boost_1_45_0/libs/statechart/test/TransitionTest.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 //////////////////////////////////////////////////////////////////////////////
 // Copyright 2004-2007 Andreas Huber Doenni
 // Distributed under the Boost Software License, Version 1.0. (See accompany-
 // ing file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
 //////////////////////////////////////////////////////////////////////////////


 #include "OuterOrthogonal.hpp"
 #include "InnermostDefault.hpp"

 #include <boost/statechart/state_machine.hpp>
 #include <boost/statechart/null_exception_translator.hpp>
 #include <boost/statechart/exception_translator.hpp>
 #include <boost/statechart/event.hpp>
 #include <boost/statechart/transition.hpp>
 #include <boost/statechart/custom_reaction.hpp>

 #include <boost/mpl/list.hpp>

 #include <boost/test/test_tools.hpp>

 #include <typeinfo>
 #include <string>
 #include <vector>
 #include <iostream>
 #include <algorithm>
 #include <stdexcept>


 namespace sc = boost::statechart;
 namespace mpl = boost::mpl;


 typedef std::string ActionDescription();
 typedef ActionDescription * ActionDescriptionPtr;
 typedef std::vector< ActionDescriptionPtr > ActionDescriptionSequence;
 typedef ActionDescriptionSequence::const_iterator SequenceIterator;
 typedef void Action( ActionDescriptionSequence & );
 typedef Action * ActionPtr;

 template< class State >
 std::string EntryDescription()
 {
   static const std::string entry = "Entry: ";
   return entry + typeid( State ).name() + "\n";
 }

 template< class State >
 std::string ExitFnDescription()
 {
   static const std::string exitFunction = "exit(): ";
   return exitFunction + typeid( State ).name() + "\n";
 }

 template< class State >
 std::string DtorDescription()
 {
   static const std::string destructor = "Destructor: ";
   return destructor + typeid( State ).name() + "\n";
 }

 template< class Context, class Event >
 std::string TransDescription()
 {
   static const std::string transition = "Transition: ";
   static const std::string event = " with Event: ";
   return transition + typeid( Context ).name() +
     event + typeid( Event ).name() + "\n";
 }

 template< ActionPtr pAction >
 std::string ThrowDescription()
 {
   static const std::string throwing = "Throwing exception in ";
   ActionDescriptionSequence sequence;
   pAction( sequence );
   return throwing + sequence.front()();
 }


 template< class State >
 void Entry( ActionDescriptionSequence & sequence )
 {
   sequence.push_back( &EntryDescription< State > );
 }

 template< class State >
 void ExitFn( ActionDescriptionSequence & sequence )
 {
   sequence.push_back( &ExitFnDescription< State > );
 }

 template< class State >
 void Dtor( ActionDescriptionSequence & sequence )
 {
   sequence.push_back( &DtorDescription< State > );
 }

 template< class State >
 void Exit( ActionDescriptionSequence & sequence )
 {
   ExitFn< State >( sequence );
   Dtor< State >( sequence );
 }

 template< class Context, class Event >
 void Trans( ActionDescriptionSequence & sequence )
 {
   sequence.push_back( &TransDescription< Context, Event > );
 }

 template< ActionPtr pAction >
 void Throw( ActionDescriptionSequence & sequence )
 {
   sequence.push_back( &ThrowDescription< pAction > );
 }

 const int arrayLength = 30;
 typedef ActionPtr ActionArray[ arrayLength ];


 class TransitionTestException : public std::runtime_error
 {
   public:
     TransitionTestException() : std::runtime_error( "Oh la la!" ) {}
 };


 // This test state machine is a beefed-up version of the one presented in
 // "Practical Statecharts in C/C++" by Miro Samek, CMP Books 2002
 struct A : sc::event< A > {};
 struct B : sc::event< B > {};
 struct C : sc::event< C > {};
 struct D : sc::event< D > {};
 struct E : sc::event< E > {};
 struct F : sc::event< F > {};
 struct G : sc::event< G > {};
 struct H : sc::event< H > {};


 template< class M > struct S0;
 template< class Translator >
 struct TransitionTest : sc::state_machine<
   TransitionTest< Translator >, S0< TransitionTest< Translator > >,
   std::allocator< void >, Translator >
 {
   public:
     //////////////////////////////////////////////////////////////////////////
     TransitionTest() : pThrowAction_( 0 ), unconsumedEventCount_( 0 ) {}

     ~TransitionTest()
     {
       // Since state destructors access the state machine object, we need to
       // make sure that all states are destructed before this subtype
       // portion is destructed.
       this->terminate();
     }

     void CompareToExpectedActionSequence( ActionArray & actions )
     {
       expectedSequence_.clear();

       // Copy all non-null pointers in actions into expectedSequence_
       for ( ActionPtr * pCurrent = &actions[ 0 ];
         ( pCurrent != &actions[ arrayLength ] ) && ( *pCurrent != 0 );
         ++pCurrent )
       {
         ( *pCurrent )( expectedSequence_ );
       }

       if ( ( expectedSequence_.size() != actualSequence_.size() ) ||
         !std::equal( expectedSequence_.begin(),
           expectedSequence_.end(), actualSequence_.begin() ) )
       {
         std::string message = "\nExpected action sequence:\n";

         for ( SequenceIterator pExpected = expectedSequence_.begin();
           pExpected != expectedSequence_.end(); ++pExpected )
         {
           message += ( *pExpected )();
         }

         message += "\nActual action sequence:\n";

         for ( SequenceIterator pActual = actualSequence_.begin();
           pActual != actualSequence_.end(); ++pActual )
         {
           message += ( *pActual )();
         }

