CorbaPort.h
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00001 // -*- C++ -*-
00020 #ifndef RTC_CORBAPORT_H
00021 #define RTC_CORBAPORT_H
00022 
00023 #include <rtm/PortBase.h>
00024 #include <rtm/CorbaConsumer.h>
00025 #include <rtm/NVUtil.h>
00026 #include <list>
00027 
00042 namespace RTC
00043 {
00620   class CorbaPort
00621     : public PortBase
00622   {
00623   public:
00650     CorbaPort(const char* name);
00651     
00663     virtual ~CorbaPort(void);
00664     
00692     void init(coil::Properties& prop);
00693 
00732     bool registerProvider(const char* instance_name, const char* type_name,
00733                           PortableServer::RefCountServantBase& provider);
00734     
00776     bool registerConsumer(const char* instance_name, const char* type_name,
00777                           CorbaConsumerBase& consumer);
00778     
00779   protected:
00861     virtual ReturnCode_t
00862     publishInterfaces(ConnectorProfile& connector_profile);
00863     
00996     virtual ReturnCode_t
00997     subscribeInterfaces(const ConnectorProfile& connector_profile);
00998     
01020     virtual void
01021     unsubscribeInterfaces(const ConnectorProfile& connector_profile);
01022 
01023     //============================================================
01024     // Local operations
01025     //============================================================
01042     virtual void activateInterfaces();
01043 
01060     virtual void deactivateInterfaces();
01061 
01062   protected:
01070     coil::Properties m_properties;
01071     
01072   private:
01073     class CorbaConsumerHolder;
01104     virtual bool findProvider(const NVList& nv, CorbaConsumerHolder& cons,
01105                               std::string& iorstr);
01106 
01141     virtual bool findProviderOld(const NVList&nv, CorbaConsumerHolder& cons,
01142                                  std::string& iorstr);
01143 
01171     bool setObject(const std::string& ior, CorbaConsumerHolder& cons);
01172 
01199     bool releaseObject(const std::string& ior, CorbaConsumerHolder& cons);
01200 
01201   private:
01217     class CorbaProviderHolder
01218     {
01219     public:
01220       CorbaProviderHolder(const char* type_name,
01221                           const char* instance_name,
01222                           PortableServer::RefCountServantBase* servant)
01223         : m_typeName(type_name),
01224           m_instanceName(instance_name),
01225           m_servant(servant),
01226           m_ior()
01227       {  
01228 #ifndef ORB_IS_RTORB
01229         m_oid = Manager::instance().getPOA()->servant_to_id(m_servant);
01230         try
01231           {
01232             Manager::instance().
01233               getPOA()->activate_object_with_id(m_oid, m_servant);
01234           }
01235         catch(...)
01236           {
01237             ;
01238           }
01239         CORBA::Object_var obj;
01240         obj = Manager::instance().getPOA()->id_to_reference(m_oid);
01241         CORBA::ORB_ptr orb = Manager::instance().getORB();
01242         CORBA::String_var ior_var = orb->object_to_string(obj);
01243         m_ior = ior_var;
01244         deactivate();
01245 #else // ORB_IS_RTORB
01246         // why RtORB does not activate object by __this()
01247         // and does not deactivate at the end of ctor?
01248         m_oid = Manager::instance().getPOA()->servant_to_id(m_servant);
01249         CORBA::Object_var obj;
01250         obj = CORBA::Object_var(m_servant->__this());
01251         CORBA::ORB_ptr orb = Manager::instance().getORB();
01252         CORBA::String_var ior_var = orb->object_to_string(obj);
01253         m_ior = ior_var;
01254 #endif // ORB_IS_RTORB
01255       }
01256       virtual ~CorbaProviderHolder()
01257       {
01258         deactivate();
01259       }
01260       std::string instanceName() { return m_instanceName; }
01261       std::string typeName() { return m_typeName; }
01262       std::string ior() { return m_ior; }
01263       std::string descriptor() { return m_typeName + "." + m_instanceName; }
01264 
01265       void activate()
01266       {
01267         try
01268           {
01269             Manager::instance().
01270               getPOA()->activate_object_with_id(m_oid, m_servant);
01271           }
01272         catch(const ::PortableServer::POA::ServantAlreadyActive &)
01273           {
01274             ; // do nothing
01275           }
01276         catch(...)
01277           {
01278             ; // do nothing
01279           }
01280       }
01281       void deactivate()
01282       {
01283         try
01284           {
01285             Manager::instance().getPOA()->deactivate_object(m_oid);
01286           }
01287         catch(...)
01288           {
01289             ; // do nothing
01290           }
01291       }
01292     private:
01293       std::string m_typeName;
01294       std::string m_instanceName;
01295       PortableServer::RefCountServantBase* m_servant;
01296       PortableServer::ObjectId_var m_oid;
01297       std::string m_ior;
01298     };
01299 
01307     typedef std::vector<CorbaProviderHolder> CorbaProviderList;
01308     CorbaProviderList m_providers;
01309 
01317     class CorbaConsumerHolder
01318     {
01319     public:
01320       CorbaConsumerHolder(const char* type_name,
01321                           const char* instance_name,
01322                           CorbaConsumerBase* consumer)
01323         : m_typeName(type_name),
01324           m_instanceName(instance_name),
01325           m_consumer(consumer),
01326           m_ior("")
01327       {
01328       }
01329       std::string instanceName() { return m_instanceName; }
01330       std::string typeName() { return m_typeName; }
01331       std::string descriptor() { return m_typeName + "." + m_instanceName; }
01332 
01333       bool setObject(const char* ior)
01334       {
01335         m_ior = ior;
01336         CORBA::ORB_ptr orb = ::RTC::Manager::instance().getORB();
01337         CORBA::Object_var obj = orb->string_to_object(ior);
01338         if (CORBA::is_nil(obj))
01339           {
01340             return false;
01341           }
01342 
01343         return m_consumer->setObject(obj.in());
01344       }
01345       void releaseObject()
01346       {
01347         m_consumer->releaseObject();
01348       }
01349       const std::string& getIor()
01350       {
01351         return m_ior;
01352       }
01353     private:
01354       std::string m_typeName;
01355       std::string m_instanceName;
01356       CorbaConsumerBase* m_consumer;
01357       std::string m_ior;
01358     };
01359     typedef std::vector<CorbaConsumerHolder> CorbaConsumerList;
01360     CorbaConsumerList m_consumers;
01361     
01362     // functors
01370     struct unsubscribe
01371     {
01372       unsubscribe(CorbaConsumerList& consumers)
01373         : m_consumers(consumers)
01374       {
01375       }
01376       
01377       void operator()(const SDOPackage::NameValue& nv)
01378       {
01379         for (CorbaConsumerList::iterator it(m_consumers.begin());
01380              it != m_consumers.end(); ++it)
01381           {
01382             std::string name(nv.name);
01383             if (it->descriptor() == (const char*)nv.name)
01384               {
01385                 it->releaseObject();
01386               }
01387           }
01388       }
01389       CorbaConsumerList& m_consumers;
01390     };
01391   };
01392 };
01393 #endif // RTC_CORBAPORT_H


openrtm_aist
Author(s): Noriaki Ando
autogenerated on Sat Jun 8 2019 18:49:03