boost/msm/front/euml/container.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_CONTAINER_H #define BOOST_MSM_FRONT_EUML_CONTAINER_H #include <utility> #include <boost/msm/front/euml/common.hpp> #include <boost/utility/enable_if.hpp> #include <boost/mpl/has_key.hpp> #include <boost/mpl/set.hpp> #include <boost/mpl/not.hpp> #include <boost/msm/front/euml/operator.hpp> #include <boost/type_traits.hpp> BOOST_MPL_HAS_XXX_TRAIT_DEF(iterator_category) namespace boost { namespace msm { namespace front { namespace euml { template <class T> struct Front_ : euml_action<Front_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_reference< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_reference< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).front(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).front(); } }; struct front_tag {}; struct Front_Helper: proto::extends< proto::terminal<front_tag>::type, Front_Helper, boost::msm::sm_domain> { Front_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Front_<Arg1> type; }; }; Front_Helper const front_; template <class T> struct Back_ : euml_action<Back_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_reference< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_reference< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).back(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).back(); } }; struct back_tag {}; struct Back_Helper: proto::extends< proto::terminal<back_tag>::type, Back_Helper, boost::msm::sm_domain> { Back_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Back_<Arg1> type; }; }; Back_Helper const back_; template <class T> struct Begin_ : euml_action<Begin_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).begin(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).begin(); } }; struct begin_tag {}; struct Begin_Helper: proto::extends< proto::terminal<begin_tag>::type, Begin_Helper, boost::msm::sm_domain> { Begin_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Begin_<Arg1> type; }; }; Begin_Helper const begin_; template <class T> struct End_ : euml_action<End_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).end(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).end(); } }; struct end_tag {}; struct End_Helper: proto::extends< proto::terminal<end_tag>::type, End_Helper, boost::msm::sm_domain> { End_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef End_<Arg1> type; }; }; End_Helper const end_; template <class T> struct RBegin_ : euml_action<RBegin_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_reverse_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_reverse_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).rbegin(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).rbegin(); } }; struct rbegin_tag {}; struct RBegin_Helper: proto::extends< proto::terminal<rbegin_tag>::type, RBegin_Helper, boost::msm::sm_domain> { RBegin_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef RBegin_<Arg1> type; }; }; RBegin_Helper const rbegin_; template <class T> struct REnd_ : euml_action<REnd_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_reverse_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_reverse_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).rend(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).rend(); } }; struct rend_tag {}; struct REnd_Helper: proto::extends< proto::terminal<rend_tag>::type, REnd_Helper, boost::msm::sm_domain> { REnd_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef REnd_<Arg1> type; }; }; REnd_Helper const rend_; template <class Container,class Element> struct Push_Back_ : euml_action<Push_Back_<Container,Element> > { 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 { (Container()(evt,fsm,src,tgt)).push_back(Element()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).push_back(Element()(evt,fsm,state)); } }; struct push_back_tag {}; struct Push_Back_Helper: proto::extends< proto::terminal<push_back_tag>::type, Push_Back_Helper, boost::msm::sm_domain> { Push_Back_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Push_Back_<Arg1,Arg2> type; }; }; Push_Back_Helper const push_back_; template <class Container> struct Pop_Back_ : euml_action<Pop_Back_<Container> > { 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 { (Container()(evt,fsm,src,tgt)).pop_back(); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).pop_back(); } }; struct pop_back_tag {}; struct Pop_Back_Helper: proto::extends< proto::terminal<pop_back_tag>::type, Pop_Back_Helper, boost::msm::sm_domain> { Pop_Back_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Pop_Back_<Arg1> type; }; }; Pop_Back_Helper const pop_back_; template <class Container,class Element> struct Push_Front_ : euml_action<Push_Front_<Container,Element> > { 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 { (Container()(evt,fsm,src,tgt)).push_front(Element()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).push_front(Element()(evt,fsm,state)); } }; struct push_front_tag {}; struct Push_Front_Helper: proto::extends< proto::terminal<push_front_tag>::type, Push_Front_Helper, boost::msm::sm_domain> { Push_Front_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Push_Front_<Arg1,Arg2> type; }; }; Push_Front_Helper const push_front_; template <class Container> struct Pop_Front_ : euml_action<Pop_Front_<Container> > { 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 { (Container()(evt,fsm,src,tgt)).pop_front(); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).pop_front(); } }; struct pop_front_tag {}; struct Pop_Front_Helper: proto::extends< proto::terminal<pop_front_tag>::type, Pop_Front_Helper, boost::msm::sm_domain> { Pop_Front_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Pop_Front_<Arg1> type; }; }; Pop_Front_Helper const pop_front_; template <class Container> struct Clear_ : euml_action<Clear_<Container> > { 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 { (Container()(evt,fsm,src,tgt)).clear(); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).clear(); } }; struct clear_tag {}; struct Clear_Helper: proto::extends< proto::terminal<clear_tag>::type, Clear_Helper, boost::msm::sm_domain> { Clear_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Clear_<Arg1> type; }; }; Clear_Helper const clear_; template <class Container> struct ListReverse_ : euml_action<ListReverse_<Container> > { 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 { (Container()(evt,fsm,src,tgt)).reverse(); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).reverse(); } }; struct list_reverse_tag {}; struct ListReverse_Helper: proto::extends< proto::terminal<list_reverse_tag>::type, ListReverse_Helper, boost::msm::sm_domain> { ListReverse_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ListReverse_<Arg1> type; }; }; ListReverse_Helper const list_reverse_; template <class Container, class Predicate, class Enable=void> struct ListUnique_ : euml_action<ListUnique_<Container,Predicate,Enable> > { 