test/CXX/temp/temp.arg/temp.arg.nontype/p5.cpp - clang - Git at Google

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

 // C++0x [temp.arg.nontype] p5:
 //   The following conversions are performed on each expression used as
 //   a non-type template-argument. If a non-type template-argument cannot be
 //   converted to the type of the corresponding template-parameter then the
 //   program is ill-formed.
 //     -- for a non-type template-parameter of integral or enumeration type,
 //        integral promotions (4.5) and integral conversions (4.7) are applied.
 //     -- for a non-type template-parameter of type pointer to object,
 //        qualification conversions (4.4) and the array-to-pointer conversion
 //        (4.2) are applied; if the template-argument is of type
 //        std::nullptr_t, the null pointer conversion (4.10) is applied.
 namespace pointer_to_object_parameters {
   // PR6226
   struct Str {
     Str(const char *);
   };

   template<const char *s>
   struct A {
     Str get() { return s; }
   };

   char hello[6] = "Hello";
   extern const char world[6];
   const char world[6] = "world";
   void test() {
     (void)A<hello>().get();
     (void)A<world>().get();
   }

   class X {
   public:
     X();
     X(int, int);
     operator int() const;
   };

   template<X const *Ptr> struct A2;

   X *X_ptr;
   X an_X;
   X array_of_Xs[10];
   A2<X_ptr> *a12;
   A2<array_of_Xs> *a13;
   A2<&an_X> *a13_2;
   A2<(&an_X)> *a13_3; // expected-error{{non-type template argument cannot be surrounded by parentheses}}

   // PR6244
   struct X1 {} X1v;
   template <X1*> struct X2 { };
   template <X1* Value> struct X3 : X2<Value> { };
   struct X4 : X3<&X1v> { };
 }

 //     -- For a non-type template-parameter of type reference to object, no
 //        conversions apply. The type referred to by the reference may be more
 //        cv-qualified than the (otherwise identical) type of the
 //        template-argument. The template-parameter is bound directly to the
 //        template-argument, which shall be an lvalue.
 namespace reference_parameters {
   template <int& N> struct S0 { }; // expected-note 3 {{template parameter is declared here}}
   template <const int& N> struct S1 { }; // expected-note 2 {{template parameter is declared here}}
   template <volatile int& N> struct S2 { }; // expected-note 2 {{template parameter is declared here}}
   template <const volatile int& N> struct S3 { };
   int i;
   extern const int ci;
   volatile int vi;
   extern const volatile int cvi;
   void test() {
     S0<i> s0;
     S0<ci> s0c; // expected-error{{reference binding of non-type template parameter of type 'int &' to template argument of type 'int const' ignores qualifiers}}
     S0<vi> s0v; // expected-error{{reference binding of non-type template parameter of type 'int &' to template argument of type 'int volatile' ignores qualifiers}}
     S0<cvi> s0cv; // expected-error{{reference binding of non-type template parameter of type 'int &' to template argument of type 'int const volatile' ignores qualifiers}}

     S1<i> s1;
     S1<ci> s1c;
     S1<vi> s1v; // expected-error{{reference binding of non-type template parameter of type 'int const &' to template argument of type 'int volatile' ignores qualifiers}}
     S1<cvi> s1cv; // expected-error{{reference binding of non-type template parameter of type 'int const &' to template argument of type 'int const volatile' ignores qualifiers}}

     S2<i> s2;
     S2<ci> s2c; // expected-error{{reference binding of non-type template parameter of type 'int volatile &' to template argument of type 'int const' ignores qualifiers}}
     S2<vi> s2v;
     S2<cvi> s2cv; // expected-error{{reference binding of non-type template parameter of type 'int volatile &' to template argument of type 'int const volatile' ignores qualifiers}}

     S3<i> s3;
     S3<ci> s3c;
     S3<vi> s3v;
     S3<cvi> s3cv;
   }

   namespace PR6250 {
     template <typename T, const T &ref> void inc() {
       ref++; // expected-error{{read-only variable is not assignable}}
     }

     template<typename T, const T &ref> void bind() {
       T &ref2 = ref; // expected-error{{drops qualifiers}}
     }

     int counter;
     void test() {
       inc<int, counter>(); // expected-note{{instantiation of}}
       bind<int, counter>(); // expected-note{{instantiation of}}
     }
   }
 }

 //     -- For a non-type template-parameter of type pointer to function, the
 //        function-to-pointer conversion (4.3) is applied; if the
 //        template-argument is of type std::nullptr_t, the null pointer
 //        conversion (4.10) is applied. If the template-argument represents
 //        a set of overloaded functions (or a pointer to such), the matching
 //        function is selected from the set (13.4).
 //     -- For a non-type template-parameter of type reference to function, no
 //        conversions apply. If the template-argument represents a set of
 //        overloaded functions, the matching function is selected from the set
 //        (13.4).
 //     -- For a non-type template-parameter of type pointer to member function,
 //        if the template-argument is of type std::nullptr_t, the null member
 //        pointer conversion (4.11) is applied; otherwise, no conversions
 //        apply. If the template-argument represents a set of overloaded member
 //        functions, the matching member function is selected from the set
 //        (13.4).
 //     -- For a non-type template-parameter of type pointer to data member,
 //        qualification conversions (4.4) are applied; if the template-argument
 //        is of type std::nullptr_t, the null member pointer conversion (4.11)
 //        is applied.
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	// C++0x [temp.arg.nontype] p5:
	// The following conversions are performed on each expression used as
	// a non-type template-argument. If a non-type template-argument cannot be
	// converted to the type of the corresponding template-parameter then the
	// program is ill-formed.
	// -- for a non-type template-parameter of integral or enumeration type,
	// integral promotions (4.5) and integral conversions (4.7) are applied.
	// -- for a non-type template-parameter of type pointer to object,
	// qualification conversions (4.4) and the array-to-pointer conversion
	// (4.2) are applied; if the template-argument is of type
	// std::nullptr_t, the null pointer conversion (4.10) is applied.
	namespace pointer_to_object_parameters {
	// PR6226
	struct Str {
	Str(const char *);
	};

