boost/type_erasure/detail/normalize.hpp
// Boost.TypeErasure library // // Copyright 2011 Steven Watanabe // // 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) // // $Id$ #ifndef BOOST_TYPE_ERASURE_DETAIL_NORMALIZE_HPP_INCLUDED #define BOOST_TYPE_ERASURE_DETAIL_NORMALIZE_HPP_INCLUDED #include <boost/mpl/assert.hpp> #include <boost/mpl/eval_if.hpp> #include <boost/mpl/identity.hpp> #include <boost/mpl/is_sequence.hpp> #include <boost/mpl/set.hpp> #include <boost/mpl/map.hpp> #include <boost/mpl/has_key.hpp> #include <boost/mpl/insert.hpp> #include <boost/mpl/vector.hpp> #include <boost/mpl/back_inserter.hpp> #include <boost/mpl/inserter.hpp> #include <boost/mpl/fold.hpp> #include <boost/mpl/transform.hpp> #include <boost/mpl/copy.hpp> #include <boost/mpl/at.hpp> #include <boost/type_traits/is_same.hpp> #include <boost/type_erasure/detail/get_placeholders.hpp> #include <boost/type_erasure/detail/rebind_placeholders.hpp> #include <boost/type_erasure/detail/normalize_deduced.hpp> #include <boost/type_erasure/detail/meta.hpp> #include <boost/type_erasure/relaxed.hpp> #include <boost/type_erasure/builtin.hpp> namespace boost { namespace type_erasure { template<class F> struct deduced; template<class T, class U> struct same_type; namespace detail { struct substitution_map_tag {}; // a wrapper around an mpl::map that // defaults to the identity map. template<class M> struct substitution_map { typedef substitution_map_tag tag; typedef M map_type; }; } } namespace mpl { template<> struct at_impl< ::boost::type_erasure::detail::substitution_map_tag> { template<class Seq, class Key> struct apply { typedef typename ::boost::mpl::eval_if< ::boost::mpl::has_key<typename Seq::map_type, Key>, ::boost::mpl::at<typename Seq::map_type, Key>, ::boost::mpl::identity<Key> >::type type; }; }; template<> struct has_key_impl< ::boost::type_erasure::detail::substitution_map_tag> { template<class Seq, class Key> struct apply : boost::mpl::true_ {}; }; } namespace type_erasure { namespace detail { // Given the arguments to same_type, determines // which should be the key and which should be // the value in the substitution map. template<class T, class U> struct select_pair { BOOST_MPL_ASSERT((::boost::is_same<T, U>)); typedef void type; }; template<class T, class U> struct select_pair<T, ::boost::type_erasure::deduced<U> > { typedef ::boost::mpl::pair< ::boost::type_erasure::deduced<U>, T> type; }; template<class T, class U> struct select_pair< ::boost::type_erasure::deduced<T>, U> { typedef ::boost::mpl::pair< ::boost::type_erasure::deduced<T>, U> type; }; template<class T, class U> struct select_pair< ::boost::type_erasure::deduced<T>, ::boost::type_erasure::deduced<U> > { typedef ::boost::mpl::pair< ::boost::type_erasure::deduced<T>, ::boost::type_erasure::deduced<U> > type; }; #ifndef BOOST_TYPE_ERASURE_USE_MP11 // given a partial substitution map from same_type, // resolves a placeholder as far as possible. template<class M, class T> struct resolve_same_type { typedef typename ::boost::mpl::eval_if< ::boost::mpl::has_key<M, T>, ::boost::type_erasure::detail::resolve_same_type< M, typename ::boost::mpl::at<M, T>::type >, ::boost::mpl::identity<T> >::type type; }; // M is a map of placeholder substitutions template<class M, class T> struct normalize_placeholder { typedef typename ::boost::mpl::eval_if< ::boost::mpl::has_key<M, T>, ::boost::type_erasure::detail::normalize_placeholder< M, typename ::boost::mpl::at<M, T>::type >, ::boost::mpl::identity<T> >::type type; }; template<class M, class T> struct normalize_placeholder<M, ::boost::type_erasure::deduced<T> > { typedef typename ::boost::mpl::eval_if< ::boost::mpl::has_key<M, T>, ::boost::type_erasure::detail::normalize_placeholder< M, typename ::boost::mpl::at<M, T>::type >, ::boost::type_erasure::detail::normalize_deduced< M, T > >::type type; }; // Takes a mpl::map of placeholder substitutions and // fully resolves it. i.e. a -> b, b -> c, becomes // a -> c, b -> c. Also resolves deduced placeholders // whose arguments are all resolved. template<class M> struct create_placeholder_map { typedef typename ::boost::mpl::fold< M, ::boost::mpl::map0<>, ::boost::mpl::insert< ::boost::mpl::_1, ::boost::mpl::pair< ::boost::mpl::first< ::boost::mpl::_2>, ::boost::type_erasure::detail::normalize_placeholder<M, ::boost::mpl::second< ::boost::mpl::_2> > > > >::type type; }; template<class Bindings, class P, class Out, class Sub> struct convert_deduced { typedef typename ::boost::type_erasure::detail::rebind_placeholders_in_argument< typename P::first, Bindings >::type result1; typedef typename ::boost::mpl::at<Sub, result1>::type result; typedef typename ::boost::mpl::eval_if< ::boost::mpl::has_key<Out, typename P::second>, ::boost::mpl::identity<Out>, ::boost::mpl::insert<Out, ::boost::mpl::pair<typename P::second, result> > >::type type; BOOST_MPL_ASSERT((boost::is_same<typename ::boost::mpl::at<type, typename P::second>::type, result>)); }; template<class Bindings, class M, class Sub> struct convert_deductions { typedef typename ::boost::mpl::fold< M, Bindings, ::boost::type_erasure::detail::convert_deduced< Bindings, ::boost::mpl::_2, ::boost::mpl::_1, Sub > >::type type; }; template<class Bindings, class P, class Out> struct add_deduced { typedef typename ::boost::type_erasure::detail::rebind_placeholders_in_argument< typename P::first, Bindings >::type result; typedef typename ::boost::mpl::eval_if< ::boost::mpl::has_key<Out, typename P::second>, ::boost::mpl::identity<Out>, ::boost::mpl::insert<Out, ::boost::mpl::pair<typename P::second, result> > >::type type; BOOST_MPL_ASSERT((boost::is_same<typename ::boost::mpl::at<type, typename P::second>::type, result>)); }; template<class Bindings, class M> struct add_deductions { typedef typename ::boost::mpl::fold< M, Bindings, ::boost::type_erasure::detail::add_deduced< Bindings, ::boost::mpl::_2, ::boost::mpl::_1 > >::type type; }; // Fold Op for normalize_concept_impl template<class Out, class T> struct insert_concept { typedef ::boost::mpl::pair< typename ::boost::mpl::insert<typename Out::first, T>::type, typename Out::second > type; }; template<class Out, class T, class U> struct insert_concept<Out, ::boost::type_erasure::same_type<T, U> > { typedef typename ::boost::type_erasure::detail::resolve_same_type< typename Out::second, T >::type t1; typedef typename ::boost::type_erasure::detail::resolve_same_type< typename Out::second, U >::type t2; typedef ::boost::mpl::pair< typename Out::first, typename ::boost::mpl::eval_if< ::boost::is_same<t1, t2>, ::boost::mpl::identity<typename Out::second>, ::boost::mpl::insert< typename Out::second, typename ::boost::type_erasure::detail::select_pair< t1, t2 >::type > >::type > type; }; // flattens a concept returning an mpl::pair // - first is an MPL sequence containing the leaf concepts // - second is an MPL map of the placeholder substitutions // used to resolve same_type. template<class Concept, class Out = ::boost::mpl::pair< ::boost::mpl::set0<>, ::boost::mpl::map0<> > > struct normalize_concept_impl { typedef typename ::boost::mpl::eval_if< ::boost::mpl::is_sequence<Concept>, ::boost::mpl::fold<Concept, Out, normalize_concept_impl< ::boost::mpl::_2, ::boost::mpl::_1> >, ::boost::type_erasure::detail::insert_concept<Out, Concept> >::type type; }; struct append_typeinfo { template<class Set, class T> struct apply { typedef typename ::boost::mpl::insert< Set, ::boost::type_erasure::typeid_<T> >::type type; }; }; // Seq should be a flattened MPL sequence of leaf concepts. // adds typeid_<P> for every placeholder used. template<class Seq> struct add_typeinfo { typedef typename ::boost::mpl::fold< Seq, ::boost::mpl::set0<>, ::boost::type_erasure::detail::get_placeholders< ::boost::mpl::_2, ::boost::mpl::_1 > >::type placeholders; typedef typename ::boost::mpl::fold< placeholders, Seq, ::boost::type_erasure::detail::append_typeinfo >::type type; }; template<class Concept> struct get_placeholder_normalization_map { typedef typename ::boost::type_erasure::detail::create_placeholder_map< typename normalize_concept_impl<Concept>::type::second >::type type; }; // Flattens a Concept to an mpl::vector of primitive // concepts. Resolves same_type and deduced placeholders. template<class Concept> struct normalize_concept { typedef typename normalize_concept_impl<Concept>::type impl; typedef typename ::boost::type_erasure::detail::create_placeholder_map< typename