boost/msm/front/euml/common.hpp
// Copyright 2008 Christophe Henry // henry UNDERSCORE christophe AT hotmail DOT com // This is an extended version of the state machine available in the boost::mpl library // Distributed under the same license as the original. // Copyright for the original version: // Copyright 2005 David Abrahams and Aleksey Gurtovoy. 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_MSM_FRONT_EUML_COMMON_H #define BOOST_MSM_FRONT_EUML_COMMON_H #include <boost/config.hpp> #ifdef BOOST_MPL_LIMIT_METAFUNCTION_ARITY #undef BOOST_MPL_LIMIT_METAFUNCTION_ARITY #endif #ifdef BOOST_PROTO_MAX_ARITY #undef BOOST_PROTO_MAX_ARITY #endif #ifndef BOOST_MPL_CFG_NO_PREPROCESSED_HEADERS #define BOOST_MPL_CFG_NO_PREPROCESSED_HEADERS #endif #ifdef BOOST_MSVC #define BOOST_MPL_LIMIT_METAFUNCTION_ARITY 7 #define BOOST_PROTO_MAX_ARITY 7 #else #define BOOST_MPL_LIMIT_METAFUNCTION_ARITY 6 #define BOOST_PROTO_MAX_ARITY 6 #endif #include <iterator> #include <utility> #include <boost/proto/core.hpp> #include <boost/proto/transform.hpp> #include <boost/utility/enable_if.hpp> #include <boost/type_traits/is_same.hpp> #include <boost/type_traits/remove_reference.hpp> #include <boost/type_traits/add_const.hpp> #include <boost/mpl/vector.hpp> #include <boost/mpl/set.hpp> #include <boost/mpl/has_key.hpp> #include <boost/mpl/int.hpp> #include <boost/mpl/less_equal.hpp> #if BOOST_VERSION >= 104000 #include <boost/mpl/string.hpp> #endif #include <boost/fusion/container/vector.hpp> #include <boost/fusion/include/at_c.hpp> #include <boost/fusion/include/make_map.hpp> #include <boost/fusion/include/pair.hpp> #include <boost/fusion/include/as_vector.hpp> #include <boost/fusion/include/pair.hpp> #include <boost/fusion/include/is_sequence.hpp> #include <boost/type_traits/remove_reference.hpp> #include <boost/preprocessor/repetition/enum_params.hpp> #include <boost/preprocessor/arithmetic/sub.hpp> #include <boost/preprocessor/punctuation/comma_if.hpp> #include <boost/preprocessor/control/expr_if.hpp> #include <boost/preprocessor/punctuation/comma.hpp> #include <boost/preprocessor/arithmetic/add.hpp> #include <boost/preprocessor/cat.hpp> #include <boost/preprocessor/comparison/less.hpp> #include <boost/preprocessor/arithmetic/dec.hpp> #include <boost/preprocessor/repetition/repeat_from_to.hpp> #include <boost/preprocessor/cat.hpp> #include <boost/msm/front/functor_row.hpp> namespace proto = boost::proto; BOOST_MPL_HAS_XXX_TRAIT_DEF(tag_type) BOOST_MPL_HAS_XXX_TRAIT_DEF(action_name) namespace boost { namespace msm { namespace front { namespace euml { template <class T> struct get_iterator { typedef typename T::iterator type; }; template <class T> struct get_reverse_iterator { typedef typename T::reverse_iterator type; }; template <class T> struct get_reference { typedef typename T::reference type; }; template <class T> struct get_size_type { typedef typename T::size_type type; }; template <class T> struct get_value_type { typedef typename T::value_type type; }; template <class T> struct get_first_type { typedef typename T::first_type type; }; template <class T> struct get_second_type { typedef typename T::second_type type; }; template <class T> struct get_action_tag_type { typedef typename ::boost::mpl::has_key< typename T::tag_type,action_tag>::type type; }; template <class T> struct get_state_action_tag_type { typedef typename ::boost::mpl::has_key< typename T::tag_type,state_action_tag>::type type; }; template <class T,class EVT,class FSM,class SourceState,class TargetState> struct get_result_type { typedef typename T::template transition_action_result<EVT,FSM,SourceState,TargetState>::type type; }; template <class T,class Event,class FSM,class STATE> struct get_result_type2 { typedef typename T::template state_action_result<Event,FSM,STATE>::type type; }; template<class SEQ> struct get_sequence { typedef typename SEQ::sequence type; }; template <class T> struct get_attributes_type { typedef typename T::attributes_type type; }; template <class T> struct get_euml_tag_type { typedef typename T::euml_tag_type type; }; template <class T,class Arg1=void,class Arg2=void,class Arg3=void,class Arg4=void,class Arg5=void #ifdef BOOST_MSVC ,class Arg6=void #endif > struct get_fct { typedef typename T::template In<Arg1,Arg2,Arg3,Arg4,Arg5 #ifdef BOOST_MSVC ,Arg6 #endif >::type type; }; template <class T> struct get_action_name { typedef typename T::action_name type; }; template <class T> struct get_event_name { typedef typename T::event_name type; }; // grammar forbidding address of for terminals struct terminal_grammar : proto::not_<proto::address_of<proto::_> > {}; // Forward-declare an expression wrapper template<typename Expr> struct euml_terminal; struct sm_domain : proto::domain< proto::generator<euml_terminal>, terminal_grammar > {}; template<typename Expr> struct euml_terminal : proto::extends<Expr, euml_terminal<Expr>, sm_domain> { typedef proto::extends<Expr, euml_terminal<Expr>, sm_domain> base_type; // Needs a constructor euml_terminal(Expr const &e = Expr()) : base_type(e) {} // Unhide Proto's overloaded assignment operator using base_type::operator=; }; template <class EVT> struct euml_event: proto::extends<typename proto::terminal<event_tag>::type, EVT, sm_domain> { typedef event_tag euml_tag_type; typedef EVT event_name; using proto::extends<typename proto::terminal<event_tag>::type, EVT, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef EVT type; }; }; template <class STATE> struct euml_state: proto::extends<typename proto::terminal<state_tag>::type, STATE, sm_domain> { typedef state_tag euml_tag_type; using proto::extends<typename proto::terminal<state_tag>::type, STATE, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef STATE type; }; }; template <class ACTION> struct euml_action: proto::extends<typename proto::terminal<action_tag>::type, ACTION, sm_domain> { typedef action_tag euml_tag_type; typedef ACTION action_name; using proto::extends<typename proto::terminal<action_tag>::type, ACTION, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ACTION type; }; }; template <class FLAG> struct euml_flag: proto::extends<typename proto::terminal<flag_tag>::type, FLAG, sm_domain> { typedef flag_tag euml_tag_type; using proto::extends<typename proto::terminal<flag_tag>::type, FLAG, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef FLAG type; }; }; template <class CONFIG> struct euml_config: proto::extends<typename proto::terminal<config_tag>::type, CONFIG, sm_domain> { typedef