test/SemaTemplate/instantiate-member-template.cpp - clang - Git at Google

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

 template<typename T>
 struct X0 {
   template<typename U> T f0(U);
   template<typename U> U& f1(T*, U); // expected-error{{pointer to a reference}} \
                                      // expected-note{{candidate}}
 };

 X0<int> x0i;
 X0<void> x0v;
 X0<int&> x0ir; // expected-note{{instantiation}}

 void test_X0(int *ip, double *dp) {
   X0<int> xi;
   int i1 = xi.f0(ip);
   double *&dpr = xi.f1(ip, dp);
   xi.f1(dp, dp); // expected-error{{no matching}}

   X0<void> xv;
   double *&dpr2 = xv.f1(ip, dp);
 }

 template<typename T>
 struct X1 {
   template<typename U>
   struct Inner0 {
     U x;
     T y; // expected-error{{void}}
   };

   template<typename U>
   struct Inner1 {
     U x; // expected-error{{void}}
     T y;
   };

   template<typename U>
   struct Inner2 {
     struct SuperInner {
       U z; // expected-error{{void}}
     };
   };

   template<typename U>
   struct Inner3 {
     void f0(T t, U u) { // expected-note{{passing argument to parameter 't' here}}
       (void)(t + u); // expected-error{{invalid operands}}
     }

     template<typename V>
     V f1(T t, U u, V) {
       return t + u; // expected-error{{cannot initialize return object}}
     }
   };

   template<typename U>
   struct Inner4;
 };

 template<typename T>
 template<typename U>
 struct X1<T>::Inner4 {
   template<typename V>
   V f2(T t, U u, V);

   static U value;
 };

 template<typename T>
 template<typename U>
 U X1<T>::Inner4<U>::value; // expected-error{{reference variable}}

 template<typename T>
 template<typename U>
 template<typename V>
 V X1<T>::Inner4<U>::f2(T t, U u, V) {
   return t + u; // expected-error{{cannot initialize return object}}
 }

 void test_X1(int *ip, int i, double *dp) {
   X1<void>::Inner0<int> *xvip; // okay
   X1<void>::Inner0<int> xvi; // expected-note{{instantiation}}

   X1<int>::Inner1<void> *xivp; // okay
   X1<int>::Inner1<void> xiv; // expected-note{{instantiation}}

   X1<int>::Inner2<void>::SuperInner *xisivp; // okay
   X1<int>::Inner2<void>::SuperInner xisiv; // expected-note{{instantiation}}

   X1<int*>::Inner3<int> id3;
   id3.f0(ip, i);
   id3.f0(dp, i); // expected-error{{cannot initialize a parameter of type 'int *' with an lvalue of type 'double *'}}
   id3.f1(ip, i, ip);
   id3.f1(ip, i, dp); // expected-note{{instantiation}}

   X1<int*>::Inner3<double*> id3b;
   id3b.f0(ip, dp); // expected-note{{instantiation}}

   X1<int*>::Inner4<int> id4;
   id4.f2(ip, i, dp); // expected-note{{instantiation}}

   X1<int*>::Inner4<int>::value = 17;
   i = X1<int*>::Inner4<int&>::value; // expected-note{{instantiation}}
 }


 template<typename T>
 struct X2 {
   template<T *Ptr> // expected-error{{pointer to a reference}}
   struct Inner;

   template<T Value> // expected-error{{cannot have type 'float'}}
   struct Inner2;
 };

 X2<int&> x2a; // expected-note{{instantiation}}
 X2<float> x2b; // expected-note{{instantiation}}

 namespace N0 {
   template<typename T>
   struct X0 { };

   struct X1 {
     template<typename T> void f(X0<T>& vals) { g(vals); }
     template<typename T> void g(X0<T>& vals) { }
   };

   void test(X1 x1, X0<int> x0i, X0<long> x0l) {
     x1.f(x0i);
     x1.f(x0l);
   }
 }

 namespace PR6239 {
   template <typename T>
   struct X0 {
     class type {
       typedef T E;
       template <E e>  // subsitute T for E and bug goes away
       struct sfinae {  };

       template <class U>
       typename sfinae<&U::operator=>::type test(int);
     };
   };

   template <typename T>
   struct X1 {
     typedef T E;
     template <E e>  // subsitute T for E and bug goes away
     struct sfinae {  };

     template <class U>
     typename sfinae<&U::operator=>::type test(int);
   };

