mirror of
https://github.com/autc04/Retro68.git
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259 lines
9.3 KiB
C++
259 lines
9.3 KiB
C++
// { dg-do run { target c++14 } }
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// Copyright (C) 2013-2019 Free Software Foundation, Inc.
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//
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// This file is part of the GNU ISO C++ Library. This library is free
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// software; you can redistribute it and/or modify it under the
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// terms of the GNU General Public License as published by the
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// Free Software Foundation; either version 3, or (at your option)
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// any later version.
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License along
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// with this library; see the file COPYING3. If not see
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// <http://www.gnu.org/licenses/>.
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#include <experimental/optional>
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#include <testsuite_hooks.h>
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#include <tuple>
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using std::experimental::bad_optional_access;
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static_assert( std::is_default_constructible<bad_optional_access>::value, "" );
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struct trivially_destructible
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{
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trivially_destructible() = delete;
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trivially_destructible(trivially_destructible const&) = delete;
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trivially_destructible& operator=(trivially_destructible const&) = delete;
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trivially_destructible(trivially_destructible&&) = delete;
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trivially_destructible& operator=(trivially_destructible&&) = delete;
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~trivially_destructible() noexcept = default;
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};
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static_assert( std::is_trivially_destructible<trivially_destructible>(), "" );
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struct no_default_constructor
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{
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no_default_constructor() = delete;
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};
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struct no_copy_constructor
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{
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no_copy_constructor() = default;
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no_copy_constructor(no_copy_constructor const&) = delete;
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no_copy_constructor& operator=(no_copy_constructor const&) = default;
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no_copy_constructor(no_copy_constructor&&) = default;
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no_copy_constructor& operator=(no_copy_constructor&&) = default;
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};
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struct no_copy_assignment
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{
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no_copy_assignment() = default;
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no_copy_assignment(no_copy_assignment const&) = default;
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no_copy_assignment(no_copy_assignment&&) = default;
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no_copy_assignment& operator=(no_copy_assignment&&) = default;
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};
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struct no_move_constructor
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{
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no_move_constructor() = default;
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no_move_constructor(no_move_constructor const&) = default;
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no_move_constructor& operator=(no_move_constructor const&) = default;
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no_move_constructor(no_move_constructor&&) = delete;
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no_move_constructor& operator=(no_move_constructor&&) = default;
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};
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struct no_move_assignment
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{
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no_move_assignment() = default;
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no_move_assignment(no_move_assignment const&) = default;
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no_move_assignment& operator=(no_move_assignment const&) = default;
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no_move_assignment(no_move_assignment&&) = default;
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no_move_assignment& operator=(no_move_assignment&&) = delete;
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};
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struct no_copy : no_copy_constructor, no_copy_assignment { };
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struct no_move : no_move_constructor, no_move_assignment { };
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// Laxest possible model of a value type for optional
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struct only_destructible
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{
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only_destructible(only_destructible&&) = delete;
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};
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int main()
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{
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{
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static_assert( std::is_trivially_destructible<std::experimental::optional<trivially_destructible>>(), "" );
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}
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{
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using T = no_default_constructor;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( std::is_copy_constructible<O>(), "" );
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{ O o; auto copy = o; }
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static_assert( std::is_copy_assignable<O>(), "" );
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{ O o, p; p = o; }
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = no_copy_constructor;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( !std::is_copy_constructible<O>(), "" );
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static_assert( !std::is_copy_assignable<O>(), "" );
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = no_copy_assignment;
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using O = std::experimental::optional<T>;
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( std::is_copy_constructible<O>(), "" );
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{ O o; auto copy = o; }
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static_assert( !std::is_copy_assignable<O>(), "" );
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = no_copy;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( !std::is_copy_constructible<O>(), "" );
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static_assert( !std::is_copy_assignable<O>(), "" );
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = no_move_constructor;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( std::is_copy_constructible<O>(), "" );
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{ O o; auto copy = o; }
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static_assert( std::is_copy_assignable<O>(), "" );
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/*
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* T should be move constructible due to [12.8/11], which is a new rule in C++1y
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* not yet implemented by GCC. Because there is already a special exception in C++11
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* for the generation of the special members that GCC implements (at least some of the
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* time), this does not affect the std::experimental::optional implementation however. So the assertion
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* for T should be changed (or removed altogether) when the time comes, but the rest
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* should however remain correct and unchanged.
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*/
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static_assert( !std::is_move_constructible<T>(), "" );
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = no_move_assignment;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( std::is_copy_constructible<O>(), "" );
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{ O o; auto copy = o; }
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static_assert( std::is_copy_assignable<O>(), "" );
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{ O o, p; p = o; }
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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/*
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* Paragraph 23 of same leads to a similar situation but with respect to move
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* assignment.
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*/
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static_assert( !std::is_move_assignable<T>(), "" );
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = no_move;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( std::is_copy_constructible<O>(), "" );
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{ O o; auto copy = o; }
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static_assert( std::is_copy_assignable<O>(), "" );
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{ O o, p; p = o; }
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static_assert( std::is_move_constructible<O>(), "" );
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{ O o; auto moved_to = std::move(o); }
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static_assert( std::is_move_assignable<O>(), "" );
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{ O o, p; p = std::move(o); }
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}
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{
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using T = only_destructible;
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using O = std::experimental::optional<T>;
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static_assert( std::is_same<O::value_type, T>(), "" );
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static_assert( std::is_default_constructible<O>(), "" );
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{ O o; }
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static_assert( !std::is_copy_constructible<O>(), "" );
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static_assert( !std::is_copy_assignable<O>(), "" );
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static_assert( !std::is_move_constructible<O>(), "" );
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static_assert( !std::is_move_assignable<O>(), "" );
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}
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{
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/*
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* Should not complain about 'invalid' specializations as long as
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* they're not instantiated.
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*/
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using A = std::experimental::optional<int&>;
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using B = std::experimental::optional<int&&>;
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using C1 = std::experimental::optional<std::experimental::in_place_t>;
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using C2 = std::experimental::optional<std::experimental::in_place_t const>;
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using C3 = std::experimental::optional<std::experimental::in_place_t volatile>;
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using C4 = std::experimental::optional<std::experimental::in_place_t const volatile>;
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using D1 = std::experimental::optional<std::experimental::nullopt_t>;
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using D2 = std::experimental::optional<std::experimental::nullopt_t const>;
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using D3 = std::experimental::optional<std::experimental::nullopt_t volatile>;
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using D4 = std::experimental::optional<std::experimental::nullopt_t const volatile>;
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using X = std::tuple<A, B, C1, C2, C3, C4, D1, D2, D3, D4>;
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}
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{
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std::experimental::optional<const int> o { 42 };
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static_assert( std::is_same<decltype(o)::value_type, const int>(), "" );
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VERIFY( o );
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VERIFY( *o == 42 );
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}
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{
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constexpr std::experimental::optional<const int> o { 33 };
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static_assert( std::is_same<decltype(o)::value_type, const int>(), "" );
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static_assert( o, "" );
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static_assert( *o == 33, "" );
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}
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}
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