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편집 파일: list.hpp

#ifndef BOOST_MP11_LIST_HPP_INCLUDED #define BOOST_MP11_LIST_HPP_INCLUDED // Copyright 2015-2023 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 #include <boost/mp11/integral.hpp> #include <boost/mp11/detail/mp_list.hpp> #include <boost/mp11/detail/mp_list_v.hpp> #include <boost/mp11/detail/mp_is_list.hpp> #include <boost/mp11/detail/mp_is_value_list.hpp> #include <boost/mp11/detail/mp_front.hpp> #include <boost/mp11/detail/mp_rename.hpp> #include <boost/mp11/detail/mp_append.hpp> #include <boost/mp11/detail/config.hpp> #include <type_traits> #if defined(_MSC_VER) || defined(__GNUC__) # pragma push_macro( "I" ) # undef I #endif namespace boost { namespace mp11 { // mp_list<T...> // in detail/mp_list.hpp // mp_list_c<T, I...> template<class T, T... I> using mp_list_c = mp_list<std::integral_constant<T, I>...>; // mp_list_v<A...> // in detail/mp_list_v.hpp // mp_is_list<L> // in detail/mp_is_list.hpp // mp_is_value_list<L> // in detail/mp_is_value_list.hpp // mp_size<L> namespace detail { template<class L> struct mp_size_impl { // An error "no type named 'type'" here means that the argument to mp_size is not a list }; template<template<class...> class L, class... T> struct mp_size_impl<L<T...>> { using type = mp_size_t<sizeof...(T)>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto... A> struct mp_size_impl<L<A...>> { using type = mp_size_t<sizeof...(A)>; }; #endif } // namespace detail template<class L> using mp_size = typename detail::mp_size_impl<L>::type; // mp_empty<L> template<class L> using mp_empty = mp_bool< mp_size<L>::value == 0 >; // mp_assign<L1, L2> namespace detail { template<class L1, class L2> struct mp_assign_impl { // An error "no type named 'type'" here means that the arguments to mp_assign aren't lists }; template<template<class...> class L1, class... T, template<class...> class L2, class... U> struct mp_assign_impl<L1<T...>, L2<U...>> { using type = L1<U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L1, auto... A, template<class...> class L2, class... U> struct mp_assign_impl<L1<A...>, L2<U...>> { using type = L1<U::value...>; }; template<template<class...> class L1, class... T, template<auto...> class L2, auto... B> struct mp_assign_impl<L1<T...>, L2<B...>> { using type = L1<mp_value<B>...>; }; template<template<auto...> class L1, auto... A, template<auto...> class L2, auto... B> struct mp_assign_impl<L1<A...>, L2<B...>> { using type = L1<B...>; }; #endif } // namespace detail template<class L1, class L2> using mp_assign = typename detail::mp_assign_impl<L1, L2>::type; // mp_clear<L> template<class L> using mp_clear = mp_assign<L, mp_list<>>; // mp_front<L> // in detail/mp_front.hpp // mp_pop_front<L> namespace detail { template<class L> struct mp_pop_front_impl { // An error "no type named 'type'" here means that the argument to mp_pop_front // is either not a list, or is an empty list }; template<template<class...> class L, class T1, class... T> struct mp_pop_front_impl<L<T1, T...>> { using type = L<T...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto... A> struct mp_pop_front_impl<L<A1, A...>> { using type = L<A...>; }; #endif } // namespace detail template<class L> using mp_pop_front = typename detail::mp_pop_front_impl<L>::type; // mp_first<L> template<class L> using mp_first = mp_front<L>; // mp_rest<L> template<class L> using mp_rest = mp_pop_front<L>; // mp_second<L> namespace detail { template<class L> struct mp_second_impl { // An error "no type named 'type'" here means that the argument to mp_second // is either not a list, or has fewer than two elements }; template<template<class...> class L, class T1, class T2, class... T> struct mp_second_impl<L<T1, T2, T...>> { using type = T2; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto A2, auto... A> struct mp_second_impl<L<A1, A2, A...