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libcxx/test/std/utilities/meta/meta.unary/meta.unary.prop/is_constructible.pass.cpp

306 lines
9.8 KiB
C++

//===----------------------------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
// type_traits
// XFAIL: apple-clang-6.0
// The Apple-6 compiler gets is_constructible<void ()> wrong.
// template <class T, class... Args>
// struct is_constructible;
// MODULES_DEFINES: _LIBCPP_TESTING_FALLBACK_IS_CONSTRUCTIBLE
#define _LIBCPP_TESTING_FALLBACK_IS_CONSTRUCTIBLE
#include <type_traits>
#include "test_macros.h"
#if TEST_STD_VER >= 11 && defined(_LIBCPP_VERSION)
#define LIBCPP11_STATIC_ASSERT(...) static_assert(__VA_ARGS__)
#else
#define LIBCPP11_STATIC_ASSERT(...) ((void)0)
#endif
struct A
{
explicit A(int);
A(int, double);
A(int, long, double);
#if TEST_STD_VER >= 11
private:
#endif
A(char);
};
struct Base {};
struct Derived : public Base {};
class Abstract
{
virtual void foo() = 0;
};
class AbstractDestructor
{
virtual ~AbstractDestructor() = 0;
};
struct PrivateDtor {
PrivateDtor(int) {}
private:
~PrivateDtor() {}
};
struct S {
template <class T>
#if TEST_STD_VER >= 11
explicit
#endif
operator T () const;
};
template <class To>
struct ImplicitTo {
operator To();
};
#if TEST_STD_VER >= 11
template <class To>
struct ExplicitTo {
explicit operator To ();
};
#endif
template <class T>
void test_is_constructible()
{
static_assert( (std::is_constructible<T>::value), "");
LIBCPP11_STATIC_ASSERT((std::__libcpp_is_constructible<T>::type::value), "");
#if TEST_STD_VER > 14
static_assert( std::is_constructible_v<T>, "");
#endif
}
template <class T, class A0>
void test_is_constructible()
{
static_assert(( std::is_constructible<T, A0>::value), "");
LIBCPP11_STATIC_ASSERT((std::__libcpp_is_constructible<T, A0>::type::value), "");
#if TEST_STD_VER > 14
static_assert(( std::is_constructible_v<T, A0>), "");
#endif
}
template <class T, class A0, class A1>
void test_is_constructible()
{
static_assert(( std::is_constructible<T, A0, A1>::value), "");
LIBCPP11_STATIC_ASSERT((std::__libcpp_is_constructible<T, A0, A1>::type::value), "");
#if TEST_STD_VER > 14
static_assert(( std::is_constructible_v<T, A0, A1>), "");
#endif
}
template <class T, class A0, class A1, class A2>
void test_is_constructible()
{
static_assert(( std::is_constructible<T, A0, A1, A2>::value), "");
LIBCPP11_STATIC_ASSERT((std::__libcpp_is_constructible<T, A0, A1, A2>::type::value), "");
#if TEST_STD_VER > 14
static_assert(( std::is_constructible_v<T, A0, A1, A2>), "");
#endif
}
template <class T>
void test_is_not_constructible()
{
static_assert((!std::is_constructible<T>::value), "");
LIBCPP11_STATIC_ASSERT((!std::__libcpp_is_constructible<T>::type::value), "");
#if TEST_STD_VER > 14
static_assert((!std::is_constructible_v<T>), "");
#endif
}
template <class T, class A0>
void test_is_not_constructible()
{
static_assert((!std::is_constructible<T, A0>::value), "");
LIBCPP11_STATIC_ASSERT((!std::__libcpp_is_constructible<T, A0>::type::value), "");
#if TEST_STD_VER > 14
static_assert((!std::is_constructible_v<T, A0>), "");
#endif
}
#if TEST_STD_VER >= 11
template <class T = int, class = decltype(static_cast<T&&>(std::declval<double&>()))>
constexpr bool clang_disallows_valid_static_cast_test(int) { return false; };
constexpr bool clang_disallows_valid_static_cast_test(long) { return true; }
static constexpr bool clang_disallows_valid_static_cast_bug =
clang_disallows_valid_static_cast_test(0);
#endif
int main()
{
typedef Base B;
typedef Derived D;
test_is_constructible<int> ();
test_is_constructible<int, const int> ();
test_is_constructible<A, int> ();
test_is_constructible<A, int, double> ();
test_is_constructible<A, int, long, double> ();
test_is_constructible<int&, int&> ();
test_is_not_constructible<A> ();
#if TEST_STD_VER >= 11
test_is_not_constructible<A, char> ();
#else
test_is_constructible<A, char> ();
#endif
test_is_not_constructible<A, void> ();
test_is_not_constructible<int, void()>();
test_is_not_constructible<int, void(&)()>();
test_is_not_constructible<int, void() const>();
test_is_not_constructible<int&, void>();
test_is_not_constructible<int&, void()>();
test_is_not_constructible<int&, void() const>();
test_is_not_constructible<int&, void(&)()>();
test_is_not_constructible<void> ();
test_is_not_constructible<const void> (); // LWG 2738
test_is_not_constructible<volatile void> ();
test_is_not_constructible<const volatile void> ();
test_is_not_constructible<int&> ();
test_is_not_constructible<Abstract> ();
test_is_not_constructible<AbstractDestructor> ();
test_is_constructible<int, S>();
test_is_not_constructible<int&, S>();
