test/SemaTemplate/instantiate-expr-2.cpp - clang - Git at Google

 // RUN: clang-cc -fsyntax-only %s
 typedef char one_byte;
 typedef char (&two_bytes)[2];
 typedef char (&four_bytes)[4];
 typedef char (&eight_bytes)[8];

 template<int N> struct A { };

 namespace N1 {
   struct X { };
 }

 namespace N2 {
   struct Y { };

   two_bytes operator+(Y, Y);
 }

 namespace N3 {
   struct Z { };

   eight_bytes operator+(Z, Z);
 }

 namespace N4 {
   one_byte operator+(N1::X, N2::Y);

   template<typename T, typename U>
   struct BinOpOverload {
     typedef A<sizeof(T() + U())> type;
   };
 }

 namespace N1 {
   four_bytes operator+(X, X);
 }

 namespace N3 {
   eight_bytes operator+(Z, Z); // redeclaration
 }

 void test_bin_op_overload(A<1> *a1, A<2> *a2, A<4> *a4, A<8> *a8) {
   typedef N4::BinOpOverload<N1::X, N2::Y>::type XY;
   XY *xy = a1;
   typedef N4::BinOpOverload<N1::X, N1::X>::type XX;
   XX *xx = a4;
   typedef N4::BinOpOverload<N2::Y, N2::Y>::type YY;
   YY *yy = a2;
   typedef N4::BinOpOverload<N3::Z, N3::Z>::type ZZ;
   ZZ *zz = a8;
 }

 namespace N3 {
   eight_bytes operator-(::N3::Z);
 }

 namespace N4 {
   template<typename T>
   struct UnaryOpOverload {
     typedef A<sizeof(-T())> type;
   };
 }

 void test_unary_op_overload(A<8> *a8) {
   typedef N4::UnaryOpOverload<N3::Z>::type UZ;
   UZ *uz = a8;
 }

 /*
 namespace N5 {
   template<int I>
   struct Lookup {
     enum { val = I, more = val + 1 };
   };

   template<bool B>
   struct Cond {
     enum Junk { is = B ? Lookup<B>::more : Lookup<Lookup<B+1>::more>::val };
   };

   enum { resultT = Cond<true>::is,
          resultF = Cond<false>::is };
 }
 */

 namespace N6 {
   // non-typedependent
   template<int I>
   struct Lookup {};

   template<bool B, typename T, typename E>
   struct Cond {
     typedef Lookup<B ? sizeof(T) : sizeof(E)> True;
     typedef Lookup<!B ? sizeof(T) : sizeof(E)> False;
   };

   typedef Cond<true, int, char>::True True;
   typedef Cond<true, int, char>::False False;

   // check that we have the right types
   Lookup<1> const &L1(False());
   Lookup<sizeof(int)> const &L2(True());
 }


 namespace N7 {
   // type dependent
   template<int I>
   struct Lookup {};

   template<bool B, typename T, typename E>
   struct Cond {
     T foo() { return B ? T() : E(); }
     typedef Lookup<sizeof(B ? T() : E())> Type;
   };

   //Cond<true, int*, double> C; // Errors
   //int V(C.foo()); // Errors
   //typedef Cond<true, int*, double>::Type Type; // Errors
   typedef Cond<true, int, double>::Type Type;
 }

 template<typename T, unsigned long N> struct IntegralConstant { };

 template<typename T>
 struct X0 {
   void f(T x, IntegralConstant<T, sizeof(x)>);
 };

 void test_X0(X0<int> x, IntegralConstant<int, sizeof(int)> ic) {
   x.f(5,ic);
 }
	// RUN: clang-cc -fsyntax-only %s
	typedef char one_byte;
	typedef char (&two_bytes)[2];
	typedef char (&four_bytes)[4];
	typedef char (&eight_bytes)[8];

	template<int N> struct A { };

	namespace N1 {
	struct X { };
	}

	namespace N2 {
	struct Y { };

	two_bytes operator+(Y, Y);
	}

	namespace N3 {
	struct Z { };

	eight_bytes operator+(Z, Z);
	}

	namespace N4 {
	one_byte operator+(N1::X, N2::Y);

	template<typename T, typename U>
	struct BinOpOverload {
	typedef A<sizeof(T() + U())> type;
	};
	}

	namespace N1 {
	four_bytes operator+(X, X);
	}

	namespace N3 {
	eight_bytes operator+(Z, Z); // redeclaration
	}

	void test_bin_op_overload(A<1> a1, A<2> a2, A<4> a4, A<8> a8) {
	typedef N4::BinOpOverload<N1::X, N2::Y>::type XY;
	XY *xy = a1;
	typedef N4::BinOpOverload<N1::X, N1::X>::type XX;
	XX *xx = a4;
	typedef N4::BinOpOverload<N2::Y, N2::Y>::type YY;
	YY *yy = a2;
	typedef N4::BinOpOverload<N3::Z, N3::Z>::type ZZ;
	ZZ *zz = a8;
	}

	namespace N3 {
	eight_bytes operator-(::N3::Z);
	}

	namespace N4 {
	template<typename T>
	struct UnaryOpOverload {
	typedef A<sizeof(-T())> type;
	};
	}

	void test_unary_op_overload(A<8> *a8) {
	typedef N4::UnaryOpOverload<N3::Z>::type UZ;
	UZ *uz = a8;
	}

	/*
	namespace N5 {
	template<int I>
	struct Lookup {
	enum { val = I, more = val + 1 };
	};

	template<bool B>
	struct Cond {
	enum Junk { is = B ? Lookup<B>::more : Lookup<Lookup<B+1>::more>::val };
	};

	enum { resultT = Cond<true>::is,
	resultF = Cond<false>::is };
	}
	*/

	namespace N6 {
	// non-typedependent
	template<int I>
	struct Lookup {};

	template<bool B, typename T, typename E>
	struct Cond {
	typedef Lookup<B ? sizeof(T) : sizeof(E)> True;
	typedef Lookup<!B ? sizeof(T) : sizeof(E)> False;
	};

	typedef Cond<true, int, char>::True True;
	typedef Cond<true, int, char>::False False;

	// check that we have the right types
	Lookup<1> const &L1(False());
	Lookup<sizeof(int)> const &L2(True());
	}


	namespace N7 {
	// type dependent
	template<int I>
	struct Lookup {};

	template<bool B, typename T, typename E>
	struct Cond {
	T foo() { return B ? T() : E(); }
	typedef Lookup<sizeof(B ? T() : E())> Type;
	};

	//Cond<true, int*, double> C; // Errors
	//int V(C.foo()); // Errors
	//typedef Cond<true, int*, double>::Type Type; // Errors
	typedef Cond<true, int, double>::Type Type;
	}

	template<typename T, unsigned long N> struct IntegralConstant { };

	template<typename T>
	struct X0 {
	void f(T x, IntegralConstant<T, sizeof(x)>);
	};

	void test_X0(X0<int> x, IntegralConstant<int, sizeof(int)> ic) {
	x.f(5,ic);
	}