lmh188
/
twain3.0
mirror of http://192.168.1.51:8099/lmh188/twain3.0
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity
twain3.0/3rdparty/boost_1_73_0/boost/variant2/variant.hpp

2049 lines
61 KiB
C++
Raw Blame History

#ifndef BOOST_VARIANT2_VARIANT_HPP_INCLUDED
#define BOOST_VARIANT2_VARIANT_HPP_INCLUDED
// Copyright 2017-2019 Peter Dimov.
//
// Distributed under the Boost Software License, Version 1.0.
//
// See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt
#if defined(_MSC_VER) && _MSC_VER < 1910
# pragma warning( push )
# pragma warning( disable: 4521 4522 ) // multiple copy operators
#endif
#ifndef BOOST_MP11_HPP_INCLUDED
#include <boost/mp11.hpp>
#endif
#include <boost/config.hpp>
#include <boost/detail/workaround.hpp>
#include <boost/cstdint.hpp>
#include <cstddef>
#include <type_traits>
#include <exception>
#include <cassert>
#include <initializer_list>
#include <utility>
#include <functional> // std::hash
//
namespace boost
{
#ifdef BOOST_NO_EXCEPTIONS
BOOST_NORETURN void throw_exception( std::exception const & e ); // user defined
#endif
namespace variant2
{
// bad_variant_access
class bad_variant_access: public std::exception
{
public:
bad_variant_access() noexcept
{
}
char const * what() const noexcept
{
return "bad_variant_access";
}
};
namespace detail
{
BOOST_NORETURN inline void throw_bad_variant_access()
{
#ifdef BOOST_NO_EXCEPTIONS
boost::throw_exception( bad_variant_access() );
#else
throw bad_variant_access();
#endif
}
} // namespace detail
// monostate
struct monostate
{
};
constexpr bool operator<(monostate, monostate) noexcept { return false; }
constexpr bool operator>(monostate, monostate) noexcept { return false; }
constexpr bool operator<=(monostate, monostate) noexcept { return true; }
constexpr bool operator>=(monostate, monostate) noexcept { return true; }
constexpr bool operator==(monostate, monostate) noexcept { return true; }
constexpr bool operator!=(monostate, monostate) noexcept { return false; }
// variant forward declaration
template<class... T> class variant;
// variant_size
template<class T> struct variant_size
{
};
template<class T> struct variant_size<T const>: variant_size<T>
{
};
template<class T> struct variant_size<T volatile>: variant_size<T>
{
};
template<class T> struct variant_size<T const volatile>: variant_size<T>
{
};
template<class T> struct variant_size<T&>: variant_size<T>
{
};
template<class T> struct variant_size<T&&>: variant_size<T>
{
};
#if !defined(BOOST_NO_CXX14_VARIABLE_TEMPLATES)
template <class T> /*inline*/ constexpr std::size_t variant_size_v = variant_size<T>::value;
#endif
template <class... T> struct variant_size<variant<T...>>: mp11::mp_size<variant<T...>>
{
};
// variant_alternative
template<std::size_t I, class T> struct variant_alternative;
template<std::size_t I, class T> using variant_alternative_t = typename variant_alternative<I, T>::type;
#if BOOST_WORKAROUND(BOOST_GCC, < 40900)
namespace detail
{
template<std::size_t I, class T, bool E> struct variant_alternative_impl
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...>, true>
{
using type = mp11::mp_at_c<variant<T...>, I>;
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> const, true>: std::add_const< mp11::mp_at_c<variant<T...>, I> >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> volatile, true>: std::add_volatile< mp11::mp_at_c<variant<T...>, I> >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> const volatile, true>: std::add_cv< mp11::mp_at_c<variant<T...>, I> >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...>&, true>: std::add_lvalue_reference< mp11::mp_at_c<variant<T...>, I> >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> const&, true>: std::add_lvalue_reference< mp11::mp_at_c<variant<T...>, I> const >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> volatile&, true>: std::add_lvalue_reference< mp11::mp_at_c<variant<T...>, I> volatile >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> const volatile&, true>: std::add_lvalue_reference< mp11::mp_at_c<variant<T...>, I> const volatile >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...>&&, true>: std::add_rvalue_reference< mp11::mp_at_c<variant<T...>, I> >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> const&&, true>: std::add_rvalue_reference< mp11::mp_at_c<variant<T...>, I> const >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> volatile&&, true>: std::add_rvalue_reference< mp11::mp_at_c<variant<T...>, I> volatile >
{
};
template<std::size_t I, class... T> struct variant_alternative_impl<I, variant<T...> const volatile&&, true>: std::add_rvalue_reference< mp11::mp_at_c<variant<T...>, I> const volatile >
{
};
} // namespace detail
template<std::size_t I, class T> struct variant_alternative
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...>>: public detail::variant_alternative_impl<I, variant<T...>, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> const>: public detail::variant_alternative_impl<I, variant<T...> const, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> volatile>: public detail::variant_alternative_impl<I, variant<T...> volatile, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> const volatile>: public detail::variant_alternative_impl<I, variant<T...> const volatile, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...>&>: public detail::variant_alternative_impl<I, variant<T...>&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> const&>: public detail::variant_alternative_impl<I, variant<T...> const&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> volatile&>: public detail::variant_alternative_impl<I, variant<T...> volatile&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> const volatile&>: public detail::variant_alternative_impl<I, variant<T...> const volatile&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...>&&>: public detail::variant_alternative_impl<I, variant<T...>&&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> const&&>: public detail::variant_alternative_impl<I, variant<T...> const&&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> volatile&&>: public detail::variant_alternative_impl<I, variant<T...> volatile&&, (I < sizeof...(T))>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...> const volatile&&>: public detail::variant_alternative_impl<I, variant<T...> const volatile&&, (I < sizeof...(T))>
{
};
#else
namespace detail
{
#if defined( BOOST_MP11_VERSION ) && BOOST_MP11_VERSION >= 107000
template<class I, class T, class Q> using var_alt_impl = mp11::mp_invoke_q<Q, variant_alternative_t<I::value, T>>;
#else
template<class I, class T, class Q> using var_alt_impl = mp11::mp_invoke<Q, variant_alternative_t<I::value, T>>;
#endif
} // namespace detail
template<std::size_t I, class T> struct variant_alternative
{
};
template<std::size_t I, class T> struct variant_alternative<I, T const>: mp11::mp_defer<detail::var_alt_impl, mp11::mp_size_t<I>, T, mp11::mp_quote_trait<std::add_const>>