         BOOST_FAIL( message.c_str() );
       }

       actualSequence_.clear();
     }

     void ClearActualSequence()
     {
       actualSequence_.clear();
     }

     void ThrowAction( ActionPtr pThrowAction )
     {
       pThrowAction_ = pThrowAction;
     }

     template< class State >
     void ActualEntry()
     {
       StoreActualAction< &Entry< State > >();
     }

     template< class State >
     void ActualExitFunction()
     {
       StoreActualAction< &ExitFn< State > >();
     }

     template< class State >
     void ActualDestructor()
     {
       StoreActualAction< &Dtor< State > >();
     }

     template< class Context, class Event >
     void ActualTransition()
     {
       StoreActualAction< &Trans< Context, Event > >();
     }

     void unconsumed_event( const sc::event_base & )
     {
       ++unconsumedEventCount_;
     }

     unsigned int GetUnconsumedEventCount() const
     {
       return unconsumedEventCount_;
     }

   private:
     //////////////////////////////////////////////////////////////////////////
     template< ActionPtr pAction >
     void StoreActualAction()
     {
       if ( pAction == pThrowAction_ )
       {
         Throw< pAction >( actualSequence_ );
         throw TransitionTestException();
       }
       else
       {
         pAction( actualSequence_ );
       }
     }

     ActionPtr pThrowAction_;
     ActionDescriptionSequence actualSequence_;
     ActionDescriptionSequence expectedSequence_;
     unsigned int unconsumedEventCount_;
 };

 template< class M > struct S1;
 template< class M > struct S211;
 template< class M >
 struct S0 : Orthogonal0< S0< M >, M, S1< M > >
 {
   typedef Orthogonal0< S0< M >, M, S1< M > > my_base;
   public:
     typedef sc::transition< E, S211< M > > reactions;

     S0( typename my_base::my_context ctx ) : my_base( ctx ) {}

     void Transit( const A & evt ) { TransitImpl( evt ); }
     void Transit( const B & evt ) { TransitImpl( evt ); }
     void Transit( const C & evt ) { TransitImpl( evt ); }
     void Transit( const D & evt ) { TransitImpl( evt ); }
     void Transit( const F & evt ) { TransitImpl( evt ); }
     void Transit( const G & evt ) { TransitImpl( evt ); }
     void Transit( const H & evt ) { TransitImpl( evt ); }

   private:
     template< class Event >
     void TransitImpl( const Event & )
     {
       this->outermost_context().template ActualTransition< S0< M >, Event >();
     }
 };

   template< class M > struct S11;
   template< class M > struct S21;
   template< class M >
   struct S2 : Orthogonal2< S2< M >, S0< M >, S21< M > >
   {
     typedef Orthogonal2< S2< M >, S0< M >, S21< M > > my_base;
     typedef mpl::list<
       sc::transition< C, S1< M >, S0< M >, &S0< M >::Transit >,
       sc::transition< F, S11< M >, S0< M >, &S0< M >::Transit >
     > reactions;

     S2( typename my_base::my_context ctx ) : my_base( ctx ) {}
   };

     template< class M >
     struct S21 : Orthogonal1<
       S21< M >, typename S2< M >::template orthogonal< 2 >, S211< M > >
     {
       typedef Orthogonal1<
         S21< M >, typename S2< M >::template orthogonal< 2 >, S211< M >
       > my_base;
       typedef mpl::list<
         sc::transition< H, S21< M >, S0< M >, &S0< M >::Transit >,
         sc::transition< B, S211< M >, S0< M >, &S0< M >::Transit >
       > reactions;

       S21( typename my_base::my_context ctx ) : my_base( ctx ) {}
     };

       template< class M >
       struct S211 : InnermostDefault<
         S211< M >, typename S21< M >::template orthogonal< 1 > >
       {
         typedef InnermostDefault<
           S211< M >, typename S21< M >::template orthogonal< 1 > > my_base;
         typedef mpl::list<
           sc::transition< D, S21< M >, S0< M >, &S0< M >::Transit >,
           sc::transition< G, S0< M > >
         > reactions;

         S211( typename my_base::my_context ctx ) : my_base( ctx ) {}
       };

   template< class M >
   struct S1 : Orthogonal1< S1< M >, S0< M >, S11< M > >
   {
     typedef Orthogonal1< S1< M >, S0< M >, S11< M > > my_base;
     typedef mpl::list<
       sc::transition< A, S1< M >, S0< M >, &S0< M >::Transit >,
       sc::transition< B, S11< M >, S0< M >, &S0< M >::Transit >,
       sc::transition< C, S2< M >, S0< M >, &S0< M >::Transit >,
       sc::transition< D, S0< M > >,
       sc::transition< F, S211< M >, S0< M >, &S0< M >::Transit >
     > reactions;

     S1( typename my_base::my_context ctx ) : my_base( ctx ) {}
   };

     template< class M >
     struct S11 : InnermostDefault<
       S11< M >, typename S1< M >::template orthogonal< 1 > >
     {
       typedef InnermostDefault<
         S11< M >, typename S1< M >::template orthogonal< 1 > > my_base;
       typedef mpl::list<
         sc::transition< G, S211< M >, S0< M >, &S0< M >::Transit >,
         sc::custom_reaction< H >
       > reactions;

