boost/spirit/home/karma/auto/meta_create.hpp
// Copyright (c) 2001-2011 Hartmut Kaiser // // 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) #if !defined(BOOST_SPIRIT_KARMA_META_CREATE_NOV_21_2009_0425PM) #define BOOST_SPIRIT_KARMA_META_CREATE_NOV_21_2009_0425PM #if defined(_MSC_VER) #pragma once #endif #include <boost/spirit/home/karma/domain.hpp> #include <boost/spirit/home/support/common_terminals.hpp> #include <boost/spirit/home/support/auto/meta_create.hpp> #include <boost/utility/enable_if.hpp> #include <boost/variant.hpp> #include <boost/optional.hpp> #include <boost/config.hpp> #include <boost/mpl/not.hpp> #include <boost/mpl/fold.hpp> #include <boost/mpl/vector.hpp> #include <boost/mpl/push_back.hpp> #include <boost/fusion/include/as_vector.hpp> #include <boost/proto/tags.hpp> #include <boost/type_traits/is_same.hpp> /////////////////////////////////////////////////////////////////////////////// namespace boost { namespace spirit { namespace karma { /////////////////////////////////////////////////////////////////////////// // compatible STL containers template <typename Container> struct meta_create_container { typedef make_unary_proto_expr< typename Container::value_type , proto::tag::dereference, karma::domain > make_proto_expr; typedef typename make_proto_expr::type type; static type call() { return make_proto_expr::call(); } }; /////////////////////////////////////////////////////////////////////////// // String types template <typename String> struct meta_create_string { typedef spirit::standard::string_type type; static type const call() { return type(); } }; template <> struct meta_create_string<wchar_t*> { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; template <> struct meta_create_string<wchar_t const*> { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; template <int N> struct meta_create_string<wchar_t[N]> { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; template <int N> struct meta_create_string<wchar_t const[N]> { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; template <int N> struct meta_create_string<wchar_t(&)[N]> { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; template <int N> struct meta_create_string<wchar_t const(&)[N]> { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; template <typename Traits, typename Allocator> struct meta_create_string<std::basic_string<wchar_t, Traits, Allocator> > { typedef spirit::standard_wide::string_type type; static type const call() { return type(); } }; /////////////////////////////////////////////////////////////////////////// // Fusion sequences template <typename Sequence> struct meta_create_sequence { // create a mpl sequence from the given fusion sequence typedef typename mpl::fold< typename fusion::result_of::as_vector<Sequence>::type , mpl::vector<>, mpl::push_back<mpl::_, mpl::_> >::type sequence_type; typedef make_nary_proto_expr< sequence_type, proto::tag::shift_left, karma::domain > make_proto_expr; typedef typename make_proto_expr::type type; static type call() { return make_proto_expr::call(); } }; /////////////////////////////////////////////////////////////////////////// // the default is to use the standard streaming operator unless it's a // STL container or a fusion sequence // The default implementation will be chosen if no predefined mapping of // the data type T to a Karma component is defined. struct no_auto_mapping_exists {}; template <typename T, typename Enable = void> struct meta_create_impl : mpl::identity<no_auto_mapping_exists> {}; template <typename T> struct meta_create_impl<T , typename enable_if< mpl::and_< traits::is_container<T> , mpl::not_<traits::is_string<T> > , mpl::not_<fusion::traits::is_sequence<T> > > >::type> : meta_create_container<T> {}; template <typename T> struct meta_create_impl<T , typename enable_if<traits::is_string<T> >::type> : meta_create_string<T> {}; template <typename T> struct meta_create_impl<T, typename enable_if< spirit::detail::is_fusion_sequence_but_not_proto_expr<T> >::type> : meta_create_sequence<T> {}; template <typename T, typename Enable = void> struct meta_create : meta_create_impl<T> {}; /////////////////////////////////////////////////////////////////////////// // optional template <typename T> struct meta_create<boost::optional<T> > { typedef make_unary_proto_expr< T, proto::tag::negate, karma::domain > make_proto_expr; typedef typename make_proto_expr::type type; static type call() { return make_proto_expr::call(); } }; /////////////////////////////////////////////////////////////////////////// // alternatives template <BOOST_VARIANT_ENUM_PARAMS(typename T)> struct meta_create<boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> > { typedef make_nary_proto_expr< typename boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)>::types , proto::tag::bitwise_or, karma::domain > make_proto_expr; typedef typename make_proto_expr::type type; static type call() { return make_proto_expr::call(); } }; /////////////////////////////////////////////////////////////////////////// // predefined specializations for primitive components // character generator template <> struct meta_create<char> { typedef spirit::standard::char_type type; static type const call() { return type(); } }; template <> struct meta_create<signed char> { typedef spirit::standard::char_type type; static type const call() { return type(); } }; template <> struct meta_create<wchar_t> { typedef spirit::standard_wide::char_type type; static type const call() { return type(); } }; template <> struct meta_create<unsigned char> { typedef spirit::standard::char_type type; static type const call() { return type(); } }; // boolean generator template <> struct meta_create<bool> { typedef spirit::bool_type type; static type call() { return type(); } }; // integral generators template <> struct meta_create<int> { typedef spirit::int_type type; static type call() { return type(); } }; template <> struct meta_create<short> { typedef spirit::short_type type; static type call() { return type(); } }; template <> struct meta_create<long> { typedef spirit::long_type type; static type call() { return type(); } }; template <> struct meta_create<unsigned int> { typedef spirit::uint_type type; static type call() { return type(); } }; #if !defined(BOOST_NO_INTRINSIC_WCHAR_T) template <> struct meta_create<unsigned short> { typedef spirit::ushort_type type; static type call() { return type(); } }; #endif template <> struct meta_create<unsigned long> { typedef spirit::ulong_type type; static type call() { return type(); } }; #ifdef BOOST_HAS_LONG_LONG template <> struct meta_create<boost::long_long_type> { typedef spirit::long_long_type type; static type call() { return type(); } }; template <> struct meta_create<boost::ulong_long_type> { typedef spirit::ulong_long_type type; static type call() { return type(); } }; #endif // floating point generators template <> struct meta_create<float> { typedef spirit::float_type type; static type call() { return type(); } }; template <> struct meta_create<double> { typedef spirit::double_type type; static type call() { return type(); } }; template <> struct meta_create<long double> { typedef spirit::long_double_type type; static type call() { return type(); } }; }}} /////////////////////////////////////////////////////////////////////////////// namespace boost { namespace spirit { namespace traits { /////////////////////////////////////////////////////////////////////////// // main customization point for create_generator template <typename T, typename Enable = void> struct create_generator : karma::meta_create<T> {}; /////////////////////////////////////////////////////////////////////////// // dispatch this to the karma related specializations template <typename T> struct meta_create<karma::domain, T> : create_generator<typename spirit::detail::remove_const_ref<T>::type> {}; /////////////////////////////////////////////////////////////////////////// // Check whether a valid mapping exits for the given data type to a Karma // component template <typename T> struct meta_create_exists<karma::domain, T> : mpl::not_<is_same< karma::no_auto_mapping_exists , typename meta_create<karma::domain, T>::type > > {}; }}} #endif