// RUN: %clang_cc1 -verify -fsyntax-only -std=c++11 -pedantic-errors -triple x86_64-linux-gnu %s
// Make sure we know these are legitimate commas and not typos for ';'.
namespace Commas {
int a,
b [[ ]],
c alignas(double);
}
struct S {};
enum E { e, };
auto f() -> struct S {
return S();
}
auto g() -> enum E {
return E();
}
class ExtraSemiAfterMemFn {
// Due to a peculiarity in the C++11 grammar, a deleted or defaulted function
// is permitted to be followed by either one or two semicolons.
void f() = delete // expected-error {{expected ';' after delete}}
void g() = delete; // ok
void h() = delete;; // ok
void i() = delete;;; // expected-error {{extra ';' after member function definition}}
};
int *const const p = 0; // expected-error {{duplicate 'const' declaration specifier}}
const const int *q = 0; // expected-error {{duplicate 'const' declaration specifier}}
struct MultiCV {
void f() const const; // expected-error {{duplicate 'const' declaration specifier}}
};
static_assert(something, ""); // expected-error {{undeclared identifier}}
// PR9903
struct SS {
typedef void d() = default; // expected-error {{function definition declared 'typedef'}} expected-error {{only special member functions may be defaulted}}
};
using PR14855 = int S::; // expected-error {{expected ';' after alias declaration}}
// Ensure that 'this' has a const-qualified type in a trailing return type for
// a constexpr function.
struct ConstexprTrailingReturn {
int n;
constexpr auto f() const -> decltype((n));
};
constexpr const int &ConstexprTrailingReturn::f() const { return n; }
namespace TestIsValidAfterTypeSpecifier {
struct s {} v;
struct s
thread_local tl;
struct s
&r0 = v;
struct s
&&r1 = s();
struct s
bitand r2 = v;
struct s
and r3 = s();
enum E {};
enum E
[[]] e;
}
namespace PR5066 {
using T = int (*f)(); // expected-error {{type-id cannot have a name}}
template<typename T> using U = int (*f)(); // expected-error {{type-id cannot have a name}}
auto f() -> int (*f)(); // expected-error {{type-id cannot have a name}}
auto g = []() -> int (*f)() {}; // expected-error {{type-id cannot have a name}}
}
namespace FinalOverride {
struct Base {
virtual void *f();
virtual void *g();
virtual void *h();
virtual void *i();
};
struct Derived : Base {
virtual auto f() -> void *final;
virtual auto g() -> void *override;
virtual auto h() -> void *final override;
virtual auto i() -> void *override final;
};
}
namespace UsingDeclAttrs {
using T __attribute__((aligned(1))) = int;
using T [[gnu::aligned(1)]] = int;
static_assert(alignof(T) == 1, "");
using [[gnu::aligned(1)]] T = int; // expected-error {{an attribute list cannot appear here}}
using T = int [[gnu::aligned(1)]]; // expected-error {{'aligned' attribute cannot be applied to types}}
}
namespace DuplicateSpecifier {
constexpr constexpr int f(); // expected-warning {{duplicate 'constexpr' declaration specifier}}
constexpr int constexpr a = 0; // expected-warning {{duplicate 'constexpr' declaration specifier}}
struct A {
friend constexpr int constexpr friend f(); // expected-warning {{duplicate 'friend' declaration specifier}} \
// expected-warning {{duplicate 'constexpr' declaration specifier}}
friend struct A friend; // expected-warning {{duplicate 'friend'}} expected-error {{'friend' must appear first}}
};
}
struct Base { virtual void f() = 0; virtual void g() = 0; virtual void h() = 0; };
struct MemberComponentOrder : Base {
void f() override __asm__("foobar") __attribute__(( )) {}
void g() __attribute__(( )) override;
void h() __attribute__(( )) override {}
};