       S11( typename my_base::my_context ctx ) : my_base( ctx ) {}

       sc::result react( const H & )
       {
         this->outermost_context().template ActualTransition< S11< M >, H >();
         return this->discard_event();
       }
     };


 struct X1;
 struct TransitionEventBaseTest :
   sc::state_machine< TransitionEventBaseTest, X1 >
 {
   public:
     TransitionEventBaseTest() : actionCallCounter_( 0 ) {}

     void Transit( const sc::event_base & eventBase )
     {
       BOOST_REQUIRE(
         ( dynamic_cast< const B * >( &eventBase ) != 0 ) ||
         ( dynamic_cast< const D * >( &eventBase ) != 0 ) );
       ++actionCallCounter_;
     }

     unsigned int GetActionCallCounter() const
     {
       return actionCallCounter_;
     }

   private:
     unsigned int actionCallCounter_;
 };

 struct X2 : sc::simple_state< X2, TransitionEventBaseTest >
 {
   typedef sc::transition< sc::event_base, X1,
     TransitionEventBaseTest, &TransitionEventBaseTest::Transit > reactions;
 };

 struct X1 : sc::simple_state< X1, TransitionEventBaseTest >
 {
   typedef sc::transition< sc::event_base, X2 > reactions;
 };

 template< class M >
 void TestTransitions( M & machine )
 {
   machine.initiate();
   ActionArray init =
   {
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >
   };
   machine.CompareToExpectedActionSequence( init );

   machine.process_event( A() );
   ActionArray a1 =
   {
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Trans< S0< M >, A >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >
   };
   machine.CompareToExpectedActionSequence( a1 );

   machine.process_event( B() );
   ActionArray b1 =
   {
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Trans< S0< M >, B >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >
   };
   machine.CompareToExpectedActionSequence( b1 );

   machine.process_event( C() );
   ActionArray c1 =
   {
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Trans< S0< M >, C >,
     Entry< S2< M > >,
     Entry< Default0< S2< M > > >,
     Entry< Default1< S2< M > > >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >
   };
   machine.CompareToExpectedActionSequence( c1 );

   machine.process_event( D() );
   ActionArray d2 =
   {
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Trans< S0< M >, D >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >
   };
   machine.CompareToExpectedActionSequence( d2 );

   machine.process_event( E() );
   ActionArray e2 =
   {
     Exit< Default2< S0< M > > >,
     Exit< Default1< S0< M > > >,
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Exit< Default1< S2< M > > >,
     Exit< Default0< S2< M > > >,
     Exit< S2< M > >,
     Exit< S0< M > >,
     Entry< S0< M > >,
     Entry< S2< M > >,
     Entry< Default0< S2< M > > >,
     Entry< Default1< S2< M > > >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >
   };
   machine.CompareToExpectedActionSequence( e2 );

   machine.process_event( F() );
   ActionArray f2 =
   {
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Exit< Default1< S2< M > > >,
     Exit< Default0< S2< M > > >,
     Exit< S2< M > >,
     Trans< S0< M >, F >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >
   };
   machine.CompareToExpectedActionSequence( f2 );

   machine.process_event( G() );
   ActionArray g1 =
   {
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Trans< S0< M >, G >,
     Entry< S2< M > >,
     Entry< Default0< S2< M > > >,
     Entry< Default1< S2< M > > >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >
   };
   machine.CompareToExpectedActionSequence( g1 );

   machine.process_event( H() );
   ActionArray h2 =
   {
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Trans< S0< M >, H >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >
   };
   machine.CompareToExpectedActionSequence( h2 );

   BOOST_REQUIRE( machine.GetUnconsumedEventCount() == 0 );
   machine.process_event( A() );
   BOOST_REQUIRE( machine.GetUnconsumedEventCount() == 1 );
   ActionArray a2 =
   {
   };
   machine.CompareToExpectedActionSequence( a2 );

   machine.process_event( B() );
   ActionArray b2 =
   {
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Trans< S0< M >, B >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >
   };
   machine.CompareToExpectedActionSequence( b2 );

   machine.process_event( C() );
   ActionArray c2 =
   {
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Exit< Default1< S2< M > > >,
     Exit< Default0< S2< M > > >,
     Exit< S2< M > >,
     Trans< S0< M >, C >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >
   };
   machine.CompareToExpectedActionSequence( c2 );

   machine.process_event( D() );
   ActionArray d1 =
   {
     Exit< Default2< S0< M > > >,
     Exit< Default1< S0< M > > >,
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Exit< S0< M > >,
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >
   };
   machine.CompareToExpectedActionSequence( d1 );

   machine.process_event( F() );
   ActionArray f1 =
   {
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Trans< S0< M >, F >,
     Entry< S2< M > >,
     Entry< Default0< S2< M > > >,
     Entry< Default1< S2< M > > >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >
   };
   machine.CompareToExpectedActionSequence( f1 );

   machine.process_event( G() );
   ActionArray g2 =
   {
     Exit< Default2< S0< M > > >,
     Exit< Default1< S0< M > > >,
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Exit< Default1< S2< M > > >,
     Exit< Default0< S2< M > > >,
     Exit< S2< M > >,
     Exit< S0< M > >,
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >
   };
   machine.CompareToExpectedActionSequence( g2 );

   machine.process_event( H() );
   ActionArray h1 =
   {
     Trans< S11< M >, H >
   };
   machine.CompareToExpectedActionSequence( h1 );