 }

 namespace PR7587 {
   template<typename> class X0;
   template<typename> struct X1;
   template<typename> class X2;

   template<typename T> class X3
   {
     template<
       template<typename> class TT,
       typename U = typename X1<T>::type
     >
     struct Inner {
       typedef X2<TT<typename X1<T>::type> > Type;
     };

     const typename Inner<X0>::Type minCoeff() const;
   };

   template<typename T> class X3<T*>
   {
     template<
       template<typename> class TT,
       typename U = typename X1<T>::type
     >
     struct Inner {
       typedef X2<TT<typename X1<T>::type> > Type;
     };

     const typename Inner<X0>::Type minCoeff() const;
   };

 }

 namespace PR7669 {
   template<class> struct X {
     template<class> struct Y {
       template<int,class> struct Z;
       template<int Dummy> struct Z<Dummy,int> {};
     };
   };

   void a()
   {
     X<int>::Y<int>::Z<0,int>();
   }
 }

 namespace PR8489 {
   template <typename CT>
   class C {
     template<typename FT>
     void F() {} // expected-note{{FT}}
   };
   void f() {
     C<int> c;
     c.F(); // expected-error{{no matching member function}}
   }
 }

 namespace rdar8986308 {
   template <bool> struct __static_assert_test;
   template <> struct __static_assert_test<true> {};
   template <unsigned> struct __static_assert_check {};

   namespace std {

     template <class _Tp, class _Up>
     struct __has_rebind
     {
     private:
       struct __two {char _; char __;};
       template <class _Xp> static __two __test(...);
       template <class _Xp> static char __test(typename _Xp::template rebind<_Up>* = 0);
     public:
       static const bool value = sizeof(__test<_Tp>(0)) == 1;
     };

   }

   template <class T> struct B1 {};

   template <class T>
   struct B
   {
     template <class U> struct rebind {typedef B1<U> other;};
   };

   template <class T, class U> struct D1 {};

   template <class T, class U>
   struct D
   {
     template <class V> struct rebind {typedef D1<V, U> other;};
   };

   int main()
   {
     typedef __static_assert_check<sizeof(__static_assert_test<((std::__has_rebind<B<int>, double>::value))>)> __t64;
     typedef __static_assert_check<sizeof(__static_assert_test<((std::__has_rebind<D<char, int>, double>::value))>)> __t64;
   }

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

	template<typename T>
	struct X0 {
	template<typename U> T f0(U);
	template<typename U> U& f1(T*, U); // expected-error{{pointer to a reference}} \
	// expected-note{{candidate}}
	};

	X0<int> x0i;
	X0<void> x0v;
	X0<int&> x0ir; // expected-note{{instantiation}}

	void test_X0(int ip, double dp) {
	X0<int> xi;
	int i1 = xi.f0(ip);
	double *&dpr = xi.f1(ip, dp);
	xi.f1(dp, dp); // expected-error{{no matching}}

	X0<void> xv;
	double *&dpr2 = xv.f1(ip, dp);
	}

	template<typename T>
	struct X1 {
	template<typename U>
	struct Inner0 {
	U x;
	T y; // expected-error{{void}}
	};

	template<typename U>
	struct Inner1 {
	U x; // expected-error{{void}}
	T y;
	};

	template<typename U>
	struct Inner2 {
	struct SuperInner {
	U z; // expected-error{{void}}
	};
	};

	template<typename U>
	struct Inner3 {
	void f0(T t, U u) { // expected-note{{passing argument to parameter 't' here}}
	(void)(t + u); // expected-error{{invalid operands}}
	}

	template<typename V>
	V f1(T t, U u, V) {
	return t + u; // expected-error{{cannot initialize return object}}
	}
	};

	template<typename U>
	struct Inner4;
	};

	template<typename T>
	template<typename U>
	struct X1<T>::Inner4 {
	template<typename V>
	V f2(T t, U u, V);

	static U value;
	};

	template<typename T>
	template<typename U>
	U X1<T>::Inner4<U>::value; // expected-error{{reference variable}}

	template<typename T>
	template<typename U>
	template<typename V>
	V X1<T>::Inner4<U>::f2(T t, U u, V) {
	return t + u; // expected-error{{cannot initialize return object}}
	}

	void test_X1(int ip, int i, double dp) {
	X1<void>::Inner0<int> *xvip; // okay
	X1<void>::Inner0<int> xvi; // expected-note{{instantiation}}

	X1<int>::Inner1<void> *xivp; // okay
	X1<int>::Inner1<void> xiv; // expected-note{{instantiation}}

