pass_through.hpp

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#ifndef BOOST_PP_IS_ITERATING
    ///////////////////////////////////////////////////////////////////////////////
    /// \file pass_through.hpp
    ///
    /// Definition of the pass_through transform, which is the default transform
    /// of all of the expression generator metafunctions such as posit<>, plus<>
    /// and nary_expr<>.
    //
    //  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_PROTO_TRANSFORM_PASS_THROUGH_HPP_EAN_12_26_2006
    #define BOOST_PROTO_TRANSFORM_PASS_THROUGH_HPP_EAN_12_26_2006

    #include <boost/xpressive/proto/detail/prefix.hpp>
    #include <boost/preprocessor/cat.hpp>
    #include <boost/preprocessor/repetition/enum.hpp>
    #include <boost/preprocessor/iteration/iterate.hpp>
    #include <boost/mpl/bool.hpp>
    #include <boost/xpressive/proto/proto_fwd.hpp>
    #include <boost/xpressive/proto/args.hpp>
    #include <boost/xpressive/proto/detail/suffix.hpp>

    namespace boost { namespace proto { namespace transform
    {
        namespace detail
        {
            template<
                typename Grammar
              , typename Expr
              , typename State
              , typename Visitor
              , long Arity = Expr::proto_arity::value
            >
            struct pass_through_impl
            {};

            #define BOOST_PROTO_DEFINE_TRANSFORM_TYPE(z, n, data)                                   \
                typename Grammar::BOOST_PP_CAT(proto_arg, n)::template result<void(                 \
                    typename Expr::BOOST_PP_CAT(proto_arg, n)::proto_base_expr                      \
                  , State                                                                           \
                  , Visitor                                                                         \
                )>::type

            #define BOOST_PROTO_DEFINE_TRANSFORM(z, n, data)                                        \
                typename Grammar::BOOST_PP_CAT(proto_arg, n)()(                                     \
                    expr.BOOST_PP_CAT(arg, n).proto_base(), state, visitor                          \
                )

            #define BOOST_PP_ITERATION_PARAMS_1 (3, (1, BOOST_PROTO_MAX_ARITY, <boost/xpressive/proto/transform/pass_through.hpp>))
            #include BOOST_PP_ITERATE()

            #undef BOOST_PROTO_DEFINE_TRANSFORM
            #undef BOOST_PROTO_DEFINE_TRANSFORM_TYPE

            template<typename Grammar, typename Expr, typename State, typename Visitor>
            struct pass_through_impl<Grammar, Expr, State, Visitor, 0>
            {
                typedef Expr type;

                static Expr const &call(Expr const &expr, State const &, Visitor &)
                {
                    return expr;
                }
            };

        } // namespace detail

        /// \brief A PrimitiveTransform that transforms the children expressions
        /// of an expression node according to the corresponding children of
        /// a Grammar.
        ///
        /// Given a Grammar such as <tt>plus\<T0, T1\></tt>, an expression type
        /// that matches the grammar such as <tt>plus\<E0, E1\>::::type</tt>, a
        /// state \c S and a visitor \c V, the result of applying the
        /// <tt>pass_through\<plus\<T0, T1\> \></tt> transform is:
        ///
        /// \code
        /// plus<
        ///     T0::result<void(E0, S, V)>::type
        ///   , T1::result<void(E1, S, V)>::type
        /// >::type
        /// \endcode
        ///
        /// The above demonstrates how children transforms and children expressions
        /// are applied pairwise, and how the results are reassembled into a new
        /// expression node with the same tag type as the original.
        ///
        /// The explicit use of <tt>pass_through\<\></tt> is not usually needed,
        /// since the expression generator metafunctions such as
        /// <tt>plus\<\></tt> have <tt>pass_through\<\></tt> as their default
        /// transform. So, for instance, these are equivalent:
        ///
        /// \code
        /// // Within a grammar definition, these are equivalent:
        /// when< plus<X, Y>, pass_through< plus<X, Y> > >
        /// when< plus<X, Y>, plus<X, Y> >
        /// when< plus<X, Y> > // because of when<class X, class Y=X>
        /// plus<X, Y>         // because plus<> is both a
        ///                    //   grammar and a transform
        /// \endcode
        ///
        /// For example, consider the following transform that promotes all
        /// \c float terminals in an expression to \c double.
        ///
        /// \code
        /// // This transform finds all float terminals in an expression and promotes
        /// // them to doubles.
        /// struct Promote
        ///  : or_<
        ///         when<terminal<float>, terminal<double>::type(_arg) >
        ///         // terminal<>'s default transform is a no-op:
        ///       , terminal<_>
        ///         // nary_expr<> has a pass_through<> transform:
        ///       , nary_expr<_, vararg<Promote> >
        ///     >
        /// {};
        /// \endcode
        template<typename Grammar>
        struct pass_through
          : proto::callable
        {
            template<typename Sig>
            struct result;

            template<typename This, typename Expr, typename State, typename Visitor>
            struct result<This(Expr, State, Visitor)>
            {
                typedef
                    transform::detail::pass_through_impl<
                        Grammar
                      , typename Expr::proto_base_expr
                      , State
                      , Visitor
                      , Expr::proto_arity::value
                    >
                impl;

                typedef typename impl::type type;
            };

            /// \param expr The current expression
            /// \param state The current state
            /// \param visitor An arbitrary visitor
            /// \pre <tt>matches\<Expr, Grammar\>::::value</tt> is \c true.
            template<typename Expr, typename State, typename Visitor>
            typename result<void(Expr, State, Visitor)>::type
            operator ()(Expr const &expr, State const &state, Visitor &visitor) const
            {
                return result<void(Expr, State, Visitor)>::impl
                    ::call(expr.proto_base(), state, visitor);
            }
        };

    } // namespace transform

    /// INTERNAL ONLY
    ///
    template<typename Grammar>
    struct is_callable<transform::pass_through<Grammar> >
      : mpl::true_
    {};

    }} // namespace boost::proto

    #endif

#else

    #define N BOOST_PP_ITERATION()

            template<typename Grammar, typename Expr, typename State, typename Visitor>
            struct pass_through_impl<Grammar, Expr, State, Visitor, N>
            {
                typedef proto::expr<
                    typename Expr::proto_tag
                  , BOOST_PP_CAT(args, N)<
                        BOOST_PP_ENUM(N, BOOST_PROTO_DEFINE_TRANSFORM_TYPE, ~)
                    >
                > type;

                #if BOOST_WORKAROUND(BOOST_MSVC, == 1310)
                template<typename Expr2, typename State2, typename Visitor2>
                static type call(Expr2 const &expr, State2 const &state, Visitor2 &visitor)
                #else
                static type call(Expr const &expr, State const &state, Visitor &visitor)
                #endif
                {
                    type that = {
                        BOOST_PP_ENUM(N, BOOST_PROTO_DEFINE_TRANSFORM, ~)
                    };
                    #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1400))
                    // Without this, MSVC complains that "that" is uninitialized,
                    // and it actually triggers a runtime check in debug mode when
                    // built with VC8.
                    &that;
                    #endif
                    return that;
                }
            };

    #undef N

#endif