InPortBase.py

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#!/usr/bin/env python
# -*- coding: euc-jp -*-



import copy
import threading
import OpenRTM_aist
import RTC




class InPortBase(OpenRTM_aist.PortBase, OpenRTM_aist.DataPortStatus):
  """
  """

  
  def __init__(self, name, data_type):
    OpenRTM_aist.PortBase.__init__(self,name)
    self._rtcout.RTC_DEBUG("Port name: %s", name)
    self._singlebuffer  = True
    self._thebuffer     = None
    self._properties    = OpenRTM_aist.Properties()
    self._providerTypes = ""
    self._consumerTypes = ""
    self._connectors    = []
    self._connector_mutex = threading.RLock()

    # PortProfile::properties ¤òÀßÄê    self._rtcout.RTC_DEBUG("setting port.port_type: DataInPort")
    self.addProperty("port.port_type", "DataInPort")

    self._rtcout.RTC_DEBUG("setting port.data_type: %s", data_type)
    self.addProperty("dataport.data_type", data_type)

    self.addProperty("dataport.subscription_type", "Any")
    self._value = None
    self._listeners = OpenRTM_aist.ConnectorListeners()


  ##
  # @if jp
  # @brief ¥Ç¥¹¥È¥é¥¯¥¿
  #
  # ¥Ç¥¹¥È¥é¥¯¥¿
  #
  # @else
  # @brief Destructor
  #
  # Destructor
  #
  # @endif
  #
  def __del__(self, PortBase=OpenRTM_aist.PortBase):
    self._rtcout.RTC_TRACE("InPortBase destructor")

    if len(self._connectors) != 0:
      self._rtcout.RTC_ERROR("connector.size should be 0 in InPortBase's dtor.")
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      for connector in self._connectors:
        connector.disconnect()

    if self._thebuffer is not None:
      OpenRTM_aist.CdrBufferFactory.instance().deleteObject(self._thebuffer)
      if not self._singlebuffer:
        self._rtcout.RTC_ERROR("Although singlebuffer flag is true, the buffer != 0")

    PortBase.__del__(self)
    return


  ##
  # @if jp
  # @brief ¥×¥í¥Ñ¥Æ¥£¤Î½é´ü²½
  #
  # »ØÄꤵ¤ì¤¿¥×¥í¥Ñ¥Æ¥£¤Ç½é´ü²½¤¹¤ë¡£
  #
  # @param prop ÀßÄꤹ¤ë¥×¥í¥Ñ¥Æ¥£
  # @else
  # @brief Initializing properties
  #
  # This method initializes the port in the specified property. 
  #
  # @param prop Property for setting ports
  # @endif
  #
  # void init(coil::Properties& prop);
  def init(self,prop):
    self._rtcout.RTC_TRACE("init()")
    self._properties.mergeProperties(prop)
    if self._singlebuffer:
      self._rtcout.RTC_DEBUG("single buffer mode.")
      self._thebuffer = OpenRTM_aist.CdrBufferFactory.instance().createObject("ring_buffer")

      if self._thebuffer is None:
        self._rtcout.RTC_ERROR("default buffer creation failed")
    else:
      self._rtcout.RTC_DEBUG("multi buffer mode.")

    self.initProviders()
    self.initConsumers()

    num = [-1]
    if not OpenRTM_aist.stringTo(num, self._properties.getProperty("connection_limit","-1")):
      self._rtcout.RTC_ERROR("invalid connection_limit value: %s",
                             self._properties.getProperty("connection_limit"))

    self.setConnectionLimit(num[0])
    return


  ##
  # @if jp
  # @brief RTObject_impl::readAll()¤«¤é¸Æ¤Ð¤ì¤ë²¾ÁÛ´Ø¿ô
  #
  # DataPort ¤«¤é¥Ç¡¼¥¿¤òÆɤ߽Ф¹
  #
  # @return true:À®¸ù,false:¼ºÇÔ
  # @else
  # @brief It is a virtual method that is called from RTObject_impl::readAll().
  # This method reads out data from DataPort. 
  #
  # @return true:Success,false:Failure
  # @endif
  #
  # virtual bool read() = 0;
  def read(self):
    pass