	template<const char *s>
	struct A {
	Str get() { return s; }
	};

	char hello[6] = "Hello";
	extern const char world[6];
	const char world[6] = "world";
	void test() {
	(void)A<hello>().get();
	(void)A<world>().get();
	}

	class X {
	public:
	X();
	X(int, int);
	operator int() const;
	};

	template<X const *Ptr> struct A2;

	X *X_ptr;
	X an_X;
	X array_of_Xs[10];
	A2<X_ptr> *a12;
	A2<array_of_Xs> *a13;
	A2<&an_X> *a13_2;
	A2<(&an_X)> *a13_3; // expected-error{{non-type template argument cannot be surrounded by parentheses}}

	// PR6244
	struct X1 {} X1v;
	template <X1*> struct X2 { };
	template <X1* Value> struct X3 : X2<Value> { };
	struct X4 : X3<&X1v> { };
	}

	// -- For a non-type template-parameter of type reference to object, no
	// conversions apply. The type referred to by the reference may be more
	// cv-qualified than the (otherwise identical) type of the
	// template-argument. The template-parameter is bound directly to the
	// template-argument, which shall be an lvalue.
	namespace reference_parameters {
	template <int& N> struct S0 { }; // expected-note 3 {{template parameter is declared here}}
	template <const int& N> struct S1 { }; // expected-note 2 {{template parameter is declared here}}
	template <volatile int& N> struct S2 { }; // expected-note 2 {{template parameter is declared here}}
	template <const volatile int& N> struct S3 { };
	int i;
	extern const int ci;
	volatile int vi;
	extern const volatile int cvi;
	void test() {
	S0<i> s0;
	S0<ci> s0c; // expected-error{{reference binding of non-type template parameter of type 'int &' to template argument of type 'int const' ignores qualifiers}}
	S0<vi> s0v; // expected-error{{reference binding of non-type template parameter of type 'int &' to template argument of type 'int volatile' ignores qualifiers}}
	S0<cvi> s0cv; // expected-error{{reference binding of non-type template parameter of type 'int &' to template argument of type 'int const volatile' ignores qualifiers}}

	S1<i> s1;
	S1<ci> s1c;
	S1<vi> s1v; // expected-error{{reference binding of non-type template parameter of type 'int const &' to template argument of type 'int volatile' ignores qualifiers}}
	S1<cvi> s1cv; // expected-error{{reference binding of non-type template parameter of type 'int const &' to template argument of type 'int const volatile' ignores qualifiers}}

	S2<i> s2;
	S2<ci> s2c; // expected-error{{reference binding of non-type template parameter of type 'int volatile &' to template argument of type 'int const' ignores qualifiers}}
	S2<vi> s2v;
	S2<cvi> s2cv; // expected-error{{reference binding of non-type template parameter of type 'int volatile &' to template argument of type 'int const volatile' ignores qualifiers}}

	S3<i> s3;
	S3<ci> s3c;
	S3<vi> s3v;
	S3<cvi> s3cv;
	}

	namespace PR6250 {
	template <typename T, const T &ref> void inc() {
	ref++; // expected-error{{read-only variable is not assignable}}
	}

	template<typename T, const T &ref> void bind() {
	T &ref2 = ref; // expected-error{{drops qualifiers}}
	}

	int counter;
	void test() {
	inc<int, counter>(); // expected-note{{instantiation of}}
	bind<int, counter>(); // expected-note{{instantiation of}}
	}
	}
	}

	// -- For a non-type template-parameter of type pointer to function, the
	// function-to-pointer conversion (4.3) is applied; if the
	// template-argument is of type std::nullptr_t, the null pointer
	// conversion (4.10) is applied. If the template-argument represents
	// a set of overloaded functions (or a pointer to such), the matching
	// function is selected from the set (13.4).
	// -- For a non-type template-parameter of type reference to function, no
	// conversions apply. If the template-argument represents a set of
	// overloaded functions, the matching function is selected from the set
	// (13.4).
	// -- For a non-type template-parameter of type pointer to member function,
	// if the template-argument is of type std::nullptr_t, the null member
	// pointer conversion (4.11) is applied; otherwise, no conversions
	// apply. If the template-argument represents a set of overloaded member
	// functions, the matching member function is selected from the set
	// (13.4).
	// -- For a non-type template-parameter of type pointer to data member,
	// qualification conversions (4.4) are applied; if the template-argument
	// is of type std::nullptr_t, the null member pointer conversion (4.11)
	// is applied.