typename T> struct X1t<T, Types...> { };

	template<int... Values> struct X1nt;
	template<int ...Values, int V> struct X1nt<V, Values...> { };

	template<template<int> class... Meta> struct X1tt;
	template<template<int> class... Meta, template<int> class M>
	struct X1tt<M, Meta...> { };

	template<typename ...Types, typename T>
	void f1t(X1t<T, Types...>);

	template<int ...Values, int V>
	void f1nt(X1nt<V, Values...>);

	template<template<int> class... Meta, template<int> class M>
	void f1tt(X1tt<M, Meta...>);

	namespace DefaultTemplateArgsInFunction {
	template<typename T = int, typename U> T &f0(U) { T x = 0; return x; }

	void test_f0() {
	int &ir0 = f0(3.14159);
	int &ir1 = f0<int>(3.14159);
	float &fr0 = f0<float>(3.14159);
	}

	template<> int &f0(int*);
	template int &f0(double&);
	}