EVOLUTION-MANAGER

Edit File: any_if.hpp

/*============================================================================= Copyright (c) 2001-2011 Hartmut Kaiser Copyright (c) 2001-2011 Joel de Guzman 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_ANY_IF_MARCH_30_2007_1220PM) #define BOOST_SPIRIT_ANY_IF_MARCH_30_2007_1220PM #if defined(_MSC_VER) #pragma once #endif #include <boost/fusion/include/equal_to.hpp> #include <boost/fusion/include/next.hpp> #include <boost/fusion/include/deref.hpp> #include <boost/fusion/include/value_of.hpp> #include <boost/fusion/include/begin.hpp> #include <boost/fusion/include/end.hpp> #include <boost/fusion/include/is_sequence.hpp> #include <boost/fusion/include/any.hpp> #include <boost/spirit/home/support/unused.hpp> #include <boost/mpl/bool.hpp> #include <boost/mpl/apply.hpp> #include <boost/mpl/if.hpp> #include <boost/mpl/identity.hpp> #include <boost/mpl/and.hpp> #include <boost/mpl/not.hpp> namespace boost { namespace spirit { /////////////////////////////////////////////////////////////////////////// // This is a special version for a binary fusion::any. The predicate // is used to decide whether to advance the second iterator or not. // This is needed for sequences containing components with unused // attributes. The second iterator is advanced only if the attribute // of the corresponding component iterator is not unused. /////////////////////////////////////////////////////////////////////////// namespace detail { /////////////////////////////////////////////////////////////////////// template <typename Iterator, typename Pred> struct apply_predicate : mpl::apply1<Pred, typename fusion::result_of::value_of<Iterator>::type> {}; /////////////////////////////////////////////////////////////////////// // if the predicate is true, attribute_next returns next(Iterator2), // otherwise Iterator2 namespace result_of { template < typename Iterator1, typename Iterator2, typename Last2 , typename Pred> struct attribute_next { typedef mpl::and_< apply_predicate<Iterator1, Pred> , mpl::not_<fusion::result_of::equal_to<Iterator2, Last2> > > pred; typedef typename mpl::eval_if< pred , fusion::result_of::next<Iterator2> , mpl::identity<Iterator2> >::type type; template <typename Iterator> static type call(Iterator const& i, mpl::true_) { return fusion::next(i); } template <typename Iterator> static type call(Iterator const& i, mpl::false_) { return i; } template <typename Iterator> static type call(Iterator const& i) { return call(i, pred()); } }; } template < typename Pred, typename Iterator1, typename Last2 , typename Iterator2> inline typename result_of::attribute_next<Iterator1, Iterator2, Last2, Pred >::type const attribute_next(Iterator2 const& i) { return result_of::attribute_next< Iterator1, Iterator2, Last2, Pred>::call(i); } /////////////////////////////////////////////////////////////////////// // if the predicate is true, attribute_value returns deref(Iterator2), // otherwise unused namespace result_of { template < typename Iterator1, typename Iterator2, typename Last2 , typename Pred> struct attribute_value { typedef mpl::and_< apply_predicate<Iterator1, Pred> , mpl::not_<fusion::result_of::equal_to<Iterator2, Last2> > > pred; typedef typename mpl::eval_if< pred , fusion::result_of::deref<Iterator2> , mpl::identity<unused_type const> >::type type; template <typename Iterator> static type call(Iterator const& i, mpl::true_) { return fusion::deref(i); } template <typename Iterator> static type call(Iterator const&, mpl::false_) { return unused; } template <typename Iterator> static type call(Iterator const& i) { return call(i, pred()); } }; } template < typename Pred, typename Iterator1, typename Last2 , typename Iterator2> inline typename result_of::attribute_value<Iterator1, Iterator2, Last2, Pred >::type attribute_value(Iterator2 const& i) { return result_of::attribute_value< Iterator1, Iterator2, Last2, Pred>::call(i); } /////////////////////////////////////////////////////////////////////// template < typename Pred, typename First1, typename Last1, typename First2 , typename Last2, typename F> inline bool any_if (First1 const&, First2 const&, Last1 const&, Last2 const& , F const&, mpl::true_) { return false; } template < typename Pred, typename First1, typename Last1, typename First2 , typename Last2, typename F> inline bool any_if (First1 const& first1, First2 const& first2, Last1 const& last1 , Last2 const& last2, F& f, mpl::false_) { typename result_of::attribute_value<First1, First2, Last2, Pred>::type attribute = spirit::detail::attribute_value<Pred, First1, Last2>(first2); return f(*first1, attribute) || detail::any_if<Pred>( fusion::next(first1) , attribute_next<Pred, First1, Last2>(first2) , last1, last2 , f , fusion::result_of::equal_to< typename fusion::result_of::next<First1>::type, Last1>()); } } template <typename Pred, typename Sequence1, typename Sequence2, typename F> inline bool any_if(Sequence1 const& seq1, Sequence2& seq2, F f, Pred) { return detail::any_if<Pred>( fusion::begin(seq1), fusion::begin(seq2) , fusion::end(seq1), fusion::end(seq2) , f , fusion::result_of::equal_to< typename fusion::result_of::begin<Sequence1>::type , typename fusion::result_of::end<Sequence1>::type>()); } template <typename Pred, typename Sequence, typename F> inline bool any_if(Sequence const& seq, unused_type const, F f, Pred) { return fusion::any(seq, f); } }} #endif