EVOLUTION-MANAGER

Edit File: switch.hpp

/*============================================================================= Copyright (c) 2003 Hartmut Kaiser http://spirit.sourceforge.net/ 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_SPIRIT_SWITCH_HPP #define BOOST_SPIRIT_SWITCH_HPP /////////////////////////////////////////////////////////////////////////////// // // The default_p parser generator template uses the following magic number // as the corresponding case label value inside the generated switch() // statements. If this number conflicts with your code, please pick a // different one. // /////////////////////////////////////////////////////////////////////////////// #if !defined(BOOST_SPIRIT_DEFAULTCASE_MAGIC) #define BOOST_SPIRIT_DEFAULTCASE_MAGIC 0x15F97A7 #endif /////////////////////////////////////////////////////////////////////////////// // // Spirit predefined maximum number of possible case_p/default_p case branch // parsers. // /////////////////////////////////////////////////////////////////////////////// #if !defined(BOOST_SPIRIT_SWITCH_CASE_LIMIT) #define BOOST_SPIRIT_SWITCH_CASE_LIMIT 3 #endif // !defined(BOOST_SPIRIT_SWITCH_CASE_LIMIT) /////////////////////////////////////////////////////////////////////////////// #include <boost/static_assert.hpp> /////////////////////////////////////////////////////////////////////////////// // // Ensure BOOST_SPIRIT_SELECT_LIMIT > 0 // /////////////////////////////////////////////////////////////////////////////// BOOST_STATIC_ASSERT(BOOST_SPIRIT_SWITCH_CASE_LIMIT > 0); #include <boost/spirit/home/classic/namespace.hpp> #include <boost/spirit/home/classic/core/config.hpp> #include <boost/type_traits/is_same.hpp> #include <boost/spirit/home/classic/core/parser.hpp> #include <boost/spirit/home/classic/core/composite/epsilon.hpp> #include <boost/spirit/home/classic/dynamic/impl/switch.ipp> /////////////////////////////////////////////////////////////////////////////// namespace boost { namespace spirit { BOOST_SPIRIT_CLASSIC_NAMESPACE_BEGIN /////////////////////////////////////////////////////////////////////////////// // // The switch_parser allows to build switch like parsing constructs, which // will have much better perfomance as comparable straight solutions. // // Input stream driven syntax: // // switch_p // [ // case_p<'a'> // (...parser to use, if the next character is 'a'...), // case_p<'b'> // (...parser to use, if the next character is 'b'...), // default_p // (...parser to use, if nothing was matched before...) // ] // // General syntax: // // switch_p(...lazy expression returning the switch condition value...) // [ // case_p<1> // (...parser to use, if the switch condition value is 1...), // case_p<2> // (...parser to use, if the switch condition value is 2...), // default_p // (...parser to use, if nothing was matched before...) // ] // // The maximum number of possible case_p branches is defined by the p constant // BOOST_SPIRIT_SWITCH_CASE_LIMIT (this value defaults to 3 if not otherwise // defined). // /////////////////////////////////////////////////////////////////////////////// template <typename CaseT, typename CondT = impl::get_next_token_cond> struct switch_parser : public unary<CaseT, parser<switch_parser<CaseT, CondT> > > { typedef switch_parser<CaseT, CondT> self_t; typedef unary_parser_category parser_category_t; typedef unary<CaseT, parser<self_t> > base_t; switch_parser(CaseT const &case_) : base_t(case_), cond(CondT()) {} switch_parser(CaseT const &case_, CondT const &cond_) : base_t(case_), cond(cond_) {} template <typename ScannerT> struct result { typedef typename match_result<ScannerT, nil_t>::type type; }; template <typename ScannerT> typename parser_result<self_t, ScannerT>::type parse(ScannerT const& scan) const { return this->subject().parse(scan, impl::make_cond_functor<CondT>::do_(cond)); } CondT cond; }; /////////////////////////////////////////////////////////////////////////////// template <typename CondT> struct switch_cond_parser { switch_cond_parser(CondT const &cond_) : cond(cond_) {} template <typename ParserT> switch_parser<ParserT, CondT> operator[](parser<ParserT> const &p) const { return switch_parser<ParserT, CondT>(p.derived(), cond); } CondT const &cond; }; /////////////////////////////////////////////////////////////////////////////// template <int N, typename ParserT, bool IsDefault> struct case_parser : public unary<ParserT, parser<case_parser<N, ParserT, IsDefault> > > { typedef case_parser<N, ParserT, IsDefault> self_t; typedef unary_parser_category parser_category_t; typedef unary<ParserT, parser<self_t> > base_t; typedef typename base_t::subject_t self_subject_t; BOOST_STATIC_CONSTANT(int, value = N); BOOST_STATIC_CONSTANT(bool, is_default = IsDefault); BOOST_STATIC_CONSTANT(bool, is_simple = true); BOOST_STATIC_CONSTANT(bool, is_epsilon = ( is_default && boost::is_same<self_subject_t, epsilon_parser>::value )); case_parser(parser<ParserT> const &p) : base_t(p.derived()) {} template <typename ScannerT> struct result { typedef typename match_result<ScannerT, nil_t>::type type; }; template <typename ScannerT, typename CondT> typename parser_result<self_t, ScannerT>::type parse(ScannerT const& scan, CondT const &cond) const { typedef impl::default_case<self_t> default_t; if (!scan.at_end()) { typedef impl::default_delegate_parse< value, is_default, default_t::value> default_parse_t; typename ScannerT::iterator_t const save(scan.first); return default_parse_t::parse(cond(scan), *this, *this, scan, save); } return default_t::is_epsilon ? scan.empty_match() : scan.no_match(); } template <int N1, typename ParserT1, bool IsDefault1> impl::compound_case_parser< self_t, case_parser<N1, ParserT1, IsDefault1>, IsDefault1 > operator, (case_parser<N1, ParserT1, IsDefault1> const &p) const { // If the following compile time assertion fires, you've probably used // more than one default_p case inside the switch_p parser construct. BOOST_STATIC_ASSERT(!is_default || !IsDefault1); typedef case_parser<N1, ParserT1, IsDefault1> right_t; return impl::compound_case_parser<self_t, right_t, IsDefault1>(*this, p); } }; /////////////////////////////////////////////////////////////////////////////// struct switch_parser_gen { // This generates a switch parser, which is driven by the condition value // returned by the lazy parameter expression 'cond'. This may be a parser, // which result is used or a phoenix actor, which will be dereferenced to // obtain the switch condition value. template <typename CondT> switch_cond_parser<CondT> operator()(CondT const &cond) const { return switch_cond_parser<CondT>(cond); } // This generates a switch parser, which is driven by the next character/token // found in the input stream. template <typename CaseT> switch_parser<CaseT> operator[](parser<CaseT> const &p) const { return switch_parser<CaseT>(p.derived()); } }; switch_parser_gen const switch_p = switch_parser_gen(); /////////////////////////////////////////////////////////////////////////////// template <int N, typename ParserT> inline case_parser<N, ParserT, false> case_p(parser<ParserT> const &p) { return case_parser<N, ParserT, false>(p); } /////////////////////////////////////////////////////////////////////////////// struct default_parser_gen : public case_parser<BOOST_SPIRIT_DEFAULTCASE_MAGIC, epsilon_parser, true> { default_parser_gen() : case_parser<BOOST_SPIRIT_DEFAULTCASE_MAGIC, epsilon_parser, true> (epsilon_p) {} template <typename ParserT> case_parser<BOOST_SPIRIT_DEFAULTCASE_MAGIC, ParserT, true> operator()(parser<ParserT> const &p) const { return case_parser<BOOST_SPIRIT_DEFAULTCASE_MAGIC, ParserT, true>(p); } }; default_parser_gen const default_p = default_parser_gen(); /////////////////////////////////////////////////////////////////////////////// BOOST_SPIRIT_CLASSIC_NAMESPACE_END }} // namespace BOOST_SPIRIT_CLASSIC_NS #endif // BOOST_SPIRIT_SWITCH_HPP