{
};
template<std::size_t I, class T> struct variant_alternative<I, T volatile>: mp11::mp_defer<detail::var_alt_impl, mp11::mp_size_t<I>, T, mp11::mp_quote_trait<std::add_volatile>>
{
};
template<std::size_t I, class T> struct variant_alternative<I, T const volatile>: mp11::mp_defer<detail::var_alt_impl, mp11::mp_size_t<I>, T, mp11::mp_quote_trait<std::add_cv>>
{
};
template<std::size_t I, class T> struct variant_alternative<I, T&>: mp11::mp_defer<detail::var_alt_impl, mp11::mp_size_t<I>, T, mp11::mp_quote_trait<std::add_lvalue_reference>>
{
};
template<std::size_t I, class T> struct variant_alternative<I, T&&>: mp11::mp_defer<detail::var_alt_impl, mp11::mp_size_t<I>, T, mp11::mp_quote_trait<std::add_rvalue_reference>>
{
};
template<std::size_t I, class... T> struct variant_alternative<I, variant<T...>>: mp11::mp_defer<mp11::mp_at, variant<T...>, mp11::mp_size_t<I>>
{
};
#endif
// variant_npos
constexpr std::size_t variant_npos = ~static_cast<std::size_t>( 0 );
// holds_alternative
template<class U, class... T> constexpr bool holds_alternative( variant<T...> const& v ) noexcept
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
return v.index() == mp11::mp_find<variant<T...>, U>::value;
}
// get (index)
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>>& get(variant<T...>& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return ( v.index() != I? detail::throw_bad_variant_access(): (void)0 ), v._get_impl( mp11::mp_size_t<I>() );
}
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>>&& get(variant<T...>&& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
#if !BOOST_WORKAROUND(BOOST_MSVC, < 1930)
return ( v.index() != I? detail::throw_bad_variant_access(): (void)0 ), std::move( v._get_impl( mp11::mp_size_t<I>() ) );
#else
if( v.index() != I ) detail::throw_bad_variant_access();
return std::move( v._get_impl( mp11::mp_size_t<I>() ) );
#endif
}
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>> const& get(variant<T...> const& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return ( v.index() != I? detail::throw_bad_variant_access(): (void)0 ), v._get_impl( mp11::mp_size_t<I>() );
}
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>> const&& get(variant<T...> const&& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
#if !BOOST_WORKAROUND(BOOST_MSVC, < 1930)
return ( v.index() != I? detail::throw_bad_variant_access(): (void)0 ), std::move( v._get_impl( mp11::mp_size_t<I>() ) );
#else
if( v.index() != I ) detail::throw_bad_variant_access();
return std::move( v._get_impl( mp11::mp_size_t<I>() ) );
#endif
}
// detail::unsafe_get (for visit)
namespace detail
{
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>>& unsafe_get(variant<T...>& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return v._get_impl( mp11::mp_size_t<I>() );
}
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>>&& unsafe_get(variant<T...>&& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return std::move( v._get_impl( mp11::mp_size_t<I>() ) );
}
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>> const& unsafe_get(variant<T...> const& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return v._get_impl( mp11::mp_size_t<I>() );
}
template<std::size_t I, class... T> constexpr variant_alternative_t<I, variant<T...>> const&& unsafe_get(variant<T...> const&& v)
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return std::move( v._get_impl( mp11::mp_size_t<I>() ) );
}
} // namespace detail
// get (type)
template<class U, class... T> constexpr U& get(variant<T...>& v)
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
using I = mp11::mp_find<variant<T...>, U>;
return ( v.index() != I::value? detail::throw_bad_variant_access(): (void)0 ), v._get_impl( I() );
}
template<class U, class... T> constexpr U&& get(variant<T...>&& v)
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
using I = mp11::mp_find<variant<T...>, U>;
#if !BOOST_WORKAROUND(BOOST_MSVC, < 1930)
return ( v.index() != I::value? detail::throw_bad_variant_access(): (void)0 ), std::move( v._get_impl( I() ) );
#else
if( v.index() != I::value ) detail::throw_bad_variant_access();
return std::move( v._get_impl( I() ) );
#endif
}
template<class U, class... T> constexpr U const& get(variant<T...> const& v)
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
using I = mp11::mp_find<variant<T...>, U>;
return ( v.index() != I::value? detail::throw_bad_variant_access(): (void)0 ), v._get_impl( I() );
}
template<class U, class... T> constexpr U const&& get(variant<T...> const&& v)
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
using I = mp11::mp_find<variant<T...>, U>;
#if !BOOST_WORKAROUND(BOOST_MSVC, < 1930)
return ( v.index() != I::value? detail::throw_bad_variant_access(): (void)0 ), std::move( v._get_impl( I() ) );
#else
if( v.index() != I::value ) detail::throw_bad_variant_access();
return std::move( v._get_impl( I() ) );
#endif
}
// get_if
template<std::size_t I, class... T> constexpr typename std::add_pointer<variant_alternative_t<I, variant<T...>>>::type get_if(variant<T...>* v) noexcept
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return v && v->index() == I? &v->_get_impl( mp11::mp_size_t<I>() ): 0;
}
template<std::size_t I, class... T> constexpr typename std::add_pointer<const variant_alternative_t<I, variant<T...>>>::type get_if(variant<T...> const * v) noexcept
{
static_assert( I < sizeof...(T), "Index out of bounds" );
return v && v->index() == I? &v->_get_impl( mp11::mp_size_t<I>() ): 0;
}
template<class U, class... T> constexpr typename std::add_pointer<U>::type get_if(variant<T...>* v) noexcept
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
using I = mp11::mp_find<variant<T...>, U>;
return v && v->index() == I::value? &v->_get_impl( I() ): 0;
}
template<class U, class... T> constexpr typename std::add_pointer<U const>::type get_if(variant<T...> const * v) noexcept
{
static_assert( mp11::mp_count<variant<T...>, U>::value == 1, "The type must occur exactly once in the list of variant alternatives" );
using I = mp11::mp_find<variant<T...>, U>;
return v && v->index() == I::value? &v->_get_impl( I() ): 0;
}
//
namespace detail
{
// trivially_*
#if defined( BOOST_LIBSTDCXX_VERSION ) && BOOST_LIBSTDCXX_VERSION < 50000
template<class T> struct is_trivially_copy_constructible: mp11::mp_bool<std::is_copy_constructible<T>::value && std::has_trivial_copy_constructor<T>::value>
{
};
template<class T> struct is_trivially_copy_assignable: mp11::mp_bool<std::is_copy_assignable<T>::value && std::has_trivial_copy_assign<T>::value>
{
};
template<class T> struct is_trivially_move_constructible: mp11::mp_bool<std::is_move_constructible<T>::value && std::is_trivial<T>::value>
{
};
template<class T> struct is_trivially_move_assignable: mp11::mp_bool<std::is_move_assignable<T>::value && std::is_trivial<T>::value>
{
};
#else
using std::is_trivially_copy_constructible;
using std::is_trivially_copy_assignable;
