// RUN: %clang_cc1 -fsyntax-only -verify %s struct A {}; enum B { Dummy }; namespace C {} struct D : A {}; struct E : A {}; struct F : D, E {}; struct G : virtual D {}; int A::*pdi1; int (::A::*pdi2); int (A::*pfi)(int); int B::*pbi; // expected-error {{expected a class or namespace}} int C::*pci; // expected-error {{'pci' does not point into a class}} void A::*pdv; // expected-error {{'pdv' declared as a member pointer to void}} int& A::*pdr; // expected-error {{'pdr' declared as a member pointer to a reference}} void f() { // This requires tentative parsing. int (A::*pf)(int, int); // Implicit conversion to bool. bool b = pdi1; b = pfi; // Conversion from null pointer constant. pf = 0; pf = __null; // Conversion to member of derived. int D::*pdid = pdi1; pdid = pdi2; // Fail conversion due to ambiguity and virtuality. int F::*pdif = pdi1; // expected-error {{ambiguous conversion from pointer to member of base class 'A' to pointer to member of derived class 'F':}} int G::*pdig = pdi1; // expected-error {{conversion from pointer to member of class 'A' to pointer to member of class 'G' via virtual base 'D' is not allowed}} // Conversion to member of base. pdi1 = pdid; // expected-error {{assigning to 'int A::*' from incompatible type 'int D::*'}} // Comparisons int (A::*pf2)(int, int); int (D::*pf3)(int, int) = 0; bool b1 = (pf == pf2); (void)b1; bool b2 = (pf != pf2); (void)b2; bool b3 = (pf == pf3); (void)b3; bool b4 = (pf != 0); (void)b4; } struct TheBase { void d(); }; struct HasMembers : TheBase { int i; void f(); void g(); void g(int); static void g(double); }; namespace Fake { int i; void f(); } void g() { HasMembers hm; int HasMembers::*pmi = &HasMembers::i; int *pni = &Fake::i; int *pmii = &hm.i; void (HasMembers::*pmf)() = &HasMembers::f; void (*pnf)() = &Fake::f; &hm.f; // expected-error {{cannot create a non-constant pointer to member function}} void (HasMembers::*pmgv)() = &HasMembers::g; void (HasMembers::*pmgi)(int) = &HasMembers::g; void (*pmgd)(double) = &HasMembers::g; void (HasMembers::*pmd)() = &HasMembers::d; } struct Incomplete; void h() { HasMembers hm, *phm = &hm; int HasMembers::*pi = &HasMembers::i; hm.*pi = 0; int i = phm->*pi; (void)&(hm.*pi); (void)&(phm->*pi); (void)&((&hm)->*pi); void (HasMembers::*pf)() = &HasMembers::f; (hm.*pf)(); (phm->*pf)(); (void)(hm->*pi); // expected-error {{left hand operand to ->* must be a pointer to class compatible with the right hand operand, but is 'HasMembers'}} (void)(phm.*pi); // expected-error {{left hand operand to .* must be a class compatible with the right hand operand, but is 'HasMembers *'}} (void)(i.*pi); // expected-error {{left hand operand to .* must be a class compatible with the right hand operand, but is 'int'}} int *ptr; (void)(ptr->*pi); // expected-error {{left hand operand to ->* must be a pointer to class compatible with the right hand operand, but is 'int *'}} int A::*pai = 0; D d, *pd = &d; (void)(d.*pai); (void)(pd->*pai); F f, *ptrf = &f; (void)(f.*pai); // expected-error {{left hand operand to .* must be a class compatible with the right hand operand, but is 'F'}} (void)(ptrf->*pai); // expected-error {{left hand operand to ->* must be a pointer to class compatible with the right hand operand, but is 'F *'}} (void)(hm.*i); // expected-error {{pointer-to-member}} (void)(phm->*i); // expected-error {{pointer-to-member}} // Okay Incomplete *inc; int Incomplete::*pii = 0; (void)(inc->*pii); } struct OverloadsPtrMem { int operator ->*(const char *); }; void i() { OverloadsPtrMem m; int foo = m->*"Awesome!"; } namespace pr5985 { struct c { void h(); void f() { void (c::*p)(); p = &h; // expected-error {{must explicitly qualify}} p = &this->h; // expected-error {{cannot create a non-constant pointer to member function}} p = &(*this).h; // expected-error {{cannot create a non-constant pointer to member function}} } }; } namespace pr6783 { struct Base {}; struct X; // expected-note {{forward declaration}} int test1(int Base::* p2m, X* object) { return object->*p2m; // expected-error {{left hand operand to ->*}} } } namespace