test/CXX/temp/temp.fct.spec/temp.deduct/temp.deduct.conv/p4.cpp - clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only %s -verify
 // RUN: %clang_cc1 -std=c++11 -fsyntax-only %s -verify
 // RUN: %clang_cc1 -std=c++17 -fsyntax-only %s -verify

 struct AnyT {
   template<typename T>
   operator T();
 };

 void test_cvqual_ref(AnyT any) {
   const int &cir = any;
 }

 struct AnyThreeLevelPtr {
   template<typename T>
   operator T***() const {
     T x = 0; // expected-note 2{{declared const here}}
     x = 0; // expected-error 2{{const-qualified type}}
     T ***p;
     return p;
   }
 };

 struct X { };

 void test_deduce_with_qual(AnyThreeLevelPtr a3) {
   int * const * const * const ip1 = a3;
   // FIXME: This is wrong; we are supposed to deduce 'T = int' here.
   const int * const * const * const ip2 = a3; // expected-note {{instantiation of}}
   // This one is correct, though.
   const double * * * ip3 = a3; // expected-note {{instantiation of}}
 }

 struct AnyPtrMem {
   template<typename Class, typename T>
   operator T Class::*() const
   {
     // This is correct: we don't need a qualification conversion here, so we
     // deduce 'T = const float'.
     T x = 0; // expected-note {{declared const here}}
     x = 0; // expected-error {{const-qualified type}}
     return 0;
   }
 };

 void test_deduce_ptrmem_with_qual(AnyPtrMem apm) {
   const float X::* pm = apm; // expected-note {{instantiation of}}
 }

 struct TwoLevelPtrMem {
   template<typename Class1, typename Class2, typename T>
   operator T Class1::*Class2::*() const
   {
     T x = 0; // expected-note 2{{declared const here}}
     x = 0; // expected-error 2{{const-qualified type}}
     return 0;
   }
 };

 void test_deduce_two_level_ptrmem_with_qual(TwoLevelPtrMem apm) {
   // FIXME: This is wrong: we should deduce T = 'float'
   const float X::* const X::* pm2 = apm; // expected-note {{instantiation of}}
   // This is correct: we don't need a qualification conversion, so we directly
   // deduce T = 'const double'
   const double X::* X::* pm1 = apm; // expected-note {{instantiation of}}
 }

 namespace non_ptr_ref_cv_qual {
   template<typename Expected>
   struct ConvToT {
     template<typename T> operator T() {
       using Check = T;
       using Check = Expected;
     }
   };
   const int test_conv_to_t_1 = ConvToT<int>();
   // We intentionally deviate from [temp.deduct.conv]p4 here, and also remove
   // the top-level cv-quaifiers from A *after* removing the reference type, if
   // P is not also a reference type. This matches what other compilers are
   // doing, and is necessary to support real-world code.
   const int &test_conv_to_t_2 = ConvToT<int>();

   // Example code that would be broken by the standard's rule.
   struct Dest {};
   Dest d1a((ConvToT<Dest>()));
   Dest d1b = ConvToT<Dest>();
   Dest &d2 = (d1a = ConvToT<Dest>());

   template<typename Expected>
   struct ConvToTRef {
     template<typename T> operator T&() {
       using Check = T;
       using Check = Expected;
     }
   };
   const int test_conv_to_t_ref_1 = ConvToTRef<int>();
   const int &test_conv_to_t_ref_2 = ConvToTRef<const int>();

   Dest d3a((ConvToTRef<const Dest>())); // initialize the copy ctor parameter with 'const Dest&'
   Dest d3b = ConvToTRef<Dest>(); // convert to non-const T via [over.match.copy]/1.2
   Dest &d4 = (d3a = ConvToTRef<const Dest>());

   template<typename Expected>
   struct ConvToConstT {
     template<typename T> operator const T() {
       using Check = T;
       using Check = Expected;
     }
   };
   const int test_conv_to_const_t_1 = ConvToConstT<int>();
   const int &test_conv_to_const_t_2 = ConvToConstT<int>();

   template<typename Expected>
   struct ConvToConstTRef {
     template<typename T> operator const T&() {
       using Check = T;
       using Check = Expected;
     }
   };
   const int test_conv_to_const_t_ref_1 = ConvToConstTRef<int>();
   const int &test_conv_to_const_t_ref_2 = ConvToConstTRef<int>();

   template <typename T, int N> using Arr = T[N];
   struct ConvToArr {
     template <int N>
     operator Arr<int, N> &() {
       static_assert(N == 3, "");
     }
   };
   int (&test_conv_to_arr_1)[3] = ConvToArr(); // ok
   const int (&test_conv_to_arr_2)[3] = ConvToArr(); // ok, with qualification conversion

 #if __cplusplus >= 201702L
   template<bool Noexcept, typename T, typename ...U> using Function = T(U...) noexcept(Noexcept);
   template<bool Noexcept> struct ConvToFunction {
     template <typename T, typename ...U> operator Function<Noexcept, T, U...>&(); // expected-note {{candidate}}
   };
   void (&fn1)(int) noexcept(false) = ConvToFunction<false>();
   void (&fn2)(int) noexcept(true)  = ConvToFunction<false>(); // expected-error {{no viable}}
   void (&fn3)(int) noexcept(false) = ConvToFunction<true>();
   void (&fn4)(int) noexcept(true)  = ConvToFunction<true>();

   struct ConvToFunctionDeducingNoexcept {
     template <bool Noexcept, typename T, typename ...U> operator Function<Noexcept, T, U...>&();
   };
   void (&fn5)(int) noexcept(false) = ConvToFunctionDeducingNoexcept();
   void (&fn6)(int) noexcept(true)  = ConvToFunctionDeducingNoexcept();
 #endif
 }
	// RUN: %clang_cc1 -fsyntax-only %s -verify
	// RUN: %clang_cc1 -std=c++11 -fsyntax-only %s -verify
	// RUN: %clang_cc1 -std=c++17 -fsyntax-only %s -verify