   machine.process_event( E() );
   ActionArray e1 =
   {
     Exit< Default2< S0< M > > >,
     Exit< Default1< S0< M > > >,
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Exit< S0< M > >,
     Entry< S0< M > >,
     Entry< S2< M > >,
     Entry< Default0< S2< M > > >,
     Entry< Default1< S2< M > > >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     Entry< S211< M > >,
     Entry< Default2< S21< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >
   };
   machine.CompareToExpectedActionSequence( e1 );

   machine.terminate();
   ActionArray term =
   {
     Exit< Default2< S0< M > > >,
     Exit< Default1< S0< M > > >,
     Exit< Default2< S21< M > > >,
     Exit< S211< M > >,
     Exit< Default0< S21< M > > >,
     Exit< S21< M > >,
     Exit< Default1< S2< M > > >,
     Exit< Default0< S2< M > > >,
     Exit< S2< M > >,
     Exit< S0< M > >
   };
   machine.CompareToExpectedActionSequence( term );

   machine.ThrowAction( &Entry< Default0< S1< M > > > );
   BOOST_REQUIRE_THROW( machine.initiate(), TransitionTestException );
   ActionArray initThrow1 =
   {
     Entry< S0< M > >,
     Entry< S1< M > >,
     &::Throw< &::Entry< Default0< S1< M > > > >,
     Dtor< S1< M > >,
     Dtor< S0< M > >
   };
   machine.CompareToExpectedActionSequence( initThrow1 );
   BOOST_REQUIRE( machine.terminated() );

   machine.ThrowAction( &Entry< S11< M > > );
   BOOST_REQUIRE_THROW( machine.initiate(), TransitionTestException );
   ActionArray initThrow2 =
   {
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     &::Throw< &::Entry< S11< M > > >,
     Dtor< Default0< S1< M > > >,
     Dtor< S1< M > >,
     Dtor< S0< M > >
   };
   machine.CompareToExpectedActionSequence( initThrow2 );
   BOOST_REQUIRE( machine.terminated() );

   machine.ThrowAction( &Trans< S0< M >, A > );
   machine.initiate();
   BOOST_REQUIRE_THROW( machine.process_event( A() ), TransitionTestException );
   ActionArray a1Throw1 =
   {
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >,
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     &::Throw< &::Trans< S0< M >, A > >,
     Dtor< Default2< S0< M > > >,
     Dtor< Default1< S0< M > > >,
     Dtor< S0< M > >
   };
   machine.CompareToExpectedActionSequence( a1Throw1 );
   BOOST_REQUIRE( machine.terminated() );

   machine.ThrowAction( &Entry< S211< M > > );
   machine.initiate();
   BOOST_REQUIRE_THROW( machine.process_event( C() ), TransitionTestException );
   ActionArray c1Throw1 =
   {
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >,
     Exit< Default2< S1< M > > >,
     Exit< S11< M > >,
     Exit< Default0< S1< M > > >,
     Exit< S1< M > >,
     Trans< S0< M >, C >,
     Entry< S2< M > >,
     Entry< Default0< S2< M > > >,
     Entry< Default1< S2< M > > >,
     Entry< S21< M > >,
     Entry< Default0< S21< M > > >,
     &::Throw< &::Entry< S211< M > > >,
     Dtor< Default2< S0< M > > >,
     Dtor< Default1< S0< M > > >,
     Dtor< Default0< S21< M > > >,
     Dtor< S21< M > >,
     Dtor< Default1< S2< M > > >,
     Dtor< Default0< S2< M > > >,
     Dtor< S2< M > >,
     Dtor< S0< M > >
   };
   machine.CompareToExpectedActionSequence( c1Throw1 );
   BOOST_REQUIRE( machine.terminated() );

   machine.ThrowAction( &ExitFn< S11< M > > );
   machine.initiate();
   BOOST_REQUIRE_THROW( machine.process_event( C() ), TransitionTestException );
   ActionArray c1Throw2 =
   {
     Entry< S0< M > >,
     Entry< S1< M > >,
     Entry< Default0< S1< M > > >,
     Entry< S11< M > >,
     Entry< Default2< S1< M > > >,
     Entry< Default1< S0< M > > >,
     Entry< Default2< S0< M > > >,
     Exit< Default2< S1< M > > >,
     &::Throw< &::ExitFn< S11< M > > >,
     Dtor< S11< M > >,
     Dtor< Default2< S0< M > > >,
     Dtor< Default1< S0< M > > >,
     Dtor< Default0< S1< M > > >,
     Dtor< S1< M > >,
     Dtor< S0< M > >
   };
   machine.CompareToExpectedActionSequence( c1Throw2 );
   BOOST_REQUIRE( machine.terminated() );
   BOOST_REQUIRE( machine.GetUnconsumedEventCount() == 1 );
 }


 int test_main( int, char* [] )
 {
   TransitionTest< sc::null_exception_translator > null_machine;
   TestTransitions( null_machine );
   TransitionTest< sc::exception_translator<> > machine;
   TestTransitions( machine );

   TransitionEventBaseTest eventBaseMachine;
   eventBaseMachine.initiate();
   BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X1 & >() );
   eventBaseMachine.process_event( A() );
   BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X2 & >() );
   BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 0 );
   eventBaseMachine.process_event( B() );
   BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X1 & >() );
   BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 1 );
   eventBaseMachine.process_event( C() );
   BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X2 & >() );
   BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 1 );
   eventBaseMachine.process_event( D() );
   BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X1 & >() );
   BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 2 );

   return 0;
 }
	//////////////////////////////////////////////////////////////////////////////
	// Copyright 2004-2007 Andreas Huber Doenni
	// Distributed under the Boost Software License, Version 1.0. (See accompany-
	// ing file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
	//////////////////////////////////////////////////////////////////////////////



