boost/asio/require.hpp
// // require.hpp // ~~~~~~~~~~~ // // Copyright (c) 2003-2023 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // 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_ASIO_REQUIRE_HPP #define BOOST_ASIO_REQUIRE_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include <boost/asio/detail/config.hpp> #include <boost/asio/detail/type_traits.hpp> #include <boost/asio/is_applicable_property.hpp> #include <boost/asio/traits/require_member.hpp> #include <boost/asio/traits/require_free.hpp> #include <boost/asio/traits/static_require.hpp> #include <boost/asio/detail/push_options.hpp> #if defined(GENERATING_DOCUMENTATION) namespace boost { namespace asio { /// A customisation point that applies a concept-preserving property to an /// object. /** * The name <tt>require</tt> denotes a customisation point object. The * expression <tt>boost::asio::require(E, P0, Pn...)</tt> for some * subexpressions <tt>E</tt> and <tt>P0</tt>, and where <tt>Pn...</tt> * represents <tt>N</tt> subexpressions (where <tt>N</tt> is 0 or more, and with * types <tt>T = decay_t<decltype(E)></tt> and <tt>Prop0 = * decay_t<decltype(P0)></tt>) is expression-equivalent to: * * @li If <tt>is_applicable_property_v<T, Prop0> && Prop0::is_requirable</tt> is * not a well-formed constant expression with value <tt>true</tt>, * <tt>boost::asio::require(E, P0, Pn...)</tt> is ill-formed. * * @li Otherwise, <tt>E</tt> if <tt>N == 0</tt> and the expression * <tt>Prop0::template static_query_v<T> == Prop0::value()</tt> is a * well-formed constant expression with value <tt>true</tt>. * * @li Otherwise, <tt>(E).require(P0)</tt> if <tt>N == 0</tt> and the expression * <tt>(E).require(P0)</tt> is a valid expression. * * @li Otherwise, <tt>require(E, P0)</tt> if <tt>N == 0</tt> and the expression * <tt>require(E, P0)</tt> is a valid expression with overload resolution * performed in a context that does not include the declaration of the * <tt>require</tt> customization point object. * * @li Otherwise, * <tt>boost::asio::require(boost::asio::require(E, P0), Pn...)</tt> * if <tt>N > 0</tt> and the expression * <tt>boost::asio::require(boost::asio::require(E, P0), Pn...)</tt> * is a valid expression. * * @li Otherwise, <tt>boost::asio::require(E, P0, Pn...)</tt> is ill-formed. */ inline constexpr unspecified require = unspecified; /// A type trait that determines whether a @c require expression is well-formed. /** * Class template @c can_require is a trait that is derived from * @c true_type if the expression <tt>boost::asio::require(std::declval<T>(), * std::declval<Properties>()...)</tt> is well formed; otherwise @c false_type. */ template <typename T, typename... Properties> struct can_require : integral_constant<bool, automatically_determined> { }; /// A type trait that determines whether a @c require expression will not throw. /** * Class template @c is_nothrow_require is a trait that is derived from * @c true_type if the expression <tt>boost::asio::require(std::declval<T>(), * std::declval<Properties>()...)</tt> is @c noexcept; otherwise @c false_type. */ template <typename T, typename... Properties> struct is_nothrow_require : integral_constant<bool, automatically_determined> { }; /// A type trait that determines the result type of a @c require expression. /** * Class template @c require_result is a trait that determines the result * type of the expression <tt>boost::asio::require(std::declval<T>(), * std::declval<Properties>()...)