  ##
  # @if jp
  # @brief ¥×¥í¥Ñ¥Æ¥£¤ò¼èÆÀ¤¹¤ë
  #
  # InPort¤Î¥×¥í¥Ñ¥Æ¥£¤ò¼èÆÀ¤¹¤ë¡£
  #
  # @return ¥×¥í¥Ñ¥Æ¥£
  #
  # @else
  #
  # @brief Get properties
  #
  # Getting properties of this InPort
  #
  # @return InPort's properties
  #
  # @endif
  #
  def properties(self):
    self._rtcout.RTC_TRACE("properties()")
    return self._properties


  ##
  # @if jp
  # @brief Connector ¤ò¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤ò¼èÆÀ¤¹¤ë¡£
  #
  # @return connector ¤Î¥ê¥¹¥È
  #
  # @else
  #
  # @brief Connector list
  #
  # This operation returns connector list
  #
  # @return connector list
  #
  # @endif
  #
  # const std::vector<InPortConnector*>& connectors();
  def connectors(self):
    self._rtcout.RTC_TRACE("connectors(): size = %d", len(self._connectors))
    #  guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    return self._connectors


  ##
  # @if jp
  # @brief ConnectorProfile ¤ò¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤ÎProfile¤ò¼èÆÀ¤¹¤ë¡£
  #
  # @return ConnectorProfile ¤Î¥ê¥¹¥È
  #
  # @else
  #
  # @brief ConnectorProfile list
  #
  # This operation returns ConnectorProfile list
  #
  # @return connector list
  #
  # @endif
  #
  # ConnectorInfoList getConnectorProfiles();
  def getConnectorProfiles(self):
    self._rtcout.RTC_TRACE("getConnectorProfiles(): size = %d", len(self._connectors))
    profs = []
    #  guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for con in self._connectors:
      profs.append(con.profile())

    return profs
        
  ##
  # @if jp
  # @brief ConnectorId ¤ò¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤ÎID¤ò¼èÆÀ¤¹¤ë¡£
  #
  # @return ConnectorId ¤Î¥ê¥¹¥È
  #
  # @else
  #
  # @brief ConnectorId list
  #
  # This operation returns ConnectorId list
  #
  # @return connector list
  #
  # @endif
  #
  # coil::vstring getConnectorIds();
  def getConnectorIds(self):
    ids = []

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for con in self._connectors:
      ids.append(con.id())

    self._rtcout.RTC_TRACE("getConnectorIds(): %s", OpenRTM_aist.flatten(ids))
    return ids

  ##
  # @if jp
  # @brief Connector¤Î̾Á°¤ò¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤Î̾Á°¤ò¼èÆÀ¤¹¤ë¡£
  #
  # @return Connector̾¤Î¥ê¥¹¥È
  #
  # @else
  #
  # @brief Connector name list
  #
  # This operation returns Connector name list
  #
  # @return connector name list
  #
  # @endif
  #
  # coil::vstring getConnectorNames();
  def getConnectorNames(self):
    names = []
    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for con in self._connectors:
      names.append(con.name())

    self._rtcout.RTC_TRACE("getConnectorNames(): %s", OpenRTM_aist.flatten(names))
    return names

  ##
  # @if jp
  # @brief ConnectorProfile¤òID¤Ç¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤òID¤Ç¼èÆÀ¤¹¤ë¡£
  #
  # @param id Connector ID
  # @return ¥³¥Í¥¯¥¿¤Ø¤Î¥Ý¥¤¥ó¥¿
  #
  # @else
  #
  # @brief Getting ConnectorProfile by ID
  #
  # This operation returns Connector specified by ID.
  #
  # @param id Connector ID
  # @return A pointer to connector
  #
  # @endif
  #
  # InPortConnector* getConnectorById(const char* id);
  def getConnectorById(self, id):
    self._rtcout.RTC_TRACE("getConnectorById(id = %s)", id)

    for con in self._connectors:
      if id == con.id():
        return con

    self._rtcout.RTC_WARN("ConnectorProfile with the id(%s) not found.", id)
    return None

