boost/msm/back/metafunctions.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_BACK_METAFUNCTIONS_H #define BOOST_MSM_BACK_METAFUNCTIONS_H #include <boost/mpl/set.hpp> #include <boost/mpl/at.hpp> #include <boost/mpl/pair.hpp> #include <boost/mpl/map.hpp> #include <boost/mpl/int.hpp> #include <boost/mpl/has_xxx.hpp> #include <boost/mpl/find.hpp> #include <boost/mpl/count_if.hpp> #include <boost/mpl/fold.hpp> #include <boost/mpl/if.hpp> #include <boost/mpl/has_key.hpp> #include <boost/mpl/insert.hpp> #include <boost/mpl/next_prior.hpp> #include <boost/mpl/map.hpp> #include <boost/mpl/push_back.hpp> #include <boost/mpl/vector.hpp> #include <boost/mpl/is_sequence.hpp> #include <boost/mpl/size.hpp> #include <boost/mpl/transform.hpp> #include <boost/mpl/begin_end.hpp> #include <boost/mpl/bool.hpp> #include <boost/mpl/empty.hpp> #include <boost/mpl/identity.hpp> #include <boost/mpl/eval_if.hpp> #include <boost/mpl/insert_range.hpp> #include <boost/mpl/front.hpp> #include <boost/mpl/logical.hpp> #include <boost/mpl/plus.hpp> #include <boost/mpl/copy_if.hpp> #include <boost/mpl/back_inserter.hpp> #include <boost/mpl/transform.hpp> #include <boost/type_traits/is_same.hpp> #include <boost/utility/enable_if.hpp> // mpl_graph graph implementation and depth first search #include <boost/msm/mpl_graph/incidence_list_graph.hpp> #include <boost/msm/mpl_graph/depth_first_search.hpp> BOOST_MPL_HAS_XXX_TRAIT_DEF(explicit_creation) BOOST_MPL_HAS_XXX_TRAIT_DEF(pseudo_entry) BOOST_MPL_HAS_XXX_TRAIT_DEF(pseudo_exit) BOOST_MPL_HAS_XXX_TRAIT_DEF(concrete_exit_state) BOOST_MPL_HAS_XXX_TRAIT_DEF(composite_tag) BOOST_MPL_HAS_XXX_TRAIT_DEF(not_real_row_tag) BOOST_MPL_HAS_XXX_TRAIT_DEF(event_blocking_flag) BOOST_MPL_HAS_XXX_TRAIT_DEF(explicit_entry_state) BOOST_MPL_HAS_XXX_TRAIT_DEF(completion_event) BOOST_MPL_HAS_XXX_TRAIT_DEF(no_exception_thrown) BOOST_MPL_HAS_XXX_TRAIT_DEF(no_message_queue) BOOST_MPL_HAS_XXX_TRAIT_DEF(activate_deferred_events) BOOST_MPL_HAS_XXX_TRAIT_DEF(wrapped_entry) BOOST_MPL_HAS_XXX_TRAIT_DEF(active_state_switch_policy) namespace boost { namespace msm { namespace back { template <typename Sequence, typename Range> struct set_insert_range { typedef typename ::boost::mpl::fold< Range,Sequence, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2 > >::type type; }; // returns the current state type of a transition template <class Transition> struct transition_source_type { typedef typename Transition::current_state_type type; }; // returns the target state type of a transition template <class Transition> struct transition_target_type { typedef typename Transition::next_state_type type; }; // helper functions for generate_state_ids // create a pair of a state and a passed id for source and target states template <class Id,class Transition> struct make_pair_source_state_id { typedef typename ::boost::mpl::pair<typename Transition::current_state_type,Id> type; }; template <class Id,class Transition> struct make_pair_target_state_id { typedef typename ::boost::mpl::pair<typename Transition::next_state_type,Id> type; }; // iterates through a transition table and automatically generates ids starting at 0 // first the source states, transition up to down // then the target states, up to down template <class stt> struct generate_state_ids { typedef typename ::boost::mpl::fold< stt,::boost::mpl::pair< ::boost::mpl::map< >, ::boost::mpl::int_<0> >, ::boost::mpl::pair< ::boost::mpl::if_< ::boost::mpl::has_key< ::boost::mpl::first< ::boost::mpl::placeholders::_1>, transition_source_type< ::boost::mpl::placeholders::_2> >, ::boost::mpl::first< ::boost::mpl::placeholders::_1>, ::boost::mpl::insert< ::boost::mpl::first<mpl::placeholders::_1>, make_pair_source_state_id< ::boost::mpl::second< ::boost::mpl::placeholders::_1 >, ::boost::mpl::placeholders::_2> > >, ::boost::mpl::if_< ::boost::mpl::has_key< ::boost::mpl::first< ::boost::mpl::placeholders::_1>, transition_source_type< ::boost::mpl::placeholders::_2> >, ::boost::mpl::second< ::boost::mpl::placeholders::_1 >, ::boost::mpl::next< ::boost::mpl::second<mpl::placeholders::_1 > > > > //pair >::type source_state_ids; typedef typename ::boost::mpl::first<source_state_ids>::type source_state_map; typedef typename ::boost::mpl::second<source_state_ids>::type highest_state_id; typedef typename ::boost::mpl::fold< stt,::boost::mpl::pair<source_state_map,highest_state_id >, ::boost::mpl::pair< ::boost::mpl::if_< ::boost::mpl::has_key< ::boost::mpl::first< ::boost::mpl::placeholders::_1>, transition_target_type< ::boost::mpl::placeholders::_2> >, ::boost::mpl::first< ::boost::mpl::placeholders::_1>, ::boost::mpl::insert< ::boost::mpl::first< ::boost::mpl::placeholders::_1>, make_pair_target_state_id< ::boost::mpl::second< ::boost::mpl::placeholders::_1 >, ::boost::mpl::placeholders::_2> > >, ::boost::mpl::if_< ::boost::mpl::has_key< ::boost::mpl::first< ::boost::mpl::placeholders::_1>, transition_target_type< ::boost::mpl::placeholders::_2> >, ::boost::mpl::second< ::boost::mpl::placeholders::_1 >, ::boost::mpl::next< ::boost::mpl::second< ::boost::mpl::placeholders::_1 > > > > //pair >::type all_state_ids; typedef typename ::boost::mpl::first<all_state_ids>::type type; }; template <class Fsm> struct get_active_state_switch_policy_helper { typedef typename Fsm::active_state_switch_policy type; }; template <class Iter> struct get_active_state_switch_policy_helper2 { typedef typename boost::mpl::deref<Iter>::type Fsm; typedef typename Fsm::active_state_switch_policy type; }; // returns the active state switching policy template <class Fsm> struct get_active_state_switch_policy { typedef typename ::boost::mpl::find_if< typename Fsm::configuration, has_active_state_switch_policy< ::boost::mpl::placeholders::_1 > >::type iter; typedef typename ::boost::mpl::eval_if< typename ::boost::is_same< iter, typename ::boost::mpl::end<typename Fsm::configuration>::type >::type, get_active_state_switch_policy_helper<Fsm>, get_active_state_switch_policy_helper2< iter > >::type type; }; // returns the id of a given state template <class stt,class State> struct get_state_id { typedef typename ::boost::mpl::at<typename generate_state_ids<stt>::type,State>::type type; enum {value = type::value}; }; // returns a mpl::vector containing the init states of a state machine template <class States> struct get_initial_states { typedef typename ::boost::mpl::if_< ::boost::mpl::is_sequence<States>, States, typename ::boost::mpl::push_back< ::boost::mpl::vector0<>,States>::type >::type type; }; // returns a mpl::int_ containing the size of a region. If the argument is not a sequence, returns 1 template <class region> struct get_number_of_regions { typedef typename mpl::if_< ::boost::mpl::is_sequence<region>, ::boost::mpl::size<region>, ::boost::mpl::int_<1> >::type type; }; // builds a mpl::vector of initial states //TODO remove duplicate from get_initial_states template <class region> struct get_regions_as_sequence { typedef typename ::boost::mpl::if_< ::boost::mpl::is_sequence<region>, region, typename ::boost::mpl::push_back< ::boost::mpl::vector0<>,region>::type >::type type; }; template <class ToCreateSeq> struct get_explicit_creation_as_sequence { typedef typename ::boost::mpl::if_< ::boost::mpl::is_sequence<ToCreateSeq>, ToCreateSeq, typename ::boost::mpl::push_back< ::boost::mpl::vector0<>,ToCreateSeq>::type >::type type; }; // returns true if 2 transitions have the same source (used to remove duplicates in search of composite states) template <class stt,class Transition1,class Transition2> struct have_same_source { enum {current_state1 = get_state_id<stt,typename Transition1::current_state_type >::type::value}; enum {current_state2 = get_state_id<stt,typename Transition2::current_state_type >::type::value}; enum {value = ((int)current_state1 == (int)current_state2) }; }; // A metafunction that returns the Event associated with a transition. template <class Transition> struct transition_event { typedef typename Transition::transition_event type; }; // returns true for composite states template <class State> struct is_composite_state { enum {value = has_composite_tag<State>::type::value}; typedef typename has_composite_tag<State>::type type; }; // transform a transition table in a container of source states template <class