</tt>. */ template <typename T, typename... Properties> struct require_result { /// The result of the @c require expression. typedef automatically_determined type; }; } // namespace asio } // namespace boost #else // defined(GENERATING_DOCUMENTATION) namespace boost_asio_require_fn { using boost::asio::conditional_t; using boost::asio::decay_t; using boost::asio::declval; using boost::asio::enable_if_t; using boost::asio::is_applicable_property; using boost::asio::traits::require_free; using boost::asio::traits::require_member; using boost::asio::traits::static_require; void require(); enum overload_type { identity, call_member, call_free, two_props, n_props, ill_formed }; template <typename Impl, typename T, typename Properties, typename = void, typename = void, typename = void, typename = void, typename = void> struct call_traits { static constexpr overload_type overload = ill_formed; static constexpr bool is_noexcept = false; typedef void result_type; }; template <typename Impl, typename T, typename Property> struct call_traits<Impl, T, void(Property), enable_if_t< is_applicable_property< decay_t<T>, decay_t<Property> >::value >, enable_if_t< decay_t<Property>::is_requirable >, enable_if_t< static_require<T, Property>::is_valid >> { static constexpr overload_type overload = identity; static constexpr bool is_noexcept = true; typedef T&& result_type; }; template <typename Impl, typename T, typename Property> struct call_traits<Impl, T, void(Property), enable_if_t< is_applicable_property< decay_t<T>, decay_t<Property> >::value >, enable_if_t< decay_t<Property>::is_requirable >, enable_if_t< !static_require<T, Property>::is_valid >, enable_if_t< require_member<typename Impl::template proxy<T>::type, Property>::is_valid >> : require_member<typename Impl::template proxy<T>::type, Property> { static constexpr overload_type overload = call_member; }; template <typename Impl, typename T, typename Property> struct call_traits<Impl, T, void(Property), enable_if_t< is_applicable_property< decay_t<T>, decay_t<Property> >::value >, enable_if_t< decay_t<Property>::is_requirable >, enable_if_t< !static_require<T, Property>::is_valid >, enable_if_t< !require_member<typename Impl::template proxy<T>::type, Property>::is_valid >, enable_if_t< require_free<T, Property>::is_valid >> : require_free<T, Property> { static constexpr overload_type overload = call_free; }; template <typename Impl, typename T, typename P0, typename P1> struct call_traits<Impl, T, void(P0, P1), enable_if_t< call_traits<Impl, T, void(P0)>::overload != ill_formed >, enable_if_t< call_traits< Impl, typename call_traits<Impl, T, void(P0)>::result_type, void(P1) >::overload != ill_formed >> { static constexpr overload_type overload = two_props; static constexpr bool is_noexcept = ( call_traits<Impl, T, void(P0)>::is_noexcept && call_traits< Impl, typename call_traits<Impl, T, void(P0)>::result_type, void(P1) >::is_noexcept ); typedef decay_t< typename call_traits< Impl, typename call_traits<Impl, T, void(P0)>::result_type, void(P1) >::result_type > result_type; }; template <typename Impl, typename T, typename P0, typename P1, typename... PN> struct call_traits<Impl, T, void(P0, P1, PN...), enable_if_t< call_traits<Impl, T, void(P0)>::overload != ill_formed >, enable_if_t< call_traits< Impl, typename call_traits<Impl, T, void(P0)>::result_type, void(P1, PN...) >::overload != ill_formed >> { static constexpr overload_type overload = n_props; static constexpr bool is_noexcept = ( call_traits<Impl, T, void(P0)>::is_noexcept && call_traits< Impl, typename call_traits<Impl, T, void(P0)>::result_type, void(P1, PN...) >::is_noexcept ); typedef decay_t< typename call_traits< Impl, typename call_traits<Impl, T, void(P0)>::result_type, void(P1, PN...) >::result_type > result_type; }; struct impl { template <typename T> struct proxy { #if defined(BOOST_ASIO_HAS_DEDUCED_REQUIRE_MEMBER_TRAIT) struct type { template <typename P> auto require(P&& p) noexcept( noexcept( declval<conditional_t<true, T, P>>().require(static_cast<P&&>(p)) ) ) -> decltype( declval<conditional_t<true, T, P>>().require(static_cast<P&&>(p)) ); }; #else // defined(BOOST_ASIO_HAS_DEDUCED_REQUIRE_MEMBER_TRAIT) typedef T type; #endif // defined(BOOST_ASIO_HAS_DEDUCED_REQUIRE_MEMBER_TRAIT) }; template <typename T, typename Property> BOOST_ASIO_NODISCARD constexpr enable_if_t< call_traits<impl, T, void(Property)>::overload == identity, typename call_traits<impl, T, void(Property)>::result_type > operator()(T&& t, Property&&) const noexcept(call_traits<impl, T, void(Property)>::is_noexcept) { return static_cast<T&&>(t); } template <typename T, typename Property> BOOST_ASIO_NODISCARD constexpr enable_if_t< call_traits<impl, T, void(Property)>::overload == call_member, typename call_traits<impl, T, void(Property)>::result_type > operator()(T&& t, Property&& p) const noexcept(call_traits<impl, T, void(Property)>::is_noexcept) { return static_cast<T&&>(t).require(static_cast<Property&&>(p)); } template <typename T, typename Property> BOOST_ASIO_NODISCARD constexpr enable_if_t< call_traits<impl, T, void(Property)>::overload == call_free, typename call_traits<impl, T, void(Property)>::result_type > operator()(T&& t, Property&& p) const noexcept(call_traits<impl, T, void(Property)>::is_noexcept) { return require(static_cast<T&&>(t), static_cast<Property&&>(p)); } template <typename T, typename P0, typename P1> BOOST_ASIO_NODISCARD constexpr enable_if_t< call_traits<impl, T, void(P0, P1)>::overload == two_props, typename call_traits<impl, T, void(P0, P1)>::result_type > operator()(T&& t, P0&& p0, P1&& p1) const noexcept(call_traits<impl, T, void(P0, P1)>::is_noexcept) { return (*this)( (*this)(static_cast<T&&>(t), static_cast<P0&&>(p0)), static_cast<P1&&>(p1)); } template <typename T, typename P0, typename P1, typename... PN> BOOST_ASIO_NODISCARD constexpr enable_if_t< call_traits<impl, T, void(P0, P1, PN...)>::overload == n_props, typename call_traits<impl, T, void(P0, P1, PN...)>::result_type > operator()(T&& t, P0&& p0, P1&& p1, PN&&... pn) const noexcept(call_traits<impl, T, void(P0, P1, PN...)>::is_noexcept) { return (*this)( (*this)(static_cast<T&&>(t), static_cast<P0&&>(p0)), static_cast<P1&&>(p1), static_cast<PN&&>(pn)...); } }; template <typename T = impl> struct static_instance { static const T instance; }; template <typename T> const T static_instance<T>::instance = {}; } // namespace boost_asio_require_fn namespace boost { namespace asio { namespace { static constexpr const boost_asio_require_fn::impl& require = boost_asio_require_fn::static_instance<>::instance; } // namespace typedef boost_asio_require_fn::impl require_t; template <typename T, typename... Properties> struct can_require : integral_constant<bool, boost_asio_require_fn::call_traits< require_t, T, void(Properties...)>::overload != boost_asio_require_fn::ill_formed> { }; #if defined(BOOST_ASIO_HAS_VARIABLE_TEMPLATES) template <typename T, typename... Properties> constexpr bool can_require_v = can_require<T, Properties...>::value; #endif // defined(BOOST_ASIO_HAS_VARIABLE_TEMPLATES) template <typename T, typename... Properties> struct is_nothrow_require : integral_constant<bool, boost_asio_require_fn::call_traits< require_t, T, void(Properties...)>::is_noexcept> { }; #if defined(BOOST_ASIO_HAS_VARIABLE_TEMPLATES) template <typename T, typename... Properties> constexpr bool is_nothrow_require_v = is_nothrow_require<T, Properties...>::value; #endif // defined(BOOST_ASIO_HAS_VARIABLE_TEMPLATES) template <typename T, typename... Properties> struct require_result { typedef typename boost_asio_require_fn::call_traits< require_t, T, void(Properties...)>::result_type type; }; template <typename T, typename... Properties> using require_result_t = typename require_result<T, Properties...>::type; } // namespace asio } // namespace boost #endif // defined(GENERATING_DOCUMENTATION) #include <boost/asio/detail/pop_options.hpp> #endif // BOOST_ASIO_REQUIRE_HPP