test_is_constructible<void(&)(), void(&)()>();
test_is_constructible<void(&)(), void()>();
#if TEST_STD_VER >= 11
test_is_constructible<void(&&)(), void(&&)()>();
test_is_constructible<void(&&)(), void()>();
test_is_constructible<void(&&)(), void(&)()>();
#endif
#if TEST_STD_VER >= 11
test_is_constructible<int const&, int>();
test_is_constructible<int const&, int&&>();
test_is_constructible<int&&, double&>();
test_is_constructible<void(&)(), void(&&)()>();
test_is_not_constructible<int&, int>();
test_is_not_constructible<int&, int const&>();
test_is_not_constructible<int&, int&&>();
test_is_constructible<int&&, int>();
test_is_constructible<int&&, int&&>();
test_is_not_constructible<int&&, int&>();
test_is_not_constructible<int&&, int const&&>();
test_is_constructible<Base, Derived>();
test_is_constructible<Base&, Derived&>();
test_is_not_constructible<Derived&, Base&>();
test_is_constructible<Base const&, Derived const&>();
test_is_not_constructible<Derived const&, Base const&>();
test_is_not_constructible<Derived const&, Base>();
test_is_constructible<Base&&, Derived>();
test_is_constructible<Base&&, Derived&&>();
test_is_not_constructible<Derived&&, Base&&>();
test_is_not_constructible<Derived&&, Base>();
// test that T must also be destructible
test_is_constructible<PrivateDtor&, PrivateDtor&>();
test_is_not_constructible<PrivateDtor, int>();
test_is_not_constructible<void() const, void() const>();
test_is_not_constructible<void() const, void*>();
test_is_constructible<int&, ImplicitTo<int&>>();
test_is_constructible<const int&, ImplicitTo<int&&>>();
test_is_constructible<int&&, ImplicitTo<int&&>>();
test_is_constructible<const int&, ImplicitTo<int>>();
test_is_not_constructible<B&&, B&>();
test_is_not_constructible<B&&, D&>();
test_is_constructible<B&&, ImplicitTo<D&&>>();
test_is_constructible<B&&, ImplicitTo<D&&>&>();
test_is_constructible<int&&, double&>();
test_is_constructible<const int&, ImplicitTo<int&>&>();
test_is_constructible<const int&, ImplicitTo<int&>>();
test_is_constructible<const int&, ExplicitTo<int&>&>();
test_is_constructible<const int&, ExplicitTo<int&>>();
test_is_constructible<const int&, ExplicitTo<int&>&>();
test_is_constructible<const int&, ExplicitTo<int&>>();
test_is_constructible<int&, ExplicitTo<int&>>();
test_is_constructible<const int&, ExplicitTo<int&&>>();
// Binding through reference-compatible type is required to perform
// direct-initialization as described in [over.match.ref] p. 1 b. 1:
test_is_constructible<int&, ExplicitTo<int&>>();
test_is_constructible<const int&, ExplicitTo<int&&>>();
static_assert(std::is_constructible<int&&, ExplicitTo<int&&>>::value, "");
#ifdef __clang__
#if defined(CLANG_TEST_VER) && CLANG_TEST_VER < 400
static_assert(clang_disallows_valid_static_cast_bug, "bug still exists");
#endif
// FIXME Clang disallows this construction because it thinks that
// 'static_cast<int&&>(declval<ExplicitTo<int&&>>())' is ill-formed.
LIBCPP_STATIC_ASSERT(
clang_disallows_valid_static_cast_bug !=
std::__libcpp_is_constructible<int&&, ExplicitTo<int&&>>::value, "");
((void)clang_disallows_valid_static_cast_bug); // Prevent unused warning
#else
static_assert(clang_disallows_valid_static_cast_bug == false, "");
LIBCPP_STATIC_ASSERT(std::__libcpp_is_constructible<int&&, ExplicitTo<int&&>>::value, "");
#endif
#ifdef __clang__
// FIXME Clang and GCC disagree on the validity of this expression.
test_is_constructible<const int&, ExplicitTo<int>>();
static_assert(std::is_constructible<int&&, ExplicitTo<int>>::value, "");
LIBCPP_STATIC_ASSERT(
clang_disallows_valid_static_cast_bug !=
std::__libcpp_is_constructible<int&&, ExplicitTo<int>>::value, "");
#else
test_is_not_constructible<const int&, ExplicitTo<int>>();
test_is_not_constructible<int&&, ExplicitTo<int>>();
#endif
// Binding through temporary behaves like copy-initialization,
// see [dcl.init.ref] p. 5, very last sub-bullet:
test_is_not_constructible<const int&, ExplicitTo<double&&>>();
test_is_not_constructible<int&&, ExplicitTo<double&&>>();
// TODO: Remove this workaround once Clang <= 3.7 are no longer used regularly.
// In those compiler versions the __is_constructible builtin gives the wrong
// results for abominable function types.
#if (defined(TEST_APPLE_CLANG_VER) && TEST_APPLE_CLANG_VER < 703) \
|| (defined(TEST_CLANG_VER) && TEST_CLANG_VER < 308)
#define WORKAROUND_CLANG_BUG
#endif
#if !defined(WORKAROUND_CLANG_BUG)
test_is_not_constructible<void()>();
test_is_not_constructible<void() const> ();
test_is_not_constructible<void() volatile> ();
test_is_not_constructible<void() &> ();
test_is_not_constructible<void() &&> ();
#endif
#endif // TEST_STD_VER >= 11
}