stt> struct keep_source_names { // instead of the rows we want only the names of the states (from source) typedef typename ::boost::mpl::transform< stt,transition_source_type< ::boost::mpl::placeholders::_1> >::type type; }; // transform a transition table in a container of target states template <class stt> struct keep_target_names { // instead of the rows we want only the names of the states (from source) typedef typename ::boost::mpl::transform< stt,transition_target_type< ::boost::mpl::placeholders::_1> >::type type; }; template <class stt> struct generate_state_set { // keep in the original transition table only the source/target state types typedef typename keep_source_names<stt>::type sources; typedef typename keep_target_names<stt>::type targets; typedef typename ::boost::mpl::fold< sources, ::boost::mpl::set<>, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2> >::type source_set; typedef typename ::boost::mpl::fold< targets,source_set, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2> >::type type; }; // iterates through the transition table and generate a mpl::set<> containing all the events template <class stt> struct generate_event_set { typedef typename ::boost::mpl::fold< stt, ::boost::mpl::set<>, ::boost::mpl::if_< ::boost::mpl::has_key< ::boost::mpl::placeholders::_1, transition_event< ::boost::mpl::placeholders::_2> >, ::boost::mpl::placeholders::_1, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, transition_event< ::boost::mpl::placeholders::_2> > > >::type type; }; // returns a mpl::bool_<true> if State has Event as deferred event template <class State, class Event> struct has_state_delayed_event { typedef typename ::boost::mpl::find<typename State::deferred_events,Event>::type found; typedef typename ::boost::mpl::if_< ::boost::is_same<found,typename ::boost::mpl::end<typename State::deferred_events>::type >, ::boost::mpl::bool_<false>, ::boost::mpl::bool_<true> >::type type; }; // returns a mpl::bool_<true> if State has any deferred event template <class State> struct has_state_delayed_events { typedef typename ::boost::mpl::if_< ::boost::mpl::empty<typename State::deferred_events>, ::boost::mpl::bool_<false>, ::boost::mpl::bool_<true> >::type type; }; // Template used to create dummy entries for initial states not found in the stt. template< typename T1 > struct not_a_row { typedef int not_real_row_tag; struct dummy_event { }; typedef T1 current_state_type; typedef T1 next_state_type; typedef dummy_event transition_event; }; // metafunctions used to find out if a state is entry, exit or something else template <class State> struct is_pseudo_entry { typedef typename ::boost::mpl::if_< typename has_pseudo_entry<State>::type, ::boost::mpl::bool_<true>,::boost::mpl::bool_<false> >::type type; }; // says if a state is an exit pseudo state template <class State> struct is_pseudo_exit { typedef typename ::boost::mpl::if_< typename has_pseudo_exit<State>::type, ::boost::mpl::bool_<true>, ::boost::mpl::bool_<false> >::type type; }; // says if a state is an entry pseudo state or an explicit entry template <class State> struct is_direct_entry { typedef typename ::boost::mpl::if_< typename has_explicit_entry_state<State>::type, ::boost::mpl::bool_<true>, ::boost::mpl::bool_<false> >::type type; }; //converts a "fake" (simulated in a state_machine_ description )state into one which will really get created template <class StateType,class CompositeType> struct convert_fake_state { // converts a state (explicit entry) into the state we really are going to create (explicit<>) typedef typename ::boost::mpl::if_< typename is_direct_entry<StateType>::type, typename CompositeType::template direct<StateType>, typename ::boost::mpl::identity<StateType>::type >::type type; }; template <class StateType> struct get_explicit_creation { typedef typename StateType::explicit_creation type; }; template <class StateType> struct get_wrapped_entry { typedef typename StateType::wrapped_entry type; }; // used for states created with explicit_creation // if the state is an explicit entry, we reach for the wrapped state // otherwise, this returns the state