/*============================================================================= Copyright (c) 2001-2011 Joel de Guzman 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(SPIRIT_REPEAT_NOVEMBER_14_2008_1148AM) #define SPIRIT_REPEAT_NOVEMBER_14_2008_1148AM #if defined(_MSC_VER) #pragma once #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace spirit { /////////////////////////////////////////////////////////////////////////// // Enablers /////////////////////////////////////////////////////////////////////////// template <> struct use_directive // enables repeat[p] : mpl::true_ {}; template struct use_directive > > : mpl::true_ {}; template struct use_directive > > : mpl::true_ {}; template struct use_directive > > : mpl::true_ {}; template <> // enables *lazy* repeat(exact)[p] struct use_lazy_directive< qi::domain , tag::repeat , 1 // arity > : mpl::true_ {}; template <> // enables *lazy* repeat(min, max)[p] struct use_lazy_directive< // and repeat(min, inf)[p] qi::domain , tag::repeat , 2 // arity > : mpl::true_ {}; }} namespace boost { namespace spirit { namespace qi { #ifndef BOOST_SPIRIT_NO_PREDEFINED_TERMINALS using spirit::repeat; using spirit::inf; #endif using spirit::repeat_type; using spirit::inf_type; template struct exact_iterator // handles repeat(exact)[p] { exact_iterator(T const exact_) : exact(exact_) {} typedef T type; T start() const { return 0; } bool got_max(T i) const { return i >= exact; } bool got_min(T i) const { return i >= exact; } T const exact; private: // silence MSVC warning C4512: assignment operator could not be generated exact_iterator& operator= (exact_iterator const&); }; template struct finite_iterator // handles repeat(min, max)[p] { finite_iterator(T const min_, T const max_) : min BOOST_PREVENT_MACRO_SUBSTITUTION (min_) , max BOOST_PREVENT_MACRO_SUBSTITUTION (max_) {} typedef T type; T start() const { return 0; } bool got_max(T i) const { return i >= max; } bool got_min(T i) const { return i >= min; } T const min; T const max; private: // silence MSVC warning C4512: assignment operator could not be generated finite_iterator& operator= (finite_iterator const&); }; template struct infinite_iterator // handles repeat(min, inf)[p] { infinite_iterator(T const min_) : min BOOST_PREVENT_MACRO_SUBSTITUTION (min_) {} typedef T type; T start() const { return 0; } bool got_max(T /*i*/) const { return false; } bool got_min(T i) const { return i >= min; } T const min; private: // silence MSVC warning C4512: assignment operator could not be generated infinite_iterator& operator= (infinite_iterator const&); }; template struct repeat_parser : unary_parser > { typedef Subject subject_type; template struct attribute { // Build a std::vector from the subject's attribute. Note // that build_std_vector may return unused_type if the // subject's attribute is an unused_type. typedef typename traits::build_std_vector< typename traits::attribute_of< Subject, Context, Iterator>::type >::type type; }; repeat_parser(Subject const& subject_, LoopIter const& iter_) : subject(subject_), iter(iter_) {} template bool parse_container(F f) const { typename LoopIter::type i = iter.start(); for (/**/; !iter.got_min(i); ++i) { if (f (subject)) return false; } // parse some more up to the maximum specified typename F::iterator_type save = f.f.first; for (/**/; !iter.got_max(i); ++i) { if (f (subject)) break; save = f.f.first; } f.f.first = save; return true; } template bool parse(Iterator& first, Iterator const& last , Context& context, Skipper const& skipper , Attribute& attr_) const { typedef detail::fail_function fail_function; // ensure the attribute is actually a container type traits::make_container(attr_); Iterator iter_local = first; fail_function f(iter_local, last, context, skipper); if (!parse_container(detail::make_pass_container(f, attr_))) return false; first = f.first; return true; } template info what(Context& context) const { return info("repeat", subject.what(context)); } Subject subject; LoopIter iter; private: // silence MSVC warning C4512: assignment operator could not be generated repeat_parser& operator= (repeat_parser const&); }; /////////////////////////////////////////////////////////////////////////// // Parser generators: make_xxx function (objects) /////////////////////////////////////////////////////////////////////////// template struct make_directive { typedef kleene result_type; result_type operator()(unused_type, Subject const& subject, unused_type) const { return result_type(subject); } }; template struct make_directive< terminal_ex >, Subject, Modifiers> { typedef exact_iterator iterator_type; typedef repeat_parser result_type; template result_type operator()( Terminal const& term, Subject const& subject, unused_type) const { return result_type(subject, fusion::at_c<0>(term.args)); } }; template struct make_directive< terminal_ex >, Subject, Modifiers> { typedef finite_iterator iterator_type; typedef repeat_parser result_type; template result_type operator()( Terminal const& term, Subject const& subject, unused_type) const { return result_type(subject, iterator_type( fusion::at_c<0>(term.args) , fusion::at_c<1>(term.args) ) ); } }; template struct make_directive< terminal_ex >, Subject, Modifiers> { typedef infinite_iterator iterator_type; typedef repeat_parser result_type; template result_type operator()( Terminal const& term, Subject const& subject, unused_type) const { return result_type(subject, fusion::at_c<0>(term.args)); } }; }}} namespace boost { namespace spirit { namespace traits { /////////////////////////////////////////////////////////////////////////// template struct has_semantic_action > : unary_has_semantic_action {}; /////////////////////////////////////////////////////////////////////////// template struct handles_container , Attribute, Context, Iterator> : mpl::true_ {}; }}} #endif