/////////////////////////////////////////////////////////////////////////////// // width_of.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_WIDTH_OF_HPP_EAN_10_04_2005 #define BOOST_XPRESSIVE_DETAIL_STATIC_WIDTH_OF_HPP_EAN_10_04_2005 // MS compatible compilers support #pragma once #if defined(_MSC_VER) && (_MSC_VER >= 1020) # pragma once #endif #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace xpressive { namespace detail { template struct width_of; /////////////////////////////////////////////////////////////////////////////// // add_widths // template struct add_widths : mpl::size_t {}; template struct add_widths : unknown_width {}; template struct add_widths : unknown_width {}; template<> struct add_widths : unknown_width {}; /////////////////////////////////////////////////////////////////////////////// // or_widths // template struct or_widths : unknown_width {}; template struct or_widths : mpl::size_t {}; /////////////////////////////////////////////////////////////////////////////// // width_of_terminal // template::value> struct width_of_terminal : mpl::size_t // xpressive literals {}; template struct width_of_terminal : unknown_width // unknown literals (eg, basic_string, basic_regex, etc.) {}; template struct width_of_terminal : mpl::size_t<1> // char literals {}; template struct width_of_terminal : mpl::size_t<1> // char literals {}; template<> struct width_of_terminal : mpl::size_t<1> // char literals {}; template struct width_of_terminal : mpl::size_t::value> // string literals {}; template struct width_of_terminal : mpl::size_t::value> // string literals {}; /////////////////////////////////////////////////////////////////////////////// // width_of // template struct width_of {}; template struct width_of : width_of_terminal::type, Char> {}; template struct width_of : add_widths< width_of::type::proto_base_expr, Char>::value , width_of::type::proto_base_expr, Char>::value > {}; template struct width_of : or_widths< width_of::type::proto_base_expr, Char>::value , width_of::type::proto_base_expr, Char>::value > {}; template struct width_of_assign {}; template struct width_of_assign : width_of::type::proto_base_expr, Char> {}; template struct width_of_assign : mpl::size_t<1> {}; template struct width_of_assign > : unknown_width {}; // either (s1 = ...) or (a1 = ...) or (set = ...) template struct width_of : width_of_assign< Expr , Char , typename proto::result_of::value< typename remove_reference::type::proto_base_expr >::type > {}; template struct width_of : width_of::type::proto_base_expr, Char> {}; template struct width_of : mpl::size_t<0> {}; template struct width_of : mpl::size_t<0> {}; // keep() is used to turn off backtracking, so they should only be used // for things that are variable-width (eg. quantified) template struct width_of : unknown_width { // TODO: keep() now has a second meaning: execute actions immediately. // In that sense, it is perfectly reasonable to put a fixed-width // sub-expression in a keep. Can fixed-width keep() sub-expressions // use the simple_repeat_matcher? }; template struct width_of : unknown_width {}; template struct width_of : unknown_width {}; template struct width_of : unknown_width {}; template struct width_of > : unknown_width {}; template struct width_of > : mpl::if_c< mpl::equal_to::type::proto_base_expr, Char> >::value , unknown_width , mpl::times< width_of::type::proto_base_expr, Char> , mpl::size_t > >::type {}; template struct width_of : width_of::type::proto_base_expr, Char> {}; // when complementing a set or an assertion, the width is that of the set (1) or the assertion (0) template struct width_of : width_of::type::proto_base_expr, Char> {}; // The comma is used in list-initialized sets, and the width of sets are 1 template struct width_of : mpl::size_t<1> {}; // The subscript operator[] is used for sets, as in set['a' | range('b','h')], // or for actions as in (any >> expr)[ action ] template struct width_of_subscript : width_of {}; template struct width_of_subscript : mpl::size_t<1> { // If Left is "set" then make sure that Right has a width_of 1 BOOST_MPL_ASSERT_RELATION( 1 , == , (width_of::type::proto_base_expr, Char>::value)); }; template struct width_of : width_of_subscript::type::proto_base_expr> {}; }}} // namespace boost::xpressive::detail #undef UNREF #endif