itself template <class StateType> struct get_wrapped_state { typedef typename ::boost::mpl::eval_if< typename has_wrapped_entry<StateType>::type, get_wrapped_entry<StateType>, ::boost::mpl::identity<StateType> >::type type; }; template <class Derived> struct create_stt { //typedef typename Derived::transition_table stt; typedef typename Derived::real_transition_table Stt; // get the state set typedef typename generate_state_set<Stt>::type states; // transform the initial region(s) in a sequence typedef typename get_regions_as_sequence<typename Derived::initial_state>::type init_states; // iterate through the initial states and add them in the stt if not already there typedef typename ::boost::mpl::fold< init_states,Stt, ::boost::mpl::if_< ::boost::mpl::has_key<states, ::boost::mpl::placeholders::_2>, ::boost::mpl::placeholders::_1, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::end< ::boost::mpl::placeholders::_1>, not_a_row< get_wrapped_state< ::boost::mpl::placeholders::_2> > > > >::type with_init; // do the same for states marked as explicitly created typedef typename get_explicit_creation_as_sequence< typename ::boost::mpl::eval_if< typename has_explicit_creation<Derived>::type, get_explicit_creation<Derived>, ::boost::mpl::vector0<> >::type >::type fake_explicit_created; typedef typename ::boost::mpl::transform< fake_explicit_created,convert_fake_state< ::boost::mpl::placeholders::_1,Derived> >::type explicit_created; typedef typename ::boost::mpl::fold< explicit_created,with_init, ::boost::mpl::if_< ::boost::mpl::has_key<states, ::boost::mpl::placeholders::_2>, ::boost::mpl::placeholders::_1, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::end<mpl::placeholders::_1>, not_a_row< get_wrapped_state< ::boost::mpl::placeholders::_2> > > > >::type type; }; // returns the transition table of a Composite state template <class Composite> struct get_transition_table { typedef typename create_stt<Composite>::type type; }; // recursively builds an internal table including those of substates, sub-substates etc. // variant for submachines template <class StateType,class IsComposite> struct recursive_get_internal_transition_table { // get the composite's internal table typedef typename StateType::internal_transition_table composite_table; // and for every substate (state of submachine), recursively get the internal transition table typedef typename generate_state_set<typename StateType::stt>::type composite_states; typedef typename ::boost::mpl::fold< composite_states, composite_table, ::boost::mpl::insert_range< ::boost::mpl::placeholders::_1, ::boost::mpl::end< ::boost::mpl::placeholders::_1>, recursive_get_internal_transition_table< ::boost::mpl::placeholders::_2, is_composite_state< ::boost::mpl::placeholders::_2> > > >::type type; }; // stop iterating on leafs (simple states) template <class StateType> struct recursive_get_internal_transition_table<StateType, ::boost::mpl::false_ > { typedef typename StateType::internal_transition_table type; }; // recursively get a transition table for a given composite state. // returns the transition table for this state + the tables of all composite sub states recursively template <class Composite> struct recursive_get_transition_table { // get the transition table of the state if it's a state machine typedef typename ::boost::mpl::eval_if<typename is_composite_state<Composite>::type, get_transition_table<Composite>, ::boost::mpl::vector0<> >::type org_table; typedef typename generate_state_set<org_table>::type states; // and for every substate, recursively get the transition table if it's a state machine typedef typename ::boost::mpl::fold< states,org_table, ::boost::mpl::insert_range< ::boost::mpl::placeholders::_1, ::boost::mpl::end<mpl::placeholders::_1>, recursive_get_transition_table< ::boost::mpl::placeholders::_2 > > >::type type; }; // metafunction used to say if a SM has pseudo exit states template <class Derived> struct has_fsm_deferred_events { typedef typename create_stt<Derived>::type Stt; typedef typename generate_state_set<Stt>::type state_list; typedef typename ::boost::mpl::or_< typename