<%# This is an ERB [1] template file used to generate the header. The maximum number of members that can be handled by the macros can be controlled with the 'MAX_NUMBER_OF_MEMBERS' variable, which can be set when calling ERB to generate the header: export MAX_NUMBER_OF_MEMBERS=55; erb struct_macros.hpp.erb 'MAX_NUMBER_OF_MEMBERS' must be <= 62, otherwise an error is triggered. In case 'MAX_NUMBER_OF_MEMBERS' is not specified, it defaults to 40. [1]: http://en.wikipedia.org/wiki/ERuby %> <% MAX_NUMBER_OF_MEMBERS = (ENV["MAX_NUMBER_OF_MEMBERS"] || 40).to_i raise "MAX_NUMBER_OF_MEMBERS must be <= 62" if MAX_NUMBER_OF_MEMBERS > 62 %> /*! @file Defines the `BOOST_HANA_DEFINE_STRUCT`, `BOOST_HANA_ADAPT_STRUCT`, and `BOOST_HANA_ADAPT_ADT` macros. @copyright Louis Dionne 2013-2017 Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt) */ ////////////////////////////////////////////////////////////////////////////// // THIS FILE IS GENERATED FROM THE // ERB TEMPLATE. DO NOT EDIT THIS FILE DIRECTLY. // // THE ERB TEMPLATE CONTAINS INFORMATION ABOUT HOW TO REGENERATE THIS FILE. ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_HANA_DETAIL_STRUCT_MACROS_HPP #define BOOST_HANA_DETAIL_STRUCT_MACROS_HPP #include #include #include #include #include #include #include BOOST_HANA_NAMESPACE_BEGIN namespace struct_detail { template struct member_ptr { template constexpr decltype(auto) operator()(T&& t) const { return static_cast(t).*ptr; } }; constexpr std::size_t strlen(char const* s) { std::size_t n = 0; while (*s++ != '\0') ++n; return n; } template constexpr auto prepare_member_name_impl(std::index_sequence) { return hana::string_c(Names::get())[i]...>; } template constexpr auto prepare_member_name() { constexpr std::size_t len = strlen(hana::at_c(Names::get())); return prepare_member_name_impl(std::make_index_sequence{}); } } BOOST_HANA_NAMESPACE_END ////////////////////////////////////////////////////////////////////////////// // BOOST_HANA_ADAPT_STRUCT ////////////////////////////////////////////////////////////////////////////// template struct BOOST_HANA_ADAPT_STRUCT_must_be_called_in_the_global_namespace; #define BOOST_HANA_ADAPT_STRUCT(...) \ template <> \ struct BOOST_HANA_ADAPT_STRUCT_must_be_called_in_the_global_namespace<>; \ BOOST_HANA_ADAPT_STRUCT_IMPL(BOOST_HANA_PP_NARG(__VA_ARGS__), __VA_ARGS__)\ static_assert(true, "force the usage of a trailing semicolon") \ /**/ #define BOOST_HANA_ADAPT_STRUCT_IMPL(N, ...) \ BOOST_HANA_PP_CONCAT(BOOST_HANA_ADAPT_STRUCT_IMPL_, N)(__VA_ARGS__) <% (0..MAX_NUMBER_OF_MEMBERS).each do |n| %> #define BOOST_HANA_ADAPT_STRUCT_IMPL_<%= n+1 %>(TYPE <%= (1..n).map { |i| ", m#{i}" }.join %>) \ namespace boost { namespace hana { \ template <> \ struct accessors_impl { \ static constexpr auto apply() { \ struct member_names { \ static constexpr auto get() { \ return ::boost::hana::make_tuple( \ <%= (1..n).map { |i| "BOOST_HANA_PP_STRINGIZE(m#{i})" }.join(', ') %> \ ); \ } \ }; \ return ::boost::hana::make_tuple( \ <%= (1..n).map { |i| "::boost::hana::make_pair(::boost::hana::struct_detail::prepare_member_name<#{i-1}, member_names>(), ::boost::hana::struct_detail::member_ptr{})" }.join(', ') %>\ ); \ } \ }; \ }} \ /**/ <% end %> ////////////////////////////////////////////////////////////////////////////// // BOOST_HANA_ADAPT_ADT ////////////////////////////////////////////////////////////////////////////// template struct BOOST_HANA_ADAPT_ADT_must_be_called_in_the_global_namespace; #define BOOST_HANA_ADAPT_ADT(...) \ template <> \ struct BOOST_HANA_ADAPT_ADT_must_be_called_in_the_global_namespace<>; \ BOOST_HANA_ADAPT_ADT_IMPL(BOOST_HANA_PP_NARG(__VA_ARGS__), __VA_ARGS__) \ static_assert(true, "force the usage of a trailing semicolon") \ /**/ #define BOOST_HANA_ADAPT_ADT_IMPL(N, ...) \ BOOST_HANA_PP_CONCAT(BOOST_HANA_ADAPT_ADT_IMPL_, N)(__VA_ARGS__) <% (0..MAX_NUMBER_OF_MEMBERS).each do |n| %> #define BOOST_HANA_ADAPT_ADT_IMPL_<%= n+1 %>(TYPE <%= (1..n).map { |i| ", m#{i}" }.join %>) \ namespace boost { namespace hana { \ template <> \ struct accessors_impl { \ template \ static constexpr auto apply() { \ struct member_names { \ static constexpr auto get() { \ return ::boost::hana::make_tuple( \ <%= (1..n).map { |i| "BOOST_HANA_PP_STRINGIZE(BOOST_HANA_PP_FRONT m#{i})" }.join(', ') %>\ ); \ } \ }; \ return ::boost::hana::make_tuple( \ <%= (1..n).map { |i| "::boost::hana::make_pair(::boost::hana::struct_detail::prepare_member_name<#{i-1}, member_names>(), BOOST_HANA_PP_DROP_FRONT m#{i})" }.join(', ') %>\ ); \ } \ }; \ }} \ /**/ <% end %> ////////////////////////////////////////////////////////////////////////////// // BOOST_HANA_DEFINE_STRUCT ////////////////////////////////////////////////////////////////////////////// #define BOOST_HANA_DEFINE_STRUCT(...) \ BOOST_HANA_DEFINE_STRUCT_IMPL(BOOST_HANA_PP_NARG(__VA_ARGS__), __VA_ARGS__) #define BOOST_HANA_DEFINE_STRUCT_IMPL(N, ...) \ BOOST_HANA_PP_CONCAT(BOOST_HANA_DEFINE_STRUCT_IMPL_, N)(__VA_ARGS__) <% (0..MAX_NUMBER_OF_MEMBERS).each do |n| %> #define BOOST_HANA_DEFINE_STRUCT_IMPL_<%= n+1 %>(TYPE <%= (1..n).map { |i| ", m#{i}" }.join %>) \ <%= (1..n).map { |i| "BOOST_HANA_PP_DROP_BACK m#{i} BOOST_HANA_PP_BACK m#{i};" }.join(' ') %> \ \ struct hana_accessors_impl { \ static constexpr auto apply() { \ struct member_names { \ static constexpr auto get() { \ return ::boost::hana::make_tuple( \ <%= (1..n).map { |i| "BOOST_HANA_PP_STRINGIZE(BOOST_HANA_PP_BACK m#{i})" }.join(', ') %>\ ); \ } \ }; \ return ::boost::hana::make_tuple( \ <%= (1..n).map { |i| "::boost::hana::make_pair(::boost::hana::struct_detail::prepare_member_name<#{i-1}, member_names>(), ::boost::hana::struct_detail::member_ptr{})" }.join(', ') %>\ ); \ } \ } \ /**/ <% end %> #endif // !BOOST_HANA_DETAIL_STRUCT_MACROS_HPP