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// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify -fcxx-exceptions %s
void fn() = default; // expected-error {{only special member}}
struct foo {
void fn() = default; // expected-error {{only special member}}
foo() = default;
foo(const foo&) = default;
foo(foo&&) = default;
foo& operator = (const foo&) = default;
foo& operator = (foo&&) = default;
~foo() = default;
};
struct bar {
bar();
bar(const bar&);
bar(bar&&);
bar& operator = (const bar&);
bar& operator = (bar&&);
~bar();
};
bar::bar() = default;
bar::bar(const bar&) = default;
bar::bar(bar&&) = default;
bar& bar::operator = (const bar&) = default;
bar& bar::operator = (bar&&) = default;
bar::~bar() = default;
static_assert(__is_trivial(foo), "foo should be trivial");
static_assert(!__has_trivial_destructor(bar), "bar's destructor isn't trivial");
static_assert(!__has_trivial_constructor(bar),
"bar's default constructor isn't trivial");
static_assert(!__has_trivial_copy(bar), "bar has no trivial copy");
static_assert(!__has_trivial_assign(bar), "bar has no trivial assign");
void tester() {
foo f, g(f);
bar b, c(b);
f = g;
b = c;
}
template<typename T> struct S : T {
constexpr S() = default;
constexpr S(const S&) = default;
constexpr S(S&&) = default;
};
struct lit { constexpr lit() {} };
S<lit> s_lit; // ok
S<bar> s_bar; // ok
struct Friends {
friend S<bar>::S();
friend S<bar>::S(const S&);
friend S<bar>::S(S&&);
};
namespace DefaultedFnExceptionSpec {
// DR1330: The exception-specification of an implicitly-declared special
// member function is evaluated as needed.
template<typename T> T &&declval();
template<typename T> struct pair {
pair(const pair&) noexcept(noexcept(T(declval<T>())));
};
struct Y;
struct X { X(); X(const Y&); };
struct Y { pair<X> p; };
template<typename T>
struct A {
pair<T> p;
};
struct B {
B();
B(const A<B>&);
};
// Don't crash here.
void f() {
X x = X();
(void)noexcept(B(declval<B>()));
}
template<typename T>
struct Error {
// FIXME: Type canonicalization causes all the errors to point at the first
// declaration which has the type 'void () noexcept (T::error)'. We should
// get one error for 'Error<int>::Error()' and one for 'Error<int>::~Error()'.
void f() noexcept(T::error); // expected-error 2{{has no members}}
Error() noexcept(T::error);
Error(const Error&) noexcept(T::error);
Error(Error&&) noexcept(T::error);
Error &operator=(const Error&) noexcept(T::error);
Error &operator=(Error&&) noexcept(T::error);
~Error() noexcept(T::error);
};
struct DelayImplicit {
Error<int> e;
};
// Don't instantiate the exception specification here.
void test1(decltype(declval<DelayImplicit>() = DelayImplicit(DelayImplicit())));
void test2(decltype(declval<DelayImplicit>() = declval<const DelayImplicit>()));
void test3(decltype(DelayImplicit(declval<const DelayImplicit>())));
// Any odr-use causes the exception specification to be evaluated.
struct OdrUse { // \
expected-note {{instantiation of exception specification for 'Error'}} \
expected-note {{instantiation of exception specification for '~Error'}}
Error<int> e;
};
OdrUse use; // expected-note {{implicit default constructor for 'DefaultedFnExceptionSpec::OdrUse' first required here}}
}
namespace PR13527 {
struct X {
X() = delete; // expected-note {{here}}
X(const X&) = delete; // expected-note {{here}}
X(X&&) = delete; // expected-note {{here}}
X &operator=(const X&) = delete; // expected-note {{here}}
X &operator=(X&&) = delete; // expected-note {{here}}
~X() = delete; // expected-note {{here}}
};
X::X() = default; // expected-error {{redefinition}}
X::X(const X&) = default; // expected-error {{redefinition}}
X::X(X&&) = default; // expected-error {{redefinition}}
X &X::operator=(const X&) = default; // expected-error {{redefinition}}
X &X::operator=(X&&) = default; // expected-error {{redefinition}}
X::~X() = default; // expected-error {{redefinition}}
struct Y {
Y() = default;
Y(const Y&) = default;
Y(Y&&) = default;
Y &operator=(const Y&) = default;
Y &operator=(Y&&) = default;
~Y() = default;
};
Y::Y() = default; // expected-error {{definition of explicitly defaulted}}
Y::Y(const Y&) = default; // expected-error {{definition of explicitly defaulted}}
Y::Y(Y&&) = default; // expected-error {{definition of explicitly defaulted}}
Y &Y::operator=(const Y&) = default; // expected-error {{definition of explicitly defaulted}}
Y &Y::operator=(Y&&) = default; // expected-error {{definition of explicitly defaulted}}
Y::~Y() = default; // expected-error {{definition of explicitly defaulted}}
}
namespace PR27699 {
struct X {
X();
};
X::X() = default; // expected-note {{here}}
X::X() = default; // expected-error {{redefinition of 'X'}}
}
namespace PR14577 {
template<typename T>
struct Outer {
template<typename U>
struct Inner1 {
~Inner1();
};
template<typename U>
struct Inner2 {
~Inner2();
};
};
template<typename T>
Outer<T>::Inner1<T>::~Inner1() = delete; // expected-error {{nested name specifier 'Outer<T>::Inner1<T>::' for declaration does not refer into a class, class template or class template partial specialization}} expected-error {{only functions can have deleted definitions}}
template<typename T>
Outer<T>::Inner2<T>::~Inner2() = default; // expected-error {{nested name specifier 'Outer<T>::Inner2<T>::' for declaration does not refer into a class, class template or class template partial specialization}} expected-error {{only special member functions may be defaulted}}
}
extern "C" {
template<typename _Tp> // expected-error {{templates must have C++ linkage}}
void PR13573(const _Tp&) = delete;
}
namespace PR15597 {
template<typename T> struct A {
A() noexcept(true) = default;
~A() noexcept(true) = default;
};
template<typename T> struct B {
B() noexcept(false) = default; // expected-error {{does not match the calculated one}}
~B() noexcept(false) = default; // expected-error {{does not match the calculated one}}
};
A<int> a;
B<int> b; // expected-note {{here}}
}
namespace PR27941 {
struct ExplicitBool {
ExplicitBool &operator=(bool) = default; // expected-error{{only special member functions may be defaulted}}
int member;
};
int fn() {
ExplicitBool t;
t = true;
}
}
namespace dependent_classes {
template <bool B, typename X, typename Y>
struct conditional;
template <typename X, typename Y>
struct conditional<true, X, Y> { typedef X type; };
template <typename X, typename Y>
struct conditional<false, X, Y> { typedef Y type; };
template<bool B> struct X {
X();
// B == false triggers error for = default.
using T = typename conditional<B, const X &, int>::type;
X(T) = default; // expected-error {{only special member functions}}
// Either value of B creates a constructor that can be default
using U = typename conditional<B, X&&, const X&>::type;
X(U) = default;
};
X<true> x1;
X<false> x2; // expected-note {{in instantiation}}
template <typename Type>
class E {
explicit E(const int &) = default;
};
template <typename Type>
E<Type>::E(const int&) {} // expected-error {{definition of explicitly defaulted function}}
}
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