libs/msm/doc/HTML/examples/DirectEntryEuml.cpp
// Copyright 2010 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) #include <vector> #include <iostream> #include <boost/msm/back/state_machine.hpp> #include <boost/msm/front/euml/euml.hpp> using namespace std; using namespace boost::msm::front::euml; namespace msm = boost::msm; namespace mpl = boost::mpl; namespace // Concrete FSM implementation { // events BOOST_MSM_EUML_EVENT(event1) BOOST_MSM_EUML_EVENT(event2) BOOST_MSM_EUML_EVENT(event3) BOOST_MSM_EUML_EVENT(event4) BOOST_MSM_EUML_EVENT(event5) // if we need something special, like a template constructor, we cannot use the helper macros struct event6_impl : euml_event<event6_impl> { event6_impl(){} template <class Event> event6_impl(Event const&){} }; event6_impl const event6; //Sub fsm state definition BOOST_MSM_EUML_ACTION(SubState1_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState1" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState1_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState1" << std::endl; } }; BOOST_MSM_EUML_STATE(( SubState1_Entry,SubState1_Exit ),SubState1) BOOST_MSM_EUML_ACTION(SubState1b_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState1b" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState1b_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState1b" << std::endl; } }; BOOST_MSM_EUML_STATE(( SubState1b_Entry,SubState1b_Exit ),SubState1b) BOOST_MSM_EUML_ACTION(SubState1c_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState1c" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState1c_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState1c" << std::endl; } }; BOOST_MSM_EUML_STATE(( SubState1c_Entry,SubState1c_Exit ),SubState1c) BOOST_MSM_EUML_ACTION(SubState2_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState2" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState2_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState2" << std::endl; } }; BOOST_MSM_EUML_EXPLICIT_ENTRY_STATE(0,( SubState2_Entry,SubState2_Exit ),SubState2) BOOST_MSM_EUML_ACTION(SubState2b_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState2b" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState2b_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState2b" << std::endl; } }; BOOST_MSM_EUML_EXPLICIT_ENTRY_STATE(1,( SubState2b_Entry,SubState2b_Exit ),SubState2b) BOOST_MSM_EUML_ACTION(SubState2c_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState2c" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState2c_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState2c" << std::endl; } }; BOOST_MSM_EUML_EXPLICIT_ENTRY_STATE(2,( SubState2c_Entry,SubState2c_Exit ),SubState2c) BOOST_MSM_EUML_ACTION(PseudoEntry1_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::PseudoEntry1" << std::endl; } }; BOOST_MSM_EUML_ACTION(PseudoEntry1_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::PseudoEntry1" << std::endl; } }; BOOST_MSM_EUML_ENTRY_STATE(0,( PseudoEntry1_Entry,PseudoEntry1_Exit ),PseudoEntry1) BOOST_MSM_EUML_ACTION(SubState3_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState3" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState3_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState3" << std::endl; } }; BOOST_MSM_EUML_STATE(( SubState3_Entry,SubState3_Exit ),SubState3) BOOST_MSM_EUML_ACTION(SubState3b_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::SubState3b" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubState3b_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::SubState3b" << std::endl; } }; BOOST_MSM_EUML_STATE(( SubState3b_Entry,SubState3b_Exit ),SubState3b) BOOST_MSM_EUML_ACTION(PseudoExit1_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2::PseudoExit1" << std::endl; } }; BOOST_MSM_EUML_ACTION(PseudoExit1_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2::PseudoExit1" << std::endl; } }; BOOST_MSM_EUML_EXIT_STATE(( event6,PseudoExit1_Entry,PseudoExit1_Exit ),PseudoExit1) // actions BOOST_MSM_EUML_ACTION(entry_action) { template <class FSM,class EVT,class SourceState,class TargetState> void operator()(FSM& ,EVT const& ,SourceState& ,TargetState& ) { cout << "calling entry_action" << endl; } }; // SubFsm definition