  ##
  # @if jp
  # @brief ConnectorProfile¤ò̾Á°¤Ç¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤ò̾Á°¤Ç¼èÆÀ¤¹¤ë¡£
  #
  # @param name Connector name
  # @return ¥³¥Í¥¯¥¿¤Ø¤Î¥Ý¥¤¥ó¥¿
  #
  # @else
  #
  # @brief Getting Connector by name
  #
  # This operation returns Connector specified by name.
  #
  # @param id Connector ID
  # @return A pointer to connector
  #
  # @endif
  #
  # InPortConnector* getConnectorByName(const char* name);
  def getConnectorByName(self, name):
    self._rtcout.RTC_TRACE("getConnectorByName(name = %s)", name)

    for con in self._connectors:
      if name == con.name():
        return con

    self._rtcout.RTC_WARN("ConnectorProfile with the name(%s) not found.", name)
    return None

  ##
  # @if jp
  # @brief ConnectorProfile¤òID¤Ç¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤òID¤Ç¼èÆÀ¤¹¤ë¡£
  #
  # @param id Connector ID
  # @param prof ConnectorProfile
  # @return false »ØÄꤷ¤¿ID¤¬¤Ê¤¤
  #
  # @else
  #
  # @brief Getting ConnectorProfile by name
  #
  # This operation returns ConnectorProfile specified by name
  #
  # @param id Connector ID
  # @param prof ConnectorProfile
  # @return false¡¡specified ID does not exist
  #
  # @endif
  #
  # bool getConnectorProfileById(const char* id,
  #                              ConnectorInfo& prof);
  def getConnectorProfileById(self, id, prof):
    self._rtcout.RTC_TRACE("getConnectorProfileById(id = %s)", id)

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    conn = self.getConnectorById(id)
    if not conn:
      return False
    prof[0] = conn.profile()
    return True


  ##
  # @if jp
  # @brief ConnectorProfile¤ò̾Á°¤Ç¼èÆÀ
  #
  # ¸½ºß½êÍ­¤·¤Æ¤¤¤ë¥³¥Í¥¯¥¿¤ò̾Á°¤Ç¼èÆÀ¤¹¤ë¡£
  #
  # @param name Connector name
  # @param prof ConnectorProfile
  # @return false »ØÄꤷ¤¿Ì¾Á°¤¬¤Ê¤¤
  #
  # @else
  #
  # @brief Getting ConnectorProfile by name
  #
  # This operation returns ConnectorProfile specified by name
  #
  # @param id Connector ID
  # @param prof ConnectorProfile
  # @return false specified name does not exist
  #
  # @endif
  #
  # bool getConnectorProfileByName(const char* name,
  #                                ConnectorInfo& prof);
  def getConnectorProfileByName(self, name, prof):
    self._rtcout.RTC_TRACE("getConnectorProfileByName(name = %s)", name)

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    conn = self.getConnectorByName(name)
    if not conn:
      return False
    prof[0] = conn.profile()
    return True


  ##
  # @if jp
  #
  # @brief [CORBA interface] Port ¤ÎÀܳ¤ò¹Ô¤¦
  #
  # Í¿¤¨¤é¤ì¤¿ ConnectoionProfile ¤Î¾ðÊó¤Ë´ð¤Å¤­¡¢Port´Ö¤ÎÀܳ¤ò³ÎΩ
  # ¤¹¤ë¡£¤³¤Î´Ø¿ô¤Ï¼ç¤Ë¥¢¥×¥ê¥±¡¼¥·¥ç¥ó¥×¥í¥°¥é¥à¤ä¥Ä¡¼¥ë¤«¤é¸Æ¤Ó½Ð
  # ¤¹¤³¤È¤òÁ°Äó¤È¤·¤Æ¤¤¤ë¡£
  # 
  # @param connector_profile ConnectorProfile
  # @return ReturnCode_t ·¿¤Î¥ê¥¿¡¼¥ó¥³¡¼¥É
  #
  # @else
  #
  # @brief [CORBA interface] Connect the Port
  #
  # This operation establishes connection according to the given
  # ConnectionProfile inforamtion. This function is premised on
  # calling from mainly application program or tools.
  #
  # @param connector_profile The ConnectorProfile.
  # @return ReturnCode_t The return code of ReturnCode_t type.
  #
  # @endif
  #
  def connect(self, connector_profile):
    self._rtcout.RTC_TRACE("InPortBase.connect()")
        
