#ifndef BOOST_PP_IS_ITERATING /////////////////////////////////////////////////////////////////////////////// /// \file generate.hpp /// Contains definition of generate\<\> class template, which end users can /// specialize for generating domain-specific expression wrappers. // // 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_GENERATE_HPP_EAN_02_13_2007 #define BOOST_PROTO_GENERATE_HPP_EAN_02_13_2007 #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace proto { namespace detail { template struct by_value_generator_; template struct by_value_generator_, 0> > { typedef proto::expr< Tag , term::value_type> , 0 > type; static type const call(proto::expr, 0> const &e) { type that = {e.child0}; return that; } }; template struct by_value_generator_, 0> > { typedef proto::basic_expr< Tag , term::value_type> , 0 > type; static type const call(proto::basic_expr, 0> const &e) { type that = {e.child0}; return that; } }; #define BOOST_PP_ITERATION_PARAMS_1 (3, (1, BOOST_PROTO_MAX_ARITY, )) #include BOOST_PP_ITERATE() #undef BOOST_PROTO_DEFINE_BY_VALUE #undef BOOST_PROTO_DEFINE_BY_VALUE_TYPE } /// \brief A simple generator that passes an expression /// through unchanged. /// /// Generators are intended for use as the first template parameter /// to the \c domain\<\> class template and control if and how /// expressions within that domain are to be customized. /// The \c default_generator makes no modifications to the expressions /// passed to it. struct default_generator { BOOST_PROTO_CALLABLE() template struct result; template struct result { typedef Expr type; }; /// \param expr A Proto expression /// \return expr template #ifdef BOOST_PROTO_STRICT_RESULT_OF Expr #else Expr const & #endif operator ()(Expr const &e) const { return e; } }; /// \brief A generator that wraps expressions passed /// to it in the specified extension wrapper. /// /// Generators are intended for use as the first template parameter /// to the \c domain\<\> class template and control if and how /// expressions within that domain are to be customized. /// \c generator\<\> wraps each expression passed to it in /// the \c Extends\<\> wrapper. template class Extends> struct generator { BOOST_PROTO_CALLABLE() BOOST_PROTO_USE_BASIC_EXPR() template struct result; template struct result { typedef Extends type; }; template struct result { typedef Extends type; }; template struct result { typedef Extends type; }; /// \param expr A Proto expression /// \return Extends(expr) template Extends operator ()(Expr const &e) const { return Extends(e); } }; /// \brief A generator that wraps expressions passed /// to it in the specified extension wrapper and uses /// aggregate initialization for the wrapper. /// /// Generators are intended for use as the first template parameter /// to the \c domain\<\> class template and control if and how /// expressions within that domain are to be customized. /// \c pod_generator\<\> wraps each expression passed to it in /// the \c Extends\<\> wrapper, and uses aggregate initialzation /// for the wrapped object. template class Extends> struct pod_generator { BOOST_PROTO_CALLABLE() BOOST_PROTO_USE_BASIC_EXPR() template struct result; template struct result { typedef Extends type; }; template struct result { typedef Extends type; }; template struct result { typedef Extends type; }; /// \param expr The expression to wrap /// \return Extends\ that = {expr}; return that; template Extends operator ()(Expr const &e) const { Extends that = {e}; return that; } }; /// \brief A generator that replaces child nodes held by /// reference with ones held by value. Use with /// \c compose_generators to forward that result to another /// generator. /// /// Generators are intended for use as the first template parameter /// to the \c domain\<\> class template and control if and how /// expressions within that domain are to be customized. /// \c by_value_generator ensures all child nodes are /// held by value. This generator is typically composed with a /// second generator for further processing, as /// compose_generators\. struct by_value_generator { BOOST_PROTO_CALLABLE() template struct result; template struct result { typedef typename detail::by_value_generator_::type type; }; template struct result { typedef typename detail::by_value_generator_::type type; }; template struct result { typedef typename detail::by_value_generator_::type type; }; /// \param expr The expression to modify. /// \return deep_copy(expr) template typename result::type operator ()(Expr const &e) const { return detail::by_value_generator_::call(e); } }; /// \brief A composite generator that first applies one /// transform to an expression and then forwards the result /// on to another generator for further transformation. /// /// Generators are intended for use as the first template parameter /// to the \c domain\<\> class template and control if and how /// expressions within that domain are to be customized. /// \c compose_generators\<\> is a composite generator that first /// applies one transform to an expression and then forwards the /// result on to another generator for further transformation. template struct compose_generators { BOOST_PROTO_CALLABLE() template struct result; template struct result { typedef typename Second::template result< Second(typename First::template result::type) >::type type; }; template struct result { typedef typename Second::template result< Second(typename First::template result::type) >::type type; }; template struct result { typedef typename Second::template result< Second(typename First::template result::type) >::type type; }; /// \param expr The expression to modify. /// \return Second()(First()(expr)) template typename result::type operator ()(Expr const &e) const { return Second()(First()(e)); } }; /// \brief Annotate a generator to indicate that it would /// prefer to be passed instances of \c proto::basic_expr\<\> rather /// than \c proto::expr\<\>. use_basic_expr\ is /// itself a generator. /// template struct use_basic_expr : Generator { BOOST_PROTO_USE_BASIC_EXPR() }; /// \brief Tests a generator to see whether it would prefer /// to be passed instances of \c proto::basic_expr\<\> rather than /// \c proto::expr\<\>. /// template struct wants_basic_expr : mpl::false_ {}; template struct wants_basic_expr : mpl::true_ {}; /// INTERNAL ONLY template<> struct is_callable : mpl::true_ {}; /// INTERNAL ONLY template class Extends> struct is_callable > : mpl::true_ {}; /// INTERNAL ONLY template class Extends> struct is_callable > : mpl::true_ {}; /// INTERNAL ONLY template<> struct is_callable : mpl::true_ {}; /// INTERNAL ONLY template struct is_callable > : mpl::true_ {}; }} // Specializations of boost::result_of and boost::tr1_result_of to eliminate // some unnecessary template instantiations namespace boost { template struct result_of { typedef Expr type; }; template struct result_of { typedef Expr type; }; #if BOOST_VERSION >= 104400 template struct tr1_result_of { typedef Expr type; }; template struct tr1_result_of { typedef Expr type; }; #endif } #endif // BOOST_PROTO_GENERATE_HPP_EAN_02_13_2007 #else // BOOST_PP_IS_ITERATING #define N BOOST_PP_ITERATION() template struct by_value_generator_< proto::expr, N> > { typedef BOOST_PP_CAT(list, N) src_args; typedef BOOST_PP_CAT(list, N)< BOOST_PP_ENUM_BINARY_PARAMS(N, typename uncvref::type BOOST_PP_INTERCEPT) > dst_args; typedef proto::expr src_type; typedef proto::expr type; static type const call(src_type const &e) { type that = { BOOST_PP_ENUM_PARAMS(N, e.child) }; return that; } }; template struct by_value_generator_< proto::basic_expr, N> > { typedef BOOST_PP_CAT(list, N) src_args; typedef BOOST_PP_CAT(list, N)< BOOST_PP_ENUM_BINARY_PARAMS(N, typename uncvref::type BOOST_PP_INTERCEPT) > dst_args; typedef proto::basic_expr src_type; typedef proto::basic_expr type; static type const call(src_type const &e) { type that = { BOOST_PP_ENUM_PARAMS(N, e.child) }; return that; } }; #undef N #endif