	#include "OuterOrthogonal.hpp"
	#include "InnermostDefault.hpp"

	#include <boost/statechart/state_machine.hpp>
	#include <boost/statechart/null_exception_translator.hpp>
	#include <boost/statechart/exception_translator.hpp>
	#include <boost/statechart/event.hpp>
	#include <boost/statechart/transition.hpp>
	#include <boost/statechart/custom_reaction.hpp>

	#include <boost/mpl/list.hpp>

	#include <boost/test/test_tools.hpp>

	#include <typeinfo>
	#include <string>
	#include <vector>
	#include <iostream>
	#include <algorithm>
	#include <stdexcept>



	namespace sc = boost::statechart;
	namespace mpl = boost::mpl;



	typedef std::string ActionDescription();
	typedef ActionDescription * ActionDescriptionPtr;
	typedef std::vector< ActionDescriptionPtr > ActionDescriptionSequence;
	typedef ActionDescriptionSequence::const_iterator SequenceIterator;
	typedef void Action( ActionDescriptionSequence & );
	typedef Action * ActionPtr;

	template< class State >
	std::string EntryDescription()
	{
	static const std::string entry = "Entry: ";
	return entry + typeid( State ).name() + "\n";
	}

	template< class State >
	std::string ExitFnDescription()
	{
	static const std::string exitFunction = "exit(): ";
	return exitFunction + typeid( State ).name() + "\n";
	}

	template< class State >
	std::string DtorDescription()
	{
	static const std::string destructor = "Destructor: ";
	return destructor + typeid( State ).name() + "\n";
	}

	template< class Context, class Event >
	std::string TransDescription()
	{
	static const std::string transition = "Transition: ";
	static const std::string event = " with Event: ";
	return transition + typeid( Context ).name() +
	event + typeid( Event ).name() + "\n";
	}

	template< ActionPtr pAction >
	std::string ThrowDescription()
	{
	static const std::string throwing = "Throwing exception in ";
	ActionDescriptionSequence sequence;
	pAction( sequence );
	return throwing + sequence.front()();
	}


	template< class State >
	void Entry( ActionDescriptionSequence & sequence )
	{
	sequence.push_back( &EntryDescription< State > );
	}

	template< class State >
	void ExitFn( ActionDescriptionSequence & sequence )
	{
	sequence.push_back( &ExitFnDescription< State > );
	}

	template< class State >
	void Dtor( ActionDescriptionSequence & sequence )
	{
	sequence.push_back( &DtorDescription< State > );
	}

	template< class State >
	void Exit( ActionDescriptionSequence & sequence )
	{
	ExitFn< State >( sequence );
	Dtor< State >( sequence );
	}

	template< class Context, class Event >
	void Trans( ActionDescriptionSequence & sequence )
	{
	sequence.push_back( &TransDescription< Context, Event > );
	}

	template< ActionPtr pAction >
	void Throw( ActionDescriptionSequence & sequence )
	{
	sequence.push_back( &ThrowDescription< pAction > );
	}

	const int arrayLength = 30;
	typedef ActionPtr ActionArray[ arrayLength ];


	class TransitionTestException : public std::runtime_error
	{
	public:
	TransitionTestException() : std::runtime_error( "Oh la la!" ) {}
	};


	// This test state machine is a beefed-up version of the one presented in
	// "Practical Statecharts in C/C++" by Miro Samek, CMP Books 2002
	struct A : sc::event< A > {};
	struct B : sc::event< B > {};
	struct C : sc::event< C > {};
	struct D : sc::event< D > {};
	struct E : sc::event< E > {};
	struct F : sc::event< F > {};
	struct G : sc::event< G > {};
	struct H : sc::event< H > {};


	template< class M > struct S0;
	template< class Translator >
	struct TransitionTest : sc::state_machine<
	TransitionTest< Translator >, S0< TransitionTest< Translator > >,
	std::allocator< void >, Translator >
	{
	public:
	//////////////////////////////////////////////////////////////////////////
	TransitionTest() : pThrowAction_( 0 ), unconsumedEventCount_( 0 ) {}

	~TransitionTest()
	{
	// Since state destructors access the state machine object, we need to
	// make sure that all states are destructed before this subtype
	// portion is destructed.
	this->terminate();
	}

	void CompareToExpectedActionSequence( ActionArray & actions )
	{
	expectedSequence_.clear();

	// Copy all non-null pointers in actions into expectedSequence_
	for ( ActionPtr * pCurrent = &actions[ 0 ];
	( pCurrent != &actions[ arrayLength ] ) && ( *pCurrent != 0 );
	++pCurrent )
	{
	( *pCurrent )( expectedSequence_ );
	}

	if ( ( expectedSequence_.size() != actualSequence_.size() ) \|\|
	!std::equal( expectedSequence_.begin(),
	expectedSequence_.end(), actualSequence_.begin() ) )
	{
	std::string message = "\nExpected action sequence:\n";

	for ( SequenceIterator pExpected = expectedSequence_.begin();
	pExpected != expectedSequence_.end(); ++pExpected )
	{
	message += ( *pExpected )();
	}

	message += "\nActual action sequence:\n";

	for ( SequenceIterator pActual = actualSequence_.begin();
	pActual != actualSequence_.end(); ++pActual )
	{
	message += ( *pActual )();
	}

