test/SemaCXX/cxx1y-contextual-conversion-tweaks.cpp - clang - Git at Google

 // RUN: %clang_cc1 -std=c++11 -verify -fsyntax-only %s
 // RUN: %clang_cc1 -std=c++1y %s -verify -DCXX1Y

 // Explicit member declarations behave as in C++11.

 namespace n3323_example {

   template <class T> class zero_init {
   public:
     zero_init() : val(static_cast<T>(0)) {}
     zero_init(T val) : val(val) {}

     operator T &() { return val; }     //@13
     operator T() const { return val; } //@14

   private:
     T val;
   };

   void Delete() {
     zero_init<int *> p;
     p = new int(7);
     delete p; //@23
     delete (p + 0);
     delete + p;
   }

   void Switch() {
     zero_init<int> i;
     i = 7;
     switch (i) {} // @31
     switch (i + 0) {}
     switch (+i) {}
   }
 }

 #ifdef CXX1Y
 #else
 //expected-error@23 {{ambiguous conversion of delete expression of type 'zero_init<int *>' to a pointer}}
 //expected-note@13 {{conversion to pointer type 'int *'}}
 //expected-note@14 {{conversion to pointer type 'int *'}}
 //expected-error@31 {{multiple conversions from switch condition type 'zero_init<int>' to an integral or enumeration type}}
 //expected-note@13 {{conversion to integral type 'int'}}
 //expected-note@14 {{conversion to integral type 'int'}}
 #endif

 namespace extended_examples {

   struct A0 {
     operator int();      // matching and viable
   };

   struct A1 {
     operator int() &&;   // matching and not viable
   };

   struct A2 {
     operator float();    // not matching
   };

   struct A3 {
     template<typename T> operator T();  // not matching (ambiguous anyway)
   };

   struct A4 {
     template<typename T> operator int();  // not matching (ambiguous anyway)
   };

   struct B1 {
     operator int() &&;  // @70
     operator int();     // @71  -- duplicate declaration with different qualifier is not allowed
   };

   struct B2 {
     operator int() &&;  // matching but not viable
     operator float();   // not matching
   };

   void foo(A0 a0, A1 a1, A2 a2, A3 a3, A4 a4, B2 b2) {
     switch (a0) {}
     switch (a1) {}     // @81 -- fails for different reasons
     switch (a2) {}     // @82
     switch (a3) {}     // @83
     switch (a4) {}     // @84
     switch (b2) {}     // @85 -- fails for different reasons
   }
 }

 //expected-error@71 {{cannot overload a member function without a ref-qualifier with a member function with ref-qualifier '&&'}}
 //expected-note@70 {{previous declaration is here}}
 //expected-error@82 {{statement requires expression of integer type ('extended_examples::A2' invalid)}}
 //expected-error@83 {{statement requires expression of integer type ('extended_examples::A3' invalid)}}
 //expected-error@84 {{statement requires expression of integer type ('extended_examples::A4' invalid)}}

 #ifdef CXX1Y
 //expected-error@81 {{statement requires expression of integer type ('extended_examples::A1' invalid)}}
 //expected-error@85 {{statement requires expression of integer type ('extended_examples::B2' invalid)}}
 #else
 //expected-error@81 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@54 {{'operator int' declared here}}
 //expected-error@85 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@75 {{'operator int' declared here}}
 #endif

 namespace extended_examples_cxx1y {

   struct A1 {   // leads to viable match in C++1y, and no viable match in C++11
     operator int() &&;                  // matching but not viable
     template <typename T> operator T(); // In C++1y: matching and viable, since disambiguated by L.100
   };

   struct A2 {   // leads to ambiguity in C++1y, and no viable match in C++11
     operator int() &&;                    // matching but not viable
     template <typename T> operator int(); // In C++1y: matching but ambiguous (disambiguated by L.105).
   };

   struct B1 {    // leads to one viable match in both cases
     operator int();                  // matching and viable
     template <typename T> operator T(); // In C++1y: matching and viable, since disambiguated by L.110
   };

