boost_1_45_0/libs/msm/doc/PDF/examples/AnonymousTutorialWithFunctors.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // 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 <iostream>
 // back-end
 #include <boost/msm/back/state_machine.hpp>
 //front-end
 #include <boost/msm/front/state_machine_def.hpp>
 // functors
 #include <boost/msm/front/functor_row.hpp>
 #include <boost/msm/front/euml/common.hpp>

 namespace msm = boost::msm;
 namespace mpl = boost::mpl;
 using namespace boost::msm::front;

 namespace
 {
     // events
     struct event1 {};


     // front-end: define the FSM structure
     struct my_machine_ : public msm::front::state_machine_def<my_machine_>
     {
         // The list of FSM states
         struct State1 : public msm::front::state<>
         {
             // every (optional) entry/exit methods get the event passed.
             template <class Event,class FSM>
             void on_entry(Event const&,FSM& ) {std::cout << "entering: State1" << std::endl;}
             template <class Event,class FSM>
             void on_exit(Event const&,FSM& ) {std::cout << "leaving: State1" << std::endl;}
         };
         struct State2 : public msm::front::state<>
         {
             template <class Event,class FSM>
             void on_entry(Event const& ,FSM&) {std::cout << "entering: State2" << std::endl;}
             template <class Event,class FSM>
             void on_exit(Event const&,FSM& ) {std::cout << "leaving: State2" << std::endl;}
         };

         struct State3 : public msm::front::state<>
         {
             // when stopped, the CD is loaded
             template <class Event,class FSM>
             void on_entry(Event const& ,FSM&) {std::cout << "entering: State3" << std::endl;}
             template <class Event,class FSM>
             void on_exit(Event const&,FSM& ) {std::cout << "leaving: State3" << std::endl;}
         };

         struct State4 : public msm::front::state<>
         {
             template <class Event,class FSM>
             void on_entry(Event const&,FSM& ) {std::cout << "entering: State4" << std::endl;}
             template <class Event,class FSM>
             void on_exit(Event const&,FSM& ) {std::cout << "leaving: State4" << std::endl;}
         };

         // the initial state of the player SM. Must be defined
         typedef State1 initial_state;

         // transition actions
         struct State2ToState3
         {
             template <class EVT,class FSM,class SourceState,class TargetState>
             void operator()(EVT const& ,FSM& ,SourceState& ,TargetState& )
             {
                 std::cout << "my_machine::State2ToState3" << std::endl;
             }
         };
         struct State3ToState4
         {
             template <class EVT,class FSM,class SourceState,class TargetState>
             void operator()(EVT const& ,FSM& ,SourceState& ,TargetState& )
             {
                 std::cout << "my_machine::State3ToState4" << std::endl;
             }
         };
         // guard conditions
         struct always_true
         {
             template <class EVT,class FSM,class SourceState,class TargetState>
             bool operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)
             {
                 std::cout << "always_true" << std::endl;
                 return true;
             }
         };
         struct always_false
         {
             template <class EVT,class FSM,class SourceState,class TargetState>
             bool operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)
             {
                 std::cout << "always_false" << std::endl;
                 return true;
             }
         };

         typedef my_machine_ p; // makes transition table cleaner

         // Transition table for player
         struct transition_table : mpl::vector<
             //    Start     Event         Next      Action               Guard
             //  +---------+-------------+---------+---------------------+----------------------+
             Row < State1  , none        , State2                                               >,
             Row < State2  , none        , State3  , State2ToState3                             >,
             Row < State3  , none        , State4  , none                , always_false         >,
             //  +---------+-------------+---------+---------------------+----------------------+
             Row < State3  , none        , State4  , State3ToState4      , always_true          >,
             Row < State4  , event1      , State1                                               >
             //  +---------+-------------+---------+---------------------+----------------------+
         > {};
         // Replaces the default no-transition response.
         template <class FSM,class Event>
         void no_transition(Event const& e, FSM&,int state)
         {
             std::cout << "no transition from state " << state
                 << " on event " << typeid(e).name() << std::endl;
         }
     };
     // Pick a back-end
     typedef msm::back::state_machine<my_machine_> my_machine;

     //
     // Testing utilities.
     //
     static char const* const state_names[] = { "State1", "State2", "State3", "State4" };
     void pstate(my_machine const& p)
     {
         std::cout << " -> " << state_names[p.current_state()[0]] << std::endl;
     }

     void test()
     {
         my_machine p;

         // needed to start the highest-level SM. This will call on_entry and mark the start of the SM
         // in this case it will also immediately trigger all anonymous transitions
         p.start();
         // this event will bring us back to the initial state and thus, a new "loop" will be started
         p.process_event(event1());