BOOST_MSM_EUML_ACTION(SubFsm2_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: SubFsm2" << std::endl; } }; BOOST_MSM_EUML_ACTION(SubFsm2_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: SubFsm2" << std::endl; } }; BOOST_MSM_EUML_TRANSITION_TABLE(( // +------------------------------------------------------------------------------+ SubState3 == PseudoEntry1 + event4 / entry_action , SubState1 == SubState2 + event6 , PseudoExit1 == SubState3 + event5 // +------------------------------------------------------------------------------+ ), SubFsm2_transition_table) BOOST_MSM_EUML_DECLARE_STATE_MACHINE( (SubFsm2_transition_table, //STT init_ << SubState1 << SubState1b << SubState1c, // Init State SubFsm2_Entry, // Entry SubFsm2_Exit ),SubFsm2_def) // inherit to add some typedef struct SubFsm2_ : public SubFsm2_def { // these 2 states are not found in the transition table because they are accessed only through // a fork, so we need to create them explicitly typedef mpl::vector<BOOST_MSM_EUML_STATE_NAME(SubState2b), BOOST_MSM_EUML_STATE_NAME(SubState2c)> explicit_creation; }; // back-end typedef msm::back::state_machine<SubFsm2_> SubFsm2_type; SubFsm2_type const SubFsm2; // Fsm state definitions BOOST_MSM_EUML_ACTION(State1_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: State1" << std::endl; } }; BOOST_MSM_EUML_ACTION(State1_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: State1" << std::endl; } }; BOOST_MSM_EUML_STATE(( State1_Entry,State1_Exit ),State1) BOOST_MSM_EUML_ACTION(State2_Entry) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "entering: State2" << std::endl; } }; BOOST_MSM_EUML_ACTION(State2_Exit) { template <class Event,class FSM,class STATE> void operator()(Event const&,FSM&,STATE& ) { std::cout << "leaving: State2" << std::endl; } }; BOOST_MSM_EUML_STATE(( State2_Entry,State2_Exit ),State2) // Fsm definition BOOST_MSM_EUML_TRANSITION_TABLE(( // +------------------------------------------------------------------------------+ SubFsm2 == State1 + event1 , explicit_(SubFsm2,SubState2) == State1 + event2, (explicit_(SubFsm2,SubState2), explicit_(SubFsm2,SubState2b), explicit_(SubFsm2,SubState2c)) == State1 + event3 , entry_pt_(SubFsm2,PseudoEntry1) == State1 + event4 , State1 == SubFsm2 + event1 , State2 == exit_pt_ (SubFsm2,PseudoExit1) + event6 // +------------------------------------------------------------------------------+ ),transition_table ) BOOST_MSM_EUML_ACTION(Log_No_Transition) { template <class Event,class FSM,class STATE> void operator()(Event const& e,FSM&,STATE& ) { std::cout << "no transition in Fsm" << " on event " << typeid(e).name() << std::endl; } }; BOOST_MSM_EUML_DECLARE_STATE_MACHINE(( transition_table, //STT init_ << State1, // Init State no_action, // Entry no_action, // Exit attributes_ << no_attributes_, // Attributes configure_ << no_configure_, // configuration Log_No_Transition // no_transition handler ), Fsm_) //fsm name //back-end typedef msm::back::state_machine<Fsm_> Fsm; // // Testing utilities. // static char const* const state_names[] = { "State1", "SubFsm2","State2" }; void pstate(Fsm const& p) { std::cout << " -> " << state_names[p.current_state()[0]] << std::endl; } void test() { Fsm p; // needed to start the highest-level SM. This will call on_entry and mark the start of the SM p.start(); std::cout << "Simply move in and out of the composite, activate init states" << std::endl; p.process_event(event1); pstate(p); p.process_event(event1); pstate(p); std::cout << "Direct entry into SubFsm2::SubState2, then transition to SubState1 and back to State1" << std::endl; p.process_event(event2); pstate(p); p.process_event(event6); pstate(p); p.process_event(event1); pstate(p); std::cout << "processing fork to SubFsm2::SubState2, SubFsm2::SubState2b and SubFsm2::SubState2c" << std::endl; p.process_event(event3); pstate(p); p.process_event(event1); pstate(p); std::cout << "processing entry pseudo state" << std::endl; p.process_event(event4); pstate(p); p.process_event(event1); pstate(p); std::cout << "processing entry + exit pseudo state" << std::endl; p.process_event(event4); pstate(p); std::cout << "using exit pseudo state" << std::endl; p.process_event(event5); pstate(p); } } int main() { test(); return 0; }