	BOOST_FAIL( message.c_str() );
	}

	actualSequence_.clear();
	}

	void ClearActualSequence()
	{
	actualSequence_.clear();
	}

	void ThrowAction( ActionPtr pThrowAction )
	{
	pThrowAction_ = pThrowAction;
	}

	template< class State >
	void ActualEntry()
	{
	StoreActualAction< &Entry< State > >();
	}

	template< class State >
	void ActualExitFunction()
	{
	StoreActualAction< &ExitFn< State > >();
	}

	template< class State >
	void ActualDestructor()
	{
	StoreActualAction< &Dtor< State > >();
	}

	template< class Context, class Event >
	void ActualTransition()
	{
	StoreActualAction< &Trans< Context, Event > >();
	}

	void unconsumed_event( const sc::event_base & )
	{
	++unconsumedEventCount_;
	}

	unsigned int GetUnconsumedEventCount() const
	{
	return unconsumedEventCount_;
	}

	private:
	//////////////////////////////////////////////////////////////////////////
	template< ActionPtr pAction >
	void StoreActualAction()
	{
	if ( pAction == pThrowAction_ )
	{
	Throw< pAction >( actualSequence_ );
	throw TransitionTestException();
	}
	else
	{
	pAction( actualSequence_ );
	}
	}

	ActionPtr pThrowAction_;
	ActionDescriptionSequence actualSequence_;
	ActionDescriptionSequence expectedSequence_;
	unsigned int unconsumedEventCount_;
	};

	template< class M > struct S1;
	template< class M > struct S211;
	template< class M >
	struct S0 : Orthogonal0< S0< M >, M, S1< M > >
	{
	typedef Orthogonal0< S0< M >, M, S1< M > > my_base;
	public:
	typedef sc::transition< E, S211< M > > reactions;

	S0( typename my_base::my_context ctx ) : my_base( ctx ) {}

	void Transit( const A & evt ) { TransitImpl( evt ); }
	void Transit( const B & evt ) { TransitImpl( evt ); }
	void Transit( const C & evt ) { TransitImpl( evt ); }
	void Transit( const D & evt ) { TransitImpl( evt ); }
	void Transit( const F & evt ) { TransitImpl( evt ); }
	void Transit( const G & evt ) { TransitImpl( evt ); }
	void Transit( const H & evt ) { TransitImpl( evt ); }

	private:
	template< class Event >
	void TransitImpl( const Event & )
	{
	this->outermost_context().template ActualTransition< S0< M >, Event >();
	}
	};

	template< class M > struct S11;
	template< class M > struct S21;
	template< class M >
	struct S2 : Orthogonal2< S2< M >, S0< M >, S21< M > >
	{
	typedef Orthogonal2< S2< M >, S0< M >, S21< M > > my_base;
	typedef mpl::list<
	sc::transition< C, S1< M >, S0< M >, &S0< M >::Transit >,
	sc::transition< F, S11< M >, S0< M >, &S0< M >::Transit >
	> reactions;

	S2( typename my_base::my_context ctx ) : my_base( ctx ) {}
	};

	template< class M >
	struct S21 : Orthogonal1<
	S21< M >, typename S2< M >::template orthogonal< 2 >, S211< M > >
	{
	typedef Orthogonal1<
	S21< M >, typename S2< M >::template orthogonal< 2 >, S211< M >
	> my_base;
	typedef mpl::list<
	sc::transition< H, S21< M >, S0< M >, &S0< M >::Transit >,
	sc::transition< B, S211< M >, S0< M >, &S0< M >::Transit >
	> reactions;

	S21( typename my_base::my_context ctx ) : my_base( ctx ) {}
	};

	template< class M >
	struct S211 : InnermostDefault<
	S211< M >, typename S21< M >::template orthogonal< 1 > >
	{
	typedef InnermostDefault<
	S211< M >, typename S21< M >::template orthogonal< 1 > > my_base;
	typedef mpl::list<
	sc::transition< D, S21< M >, S0< M >, &S0< M >::Transit >,
	sc::transition< G, S0< M > >
	> reactions;

	S211( typename my_base::my_context ctx ) : my_base( ctx ) {}
	};

	template< class M >
	struct S1 : Orthogonal1< S1< M >, S0< M >, S11< M > >
	{
	typedef Orthogonal1< S1< M >, S0< M >, S11< M > > my_base;
	typedef mpl::list<
	sc::transition< A, S1< M >, S0< M >, &S0< M >::Transit >,
	sc::transition< B, S11< M >, S0< M >, &S0< M >::Transit >,
	sc::transition< C, S2< M >, S0< M >, &S0< M >::Transit >,
	sc::transition< D, S0< M > >,
	sc::transition< F, S211< M >, S0< M >, &S0< M >::Transit >
	> reactions;

	S1( typename my_base::my_context ctx ) : my_base( ctx ) {}
	};

	template< class M >
	struct S11 : InnermostDefault<
	S11< M >, typename S1< M >::template orthogonal< 1 > >
	{
	typedef InnermostDefault<
	S11< M >, typename S1< M >::template orthogonal< 1 > > my_base;
	typedef mpl::list<
	sc::transition< G, S211< M >, S0< M >, &S0< M >::Transit >,
	sc::custom_reaction< H >
	> reactions;

