test/SemaTemplate/instantiate-overload-candidates.cpp - platform/external/clang - Git at Google

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

 // This is the function actually selected during overload resolution, and the
 // only one defined.
 template <typename T> void f(T*, int) {}

 template <typename T> struct S;
 template <typename T> struct S_ : S<T> { typedef int type; }; // expected-note{{in instantiation}}
 template <typename T> struct S {
   // Force T to have a complete type here so we can observe instantiations with
   // incomplete types.
   T t; // expected-error{{field has incomplete type}}
 };

 // Provide a bad class and an overload that instantiates templates with it.
 class NoDefinition; // expected-note{{forward declaration}}
 template <typename T> S_<NoDefinition>::type f(T*, NoDefinition*); // expected-note{{in instantiation}}

 void test(int x) {
   f(&x, 0);
 }

 // Ensure that we instantiate an overloaded function if it's selected by
 // overload resolution when initializing a function pointer.
 template<typename T> struct X {
   static T f() { T::error; } // expected-error {{has no members}}
   static T f(bool);
 };
 void (*p)() = &X<void>().f; // expected-note {{instantiation of}}

 namespace PR13098 {
   struct A {
     A(int);
     void operator++() {}
     void operator+(int) {}
     void operator+(A) {}
     void operator[](int) {}
     void operator[](A) {}
   };
   struct B : A {
     using A::operator++;
     using A::operator+;
     using A::operator[];
   };
   template<typename T> void f(B b) {
     ++b;
     b + 0;
     b[0];
   }
   template void f<void>(B);
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	// This is the function actually selected during overload resolution, and the
	// only one defined.
	template <typename T> void f(T*, int) {}

	template <typename T> struct S;
	template <typename T> struct S_ : S<T> { typedef int type; }; // expected-note{{in instantiation}}
	template <typename T> struct S {
	// Force T to have a complete type here so we can observe instantiations with
	// incomplete types.
	T t; // expected-error{{field has incomplete type}}
	};

	// Provide a bad class and an overload that instantiates templates with it.
	class NoDefinition; // expected-note{{forward declaration}}
	template <typename T> S_<NoDefinition>::type f(T, NoDefinition); // expected-note{{in instantiation}}

	void test(int x) {
	f(&x, 0);
	}

	// Ensure that we instantiate an overloaded function if it's selected by
	// overload resolution when initializing a function pointer.
	template<typename T> struct X {
	static T f() { T::error; } // expected-error {{has no members}}
	static T f(bool);
	};
	void (*p)() = &X<void>().f; // expected-note {{instantiation of}}

	namespace PR13098 {
	struct A {
	A(int);
	void operator++() {}
	void operator+(int) {}
	void operator+(A) {}
	void operator[](int) {}
	void operator[](A) {}
	};
	struct B : A {
	using A::operator++;
	using A::operator+;
	using A::operator[];
	};
	template<typename T> void f(B b) {
	++b;
	b + 0;
	b[0];
	}
	template void f<void>(B);
	}