>> { using type = mp_value<A2>; }; #endif } // namespace detail template<class L> using mp_second = typename detail::mp_second_impl<L>::type; // mp_third<L> namespace detail { template<class L> struct mp_third_impl { // An error "no type named 'type'" here means that the argument to mp_third // is either not a list, or has fewer than three elements }; template<template<class...> class L, class T1, class T2, class T3, class... T> struct mp_third_impl<L<T1, T2, T3, T...>> { using type = T3; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto A2, auto A3, auto... A> struct mp_third_impl<L<A1, A2, A3, A...>> { using type = mp_value<A3>; }; #endif } // namespace detail template<class L> using mp_third = typename detail::mp_third_impl<L>::type; // mp_push_front<L, T...> namespace detail { template<class L, class... T> struct mp_push_front_impl { // An error "no type named 'type'" here means that the first argument to mp_push_front is not a list }; template<template<class...> class L, class... U, class... T> struct mp_push_front_impl<L<U...>, T...> { using type = L<T..., U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto... A, class... T> struct mp_push_front_impl<L<A...>, T...> { using type = L<T::value..., A...>; }; #endif } // namespace detail template<class L, class... T> using mp_push_front = typename detail::mp_push_front_impl<L, T...>::type; // mp_push_back<L, T...> namespace detail { template<class L, class... T> struct mp_push_back_impl { // An error "no type named 'type'" here means that the first argument to mp_push_back is not a list }; template<template<class...> class L, class... U, class... T> struct mp_push_back_impl<L<U...>, T...> { using type = L<U..., T...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto... A, class... T> struct mp_push_back_impl<L<A...>, T...> { using type = L<A..., T::value...>; }; #endif } // namespace detail template<class L, class... T> using mp_push_back = typename detail::mp_push_back_impl<L, T...>::type; // mp_rename<L, B> // mp_apply<F, L> // mp_apply_q<Q, L> // in detail/mp_rename.hpp // mp_rename_v<L, B> #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) namespace detail { template<class L, template<auto...> class B> struct mp_rename_v_impl { // An error "no type named 'type'" here means that the first argument to mp_rename_v is not a list }; template<template<class...> class L, class... T, template<auto...> class B> struct mp_rename_v_impl<L<T...>, B> { using type = B<T::value...>; }; template<template<auto...> class L, auto... A, template<auto...> class B> struct mp_rename_v_impl<L<A...>, B> { using type = B<A...>; }; } // namespace detail template<class L, template<auto...> class B> using mp_rename_v = typename detail::mp_rename_v_impl<L, B>::type; #endif // mp_replace_front<L, T> namespace detail { template<class L, class T> struct mp_replace_front_impl { // An error "no type named 'type'" here means that the first argument to mp_replace_front // is either not a list, or is an empty list }; template<template<class...> class L, class U1, class... U, class T> struct mp_replace_front_impl<L<U1, U...>, T> { using type = L<T, U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto... A, class T> struct mp_replace_front_impl<L<A1, A...>, T> { using type = L<T::value, A...>; }; #endif } // namespace detail template<class L, class T> using mp_replace_front = typename detail::mp_replace_front_impl<L, T>::type; // mp_replace_first<L, T> template<class L, class T> using mp_replace_first = typename detail::mp_replace_front_impl<L, T>::type; // mp_replace_second<L, T> namespace detail { template<class L, class T> struct mp_replace_second_impl { // An error "no type named 'type'" here means that the first argument to mp_replace_second // is either not a list, or has fewer than two elements }; template<template<class...> class L, class U1, class U2, class... U, class T> struct mp_replace_second_impl<L<U1, U2, U...>, T> { using type = L<U1, T, U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto A2, auto... A, class T> struct mp_replace_second_impl<L<A1, A2, A...>, T> { using type = L<A1, T::value, A...