config_tag euml_tag_type; using proto::extends<typename proto::terminal<config_tag>::type, CONFIG, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef CONFIG type; }; }; struct No_Exception : euml_config<No_Exception> { typedef int no_exception_thrown; No_Exception(){} }; struct No_Msg_Queue : euml_config<No_Msg_Queue> { typedef int no_message_queue; No_Msg_Queue(){} }; struct Deferred_Events : euml_config<Deferred_Events> { typedef int activate_deferred_events; Deferred_Events(){} }; No_Exception const no_exception; No_Msg_Queue const no_msg_queue; Deferred_Events const deferred_events; struct invalid_type{}; struct make_invalid_type { typedef invalid_type type; }; template <class ROW> struct make_vector_one_row { typedef boost::mpl::vector<ROW> type; }; template <class T> T make_T(T t) {return t;} struct make_vector_no_row { typedef boost::mpl::vector0<> type; }; struct NoAction : euml_action<NoAction> { NoAction(){} // return value if used inside a state action (entry/exit) template <class Event,class FSM,class STATE > struct state_action_result { typedef bool type; }; // return value if used inside a transition (action/guard) template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef bool type; }; // this functor can be used in both modes, state action and transition action typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> bool operator()(Event const&,FSM&,STATE& ) { // does nothing return true; } template <class EVT,class FSM,class SourceState,class TargetState> bool operator()(EVT const& evt ,FSM& ,SourceState& ,TargetState&)const { // does nothing return true; } }; NoAction const no_action; template <class Index=void> struct GetSource_ : euml_action<GetSource_<Index> > { template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key<typename SourceState::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& ,FSM& ,SourceState& src,TargetState&)const { return src.get_attribute(Index()); } }; template<> struct GetSource_<void> : euml_action<GetSource_<void> > { template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef SourceState& type; }; typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& , FSM&,SourceState& src,TargetState& )const { return src; } }; struct get_source_tag {}; struct GetSource_Helper: proto::extends< proto::terminal<get_source_tag>::type, GetSource_Helper, sm_domain> { GetSource_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef GetSource_<Arg1> type; }; }; GetSource_Helper const source_; template <class Index=void> struct GetTarget_ : euml_action<GetTarget_<Index> > { template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key<typename TargetState::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& ,FSM& ,SourceState& ,TargetState& tgt)const { return tgt.get_attribute(Index()); } }; template<> struct GetTarget_<void> : euml_action<GetTarget_<void> > { template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef TargetState& type; }; typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& , FSM&,SourceState& ,TargetState& tgt)const { return tgt; } }; struct get_target_tag {}; struct GetTarget_Helper: proto::extends< proto::terminal<get_target_tag>::type, GetTarget_Helper, sm_domain> { GetTarget_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef GetTarget_<Arg1> type; }; }; GetTarget_Helper const target_; template <class Index=void> struct GetState_ : euml_action<GetState_<Index> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::fusion::result_of::at_key<typename STATE::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<state_action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& ,STATE& state ) { return state.get_attribute(Index()); } }; template<> struct GetState_<void> : euml_action<GetState_<void> > { using euml_action<GetState_ >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef STATE& type; }; typedef ::boost::mpl::set<state_action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& ,STATE& state ) { return state; } }; struct get_state_tag {}; struct GetState_Helper: proto::extends< proto::terminal<get_state_tag>::type, GetState_Helper, sm_domain> { GetState_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef GetState_<Arg1> type; }; }; GetState_Helper const state_; template <class Index=void> struct GetEvent_ : euml_action<GetEvent_<Index> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::add_const< typename ::boost::fusion::result_of::at_key<typename Event::attributes_type, Index >::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::add_const< typename ::boost::fusion::result_of::at_key<typename EVT::attributes_type, Index >::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& ,STATE& ) { return evt.get_attribute(Index()); } template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& evt ,FSM& ,SourceState& ,TargetState&)const { return evt.get_attribute(Index()); } }; template <> struct GetEvent_<void> : euml_action<GetEvent_<void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef Event const& type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef EVT const& type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& ,STATE& ) { return evt; } template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& evt ,FSM& ,SourceState& ,TargetState&)const { return evt; } }; struct get_event_tag {}; struct GetEvent_Helper: proto::extends< proto::terminal<get_event_tag>::type, GetEvent_Helper, sm_domain> { GetEvent_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef GetEvent_<Arg1> type; }; }; GetEvent_Helper const event_; template <class Index=void> struct GetFsm_ : euml_action<GetFsm_<Index> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::fusion::result_of::at_key<typename FSM::attributes_type, Index >::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key<typename FSM::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& fsm,STATE& ) { return fsm.get_attribute(Index()); } template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& ,FSM& fsm,SourceState& ,TargetState&)const { return fsm.get_attribute(Index()); } }; template<> struct GetFsm_<void> : euml_action<GetFsm_<void> > { using euml_action<GetFsm_>::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef FSM& type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef FSM& type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& fsm,STATE& ) { return fsm; } template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& evt ,FSM& fsm,SourceState& ,TargetState&)const { return fsm; } }; struct get_fsm_tag {}; struct GetFsm_Helper: proto::extends< proto::terminal<get_fsm_tag>::type, GetFsm_Helper, sm_domain> { GetFsm_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef GetFsm_<Arg1> type; }; }; GetFsm_Helper const fsm_; template <class StateName,class Param1> struct SubState_ : euml_action<SubState_<StateName, Param1> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef StateName& type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef StateName& type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> StateName& operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { return (Param1()(evt,fsm,src,tgt)).template get_state<StateName&>(); } template <class Event,class FSM,class STATE> StateName& operator()(Event const& evt,FSM& fsm,STATE& state)const { return (Param1()(evt,fsm,state)).template get_state<StateName&>(); } }; template <class StateName> struct SubState_ <StateName,void> : euml_action<SubState_<StateName, void > > { template <class Event,class FSM,class STATE > struct state_action_result { typedef StateName& type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef StateName& type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> StateName& operator()(EVT const&,FSM& fsm,SourceState& ,TargetState& )const { return fsm.template get_state<StateName&>(); } template <class Event,class FSM,class STATE> StateName& operator()(Event const& ,FSM& fsm,STATE& )const { return fsm.template get_state<StateName&>(); } }; struct substate_tag {}; struct SubState_Helper: proto::extends< proto::terminal<substate_tag>::type, SubState_Helper, sm_domain> { SubState_Helper(){} using proto::extends< proto::terminal<substate_tag>::type, SubState_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef SubState_<Arg1,Arg2> type; }; }; SubState_Helper const substate_; template <class Target,class Index> struct GetAttribute_ : euml_action<GetAttribute_<Target, Index> > { using euml_action<GetAttribute_<Target,Index> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::fusion::result_of::at_key< typename get_attributes_type< typename ::boost::remove_reference< typename get_result_type2<Target,Event,FSM,STATE>::type>::type>::type, Index >::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key< typename get_attributes_type< typename ::boost::remove_reference< typename get_result_type<Target,EVT,FSM,SourceState,TargetState>::type>::type>::type, Index >::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Target::tag_type,action_tag>::type, typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Target()(evt,fsm,src,tgt)).get_attribute(Index()); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Target::tag_type,state_action_tag>::type, typename state_action_result<Event,FSM,STATE>::type >::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Target()(evt,fsm,state)).get_attribute(Index()); } }; struct get_attribute_tag { }; struct GetAttribute_Helper: proto::extends< proto::terminal<get_attribute_tag>::type, GetAttribute_Helper, sm_domain> { GetAttribute_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef GetAttribute_<Arg1,Arg2> type; }; }; GetAttribute_Helper const attribute_; template <class Index> struct Source_ : euml_action<Source_<Index> > { using euml_action<Source_<Index> >::operator=; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key<typename SourceState::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& , FSM&,SourceState& src,TargetState& )const { return src.get_attribute(Index()); } }; template <class Index> struct Target_ : euml_action<Target_<Index> > { using euml_action<Target_<Index> >::operator=; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key<typename TargetState::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& ,FSM& ,SourceState& ,TargetState& tgt)const { return tgt.get_attribute(Index()); } }; template <class Index> struct State_ : euml_action<State_<Index> > { using euml_action<State_<Index> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::fusion::result_of::at_key<typename STATE::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<state_action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& ,STATE& state ) { return state.get_attribute(Index()); } }; template <class Index> struct Event_ : euml_action<Event_<Index> > { using euml_action<Event_<Index> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::add_const< typename ::boost::fusion::result_of::at_key<typename Event::attributes_type, Index >::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::add_const< typename ::boost::fusion::result_of::at_key<typename EVT::attributes_type, Index >::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& ,STATE& ) { return evt.get_attribute(Index()); } template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& evt ,FSM& ,SourceState& ,TargetState&)const { return evt.get_attribute(Index()); } }; template <class StateType,class Index> struct State_Attribute_ : euml_action<State_Attribute_<StateType,Index> > { using euml_action<State_Attribute_<StateType,Index> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::fusion::result_of::at_key<typename StateType::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<state_action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& fsm,STATE& ) { return fsm.template get_state<StateType&>().get_attribute(Index()); } }; template <class Index> struct Fsm_ : euml_action<Fsm_<Index> > { using euml_action<Fsm_<Index> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::fusion::result_of::at_key<typename FSM::attributes_type, Index >::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::fusion::result_of::at_key<typename FSM::attributes_type, Index >::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const&,FSM& fsm,STATE& ) { return fsm.get_attribute(Index()); } template <class EVT,class FSM,class SourceState,class TargetState> typename transition_action_result<EVT,FSM,SourceState,TargetState>::type operator()(EVT const& evt ,FSM& fsm,SourceState& ,TargetState&)const { return fsm.get_attribute(Index()); } }; struct True_ : euml::euml_action<True_> { using euml_action<True_>::operator=; True_(){} template <class Event,class FSM,class STATE > struct state_action_result { typedef bool type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef bool type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> bool operator()(EVT const& evt,FSM&,SourceState& ,TargetState& ) { return