	X1<int>::Inner2<void>::SuperInner *xisivp; // okay
	X1<int>::Inner2<void>::SuperInner xisiv; // expected-note{{instantiation}}

	X1<int*>::Inner3<int> id3;
	id3.f0(ip, i);
	id3.f0(dp, i); // expected-error{{cannot initialize a parameter of type 'int ' with an lvalue of type 'double '}}
	id3.f1(ip, i, ip);
	id3.f1(ip, i, dp); // expected-note{{instantiation}}

	X1<int>::Inner3<double> id3b;
	id3b.f0(ip, dp); // expected-note{{instantiation}}

	X1<int*>::Inner4<int> id4;
	id4.f2(ip, i, dp); // expected-note{{instantiation}}

	X1<int*>::Inner4<int>::value = 17;
	i = X1<int*>::Inner4<int&>::value; // expected-note{{instantiation}}
	}


	template<typename T>
	struct X2 {
	template<T *Ptr> // expected-error{{pointer to a reference}}
	struct Inner;

	template<T Value> // expected-error{{cannot have type 'float'}}
	struct Inner2;
	};

	X2<int&> x2a; // expected-note{{instantiation}}
	X2<float> x2b; // expected-note{{instantiation}}

	namespace N0 {
	template<typename T>
	struct X0 { };

	struct X1 {
	template<typename T> void f(X0<T>& vals) { g(vals); }
	template<typename T> void g(X0<T>& vals) { }
	};

	void test(X1 x1, X0<int> x0i, X0<long> x0l) {
	x1.f(x0i);
	x1.f(x0l);
	}
	}

	namespace PR6239 {
	template <typename T>
	struct X0 {
	class type {
	typedef T E;
	template <E e> // subsitute T for E and bug goes away
	struct sfinae { };

	template <class U>
	typename sfinae<&U::operator=>::type test(int);
	};
	};

	template <typename T>
	struct X1 {
	typedef T E;
	template <E e> // subsitute T for E and bug goes away
	struct sfinae { };

	template <class U>
	typename sfinae<&U::operator=>::type test(int);
	};

	}

	namespace PR7587 {
	template<typename> class X0;
	template<typename> struct X1;
	template<typename> class X2;

	template<typename T> class X3
	{
	template<
	template<typename> class TT,
	typename U = typename X1<T>::type
	>
	struct Inner {
	typedef X2<TT<typename X1<T>::type> > Type;
	};

	const typename Inner<X0>::Type minCoeff() const;
	};

	template<typename T> class X3<T*>
	{
	template<
	template<typename> class TT,
	typename U = typename X1<T>::type
	>
	struct Inner {
	typedef X2<TT<typename X1<T>::type> > Type;
	};

	const typename Inner<X0>::Type minCoeff() const;
	};

	}

	namespace PR7669 {
	template<class> struct X {
	template<class> struct Y {
	template<int,class> struct Z;
	template<int Dummy> struct Z<Dummy,int> {};
	};
	};

	void a()
	{
	X<int>::Y<int>::Z<0,int>();
	}
	}

	namespace PR8489 {
	template <typename CT>
	class C {
	template<typename FT>
	void F() {} // expected-note{{FT}}
	};
	void f() {
	C<int> c;
	c.F(); // expected-error{{no matching member function}}
	}
	}

	namespace rdar8986308 {
	template <bool> struct __static_assert_test;
	template <> struct __static_assert_test<true> {};
	template <unsigned> struct __static_assert_check {};

	namespace std {

	template <class _Tp, class _Up>
	struct __has_rebind
	{
	private:
	struct __two {char _; char __;};
	template <class _Xp> static __two __test(...);
	template <class _Xp> static char __test(typename _Xp::template rebind<_Up>* = 0);
	public:
	static const bool value = sizeof(__test<_Tp>(0)) == 1;
	};

	}

	template <class T> struct B1 {};

	template <class T>
	struct B
	{
	template <class U> struct rebind {typedef B1<U> other;};
	};

	template <class T, class U> struct D1 {};

	template <class T, class U>
	struct D
	{
	template <class V> struct rebind {typedef D1<V, U> other;};
	};

	int main()
	{
	typedef __static_assert_check<sizeof(__static_assert_test<((std::__has_rebind<B<int>, double>::value))>)> __t64;
	typedef __static_assert_check<sizeof(__static_assert_test<((std::__has_rebind<D<char, int>, double>::value))>)> __t64;
	}

	}