// RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -verify -std=c++11 %s class A { virtual void f(); virtual void g() = 0; // expected-note{{unimplemented pure virtual method 'g' in 'A'}} void h() = 0; // expected-error {{'h' is not virtual and cannot be declared pure}} void i() = 1; // expected-error {{initializer on function does not look like a pure-specifier}} void j() = 0u; // expected-error {{initializer on function does not look like a pure-specifier}} void k(); public: A(int); }; virtual void A::k() { } // expected-error{{'virtual' can only be specified inside the class definition}} class B : public A { // Needs to recognize that overridden function is virtual. void g() = 0; // Needs to recognize that function does not override. void g(int) = 0; // expected-error{{'g' is not virtual and cannot be declared pure}} }; // Needs to recognize invalid uses of abstract classes. A fn(A) // expected-error{{parameter type 'A' is an abstract class}} \ // expected-error{{return type 'A' is an abstract class}} { A a; // expected-error{{variable type 'A' is an abstract class}} (void)static_cast<A>(0); // expected-error{{allocating an object of abstract class type 'A'}} try { } catch(A) { // expected-error{{variable type 'A' is an abstract class}} } } namespace rdar9670557 { typedef int func(int); func *a(); struct X { virtual func f = 0; virtual func (g) = 0; func *h = 0; }; } namespace pr8264 { struct Test { virtual virtual void func(); // expected-warning {{duplicate 'virtual' declaration specifier}} }; } namespace VirtualFriend { // DR (filed but no number yet): reject meaningless pure-specifier on a friend declaration. struct A { virtual int f(); }; struct B { friend int A::f() = 0; }; // expected-error {{friend declaration cannot have a pure-specifier}} struct C { virtual int f(); friend int C::f() = 0; // expected-error {{friend declaration cannot have a pure-specifier}} }; } |