true; } template <class Event,class FSM,class STATE> bool operator()(Event const&,FSM&,STATE& ) { return true; } }; True_ const true_; struct False_ : euml::euml_action<False_> { using euml_action<False_>::operator=; False_(){} template <class Event,class FSM,class STATE > struct state_action_result { typedef bool type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef bool type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> bool operator()(EVT const& evt,FSM&,SourceState& ,TargetState& ) { return false; } template <class Event,class FSM,class STATE> bool operator()(Event const&,FSM&,STATE& ) { return false; } }; False_ const false_; template <int Val> struct Int_ : euml_action<Int_<Val> > { using euml_action<Int_<Val> >::operator=; typedef ::boost::mpl::int_<Val> value_type; enum {value = Val}; template <class Event,class FSM,class STATE > struct state_action_result { typedef int type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef int type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> int operator()(EVT const& , FSM& ,SourceState& ,TargetState& ) { return Val; } template <class Event,class FSM,class STATE> int operator()(Event const& ,FSM& ,STATE& ) { return Val; } }; template <char Val> struct Char_ : euml_action<Char_<Val> > { using euml_action<Char_<Val> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef char type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef char type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> char operator()(EVT const& , FSM& ,SourceState& ,TargetState& ) { return Val; } template <class Event,class FSM,class STATE> char operator()(Event const& ,FSM& ,STATE& ) { return Val; } }; template <size_t Val> struct Size_t_ : euml_action<Size_t_<Val> > { using euml_action<Size_t_<Val> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef size_t type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef size_t type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> size_t operator()(EVT const& , FSM& ,SourceState& ,TargetState& ) { return Val; } template <class Event,class FSM,class STATE> size_t operator()(Event const& ,FSM& ,STATE& ) { return Val; } }; #if BOOST_VERSION >= 104000 template <class T> struct String_ : euml_action<String_<T> > { using euml_action<String_<T> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef char const* type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef char const* type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> char const* operator()(EVT const& , FSM& ,SourceState& ,TargetState& ) { return ::boost::mpl::c_str<T>::value; } template <class Event,class FSM,class STATE> char const* operator()(Event const& ,FSM& ,STATE& ) { return ::boost::mpl::c_str<T>::value; } }; #endif template <class T> struct Predicate_ : euml_action<Predicate_<T> > { using euml_action<Predicate_<T> >::operator=; template <class Event,class FSM,class STATE > struct state_action_result { typedef T type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef T type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> T operator()(EVT const& , FSM& ,SourceState& ,TargetState& ) { return T(); } template <class Event,class FSM,class STATE> T operator()(Event const& ,FSM& ,STATE& ) { return T(); } }; template <class ToProcessEvt,class Param1, class Param2, class Param3, class Param4> struct Process_ : euml_action<Process_<ToProcessEvt, Param1, Param2, Param3, Param4> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); (Param2()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); (Param3()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); (Param4()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt()); (Param2()(evt,fsm,state)).process_event(ToProcessEvt()); (Param3()(evt,fsm,state)).process_event(ToProcessEvt()); (Param4()(evt,fsm,state)).process_event(ToProcessEvt()); } }; template <class ToProcessEvt> struct Process_ <ToProcessEvt,void,void,void,void> : euml_action<Process_<ToProcessEvt, void, void, void, void > > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const&,FSM& fsm,SourceState& ,TargetState& )const { fsm.process_event(ToProcessEvt()); } template <class Event,class FSM,class STATE> void operator()(Event const& ,FSM& fsm,STATE& )const { fsm.process_event(ToProcessEvt()); } }; template <class ToProcessEvt,class Param1> struct Process_ <ToProcessEvt,Param1,void,void,void> : euml_action<Process_<ToProcessEvt, Param1, void, void, void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt()); } }; template <class ToProcessEvt,class Param1, class Param2> struct Process_ <ToProcessEvt,Param1,Param2,void,void> : euml_action<Process_<ToProcessEvt, Param1, Param2, void, void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); (Param2()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt()); (Param2()(evt,fsm,state)).process_event(ToProcessEvt()); } }; template <class ToProcessEvt,class Param1, class Param2, class Param3> struct Process_ <ToProcessEvt,Param1,Param2,Param3,void> : euml_action<Process_<ToProcessEvt, Param1, Param2, Param3, void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); (Param2()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); (Param3()(evt,fsm,src,tgt)).process_event(ToProcessEvt()); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt()); (Param2()(evt,fsm,state)).process_event(ToProcessEvt()); (Param3()(evt,fsm,state)).process_event(ToProcessEvt()); } }; struct process_tag {}; struct Process_Helper: proto::extends< proto::terminal<process_tag>::type, Process_Helper, sm_domain> { Process_Helper(){} using proto::extends< proto::terminal<process_tag>::type, Process_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Process_<Arg1,Arg2,Arg3,Arg4,Arg5> type; }; }; Process_Helper const process_; template <class ToProcessEvt,class Value,class Param1, class Param2, class Param3> struct Process2_ : euml_action<Process2_<ToProcessEvt,Value, Param1, Param2, Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); (Param2()(evt,fsm,src,tgt)).process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); (Param3()(evt,fsm,src,tgt)).process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt(Value()(evt,fsm,state))); (Param2()(evt,fsm,state)).process_event(ToProcessEvt(Value()(evt,fsm,state))); (Param3()(evt,fsm,state)).process_event(ToProcessEvt(Value()(evt,fsm,state))); } }; template <class ToProcessEvt,class Value> struct Process2_ <ToProcessEvt,Value,void,void,void> : euml_action<Process2_<ToProcessEvt,Value, void, void, void > > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { fsm.process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { fsm.process_event(ToProcessEvt(Value()(evt,fsm,state))); } }; template <class ToProcessEvt,class Value,class Param1> struct Process2_ <ToProcessEvt,Value,Param1,void,void> : euml_action<Process2_<ToProcessEvt,Value, Param1, void, void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt(Value()(evt,fsm,state))); } }; template <class ToProcessEvt,class Value,class Param1, class Param2> struct Process2_ <ToProcessEvt,Value,Param1,Param2,void> : euml_action<Process2_<ToProcessEvt,Value, Param1, Param2, void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef void type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef void type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { (Param1()(evt,fsm,src,tgt)).process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); (Param2()(evt,fsm,src,tgt)).process_event(ToProcessEvt(Value()(evt,fsm,src,tgt))); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state)const { (Param1()(evt,fsm,state)).process_event(ToProcessEvt(Value()(evt,fsm,state))); (Param2()(evt,fsm,state)).process_event(ToProcessEvt(Value()(evt,fsm,state))); } }; struct process2_tag {}; struct Process2_Helper : proto::extends< proto::terminal<process2_tag>::type, Process2_Helper, sm_domain> { Process2_Helper(){} using proto::extends< proto::terminal<process2_tag>::type, Process2_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Process2_<Arg1,Arg2,Arg3,Arg4,Arg5> type; }; }; Process2_Helper const process2_; template <class Flag,class Param1=void, class Enable=void > struct Get_Flag_ : euml_action<Get_Flag_<Flag,Param1,Enable> > {}; template <class Flag,class Param1> struct Get_Flag_ <Flag,Param1 , typename ::boost::enable_if<typename ::boost::is_same<Param1,void>::type >::type> : euml_action<Get_Flag_<Flag, Param1> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef bool type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef bool type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> bool operator()(EVT const&,FSM& fsm,SourceState& ,TargetState& )const { return fsm.template is_flag_active<Flag>(); } template <class Event,class FSM,class STATE> bool operator()(Event const& ,FSM& fsm,STATE& )const { return fsm.template is_flag_active<Flag>(); } }; template <class Flag,class Param1> struct Get_Flag_ <Flag,Param1 , typename ::boost::disable_if< typename ::boost::is_same<Param1,void>::type >::type> : euml_action<Get_Flag_<Flag, Param1> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef bool type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef bool type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> bool operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)const { return (Param1()(evt,fsm,src,tgt)).template is_flag_active<Flag>(); } template <class Event,class FSM,class STATE> bool operator()(Event const& evt,FSM& fsm,STATE& state)const { return (Param1()(evt,fsm,state)).template is_flag_active<Flag>(); } }; struct get_flag_tag { }; struct Get_Flag_Helper: proto::extends< proto::terminal<get_flag_tag>::type, Get_Flag_Helper, sm_domain> { Get_Flag_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Get_Flag_<Arg1,Arg2> type; }; }; Get_Flag_Helper const is_flag_; // deferring an event struct DeferEvent_ : euml_action< DeferEvent_ > { typedef ::boost::mpl::set<action_tag> tag_type; template <class EVT,class FSM,class SourceState,class TargetState> void operator()(EVT const& evt,FSM& fsm,SourceState& ,TargetState& ) const { fsm.defer_event(evt); } }; struct defer_event_tag {}; struct Defer_Helper : proto::extends< proto::terminal<defer_event_tag>::type, Defer_Helper, sm_domain> { Defer_Helper(){} using proto::extends< proto::terminal<defer_event_tag>::type, Defer_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef DeferEvent_ type; }; }; Defer_Helper const defer_; struct explicit_tag {}; struct Explicit_Helper : proto::extends< proto::terminal<explicit_tag>::type, Explicit_Helper, sm_domain> { Explicit_Helper(){} using proto::extends< proto::terminal<explicit_tag>::type, Explicit_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef typename Arg1::template direct<Arg2> type; }; }; Explicit_Helper const explicit_; struct entry_pt_tag {}; struct Entry_Pt_Helper : proto::extends< proto::terminal<entry_pt_tag>::type, Entry_Pt_Helper, sm_domain> { Entry_Pt_Helper(){} using proto::extends< proto::terminal<entry_pt_tag>::type, Entry_Pt_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef typename Arg1::template entry_pt<Arg2> type; }; }; Entry_Pt_Helper const entry_pt_; struct exit_pt_tag {}; struct Exit_Pt_Helper : proto::extends< proto::terminal<exit_pt_tag>::type, Exit_Pt_Helper, sm_domain> { Exit_Pt_Helper(){} using proto::extends< proto::terminal<exit_pt_tag>::type, Exit_Pt_Helper, sm_domain>::operator=; template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef typename Arg1::template exit_pt<Arg2> type; }; }; Exit_Pt_Helper const exit_pt_; #ifdef BOOST_MSVC #define BOOST_MSM_EUML_FUNCTION(functor,function,function_name,result_trans,result_state) \ template <class Param1=void , class Param2=void , class Param3=void , class Param4=void, \ class Param5=void,class Param6=void,class Enable=void > \ struct functor : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6,Enable> > {}; \ template <class Param1, class Param2, class Param3, class Param4, class Param5, class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::enable_if<typename ::boost::is_same<Param1,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type \ operator()(EVT const& , FSM& ,SourceState& ,TargetState& )const { \ return function ();} \ template <class Event,class FSM,class STATE> \ typename state_action_result<Event,FSM,STATE>::type \ operator()(Event const& ,FSM& ,STATE& )const { \ return function ();} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param1,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param2,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param2,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param3,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param3,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param4,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param4,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param5,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param5,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param6,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt),Param5()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state),Param5()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::is_same<Param6,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt),Param5()(evt,fsm,src,tgt),Param6()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state),Param5()(evt,fsm,state),Param6()(evt,fsm,state));} }; \ struct function_name ## tag{}; \ struct functor ## Helper : proto::extends< proto::terminal< function_name ## tag >::type, \ functor ## Helper , sm_domain> { functor ## Helper(){} \ template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5,class Arg6> \ struct In {typedef functor <Arg1,Arg2,Arg3,Arg4,Arg5,Arg6> type;}; }; \ functor ## Helper const function_name ; #define BOOST_MSM_EUML_METHOD(functor,function,function_name,result_trans,result_state) \ template <class Param1=void , class Param2=void , class Param3=void , class Param4=void, \ class Param5=void,class Param6=void,class Enable=void > \ struct functor : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6,Enable> > {}; \ template <class Param1, class Param2, class Param3, class Param4, class Param5, class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::enable_if<typename ::boost::is_same<Param2,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function();} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function();} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param2,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param3,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param3,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param4,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param4,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param5,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param5,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param6,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt),Param5()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state),Param5()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5,class Param6> \ struct functor<Param1,Param2,Param3,Param4,Param5,Param6, \ typename ::boost::disable_if<typename ::boost::is_same<Param6,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Param6> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt),Param5()(evt,fsm,src,tgt),Param6()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state),Param5()(evt,fsm,state),Param6()(evt,fsm,state));} }; \ struct function_name ## tag{}; \ struct functor ## Helper : proto::extends< proto::terminal< function_name ## tag >::type, \ functor ## Helper , sm_domain> { functor ## Helper(){} \ template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5,class Arg6> \ struct In {typedef functor <Arg1,Arg2,Arg3,Arg4,Arg5,Arg6> type;}; }; \ functor ## Helper const function_name ; #else #define BOOST_MSM_EUML_FUNCTION(functor,function,function_name,result_trans,result_state) \ template <class Param1=void , class Param2=void , class Param3=void , class Param4=void, \ class Param5=void,class Enable=void > \ struct functor : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Enable> > {}; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param1,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param2,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param2,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param3,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param3,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param4,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param4,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param5,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::is_same<Param5,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return function (Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt),Param5()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return function (Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state),Param5()(evt,fsm,state));} }; \ struct function_name ## tag{}; \ struct functor ## Helper : proto::extends< proto::terminal< function_name ## tag >::type, \ functor ## Helper , sm_domain> { functor ## Helper(){} \ template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5> \ struct In {typedef functor <Arg1,Arg2,Arg3,Arg4,Arg5> type;}; }; \ functor ## Helper const function_name ; #define BOOST_MSM_EUML_METHOD(functor,function,function_name,result_trans,result_state) \ template <class Param1=void , class Param2=void , class Param3=void , class Param4=void, \ class Param5=void,class Enable=void > \ struct functor : euml_action<functor<Param1,Param2,Param3,Param4,Param5,Enable> > {}; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::enable_if<typename ::boost::is_same<Param2,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function();} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function();} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param2,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param3,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param3,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param4,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::mpl::or_< \ typename ::boost::is_same<Param4,void>::type,typename ::boost::mpl::not_< \ typename ::boost::is_same<Param5,void>::type>::type>::type >::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state));} }; \ template <class Param1, class Param2, class Param3, class Param4, class Param5> \ struct functor<Param1,Param2,Param3,Param4,Param5, \ typename ::boost::disable_if<typename ::boost::is_same<Param5,void>::type>::type> \ : euml_action<functor<Param1,Param2,Param3,Param4,Param5> > { \ template <class Event,class FSM,class STATE > struct state_action_result { \ typedef result_state type;} ; \ template <class EVT,class FSM,class SourceState,class TargetState> \ struct transition_action_result { typedef result_trans type;}; \ typedef ::boost::mpl::set<boost::msm::front::state_action_tag,boost::msm::front::action_tag> tag_type; \ template <class EVT,class FSM,class SourceState,class TargetState> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::action_tag>::type, \ typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type \ operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { \ return (Param1()(evt,fsm,src,tgt)).function(Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt) \ ,Param4()(evt,fsm,src,tgt),Param5()(evt,fsm,src,tgt));} \ template <class Event,class FSM,class STATE> \ typename ::boost::enable_if<typename ::boost::mpl::has_key< \ typename Param1::tag_type,boost::msm::front::state_action_tag>::type, \ typename state_action_result<Event,FSM,STATE>::type >::type \ operator()(Event const& evt,FSM& fsm,STATE& state )const { \ return (Param1()(evt,fsm,state)).function(Param2()(evt,fsm,state),Param3()(evt,fsm,state) \ ,Param4()(evt,fsm,state),Param5()(evt,fsm,state));} }; \ struct function_name ## tag{}; \ struct functor ## Helper : proto::extends< proto::terminal< function_name ## tag >::type, \ functor ## Helper , sm_domain> { functor ## Helper(){} \ template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5> \ struct In {typedef functor <Arg1,Arg2,Arg3,Arg4,Arg5> type;}; }; \ functor ## Helper const function_name ; #endif #define RESULT_TYPE2_PARAM1 typename get_result_type2<Param1,Event,FSM,STATE>::type #define RESULT_TYPE_PARAM1 typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type #define RESULT_TYPE2_PARAM2 typename get_result_type2<Param2,Event,FSM,STATE>::type #define RESULT_TYPE_PARAM2 typename get_result_type<Param2,EVT,FSM,SourceState,TargetState>::type #define RESULT_TYPE2_PARAM3 typename get_result_type2<Param3,Event,FSM,STATE>::type #define RESULT_TYPE_PARAM3 typename get_result_type<Param3,EVT,FSM,SourceState,TargetState>::type #define RESULT_TYPE2_PARAM4 typename get_result_type2<Param4,Event,FSM,STATE>::type #define RESULT_TYPE_PARAM4 typename get_result_type<Param4,EVT,FSM,SourceState,TargetState>::type #define RESULT_TYPE2_PARAM5 typename get_result_type2<Param5,Event,FSM,STATE>::type #define RESULT_TYPE_PARAM5 typename get_result_type<Param5,EVT,FSM,SourceState,TargetState>::type #define RESULT_TYPE2_PARAM6 typename get_result_type2<Param6,Event,FSM,STATE>::type #define RESULT_TYPE_PARAM6 typename get_result_type<Param6,EVT,FSM,SourceState,TargetState>::type #define RESULT_TYPE2_DIFF_TYPE_ITER_TRAITS_PARAM1 typename std::iterator_traits<typename get_result_type2<Param1,Event,FSM,STATE>::type>::difference_type #define RESULT_TYPE_DIFF_TYPE_ITER_TRAITS_PARAM1 typename std::iterator_traits<typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type>::difference_type #define RESULT_TYPE2_REMOVE_REF_PARAM1 typename ::boost::remove_reference<typename get_result_type2<Param1,Event,FSM,STATE>::type>::type #define RESULT_TYPE_REMOVE_REF_PARAM1 typename ::boost::remove_reference<typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type>::type #define RESULT_TYPE2_PAIR_REMOVE_REF_PARAM1 std::pair<RESULT_TYPE2_REMOVE_REF_PARAM1,RESULT_TYPE2_REMOVE_REF_PARAM1> #define RESULT_TYPE_PAIR_REMOVE_REF_PARAM1 std::pair<RESULT_TYPE_REMOVE_REF_PARAM1,RESULT_TYPE_REMOVE_REF_PARAM1> #define RESULT_TYPE2_GET_REF_REMOVE_REF_PARAM1 typename get_reference<typename ::boost::remove_reference<typename get_result_type2<Param1,Event,FSM,STATE>::type>::type>::type #define RESULT_TYPE_GET_REF_REMOVE_REF_PARAM1 typename get_reference<typename ::boost::remove_reference<typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type>::type>::type #define RESULT_TYPE2_GET_ITERATOR_REMOVE_REF_PARAM1 typename get_iterator<typename ::boost::remove_reference<typename get_result_type2<Param1,Event,FSM,STATE>::type>::type>::type #define RESULT_TYPE_GET_ITERATOR_REMOVE_REF_PARAM1 typename get_iterator<typename ::boost::remove_reference<typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type>::type>::type #define RESULT_TYPE2_GET_REV_ITERATOR_REMOVE_REF_PARAM1 typename get_reverse_iterator<typename ::boost::remove_reference<typename get_result_type2<Param1,Event,FSM,STATE>::type>::type>::type #define RESULT_TYPE_GET_REV_ITERATOR_REMOVE_REF_PARAM1 typename get_reverse_iterator<typename ::boost::remove_reference<typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type>::type>::type #define RESULT_TYPE2_GET_SIZE_TYPE_REMOVE_REF_PARAM1 typename get_size_type<typename ::boost::remove_reference<typename get_result_type2<Param1,Event,FSM,STATE>::type>::type>::type #define RESULT_TYPE_GET_SIZE_TYPE_REMOVE_REF_PARAM1 typename get_size_type<typename ::boost::remove_reference<typename get_result_type<Param1,EVT,FSM,SourceState,TargetState>::type>::type>::type #define BOOST_MSM_EUML_ACTION(instance_name) \ struct instance_name ## _impl; \ struct instance_name ## _helper : msm::front::euml::euml_action<instance_name ## _impl> \ { \ instance_name ## _helper(){} \ typedef instance_name ## _impl action_name; \ }; \ instance_name ## _helper instance_name; \ struct instance_name ## _impl : instance_name ## _helper #define BOOST_MSM_EUML_EVENT(instance_name) \ struct instance_name ## _helper : msm::front::euml::euml_event<instance_name ## _helper>{ \ instance_name ## _helper(){} \ instance_name ## _helper const& operator()(){return *this;} }; \ instance_name ## _helper instance_name; #define MSM_EUML_CONCAT(param1,param2) param1 #define MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE1(z, n, unused) ARG ## n arg ## n #define MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE2(z, n, unused) arg ## n #define MSM_EUML_EVENT_INSTANCE_HELPER_ATTRIBUTE_MAP_ENTRY(z, n, unused) \ typename boost::fusion::result_of::first< \ typename ::boost::remove_reference< \ typename boost::fusion::result_of::at_c<T, BOOST_PP_CAT( , n)>::type>::type>::type \ #define MSM_EUML_EVENT_HELPER_GET_ATTRIBUTE(z, n, unused) \ get_attribute( \ typename boost::fusion::result_of::first< \ typename ::boost::remove_reference< \ typename boost::fusion::result_of::at_c<T, n>::type>::type>::type())=arg ## n; #define MSM_EUML_EVENT_HELPER_CONSTRUCTORS(z, n, mytuple) \ template <BOOST_PP_ENUM_PARAMS(n, class ARG)> \ BOOST_PP_CAT(BOOST_PP_TUPLE_ELEM(2, 0, mytuple) , _helper)(BOOST_PP_ENUM(n, MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE1, ~ )): \ BOOST_PP_TUPLE_ELEM(2, 1, mytuple)(){ \ init(BOOST_PP_ENUM(n, MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE2, ~ ),attribute_vec());} #define MSM_EUML_EVENT_INSTANCE_HELPER_ATTRIBUTE_MAP(z, n, unused) \ template <BOOST_PP_ENUM_PARAMS(n, class ARG),class T> \ void init(BOOST_PP_ENUM(n, MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE1, ~ ), \ T,typename ::boost::enable_if< typename boost::mpl::eval_if< typename ::boost::fusion::traits::is_sequence<T>::type,size_helper<T,n>,::boost::mpl::false_>::type,void >::type* dummyval=0) \ { \ BOOST_PP_REPEAT_FROM_TO(0,n , \ MSM_EUML_EVENT_HELPER_GET_ATTRIBUTE, ~) \ } #define