has_activate_deferred_events<Derived>::type, ::boost::mpl::bool_< ::boost::mpl::count_if< typename Derived::configuration, has_activate_deferred_events< ::boost::mpl::placeholders::_1 > >::value != 0> >::type found_in_fsm; typedef typename ::boost::mpl::or_< found_in_fsm, ::boost::mpl::bool_< ::boost::mpl::count_if< state_list,has_state_delayed_events< ::boost::mpl::placeholders::_1 > >::value != 0> >::type type; }; // returns a mpl::bool_<true> if State has any delayed event template <class Event> struct is_completion_event { typedef typename ::boost::mpl::if_< has_completion_event<Event>, ::boost::mpl::bool_<true>, ::boost::mpl::bool_<false> >::type type; }; // metafunction used to say if a SM has eventless transitions template <class Derived> struct has_fsm_eventless_transition { typedef typename create_stt<Derived>::type Stt; typedef typename generate_event_set<Stt>::type event_list; typedef ::boost::mpl::bool_< ::boost::mpl::count_if< event_list,is_completion_event< ::boost::mpl::placeholders::_1 > >::value != 0> type; }; template <class Derived> struct find_completion_events { typedef typename create_stt<Derived>::type Stt; typedef typename generate_event_set<Stt>::type event_list; typedef typename ::boost::mpl::fold< event_list, ::boost::mpl::set<>, ::boost::mpl::if_< is_completion_event< ::boost::mpl::placeholders::_2>, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2 >, ::boost::mpl::placeholders::_1 > >::type type; }; template <class Transition> struct make_vector { typedef ::boost::mpl::vector<Transition> type; }; template< typename Entry > struct get_first_element_pair_second { typedef typename ::boost::mpl::front<typename Entry::second>::type type; }; //returns the owner of an explicit_entry state //which is the containing SM if the transition originates from outside the containing SM //or else the explicit_entry state itself template <class State,class ContainingSM> struct get_owner { typedef typename ::boost::mpl::if_< typename ::boost::mpl::not_<typename ::boost::is_same<typename State::owner, ContainingSM >::type>::type, typename State::owner, State >::type type; }; template <class Sequence,class ContainingSM> struct get_fork_owner { typedef typename ::boost::mpl::front<Sequence>::type seq_front; typedef typename ::boost::mpl::if_< typename ::boost::mpl::not_< typename ::boost::is_same<typename seq_front::owner,ContainingSM>::type>::type, typename seq_front::owner, seq_front >::type type; }; template <class StateType,class ContainingSM> struct make_exit { typedef typename ::boost::mpl::if_< typename is_pseudo_exit<StateType>::type , typename ContainingSM::template exit_pt<StateType>, typename ::boost::mpl::identity<StateType>::type >::type type; }; template <class StateType,class ContainingSM> struct make_entry { typedef typename ::boost::mpl::if_< typename is_pseudo_entry<StateType>::type , typename ContainingSM::template entry_pt<StateType>, typename ::boost::mpl::if_< typename is_direct_entry<StateType>::type, typename ContainingSM::template direct<StateType>, typename ::boost::mpl::identity<StateType>::type >::type >::type type; }; // metafunction used to say if a SM has pseudo exit states template <class StateType> struct has_exit_pseudo_states_helper { typedef typename StateType::stt Stt; typedef typename generate_state_set<Stt>::type state_list; typedef ::boost::mpl::bool_< ::boost::mpl::count_if< state_list,is_pseudo_exit< ::boost::mpl::placeholders::_1> >::value != 0> type; }; template <class StateType> struct has_exit_pseudo_states { typedef typename ::boost::mpl::eval_if<typename is_composite_state<StateType>::type, has_exit_pseudo_states_helper<StateType>, ::boost::mpl::bool_<false> >::type type; }; // builds flags (add internal_flag_list and flag_list). internal_flag_list is used for terminate/interrupt states template <class StateType> struct get_flag_list { typedef typename ::boost::mpl::insert_range< typename StateType::flag_list, typename ::boost::mpl::end< typename StateType::flag_list >::type, typename StateType::internal_flag_list >::type type; }; template <class StateType> struct is_state_blocking { typedef typename ::boost::mpl::fold< typename