PR7176 { namespace base { struct Process { }; struct Continuous : Process { bool cond(); }; } typedef bool( base::Process::*Condition )(); void m() { (void)(Condition) &base::Continuous::cond; } } namespace rdar8358512 { // We can't call this with an overload set because we're not allowed // to look into overload sets unless the parameter has some kind of // function type. template <class F> void bind(F f); // expected-note 12 {{candidate template ignored}} template <class F, class T> void bindmem(F (T::*f)()); // expected-note 4 {{candidate template ignored}} template <class F> void bindfn(F (*f)()); // expected-note 4 {{candidate template ignored}} struct A { void nonstat(); void nonstat(int); void mixed(); static void mixed(int); static void stat(); static void stat(int); template <typename T> struct Test0 { void test() { bind(&nonstat); // expected-error {{no matching function for call}} bind(&A::nonstat); // expected-error {{no matching function for call}} bind(&mixed); // expected-error {{no matching function for call}} bind(&A::mixed); // expected-error {{no matching function for call}} bind(&stat); // expected-error {{no matching function for call}} bind(&A::stat); // expected-error {{no matching function for call}} } }; template <typename T> struct Test1 { void test() { bindmem(&nonstat); // expected-error {{no matching function for call}} bindmem(&A::nonstat); bindmem(&mixed); // expected-error {{no matching function for call}} bindmem(&A::mixed); bindmem(&stat); // expected-error {{no matching function for call}} bindmem(&A::stat); // expected-error {{no matching function for call}} } }; template <typename T> struct Test2 { void test() { bindfn(&nonstat); // expected-error {{no matching function for call}} bindfn(&A::nonstat); // expected-error {{no matching function for call}} bindfn(&mixed); // expected-error {{no matching function for call}} bindfn(&A::mixed); // expected-error {{no matching function for call}} bindfn(&stat); bindfn(&A::stat); } }; }; template <class T> class B { void nonstat(); void nonstat(int); void mixed(); static void mixed(int); static void stat(); static void stat(int); // None of these can be diagnosed yet, because the arguments are // still dependent. void test0a() { bind(&nonstat); bind(&B::nonstat); bind(&mixed); bind(&B::mixed); bind(&stat); bind(&B::stat); } void test0b() { bind(&nonstat); // expected-error {{no matching function for call}} bind(&B::nonstat); // expected-error {{no matching function for call}} bind(&mixed); // expected-error {{no matching function for call}} bind(&B::mixed); // expected-error {{no matching function for call}} bind(&stat); // expected-error {{no matching function for call}} bind(&B::stat); // expected-error {{no matching function for call}} } }; template void B<int>::test0b(); // expected-note {{in instantiation}} } namespace PR9973 { template<class R, class T> struct dm { typedef R T::*F; F f_; template<class U> int & call(U u) { return u->*f_; } // expected-error{{non-const lvalue reference to type 'int' cannot bind to a temporary of type '<bound member function type>'}} template<class U> int operator()(U u) { call(u); } // expected-note{{in instantiation of}} }; template<class R, class T> dm<R, T> mem_fn(R T::*) ; struct test { int nullary_v(); }; void f() { test* t; mem_fn(&test::nullary_v)(t); // expected-note{{in instantiation of}} } } namespace test8 { struct A { int foo; }; int test1() { // Verify that we perform (and check) an lvalue conversion on the operands here. return (*((A**) 0)) // expected-warning {{indirection of non-volatile null pointer will be deleted}} expected-note {{consider}} ->**(int A::**) 0; // expected-warning {{indirection of non-volatile null pointer will be deleted}} expected-note {{consider}} } int test2() { // Verify that we perform (and check) an lvalue conversion on the operands here. // TODO: the .* should itself warn about being a dereference of null. return (*((A*) 0)) .**(int A::**) 0; // expected-warning {{indirection of non-volatile null pointer will be deleted}} expected-note {{consider}} } }