    if OpenRTM_aist.NVUtil.find_index(connector_profile.properties,
                                      "dataport.serializer.cdr.endian") is -1:
      self._rtcout.RTC_TRACE("ConnectorProfile dataport.serializer.cdr.endian set.")
      connector_profile.properties.append(OpenRTM_aist.NVUtil.newNV("dataport.serializer.cdr.endian","little,big"))

    return OpenRTM_aist.PortBase.connect(self, connector_profile)
        
  ##
  # @if jp
  #
  # @brief InPort¤ò activates ¤¹¤ë
  #
  # InPort¤ò activate ¤¹¤ë¡£
  #
  # @else
  #
  # @brief Activate all Port interfaces
  #
  # This operation activate all interfaces that is registered in the
  # ports.
  #
  # @endif
  #
  # void activateInterfaces();
  def activateInterfaces(self):
    self._rtcout.RTC_TRACE("activateInterfaces()")

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for connector in self._connectors:
      connector.activate()
      self._rtcout.RTC_DEBUG("activate connector: %s %s",
                             (connector.name(),connector.id()))

    return


  ##
  # @if jp
  #
  # @brief Á´¤Æ¤Î Port ¤Î¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¤ò deactivates ¤¹¤ë
  #
  # Port ¤ËÅÐÏ¿¤µ¤ì¤Æ¤¤¤ëÁ´¤Æ¤Î¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¤ò deactivate ¤¹¤ë¡£
  #
  # @else
  #
  # @brief Deactivate all Port interfaces
  #
  # This operation deactivate all interfaces that is registered in the
  # ports.
  #
  # @endif
  #
  # void deactivateInterfaces();
  def deactivateInterfaces(self):
    self._rtcout.RTC_TRACE("deactivateInterfaces()")

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for connector in self._connectors:
      connector.deactivate()
      self._rtcout.RTC_DEBUG("deactivate connector: %s %s",
                             (connector.name(),connector.id()))
    return