impl::second >::type substitutions; typedef typename ::boost::mpl::fold< typename impl::first, ::boost::mpl::set0<>, ::boost::mpl::insert< ::boost::mpl::_1, ::boost::type_erasure::detail::rebind_placeholders< ::boost::mpl::_2, ::boost::type_erasure::detail::substitution_map<substitutions> > > >::type basic; typedef typename ::boost::mpl::eval_if< ::boost::type_erasure::is_relaxed<Concept>, ::boost::type_erasure::detail::add_typeinfo<basic>, ::boost::mpl::identity<basic> >::type concept_set; typedef typename ::boost::mpl::copy< concept_set, ::boost::mpl::back_inserter< ::boost::mpl::vector0<> > >::type type; }; // Returns an MPL sequence containing all the concepts // in Concept. If Concept is considered as a DAG, // the result will be sorted topologically. template< class Concept, class Map = typename ::boost::type_erasure::detail::create_placeholder_map< typename ::boost::type_erasure::detail::normalize_concept_impl< Concept >::type::second >::type, class Out = ::boost::mpl::set0<> > struct collect_concepts { typedef typename ::boost::type_erasure::detail::rebind_placeholders< Concept, ::boost::type_erasure::detail::substitution_map<Map> >::type transformed; typedef typename ::boost::mpl::eval_if< ::boost::mpl::is_sequence<Concept>, ::boost::mpl::fold<Concept, Out, collect_concepts< ::boost::mpl::_2, Map, ::boost::mpl::_1> >, ::boost::mpl::identity<Out> >::type type1; typedef typename ::boost::mpl::eval_if< ::boost::is_same<transformed, void>, ::boost::mpl::identity<type1>, ::boost::mpl::insert< type1, transformed > >::type type; }; #else template<bool> struct resolve_same_type_impl; template<class M, class T> using resolve_same_type_t = typename ::boost::type_erasure::detail::resolve_same_type_impl< (::boost::mp11::mp_map_contains<M, T>::value) >::template apply<M, T>; template<> struct resolve_same_type_impl<true> { template<class M, class T> using apply = ::boost::type_erasure::detail::resolve_same_type_t< M, ::boost::mp11::mp_second< ::boost::mp11::mp_map_find<M, T> > >; }; template<> struct resolve_same_type_impl<false> { template<class M, class T> using apply = T; }; // given a partial substitution map from same_type, // resolves a placeholder as far as possible. template<class M, class T> using resolve_same_type = ::boost::mpl::identity< ::boost::type_erasure::detail::resolve_same_type_t<M, T> >; // M is a map of placeholder substitutions template<bool> struct normalize_placeholder_impl; template<class M, class T> using normalize_placeholder_t = typename ::boost::type_erasure::detail::normalize_placeholder_impl< ::boost::mp11::mp_map_contains<M, T>::value >::template apply<M, T>; template<> struct normalize_placeholder_impl<true> { template<class M, class T> using apply = ::boost::type_erasure::detail::normalize_placeholder_t< M, typename ::boost::mp11::mp_second< ::boost::mp11::mp_map_find<M, T> > >; }; template<class T> struct normalize_deduced_impl { template<class Map> using apply = T; }; template<template<class...> class F, class... T> struct normalize_deduced_impl< ::boost::type_erasure::deduced<F<T...> > > { template<class Map> using apply = typename ::boost::type_erasure::deduced<F<normalize_placeholder_t<Map, T>...> >::type; }; template<> struct normalize_placeholder_impl<false> { template<class M, class T> using apply = typename ::boost::type_erasure::detail::normalize_deduced_impl<T>::template apply<M>; }; template<class Map, class T> using normalize_placeholder = ::boost::mpl::identity< ::boost::type_erasure::detail::normalize_placeholder_t<Map, T> >; // Takes a mpl::map of placeholder substitutions and // fully resolves it. i.e. a -> b, b -> c, becomes // a -> c, b -> c. Also resolves deduced placeholders // whose arguments are all resolved. template<class M> struct create_placeholder_map { template<class P> using transform_one = ::boost::mpl::pair< typename ::boost::mpl::first<P>::type, ::boost::type_erasure::detail::normalize_placeholder_t< M, typename ::boost::mpl::second<P>::type > >; typedef ::boost::mp11::mp_transform< transform_one, M > type; }; template<class M> using create_placeholder_map_t = typename ::boost::type_erasure::detail::create_placeholder_map<M>::type; template<class Bindings, class