>; }; #endif } // namespace detail template<class L, class T> using mp_replace_second = typename detail::mp_replace_second_impl<L, T>::type; // mp_replace_third<L, T> namespace detail { template<class L, class T> struct mp_replace_third_impl { // An error "no type named 'type'" here means that the first argument to mp_replace_third // is either not a list, or has fewer than three elements }; template<template<class...> class L, class U1, class U2, class U3, class... U, class T> struct mp_replace_third_impl<L<U1, U2, U3, U...>, T> { using type = L<U1, U2, T, U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto A2, auto A3, auto... A, class T> struct mp_replace_third_impl<L<A1, A2, A3, A...>, T> { using type = L<A1, A2, T::value, A...>; }; #endif } // namespace detail template<class L, class T> using mp_replace_third = typename detail::mp_replace_third_impl<L, T>::type; // mp_transform_front<L, F> namespace detail { template<class L, template<class...> class F> struct mp_transform_front_impl { // An error "no type named 'type'" here means that the first argument to mp_transform_front // is either not a list, or is an empty list }; template<template<class...> class L, class U1, class... U, template<class...> class F> struct mp_transform_front_impl<L<U1, U...>, F> { using type = L<F<U1>, U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto... A, template<class...> class F> struct mp_transform_front_impl<L<A1, A...>, F> { using type = L<F<mp_value<A1>>::value, A...>; }; #endif } // namespace detail template<class L, template<class...> class F> using mp_transform_front = typename detail::mp_transform_front_impl<L, F>::type; template<class L, class Q> using mp_transform_front_q = mp_transform_front<L, Q::template fn>; // mp_transform_first<L, F> template<class L, template<class...> class F> using mp_transform_first = typename detail::mp_transform_front_impl<L, F>::type; template<class L, class Q> using mp_transform_first_q = mp_transform_first<L, Q::template fn>; // mp_transform_second<L, F> namespace detail { template<class L, template<class...> class F> struct mp_transform_second_impl { // An error "no type named 'type'" here means that the first argument to mp_transform_second // is either not a list, or has fewer than two elements }; template<template<class...> class L, class U1, class U2, class... U, template<class...> class F> struct mp_transform_second_impl<L<U1, U2, U...>, F> { using type = L<U1, F<U2>, U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto A2, auto... A, template<class...> class F> struct mp_transform_second_impl<L<A1, A2, A...>, F> { using type = L<A1, F<mp_value<A2>>::value, A...>; }; #endif } // namespace detail template<class L, template<class...> class F> using mp_transform_second = typename detail::mp_transform_second_impl<L, F>::type; template<class L, class Q> using mp_transform_second_q = mp_transform_second<L, Q::template fn>; // mp_transform_third<L, F> namespace detail { template<class L, template<class...> class F> struct mp_transform_third_impl { // An error "no type named 'type'" here means that the first argument to mp_transform_third // is either not a list, or has fewer than three elements }; template<template<class...> class L, class U1, class U2, class U3, class... U, template<class...> class F> struct mp_transform_third_impl<L<U1, U2, U3, U...>, F> { using type = L<U1, U2, F<U3>, U...>; }; #if defined(BOOST_MP11_HAS_TEMPLATE_AUTO) template<template<auto...> class L, auto A1, auto A2, auto A3, auto... A, template<class...> class F> struct mp_transform_third_impl<L<A1, A2, A3, A...>, F> { using type = L<A1, A2, F<mp_value<A3>>::value, A...>; }; #endif } // namespace detail template<class L, template<class...> class F> using mp_transform_third = typename detail::mp_transform_third_impl<L, F>::type; template<class L, class Q> using mp_transform_third_q = mp_transform_third<L, Q::template fn>; } // namespace mp11 } // namespace boost #if defined(_MSC_VER) || defined(__GNUC__) # pragma pop_macro( "I" ) #endif #endif // #ifndef BOOST_MP11_LIST_HPP_INCLUDED