using std::is_trivially_move_constructible;
using std::is_trivially_move_assignable;
#endif
// variant_storage
template<class D, class... T> union variant_storage_impl;
template<class... T> using variant_storage = variant_storage_impl<mp11::mp_all<std::is_trivially_destructible<T>...>, T...>;
template<class D> union variant_storage_impl<D>
{
};
// not all trivially destructible
template<class T1, class... T> union variant_storage_impl<mp11::mp_false, T1, T...>
{
T1 first_;
variant_storage<T...> rest_;
template<class... A> constexpr explicit variant_storage_impl( mp11::mp_size_t<0>, A&&... a ): first_( std::forward<A>(a)... )
{
}
template<std::size_t I, class... A> constexpr explicit variant_storage_impl( mp11::mp_size_t<I>, A&&... a ): rest_( mp11::mp_size_t<I-1>(), std::forward<A>(a)... )
{
}
~variant_storage_impl()
{
}
template<class... A> void emplace( mp11::mp_size_t<0>, A&&... a )
{
::new( &first_ ) T1( std::forward<A>(a)... );
}
template<std::size_t I, class... A> void emplace( mp11::mp_size_t<I>, A&&... a )
{
rest_.emplace( mp11::mp_size_t<I-1>(), std::forward<A>(a)... );
}
BOOST_CXX14_CONSTEXPR T1& get( mp11::mp_size_t<0> ) noexcept { return first_; }
constexpr T1 const& get( mp11::mp_size_t<0> ) const noexcept { return first_; }
template<std::size_t I> BOOST_CXX14_CONSTEXPR mp11::mp_at_c<mp11::mp_list<T...>, I-1>& get( mp11::mp_size_t<I> ) noexcept { return rest_.get( mp11::mp_size_t<I-1>() ); }
template<std::size_t I> constexpr mp11::mp_at_c<mp11::mp_list<T...>, I-1> const& get( mp11::mp_size_t<I> ) const noexcept { return rest_.get( mp11::mp_size_t<I-1>() ); }
};
// all trivially destructible
template<class T1, class... T> union variant_storage_impl<mp11::mp_true, T1, T...>
{
T1 first_;
variant_storage<T...> rest_;
template<class... A> constexpr explicit variant_storage_impl( mp11::mp_size_t<0>, A&&... a ): first_( std::forward<A>(a)... )
{
}
template<std::size_t I, class... A> constexpr explicit variant_storage_impl( mp11::mp_size_t<I>, A&&... a ): rest_( mp11::mp_size_t<I-1>(), std::forward<A>(a)... )
{
}
template<class... A> void emplace_impl( mp11::mp_false, mp11::mp_size_t<0>, A&&... a )
{
::new( &first_ ) T1( std::forward<A>(a)... );
}
template<std::size_t I, class... A> BOOST_CXX14_CONSTEXPR void emplace_impl( mp11::mp_false, mp11::mp_size_t<I>, A&&... a )
{
rest_.emplace( mp11::mp_size_t<I-1>(), std::forward<A>(a)... );
}
template<std::size_t I, class... A> BOOST_CXX14_CONSTEXPR void emplace_impl( mp11::mp_true, mp11::mp_size_t<I>, A&&... a )
{
*this = variant_storage_impl( mp11::mp_size_t<I>(), std::forward<A>(a)... );
}
template<std::size_t I, class... A> BOOST_CXX14_CONSTEXPR void emplace( mp11::mp_size_t<I>, A&&... a )
{
this->emplace_impl( mp11::mp_all<detail::is_trivially_move_assignable<T1>, detail::is_trivially_move_assignable<T>...>(), mp11::mp_size_t<I>(), std::forward<A>(a)... );
}
BOOST_CXX14_CONSTEXPR T1& get( mp11::mp_size_t<0> ) noexcept { return first_; }
constexpr T1 const& get( mp11::mp_size_t<0> ) const noexcept { return first_; }
template<std::size_t I> BOOST_CXX14_CONSTEXPR mp11::mp_at_c<mp11::mp_list<T...>, I-1>& get( mp11::mp_size_t<I> ) noexcept { return rest_.get( mp11::mp_size_t<I-1>() ); }
template<std::size_t I> constexpr mp11::mp_at_c<mp11::mp_list<T...>, I-1> const& get( mp11::mp_size_t<I> ) const noexcept { return rest_.get( mp11::mp_size_t<I-1>() ); }
};
// resolve_overload_*
template<class... T> struct overload;
template<> struct overload<>
{
void operator()() const;
};
template<class T1, class... T> struct overload<T1, T...>: overload<T...>
{
using overload<T...>::operator();
mp11::mp_identity<T1> operator()(T1) const;
};
#if BOOST_WORKAROUND( BOOST_MSVC, < 1930 )
template<class U, class... T> using resolve_overload_type_ = decltype( overload<T...>()(std::declval<U>()) );
template<class U, class... T> struct resolve_overload_type_impl: mp11::mp_defer< resolve_overload_type_, U, T... >
{
};
template<class U, class... T> using resolve_overload_type = typename resolve_overload_type_impl<U, T...>::type::type;
#else
template<class U, class... T> using resolve_overload_type = typename decltype( overload<T...>()(std::declval<U>()) )::type;
#endif
template<class U, class... T> using resolve_overload_index = mp11::mp_find<mp11::mp_list<T...>, resolve_overload_type<U, T...>>;
// variant_base
template<bool is_trivially_destructible, bool is_single_buffered, class... T> struct variant_base_impl;
template<class... T> using variant_base = variant_base_impl<mp11::mp_all<std::is_trivially_destructible<T>...>::value, mp11::mp_all<std::is_nothrow_move_constructible<T>...>::value, T...>;
struct none {};
// trivially destructible, single buffered
template<class... T> struct variant_base_impl<true, true, T...>
{
int ix_;
variant_storage<none, T...> st1_;
constexpr variant_base_impl(): ix_( 0 ), st1_( mp11::mp_size_t<0>() )
{
}
template<class I, class... A> constexpr explicit variant_base_impl( I, A&&... a ): ix_( I::value + 1 ), st1_( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... )
{
}
// requires: ix_ == 0
template<class I, class... A> void _replace( I, A&&... a )
{
::new( &st1_ ) variant_storage<none, T...>( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... );
ix_ = I::value + 1;
}
constexpr std::size_t index() const noexcept
{
return ix_ - 1;
}
template<std::size_t I> BOOST_CXX14_CONSTEXPR mp11::mp_at_c<variant<T...>, I>& _get_impl( mp11::mp_size_t<I> ) noexcept
{
size_t const J = I+1;
assert( ix_ == J );
return st1_.get( mp11::mp_size_t<J>() );
}
template<std::size_t I> constexpr mp11::mp_at_c<variant<T...>, I> const& _get_impl( mp11::mp_size_t<I> ) const noexcept
{
// size_t const J = I+1;
// assert( ix_ == I+1 );
return st1_.get( mp11::mp_size_t<I+1>() );
}
template<std::size_t J, class U, class... A> BOOST_CXX14_CONSTEXPR void emplace_impl( mp11::mp_true, A&&... a )
{
static_assert( std::is_nothrow_constructible<U, A&&...>::value, "Logic error: U must be nothrow constructible from A&&..." );
st1_.emplace( mp11::mp_size_t<J>(), std::forward<A>(a)... );
ix_ = J;
}
template<std::size_t J, class U, class... A> BOOST_CXX14_CONSTEXPR void emplace_impl( mp11::mp_false, A&&... a )
{
static_assert( std::is_nothrow_move_constructible<U>::value, "Logic error: U must be nothrow move constructible" );
U tmp( std::forward<A>(a)... );
st1_.emplace( mp11::mp_size_t<J>(), std::move(tmp) );
ix_ = J;
}
template<std::size_t I, class... A> BOOST_CXX14_CONSTEXPR void emplace( A&&... a )
{
std::size_t const J = I+1;
using U = mp11::mp_at_c<variant<T...>, I>;
this->emplace_impl<J, U>( std::is_nothrow_constructible<U, A&&...>(), std::forward<A>(a)... );
}
};
// trivially destructible, double buffered
template<class... T> struct variant_base_impl<true, false, T...>
{
int ix_;
variant_storage<none, T...> st1_;
variant_storage<none, T...> st2_;
constexpr variant_base_impl(): ix_( 0 ), st1_( mp11::mp_size_t<0>() ), st2_( mp11::mp_size_t<0>() )
{
}