MSM_EUML_EVENT_INSTANCE_HELPER_OPERATOR_IMPL(z, n, instance) \ template <BOOST_PP_ENUM_PARAMS(n, class ARG)> \ BOOST_PP_CAT(instance,_helper) operator() \ (BOOST_PP_ENUM(n, MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE1, ~ ))const{ \ return BOOST_PP_CAT(instance,_helper) (BOOST_PP_ENUM(n, MSM_EUML_EVENT_INSTANCE_HELPER_EXECUTE2, ~ ));} #define BOOST_MSM_EUML_EVENT_WITH_ATTRIBUTES(instance_name, attributes_name) \ struct instance_name ## _helper : \ msm::front::euml::euml_event<instance_name ## _helper> , public attributes_name \ { \ template <class T,int checked_size> struct size_helper \ { \ typedef typename ::boost::mpl::less_equal< \ typename ::boost::fusion::result_of::size<T>::type, \ ::boost::mpl::int_<checked_size> >::type type; \ }; \ BOOST_PP_CAT(instance_name,_helper()) : attributes_name(){} \ typedef attributes_name::attributes_type attribute_map; \ typedef ::boost::fusion::result_of::as_vector<attribute_map>::type attribute_vec; \ BOOST_PP_REPEAT_FROM_TO(1,BOOST_PP_ADD(FUSION_MAX_MAP_SIZE ,1), \ MSM_EUML_EVENT_HELPER_CONSTRUCTORS, (instance_name,attributes_name)) \ BOOST_PP_REPEAT_FROM_TO(1,BOOST_PP_ADD(FUSION_MAX_MAP_SIZE ,1), \ MSM_EUML_EVENT_INSTANCE_HELPER_ATTRIBUTE_MAP, ~) \ BOOST_PP_CAT(instance_name,_helper) operator()(){ \ return BOOST_PP_CAT(instance_name,_helper)();} \ BOOST_PP_REPEAT_FROM_TO(1,BOOST_PP_ADD(FUSION_MAX_MAP_SIZE ,1), \ MSM_EUML_EVENT_INSTANCE_HELPER_OPERATOR_IMPL, instance_name) \ }; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_EVENT_NAME(instance_name) instance_name ## _helper #define BOOST_MSM_EUML_FLAG_NAME(instance_name) instance_name ## _helper #define BOOST_MSM_EUML_FLAG(instance_name) \ struct instance_name ## _helper : msm::front::euml::euml_flag<instance_name ## _helper>{}; \ instance_name ## _helper instance_name; #define BOOST_MSM_EUML_STATE_NAME(instance_name) instance_name ## _helper #define BOOST_MSM_EUML_BUILD_STT_HELPER build_stt( #define BOOST_MSM_EUML_BUILD_INTERNAL_STT_HELPER build_internal_stt( #define BOOST_MSM_EUML_BUILD_STT_HELPER2(expr) expr) #define BOOST_MSM_EUML_ENTRY_STATE_HELPER(expr) ,expr #define BOOST_MSM_EUML_ATTRIBUTES(expr,instance_name) \ typedef BOOST_TYPEOF(build_attributes expr) instance_name; // following macros declare a state type but do not create an instance #define BOOST_MSM_EUML_DECLARE_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_state<instance_name ## tag> expr) instance_name; #define BOOST_MSM_EUML_DECLARE_INTERRUPT_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_interrupt_state<instance_name ## tag> expr) instance_name; #define BOOST_MSM_EUML_DECLARE_TERMINATE_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_terminate_state<instance_name ## tag> expr) instance_name; #define BOOST_MSM_EUML_DECLARE_EXPLICIT_ENTRY_STATE(region,expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_explicit_entry_state<instance_name ## tag BOOST_MSM_EUML_ENTRY_STATE_HELPER(region) > expr) instance_name; #define BOOST_MSM_EUML_DECLARE_ENTRY_STATE(region,expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_entry_state<instance_name ## tag BOOST_MSM_EUML_ENTRY_STATE_HELPER(region) > expr) instance_name; #define BOOST_MSM_EUML_DECLARE_EXIT_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_exit_state<instance_name ## tag> expr) instance_name; #define BOOST_MSM_EUML_DECLARE_STATE_MACHINE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_sm<instance_name ## tag> expr) instance_name; #define BOOST_MSM_EUML_DECLARE_TRANSITION_TABLE(expr,instance_name) \ typedef BOOST_TYPEOF(BOOST_MSM_EUML_BUILD_STT_HELPER BOOST_MSM_EUML_BUILD_STT_HELPER2(expr)) instance_name; #define BOOST_MSM_EUML_DECLARE_INTERNAL_TRANSITION_TABLE(expr) \ typedef BOOST_TYPEOF( \ BOOST_MSM_EUML_BUILD_INTERNAL_STT_HELPER BOOST_MSM_EUML_BUILD_STT_HELPER2(expr)) internal_transition_table; // following macros declare a state type and create an instance #define BOOST_MSM_EUML_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_state<instance_name ## tag> expr) instance_name ## _helper; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_INTERRUPT_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_interrupt_state<instance_name ## tag> expr) instance_name ## _helper; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_TERMINATE_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_terminate_state<instance_name ## tag> expr) instance_name ## _helper; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_EXPLICIT_ENTRY_STATE(region,expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_explicit_entry_state<instance_name ## tag BOOST_MSM_EUML_ENTRY_STATE_HELPER(region) > expr) instance_name ## _helper; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_ENTRY_STATE(region,expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_entry_state<instance_name ## tag BOOST_MSM_EUML_ENTRY_STATE_HELPER(region) > expr) instance_name ## _helper; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_EXIT_STATE(expr,instance_name) \ struct instance_name ## tag{}; \ typedef BOOST_TYPEOF(build_exit_state<instance_name ## tag> expr) instance_name ## _helper; \ instance_name ## _helper const instance_name; #ifndef BOOST_MSVC #define BOOST_MSM_EUML_TRANSITION_TABLE(expr,instance_name) \ typedef BOOST_TYPEOF(BOOST_MSM_EUML_BUILD_STT_HELPER BOOST_MSM_EUML_BUILD_STT_HELPER2(expr)) instance_name ## _def; \ struct instance_name ## _helper : public instance_name ## _def{instance_name ## _helper(){}}; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_INTERNAL_TRANSITION_TABLE(expr,instance_name) \ typedef BOOST_TYPEOF(BOOST_MSM_EUML_BUILD_INTERNAL_STT_HELPER BOOST_MSM_EUML_BUILD_STT_HELPER2(expr)) instance_name ## _def; \ struct instance_name ## _helper : public instance_name ## _def{instance_name ## _helper(){}}; \ instance_name ## _helper const instance_name; #else #define BOOST_MSM_EUML_TRANSITION_TABLE(expr,instance_name) \ struct instance_name ## _helper : \ public BOOST_TYPEOF(BOOST_MSM_EUML_BUILD_STT_HELPER BOOST_MSM_EUML_BUILD_STT_HELPER2(expr)) \ {instance_name ## _helper(){}} ; \ instance_name ## _helper const instance_name; #define BOOST_MSM_EUML_INTERNAL_TRANSITION_TABLE(expr,instance_name) \ struct instance_name ## _helper : \ public BOOST_TYPEOF(BOOST_MSM_EUML_BUILD_INTERNAL_STT_HELPER BOOST_MSM_EUML_BUILD_STT_HELPER2(expr)) \ {instance_name ## _helper(){}} ; \ instance_name ## _helper const instance_name; #endif }}}} // boost::msm::front::euml #endif // BOOST_MSM_FRONT_EUML_COMMON_H