P, class Out, class Sub> struct convert_deduced { typedef ::boost::type_erasure::detail::rebind_placeholders_in_argument_t< typename P::first, Bindings > result1; typedef ::boost::mp11::mp_second< ::boost::mp11::mp_map_find<Sub, result1> > result; typedef ::boost::mp11::mp_map_insert<Out, ::boost::mpl::pair<typename P::second, result> > type; BOOST_MPL_ASSERT((boost::is_same< ::boost::mp11::mp_second< ::boost::mp11::mp_map_find<type, typename P::second> >, result>)); }; template<class Bindings, class Sub> struct convert_deduced_f { template<class Out, class P> using apply = typename ::boost::type_erasure::detail::convert_deduced<Bindings, P, Out, Sub>::type; }; template<class Bindings, class M, class Sub> using convert_deductions_t = ::boost::mp11::mp_fold< M, ::boost::type_erasure::detail::make_mp_list<Bindings>, ::boost::type_erasure::detail::convert_deduced_f<Bindings, Sub>::template apply >; template<class Bindings, class M, class Sub> using convert_deductions = ::boost::mpl::identity< ::boost::type_erasure::detail::convert_deductions_t<Bindings, M, Sub> >; template<class Bindings, class P, class Out> struct add_deduced { typedef typename ::boost::type_erasure::detail::rebind_placeholders_in_argument< typename P::first, Bindings >::type result; typedef ::boost::mp11::mp_map_insert<Out, ::boost::mpl::pair<typename P::second, result> > type; BOOST_MPL_ASSERT((boost::is_same< ::boost::mp11::mp_second< ::boost::mp11::mp_map_find<type, typename P::second> >, result>)); }; template<class Bindings> struct add_deduced_f { template<class Out, class P> using apply = typename ::boost::type_erasure::detail::add_deduced<Bindings, P, Out>::type; }; template<class Bindings, class M> using add_deductions_t = ::boost::mp11::mp_fold< M, ::boost::type_erasure::detail::make_mp_list<Bindings>, ::boost::type_erasure::detail::add_deduced_f< ::boost::type_erasure::detail::make_mp_list<Bindings> >::template apply >; template<class Bindings, class M> using add_deductions = ::boost::mpl::identity< ::boost::type_erasure::detail::add_deductions_t<Bindings, M> >; // Fold Op for normalize_concept_impl template<class T> struct insert_concept_impl { template<class Out> using apply = ::boost::mpl::pair< ::boost::mp11::mp_set_push_back<typename Out::first, T>, typename Out::second >; }; template<class Map, class T> using mpl_insert = typename ::boost::mpl::insert<Map, T>::type; template<class T1, class T2, class Out> using insert_concept_same_type = ::boost::mpl::pair< typename Out::first, typename ::boost::type_erasure::detail::eval_if< ::boost::is_same<T1, T2>::value, ::boost::type_erasure::detail::first, ::boost::mp11::mp_map_insert, // FIXME: is this supposed to be a replace? typename Out::second, typename ::boost::type_erasure::detail::select_pair< T1, T2 >::type > >; template<class T, class U> struct insert_concept_impl< ::boost::type_erasure::same_type<T, U> > { template<class Out> using apply = ::boost::type_erasure::detail::insert_concept_same_type< ::boost::type_erasure::detail::resolve_same_type_t< typename Out::second, T >, ::boost::type_erasure::detail::resolve_same_type_t< typename Out::second, U >, Out >; }; template<bool> struct normalize_concept_impl_test; template<class Out, class Concept> using normalize_concept_impl_f = typename ::boost::type_erasure::detail::normalize_concept_impl_test< ::boost::mpl::is_sequence<Concept>::value >::template apply<Out, Concept>; template<> struct normalize_concept_impl_test<true> { template<class Out, class Concept> using apply = ::boost::mp11::mp_fold< ::boost::type_erasure::detail::make_mp_list<Concept>, Out, ::boost::type_erasure::detail::normalize_concept_impl_f >; }; template<> struct normalize_concept_impl_test<false> { template<class Out, class Concept> using apply = typename ::boost::type_erasure::detail::insert_concept_impl<Concept>::template apply<Out>; }; template<class Concept> using normalize_concept_impl_t = ::boost::type_erasure::detail::normalize_concept_impl_f< ::boost::mpl::pair< ::boost::mp11::mp_list<>, ::boost::mp11::mp_list<> >, Concept >; template<class Concept> using normalize_concept_impl = ::boost::mpl::identity< ::boost::type_erasure::detail::normalize_concept_impl_t<Concept> >; template<class