template<class I, class... A> constexpr explicit variant_base_impl( I, A&&... a ): ix_( I::value + 1 ), st1_( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... ), st2_( mp11::mp_size_t<0>() )
{
}
// requires: ix_ == 0
template<class I, class... A> void _replace( I, A&&... a )
{
::new( &st1_ ) variant_storage<none, T...>( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... );
ix_ = I::value + 1;
}
constexpr std::size_t index() const noexcept
{
return ix_ >= 0? ix_ - 1: -ix_ - 1;
}
template<std::size_t I> BOOST_CXX14_CONSTEXPR mp11::mp_at_c<variant<T...>, I>& _get_impl( mp11::mp_size_t<I> ) noexcept
{
size_t const J = I+1;
assert( ix_ == J || -ix_ == J );
constexpr mp11::mp_size_t<J> j{};
return ix_ >= 0? st1_.get( j ): st2_.get( j );
}
template<std::size_t I> constexpr mp11::mp_at_c<variant<T...>, I> const& _get_impl( mp11::mp_size_t<I> ) const noexcept
{
// size_t const J = I+1;
// assert( ix_ == J || -ix_ == J );
// constexpr mp_size_t<J> j{};
return ix_ >= 0? st1_.get( mp11::mp_size_t<I+1>() ): st2_.get( mp11::mp_size_t<I+1>() );
}
template<std::size_t I, class... A> BOOST_CXX14_CONSTEXPR void emplace( A&&... a )
{
size_t const J = I+1;
if( ix_ >= 0 )
{
st2_.emplace( mp11::mp_size_t<J>(), std::forward<A>(a)... );
ix_ = -static_cast<int>( J );
}
else
{
st1_.emplace( mp11::mp_size_t<J>(), std::forward<A>(a)... );
ix_ = J;
}
}
};
// not trivially destructible, single buffered
template<class... T> struct variant_base_impl<false, true, T...>
{
int ix_;
variant_storage<none, T...> st1_;
constexpr variant_base_impl(): ix_( 0 ), st1_( mp11::mp_size_t<0>() )
{
}
template<class I, class... A> constexpr explicit variant_base_impl( I, A&&... a ): ix_( I::value + 1 ), st1_( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... )
{
}
// requires: ix_ == 0
template<class I, class... A> void _replace( I, A&&... a )
{
::new( &st1_ ) variant_storage<none, T...>( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... );
ix_ = I::value + 1;
}
//[&]( auto I ){
// using U = mp_at_c<mp_list<none, T...>, I>;
// st1_.get( I ).~U();
//}
struct _destroy_L1
{
variant_base_impl * this_;
template<class I> void operator()( I ) const noexcept
{
using U = mp11::mp_at<mp11::mp_list<none, T...>, I>;
this_->st1_.get( I() ).~U();
}
};
void _destroy() noexcept
{
if( ix_ > 0 )
{
mp11::mp_with_index<1 + sizeof...(T)>( ix_, _destroy_L1{ this } );
}
}
~variant_base_impl() noexcept
{
_destroy();
}
constexpr std::size_t index() const noexcept
{
return ix_ - 1;
}
template<std::size_t I> BOOST_CXX14_CONSTEXPR mp11::mp_at_c<variant<T...>, I>& _get_impl( mp11::mp_size_t<I> ) noexcept
{
size_t const J = I+1;
assert( ix_ == J );
return st1_.get( mp11::mp_size_t<J>() );
}
template<std::size_t I> constexpr mp11::mp_at_c<variant<T...>, I> const& _get_impl( mp11::mp_size_t<I> ) const noexcept
{
// size_t const J = I+1;
// assert( ix_ == J );
return st1_.get( mp11::mp_size_t<I+1>() );
}
template<std::size_t I, class... A> void emplace( A&&... a )
{
size_t const J = I+1;
using U = mp11::mp_at_c<variant<T...>, I>;
static_assert( std::is_nothrow_move_constructible<U>::value, "Logic error: U must be nothrow move constructible" );
U tmp( std::forward<A>(a)... );
_destroy();
st1_.emplace( mp11::mp_size_t<J>(), std::move(tmp) );
ix_ = J;
}
};
// not trivially destructible, double buffered
template<class... T> struct variant_base_impl<false, false, T...>
{
int ix_;
variant_storage<none, T...> st1_;
variant_storage<none, T...> st2_;
constexpr variant_base_impl(): ix_( 0 ), st1_( mp11::mp_size_t<0>() ), st2_( mp11::mp_size_t<0>() )
{
}
template<class I, class... A> constexpr explicit variant_base_impl( I, A&&... a ): ix_( I::value + 1 ), st1_( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... ), st2_( mp11::mp_size_t<0>() )
{
}
// requires: ix_ == 0
template<class I, class... A> void _replace( I, A&&... a )
{
::new( &st1_ ) variant_storage<none, T...>( mp11::mp_size_t<I::value + 1>(), std::forward<A>(a)... );
ix_ = I::value + 1;
}
//[&]( auto I ){
// using U = mp_at_c<mp_list<none, T...>, I>;
// st1_.get( I ).~U();
//}
struct _destroy_L1
{
variant_base_impl * this_;
template<class I> void operator()( I ) const noexcept
{
using U = mp11::mp_at<mp11::mp_list<none, T...>, I>;
this_->st1_.get( I() ).~U();
}
};
struct _destroy_L2
{
variant_base_impl * this_;
template<class I> void operator()( I ) const noexcept
{
using U = mp11::mp_at<mp11::mp_list<none, T...>, I>;
this_->st2_.get( I() ).~U();
}
};
void _destroy() noexcept
{
if( ix_ > 0 )
{
mp11::mp_with_index<1 + sizeof...(T)>( ix_, _destroy_L1{ this } );
}
else if( ix_ < 0 )
{
mp11::mp_with_index<1 + sizeof...(T)>( -ix_, _destroy_L2{ this } );
}
}
~variant_base_impl() noexcept
{
_destroy();
}
constexpr std::size_t index() const noexcept
{
return ix_ >= 0? ix_ - 1: -ix_ - 1;
}
template<std::size_t I> BOOST_CXX14_CONSTEXPR mp11::mp_at_c<variant<T...>, I>& _get_impl( mp11::mp_size_t<I> ) noexcept
{
size_t const J = I+1;
assert( ix_ == J || -ix_ == J );
constexpr mp11::mp_size_t<J> j{};
return ix_ >= 0? st1_.get( j ): st2_.get( j );
}
template<std::size_t I> constexpr mp11::mp_at_c<variant<T...>, I> const& _get_impl( mp11::mp_size_t<I> ) const noexcept
{
// size_t const J = I+1;
// assert( ix_ == J || -ix_ == J );
// constexpr mp_size_t<J> j{};
return ix_ >= 0? st1_.get( mp11::mp_size_t<I+1>() ): st2_.get( mp11::mp_size_t<I+1>() );
}
template<std::size_t I, class... A> void emplace( A&&... a )
{
size_t const J = I+1;
if( ix_ >= 0 )
{
st2_.emplace( mp11::mp_size_t<J>(), std::forward<A>(a)... );
_destroy();
ix_ = -static_cast<int>( J );
}
else
{
st1_.emplace( mp11::mp_size_t<J>(), std::forward<A>(a)... );
_destroy();
ix_ = J;
}
}
};
} // namespace detail
// in_place_type_t
template<class T> struct in_place_type_t
{
};
#if !defined(BOOST_NO_CXX14_VARIABLE_TEMPLATES)
template<class T> constexpr in_place_type_t<T> in_place_type{};
#endif
namespace detail
{
template<class T> struct is_in_place_type: std::false_type {};
template<class T> struct is_in_place_type<in_place_type_t<T>>: std::true_type {};
} // namespace detail
// in_place_index_t
template<std::size_t I> struct in_place_index_t
{
};
#if !defined(BOOST_NO_CXX14_VARIABLE_TEMPLATES)
template<std::size_t I> constexpr in_place_index_t<I> in_place_index{};
#endif
namespace detail
{
template<class T> struct is_in_place_index: std::false_type {};
template<std::size_t I> struct is_in_place_index<in_place_index_t<I>>: std::true_type {};
} // namespace detail
// is_nothrow_swappable
namespace detail
{
namespace det2
{
using std::swap;
template<class T> using is_swappable_impl = decltype(swap(std::declval<T&>(), std::declval<T&>()));
#if BOOST_WORKAROUND( BOOST_MSVC, < 1920 )
template<class T> struct is_nothrow_swappable_impl_
{
static constexpr bool value = noexcept(swap(std::declval<T&>(), std::declval<T&>()));
};
template<class T> using is_nothrow_swappable_impl = mp11::mp_bool< is_nothrow_swappable_impl_<T>::value >;
#else
