boost/xpressive/detail/static/transforms/as_independent.hpp
/////////////////////////////////////////////////////////////////////////////// // as_independent.hpp // // Copyright 2008 Eric Niebler. 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_XPRESSIVE_DETAIL_STATIC_TRANSFORMS_AS_INDEPENDENT_HPP_EAN_04_05_2007 #define BOOST_XPRESSIVE_DETAIL_STATIC_TRANSFORMS_AS_INDEPENDENT_HPP_EAN_04_05_2007 // MS compatible compilers support #pragma once #if defined(_MSC_VER) # pragma once #endif #include <boost/mpl/sizeof.hpp> #include <boost/xpressive/detail/detail_fwd.hpp> #include <boost/xpressive/detail/static/static.hpp> #include <boost/proto/core.hpp> #include <boost/proto/transform/arg.hpp> #include <boost/proto/transform/when.hpp> #include <boost/proto/transform/fold.hpp> #include <boost/proto/transform/fold_tree.hpp> namespace boost { namespace xpressive { namespace detail { struct keeper_tag {}; struct lookahead_tag {}; struct lookbehind_tag {}; }}} namespace boost { namespace xpressive { namespace grammar_detail { // A grammar that only accepts static regexes that // don't have semantic actions. struct NotHasAction : proto::switch_<struct NotHasActionCases> {}; struct NotHasActionCases { template<typename Tag, int Dummy = 0> struct case_ : proto::nary_expr<Tag, proto::vararg<NotHasAction> > {}; template<int Dummy> struct case_<proto::tag::terminal, Dummy> : not_< or_< proto::terminal<detail::tracking_ptr<detail::regex_impl<_> > >, proto::terminal<reference_wrapper<_> > > > {}; template<int Dummy> struct case_<proto::tag::comma, Dummy> : proto::_ // because (set='a','b') can't contain an action {}; template<int Dummy> struct case_<proto::tag::complement, Dummy> : proto::_ // because in ~X, X can't contain an unscoped action {}; template<int Dummy> struct case_<detail::lookahead_tag, Dummy> : proto::_ // because actions in lookaheads are scoped {}; template<int Dummy> struct case_<detail::lookbehind_tag, Dummy> : proto::_ // because actions in lookbehinds are scoped {}; template<int Dummy> struct case_<detail::keeper_tag, Dummy> : proto::_ // because actions in keepers are scoped {}; template<int Dummy> struct case_<proto::tag::subscript, Dummy> : proto::subscript<detail::set_initializer_type, _> {}; // only accept set[...], not actions! }; struct IndependentEndXpression : or_< when<NotHasAction, detail::true_xpression()> , otherwise<detail::independent_end_xpression()> > {}; template<typename Grammar, typename Callable = proto::callable> struct as_lookahead : proto::transform<as_lookahead<Grammar, Callable> > { template<typename Expr, typename State, typename Data> struct impl : proto::transform_impl<Expr, State, Data> { typedef typename proto::result_of::child<Expr>::type arg_type; typedef typename IndependentEndXpression::impl<arg_type, int, int>::result_type end_xpr_type; typedef typename Grammar::template impl<arg_type, end_xpr_type, Data>::result_type xpr_type; typedef detail::lookahead_matcher<xpr_type> result_type; result_type operator ()( typename impl::expr_param expr , typename impl::state_param , typename impl::data_param data ) const { int i = 0; return result_type( typename Grammar::template impl<arg_type, end_xpr_type, Data>()( proto::child(expr) , IndependentEndXpression::impl<arg_type, int, int>()(proto::child(expr), i, i) , data ) , false ); } }; }; template<typename Grammar, typename Callable = proto::callable> struct as_lookbehind : proto::transform<as_lookbehind<Grammar, Callable> > { template<typename Expr, typename State, typename Data> struct impl : proto::transform_impl<Expr, State, Data> { typedef typename proto::result_of::child<Expr>::type arg_type; typedef typename IndependentEndXpression::impl<arg_type, int, int>::result_type end_xpr_type; typedef typename Grammar::template impl<arg_type, end_xpr_type, Data>::result_type xpr_type; typedef detail::lookbehind_matcher<xpr_type> result_type; result_type operator ()( typename impl::expr_param expr , typename impl::state_param , typename impl::data_param data ) const { int i = 0; xpr_type expr2 = typename Grammar::template impl<arg_type, end_xpr_type, Data>()( proto::child(expr) , IndependentEndXpression::impl<arg_type, int, int>()(proto::child(expr), i, i) , data ); std::size_t width = expr2.get_width().value(); return result_type(expr2, width, false); } }; }; template<typename Grammar, typename Callable = proto::callable> struct as_keeper : proto::transform<as_keeper<Grammar, Callable> > { template<typename Expr, typename State, typename Data> struct impl : proto::transform_impl<Expr, State, Data> { typedef typename proto::result_of::child<Expr>::type arg_type; typedef typename IndependentEndXpression::impl<arg_type, int, int>::result_type end_xpr_type; typedef typename Grammar::template impl<arg_type, end_xpr_type, Data>::result_type xpr_type; typedef detail::keeper_matcher<xpr_type> result_type; result_type operator ()( typename impl::expr_param expr , typename impl::state_param , typename impl::data_param data ) const { int i = 0; return result_type( typename Grammar::template impl<arg_type, end_xpr_type, Data>()( proto::child(expr) , IndependentEndXpression::impl<arg_type, int, int>()(proto::child(expr), i, i) , data ) ); } }; }; }}} #endif