S, class T> using get_all_placeholders_impl = typename ::boost::type_erasure::detail::get_placeholders<T, S>::type; template<class Seq> using get_all_placeholders = ::boost::mp11::mp_fold< Seq, ::boost::mp11::mp_list<>, ::boost::type_erasure::detail::get_all_placeholders_impl >; template<class T> using make_identity_pair = ::boost::mpl::pair<T, T>; template<class Concept> using make_identity_placeholder_map = ::boost::mp11::mp_transform< ::boost::type_erasure::detail::make_identity_pair, ::boost::type_erasure::detail::get_all_placeholders< typename normalize_concept_impl_t<Concept>::first > >; template<class S, class T> using append_type_info = ::boost::mp11::mp_set_push_back< S, ::boost::type_erasure::typeid_<T> >; template<class Seq> using add_typeinfo_t = ::boost::mp11::mp_fold< get_all_placeholders<Seq>, Seq, ::boost::type_erasure::detail::append_type_info >; // Seq should be a flattened mp_list sequence of leaf concepts. // adds typeid_<P> for every placeholder used. template<class Seq> using add_typeinfo = ::boost::mpl::identity<add_typeinfo_t<Seq> >; template<class Substitutions> struct normalize_concept_substitute_f { template<class Set, class Concept> using apply = ::boost::mp11::mp_set_push_back<Set, typename ::boost::type_erasure::detail::rebind_placeholders< Concept, Substitutions >::type >; }; template<class Concept, class Pair> using normalize_concept_adjustments = ::boost::type_erasure::detail::eval_if< ::boost::type_erasure::is_relaxed<Concept>::value, ::boost::type_erasure::detail::add_typeinfo_t, ::boost::type_erasure::detail::first, ::boost::mp11::mp_fold< typename Pair::first, ::boost::mp11::mp_list<>, ::boost::type_erasure::detail::normalize_concept_substitute_f< ::boost::type_erasure::detail::create_placeholder_map_t< typename Pair::second > >::template apply > >; template<class Concept> using get_placeholder_normalization_map_t = ::boost::type_erasure::detail::create_placeholder_map_t< typename normalize_concept_impl_t<Concept>::second >; template<class Concept> using get_placeholder_normalization_map = ::boost::type_erasure::detail::create_placeholder_map< typename normalize_concept_impl_t<Concept>::second >; // Flattens a Concept to an mpl::vector of primitive // concepts. Resolves same_type and deduced placeholders. template<class Concept> using normalize_concept_t = ::boost::type_erasure::detail::normalize_concept_adjustments< Concept, boost::type_erasure::detail::normalize_concept_impl_t<Concept> >; template<class Concept> using normalize_concept = ::boost::mpl::identity< ::boost::type_erasure::detail::normalize_concept_t<Concept> >; template<class Map> struct collect_concepts_f; template<class Out, class Concept, class Map> using collect_concepts_recursive = ::boost::mp11::mp_fold< ::boost::type_erasure::detail::make_mp_list<Concept>, Out, ::boost::type_erasure::detail::collect_concepts_f<Map>::template apply >; template<class Concept, class Map, class Out, class Transformed> using collect_concepts_impl = ::boost::type_erasure::detail::eval_if< ::boost::is_same<Transformed, void>::value, ::boost::type_erasure::detail::first, ::boost::mp11::mp_set_push_front, ::boost::type_erasure::detail::eval_if< ::boost::mpl::is_sequence<Concept>::value, ::boost::type_erasure::detail::collect_concepts_recursive, ::boost::type_erasure::detail::first, Out, Concept, Map >, Transformed >; template<class Concept, class Map = ::boost::type_erasure::detail::create_placeholder_map_t< typename ::boost::type_erasure::detail::normalize_concept_impl_t< Concept >::second >, class Out = ::boost::mp11::mp_list<> > using collect_concepts_t = collect_concepts_impl<Concept, Map, Out, typename ::boost::type_erasure::detail::rebind_placeholders< Concept, Map >::type >; template<class Map> struct collect_concepts_f { template<class Out, class Concept> using apply = ::boost::type_erasure::detail::collect_concepts_t<Concept, Map, Out>; }; // Returns an MPL sequence containing all the concepts // in Concept. If Concept is considered as a DAG, // the result will be sorted topologically. template<class Concept> using collect_concepts = ::boost::mpl::identity< ::boost::type_erasure::detail::collect_concepts_t<Concept> >; #endif } } } #endif