	S11( typename my_base::my_context ctx ) : my_base( ctx ) {}

	sc::result react( const H & )
	{
	this->outermost_context().template ActualTransition< S11< M >, H >();
	return this->discard_event();
	}
	};


	struct X1;
	struct TransitionEventBaseTest :
	sc::state_machine< TransitionEventBaseTest, X1 >
	{
	public:
	TransitionEventBaseTest() : actionCallCounter_( 0 ) {}

	void Transit( const sc::event_base & eventBase )
	{
	BOOST_REQUIRE(
	( dynamic_cast< const B * >( &eventBase ) != 0 ) \|\|
	( dynamic_cast< const D * >( &eventBase ) != 0 ) );
	++actionCallCounter_;
	}

	unsigned int GetActionCallCounter() const
	{
	return actionCallCounter_;
	}

	private:
	unsigned int actionCallCounter_;
	};

	struct X2 : sc::simple_state< X2, TransitionEventBaseTest >
	{
	typedef sc::transition< sc::event_base, X1,
	TransitionEventBaseTest, &TransitionEventBaseTest::Transit > reactions;
	};

	struct X1 : sc::simple_state< X1, TransitionEventBaseTest >
	{
	typedef sc::transition< sc::event_base, X2 > reactions;
	};

	template< class M >
	void TestTransitions( M & machine )
	{
	machine.initiate();
	ActionArray init =
	{
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >
	};
	machine.CompareToExpectedActionSequence( init );

	machine.process_event( A() );
	ActionArray a1 =
	{
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Trans< S0< M >, A >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >
	};
	machine.CompareToExpectedActionSequence( a1 );

	machine.process_event( B() );
	ActionArray b1 =
	{
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Trans< S0< M >, B >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >
	};
	machine.CompareToExpectedActionSequence( b1 );

	machine.process_event( C() );
	ActionArray c1 =
	{
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Trans< S0< M >, C >,
	Entry< S2< M > >,
	Entry< Default0< S2< M > > >,
	Entry< Default1< S2< M > > >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >
	};
	machine.CompareToExpectedActionSequence( c1 );

	machine.process_event( D() );
	ActionArray d2 =
	{
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Trans< S0< M >, D >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >
	};
	machine.CompareToExpectedActionSequence( d2 );

	machine.process_event( E() );
	ActionArray e2 =
	{
	Exit< Default2< S0< M > > >,
	Exit< Default1< S0< M > > >,
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Exit< Default1< S2< M > > >,
	Exit< Default0< S2< M > > >,
	Exit< S2< M > >,
	Exit< S0< M > >,
	Entry< S0< M > >,
	Entry< S2< M > >,
	Entry< Default0< S2< M > > >,
	Entry< Default1< S2< M > > >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >
	};
	machine.CompareToExpectedActionSequence( e2 );

	machine.process_event( F() );
	ActionArray f2 =
	{
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Exit< Default1< S2< M > > >,
	Exit< Default0< S2< M > > >,
	Exit< S2< M > >,
	Trans< S0< M >, F >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >
	};
	machine.CompareToExpectedActionSequence( f2 );

	machine.process_event( G() );
	ActionArray g1 =
	{
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Trans< S0< M >, G >,
	Entry< S2< M > >,
	Entry< Default0< S2< M > > >,
	Entry< Default1< S2< M > > >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >
	};
	machine.CompareToExpectedActionSequence( g1 );

	machine.process_event( H() );
	ActionArray h2 =
	{
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Trans< S0< M >, H >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >
	};
	machine.CompareToExpectedActionSequence( h2 );

	BOOST_REQUIRE( machine.GetUnconsumedEventCount() == 0 );
	machine.process_event( A() );
	BOOST_REQUIRE( machine.GetUnconsumedEventCount() == 1 );
	ActionArray a2 =
	{
	};
	machine.CompareToExpectedActionSequence( a2 );

	machine.process_event( B() );
	ActionArray b2 =
	{
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Trans< S0< M >, B >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >
	};
	machine.CompareToExpectedActionSequence( b2 );

	machine.process_event( C() );
	ActionArray c2 =
	{
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Exit< Default1< S2< M > > >,
	Exit< Default0< S2< M > > >,
	Exit< S2< M > >,
	Trans< S0< M >, C >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >
	};
	machine.CompareToExpectedActionSequence( c2 );

	machine.process_event( D() );
	ActionArray d1 =
	{
	Exit< Default2< S0< M > > >,
	Exit< Default1< S0< M > > >,
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Exit< S0< M > >,
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >
	};
	machine.CompareToExpectedActionSequence( d1 );

	machine.process_event( F() );
	ActionArray f1 =
	{
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Trans< S0< M >, F >,
	Entry< S2< M > >,
	Entry< Default0< S2< M > > >,
	Entry< Default1< S2< M > > >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >
	};
	machine.CompareToExpectedActionSequence( f1 );

	machine.process_event( G() );
	ActionArray g2 =
	{
	Exit< Default2< S0< M > > >,
	Exit< Default1< S0< M > > >,
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Exit< Default1< S2< M > > >,
	Exit< Default0< S2< M > > >,
	Exit< S2< M > >,
	Exit< S0< M > >,
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >
	};
	machine.CompareToExpectedActionSequence( g2 );

	machine.process_event( H() );
	ActionArray h1 =
	{
	Trans< S11< M >, H >
	};
	machine.CompareToExpectedActionSequence( h1 );

