src/third_party/llvm-project/clang/test/CXX/temp/temp.res/temp.local/p1.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify -std=c++1z %s

 // C++1z [temp.local]p1:
 //   Like normal (non-template) classes, class templates have an
 //   injected-class-name (Clause 9). The injected-class-name can
 //   be used as a template-name or a type-name.

 template<typename> char id;

 template<typename> struct TempType {};
 template<template<typename> class> struct TempTemp {};

 template<typename> void use(int&); // expected-note {{invalid explicitly-specified argument}} expected-note {{no known conversion}}
 template<template<typename> class> void use(float&); // expected-note 2{{no known conversion}}
 template<int> void use(char&); // expected-note 2{{invalid explicitly-specified argument}}

 template<typename T> struct A {
   template<typename> struct C {};
   struct B : C<T> {
     //   When it is used with a template-argument-list,
     A<int> *aint;
     typename B::template C<int> *cint;

     //   as a template-argument for a template template-parameter,
     TempTemp<A> a_as_temp;
     TempTemp<B::template C> c_as_temp;

     //   or as the final identifier in the elaborated-type-specifier of a friend
     //   class template declaration,
     template<typename U> friend struct A;
     // it refers to the class template itself.

     // Otherwise, it is equivalent to the template-name followed by the
     // template-parameters of the class template enclosed in <>.
     A *aT;
     typename B::C *cT;
     TempType<A> a_as_type;
     TempType<typename B::C> c_as_type;
     friend struct A;
     friend struct B::C;

     void f(T &t) {
       use<A>(t); // expected-error {{no matching function}}
       if constexpr (&id<T> != &id<int>)
         use<B::template C>(t); // expected-error {{no matching function}}
     }
   };
 };

 template struct A<int>;
 template struct A<float>;
 template struct A<char>; // expected-note {{instantiation of}}

 template <typename T> struct X0 {
   X0();
   ~X0();
   X0 f(const X0&);
 };

 // Test non-type template parameters.
 template <int N1, const int& N2, const int* N3> struct X1 {
   X1();
   ~X1();
   X1 f(const X1& x1a) { X1 x1b(x1a); return x1b; }
 };

 //   When it is used with a template-argument-list, it refers to the specified
 //   class template specialization, which could be the current specialization
 //   or another specialization.
 // FIXME: Test this clause.

 int i = 42;
 void test() {
   X0<int> x0; (void)x0;
   X1<42, i, &i> x1; (void)x1;
 }
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++1z %s

	// C++1z [temp.local]p1:
	// Like normal (non-template) classes, class templates have an
	// injected-class-name (Clause 9). The injected-class-name can
	// be used as a template-name or a type-name.

	template<typename> char id;

	template<typename> struct TempType {};
	template<template<typename> class> struct TempTemp {};

	template<typename> void use(int&); // expected-note {{invalid explicitly-specified argument}} expected-note {{no known conversion}}
	template<template<typename> class> void use(float&); // expected-note 2{{no known conversion}}
	template<int> void use(char&); // expected-note 2{{invalid explicitly-specified argument}}

	template<typename T> struct A {
	template<typename> struct C {};
	struct B : C<T> {
	// When it is used with a template-argument-list,
	A<int> *aint;
	typename B::template C<int> *cint;

	// as a template-argument for a template template-parameter,
	TempTemp<A> a_as_temp;
	TempTemp<B::template C> c_as_temp;

	// or as the final identifier in the elaborated-type-specifier of a friend
	// class template declaration,
	template<typename U> friend struct A;
	// it refers to the class template itself.

	// Otherwise, it is equivalent to the template-name followed by the
	// template-parameters of the class template enclosed in <>.
	A *aT;
	typename B::C *cT;
	TempType<A> a_as_type;
	TempType<typename B::C> c_as_type;
	friend struct A;
	friend struct B::C;

	void f(T &t) {
	use<A>(t); // expected-error {{no matching function}}
	if constexpr (&id<T> != &id<int>)
	use<B::template C>(t); // expected-error {{no matching function}}
	}
	};
	};

	template struct A<int>;
	template struct A<float>;
	template struct A<char>; // expected-note {{instantiation of}}

	template <typename T> struct X0 {
	X0();
	~X0();
	X0 f(const X0&);
	};

	// Test non-type template parameters.
	template <int N1, const int& N2, const int* N3> struct X1 {
	X1();
	~X1();
	X1 f(const X1& x1a) { X1 x1b(x1a); return x1b; }
	};

	// When it is used with a template-argument-list, it refers to the specified
	// class template specialization, which could be the current specialization
	// or another specialization.
	// FIXME: Test this clause.

	int i = 42;
	void test() {
	X0<int> x0; (void)x0;
	X1<42, i, &i> x1; (void)x1;
	}