#ifndef BOOST_STATECHART_DETAIL_STATE_BASE_HPP_INCLUDED #define BOOST_STATECHART_DETAIL_STATE_BASE_HPP_INCLUDED ////////////////////////////////////////////////////////////////////////////// // Copyright 2002-2006 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 #include #include #include #include #include #include // BOOST_MSVC #include #include #ifdef BOOST_MSVC # pragma warning( push ) # pragma warning( disable: 4702 ) // unreachable code (in release mode only) #endif #include #ifdef BOOST_MSVC # pragma warning( pop ) #endif #ifdef BOOST_MSVC // We permanently turn off the following level 4 warnings because users will // have to do so themselves anyway if we turn them back on # pragma warning( disable: 4511 ) // copy constructor could not be generated # pragma warning( disable: 4512 ) // assignment operator could not be generated #endif namespace boost { namespace statechart { namespace detail { template< class Allocator, class RttiPolicy > class leaf_state; template< class Allocator, class RttiPolicy > class node_state_base; typedef unsigned char orthogonal_position_type; ////////////////////////////////////////////////////////////////////////////// template< class Allocator, class RttiPolicy > class state_base : #ifndef NDEBUG noncopyable, #endif public RttiPolicy::template rtti_base_type< // Derived class objects will be created, handled and destroyed by exactly // one thread --> locking is not necessary counted_base< false > > { typedef typename RttiPolicy::template rtti_base_type< counted_base< false > > base_type; public: ////////////////////////////////////////////////////////////////////////// void exit() {} virtual const state_base * outer_state_ptr() const = 0; protected: ////////////////////////////////////////////////////////////////////////// state_base( typename RttiPolicy::id_provider_type idProvider ) : base_type( idProvider ), deferredEvents_( false ) { } #if BOOST_WORKAROUND( __GNUC__, BOOST_TESTED_AT( 4 ) ) // We make the destructor virtual for GCC because with this compiler there // is currently no way to disable the "has virtual functions but // non-virtual destructor" warning on a class by class basis. Although it // can be done on the compiler command line with -Wno-non-virtual-dtor, // this is undesirable as this would also suppress legitimate warnings for // types that are not states. virtual ~state_base() {} #else // This destructor is not virtual for performance reasons. The library // ensures that a state object is never deleted through a state_base // pointer but only through a pointer to the most-derived type. ~state_base() {} #endif protected: ////////////////////////////////////////////////////////////////////////// // The following declarations should be private. // They are only protected because many compilers lack template friends. ////////////////////////////////////////////////////////////////////////// void defer_event() { deferredEvents_ = true; } bool deferred_events() const { return deferredEvents_; } template< class Context > void set_context( orthogonal_position_type position, Context * pContext ) { pContext->add_inner_state( position, this ); } public: ////////////////////////////////////////////////////////////////////////// // The following declarations should be private. // They are only public because many compilers lack template friends. ////////////////////////////////////////////////////////////////////////// virtual detail::reaction_result react_impl( const event_base & evt, typename RttiPolicy::id_type eventType ) = 0; typedef intrusive_ptr< node_state_base< Allocator, RttiPolicy > > node_state_base_ptr_type; typedef intrusive_ptr< leaf_state< Allocator, RttiPolicy > > leaf_state_ptr_type; typedef std::list< leaf_state_ptr_type, typename boost::detail::allocator::rebind_to< Allocator, leaf_state_ptr_type >::type > state_list_type; virtual void remove_from_state_list( typename state_list_type::iterator & statesEnd, node_state_base_ptr_type & pOutermostUnstableState, bool performFullExit ) = 0; private: ////////////////////////////////////////////////////////////////////////// bool deferredEvents_; }; #ifdef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP } // namespace detail } // namespace statechart #endif template< class Allocator, class RttiPolicy > inline void intrusive_ptr_add_ref( const ::boost::statechart::detail::state_base< Allocator, RttiPolicy > * pBase ) { pBase->add_ref(); } template< class Allocator, class RttiPolicy > inline void intrusive_ptr_release( const ::boost::statechart::detail::state_base< Allocator, RttiPolicy > * pBase ) { if ( pBase->release() ) { // The state_base destructor is *not* virtual for performance reasons // but intrusive_ptr< state_base > objects are nevertheless used to point // to states. This assert ensures that such a pointer is never the last // one referencing a state object. BOOST_ASSERT( false ); } } #ifndef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP } // namespace detail } // namespace statechart #endif } // namespace boost #endif