template<class T> using is_nothrow_swappable_impl = typename std::enable_if<noexcept(swap(std::declval<T&>(), std::declval<T&>()))>::type;
#endif
} // namespace det2
template<class T> struct is_swappable: mp11::mp_valid<det2::is_swappable_impl, T>
{
};
#if BOOST_WORKAROUND( BOOST_MSVC, < 1920 )
template<class T> struct is_nothrow_swappable: mp11::mp_eval_if<mp11::mp_not<is_swappable<T>>, mp11::mp_false, det2::is_nothrow_swappable_impl, T>
{
};
#else
template<class T> struct is_nothrow_swappable: mp11::mp_valid<det2::is_nothrow_swappable_impl, T>
{
};
#endif
// variant_cc_base
template<bool CopyConstructible, bool TriviallyCopyConstructible, class... T> struct variant_cc_base_impl;
template<class... T> using variant_cc_base = variant_cc_base_impl<
mp11::mp_all<std::is_copy_constructible<T>...>::value,
mp11::mp_all<detail::is_trivially_copy_constructible<T>...>::value,
T...>;
template<class... T> struct variant_cc_base_impl<true, true, T...>: public variant_base<T...>
{
using variant_base = detail::variant_base<T...>;
using variant_base::variant_base;
variant_cc_base_impl() = default;
variant_cc_base_impl( variant_cc_base_impl const& ) = default;
variant_cc_base_impl( variant_cc_base_impl && ) = default;
variant_cc_base_impl& operator=( variant_cc_base_impl const& ) = default;
variant_cc_base_impl& operator=( variant_cc_base_impl && ) = default;
};
template<bool B, class... T> struct variant_cc_base_impl<false, B, T...>: public variant_base<T...>
{
using variant_base = detail::variant_base<T...>;
using variant_base::variant_base;
variant_cc_base_impl() = default;
variant_cc_base_impl( variant_cc_base_impl const& ) = delete;
variant_cc_base_impl( variant_cc_base_impl && ) = default;
variant_cc_base_impl& operator=( variant_cc_base_impl const& ) = default;
variant_cc_base_impl& operator=( variant_cc_base_impl && ) = default;
};
template<class... T> struct variant_cc_base_impl<true, false, T...>: public variant_base<T...>
{
using variant_base = detail::variant_base<T...>;
using variant_base::variant_base;
public:
// constructors
variant_cc_base_impl() = default;
// copy constructor
private:
struct L1
{
variant_base * this_;
variant_base const & r;
template<class I> void operator()( I i ) const
{
this_->_replace( i, r._get_impl( i ) );
}
};
public:
variant_cc_base_impl( variant_cc_base_impl const& r )
noexcept( mp11::mp_all<std::is_nothrow_copy_constructible<T>...>::value )
: variant_base()
{
mp11::mp_with_index<sizeof...(T)>( r.index(), L1{ this, r } );
}
// move constructor
variant_cc_base_impl( variant_cc_base_impl && ) = default;
// assignment
variant_cc_base_impl& operator=( variant_cc_base_impl const & ) = default;
variant_cc_base_impl& operator=( variant_cc_base_impl && ) = default;
};
// variant_ca_base
template<bool CopyAssignable, bool TriviallyCopyAssignable, class... T> struct variant_ca_base_impl;
template<class... T> using variant_ca_base = variant_ca_base_impl<
mp11::mp_all<std::is_copy_constructible<T>..., std::is_copy_assignable<T>...>::value,
mp11::mp_all<std::is_trivially_destructible<T>..., detail::is_trivially_copy_constructible<T>..., detail::is_trivially_copy_assignable<T>...>::value,
T...>;
template<class... T> struct variant_ca_base_impl<true, true, T...>: public variant_cc_base<T...>
{
using variant_base = detail::variant_cc_base<T...>;
using variant_base::variant_base;
variant_ca_base_impl() = default;
variant_ca_base_impl( variant_ca_base_impl const& ) = default;
variant_ca_base_impl( variant_ca_base_impl && ) = default;
variant_ca_base_impl& operator=( variant_ca_base_impl const& ) = default;
variant_ca_base_impl& operator=( variant_ca_base_impl && ) = default;
};
template<bool B, class... T> struct variant_ca_base_impl<false, B, T...>: public variant_cc_base<T...>
{
using variant_base = detail::variant_cc_base<T...>;
using variant_base::variant_base;
variant_ca_base_impl() = default;
variant_ca_base_impl( variant_ca_base_impl const& ) = default;
variant_ca_base_impl( variant_ca_base_impl && ) = default;
variant_ca_base_impl& operator=( variant_ca_base_impl const& ) = delete;
variant_ca_base_impl& operator=( variant_ca_base_impl && ) = default;
};
template<class... T> struct variant_ca_base_impl<true, false, T...>: public variant_cc_base<T...>
{
using variant_base = detail::variant_cc_base<T...>;
using variant_base::variant_base;
public:
// constructors
variant_ca_base_impl() = default;
variant_ca_base_impl( variant_ca_base_impl const& ) = default;
variant_ca_base_impl( variant_ca_base_impl && ) = default;
// copy assignment
private:
struct L3
{
variant_base * this_;
variant_base const & r;
template<class I> void operator()( I i ) const
{
this_->template emplace<I::value>( r._get_impl( i ) );
}
};
public:
BOOST_CXX14_CONSTEXPR variant_ca_base_impl& operator=( variant_ca_base_impl const & r )
noexcept( mp11::mp_all<std::is_nothrow_copy_constructible<T>...>::value )
{
mp11::mp_with_index<sizeof...(T)>( r.index(), L3{ this, r } );
return *this;
}
// move assignment
variant_ca_base_impl& operator=( variant_ca_base_impl && ) = default;
};
// variant_mc_base
template<bool MoveConstructible, bool TriviallyMoveConstructible, class... T> struct variant_mc_base_impl;
template<class... T> using variant_mc_base = variant_mc_base_impl<
mp11::mp_all<std::is_move_constructible<T>...>::value,
mp11::mp_all<detail::is_trivially_move_constructible<T>...>::value,
T...>;
template<class... T> struct variant_mc_base_impl<true, true, T...>: public variant_ca_base<T...>
{
using variant_base = detail::variant_ca_base<T...>;
using variant_base::variant_base;
variant_mc_base_impl() = default;
variant_mc_base_impl( variant_mc_base_impl const& ) = default;
variant_mc_base_impl( variant_mc_base_impl && ) = default;
variant_mc_base_impl& operator=( variant_mc_base_impl const& ) = default;
variant_mc_base_impl& operator=( variant_mc_base_impl && ) = default;
};
template<bool B, class... T> struct variant_mc_base_impl<false, B, T...>: public variant_ca_base<T...>
{
using variant_base = detail::variant_ca_base<T...>;
using variant_base::variant_base;
variant_mc_base_impl() = default;
variant_mc_base_impl( variant_mc_base_impl const& ) = default;
variant_mc_base_impl( variant_mc_base_impl && ) = delete;
variant_mc_base_impl& operator=( variant_mc_base_impl const& ) = default;
variant_mc_base_impl& operator=( variant_mc_base_impl && ) = default;
};
template<class... T> struct variant_mc_base_impl<true, false, T...>: public variant_ca_base<T...>
{
using variant_base = detail::variant_ca_base<T...>;
using variant_base::variant_base;
public:
// constructors
variant_mc_base_impl() = default;
variant_mc_base_impl( variant_mc_base_impl const& ) = default;
// move constructor
private:
struct L2
{
variant_base * this_;
variant_base & r;
template<class I> void operator()( I i ) const
{
this_->_replace( i, std::move( r._get_impl( i ) ) );
}
};
public:
variant_mc_base_impl( variant_mc_base_impl && r )
noexcept( mp11::mp_all<std::is_nothrow_move_constructible<T>...>::value )
{