get_flag_list<StateType>::type, ::boost::mpl::set<>, ::boost::mpl::if_< has_event_blocking_flag< ::boost::mpl::placeholders::_2>, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2 >, ::boost::mpl::placeholders::_1 > >::type blocking_flags; typedef typename ::boost::mpl::if_< ::boost::mpl::empty<blocking_flags>, ::boost::mpl::bool_<false>, ::boost::mpl::bool_<true> >::type type; }; // returns a mpl::bool_<true> if fsm has an event blocking flag in one of its substates template <class StateType> struct has_fsm_blocking_states { typedef typename create_stt<StateType>::type Stt; typedef typename generate_state_set<Stt>::type state_list; typedef typename ::boost::mpl::fold< state_list, ::boost::mpl::set<>, ::boost::mpl::if_< is_state_blocking< ::boost::mpl::placeholders::_2>, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2 >, ::boost::mpl::placeholders::_1 > >::type blocking_states; typedef typename ::boost::mpl::if_< ::boost::mpl::empty<blocking_states>, ::boost::mpl::bool_<false>, ::boost::mpl::bool_<true> >::type type; }; template <class StateType> struct is_no_exception_thrown { typedef ::boost::mpl::bool_< ::boost::mpl::count_if< typename StateType::configuration, has_no_exception_thrown< ::boost::mpl::placeholders::_1 > >::value != 0> found; typedef typename ::boost::mpl::or_< typename has_no_exception_thrown<StateType>::type, found >::type type; }; template <class StateType> struct is_no_message_queue { typedef ::boost::mpl::bool_< ::boost::mpl::count_if< typename StateType::configuration, has_no_message_queue< ::boost::mpl::placeholders::_1 > >::value != 0> found; typedef typename ::boost::mpl::or_< typename has_no_message_queue<StateType>::type, found >::type type; }; template <class StateType> struct is_active_state_switch_policy { typedef ::boost::mpl::bool_< ::boost::mpl::count_if< typename StateType::configuration, has_active_state_switch_policy< ::boost::mpl::placeholders::_1 > >::value != 0> found; typedef typename ::boost::mpl::or_< typename has_active_state_switch_policy<StateType>::type, found >::type type; }; template <class StateType> struct get_initial_event { typedef typename StateType::initial_event type; }; template <class StateType> struct get_final_event { typedef typename StateType::final_event type; }; template <class TransitionTable, class InitState> struct build_one_orthogonal_region { template<typename Row> struct row_to_incidence : ::boost::mpl::vector< ::boost::mpl::pair< typename Row::next_state_type, typename Row::transition_event>, typename Row::current_state_type, typename Row::next_state_type > {}; template <class Seq, class Elt> struct transition_incidence_list_helper { typedef typename ::boost::mpl::push_back< Seq, row_to_incidence< Elt > >::type type; }; typedef typename ::boost::mpl::fold< TransitionTable, ::boost::mpl::vector<>, transition_incidence_list_helper< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2> >::type transition_incidence_list; typedef ::boost::msm::mpl_graph::incidence_list_graph<transition_incidence_list> transition_graph; struct preordering_dfs_visitor : ::boost::msm::mpl_graph::dfs_default_visitor_operations { template<typename Node, typename Graph, typename State> struct discover_vertex : ::boost::mpl::insert<State, Node> {}; }; typedef typename mpl::first< typename ::boost::msm::mpl_graph::depth_first_search< transition_graph, preordering_dfs_visitor, ::boost::mpl::set<>, InitState >::type >::type type; }; template <class Fsm> struct find_entry_states { typedef typename ::boost::mpl::copy< typename Fsm::substate_list, ::boost::mpl::inserter< ::boost::mpl::set0<>, ::boost::mpl::if_< has_explicit_entry_state< ::boost::mpl::placeholders::_2 >, ::boost::mpl::insert< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2>, ::boost::mpl::placeholders::_1 > > >::type type; }; template <class Set1, class Set2> struct is_common_element { typedef typename ::boost::mpl::fold< Set1, ::boost::mpl::false_, ::boost::mpl::if_< ::boost::mpl::has_key< Set2, ::boost::mpl::placeholders::_2 >, ::boost::mpl::true_, ::boost::mpl::placeholders::_1 > >::type type; }; template <class EntryRegion, class