	machine.process_event( E() );
	ActionArray e1 =
	{
	Exit< Default2< S0< M > > >,
	Exit< Default1< S0< M > > >,
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Exit< S0< M > >,
	Entry< S0< M > >,
	Entry< S2< M > >,
	Entry< Default0< S2< M > > >,
	Entry< Default1< S2< M > > >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	Entry< S211< M > >,
	Entry< Default2< S21< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >
	};
	machine.CompareToExpectedActionSequence( e1 );

	machine.terminate();
	ActionArray term =
	{
	Exit< Default2< S0< M > > >,
	Exit< Default1< S0< M > > >,
	Exit< Default2< S21< M > > >,
	Exit< S211< M > >,
	Exit< Default0< S21< M > > >,
	Exit< S21< M > >,
	Exit< Default1< S2< M > > >,
	Exit< Default0< S2< M > > >,
	Exit< S2< M > >,
	Exit< S0< M > >
	};
	machine.CompareToExpectedActionSequence( term );

	machine.ThrowAction( &Entry< Default0< S1< M > > > );
	BOOST_REQUIRE_THROW( machine.initiate(), TransitionTestException );
	ActionArray initThrow1 =
	{
	Entry< S0< M > >,
	Entry< S1< M > >,
	&::Throw< &::Entry< Default0< S1< M > > > >,
	Dtor< S1< M > >,
	Dtor< S0< M > >
	};
	machine.CompareToExpectedActionSequence( initThrow1 );
	BOOST_REQUIRE( machine.terminated() );

	machine.ThrowAction( &Entry< S11< M > > );
	BOOST_REQUIRE_THROW( machine.initiate(), TransitionTestException );
	ActionArray initThrow2 =
	{
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	&::Throw< &::Entry< S11< M > > >,
	Dtor< Default0< S1< M > > >,
	Dtor< S1< M > >,
	Dtor< S0< M > >
	};
	machine.CompareToExpectedActionSequence( initThrow2 );
	BOOST_REQUIRE( machine.terminated() );

	machine.ThrowAction( &Trans< S0< M >, A > );
	machine.initiate();
	BOOST_REQUIRE_THROW( machine.process_event( A() ), TransitionTestException );
	ActionArray a1Throw1 =
	{
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >,
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	&::Throw< &::Trans< S0< M >, A > >,
	Dtor< Default2< S0< M > > >,
	Dtor< Default1< S0< M > > >,
	Dtor< S0< M > >
	};
	machine.CompareToExpectedActionSequence( a1Throw1 );
	BOOST_REQUIRE( machine.terminated() );

	machine.ThrowAction( &Entry< S211< M > > );
	machine.initiate();
	BOOST_REQUIRE_THROW( machine.process_event( C() ), TransitionTestException );
	ActionArray c1Throw1 =
	{
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >,
	Exit< Default2< S1< M > > >,
	Exit< S11< M > >,
	Exit< Default0< S1< M > > >,
	Exit< S1< M > >,
	Trans< S0< M >, C >,
	Entry< S2< M > >,
	Entry< Default0< S2< M > > >,
	Entry< Default1< S2< M > > >,
	Entry< S21< M > >,
	Entry< Default0< S21< M > > >,
	&::Throw< &::Entry< S211< M > > >,
	Dtor< Default2< S0< M > > >,
	Dtor< Default1< S0< M > > >,
	Dtor< Default0< S21< M > > >,
	Dtor< S21< M > >,
	Dtor< Default1< S2< M > > >,
	Dtor< Default0< S2< M > > >,
	Dtor< S2< M > >,
	Dtor< S0< M > >
	};
	machine.CompareToExpectedActionSequence( c1Throw1 );
	BOOST_REQUIRE( machine.terminated() );

	machine.ThrowAction( &ExitFn< S11< M > > );
	machine.initiate();
	BOOST_REQUIRE_THROW( machine.process_event( C() ), TransitionTestException );
	ActionArray c1Throw2 =
	{
	Entry< S0< M > >,
	Entry< S1< M > >,
	Entry< Default0< S1< M > > >,
	Entry< S11< M > >,
	Entry< Default2< S1< M > > >,
	Entry< Default1< S0< M > > >,
	Entry< Default2< S0< M > > >,
	Exit< Default2< S1< M > > >,
	&::Throw< &::ExitFn< S11< M > > >,
	Dtor< S11< M > >,
	Dtor< Default2< S0< M > > >,
	Dtor< Default1< S0< M > > >,
	Dtor< Default0< S1< M > > >,
	Dtor< S1< M > >,
	Dtor< S0< M > >
	};
	machine.CompareToExpectedActionSequence( c1Throw2 );
	BOOST_REQUIRE( machine.terminated() );
	BOOST_REQUIRE( machine.GetUnconsumedEventCount() == 1 );
	}


	int test_main( int, char* [] )
	{
	TransitionTest< sc::null_exception_translator > null_machine;
	TestTransitions( null_machine );
	TransitionTest< sc::exception_translator<> > machine;
	TestTransitions( machine );

	TransitionEventBaseTest eventBaseMachine;
	eventBaseMachine.initiate();
	BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X1 & >() );
	eventBaseMachine.process_event( A() );
	BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X2 & >() );
	BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 0 );
	eventBaseMachine.process_event( B() );
	BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X1 & >() );
	BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 1 );
	eventBaseMachine.process_event( C() );
	BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X2 & >() );
	BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 1 );
	eventBaseMachine.process_event( D() );
	BOOST_REQUIRE_NO_THROW( eventBaseMachine.state_cast< const X1 & >() );
	BOOST_REQUIRE( eventBaseMachine.GetActionCallCounter() == 2 );

	return 0;
	}