mp11::mp_with_index<sizeof...(T)>( r.index(), L2{ this, r } );
}
// assignment
variant_mc_base_impl& operator=( variant_mc_base_impl const & ) = default;
variant_mc_base_impl& operator=( variant_mc_base_impl && ) = default;
};
// variant_ma_base
template<bool MoveAssignable, bool TriviallyMoveAssignable, class... T> struct variant_ma_base_impl;
template<class... T> using variant_ma_base = variant_ma_base_impl<
mp11::mp_all<std::is_move_constructible<T>..., std::is_move_assignable<T>...>::value,
mp11::mp_all<std::is_trivially_destructible<T>..., detail::is_trivially_move_constructible<T>..., detail::is_trivially_move_assignable<T>...>::value,
T...>;
template<class... T> struct variant_ma_base_impl<true, true, T...>: public variant_mc_base<T...>
{
using variant_base = detail::variant_mc_base<T...>;
using variant_base::variant_base;
variant_ma_base_impl() = default;
variant_ma_base_impl( variant_ma_base_impl const& ) = default;
variant_ma_base_impl( variant_ma_base_impl && ) = default;
variant_ma_base_impl& operator=( variant_ma_base_impl const& ) = default;
variant_ma_base_impl& operator=( variant_ma_base_impl && ) = default;
};
template<bool B, class... T> struct variant_ma_base_impl<false, B, T...>: public variant_mc_base<T...>
{
using variant_base = detail::variant_mc_base<T...>;
using variant_base::variant_base;
variant_ma_base_impl() = default;
variant_ma_base_impl( variant_ma_base_impl const& ) = default;
variant_ma_base_impl( variant_ma_base_impl && ) = default;
variant_ma_base_impl& operator=( variant_ma_base_impl const& ) = default;
variant_ma_base_impl& operator=( variant_ma_base_impl && ) = delete;
};
template<class... T> struct variant_ma_base_impl<true, false, T...>: public variant_mc_base<T...>
{
using variant_base = detail::variant_mc_base<T...>;
using variant_base::variant_base;
public:
// constructors
variant_ma_base_impl() = default;
variant_ma_base_impl( variant_ma_base_impl const& ) = default;
variant_ma_base_impl( variant_ma_base_impl && ) = default;
// copy assignment
variant_ma_base_impl& operator=( variant_ma_base_impl const & ) = default;
// move assignment
private:
struct L4
{
variant_base * this_;
variant_base & r;
template<class I> void operator()( I i ) const
{
this_->template emplace<I::value>( std::move( r._get_impl( i ) ) );
}
};
public:
variant_ma_base_impl& operator=( variant_ma_base_impl && r )
noexcept( mp11::mp_all<std::is_nothrow_move_constructible<T>...>::value )
{
mp11::mp_with_index<sizeof...(T)>( r.index(), L4{ this, r } );
return *this;
}
};
} // namespace detail
// variant
template<class... T> class variant: private detail::variant_ma_base<T...>
{
private:
using variant_base = detail::variant_ma_base<T...>;
public:
// constructors
template<class E1 = void, class E2 = mp11::mp_if<std::is_default_constructible< mp11::mp_first<variant<T...>> >, E1>>
constexpr variant()
noexcept( std::is_nothrow_default_constructible< mp11::mp_first<variant<T...>> >::value )
: variant_base( mp11::mp_size_t<0>() )
{
}
// variant( variant const& ) = default;
// variant( variant && ) = default;
template<class U,
class Ud = typename std::decay<U>::type,
class E1 = typename std::enable_if< !std::is_same<Ud, variant>::value && !detail::is_in_place_index<Ud>::value && !detail::is_in_place_type<Ud>::value >::type,
class V = detail::resolve_overload_type<U&&, T...>,
class E2 = typename std::enable_if<std::is_constructible<V, U&&>::value>::type
>
constexpr variant( U&& u )
noexcept( std::is_nothrow_constructible<V, U&&>::value )
: variant_base( detail::resolve_overload_index<U&&, T...>(), std::forward<U>(u) )
{
}
template<class U, class... A, class I = mp11::mp_find<variant<T...>, U>, class E = typename std::enable_if<std::is_constructible<U, A&&...>::value>::type>
constexpr explicit variant( in_place_type_t<U>, A&&... a ): variant_base( I(), std::forward<A>(a)... )
{
}
template<class U, class V, class... A, class I = mp11::mp_find<variant<T...>, U>, class E = typename std::enable_if<std::is_constructible<U, std::initializer_list<V>&, A&&...>::value>::type>
constexpr explicit variant( in_place_type_t<U>, std::initializer_list<V> il, A&&... a ): variant_base( I(), il, std::forward<A>(a)... )
{
}
template<std::size_t I, class... A, class E = typename std::enable_if<std::is_constructible<mp11::mp_at_c<variant<T...>, I>, A&&...>::value>::type>
constexpr explicit variant( in_place_index_t<I>, A&&... a ): variant_base( mp11::mp_size_t<I>(), std::forward<A>(a)... )
{
}
template<std::size_t I, class V, class... A, class E = typename std::enable_if<std::is_constructible<mp11::mp_at_c<variant<T...>, I>, std::initializer_list<V>&, A&&...>::value>::type>
constexpr explicit variant( in_place_index_t<I>, std::initializer_list<V> il, A&&... a ): variant_base( mp11::mp_size_t<I>(), il, std::forward<A>(a)... )
{
}
// assignment
// variant& operator=( variant const& ) = default;
// variant& operator=( variant && ) = default;
template<class U,
class E1 = typename std::enable_if<!std::is_same<typename std::decay<U>::type, variant>::value>::type,
class V = detail::resolve_overload_type<U, T...>,
class E2 = typename std::enable_if<std::is_assignable<V&, U&&>::value && std::is_constructible<V, U&&>::value>::type
>
BOOST_CXX14_CONSTEXPR variant& operator=( U&& u )
noexcept( std::is_nothrow_constructible<V, U&&>::value )
{
std::size_t const I = detail::resolve_overload_index<U, T...>::value;
this->template emplace<I>( std::forward<U>(u) );
return *this;
}
// modifiers
template<class U, class... A,
class E = typename std::enable_if< mp11::mp_count<variant<T...>, U>::value == 1 && std::is_constructible<U, A&&...>::value >::type>
BOOST_CXX14_CONSTEXPR U& emplace( A&&... a )
{
using I = mp11::mp_find<variant<T...>, U>;
variant_base::template emplace<I::value>( std::forward<A>(a)... );
return _get_impl( I() );
}
template<class U, class V, class... A,
class E = typename std::enable_if< mp11::mp_count<variant<T...>, U>::value == 1 && std::is_constructible<U, std::initializer_list<V>&, A&&...>::value >::type>
BOOST_CXX14_CONSTEXPR U& emplace( std::initializer_list<V> il, A&&... a )
{
using I = mp11::mp_find<variant<T...>, U>;
variant_base::template emplace<I::value>( il, std::forward<A>(a)... );
return _get_impl( I() );
}
template<std::size_t I, class... A, class E = typename std::enable_if<std::is_constructible<mp11::mp_at_c<variant<T...>, I>, A&&...>::value>::type>
BOOST_CXX14_CONSTEXPR variant_alternative_t<I, variant<T...>>& emplace( A&&... a )
{
variant_base::template emplace<I>( std::forward<A>(a)... );
return _get_impl( mp11::mp_size_t<I>() );
}
template<std::size_t I, class V, class... A, class E = typename std::enable_if<std::is_constructible<mp11::mp_at_c<variant<T...>, I>, std::initializer_list<V>&, A&&...>::value>::type>
BOOST_CXX14_CONSTEXPR variant_alternative_t<I, variant<T...>>& emplace( std::initializer_list<V> il, A&&... a )
{
variant_base::template emplace<I>( il, std::forward<A>(a)... );
return _get_impl( mp11::mp_size_t<I>() );