   struct B2 {    // leads to one viable match in both cases
     operator int();                  // matching and viable
     template <typename T> operator int(); // In C++1y: matching but ambiguous, since disambiguated by L.115
   };

   struct C {    // leads to no match in both cases
     operator float();                  // not matching
     template <typename T> operator T(); // In C++1y: not matching, nor viable.
   };

   struct D {   // leads to viable match in C++1y, and no viable match in C++11
     operator int() &&;                  // matching but not viable
     operator float();                   // not matching
     template <typename T> operator T(); // In C++1y: matching and viable, since disambiguated by L.125
   };


   void foo(A1 a1, A2 a2, B1 b1, B2 b2, C c, D d) {
     switch (a1) {} // @138 --  should presumably call templated conversion operator to convert to int.
     switch (a2) {} // @139
     switch (b1) {}
     switch (b2) {}
     switch (c) {}  // @142
     switch (d) {}  // @143
   }
 }

 //expected-error@142 {{statement requires expression of integer type ('extended_examples_cxx1y::C' invalid)}}

 #ifdef CXX1Y
 //expected-error@139 {{statement requires expression of integer type ('extended_examples_cxx1y::A2' invalid)}}
 #else
 //expected-error@138 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@106 {{'operator int' declared here}}
 //expected-error@139 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@111 {{'operator int' declared here}}
 //expected-error@143 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@131 {{'operator int' declared here}}
 #endif

 namespace extended_examples_array_bounds {

   typedef decltype(sizeof(int)) size_t;

   struct Foo {
     operator size_t();   // @162
     operator unsigned short();  // @163
   };

   void bar() {
     Foo x;
     int *p = new int[x];        // @168
   }
 }

 #ifdef CXX1Y
 #else
 //expected-error@168 {{ambiguous conversion of array size expression of type 'extended_examples_array_bounds::Foo' to an integral or enumeration type}}
 //expected-note@162 {{conversion to integral type 'extended_examples_array_bounds::size_t'}}
 //expected-note@163 {{conversion to integral type 'unsigned short' declared here}}
 #endif
	// RUN: %clang_cc1 -std=c++11 -verify -fsyntax-only %s
	// RUN: %clang_cc1 -std=c++1y %s -verify -DCXX1Y

	// Explicit member declarations behave as in C++11.

	namespace n3323_example {

	template <class T> class zero_init {
	public:
	zero_init() : val(static_cast<T>(0)) {}
	zero_init(T val) : val(val) {}

	operator T &() { return val; } //@13
	operator T() const { return val; } //@14

	private:
	T val;
	};

	void Delete() {
	zero_init<int *> p;
	p = new int(7);
	delete p; //@23
	delete (p + 0);
	delete + p;
	}

	void Switch() {
	zero_init<int> i;
	i = 7;
	switch (i) {} // @31
	switch (i + 0) {}
	switch (+i) {}
	}
	}

	#ifdef CXX1Y
	#else
	//expected-error@23 {{ambiguous conversion of delete expression of type 'zero_init<int *>' to a pointer}}
	//expected-note@13 {{conversion to pointer type 'int *'}}
	//expected-note@14 {{conversion to pointer type 'int *'}}
	//expected-error@31 {{multiple conversions from switch condition type 'zero_init<int>' to an integral or enumeration type}}
	//expected-note@13 {{conversion to integral type 'int'}}
	//expected-note@14 {{conversion to integral type 'int'}}
	#endif

	namespace extended_examples {

	struct A0 {
	operator int(); // matching and viable
	};

	struct A1 {
	operator int() &&; // matching and not viable
	};

	struct A2 {
	operator float(); // not matching
	};

	struct A3 {
	template<typename T> operator T(); // not matching (ambiguous anyway)
	};

	struct A4 {
	template<typename T> operator int(); // not matching (ambiguous anyway)
	};

	struct B1 {
	operator int() &&; // @70
	operator int(); // @71 -- duplicate declaration with different qualifier is not allowed
	};

	struct B2 {
	operator int() &&; // matching but not viable
	operator float(); // not matching
	};

	void foo(A0 a0, A1 a1, A2 a2, A3 a3, A4 a4, B2 b2) {
	switch (a0) {}
	switch (a1) {} // @81 -- fails for different reasons
	switch (a2) {} // @82
	switch (a3) {} // @83
	switch (a4) {} // @84
	switch (b2) {} // @85 -- fails for different reasons
	}
	}