  ##
  # @if jp
  # @brief ConnectorDataListener ¥ê¥¹¥Ê¤òÄɲ乤ë
  #
  # ¥Ð¥Ã¥Õ¥¡½ñ¤­¹þ¤ß¤Þ¤¿¤ÏÆɤ߽Ф·¥¤¥Ù¥ó¥È¤Ë´ØÏ¢¤¹¤ë³Æ¼ï¥ê¥¹¥Ê¤òÀßÄꤹ¤ë¡£
  #
  # ÀßÄê¤Ç¤­¤ë¥ê¥¹¥Ê¤Î¥¿¥¤¥×¤È¥³¡¼¥ë¥Ð¥Ã¥¯¥¤¥Ù¥ó¥È¤Ï°Ê²¼¤ÎÄ̤ê
  #
  # - ON_BUFFER_WRITE:          ¥Ð¥Ã¥Õ¥¡½ñ¤­¹þ¤ß»þ
  # - ON_BUFFER_FULL:           ¥Ð¥Ã¥Õ¥¡¥Õ¥ë»þ
  # - ON_BUFFER_WRITE_TIMEOUT:  ¥Ð¥Ã¥Õ¥¡½ñ¤­¹þ¤ß¥¿¥¤¥à¥¢¥¦¥È»þ
  # - ON_BUFFER_OVERWRITE:      ¥Ð¥Ã¥Õ¥¡¾å½ñ¤­»þ
  # - ON_BUFFER_READ:           ¥Ð¥Ã¥Õ¥¡Æɤ߽Ф·»þ
  # - ON_SEND:                  InProt¤Ø¤ÎÁ÷¿®»þ
  # - ON_RECEIVED:              InProt¤Ø¤ÎÁ÷¿®´°Î»»þ
  # - ON_SEND_ERTIMEOUT:        OutPort¦¥¿¥¤¥à¥¢¥¦¥È»þ
  # - ON_SEND_ERERROR:          OutPort¦¥¨¥é¡¼»þ
  # - ON_RECEIVER_FULL:         InProt¦¥Ð¥Ã¥Õ¥¡¥Õ¥ë»þ
  # - ON_RECEIVER_TIMEOUT:      InProt¦¥Ð¥Ã¥Õ¥¡¥¿¥¤¥à¥¢¥¦¥È»þ
  # - ON_RECEIVER_ERROR:        InProt¦¥¨¥é¡¼»þ
  #
  # ¥ê¥¹¥Ê¤Ï ConnectorDataListener ¤ò·Ñ¾µ¤·¡¢°Ê²¼¤Î¥·¥°¥Ë¥Á¥ã¤ò»ý¤Ä
  # operator() ¤ò¼ÂÁõ¤·¤Æ¤¤¤ëɬÍפ¬¤¢¤ë¡£
  #
  # ConnectorDataListener::
  #         operator()(const ConnectorProfile&, const cdrStream&)
  #
  # ¥Ç¥Õ¥©¥ë¥È¤Ç¤Ï¡¢¤³¤Î´Ø¿ô¤ËÍ¿¤¨¤¿¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Î½êÍ­¸¢¤Ï
  # OutPort¤Ë°Ü¤ê¡¢OutPort²òÂλþ¤â¤·¤¯¤Ï¡¢
  # removeConnectorDataListener() ¤Ë¤è¤êºï½ü»þ¤Ë¼«Æ°Åª¤Ë²òÂΤµ¤ì¤ë¡£
  # ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Î½êÍ­¸¢¤ò¸Æ¤Ó½Ð¤·Â¦¤Ç°Ý»ý¤·¤¿¤¤¾ì¹ç¤Ï¡¢Âè3°ú
  # ¿ô¤Ë false ¤ò»ØÄꤷ¡¢¼«Æ°Åª¤Ê²òÂΤòÍÞÀ©¤¹¤ë¤³¤È¤¬¤Ç¤­¤ë¡£
  #
  # @param listener_type ¥ê¥¹¥Ê¥¿¥¤¥×
  # @param listener ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Ø¤Î¥Ý¥¤¥ó¥¿
  # @param autoclean ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Î¼«Æ°Åª²òÂΤò¹Ô¤¦¤«¤É¤¦¤«¤Î¥Õ¥é¥°
  #
  # @else
  # @brief Adding BufferDataListener type listener
  #
  # This operation adds certain listeners related to buffer writing and
  # reading events.
  # The following listener types are available.
  #
  # - ON_BUFFER_WRITE:          At the time of buffer write
  # - ON_BUFFER_FULL:           At the time of buffer full
  # - ON_BUFFER_WRITE_TIMEOUT:  At the time of buffer write timeout
  # - ON_BUFFER_OVERWRITE:      At the time of buffer overwrite
  # - ON_BUFFER_READ:           At the time of buffer read
  # - ON_SEND:                  At the time of sending to InPort
  # - ON_RECEIVED:              At the time of finishing sending to InPort
  # - ON_SENDER_TIMEOUT:        At the time of timeout of OutPort
  # - ON_SENDER_ERROR:          At the time of error of OutPort
  # - ON_RECEIVER_FULL:         At the time of bufferfull of InPort
  # - ON_RECEIVER_TIMEOUT:      At the time of timeout of InPort
  # - ON_RECEIVER_ERROR:        At the time of error of InPort
  #
  # Listeners should have the following function operator().
  #
  # ConnectorDataListener::
  #         operator()(const ConnectorProfile&, const cdrStream&)
  #
  # The ownership of the given listener object is transferred to
  # this OutPort object in default.  The given listener object will
  # be destroied automatically in the OutPort's dtor or if the
  # listener is deleted by removeConnectorDataListener() function.
  # If you want to keep ownership of the listener object, give
  # "false" value to 3rd argument to inhibit automatic destruction.
  #
  # @param listener_type A listener type
  # @param listener A pointer to a listener object
  # @param autoclean A flag for automatic listener destruction
  #
  # @endif
  #
  # void 
  # addConnectorDataListener(ConnectorDataListenerType type,
  #                          ConnectorDataListener* listener,
  #                          bool autoclean)
  def addConnectorDataListener(self, listener_type, listener, autoclean = True):
    self._rtcout.RTC_TRACE("addConnectorDataListener()")