	struct AnyT {
	template<typename T>
	operator T();
	};

	void test_cvqual_ref(AnyT any) {
	const int &cir = any;
	}

	struct AnyThreeLevelPtr {
	template<typename T>
	operator T***() const {
	T x = 0; // expected-note 2{{declared const here}}
	x = 0; // expected-error 2{{const-qualified type}}
	T ***p;
	return p;
	}
	};

	struct X { };

	void test_deduce_with_qual(AnyThreeLevelPtr a3) {
	int * const * const * const ip1 = a3;
	// FIXME: This is wrong; we are supposed to deduce 'T = int' here.
	const int * const * const * const ip2 = a3; // expected-note {{instantiation of}}
	// This one is correct, though.
	const double * * * ip3 = a3; // expected-note {{instantiation of}}
	}

	struct AnyPtrMem {
	template<typename Class, typename T>
	operator T Class::*() const
	{
	// This is correct: we don't need a qualification conversion here, so we
	// deduce 'T = const float'.
	T x = 0; // expected-note {{declared const here}}
	x = 0; // expected-error {{const-qualified type}}
	return 0;
	}
	};

	void test_deduce_ptrmem_with_qual(AnyPtrMem apm) {
	const float X::* pm = apm; // expected-note {{instantiation of}}
	}

	struct TwoLevelPtrMem {
	template<typename Class1, typename Class2, typename T>
	operator T Class1::Class2::() const
	{
	T x = 0; // expected-note 2{{declared const here}}
	x = 0; // expected-error 2{{const-qualified type}}
	return 0;
	}
	};

	void test_deduce_two_level_ptrmem_with_qual(TwoLevelPtrMem apm) {
	// FIXME: This is wrong: we should deduce T = 'float'
	const float X::* const X::* pm2 = apm; // expected-note {{instantiation of}}
	// This is correct: we don't need a qualification conversion, so we directly
	// deduce T = 'const double'
	const double X::* X::* pm1 = apm; // expected-note {{instantiation of}}
	}

	namespace non_ptr_ref_cv_qual {
	template<typename Expected>
	struct ConvToT {
	template<typename T> operator T() {
	using Check = T;
	using Check = Expected;
	}
	};
	const int test_conv_to_t_1 = ConvToT<int>();
	// We intentionally deviate from [temp.deduct.conv]p4 here, and also remove
	// the top-level cv-quaifiers from A after removing the reference type, if
	// P is not also a reference type. This matches what other compilers are
	// doing, and is necessary to support real-world code.
	const int &test_conv_to_t_2 = ConvToT<int>();

	// Example code that would be broken by the standard's rule.
	struct Dest {};
	Dest d1a((ConvToT<Dest>()));
	Dest d1b = ConvToT<Dest>();
	Dest &d2 = (d1a = ConvToT<Dest>());

	template<typename Expected>
	struct ConvToTRef {
	template<typename T> operator T&() {
	using Check = T;
	using Check = Expected;
	}
	};
	const int test_conv_to_t_ref_1 = ConvToTRef<int>();
	const int &test_conv_to_t_ref_2 = ConvToTRef<const int>();

	Dest d3a((ConvToTRef<const Dest>())); // initialize the copy ctor parameter with 'const Dest&'
	Dest d3b = ConvToTRef<Dest>(); // convert to non-const T via [over.match.copy]/1.2
	Dest &d4 = (d3a = ConvToTRef<const Dest>());

	template<typename Expected>
	struct ConvToConstT {
	template<typename T> operator const T() {
	using Check = T;
	using Check = Expected;
	}
	};
	const int test_conv_to_const_t_1 = ConvToConstT<int>();
	const int &test_conv_to_const_t_2 = ConvToConstT<int>();

	template<typename Expected>
	struct ConvToConstTRef {
	template<typename T> operator const T&() {
	using Check = T;
	using Check = Expected;
	}
	};
	const int test_conv_to_const_t_ref_1 = ConvToConstTRef<int>();
	const int &test_conv_to_const_t_ref_2 = ConvToConstTRef<int>();

	template <typename T, int N> using Arr = T[N];
	struct ConvToArr {
	template <int N>
	operator Arr<int, N> &() {
	static_assert(N == 3, "");
	}
	};
	int (&test_conv_to_arr_1)[3] = ConvToArr(); // ok
	const int (&test_conv_to_arr_2)[3] = ConvToArr(); // ok, with qualification conversion

	#if __cplusplus >= 201702L
	template<bool Noexcept, typename T, typename ...U> using Function = T(U...) noexcept(Noexcept);
	template<bool Noexcept> struct ConvToFunction {
	template <typename T, typename ...U> operator Function<Noexcept, T, U...>&(); // expected-note {{candidate}}
	};
	void (&fn1)(int) noexcept(false) = ConvToFunction<false>();
	void (&fn2)(int) noexcept(true) = ConvToFunction<false>(); // expected-error {{no viable}}
	void (&fn3)(int) noexcept(false) = ConvToFunction<true>();
	void (&fn4)(int) noexcept(true) = ConvToFunction<true>();

	struct ConvToFunctionDeducingNoexcept {
	template <bool Noexcept, typename T, typename ...U> operator Function<Noexcept, T, U...>&();
	};
	void (&fn5)(int) noexcept(false) = ConvToFunctionDeducingNoexcept();
	void (&fn6)(int) noexcept(true) = ConvToFunctionDeducingNoexcept();
	#endif
	}