// RUN: %clang_cc1 -fsyntax-only -verify -fincremental-extensions -std=c++20 %s
// RUN: %clang_cc1 -fsyntax-only -DMS -fms-extensions -verify -fincremental-extensions -std=c++20 %s
extern "C" int printf(const char*,...);
// Decls which are hard to disambiguate
// Templates
namespace ns1 { template<typename T> void tmplt(T &) {}}
int arg_tmplt = 12; ns1::tmplt(arg_tmplt);
namespace ns2 { template <typename T> struct S {}; }
namespace ns3 { struct A { public: using S = int; }; }
namespace ns3 { A::S f(A::S a); }
// ParseStatementOrDeclaration returns multiple statements.
#ifdef MS
int g_bFlag = 1;
__if_exists(::g_bFlag) {
printf("Entering __if_exists\n");
printf("g_bFlag = %d\n", g_bFlag);
}
#endif // MS
// Operators.
struct S1 { operator int(); };
S1::operator int() { return 0; }
// Dtors
using I = int;
I x = 10;
x.I::~I();
x = 20;
struct Dtor1 {~Dtor1();};
Dtor1::~Dtor1() { printf("Dtor1\n"); }
Dtor1 d1;
struct Dtor2 { ~Dtor2(); };
::Dtor2::~Dtor2() { printf("Dtor2\n"); }
Dtor2 d2;
struct ANestedDtor { struct A1 { struct A2 { ~A2(); }; }; };
ANestedDtor::A1::A2::~A2() { printf("Dtor A::A1::A2::~A2\n"); }
// Ctors
// Private typedefs / using declarations
class PrivateUsingMember { using T = int; T f(); };
PrivateUsingMember::T PrivateUsingMember::f() { return 0; }
class PrivateUsingVar { using T = int; static T i; };
PrivateUsingVar::T PrivateUsingVar::i = 42;
// The same with namespaces
namespace PrivateUsingNamespace { class Member { using T = int; T f(); }; }
PrivateUsingNamespace::Member::T PrivateUsingNamespace::Member::f() { return 0; }
namespace PrivateUsingNamespace { class Var { using T = int; static T i; }; }
PrivateUsingNamespace::Var::T PrivateUsingNamespace::Var::i = 42;
// The same with friend declarations
class PrivateUsingFriendMember;
class PrivateUsingFriendVar;
class PrivateUsingFriend { friend class PrivateUsingFriendMember; friend class PrivateUsingFriendVar; using T = int; };
class PrivateUsingFriendMember { PrivateUsingFriend::T f(); };
PrivateUsingFriend::T PrivateUsingFriendMember::f() { return 0; }
class PrivateUsingFriendVar { static PrivateUsingFriend::T i; };
PrivateUsingFriend::T PrivateUsingFriendVar::i = 42;
// The following should still diagnose (inspired by PR13642)
// FIXME: Should not be diagnosed twice!
class PR13642 { class Inner { public: static int i; }; };
// expected-note@-1 2 {{implicitly declared private here}}
PR13642::Inner::i = 5;
// expected-error@-1 2 {{'Inner' is a private member of 'PR13642'}}
// Deduction guide
template<typename T> struct A { A(); A(T); };
A() -> A<int>;
struct S2 { S2(); };
S2::S2() = default;
namespace N { struct S { S(); }; }
N::S::S() { printf("N::S::S()\n"); }
N::S s;
namespace Ns {namespace Ns { void Ns(); void Fs();}}
void Ns::Ns::Ns() { printf("void Ns::Ns::Ns()\n"); }
void Ns::Ns::Fs() {}
Ns::Ns::Fs();
Ns::Ns::Ns();
struct Attrs1 { Attrs1(); };
Attrs1::Attrs1() __attribute((noreturn)) = default;
struct Attrs2 { Attrs2(); };
__attribute((noreturn)) Attrs2::Attrs2() = default;
// Extra semicolon
namespace N {};