AllRegions> struct add_entry_region { typedef typename ::boost::mpl::transform< AllRegions, ::boost::mpl::if_< is_common_element<EntryRegion, ::boost::mpl::placeholders::_1>, set_insert_range< ::boost::mpl::placeholders::_1, EntryRegion>, ::boost::mpl::placeholders::_1 > >::type type; }; // build a vector of regions states (as a set) // one set of states for every region template <class Fsm, class InitStates> struct build_orthogonal_regions { typedef typename ::boost::mpl::fold< InitStates, ::boost::mpl::vector0<>, ::boost::mpl::push_back< ::boost::mpl::placeholders::_1, build_one_orthogonal_region< typename Fsm::stt, ::boost::mpl::placeholders::_2 > > >::type without_entries; typedef typename ::boost::mpl::fold< typename find_entry_states<Fsm>::type, ::boost::mpl::vector0<>, ::boost::mpl::push_back< ::boost::mpl::placeholders::_1, build_one_orthogonal_region< typename Fsm::stt, ::boost::mpl::placeholders::_2 > > >::type only_entries; typedef typename ::boost::mpl::fold< only_entries , without_entries, add_entry_region< ::boost::mpl::placeholders::_2, ::boost::mpl::placeholders::_1> >::type type; }; template <class GraphAsSeqOfSets, class StateType> struct find_region_index { typedef typename ::boost::mpl::fold< GraphAsSeqOfSets, ::boost::mpl::pair< ::boost::mpl::int_< -1 > /*res*/, ::boost::mpl::int_<0> /*counter*/ >, ::boost::mpl::if_< ::boost::mpl::has_key< ::boost::mpl::placeholders::_2, StateType >, ::boost::mpl::pair< ::boost::mpl::second< ::boost::mpl::placeholders::_1 >, ::boost::mpl::next< ::boost::mpl::second< ::boost::mpl::placeholders::_1 > > >, ::boost::mpl::pair< ::boost::mpl::first< ::boost::mpl::placeholders::_1 >, ::boost::mpl::next< ::boost::mpl::second< ::boost::mpl::placeholders::_1 > > > > >::type result_pair; typedef typename ::boost::mpl::first<result_pair>::type type; enum {value = type::value}; }; template <class Fsm> struct check_regions_orthogonality { typedef typename build_orthogonal_regions< Fsm,typename Fsm::initial_states>::type regions; typedef typename ::boost::mpl::fold< regions, ::boost::mpl::int_<0>, ::boost::mpl::plus< ::boost::mpl::placeholders::_1 , ::boost::mpl::size< ::boost::mpl::placeholders::_2> > >::type number_of_states_in_regions; typedef typename ::boost::mpl::fold< regions,mpl::set0<>, set_insert_range< ::boost::mpl::placeholders::_1, ::boost::mpl::placeholders::_2 > >::type one_big_states_set; enum {states_in_regions_raw = number_of_states_in_regions::value}; enum {cumulated_states_in_regions_raw = ::boost::mpl::size<one_big_states_set>::value}; }; template <class Fsm> struct check_no_unreachable_state { typedef typename check_regions_orthogonality<Fsm>::one_big_states_set states_in_regions; typedef typename set_insert_range< states_in_regions, typename ::boost::mpl::eval_if< typename has_explicit_creation<Fsm>::type, get_explicit_creation<Fsm>, ::boost::mpl::vector0<> >::type >::type with_explicit_creation; enum {states_in_fsm = ::boost::mpl::size< typename Fsm::substate_list >::value}; enum {cumulated_states_in_regions = ::boost::mpl::size< with_explicit_creation >::value}; }; // helper to find out if a SM has an active exit state and is therefore waiting for exiting template <class StateType,class OwnerFct,class FSM> inline typename ::boost::enable_if<typename ::boost::mpl::and_<typename is_composite_state<FSM>::type, typename is_pseudo_exit<StateType>::type>,bool >::type is_exit_state_active(FSM& fsm) { typedef typename OwnerFct::type Composite; //typedef typename create_stt<Composite>::type stt; typedef typename Composite::stt stt; int state_id = get_state_id<stt,StateType>::type::value; Composite& comp = fsm.template get_state<Composite&>(); return (std::find(comp.current_state(),comp.current_state()+Composite::nr_regions::value,state_id) !=comp.current_state()+Composite::nr_regions::value); } template <class StateType,class OwnerFct,class FSM> inline typename ::boost::disable_if<typename ::boost::mpl::and_<typename is_composite_state<FSM>::type, typename is_pseudo_exit<StateType>::type>,bool >::type is_exit_state_active(FSM&) { return false; } } } }//boost::msm::back #endif // BOOST_MSM_BACK_METAFUNCTIONS_H