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 { (Container()(evt,fsm,src,tgt)).unique(); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).unique(); } }; template <class Container, class Predicate > struct ListUnique_<Container,Predicate, typename ::boost::disable_if<typename ::boost::is_same<Predicate,void>::type >::type> : euml_action<ListUnique_<Container,Predicate> > { 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 { (Container()(evt,fsm,src,tgt)).unique(Predicate()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).unique(Predicate()(evt,fsm,state)); } }; struct list_unique_tag {}; struct ListUnique_Helper: proto::extends< proto::terminal<list_unique_tag>::type, ListUnique_Helper, boost::msm::sm_domain> { ListUnique_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ListUnique_<Arg1,Arg2> type; }; }; ListUnique_Helper const list_unique_; template <class Container, class Predicate, class Enable=void> struct ListSort_ : euml_action<ListSort_<Container,Predicate,Enable> > { 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 { (Container()(evt,fsm,src,tgt)).sort(); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).sort(); } }; template <class Container, class Predicate > struct ListSort_<Container,Predicate, typename ::boost::disable_if<typename ::boost::is_same<Predicate,void>::type >::type> : euml_action<ListSort_<Container,Predicate> > { 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 { (Container()(evt,fsm,src,tgt)).sort(Predicate()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).sort(Predicate()(evt,fsm,state)); } }; struct list_sort_tag {}; struct ListSort_Helper: proto::extends< proto::terminal<list_sort_tag>::type, ListSort_Helper, boost::msm::sm_domain> { ListSort_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ListSort_<Arg1,Arg2> type; }; }; ListSort_Helper const list_sort_; template <class Container> struct Capacity_ : euml_action<Capacity_<Container> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::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 Container::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 (Container()(evt,fsm,src,tgt)).capacity(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).capacity(); } }; struct capacity_tag {}; struct Capacity_Helper: proto::extends< proto::terminal<capacity_tag>::type, Capacity_Helper, boost::msm::sm_domain> { Capacity_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Capacity_<Arg1> type; }; }; Capacity_Helper const capacity_; template <class Container> struct Size_ : euml_action<Size_<Container> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::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 Container::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 (Container()(evt,fsm,src,tgt)).size(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).size(); } }; struct size_tag {}; struct Size_Helper: proto::extends< proto::terminal<size_tag>::type, Size_Helper, boost::msm::sm_domain> { Size_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Size_<Arg1> type; }; }; Size_Helper const size_; template <class Container> struct Max_Size_ : euml_action<Max_Size_<Container> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::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 Container::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 (Container()(evt,fsm,src,tgt)).max_size(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).max_size(); } }; struct max_size_tag {}; struct Max_Size_Helper: proto::extends< proto::terminal<max_size_tag>::type, Max_Size_Helper, boost::msm::sm_domain> { Max_Size_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Max_Size_<Arg1> type; }; }; Max_Size_Helper const max_size_; template <class Container, class Value> struct Reserve_ : euml_action<Reserve_<Container,Value> > { 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 { (Container()(evt,fsm,src,tgt)).reserve(Value()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).reserve(Value()(evt,fsm,state)); } }; struct reserve_tag {}; struct Reserve_Helper: proto::extends< proto::terminal<reserve_tag>::type, Reserve_Helper, boost::msm::sm_domain> { Reserve_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Reserve_<Arg1,Arg2> type; }; }; Reserve_Helper const reserve_; template <class Container, class Num, class Value ,class Enable=void > struct Resize_ : euml_action<Resize_<Container,Num,Value> > { 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 { (Container()(evt,fsm,src,tgt)).resize(Num()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).resize(Num()(evt,fsm,state)); } }; template <class Container, class Num , class Value > struct Resize_<Container,Num,Value,typename ::boost::disable_if<typename ::boost::is_same<Value,void>::type >::type> : euml_action<Resize_<Container,Num,Value> > { 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 { (Container()(evt,fsm,src,tgt)).resize(Num()(evt,fsm,src,tgt),Value()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).resize(Num()(evt,fsm,state),Value()(evt,fsm,state)); } }; struct resize_tag {}; struct Resize_Helper: proto::extends< proto::terminal<resize_tag>::type, Resize_Helper, boost::msm::sm_domain> { Resize_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Resize_<Arg1,Arg2,Arg3> type; }; }; Resize_Helper const resize_; // version for 3 parameters (sequence containers) template <class Container, class Param1, class Param2, class Param3 > struct Insert_ : euml_action<Insert_<Container,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 { (Container()(evt,fsm,src,tgt)).insert(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt), Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; // version for 2 parameters template <class Container, class Param1, class Param2> struct Insert_ < Container,Param1,Param2,void> : euml_action<Insert_<Container,Param1,Param2,void> > { // return value will actually not be correct for set::insert(it1,it2), should be void // but it's ok as nobody should call an inexistent return type template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; // version for transition + second param not an iterator (meaning that, Container is not an associative container) template <class EVT,class FSM,class SourceState,class TargetState> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,action_tag>::type, typename ::boost::mpl::not_< typename has_iterator_category< typename Param2::template transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type >::type >::type, typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).insert(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } // version for transition + second param is an iterator (meaning that, Container is an associative container) template <class EVT,class FSM,class SourceState,class TargetState> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,action_tag>::type, typename has_iterator_category< typename Param2::template transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type >::type, typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { (Container()(evt,fsm,src,tgt)).insert(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } // version for state action + second param not an iterator (meaning that, Container is not an associative container) template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,state_action_tag>::type, typename ::boost::mpl::not_< typename has_iterator_category< typename Param2::template state_action_result<Event,FSM,STATE>::type >::type >::type >::type, typename state_action_result<Event,FSM,STATE>::type >::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } // version for state action + second param is an iterator (meaning that, Container is an associative container) template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,state_action_tag>::type, typename has_iterator_category< typename Param2::template state_action_result<Event,FSM,STATE>::type >::type >::type, typename state_action_result<Event,FSM,STATE>::type >::type operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; // version for 1 parameter (associative containers) template <class Container, class Param1> struct Insert_ < Container,Param1,void,void> : euml_action<Insert_<Container,Param1,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename std::pair< typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type,bool> type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename std::pair< typename get_iterator< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type,bool> 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 Container::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 (Container()(evt,fsm,src,tgt)).insert(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state)); } }; struct insert_tag {}; struct Insert_Helper: proto::extends< proto::terminal<insert_tag>::type, Insert_Helper, boost::msm::sm_domain> { Insert_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Insert_<Arg1,Arg2,Arg3,Arg4> type; }; }; Insert_Helper const insert_; template <class Container1,class Container2> struct Swap_ : euml_action<Swap_<Container1,Container2> > { 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 { (Container1()(evt,fsm,src,tgt)).swap(Container2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container1()(evt,fsm,state)).swap(Container2()(evt,fsm,state)); } }; struct swap_tag {}; struct Swap_Helper: proto::extends< proto::terminal<swap_tag>::type, Swap_Helper, boost::msm::sm_domain> { Swap_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Swap_<Arg1,Arg2> type; }; }; Swap_Helper const swap_; template <class Container, class Iterator1, class Iterator2 ,class Enable=void > struct Erase_ : euml_action<Erase_<Container,Iterator1,Iterator2> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Iterator1,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Iterator1,EVT,FSM,SourceState,TargetState>::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 Iterator1::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 (Container()(evt,fsm,src,tgt)).erase(Iterator1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Iterator1::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 (Container()(evt,fsm,state)).erase(Iterator1()(evt,fsm,state)); } }; template <class Container, class Iterator1 , class Iterator2 > struct Erase_<Container,Iterator1,Iterator2, typename ::boost::disable_if<typename ::boost::is_same<Iterator2,void>::type >::type> : euml_action<Erase_<Container,Iterator1,Iterator2> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Iterator1,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Iterator1,EVT,FSM,SourceState,TargetState>::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 Iterator1::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 (Container()(evt,fsm,src,tgt)).erase(Iterator1()(evt,fsm,src,tgt),Iterator2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Iterator1::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 (Container()(evt,fsm,state)).erase(Iterator1()(evt,fsm,state),Iterator2()(evt,fsm,state)); } }; struct erase_tag {}; struct Erase_Helper: proto::extends< proto::terminal<erase_tag>::type, Erase_Helper, boost::msm::sm_domain> { Erase_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Erase_<Arg1,Arg2,Arg3> type; }; }; Erase_Helper const erase_; template <class Container> struct Empty_ : euml_action<Empty_<Container> > { 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 (Container()(evt,fsm,src,tgt)).empty(); } template <class Event,class FSM,class STATE> bool operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).empty(); } }; struct empty_tag {}; struct Empty_Helper: proto::extends< proto::terminal<empty_tag>::type, Empty_Helper, boost::msm::sm_domain> { Empty_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Empty_<Arg1> type; }; }; Empty_Helper const empty_; template <class Container,class Element> struct ListRemove_ : euml_action<ListRemove_<Container,Element> > { 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 { (Container()(evt,fsm,src,tgt)).remove(Element()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).remove(Element()(evt,fsm,state)); } }; struct list_remove_tag {}; struct ListRemove_Helper: proto::extends< proto::terminal<list_remove_tag>::type, ListRemove_Helper, boost::msm::sm_domain> { ListRemove_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ListRemove_<Arg1,Arg2> type; }; }; ListRemove_Helper const list_remove_; template <class Container,class Element> struct ListRemove_If_ : euml_action<ListRemove_If_<Container,Element> > { 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 { (Container()(evt,fsm,src,tgt)).remove_if(Element()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).remove_if(Element()(evt,fsm,state)); } }; struct list_remove_if_tag {}; struct ListRemove_If_Helper: proto::extends< proto::terminal<list_remove_if_tag>::type, ListRemove_If_Helper, boost::msm::sm_domain> { ListRemove_If_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ListRemove_If_<Arg1,Arg2> type; }; }; ListRemove_If_Helper const list_remove_if_; template <class Container, class ToMerge, class Predicate, class Enable=void> struct ListMerge_ : euml_action<ListMerge_<Container,ToMerge,Predicate,Enable> > { 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 { (Container()(evt,fsm,src,tgt)).merge(ToMerge()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).merge(ToMerge()(evt,fsm,state)); } }; template <class Container, class ToMerge, class Predicate > struct ListMerge_<Container,ToMerge,Predicate, typename ::boost::disable_if<typename ::boost::is_same<Predicate,void>::type >::type> : euml_action<ListMerge_<Container,ToMerge,Predicate> > { 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 { (Container()(evt,fsm,src,tgt)).merge(ToMerge()(evt,fsm,src,tgt),Predicate()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).merge(ToMerge()(evt,fsm,state),Predicate()(evt,fsm,state)); } }; struct