// RUN: %clang_cc1 -fsyntax-only -pedantic -std=c++11 -verify -triple x86_64-apple-darwin %s enum class E1 { Val1 = 1L }; enum struct E2 { Val1 = '\0' }; E1 v1 = Val1; // expected-error{{undeclared identifier}} E1 v2 = E1::Val1; static_assert(sizeof(E1) == sizeof(int), "bad size"); static_assert(sizeof(E1::Val1) == sizeof(int), "bad size"); static_assert(sizeof(E2) == sizeof(int), "bad size"); static_assert(sizeof(E2::Val1) == sizeof(int), "bad size"); E1 v3 = E2::Val1; // expected-error{{cannot initialize a variable}} int x1 = E1::Val1; // expected-error{{cannot initialize a variable}} enum E3 : char { Val2 = 1 }; E3 v4 = Val2; E1 v5 = Val2; // expected-error{{cannot initialize a variable}} static_assert(sizeof(E3) == 1, "bad size"); int x2 = Val2; int a1[Val2]; int a2[E1::Val1]; // expected-error{{size of array has non-integer type}} int* p1 = new int[Val2]; int* p2 = new int[E1::Val1]; // expected-error{{array size expression must have integral or unscoped enumeration type, not 'E1'}} enum class E4 { e1 = -2147483648, // ok e2 = 2147483647, // ok e3 = 2147483648 // expected-error{{enumerator value evaluates to 2147483648, which cannot be narrowed to type 'int'}} }; enum class E5 { e1 = 2147483647, // ok e2 // expected-error{{2147483648 is not representable in the underlying}} }; enum class E6 : bool { e1 = false, e2 = true, e3 // expected-error{{2 is not representable in the underlying}} }; enum E7 : bool { e1 = false, e2 = true, e3 // expected-error{{2 is not representable in the underlying}} }; template struct X { enum E : T { e1, e2, e3 // expected-error{{2 is not representable in the underlying}} }; }; X X2; // expected-note{{in instantiation of template}} enum Incomplete1; // expected-error{{C++ forbids forward references}} enum Complete1 : int; Complete1 complete1; enum class Complete2; Complete2 complete2; // All the redeclarations below are done twice on purpose. Tests that the type // of the declaration isn't changed. enum class Redeclare2; // expected-note{{previous declaration is here}} expected-note{{previous declaration is here}} enum Redeclare2; // expected-error{{previously declared as scoped}} enum Redeclare2; // expected-error{{previously declared as scoped}} enum Redeclare3 : int; // expected-note{{previous declaration is here}} expected-note{{previous declaration is here}} enum Redeclare3; // expected-error{{previously declared with fixed underlying type}} enum Redeclare3; // expected-error{{previously declared with fixed underlying type}} enum class Redeclare5; enum class Redeclare5 : int; // ok enum Redeclare6 : int; // expected-note{{previous declaration is here}} expected-note{{previous declaration is here}} enum Redeclare6 : short; // expected-error{{redeclared with different underlying type}} enum Redeclare6 : short; // expected-error{{redeclared with different underlying type}} enum class Redeclare7; // expected-note{{previous declaration is here}} expected-note{{previous declaration is here}} enum class Redeclare7 : short; // expected-error{{redeclared with different underlying type}} enum class Redeclare7 : short; // expected-error{{redeclared with different underlying type}} enum : long { long_enum_val = 10000 }; enum : long x; // expected-error{{unnamed enumeration must be a definition}} \ // expected-warning{{declaration does not declare anything}} void PR9333() { enum class scoped_enum { yes, no, maybe }; scoped_enum e = scoped_enum::yes; if (e == scoped_enum::no) { } } // namespace rdar9366066 { enum class X : unsigned { value }; void f(X x) { x % X::value; // expected-error{{invalid operands to binary expression ('rdar9366066::X' and 'rdar9366066::X')}} x % 8; // expected-error{{invalid operands to binary expression ('rdar9366066::X' and 'int')}} } } // Part 1 of PR10264 namespace test5 { namespace ns { typedef unsigned Atype; enum A : Atype; } enum ns::A : ns::Atype { x, y, z }; } // Part 2 of PR10264 namespace test6 { enum A : unsigned; struct A::a; // expected-error {{incomplete type 'test6::A' named in nested name specifier}} enum A::b; // expected-error {{incomplete type 'test6::A' named in nested name specifier}} int A::c; // expected-error {{incomplete type 'test6::A' named in nested name specifier}} void A::d(); // expected-error {{incomplete type 'test6::A' named in nested name specifier}} void test() { (void) A::e; // expected-error {{incomplete type 'test6::A' named in nested name specifier}} } } namespace PR11484 { const int val = 104; enum class test1 { owner_dead = val, }; } namespace