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// RUN: %clang_cc1 -Wno-uninitialized -std=c++11 -verify %s
template<int> struct c { c(int) = delete; typedef void val; operator int() const; };
int f;
int val;
int foobar;
struct S {
int k1 = a < b < c, d > ::val, e1;
int k2 = a < b, c < d > ::val, e2;
int k3 = b < a < c, d > ::val, e3;
int k4 = b < c, x, y = d > ::val, e4;
int k5 = T1 < b, &S::operator=(int); // expected-error {{extra qualification}}
int k6 = T2 < b, &S::operator= >::val;
int k7 = T1 < b, &S::operator>(int); // expected-error {{extra qualification}}
int k8 = T2 < b, &S::operator> >::val;
int k9 = T3 < a < b, c >> (d), e5 = 1 > (e4);
int k10 = 0 < T3 < a < b, c >> (d
) // expected-error {{expected ';' at end of declaration}}
, a > (e4);
int k11 = 0 < 1, c<3>::*ptr;
int k12 = e < 0, int a<b<c>::* >(), e11;
void f1(
int k1 = a < b < c, d > ::val,
int k2 = b < a < c, d > ::val,
int k3 = b < c, int x = 0 > ::val,
int k4 = a < b, T3 < int > >(), // expected-error {{must be an expression}}
int k5 = a < b, c < d > ::val,
int k6 = a < b, c < d > (n) // expected-error {{undeclared identifier 'n'}}
);
static void f1b(
int k6 = a < b, c < d > (f)
);
using f1b_T = decltype(f1b(0)); // only one parameter, because second param
// would be missing its default argument
void f2a(
// T3<int> here is a parameter type, so must be declared before it is used.
int k1 = c < b, T3 < int > x = 0 // expected-error {{no template named 'T3'}}
);
template<typename, int=0> struct T3 { T3(int); operator int(); };
void f2b(
int k1 = c < b, T3 < int > x = 0 // ok
);
// This is a one-parameter function. Ensure we don't typo-correct it to
// int = a < b, c < foobar > ()
// ... which would be a function with two parameters.
int f3(int = a < b, c < goobar > ());
static constexpr int (S::*f3_test)(int) = &S::f3;
void f4(
int k1 = a<1,2>::val,
int missing_default // expected-error {{missing default argument on parameter}}
);
void f5(
int k1 = b < c,
int missing_default // expected-error {{missing default argument on parameter}}
);
// FIXME: We should ideally disambiguate this as two parameters.
void f6(
int k = b < c, // expected-error {{unexpected end of default argument}}
unsigned int (missing_default)
);
template<int, int = 0> struct a { // expected-note {{here}}
a();
a(int);
static const int val = 0;
operator int();
};
static const int b = 0, c = 1, d = 2, goobar = 3;
template<int, typename> struct e { operator int(); };
static const int f = 0;
int mp1 = 0 < 1,
a<b<c,b<c>::*mp2,
mp3 = 0 > a<b<c>::val,
a<b<c,b<c>::*mp4 = 0,
a<b<c,b<c>::*mp5 {0},
a<b<c,b<c>::*mp6;
int np1 = e<0, int a<b<c,b<c>::*>();
static const int T1 = 4;
template<int, int &(S::*)(int)> struct T2 { static const int val = 0; };
};
namespace NoAnnotationTokens {
template<bool> struct Bool { Bool(int); };
static const bool in_class = false;
struct Test {
// Check we don't keep around a Bool<false> annotation token here.
int f(Bool<true> = X<Y, Bool<in_class> >(0));
// But it's OK if we do here.
int g(Bool<true> = Z<Y, Bool<in_class> = Bool<false>(0));
static const bool in_class = true;
template<int, typename U> using X = U;
static const int Y = 0, Z = 0;
};
}
namespace ImplicitInstantiation {
template<typename T> struct HasError { typename T::error error; }; // expected-error {{has no members}}
struct S {
// This triggers the instantiation of the outer HasError<int> during
// disambiguation, even though it uses the inner HasError<int>.
void f(int a = X<Y, HasError<int>::Z >()); // expected-note {{in instantiation of}}
template<typename, typename> struct X { operator int(); };
typedef int Y;
template<typename> struct HasError { typedef int Z; };
};
HasError<int> hei;
}
namespace CWG325 {
template <int A, typename B> struct T { static int i; operator int(); };
class C {
int Foo (int i = T<1, int>::i);
};
class D {
int Foo (int i = T<1, int>::i);
template <int A, typename B> struct T {static int i;};
};
const int a = 0;
typedef int b;
T<a,b> c;
struct E {
int n = T<a,b>(c);
};
}
namespace Operators {
struct Y {};
constexpr int operator,(const Y&, const Y&) { return 8; }
constexpr int operator>(const Y&, const Y&) { return 8; }
constexpr int operator<(const Y&, const Y&) { return 8; }
constexpr int operator>>(const Y&, const Y&) { return 8; }
struct X {
typedef int (*Fn)(const Y&, const Y&);
Fn a = operator,, b = operator<, c = operator>;
void f(Fn a = operator,, Fn b = operator<, Fn c = operator>);
int k1 = T1<0, operator<, operator>, operator<>::val, l1;
int k2 = T1<0, operator>, operator,, operator,>::val, l2;
int k3 = T2<0, operator,(Y{}, Y{}), operator<(Y{}, Y{})>::val, l3;
int k4 = T2<0, operator>(Y{}, Y{}), operator,(Y{}, Y{})>::val, l4;
int k5 = T3<0, operator>>>::val, l5;
int k6 = T4<0, T3<0, operator>>>>::val, l6;
template<int, Fn, Fn, Fn> struct T1 { enum { val }; };
template<int, int, int> struct T2 { enum { val }; };
template<int, Fn> struct T3 { enum { val }; };
template<int, typename T> struct T4 : T {};
};
}
namespace ElaboratedTypeSpecifiers {
struct S {
int f(int x = T<a, struct S>());
int h(int x = T<a, union __attribute__(()) U>());
int i(int x = T<a, enum E>());
int j(int x = T<a, struct S::template T<0, enum E>>());
template <int, typename> struct T { operator int(); };
static const int a = 0;
enum E {};
};
}
namespace PR20459 {
template <typename EncTraits> struct A {
void foo(int = EncTraits::template TypeEnc<int, int>::val); // ok
};
}