// Copyright 2005 Daniel Wallin. // Copyright 2005 Joel de Guzman. // Copyright 2005 Dan Marsden. // Copyright 2008 Hartmut Kaiser. // Copyright 2015 John Fletcher. // // Use, modification and distribution is subject to 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) // // Modeled after range_ex, Copyright 2004 Eric Niebler #ifndef BOOST_PHOENIX_ALGORITHM_QUERYING_HPP #define BOOST_PHOENIX_ALGORITHM_QUERYING_HPP #include #include #include #include #include #include #include #include #include #include //#include is deprecated #include #include namespace boost { namespace phoenix { namespace impl { struct find { template struct result; template struct result : range_iterator {}; template typename range_iterator::type execute(R& r, T const& x, mpl::true_) const { return r.find(x); } template typename range_iterator::type execute(R& r, T const& x, mpl::false_) const { return std::find(detail::begin_(r), detail::end_(r), x); } template typename range_iterator::type operator()(R& r, T const& x) const { return execute(r, x, has_find()); } }; struct find_if { template struct result; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r, P p) const { return std::find_if(detail::begin_(r), detail::end_(r), p); } }; struct find_end { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r, R2& r2) const { return std::find_end( detail::begin_(r) , detail::end_(r) , detail::begin_(r2) , detail::end_(r2) ); } template typename range_iterator::type operator()(R& r, R2& r2, P p) const { return std::find_end( detail::begin_(r) , detail::end_(r) , detail::begin_(r2) , detail::end_(r2) , p ); } }; struct find_first_of { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r, R2& r2) const { return std::find_first_of( detail::begin_(r) , detail::end_(r) , detail::begin_(r2) , detail::end_(r2) ); } template typename range_iterator::type operator()(R& r, R2& r2, P p) const { return std::find_first_of( detail::begin_(r) , detail::end_(r) , detail::begin_(r2) , detail::end_(r2) , p ); } }; struct adjacent_find { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r) const { return std::adjacent_find(detail::begin_(r), detail::end_(r)); } template typename range_iterator::type operator()(R& r, P p) const { return std::adjacent_find(detail::begin_(r), detail::end_(r), p); } }; struct count { template struct result; template struct result : range_difference {}; template typename range_difference::type operator()(R& r, T const& x) const { return std::count(detail::begin_(r), detail::end_(r), x); } }; struct count_if { template struct result; template struct result : range_difference {}; template typename range_difference::type operator()(R& r, P p) const { return std::count_if(detail::begin_(r), detail::end_(r), p); } }; struct distance { template struct result; template struct result : range_difference {}; template typename range_difference::type operator()(R& r) const { return std::distance(detail::begin_(r), detail::end_(r)); } }; struct equal { typedef bool result_type; template bool operator()(R& r, I i) const { return std::equal(detail::begin_(r), detail::end_(r), i); } template bool operator()(R& r, I i, P p) const { return std::equal(detail::begin_(r), detail::end_(r), i, p); } }; struct search { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r, R2& r2) const { return std::search( detail::begin_(r) , detail::end_(r) , detail::begin_(r2) , detail::end_(r2) ); } template typename range_iterator::type operator()(R& r, R2& r2, P p) const { return std::search( detail::begin_(r) , detail::end_(r) , detail::begin_(r2) , detail::end_(r2) , p ); } }; struct lower_bound { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type execute(R& r, T const& val, mpl::true_) const { return r.lower_bound(val); } template typename range_iterator::type execute(R& r, T const& val, mpl::false_) const { return std::lower_bound(detail::begin_(r), detail::end_(r), val); } template typename range_iterator::type operator()(R& r, T const& val) const { return execute(r, val, has_lower_bound()); } template typename range_iterator::type operator()(R& r, T const& val, C c) const { return std::lower_bound(detail::begin_(r), detail::end_(r), val, c); } }; struct upper_bound { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type execute(R& r, T const& val, mpl::true_) const { return r.upper_bound(val); } template typename range_iterator::type execute(R& r, T const& val, mpl::false_) const { return std::upper_bound(detail::begin_(r), detail::end_(r), val); } template typename range_iterator::type operator()(R& r, T const& val) const { return execute(r, val, has_upper_bound()); } template typename range_iterator::type operator()(R& r, T const& val, C c) const { return std::upper_bound(detail::begin_(r), detail::end_(r), val, c); } }; namespace result_of { template struct equal_range { typedef std::pair< typename range_iterator::type , typename range_iterator::type > type; }; } struct equal_range { template struct result; template struct result : result_of::equal_range {}; template