}
// value status
constexpr bool valueless_by_exception() const noexcept
{
return false;
}
using variant_base::index;
// swap
private:
struct L5
{
variant * this_;
variant & r;
template<class I> void operator()( I i ) const
{
using std::swap;
swap( this_->_get_impl( i ), r._get_impl( i ) );
}
};
public:
void swap( variant& r ) noexcept( mp11::mp_all<std::is_nothrow_move_constructible<T>..., detail::is_nothrow_swappable<T>...>::value )
{
if( index() == r.index() )
{
mp11::mp_with_index<sizeof...(T)>( index(), L5{ this, r } );
}
else
{
variant tmp( std::move(*this) );
*this = std::move( r );
r = std::move( tmp );
}
}
// private accessors
using variant_base::_get_impl;
// converting constructors (extension)
private:
template<class... U> struct L6
{
variant_base * this_;
variant<U...> const & r;
template<class I> void operator()( I i ) const
{
using J = mp11::mp_find<mp11::mp_list<T...>, mp11::mp_at<mp11::mp_list<U...>, I>>;
this_->_replace( J{}, r._get_impl( i ) );
}
};
public:
template<class... U,
class E2 = mp11::mp_if<mp11::mp_all<std::is_copy_constructible<U>..., mp11::mp_contains<mp11::mp_list<T...>, U>...>, void> >
variant( variant<U...> const& r )
noexcept( mp11::mp_all<std::is_nothrow_copy_constructible<U>...>::value )
{
mp11::mp_with_index<sizeof...(U)>( r.index(), L6<U...>{ this, r } );
}
private:
template<class... U> struct L7
{
variant_base * this_;
variant<U...> & r;
template<class I> void operator()( I i ) const
{
using J = mp11::mp_find<mp11::mp_list<T...>, mp11::mp_at<mp11::mp_list<U...>, I>>;
this_->_replace( J{}, std::move( r._get_impl( i ) ) );
}
};
public:
template<class... U,
class E2 = mp11::mp_if<mp11::mp_all<std::is_move_constructible<U>..., mp11::mp_contains<mp11::mp_list<T...>, U>...>, void> >
variant( variant<U...> && r )
noexcept( mp11::mp_all<std::is_nothrow_move_constructible<U>...>::value )
{
mp11::mp_with_index<sizeof...(U)>( r.index(), L7<U...>{ this, r } );
}
// subset (extension)
private:
template<class... U, class V, std::size_t J, class E = typename std::enable_if<J != sizeof...(U)>::type> static constexpr variant<U...> _subset_impl( mp11::mp_size_t<J>, V && v )
{
return variant<U...>( in_place_index_t<J>(), std::forward<V>(v) );
}
template<class... U, class V> static variant<U...> _subset_impl( mp11::mp_size_t<sizeof...(U)>, V && /*v*/ )
{
detail::throw_bad_variant_access();
}
private:
template<class... U> struct L8
{
variant * this_;
template<class I> variant<U...> operator()( I i ) const
{
using J = mp11::mp_find<mp11::mp_list<U...>, mp11::mp_at<mp11::mp_list<T...>, I>>;
return this_->_subset_impl<U...>( J{}, this_->_get_impl( i ) );
}
};
public:
template<class... U,
class E2 = mp11::mp_if<mp11::mp_all<std::is_copy_constructible<U>..., mp11::mp_contains<mp11::mp_list<T...>, U>...>, void> >
BOOST_CXX14_CONSTEXPR variant<U...> subset() &
{
return mp11::mp_with_index<sizeof...(T)>( index(), L8<U...>{ this } );
}
private:
template<class... U> struct L9
{
variant const * this_;
template<class I> variant<U...> operator()( I i ) const
{
using J = mp11::mp_find<mp11::mp_list<U...>, mp11::mp_at<mp11::mp_list<T...>, I>>;
return this_->_subset_impl<U...>( J{}, this_->_get_impl( i ) );
}
};
public:
template<class... U,
class E2 = mp11::mp_if<mp11::mp_all<std::is_copy_constructible<U>..., mp11::mp_contains<mp11::mp_list<T...>, U>...>, void> >
constexpr variant<U...> subset() const&
{
return mp11::mp_with_index<sizeof...(T)>( index(), L9<U...>{ this } );
}
private:
template<class... U> struct L10
{
variant * this_;
template<class I> variant<U...> operator()( I i ) const
{
using J = mp11::mp_find<mp11::mp_list<U...>, mp11::mp_at<mp11::mp_list<T...>, I>>;
return this_->_subset_impl<U...>( J{}, std::move( this_->_get_impl( i ) ) );
}
};
public:
template<class... U,
class E2 = mp11::mp_if<mp11::mp_all<std::is_copy_constructible<U>..., mp11::mp_contains<mp11::mp_list<T...>, U>...>, void> >
BOOST_CXX14_CONSTEXPR variant<U...> subset() &&
{
return mp11::mp_with_index<sizeof...(T)>( index(), L10<U...>{ this } );
}
#if !BOOST_WORKAROUND(BOOST_GCC, < 40900)
// g++ 4.8 doesn't handle const&& particularly well
private:
template<class... U> struct L11
{
variant const * this_;
template<class I> variant<U...> operator()( I i ) const
{
using J = mp11::mp_find<mp11::mp_list<U...>, mp11::mp_at<mp11::mp_list<T...>, I>>;
return this_->_subset_impl<U...>( J{}, std::move( this_->_get_impl( i ) ) );
}
};
public:
template<class... U,
class E2 = mp11::mp_if<mp11::mp_all<std::is_copy_constructible<U>..., mp11::mp_contains<mp11::mp_list<T...>, U>...>, void> >
constexpr variant<U...> subset() const&&
{
return mp11::mp_with_index<sizeof...(T)>( index(), L11<U...>{ this } );
}
#endif
};
// relational operators
namespace detail
{
template<class... T> struct eq_L
{
variant<T...> const & v;
variant<T...> const & w;
template<class I> constexpr bool operator()( I i ) const
{
return v._get_impl( i ) == w._get_impl( i );
}
};
} // namespace detail
template<class... T> constexpr bool operator==( variant<T...> const & v, variant<T...> const & w )
{
return v.index() == w.index() && mp11::mp_with_index<sizeof...(T)>( v.index(), detail::eq_L<T...>{ v, w } );
}
namespace detail
{
template<class... T> struct ne_L
{
variant<T...> const & v;
variant<T...> const & w;
template<class I> constexpr bool operator()( I i ) const
{
return v._get_impl( i ) != w._get_impl( i );
}
};
} // namespace detail
template<class... T> constexpr bool operator!=( variant<T...> const & v, variant<T...> const & w )
{
return v.index() != w.index() || mp11::mp_with_index<sizeof...(T)>( v.index(), detail::ne_L<T...>{ v, w } );
}
namespace detail
{
template<class... T> struct lt_L
{
variant<T...> const & v;
variant<T...> const & w;
template<class I> constexpr bool operator()( I i ) const
{
return v._get_impl( i ) < w._get_impl( i );
}
};
} // namespace detail
template<class... T> constexpr bool operator<( variant<T...> const & v, variant<T...> const & w )
{
return v.index() < w.index() || ( v.index() == w.index() && mp11::mp_with_index<sizeof...(T)>( v.index(), detail::lt_L<T...>{ v, w } ) );
}
template<class... T> constexpr bool operator>( variant<T...> const & v, variant<T...> const & w )
{
return w < v;
}
namespace detail
{
template<class... T> struct le_L
{
variant<T...> const & v;
variant<T...> const & w;
template<class I> constexpr bool operator()( I i ) const
{
return v._get_impl( i ) <= w._get_impl( i );
}
};
} // namespace detail
template<class... T> constexpr bool operator<=( variant<T...> const & v, variant<T...> const & w )
{
return v.index() < w.index() || ( v.index() == w.index() && mp11::mp_with_index<sizeof...(T)>( v.index(), detail::le_L<T...>{ v, w } ) );
}
template<class... T> constexpr bool operator>=( variant<T...> const & v, variant<T...> const & w )
{
return w <= v;
}
// visitation
namespace detail
{
template<class T> using remove_cv_ref_t = typename std::remove_cv<typename std::remove_reference<T>::type>::type;
