boost/variant/detail/multivisitors_cpp11_based.hpp
// Boost.Varaint
// Contains multivisitors that are implemented via variadic templates and std::tuple
//
// See http://www.boost.org for most recent version, including documentation.
//
// Copyright Antony Polukhin, 2013-2023.
//
// 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).
#ifndef BOOST_VARIANT_DETAIL_MULTIVISITORS_CPP11_BASED_HPP
#define BOOST_VARIANT_DETAIL_MULTIVISITORS_CPP11_BASED_HPP
#if defined(_MSC_VER)
# pragma once
#endif
#include <boost/variant/detail/apply_visitor_unary.hpp>
#include <boost/variant/variant_fwd.hpp>
#include <boost/type_traits/is_lvalue_reference.hpp>
#include <boost/core/enable_if.hpp>
#include <tuple>
namespace boost {
namespace detail { namespace variant {
// Implementing some of the C++14 features in C++11
template <std::size_t... I> class index_sequence {};
template <std::size_t N, std::size_t... I>
struct make_index_sequence
: make_index_sequence<N-1, N-1, I...>
{};
template <std::size_t... I>
struct make_index_sequence<0, I...>
: index_sequence<I...>
{};
template <typename T_, bool MoveSemantics_>
struct MoveableWrapper //Just a reference with some metadata
{
typedef T_ T;
static constexpr bool MoveSemantics = MoveSemantics_;
T& v;
};
template <typename Tp, bool MoveSemantics>
MoveableWrapper<Tp, MoveSemantics>
wrap(Tp& t)
{
return MoveableWrapper<Tp, MoveSemantics>{t};
}
template <typename Wrapper>
typename enable_if_c<Wrapper::MoveSemantics, typename Wrapper::T>::type
unwrap(Wrapper& w)
{
return std::move(w.v);
}
template <typename Wrapper>
typename disable_if_c<Wrapper::MoveSemantics, typename Wrapper::T>::type &
unwrap(Wrapper& w)
{
return w.v;
}
// Implementing some of the helper tuple methods
template <std::size_t... I, typename Tuple>
std::tuple<typename std::tuple_element<I + 1, Tuple>::type...>
tuple_tail_impl(const Tuple& tpl, index_sequence<I...>)
{
return std::tuple<
typename std::tuple_element<I + 1, Tuple>::type...
> (std::get<I + 1>(tpl)...);
}
template <typename Head, typename... Tail>
std::tuple<Tail...> tuple_tail(const std::tuple<Head, Tail...>& tpl)
{
return tuple_tail_impl(tpl, make_index_sequence<sizeof...(Tail)>());
}
// Forward declaration
template <typename Visitor, typename Visitables, typename... Values>
class one_by_one_visitor_and_value_referer;
template <typename Visitor, typename Visitables, typename... Values>
inline one_by_one_visitor_and_value_referer<Visitor, Visitables, Values... >
make_one_by_one_visitor_and_value_referer(
Visitor& visitor, Visitables visitables, std::tuple<Values...> values
)
{
return one_by_one_visitor_and_value_referer<Visitor, Visitables, Values... > (
visitor, visitables, values
);
}
template <typename Visitor, typename Visitables, typename... Values>
class one_by_one_visitor_and_value_referer
{
Visitor& visitor_;
std::tuple<Values...> values_;
Visitables visitables_;
public: // structors
one_by_one_visitor_and_value_referer(
Visitor& visitor, Visitables visitables, std::tuple<Values...> values
) BOOST_NOEXCEPT
: visitor_(visitor)
, values_(values)
, visitables_(visitables)
{}
public: // visitor interfaces
typedef typename Visitor::result_type result_type;
template <typename Value>
result_type operator()(Value&& value) const
{
return ::boost::apply_visitor(
make_one_by_one_visitor_and_value_referer(
visitor_,
tuple_tail(visitables_),
std::tuple_cat(values_, std::make_tuple(wrap<Value, ! ::boost::is_lvalue_reference<Value>::value>(value)))
)
, unwrap(std::get<0>(visitables_)) // getting Head element
);
}
private:
one_by_one_visitor_and_value_referer& operator=(const one_by_one_visitor_and_value_referer&);
};
template <typename Visitor, typename... Values>
class one_by_one_visitor_and_value_referer<Visitor, std::tuple<>, Values...>
{
Visitor& visitor_;
std::tuple<Values...> values_;
public:
one_by_one_visitor_and_value_referer(
Visitor& visitor, std::tuple<> /*visitables*/, std::tuple<Values...> values
) BOOST_NOEXCEPT
: visitor_(visitor)
, values_(values)
{}
typedef typename Visitor::result_type result_type;
template <class Tuple, std::size_t... I>
result_type do_call(Tuple t, index_sequence<I...>) const {
return visitor_(unwrap(std::get<I>(t))...);
}
template <typename Value>
result_type operator()(Value&& value) const
{
return do_call(
std::tuple_cat(values_, std::make_tuple(wrap<Value, ! ::boost::is_lvalue_reference<Value>::value>(value))),
make_index_sequence<sizeof...(Values) + 1>()
);
}
};
}} // namespace detail::variant
template <class Visitor, class T1, class T2, class T3, class... TN>
inline typename Visitor::result_type
apply_visitor(const Visitor& visitor, T1&& v1, T2&& v2, T3&& v3, TN&&... vn)
{
return ::boost::apply_visitor(
::boost::detail::variant::make_one_by_one_visitor_and_value_referer(
visitor,
std::make_tuple(
::boost::detail::variant::wrap<T2, ! ::boost::is_lvalue_reference<T2>::value>(v2),
::boost::detail::variant::wrap<T3, ! ::boost::is_lvalue_reference<T3>::value>(v3),
::boost::detail::variant::wrap<TN, ! ::boost::is_lvalue_reference<TN>::value>(vn)...
),
std::tuple<>()
),
std::forward<T1>(v1)
);
}
template <class Visitor, class T1, class T2, class T3, class... TN>
inline typename Visitor::result_type
apply_visitor(Visitor& visitor, T1&& v1, T2&& v2, T3&& v3, TN&&... vn)
{
return ::boost::apply_visitor(
::boost::detail::variant::make_one_by_one_visitor_and_value_referer(
visitor,
std::make_tuple(
::boost::detail::variant::wrap<T2, ! ::boost::is_lvalue_reference<T2>::value>(v2),
::boost::detail::variant::wrap<T3, ! ::boost::is_lvalue_reference<T3>::value>(v3),
::boost::detail::variant::wrap<TN, ! ::boost::is_lvalue_reference<TN>::value>(vn)...
),
std::tuple<>()
),
std::forward<T1>(v1)
);
}
} // namespace boost
#endif // BOOST_VARIANT_DETAIL_MULTIVISITORS_CPP11_BASED_HPP