list_merge_tag {}; struct ListMerge_Helper: proto::extends< proto::terminal<list_merge_tag>::type, ListMerge_Helper, boost::msm::sm_domain> { ListMerge_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef ListMerge_<Arg1,Arg2,Arg3> type; }; }; ListMerge_Helper const list_merge_; template <class Container, class Param1, class Param2, class Param3, class Param4 ,class Enable=void > struct Splice_ : euml_action<Splice_<Container,Param1,Param2,Param3,Param4,Enable> > { 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> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,src,tgt)).splice(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 Container::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 (Container()(evt,fsm,state)).splice(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2, class Param3, class Param4 > struct Splice_<Container,Param1,Param2,Param3,Param4, 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<Splice_<Container,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 { (Container()(evt,fsm,src,tgt)).splice(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt), Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).splice(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2, class Param3, class Param4 > struct Splice_<Container,Param1,Param2,Param3,Param4, typename ::boost::disable_if<typename ::boost::is_same<Param4,void>::type >::type> : euml_action<Splice_<Container,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 { (Container()(evt,fsm,src,tgt)).splice(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> void operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).splice(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state),Param4()(evt,fsm,state)); } }; struct splice_tag {}; struct Splice_Helper: proto::extends< proto::terminal<splice_tag>::type, Splice_Helper, boost::msm::sm_domain> { Splice_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Splice_<Arg1,Arg2,Arg3,Arg4,Arg5> type; }; }; Splice_Helper const splice_; //template <class Container, class Param1, class Param2, class Param3, class Enable=void > //struct StringFind_ : euml_action<StringFind_<Container,Param1,Param2,Param3,Enable> > //{ //}; template <class Container,class Param1, class Param2, class Param3> struct StringFind_ : euml_action<StringFind_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). find(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). find(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; template <class Container,class Param1> struct StringFind_ < Container,Param1,void,void> : euml_action<StringFind_<Container,Param1,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find(Param1()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2> struct StringFind_ <Container,Param1,Param2,void> : euml_action<StringFind_<Container,Param1,Param2,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; struct string_find_tag {}; struct StringFind_Helper: proto::extends< proto::terminal<string_find_tag>::type, StringFind_Helper, boost::msm::sm_domain> { StringFind_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringFind_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringFind_Helper const string_find_; template <class Container, class Param1, class Param2, class Param3, class Enable=void > struct StringRFind_ : euml_action<StringRFind_<Container,Param1,Param2,Param3,Enable> > { }; template <class Container,class Param1, class Param2, class Param3> struct StringRFind_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::is_same<Param2,void>::type >::type > : euml_action<StringRFind_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).rfind(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).rfind(Param1()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringRFind_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::is_same<Param3,void>::type, typename ::boost::mpl::not_< typename ::boost::is_same<Param2,void>::type >::type >::type >::type > : euml_action<StringRFind_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).rfind(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).rfind(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringRFind_< Container,Param1,Param2,Param3, typename ::boost::disable_if< typename ::boost::is_same<Param3,void>::type >::type > : euml_action<StringRFind_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). rfind(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). rfind(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; struct string_rfind_tag {}; struct StringRFind_Helper: proto::extends< proto::terminal<string_rfind_tag>::type, StringRFind_Helper, boost::msm::sm_domain> { StringRFind_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringRFind_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringRFind_Helper const string_rfind_; template <class Container,class Param1, class Param2, class Param3> struct StringFindFirstOf_ : euml_action<StringFindFirstOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). find_first_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). find_first_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; template <class Container,class Param1> struct StringFindFirstOf_ <Container,Param1,void,void> : euml_action<StringFindFirstOf_<Container,Param1,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_first_of(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_first_of(Param1()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2> struct StringFindFirstOf_ <Container,Param1,Param2,void> : euml_action<StringFindFirstOf_<Container,Param1,Param2,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_first_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_first_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; struct string_find_first_of_tag {}; struct StringFindFirstOf_Helper: proto::extends< proto::terminal<string_find_first_of_tag>::type, StringFindFirstOf_Helper, boost::msm::sm_domain> { StringFindFirstOf_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringFindFirstOf_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringFindFirstOf_Helper const string_find_first_of_; template <class Container, class Param1, class Param2, class Param3, class Enable=void > struct StringFindFirstNotOf_ : euml_action<StringFindFirstNotOf_<Container,Param1,Param2,Param3,Enable> > { }; template <class Container,class Param1, class Param2, class Param3> struct StringFindFirstNotOf_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::is_same<Param2,void>::type >::type > : euml_action<StringFindFirstNotOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_first_not_of(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_first_not_of(Param1()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringFindFirstNotOf_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::is_same<Param3,void>::type, typename ::boost::mpl::not_< typename ::boost::is_same<Param2,void>::type >::type >::type >::type > : euml_action<StringFindFirstNotOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_first_not_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_first_not_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringFindFirstNotOf_< Container,Param1,Param2,Param3, typename ::boost::disable_if< typename ::boost::is_same<Param3,void>::type >::type > : euml_action<StringFindFirstNotOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). find_first_not_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). find_first_not_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; struct string_find_first_not_of_tag {}; struct StringFindFirstNotOf_Helper: proto::extends< proto::terminal<string_find_first_not_of_tag>::type, StringFindFirstNotOf_Helper, boost::msm::sm_domain> { StringFindFirstNotOf_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringFindFirstNotOf_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringFindFirstNotOf_Helper const string_find_first_not_of_; template <class Container, class Param1, class Param2, class Param3, class Enable=void > struct StringFindLastOf_ : euml_action<StringFindLastOf_<Container,Param1,Param2,Param3,Enable> > { }; template <class Container,class Param1, class Param2, class Param3> struct StringFindLastOf_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::is_same<Param2,void>::type >::type > : euml_action<StringFindLastOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_last_of(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_last_of(Param1()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringFindLastOf_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::is_same<Param3,void>::type, typename ::boost::mpl::not_< typename ::boost::is_same<Param2,void>::type >::type >::type >::type > : euml_action<StringFindLastOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_last_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_last_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringFindLastOf_< Container,Param1,Param2,Param3, typename ::boost::disable_if< typename ::boost::is_same<Param3,void>::type >::type > : euml_action<StringFindLastOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). find_last_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). find_last_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; struct string_find_last_of_tag {}; struct StringFindLastOf_Helper: proto::extends< proto::terminal<string_find_last_of_tag>::type, StringFindLastOf_Helper, boost::msm::sm_domain> { StringFindLastOf_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringFindLastOf_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringFindLastOf_Helper const string_find_last_of_; template <class Container, class Param1, class Param2, class Param3, class Enable=void > struct StringFindLastNotOf_ : euml_action<StringFindLastNotOf_<Container,Param1,Param2,Param3,Enable> > { }; template <class Container,class Param1, class Param2, class Param3> struct StringFindLastNotOf_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::is_same<Param2,void>::type >::type > : euml_action<StringFindLastNotOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_last_not_of(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_last_not_of(Param1()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringFindLastNotOf_ < Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::is_same<Param3,void>::type, typename ::boost::mpl::not_< typename ::boost::is_same<Param2,void>::type >::type >::type >::type > : euml_action<StringFindLastNotOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).find_last_not_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).find_last_not_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringFindLastNotOf_< Container,Param1,Param2,Param3, typename ::boost::disable_if< typename ::boost::is_same<Param3,void>::type >::type > : euml_action<StringFindLastNotOf_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). find_last_not_of(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). find_last_not_of(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; struct string_find_last_not_of_tag {}; struct StringFindLastNotOf_Helper: proto::extends< proto::terminal<string_find_last_of_tag>::type, StringFindLastNotOf_Helper, boost::msm::sm_domain> { StringFindLastNotOf_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringFindLastNotOf_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringFindLastNotOf_Helper const string_find_last_not_of_; template <class Container> struct Npos_ : euml_action<Npos_<Container> > { Npos_(){} template <class Event,class FSM,class STATE > struct state_action_result { typedef typename Container::size_type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename Container::size_type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return Container::npos; } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return Container::npos; } }; // version for 2 parameters template <class Container, class Param1, class Param2> struct Associative_Erase_ : euml_action<Associative_Erase_<Container,Param1,Param2> > { 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> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 { (Container()(evt,fsm,src,tgt)).erase(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 Container::tag_type,state_action_tag>::type, typename state_action_result<Event,FSM,STATE>::type >::type operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).erase(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; // version for 1 parameter template <class Container, class Param1> struct Associative_Erase_ < Container,Param1,void> : euml_action<Associative_Erase_<Container,Param1,void> > { // return value will actually not be correct for set::erase(it), should be void // but it's ok as nobody should call an inexistent return type template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,action_tag> tag_type; // version for transition + param is an iterator template <class EVT,class FSM,class SourceState,class TargetState> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,action_tag>::type, typename has_iterator_category< typename Param1::template transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type >::type, void >::type operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { (Container()(evt,fsm,src,tgt)).erase(Param1()(evt,fsm,src,tgt)); } // version for state action + param is an iterator template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,state_action_tag>::type, typename has_iterator_category< typename Param1::template state_action_result<Event,FSM,STATE>::type >::type >::type, void >::type operator()(Event const& evt,FSM& fsm,STATE& state )const { (Container()(evt,fsm,state)).erase(Param1()(evt,fsm,state)); } // version for transition + param not an iterator template <class EVT,class FSM,class SourceState,class