// RUN: %clang_cc1 -triple %itanium_abi_triple -fsyntax-only -verify %s // RUN: %clang_cc1 -triple %ms_abi_triple -DMSABI -fsyntax-only -verify %s namespace PR5557 { template struct A { A(); // expected-note{{instantiation}} virtual int a(T x); }; template A::A() {} template int A::a(T x) { return *x; // expected-error{{requires pointer operand}} } void f() { A x; // expected-note{{instantiation}} } template struct X { virtual void f(); }; template<> void X::f() { } } // Like PR5557, but with a defined destructor instead of a defined constructor. namespace PR5557_dtor { template struct A { A(); // Don't have an implicit constructor. ~A(); // expected-note{{instantiation}} virtual int a(T x); }; template A::~A() {} template int A::a(T x) { return *x; // expected-error{{requires pointer operand}} } void f() { A x; // expected-note{{instantiation}} } } template struct Base { virtual ~Base() { int *ptr = 0; T t = ptr; // expected-error{{cannot initialize}} } }; template struct Derived : Base { virtual void foo() { } }; template struct Derived; // expected-note {{in instantiation of member function 'Base::~Base' requested here}} template struct HasOutOfLineKey { HasOutOfLineKey() { } // expected-note{{in instantiation of member function 'HasOutOfLineKey::f' requested here}} virtual T *f(float *fp); }; template T *HasOutOfLineKey::f(float *fp) { return fp; // expected-error{{cannot initialize return object of type 'int *' with an lvalue of type 'float *'}} } HasOutOfLineKey out_of_line; // expected-note{{in instantiation of member function 'HasOutOfLineKey::HasOutOfLineKey' requested here}} namespace std { class type_info; } namespace PR7114 { class A { virtual ~A(); }; // expected-note{{declared private here}} template class B { public: class Inner : public A { }; // expected-error{{base class 'PR7114::A' has private destructor}} static Inner i; static const unsigned value = sizeof(i) == 4; }; int f() { return B::value; } #ifdef MSABI void test_typeid(B::Inner bfi) { // expected-note{{implicit destructor}} (void)typeid(bfi); #else void test_typeid(B::Inner bfi) { (void)typeid(bfi); // expected-note{{implicit destructor}} #endif } template struct X : A { void f() { } }; void test_X(X &xi, X &xf) { xi.f(); } } namespace DynamicCast { struct Y {}; template struct X : virtual Y { virtual void foo() { T x; } }; template struct X2 : virtual Y { virtual void foo() { T x; } }; Y* f(X* x) { return dynamic_cast(x); } Y* f2(X* x) { return dynamic_cast(x); } } namespace avoid_using_vtable { // We shouldn't emit the vtable for this code, in any ABI. If we emit the // vtable, we emit an implicit virtual dtor, which calls ~RefPtr, which requires // a complete type for DeclaredOnly. // // Previously we would reference the vtable in the MS C++ ABI, even though we // don't need to emit either the ctor or the dtor. In the Itanium C++ ABI, the // 'trace' method is the key function, so even though we use the vtable, we // don't emit it. template struct RefPtr { T *m_ptr; ~RefPtr() { m_ptr->deref(); } }; struct DeclaredOnly; struct Base { virtual ~Base(); }; struct AvoidVTable : Base { RefPtr m_insertionStyle; virtual void trace(); AvoidVTable(); }; // Don't call the dtor, because that will emit an implicit dtor, and require a // complete type for DeclaredOnly. void foo() { new AvoidVTable; } } namespace vtable_uses_incomplete { // Opposite of the previous test that avoids a vtable, this one tests that we // use the vtable when the ctor is defined inline. template struct RefPtr { T *m_ptr; ~RefPtr() { m_ptr->deref(); } // expected-error {{member access into incomplete type 'vtable_uses_incomplete::DeclaredOnly'}} }; struct DeclaredOnly; // expected-note {{forward declaration of 'vtable_uses_incomplete::DeclaredOnly'}} struct Base { virtual ~Base(); }; struct UsesVTable : Base { RefPtr m_insertionStyle; virtual void trace(); UsesVTable() {} // expected-note {{in instantiation of member function 'vtable_uses_incomplete::RefPtr::~RefPtr' requested here}} }; }