// RUN: %clang_cc1 -fsyntax-only -verify %s template<typename T> class X { public: void f(T x); // expected-error{{argument may not have 'void' type}} void g(T*); static int h(T, T); // expected-error {{argument may not have 'void' type}} }; int identity(int x) { return x; } void test(X<int> *xi, int *ip, X<int(int)> *xf) { xi->f(17); xi->g(ip); xf->f(&identity); xf->g(identity); X<int>::h(17, 25); X<int(int)>::h(identity, &identity); } void test_bad() { X<void> xv; // expected-note{{in instantiation of template class 'X<void>' requested here}} } template<typename T, typename U> class Overloading { public: int& f(T, T); // expected-note{{previous declaration is here}} float& f(T, U); // expected-error{{functions that differ only in their return type cannot be overloaded}} }; void test_ovl(Overloading<int, long> *oil, int i, long l) { int &ir = oil->f(i, i); float &fr = oil->f(i, l); } void test_ovl_bad() { Overloading<float, float> off; // expected-note{{in instantiation of template class 'Overloading<float, float>' requested here}} } template<typename T> class HasDestructor { public: virtual ~HasDestructor() = 0; }; int i = sizeof(HasDestructor<int>); // FIXME: forces instantiation, but // the code below should probably instantiate by itself. int abstract_destructor[__is_abstract(HasDestructor<int>)? 1 : -1]; template<typename T> class Constructors { public: Constructors(const T&); Constructors(const Constructors &other); }; void test_constructors() { Constructors<int> ci1(17); Constructors<int> ci2 = ci1; } template<typename T> struct ConvertsTo { operator T(); }; void test_converts_to(ConvertsTo<int> ci, ConvertsTo<int *> cip) { int i = ci; int *ip = cip; } // PR4660 template<class T> struct A0 { operator T*(); }; template<class T> struct A1; int *a(A0<int> &x0, A1<int> &x1) { int *y0 = x0; int *y1 = x1; // expected-error{{no viable conversion}} } struct X0Base { int &f(); int& g(int); static double &g(double); }; template<typename T> struct X0 : X0Base { }; template<typename U> struct X1 : X0<U> { int &f2() { return X0Base::f(); } }; void test_X1(X1<int> x1i) { int &ir = x1i.f2(); } template<typename U> struct X2 : X0Base, U { int &f2() { return X0Base::f(); } }; template<typename T> struct X3 { void test(T x) { double& d1 = X0Base::g(x); } }; template struct X3<double>; // Don't try to instantiate this, it's invalid. namespace test1 { template <class T> class A {}; template <class T> class B { void foo(A<test1::Undeclared> &a) // expected-error {{no member named 'Undeclared' in namespace 'test1'}} {} }; template class B<int>; } namespace PR6947 { template< class T > struct X { int f0( ) { typedef void ( X::*impl_fun_ptr )( ); impl_fun_ptr pImpl = &X::template f0_impl1<int>; } private: int f1() { } template< class Processor> void f0_impl1( ) { } }; char g0() { X<int> pc; pc.f0(); } } namespace PR7022 { template <typename > struct X1 { typedef int state_t( ); state_t g ; }; template < typename U = X1<int> > struct X2 { X2( U = U()) { } }; void m(void) { typedef X2<> X2_type; X2_type c; } } namespace SameSignatureAfterInstantiation { template<typename T> struct S { void f(T *); // expected-note {{previous}} void f(const T*); // expected-error-re {{multiple overloads of 'f' instantiate to the same signature 'void (const int *){{( __attribute__\(\(thiscall\)\))?}}'}} }; S<const int> s; // expected-note {{instantiation}} } namespace PR22040 { template <typename T> struct Foobar { template <> void bazqux(typename T::type) {} // expected-error {{cannot specialize a function 'bazqux' within class scope}} expected-error 2{{cannot be used prior to '::' because it has no members}} }; void test() { // FIXME: we should suppress the "no member" errors Foobar<void>::bazqux(); // expected-error{{no member named 'bazqux' in }} expected-note{{in instantiation of template class }} Foobar<int>::bazqux(); // expected-error{{no member named 'bazqux' in }} expected-note{{in instantiation of template class }} Foobar<int>::bazqux(3); // expected-error{{no member named 'bazqux' in }} } } template <typename> struct SpecializationOfGlobalFnInClassScope { template <> void ::Fn(); // expected-error{{cannot have a qualified name}} }; class AbstractClassWithGlobalFn { template <typename> void ::f(); // expected-error{{cannot have a qualified name}} virtual void f1() = 0; };