	//expected-error@71 {{cannot overload a member function without a ref-qualifier with a member function with ref-qualifier '&&'}}
	//expected-note@70 {{previous declaration is here}}
	//expected-error@82 {{statement requires expression of integer type ('extended_examples::A2' invalid)}}
	//expected-error@83 {{statement requires expression of integer type ('extended_examples::A3' invalid)}}
	//expected-error@84 {{statement requires expression of integer type ('extended_examples::A4' invalid)}}

	#ifdef CXX1Y
	//expected-error@81 {{statement requires expression of integer type ('extended_examples::A1' invalid)}}
	//expected-error@85 {{statement requires expression of integer type ('extended_examples::B2' invalid)}}
	#else
	//expected-error@81 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@54 {{'operator int' declared here}}
	//expected-error@85 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@75 {{'operator int' declared here}}
	#endif

	namespace extended_examples_cxx1y {

	struct A1 { // leads to viable match in C++1y, and no viable match in C++11
	operator int() &&; // matching but not viable
	template <typename T> operator T(); // In C++1y: matching and viable, since disambiguated by L.100
	};

	struct A2 { // leads to ambiguity in C++1y, and no viable match in C++11
	operator int() &&; // matching but not viable
	template <typename T> operator int(); // In C++1y: matching but ambiguous (disambiguated by L.105).
	};

	struct B1 { // leads to one viable match in both cases
	operator int(); // matching and viable
	template <typename T> operator T(); // In C++1y: matching and viable, since disambiguated by L.110
	};

	struct B2 { // leads to one viable match in both cases
	operator int(); // matching and viable
	template <typename T> operator int(); // In C++1y: matching but ambiguous, since disambiguated by L.115
	};

	struct C { // leads to no match in both cases
	operator float(); // not matching
	template <typename T> operator T(); // In C++1y: not matching, nor viable.
	};

	struct D { // leads to viable match in C++1y, and no viable match in C++11
	operator int() &&; // matching but not viable
	operator float(); // not matching
	template <typename T> operator T(); // In C++1y: matching and viable, since disambiguated by L.125
	};


	void foo(A1 a1, A2 a2, B1 b1, B2 b2, C c, D d) {
	switch (a1) {} // @138 -- should presumably call templated conversion operator to convert to int.
	switch (a2) {} // @139
	switch (b1) {}
	switch (b2) {}
	switch (c) {} // @142
	switch (d) {} // @143
	}
	}

	//expected-error@142 {{statement requires expression of integer type ('extended_examples_cxx1y::C' invalid)}}

	#ifdef CXX1Y
	//expected-error@139 {{statement requires expression of integer type ('extended_examples_cxx1y::A2' invalid)}}
	#else
	//expected-error@138 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@106 {{'operator int' declared here}}
	//expected-error@139 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@111 {{'operator int' declared here}}
	//expected-error@143 {{'this' argument to member function 'operator int' is an lvalue, but function has rvalue ref-qualifier}} expected-note@131 {{'operator int' declared here}}
	#endif

	namespace extended_examples_array_bounds {

	typedef decltype(sizeof(int)) size_t;

	struct Foo {
	operator size_t(); // @162
	operator unsigned short(); // @163
	};

	void bar() {
	Foo x;
	int *p = new int[x]; // @168
	}
	}

	#ifdef CXX1Y
	#else
	//expected-error@168 {{ambiguous conversion of array size expression of type 'extended_examples_array_bounds::Foo' to an integral or enumeration type}}
	//expected-note@162 {{conversion to integral type 'extended_examples_array_bounds::size_t'}}
	//expected-note@163 {{conversion to integral type 'unsigned short' declared here}}
	#endif