N2764 { enum class E { a, b }; enum E x1 = E::a; // ok enum class E x2 = E::a; // expected-error {{reference to scoped enumeration must use 'enum' not 'enum class'}} enum F { a, b }; enum F y1 = a; // ok enum class F y2 = a; // expected-error {{reference to enumeration must use 'enum' not 'enum class'}} struct S { friend enum class E; // expected-error {{reference to scoped enumeration must use 'enum' not 'enum class'}} friend enum class F; // expected-error {{reference to enumeration must use 'enum' not 'enum class'}} friend enum G {}; // expected-error {{forward reference}} expected-error {{cannot define a type in a friend declaration}} friend enum class H {}; // expected-error {{cannot define a type in a friend declaration}} enum A : int; A a; } s; enum S::A : int {}; enum class B; } enum class N2764::B {}; namespace PR12106 { template struct Enum { Enum() : m_e(E::Last) {} E m_e; }; enum eCOLORS { Last }; Enum e; } namespace test7 { enum class E { e = (struct S*)0 == (struct S*)0 }; S *p; } namespace test8 { template struct S { enum A : int; // expected-note {{here}} enum class B; // expected-note {{here}} enum class C : int; // expected-note {{here}} enum class D : int; // expected-note {{here}} }; template enum S::A { a }; // expected-error {{previously declared with fixed underlying type}} template enum class S::B : char { b }; // expected-error {{redeclared with different underlying}} template enum S::C : int { c }; // expected-error {{previously declared as scoped}} template enum class S::D : char { d }; // expected-error {{redeclared with different underlying}} } namespace test9 { template struct S { enum class ET : T; // expected-note 2{{here}} enum class Eint : int; // expected-note 2{{here}} }; template<> enum class S::ET : int {}; template<> enum class S::ET : short {}; // expected-error {{different underlying type}} template<> enum class S::Eint : short {}; // expected-error {{different underlying type}} template<> enum class S::Eint : int {}; template enum class S::ET : int {}; // expected-error {{different underlying type 'int' (was 'short')}} template enum class S::Eint : T {}; // expected-error {{different underlying type 'short' (was 'int')}} // The implicit instantiation of S causes the implicit instantiation of // all declarations of member enumerations, so is ill-formed, even though we // never instantiate the definitions of S::ET nor S::Eint. S s; // expected-note {{in instantiation of}} } namespace test10 { template int f() { enum E : int; enum E : T; // expected-note {{here}} E x; enum E : int { e }; // expected-error {{different underlying}} x = e; return x; } int k = f(); int l = f(); // expected-note {{here}} template int g() { enum class E : int; enum class E : T; // expected-note {{here}} E x; enum class E : int { e }; // expected-error {{different underlying}} x = E::e; return (int)x; } int m = g(); int n = g(); // expected-note {{here}} } namespace pr13128 { // This should compile cleanly class C { enum class E { C }; }; } namespace PR15633 { template struct A { struct B { enum class E : T; enum class E2 : T; }; }; template enum class A::B::E { e }; template class A; struct B { enum class E; }; template enum class B::E { e }; // expected-error {{enumeration cannot be a template}} } namespace PR16900 { enum class A; A f(A a) { return -a; } // expected-error {{invalid argument type 'PR16900::A' to unary expression}} } namespace PR18551 { enum class A { A }; bool f() { return !A::A; } // expected-error {{invalid argument type 'PR18551::A' to unary expression}} } namespace rdar15124329 { enum class B : bool { F, T }; const rdar15124329::B T1 = B::T; typedef B C; const C T2 = B::T; static_assert(T1 != B::F, ""); static_assert(T2 == B::T, ""); } namespace PR18044 { enum class E { a }; int E::e = 0; // expected-error {{does not refer into a class}} void E::f() {} // expected-error {{does not refer into a class}} struct E::S {}; // expected-error {{no struct named 'S'}} struct T : E::S {}; // expected-error {{expected class name}} enum E::E {}; // expected-error {{no enum named 'E'}} int E::*p; // expected-error {{does not point into a class}} using E::f; // expected-error {{no member named 'f'}} using E::a; // expected-error {{using declaration cannot refer to a scoped enumerator}} E b = a; // expected-error {{undeclared}} } namespace test11 { enum class E { a }; typedef E E2; E2 f1() { return E::a; } bool f() { return !f1(); } // expected-error {{invalid argument type 'E2' (aka 'test11::E') to unary expression}} }