    if listener_type < OpenRTM_aist.ConnectorDataListenerType.CONNECTOR_DATA_LISTENER_NUM:
      self._listeners.connectorData_[listener_type].addListener(listener, autoclean)
      return

    self._rtcout.RTC_ERROR("addConnectorDataListener(): Invalid listener type.")
    return


  ##
  # @if jp
  # @brief ConnectorDataListener ¥ê¥¹¥Ê¤òºï½ü¤¹¤ë
  #
  # ÀßÄꤷ¤¿³Æ¼ï¥ê¥¹¥Ê¤òºï½ü¤¹¤ë¡£
  # 
  # @param listener_type ¥ê¥¹¥Ê¥¿¥¤¥×
  # @param listener ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Ø¤Î¥Ý¥¤¥ó¥¿
  #
  # @else
  # @brief Removing BufferDataListener type listener
  #
  # This operation removes a specified listener.
  #     
  # @param listener_type A listener type
  # @param listener A pointer to a listener object
  #
  # @endif
  #
  # void removeConnectorDataListener(ConnectorDataListenerType type,
  #                                  ConnectorDataListener* listener)
  def removeConnectorDataListener(self, listener_type, listener):
    self._rtcout.RTC_TRACE("removeConnectorDataListener()")

    if listener_type < OpenRTM_aist.ConnectorDataListenerType.CONNECTOR_DATA_LISTENER_NUM:
      self._listeners.connectorData_[listener_type].removeListener(listener)
      return

    self._rtcout.RTC_ERROR("removeConnectorDataListener(): Invalid listener type.")
    return

