EVOLUTION-MANAGER

Edit File: actor.hpp

/*============================================================================= Copyright (c) 2005-2010 Joel de Guzman Copyright (c) 2010 Eric Niebler Copyright (c) 2010 Thomas Heller Copyright (c) 2014 John Fletcher 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_PHOENIX_CORE_ACTOR_HPP #define BOOST_PHOENIX_CORE_ACTOR_HPP #include <boost/phoenix/core/limits.hpp> #include <boost/is_placeholder.hpp> #include <boost/mpl/identity.hpp> #include <boost/mpl/eval_if.hpp> #include <boost/phoenix/core/domain.hpp> #include <boost/phoenix/core/environment.hpp> #include <boost/phoenix/core/is_nullary.hpp> #include <boost/phoenix/core/meta_grammar.hpp> #include <boost/phoenix/support/iterate.hpp> #include <boost/phoenix/support/vector.hpp> #include <boost/proto/extends.hpp> #include <boost/proto/make_expr.hpp> #include <boost/utility/result_of.hpp> #include <boost/mpl/void.hpp> #include <cstring> #ifndef BOOST_PHOENIX_NO_VARIADIC_ACTOR # include <boost/mpl/if.hpp> # include <boost/type_traits/is_reference.hpp> # include <boost/phoenix/core/detail/index_sequence.hpp> #endif #ifdef BOOST_MSVC #pragma warning(push) #pragma warning(disable: 4522) // 'this' used in base member initializer list #pragma warning(disable: 4510) // default constructor could not be generated #pragma warning(disable: 4610) // can never be instantiated - user defined cons #endif namespace boost { namespace phoenix { template <typename Expr> struct actor; namespace detail { struct error_expecting_arguments { template <typename T> error_expecting_arguments(T const&) {} }; struct error_invalid_lambda_expr { template <typename T> error_invalid_lambda_expr(T const&) {} }; template <typename T> struct result_type_deduction_helper { typedef T const & type; }; template <typename T> struct result_type_deduction_helper<T &> { typedef T & type; }; template <typename T> struct result_type_deduction_helper<T const &> { typedef T const & type; }; } namespace result_of { #ifdef BOOST_PHOENIX_NO_VARIADIC_ACTOR // Bring in the result_of::actor<> #include <boost/phoenix/core/detail/cpp03/actor_result_of.hpp> #else template <typename Expr, typename... A> struct actor_impl { typedef typename boost::phoenix::evaluator::impl< Expr const& , vector2< typename vector_chooser<sizeof...(A) + 1>:: template apply<const ::boost::phoenix::actor<Expr> *, A...>::type& , default_actions > const & , proto::empty_env >::result_type type; }; template <typename Expr, typename... A> struct actor : actor_impl<Expr, A...> {}; template <typename Expr> struct nullary_actor_result : actor_impl<Expr> {}; #endif template <typename Expr> struct actor<Expr> { typedef // avoid calling result_of::actor when this is false typename mpl::eval_if_c< result_of::is_nullary<Expr>::value , nullary_actor_result<Expr> , mpl::identity<detail::error_expecting_arguments> >::type type; }; } //////////////////////////////////////////////////////////////////////////// // // actor // // The actor class. The main thing! In phoenix, everything is an actor // This class is responsible for full function evaluation. Partial // function evaluation involves creating a hierarchy of actor objects. // //////////////////////////////////////////////////////////////////////////// template <typename Expr> struct actor { typedef typename mpl::eval_if_c< mpl::or_< is_custom_terminal<Expr> , mpl::bool_<is_placeholder<Expr>::value> >::value , proto::terminal<Expr> , mpl::identity<Expr> >::type expr_type; BOOST_PROTO_BASIC_EXTENDS(expr_type, actor<Expr>, phoenix_domain) BOOST_PROTO_EXTENDS_SUBSCRIPT() BOOST_PROTO_EXTENDS_ASSIGN() template <typename Sig> struct result; typename result_of::actor<proto_base_expr>::type operator()() { typedef vector1<const actor<Expr> *> env_type; env_type env = {this}; return phoenix::eval(*this, phoenix::context(env, default_actions())); } typename result_of::actor<proto_base_expr>::type operator()() const { typedef vector1<const actor<Expr> *> env_type; env_type env = {this}; return phoenix::eval(*this, phoenix::context(env, default_actions())); } template <typename Env> typename evaluator::impl< proto_base_expr const & , typename result_of::context< Env const & , default_actions const & >::type , proto::empty_env >::result_type eval(Env const & env) const { return phoenix::eval(*this, phoenix::context(env, default_actions())); } #ifdef BOOST_PHOENIX_NO_VARIADIC_ACTOR // Bring in the rest #include <boost/phoenix/core/detail/cpp03/actor_operator.hpp> #else template <typename This, typename... A> struct result<This(A...)> : result_of::actor< proto_base_expr , typename mpl::if_<is_reference<A>, A, A const &>::type... > {}; template <typename... A> typename result<actor(A...)>::type operator()(A &&... a) { typedef typename vector_chooser<sizeof...(A) + 1>::template apply< const actor<Expr> * , typename mpl::if_<is_reference<A>, A, A const &>::type... >::type env_type; env_type env = {this, a...}; return phoenix::eval(*this, phoenix::context(env, default_actions())); } template <typename... A> typename result<actor(A...)>::type operator()(A &&... a) const { typedef typename vector_chooser<sizeof...(A) + 1>::template apply< const actor<Expr> * , typename mpl::if_<is_reference<A>, A, A const &>::type... >::type env_type; env_type env = {this, a...}; return phoenix::eval(*this, phoenix::context(env, default_actions())); } #endif }; }} namespace boost { // specialize boost::result_of to return the proper result type template <typename Expr> struct result_of<phoenix::actor<Expr>()> : phoenix::result_of::actor<typename phoenix::actor<Expr>::proto_base_expr> {}; template <typename Expr> struct result_of<phoenix::actor<Expr> const()> : phoenix::result_of::actor<typename phoenix::actor<Expr>::proto_base_expr> {}; } #ifdef BOOST_MSVC #pragma warning(pop) #endif #endif