template<class T, class U> struct copy_cv_ref
{
using type = T;
};
template<class T, class U> struct copy_cv_ref<T, U const>
{
using type = T const;
};
template<class T, class U> struct copy_cv_ref<T, U volatile>
{
using type = T volatile;
};
template<class T, class U> struct copy_cv_ref<T, U const volatile>
{
using type = T const volatile;
};
template<class T, class U> struct copy_cv_ref<T, U&>
{
using type = typename copy_cv_ref<T, U>::type&;
};
template<class T, class U> struct copy_cv_ref<T, U&&>
{
using type = typename copy_cv_ref<T, U>::type&&;
};
template<class T, class U> using copy_cv_ref_t = typename copy_cv_ref<T, U>::type;
template<class F> struct Qret
{
template<class... T> using fn = decltype( std::declval<F>()( std::declval<T>()... ) );
};
template<class L> using front_if_same = mp11::mp_if<mp11::mp_apply<mp11::mp_same, L>, mp11::mp_front<L>>;
template<class V> using apply_cv_ref = mp11::mp_product<copy_cv_ref_t, remove_cv_ref_t<V>, mp11::mp_list<V>>;
template<class F, class... V> using Vret = front_if_same<mp11::mp_product_q<Qret<F>, apply_cv_ref<V>...>>;
} // namespace detail
template<class F> constexpr auto visit( F&& f ) -> decltype(std::forward<F>(f)())
{
return std::forward<F>(f)();
}
namespace detail
{
template<class F, class V1> struct visit_L1
{
F&& f;
V1&& v1;
template<class I> auto operator()( I ) const -> Vret<F, V1>
{
return std::forward<F>(f)( unsafe_get<I::value>( std::forward<V1>(v1) ) );
}
};
} // namespace detail
template<class F, class V1> constexpr auto visit( F&& f, V1&& v1 ) -> detail::Vret<F, V1>
{
return mp11::mp_with_index<variant_size<V1>>( v1.index(), detail::visit_L1<F, V1>{ std::forward<F>(f), std::forward<V1>(v1) } );
}
#if defined(BOOST_NO_CXX14_GENERIC_LAMBDAS) || BOOST_WORKAROUND( BOOST_MSVC, < 1920 )
namespace detail
{
template<class F, class A> struct bind_front_
{
F&& f;
A&& a;
template<class... T> auto operator()( T&&... t ) -> decltype( std::forward<F>(f)( std::forward<A>(a), std::forward<T>(t)... ) )
{
return std::forward<F>(f)( std::forward<A>(a), std::forward<T>(t)... );
}
};
template<class F, class A> bind_front_<F, A> bind_front( F&& f, A&& a )
{
return bind_front_<F, A>{ std::forward<F>(f), std::forward<A>(a) };
}
template<class F, class V1, class V2> struct visit_L2
{
F&& f;
V1&& v1;
V2&& v2;
template<class I> auto operator()( I ) const -> Vret<F, V1, V2>
{
auto f2 = bind_front( std::forward<F>(f), unsafe_get<I::value>( std::forward<V1>(v1) ) );
return visit( f2, std::forward<V2>(v2) );
}
};
} // namespace detail
template<class F, class V1, class V2> constexpr auto visit( F&& f, V1&& v1, V2&& v2 ) -> detail::Vret<F, V1, V2>
{
return mp11::mp_with_index<variant_size<V1>>( v1.index(), detail::visit_L2<F, V1, V2>{ std::forward<F>(f), std::forward<V1>(v1), std::forward<V2>(v2) } );
}
namespace detail
{
template<class F, class V1, class V2, class V3> struct visit_L3
{
F&& f;
V1&& v1;
V2&& v2;
V3&& v3;
template<class I> auto operator()( I ) const -> Vret<F, V1, V2, V3>
{
auto f2 = bind_front( std::forward<F>(f), unsafe_get<I::value>( std::forward<V1>(v1) ) );
return visit( f2, std::forward<V2>(v2), std::forward<V3>(v3) );
}
};
} // namespace detail
template<class F, class V1, class V2, class V3> constexpr auto visit( F&& f, V1&& v1, V2&& v2, V3&& v3 ) -> detail::Vret<F, V1, V2, V3>
{
return mp11::mp_with_index<variant_size<V1>>( v1.index(), detail::visit_L3<F, V1, V2, V3>{ std::forward<F>(f), std::forward<V1>(v1), std::forward<V2>(v2), std::forward<V3>(v3) } );
}
namespace detail
{
template<class F, class V1, class V2, class V3, class V4> struct visit_L4
{
F&& f;
V1&& v1;
V2&& v2;
V3&& v3;
V4&& v4;
template<class I> auto operator()( I ) const -> Vret<F, V1, V2, V3, V4>
{
auto f2 = bind_front( std::forward<F>(f), unsafe_get<I::value>( std::forward<V1>(v1) ) );
return visit( f2, std::forward<V2>(v2), std::forward<V3>(v3), std::forward<V4>(v4) );
}
};
} // namespace detail
template<class F, class V1, class V2, class V3, class V4> constexpr auto visit( F&& f, V1&& v1, V2&& v2, V3&& v3, V4&& v4 ) -> detail::Vret<F, V1, V2, V3, V4>
{
return mp11::mp_with_index<variant_size<V1>>( v1.index(), detail::visit_L4<F, V1, V2, V3, V4>{ std::forward<F>(f), std::forward<V1>(v1), std::forward<V2>(v2), std::forward<V3>(v3), std::forward<V4>(v4) } );
}
#else
template<class F, class V1, class V2, class... V> constexpr auto visit( F&& f, V1&& v1, V2&& v2, V&&... v ) -> detail::Vret<F, V1, V2, V...>
{
return mp11::mp_with_index<variant_size<V1>>( v1.index(), [&]( auto I ){
auto f2 = [&]( auto&&... a ){ return std::forward<F>(f)( detail::unsafe_get<I.value>( std::forward<V1>(v1) ), std::forward<decltype(a)>(a)... ); };
return visit( f2, std::forward<V2>(v2), std::forward<V>(v)... );
});
}
#endif
// specialized algorithms
template<class... T,
class E = typename std::enable_if<mp11::mp_all<std::is_move_constructible<T>..., detail::is_swappable<T>...>::value>::type>
void swap( variant<T...> & v, variant<T...> & w )
noexcept( noexcept(v.swap(w)) )
{
v.swap( w );
}
// hashing support
namespace detail
{
template<class V> struct hash_value_L
{
V const & v;
template<class I> std::size_t operator()( I ) const
{
boost::ulong_long_type hv = ( boost::ulong_long_type( 0xCBF29CE4 ) << 32 ) + 0x84222325;
boost::ulong_long_type const prime = ( boost::ulong_long_type( 0x00000100 ) << 32 ) + 0x000001B3;
// index
hv ^= I::value;
hv *= prime;
// value
auto const & t = unsafe_get<I::value>( v );
hv ^= std::hash<remove_cv_ref_t<decltype(t)>>()( t );
hv *= prime;
return static_cast<std::size_t>( hv );
}
};
} // namespace detail
inline std::size_t hash_value( monostate const & )
{
return 0xA7EE4757u;
}
template<class... T> std::size_t hash_value( variant<T...> const & v )
{
return mp11::mp_with_index<sizeof...(T)>( v.index(), detail::hash_value_L< variant<T...> >{ v } );
}
namespace detail
{
template<class T> using is_hash_enabled = std::is_default_constructible< std::hash<typename std::remove_const<T>::type> >;
template<class V, bool E = mp11::mp_all_of<V, is_hash_enabled>::value> struct std_hash_impl;
template<class V> struct std_hash_impl<V, false>
{
std_hash_impl() = delete;
std_hash_impl( std_hash_impl const& ) = delete;
std_hash_impl& operator=( std_hash_impl const& ) = delete;
};
template<class V> struct std_hash_impl<V, true>
{
std::size_t operator()( V const & v ) const
{
return hash_value( v );
}
};
} // namespace detail
} // namespace variant2
} // namespace boost
namespace std
{
template<class... T> struct hash< ::boost::variant2::variant<T...> >: public ::boost::variant2::detail::std_hash_impl< ::boost::variant2::variant<T...> >
{
};
template<> struct hash< ::boost::variant2::monostate >
{
std::size_t operator()( ::boost::variant2::monostate const & v ) const
{
return hash_value( v );
}
};
} // namespace std
#if defined(_MSC_VER) && _MSC_VER < 1910
# pragma warning( pop )
#endif
#endif // #ifndef BOOST_VARIANT2_VARIANT_HPP_INCLUDED
Reference in New Issue View Git Blame Copy Permalink