  
  ##
  # @if jp
  # @brief ConnectorListener ¥ê¥¹¥Ê¤òÄɲ乤ë
  #
  # ¥Ð¥Ã¥Õ¥¡½ñ¤­¹þ¤ß¤Þ¤¿¤ÏÆɤ߽Ф·¥¤¥Ù¥ó¥È¤Ë´ØÏ¢¤¹¤ë³Æ¼ï¥ê¥¹¥Ê¤òÀßÄꤹ¤ë¡£
  #
  # ÀßÄê¤Ç¤­¤ë¥ê¥¹¥Ê¤Î¥¿¥¤¥×¤Ï
  #
  # - ON_BUFFER_EMPTY:       ¥Ð¥Ã¥Õ¥¡¤¬¶õ¤Î¾ì¹ç
  # - ON_BUFFER_READTIMEOUT: ¥Ð¥Ã¥Õ¥¡¤¬¶õ¤Ç¥¿¥¤¥à¥¢¥¦¥È¤·¤¿¾ì¹ç
  #
  # ¥ê¥¹¥Ê¤Ï°Ê²¼¤Î¥·¥°¥Ë¥Á¥ã¤ò»ý¤Ä operator() ¤ò¼ÂÁõ¤·¤Æ¤¤¤ëɬÍפ¬¤¢¤ë¡£
  #
  # ConnectorListener::operator()(const ConnectorProfile&)
  #
  # ¥Ç¥Õ¥©¥ë¥È¤Ç¤Ï¡¢¤³¤Î´Ø¿ô¤ËÍ¿¤¨¤¿¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Î½êÍ­¸¢¤Ï
  # OutPort¤Ë°Ü¤ê¡¢OutPort²òÂλþ¤â¤·¤¯¤Ï¡¢
  # removeConnectorListener() ¤Ë¤è¤êºï½ü»þ¤Ë¼«Æ°Åª¤Ë²òÂΤµ¤ì¤ë¡£
  # ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Î½êÍ­¸¢¤ò¸Æ¤Ó½Ð¤·Â¦¤Ç°Ý»ý¤·¤¿¤¤¾ì¹ç¤Ï¡¢Âè3°ú
  # ¿ô¤Ë false ¤ò»ØÄꤷ¡¢¼«Æ°Åª¤Ê²òÂΤòÍÞÀ©¤¹¤ë¤³¤È¤¬¤Ç¤­¤ë¡£
  #
  # @param listener_type ¥ê¥¹¥Ê¥¿¥¤¥×
  # @param listener ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Ø¤Î¥Ý¥¤¥ó¥¿
  # @param autoclean ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Î¼«Æ°Åª²òÂΤò¹Ô¤¦¤«¤É¤¦¤«¤Î¥Õ¥é¥°
  #
  # @else
  # @brief Adding ConnectorListener type listener
  #
  # This operation adds certain listeners related to buffer writing and
  # reading events.
  # The following listener types are available.
  #
  # - ON_BUFFER_EMPTY:       At the time of buffer empty
  # - ON_BUFFER_READTIMEOUT: At the time of buffer read timeout
  #
  # Listeners should have the following function operator().
  #
  # ConnectorListener::operator()(const ConnectorProfile&)
  #  
  # The ownership of the given listener object is transferred to
  # this OutPort object in default.  The given listener object will
  # be destroied automatically in the OutPort's dtor or if the
  # listener is deleted by removeConnectorListener() function.
  # If you want to keep ownership of the listener object, give
  # "false" value to 3rd argument to inhibit automatic destruction.
  #
  # @param listener_type A listener type
  # @param listener A pointer to a listener object
  # @param autoclean A flag for automatic listener destruction
  #
  # @endif
  #
  # void addConnectorListener(ConnectorListenerType type,
  #                           ConnectorListener* listener,
  #                           bool autoclean)
  def addConnectorListener(self, listener_type, listener, autoclean = True):
    self._rtcout.RTC_TRACE("addConnectorListener()")

    if listener_type < OpenRTM_aist.ConnectorListenerType.CONNECTOR_LISTENER_NUM:
      self._listeners.connector_[listener_type].addListener(listener, autoclean)
      return

    self._rtcout.RTC_ERROR("addConnectorListener(): Invalid listener type.")
    return


  ##
  # @if jp
  # @brief ConnectorDataListener ¥ê¥¹¥Ê¤òºï½ü¤¹¤ë
  #
  # ÀßÄꤷ¤¿³Æ¼ï¥ê¥¹¥Ê¤òºï½ü¤¹¤ë¡£
  # 
  # @param listener_type ¥ê¥¹¥Ê¥¿¥¤¥×
  # @param listener ¥ê¥¹¥Ê¥ª¥Ö¥¸¥§¥¯¥È¤Ø¤Î¥Ý¥¤¥ó¥¿
  #
  # @else
  # @brief Removing BufferDataListener type listener
  #
  # This operation removes a specified listener.
  #     
  # @param listener_type A listener type
  # @param listener A pointer to a listener object
  #
  # @endif
  #
  # void removeConnectorListener(ConnectorListenerType type,
  #                              ConnectorListener* listener)
  def removeConnectorListener(self, listener_type, listener):
    self._rtcout.RTC_TRACE("removeConnectorListener()")
        
    if listener_type < OpenRTM_aist.ConnectorListenerType.CONNECTOR_LISTENER_NUM:
      self._listeners.connector_[listener_type].removeListener(listener)
      return

    self._rtcout.RTC_ERROR("removeConnectorListener(): Invalid listener type.")
    return