     }
 }

 int main()
 {
     test();
     return 0;
 }
	// 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 <iostream>
	// back-end
	#include <boost/msm/back/state_machine.hpp>
	//front-end
	#include <boost/msm/front/state_machine_def.hpp>
	// functors
	#include <boost/msm/front/functor_row.hpp>
	#include <boost/msm/front/euml/common.hpp>

	namespace msm = boost::msm;
	namespace mpl = boost::mpl;
	using namespace boost::msm::front;

	namespace
	{
	// events
	struct event1 {};


	// front-end: define the FSM structure
	struct my_machine_ : public msm::front::state_machine_def<my_machine_>
	{
	// The list of FSM states
	struct State1 : public msm::front::state<>
	{
	// every (optional) entry/exit methods get the event passed.
	template <class Event,class FSM>
	void on_entry(Event const&,FSM& ) {std::cout << "entering: State1" << std::endl;}
	template <class Event,class FSM>
	void on_exit(Event const&,FSM& ) {std::cout << "leaving: State1" << std::endl;}
	};
	struct State2 : public msm::front::state<>
	{
	template <class Event,class FSM>
	void on_entry(Event const& ,FSM&) {std::cout << "entering: State2" << std::endl;}
	template <class Event,class FSM>
	void on_exit(Event const&,FSM& ) {std::cout << "leaving: State2" << std::endl;}
	};

	struct State3 : public msm::front::state<>
	{
	// when stopped, the CD is loaded
	template <class Event,class FSM>
	void on_entry(Event const& ,FSM&) {std::cout << "entering: State3" << std::endl;}
	template <class Event,class FSM>
	void on_exit(Event const&,FSM& ) {std::cout << "leaving: State3" << std::endl;}
	};

	struct State4 : public msm::front::state<>
	{
	template <class Event,class FSM>
	void on_entry(Event const&,FSM& ) {std::cout << "entering: State4" << std::endl;}
	template <class Event,class FSM>
	void on_exit(Event const&,FSM& ) {std::cout << "leaving: State4" << std::endl;}
	};

	// the initial state of the player SM. Must be defined
	typedef State1 initial_state;

	// transition actions
	struct State2ToState3
	{
	template <class EVT,class FSM,class SourceState,class TargetState>
	void operator()(EVT const& ,FSM& ,SourceState& ,TargetState& )
	{
	std::cout << "my_machine::State2ToState3" << std::endl;
	}
	};
	struct State3ToState4
	{
	template <class EVT,class FSM,class SourceState,class TargetState>
	void operator()(EVT const& ,FSM& ,SourceState& ,TargetState& )
	{
	std::cout << "my_machine::State3ToState4" << std::endl;
	}
	};
	// guard conditions
	struct always_true
	{
	template <class EVT,class FSM,class SourceState,class TargetState>
	bool operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)
	{
	std::cout << "always_true" << std::endl;
	return true;
	}
	};
	struct always_false
	{
	template <class EVT,class FSM,class SourceState,class TargetState>
	bool operator()(EVT const& evt,FSM& fsm,SourceState& src,TargetState& tgt)
	{
	std::cout << "always_false" << std::endl;
	return true;
	}
	};

	typedef my_machine_ p; // makes transition table cleaner

	// Transition table for player
	struct transition_table : mpl::vector<
	// Start Event Next Action Guard
	// +---------+-------------+---------+---------------------+----------------------+
	Row < State1 , none , State2 >,
	Row < State2 , none , State3 , State2ToState3 >,
	Row < State3 , none , State4 , none , always_false >,
	// +---------+-------------+---------+---------------------+----------------------+
	Row < State3 , none , State4 , State3ToState4 , always_true >,
	Row < State4 , event1 , State1 >
	// +---------+-------------+---------+---------------------+----------------------+
	> {};
	// Replaces the default no-transition response.
	template <class FSM,class Event>
	void no_transition(Event const& e, FSM&,int state)
	{
	std::cout << "no transition from state " << state
	<< " on event " << typeid(e).name() << std::endl;
	}
	};
	// Pick a back-end
	typedef msm::back::state_machine<my_machine_> my_machine;

	//
	// Testing utilities.
	//
	static char const* const state_names[] = { "State1", "State2", "State3", "State4" };
	void pstate(my_machine const& p)
	{
	std::cout << " -> " << state_names[p.current_state()[0]] << std::endl;
	}

	void test()
	{
	my_machine p;

	// needed to start the highest-level SM. This will call on_entry and mark the start of the SM
	// in this case it will also immediately trigger all anonymous transitions
	p.start();
	// this event will bring us back to the initial state and thus, a new "loop" will be started
	p.process_event(event1());

	}
	}

	int main()
	{
	test();
	return 0;
	}