struct result : result_of::equal_range {}; template typename result_of::equal_range::type execute(R& r, T const& val, mpl::true_) const { return r.equal_range(val); } template typename result_of::equal_range::type execute(R& r, T const& val, mpl::false_) const { return std::equal_range(detail::begin_(r), detail::end_(r), val); } template typename result_of::equal_range::type operator()(R& r, T const& val) const { return execute(r, val, has_equal_range()); } template typename result_of::equal_range::type operator()(R& r, T const& val, C c) const { return std::equal_range(detail::begin_(r), detail::end_(r), val, c); } }; namespace result_of { template struct mismatch { typedef std::pair< typename range_iterator::type , typename detail::decay_array::type > type; }; } struct mismatch { template struct result; template struct result : result_of::mismatch {}; template struct result : result_of::mismatch {}; template typename result_of::mismatch::type operator()(R& r, I i) const { return std::mismatch(detail::begin_(r), detail::end_(r), i); } template typename result_of::mismatch::type operator()(R& r, I i, P p) const { return std::mismatch(detail::begin_(r), detail::end_(r), i, p); } }; struct binary_search { typedef bool result_type; template bool operator()(R& r, T const& val) const { return std::binary_search(detail::begin_(r), detail::end_(r), val); } template bool operator()(R& r, T const& val, C c) const { return std::binary_search(detail::begin_(r), detail::end_(r), val, c); } }; struct includes { typedef bool result_type; template bool operator()(R1& r1, R2& r2) const { return std::includes( detail::begin_(r1), detail::end_(r1) , detail::begin_(r2), detail::end_(r2) ); } template bool operator()(R1& r1, R2& r2, C c) const { return std::includes( detail::begin_(r1), detail::end_(r1) , detail::begin_(r2), detail::end_(r2) , c ); } }; struct min_element { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r) const { return std::min_element(detail::begin_(r), detail::end_(r)); } template typename range_iterator::type operator()(R& r, P p) const { return std::min_element(detail::begin_(r), detail::end_(r), p); } }; struct max_element { template struct result; template struct result : range_iterator {}; template struct result : range_iterator {}; template typename range_iterator::type operator()(R& r) const { return std::max_element(detail::begin_(r), detail::end_(r)); } template typename range_iterator::type operator()(R& r, P p) const { return std::max_element(detail::begin_(r), detail::end_(r), p); } }; struct lexicographical_compare { typedef bool result_type; template bool operator()(R1& r1, R2& r2) const { return std::lexicographical_compare( detail::begin_(r1), detail::end_(r1) , detail::begin_(r2), detail::end_(r2) ); } template bool operator()(R1& r1, R2& r2, P p) const { return std::lexicographical_compare( detail::begin_(r1), detail::end_(r1) , detail::begin_(r2), detail::end_(r2) , p ); } }; } BOOST_PHOENIX_ADAPT_CALLABLE(find, impl::find, 2) BOOST_PHOENIX_ADAPT_CALLABLE(find_if, impl::find_if, 2) BOOST_PHOENIX_ADAPT_CALLABLE(find_end, impl::find_end, 2) BOOST_PHOENIX_ADAPT_CALLABLE(find_end, impl::find_end, 3) BOOST_PHOENIX_ADAPT_CALLABLE(find_first_of, impl::find_first_of, 2) BOOST_PHOENIX_ADAPT_CALLABLE(find_first_of, impl::find_first_of, 3) BOOST_PHOENIX_ADAPT_CALLABLE(adjacent_find, impl::adjacent_find, 1) BOOST_PHOENIX_ADAPT_CALLABLE(adjacent_find, impl::adjacent_find, 2) BOOST_PHOENIX_ADAPT_CALLABLE(count, impl::count, 2) BOOST_PHOENIX_ADAPT_CALLABLE(count_if, impl::count_if, 2) BOOST_PHOENIX_ADAPT_CALLABLE(distance, impl::distance, 1) BOOST_PHOENIX_ADAPT_CALLABLE(equal, impl::equal, 2) BOOST_PHOENIX_ADAPT_CALLABLE(equal, impl::equal, 3) BOOST_PHOENIX_ADAPT_CALLABLE(search, impl::search, 2) BOOST_PHOENIX_ADAPT_CALLABLE(search, impl::search, 3) BOOST_PHOENIX_ADAPT_CALLABLE(lower_bound, impl::lower_bound, 2) BOOST_PHOENIX_ADAPT_CALLABLE(lower_bound, impl::lower_bound, 3) BOOST_PHOENIX_ADAPT_CALLABLE(upper_bound, impl::upper_bound, 2) BOOST_PHOENIX_ADAPT_CALLABLE(upper_bound, impl::upper_bound, 3) BOOST_PHOENIX_ADAPT_CALLABLE(equal_range, impl::equal_range, 2) BOOST_PHOENIX_ADAPT_CALLABLE(equal_range, impl::equal_range, 3) BOOST_PHOENIX_ADAPT_CALLABLE(mismatch, impl::mismatch, 2) BOOST_PHOENIX_ADAPT_CALLABLE(mismatch, impl::mismatch, 3) BOOST_PHOENIX_ADAPT_CALLABLE(binary_search, impl::binary_search, 2) BOOST_PHOENIX_ADAPT_CALLABLE(binary_search, impl::binary_search, 3) BOOST_PHOENIX_ADAPT_CALLABLE(includes, impl::includes, 2) BOOST_PHOENIX_ADAPT_CALLABLE(includes, impl::includes, 3) BOOST_PHOENIX_ADAPT_CALLABLE(min_element, impl::min_element, 1) BOOST_PHOENIX_ADAPT_CALLABLE(min_element, impl::min_element, 2) BOOST_PHOENIX_ADAPT_CALLABLE(max_element, impl::max_element, 1) BOOST_PHOENIX_ADAPT_CALLABLE(max_element, impl::max_element, 2) BOOST_PHOENIX_ADAPT_CALLABLE(lexicographical_compare, impl::lexicographical_compare, 2) BOOST_PHOENIX_ADAPT_CALLABLE(lexicographical_compare, impl::lexicographical_compare, 3) }} #endif