TargetState> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,action_tag>::type, typename ::boost::mpl::not_< typename has_iterator_category< typename Param1::template transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type >::type >::type, typename transition_action_result<EVT,FSM,SourceState,TargetState>::type >::type operator()(EVT const& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).erase(Param1()(evt,fsm,src,tgt)); } // version for state action + param not an iterator template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::and_< typename ::boost::mpl::has_key< typename Container::tag_type,state_action_tag>::type, typename ::boost::mpl::not_< typename has_iterator_category< typename Param1::template state_action_result<Event,FSM,STATE>::type >::type >::type >::type, typename state_action_result<Event,FSM,STATE>::type >::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).erase(Param1()(evt,fsm,state)); } }; struct associative_erase_tag {}; struct Associative_Erase_Helper: proto::extends< proto::terminal<associative_erase_tag>::type, Associative_Erase_Helper, boost::msm::sm_domain> { Associative_Erase_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Associative_Erase_<Arg1,Arg2,Arg3> type; }; }; Associative_Erase_Helper const associative_erase_; template <class T, class Param> struct Associative_Find_ : euml_action<Associative_Find_<T,Param> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).find(Param()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).find(Param()(evt,fsm,state)); } }; struct associative_find_tag {}; struct Associative_Find_Helper: proto::extends< proto::terminal<associative_find_tag>::type, Associative_Find_Helper, boost::msm::sm_domain> { Associative_Find_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Associative_Find_<Arg1,Arg2> type; }; }; Associative_Find_Helper const associative_find_; template <class Container,class Param> struct AssociativeCount_ : euml_action<AssociativeCount_<Container,Param> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::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 Container::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 (Container()(evt,fsm,src,tgt)).count(Param()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).count(Param()(evt,fsm,state)); } }; struct associative_count_tag {}; struct AssociativeCount_Helper: proto::extends< proto::terminal<associative_count_tag>::type, AssociativeCount_Helper, boost::msm::sm_domain> { AssociativeCount_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef AssociativeCount_<Arg1,Arg2> type; }; }; AssociativeCount_Helper const associative_count_; template <class T, class Param> struct Associative_Lower_Bound_ : euml_action<Associative_Lower_Bound_<T,Param> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).lower_bound(Param()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).lower_bound(Param()(evt,fsm,state)); } }; struct associative_lower_bound_tag {}; struct Associative_Lower_Bound_Helper: proto::extends< proto::terminal<associative_lower_bound_tag>::type, Associative_Lower_Bound_Helper, boost::msm::sm_domain> { Associative_Lower_Bound_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Associative_Lower_Bound_<Arg1,Arg2> type; }; }; Associative_Lower_Bound_Helper const associative_lower_bound_; template <class T, class Param> struct Associative_Upper_Bound_ : euml_action<Associative_Upper_Bound_<T,Param> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).upper_bound(Param()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).upper_bound(Param()(evt,fsm,state)); } }; struct associative_upper_bound_tag {}; struct Associative_Upper_Bound_Helper: proto::extends< proto::terminal<associative_upper_bound_tag>::type, Associative_Upper_Bound_Helper, boost::msm::sm_domain> { Associative_Upper_Bound_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Associative_Upper_Bound_<Arg1,Arg2> type; }; }; Associative_Upper_Bound_Helper const associative_upper_bound_; template <class T> struct First_ : euml_action<First_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_first_type< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_first_type< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).first; } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).first; } }; struct first_tag {}; struct First_Helper: proto::extends< proto::terminal<first_tag>::type, First_Helper, boost::msm::sm_domain> { First_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef First_<Arg1> type; }; }; First_Helper const first_; template <class T> struct Second_ : euml_action<Second_<T> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_second_type< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_second_type< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).second; } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).second; } }; struct second_tag {}; struct Second_Helper: proto::extends< proto::terminal<second_tag>::type, Second_Helper, boost::msm::sm_domain> { Second_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Second_<Arg1> type; }; }; Second_Helper const second_; template <class T, class Param> struct Associative_Equal_Range_ : euml_action<Associative_Equal_Range_<T,Param> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef std::pair< typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type, typename get_iterator< typename ::boost::remove_reference< typename get_result_type2<T,Event,FSM,STATE>::type>::type>::type > type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef std::pair< typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::type, typename get_iterator< typename ::boost::remove_reference< typename get_result_type<T,EVT,FSM,SourceState,TargetState>::type>::type>::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 T::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 (T()(evt,fsm,src,tgt)).equal_range(Param()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename T::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 (T()(evt,fsm,state)).equal_range(Param()(evt,fsm,state)); } }; struct associative_equal_range_tag {}; struct Associative_Equal_Range_Helper: proto::extends< proto::terminal<associative_equal_range_tag>::type, Associative_Equal_Range_Helper, boost::msm::sm_domain> { Associative_Equal_Range_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Associative_Equal_Range_<Arg1,Arg2> type; }; }; Associative_Equal_Range_Helper const associative_equal_range_; template <class Container,class Param1, class Param2> struct Substr_ : euml_action<Substr_<Container,Param1,Param2> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). substr(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). substr(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container> struct Substr_ <Container,void,void> : euml_action<Substr_<Container,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).substr(); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).substr(); } }; template <class Container,class Param1> struct Substr_ < Container,Param1,void> : euml_action<Substr_<Container,Param1,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).substr(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).substr(Param1()(evt,fsm,state)); } }; struct substr_tag {}; struct Substr_Helper: proto::extends< proto::terminal<substr_tag>::type, Substr_Helper, boost::msm::sm_domain> { Substr_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Substr_<Arg1,Arg2,Arg3> type; }; }; Substr_Helper const substr_; template <class Container, class Param1, class Param2, class Param3, class Param4 > struct StringCompare_ : euml_action<StringCompare_<Container,Param1,Param2,Param3,Param4> > { 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> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,src,tgt)).compare(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 Container::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 (Container()(evt,fsm,state)).compare(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state),Param4()(evt,fsm,state)); } }; template <class Container, class Param1 > struct StringCompare_<Container,Param1,void,void,void> : euml_action<StringCompare_<Container,Param1,void,void,void> > { 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> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,src,tgt)).compare(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).compare(Param1()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2> struct StringCompare_<Container,Param1,Param2,void,void> : euml_action<StringCompare_<Container,Param1,Param2,void,void> > { 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> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,src,tgt)).compare(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 Container::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 (Container()(evt,fsm,state)).compare(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2, class Param3 > struct StringCompare_<Container,Param1,Param2,Param3,void> : euml_action<StringCompare_<Container,Param1,Param2,Param3,void> > { 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> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,src,tgt)).compare(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 Container::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 (Container()(evt,fsm,state)).compare(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; struct string_compare_tag {}; struct StringCompare_Helper: proto::extends< proto::terminal<string_compare_tag>::type, StringCompare_Helper, boost::msm::sm_domain> { StringCompare_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringCompare_<Arg1,Arg2,Arg3,Arg4,Arg5> type; }; }; StringCompare_Helper const string_compare_; template <class Container, class Param1, class Param2, class Param3 > struct Append_ : euml_action<Append_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).append (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 Container::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 (Container()(evt,fsm,state)).append (Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; template <class Container, class Param1> struct Append_<Container,Param1,void,void> : euml_action<Append_<Container,Param1,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).append(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).append(Param1()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2 > struct Append_<Container,Param1,Param2,void> : euml_action<Append_<Container,Param1,Param2,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).append(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 Container::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 (Container()(evt,fsm,state)).append(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; struct append_tag {}; struct Append_Helper: proto::extends< proto::terminal<append_tag>::type, Append_Helper, boost::msm::sm_domain> { Append_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef Append_<Arg1,Arg2,Arg3,Arg4> type; }; }; Append_Helper const append_; template <class Container, class Param1, class Param2, class Param3, class Param4 > struct StringInsert_ : euml_action<StringInsert_<Container,Param1,Param2,Param3,Param4> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).insert(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 Container::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 (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state),Param4()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2> struct StringInsert_ <Container,Param1,Param2,void,void> : euml_action<StringInsert_<Container,Param1,Param2,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).insert(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 Container::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 (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2, class Param3> struct StringInsert_<Container,Param1,Param2,Param3,void> : euml_action<StringInsert_<Container,Param1,Param2,Param3,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).insert(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 Container::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 (Container()(evt,fsm,state)).insert(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; struct string_insert_tag {}; struct StringInsert_Helper: proto::extends< proto::terminal<string_insert_tag>::type, StringInsert_Helper, boost::msm::sm_domain> { StringInsert_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringInsert_<Arg1,Arg2,Arg3,Arg4,Arg5> type; }; }; StringInsert_Helper const string_insert_; template <class Container,class Param1, class Param2> struct StringErase_ : euml_action<StringErase_<Container,Param1,Param2> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). erase(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). erase(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container> struct StringErase_ <Container,void,void> : euml_action<StringErase_<Container,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).erase(); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).erase(); } }; template <class Container,class Param1> struct StringErase_ <Container,Param1,void> : euml_action<StringErase_<Container,Param1,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).erase(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).erase(Param1()(evt,fsm,state)); } }; struct string_erase_tag {}; struct StringErase_Helper: proto::extends< proto::terminal<string_erase_tag>::type, StringErase_Helper, boost::msm::sm_domain> { StringErase_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringErase_<Arg1,Arg2,Arg3> type; }; }; StringErase_Helper const string_erase_; template <class Container, class Param1, class Param2, class Param3 > struct StringAssign_ : euml_action<StringAssign_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).assign (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 Container::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 (Container()(evt,fsm,state)).assign (Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; template <class Container,class Param1> struct StringAssign_ < Container,Param1,void,void> : euml_action<StringAssign_<Container,Param1,void,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).assign(Param1()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).assign(Param1()(evt,fsm,state)); } }; template <class Container, class Param1, class Param2 > struct StringAssign_<Container,Param1,Param2,void> : euml_action<StringAssign_<Container,Param1,Param2,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).assign(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 Container::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 (Container()(evt,fsm,state)).assign(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; struct assign_tag {}; struct StringAssign_Helper: proto::extends< proto::terminal<assign_tag>::type, StringAssign_Helper, boost::msm::sm_domain> { StringAssign_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringAssign_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringAssign_Helper const string_assign_; template <class Container,class Param1, class Param2, class Param3, class Param4> struct StringReplace_ : euml_action<StringReplace_<Container,Param1,Param2,Param3,Param4> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).replace (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 Container::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 (Container()(evt,fsm,state)).replace (Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state),Param4()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringReplace_<Container,Param1,Param2,Param3,void> : euml_action<StringReplace_<Container,Param1,Param2,Param3,void> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_result_type2<Container,Event,FSM,STATE>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::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 Container::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 (Container()(evt,fsm,src,tgt)).replace(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 Container::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 (Container()(evt,fsm,state)).replace(Param1()(evt,fsm,state),Param2()(evt,fsm,state), Param3()(evt,fsm,state)); } }; struct string_replace_tag {}; struct StringReplace_Helper: proto::extends< proto::terminal<string_replace_tag>::type, StringReplace_Helper, boost::msm::sm_domain> { StringReplace_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringReplace_<Arg1,Arg2,Arg3,Arg4,Arg5> type; }; }; StringReplace_Helper const string_replace_; template <class Container> struct CStr_ : euml_action<CStr_<Container> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::add_const< typename get_value_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type>::type* type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::add_const< typename get_value_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type>::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 Container::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 (Container()(evt,fsm,src,tgt)).c_str(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).c_str(); } }; struct c_str_tag {}; struct CStr_Helper: proto::extends< proto::terminal<c_str_tag>::type, CStr_Helper, boost::msm::sm_domain> { CStr_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef CStr_<Arg1> type; }; }; CStr_Helper const c_str_; template <class Container> struct StringData_ : euml_action<StringData_<Container> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename ::boost::add_const< typename get_value_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type>::type* type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename ::boost::add_const< typename get_value_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type>::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 Container::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 (Container()(evt,fsm,src,tgt)).data(); } template <class Event,class FSM,class STATE> typename ::boost::enable_if< typename ::boost::mpl::has_key< typename Container::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 (Container()(evt,fsm,state)).data(); } }; struct string_data_tag {}; struct StringData_Helper: proto::extends< proto::terminal<string_data_tag>::type, StringData_Helper, boost::msm::sm_domain> { StringData_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringData_<Arg1> type; }; }; StringData_Helper const string_data_; template <class Container, class Param1, class Param2, class Param3, class Enable=void > struct StringCopy_ : euml_action<StringCopy_<Container,Param1,Param2,Param3,Enable> > { }; template <class Container,class Param1, class Param2, class Param3> struct StringCopy_< Container,Param1,Param2,Param3, typename ::boost::enable_if< typename ::boost::is_same<Param3,void>::type >::type > : euml_action<StringCopy_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)).copy(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)).copy(Param1()(evt,fsm,state),Param2()(evt,fsm,state)); } }; template <class Container,class Param1, class Param2, class Param3> struct StringCopy_< Container,Param1,Param2,Param3, typename ::boost::disable_if< typename ::boost::is_same<Param3,void>::type >::type > : euml_action<StringCopy_<Container,Param1,Param2,Param3> > { template <class Event,class FSM,class STATE > struct state_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type2<Container,Event,FSM,STATE>::type>::type>::type type; }; template <class EVT,class FSM,class SourceState,class TargetState> struct transition_action_result { typedef typename get_size_type< typename ::boost::remove_reference< typename get_result_type<Container,EVT,FSM,SourceState,TargetState>::type>::type>::type type; }; typedef ::boost::mpl::set<state_action_tag,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& evt, FSM& fsm,SourceState& src,TargetState& tgt)const { return (Container()(evt,fsm,src,tgt)). copy(Param1()(evt,fsm,src,tgt),Param2()(evt,fsm,src,tgt),Param3()(evt,fsm,src,tgt)); } template <class Event,class FSM,class STATE> typename state_action_result<Event,FSM,STATE>::type operator()(Event const& evt,FSM& fsm,STATE& state )const { return (Container()(evt,fsm,state)). copy(Param1()(evt,fsm,state),Param2()(evt,fsm,state),Param3()(evt,fsm,state)); } }; struct string_copy_tag {}; struct StringCopy_Helper: proto::extends< proto::terminal<string_copy_tag>::type, StringCopy_Helper, boost::msm::sm_domain> { StringCopy_Helper(){} template <class Arg1,class Arg2,class Arg3,class Arg4,class Arg5 #ifdef BOOST_MSVC ,class Arg6 #endif > struct In { typedef StringCopy_<Arg1,Arg2,Arg3,Arg4> type; }; }; StringCopy_Helper const string_copy_; }}}} #endif //BOOST_MSM_FRONT_EUML_CONTAINER_H