boost/beast/http/detail/type_traits.hpp
// // Copyright (c) 2016-2019 Vinnie Falco (vinnie dot falco at gmail 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) // // Official repository: https://github.com/boostorg/beast // #ifndef BOOST_BEAST_HTTP_DETAIL_TYPE_TRAITS_HPP #define BOOST_BEAST_HTTP_DETAIL_TYPE_TRAITS_HPP #include <boost/beast/core/detail/type_traits.hpp> #include <boost/optional.hpp> #include <cstdint> namespace boost { namespace beast { namespace http { template<bool isRequest, class Fields> class header; template<bool, class, class> class message; template<bool isRequest, class Body, class Fields> class parser; namespace detail { template<class T> class is_header_impl { template<bool b, class F> static std::true_type check( header<b, F> const*); static std::false_type check(...); public: using type = decltype(check((T*)0)); }; template<class T> using is_header = typename is_header_impl<T>::type; template<class T> struct is_parser : std::false_type {}; template<bool isRequest, class Body, class Fields> struct is_parser<parser<isRequest, Body, Fields>> : std::true_type {}; struct fields_model { struct writer; string_view method() const; string_view reason() const; string_view target() const; protected: string_view get_method_impl() const; string_view get_target_impl() const; string_view get_reason_impl() const; bool get_chunked_impl() const; bool get_keep_alive_impl(unsigned) const; bool has_content_length_impl() const; void set_method_impl(string_view); void set_target_impl(string_view); void set_reason_impl(string_view); void set_chunked_impl(bool); void set_content_length_impl(boost::optional<std::uint64_t>); void set_keep_alive_impl(unsigned, bool); }; template<class T, class = beast::detail::void_t<>> struct has_value_type : std::false_type {}; template<class T> struct has_value_type<T, beast::detail::void_t< typename T::value_type > > : std::true_type {}; /** Determine if a <em>Body</em> type has a size This metafunction is equivalent to `std::true_type` if Body contains a static member function called `size`. */ template<class T, class = void> struct is_body_sized : std::false_type {}; template<class T> struct is_body_sized<T, beast::detail::void_t< typename T::value_type, decltype( std::declval<std::uint64_t&>() = T::size(std::declval<typename T::value_type const&>()) )>> : std::true_type {}; template<class T> struct is_fields_helper : T { template<class U = is_fields_helper> static auto f1(int) -> decltype( std::declval<string_view&>() = std::declval<U const&>().get_method_impl(), std::true_type()); static auto f1(...) -> std::false_type; using t1 = decltype(f1(0)); template<class U = is_fields_helper> static auto f2(int) -> decltype( std::declval<string_view&>() = std::declval<U const&>().get_target_impl(), std::true_type()); static auto f2(...) -> std::false_type; using t2 = decltype(f2(0)); template<class U = is_fields_helper> static auto f3(int) -> decltype( std::declval<string_view&>() = std::declval<U const&>().get_reason_impl(), std::true_type()); static auto f3(...) -> std::false_type; using t3 = decltype(f3(0)); template<class U = is_fields_helper> static auto f4(int) -> decltype( std::declval<bool&>() = std::declval<U const&>().get_chunked_impl(), std::true_type()); static auto f4(...) -> std::false_type; using t4 = decltype(f4(0)); template<class U = is_fields_helper> static auto f5(int) -> decltype( std::declval<bool&>() = std::declval<U const&>().get_keep_alive_impl( std::declval<unsigned>()), std::true_type()); static auto f5(...) -> std::false_type; using t5 = decltype(f5(0)); template<class U = is_fields_helper> static auto f6(int) -> decltype( std::declval<bool&>() = std::declval<U const&>().has_content_length_impl(), std::true_type()); static auto f6(...) -> std::false_type; using t6 = decltype(f6(0)); template<class U = is_fields_helper> static auto f7(int) -> decltype( void(std::declval<U&>().set_method_impl(std::declval<string_view>())), std::true_type()); static auto f7(...) -> std::false_type; using t7 = decltype(f7(0)); template<class U = is_fields_helper> static auto f8(int) -> decltype( void(std::declval<U&>().set_target_impl(std::declval<string_view>())), std::true_type()); static auto f8(...) -> std::false_type; using t8 = decltype(f8(0)); template<class U = is_fields_helper> static auto f9(int) -> decltype( void(std::declval<U&>().set_reason_impl(std::declval<string_view>())), std::true_type()); static auto f9(...) -> std::false_type; using t9 = decltype(f9(0)); template<class U = is_fields_helper> static auto f10(int) -> decltype( void(std::declval<U&>().set_chunked_impl(std::declval<bool>())), std::true_type()); static auto f10(...) -> std::false_type; using t10 = decltype(f10(0)); template<class U = is_fields_helper> static auto f11(int) -> decltype( void(std::declval<U&>().set_content_length_impl( std::declval<boost::optional<std::uint64_t>>())), std::true_type()); static auto f11(...) -> std::false_type; using t11 = decltype(f11(0)); template<class U = is_fields_helper> static auto f12(int) -> decltype( void(std::declval<U&>().set_keep_alive_impl( std::declval<unsigned>(), std::declval<bool>())), std::true_type()); static auto f12(...) -> std::false_type; using t12 = decltype(f12(0)); using type = std::integral_constant<bool, t1::value && t2::value && t3::value && t4::value && t5::value && t6::value && t7::value && t8::value && t9::value && t10::value && t11::value && t12::value>; }; } // detail } // http } // beast } // boost #endif