  ##
  # @if jp
  # @brief Interface¾ðÊó¤ò¸ø³«¤¹¤ë
  #
  # Interface¾ðÊó¤ò¸ø³«¤¹¤ë¡£
  # °ú¿ô¤Î ConnectorProfile ¤Ë³ÊǼ¤µ¤ì¤Æ¤¤¤ë dataflow_type ¤¬ push ·¿
  # ¤Î¾ì¹ç¤Ï¡¢»ØÄꤵ¤ì¤¿ interface_type ¤Î InPortProvider ¤Ë´Ø¤¹¤ë¾ðÊó
  # ¤ò ConnectorProfile::properties ¤Ë½ñ¹þ¤ß¸Æ¤Ó½Ð¤·Â¦¤ËÌ᤹¡£
  #
  #  dataport.dataflow_type
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @return ReturnCode_t ·¿¤Î¥ê¥¿¡¼¥ó¥³¡¼¥É
  #
  # @else
  # @brief Publish interface information
  #
  # Publish interface information.
  # Assign the Provider information that owned by this port
  # to ConnectorProfile#properties
  #
  # @param connector_profile The connector profile
  #
  # @return The return code of ReturnCode_t type
  #
  # @endif
  #
  # ReturnCode_t publishInterfaces(ConnectorProfile& connector_profile);
  def publishInterfaces(self, cprof):
    self._rtcout.RTC_TRACE("publishInterfaces()")

    retval = self._publishInterfaces()
    if retval != RTC.RTC_OK:
      return retval

    # prop: [port.outport].
    prop = copy.deepcopy(self._properties)

    conn_prop = OpenRTM_aist.Properties()
    OpenRTM_aist.NVUtil.copyToProperties(conn_prop, cprof.properties)
    prop.mergeProperties(conn_prop.getNode("dataport")) # marge ConnectorProfile

    # marge ConnectorProfile for buffer property.
    prop.mergeProperties(conn_prop.getNode("dataport.inport"))

    #
    # ¤³¤³¤Ç, ConnectorProfile ¤«¤é¤Î properties ¤¬¥Þ¡¼¥¸¤µ¤ì¤¿¤¿¤á¡¢
    # prop["dataflow_type"]: ¥Ç¡¼¥¿¥Õ¥í¡¼¥¿¥¤¥×
    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×
    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dflow_type = OpenRTM_aist.normalize([dflow_type])

    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... create PushConnector")

      # create InPortProvider
      provider = self.createProvider(cprof, prop)

      if not provider:
        self._rtcout.RTC_ERROR("InPort provider creation failed.")
        return RTC.BAD_PARAMETER

      # create InPortPushConnector
      connector = self.createConnector(cprof, prop, provider_=provider)
      if not connector:
        self._rtcout.RTC_ERROR("PushConnector creation failed.")
        return RTC.RTC_ERROR

      connector.setDataType(self._value)
      provider.setConnector(connector) # So that a provider gets endian information from a connector.

      self._rtcout.RTC_DEBUG("publishInterfaces() successfully finished.")
      return RTC.RTC_OK

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... do nothing")
      return RTC.RTC_OK

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER

    
  ##
  # @if jp
  # @brief Interface¤ËÀܳ¤¹¤ë
  #
  # Interface¤ËÀܳ¤¹¤ë¡£
  # Port¤¬½êÍ­¤¹¤ëConsumer¤ËŬ¹ç¤¹¤ëProvider¤Ë´Ø¤¹¤ë¾ðÊó¤ò 
  # ConnectorProfile#properties ¤«¤éÃê½Ð¤·¡¢
  # Consumer¤ËCORBA¥ª¥Ö¥¸¥§¥¯¥È»²¾È¤òÀßÄꤹ¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @return ReturnCode_t ·¿¤Î¥ê¥¿¡¼¥ó¥³¡¼¥É
  #
  # @else
  # @brief Subscribe to the interface
  #
  # Subscribe to interface.
  # Derive Provider information that matches Consumer owned by the Port 
  # from ConnectorProfile#properties and 
  # set the Consumer to the reference of the CORBA object.
  #
  # @param connector_profile The connector profile
  #
  # @return ReturnCode_t The return code of ReturnCode_t type
  #
  # @endif
  #
  # ReturnCode_t subscribeInterfaces(const ConnectorProfile& connector_profile);
  def subscribeInterfaces(self, cprof):
    self._rtcout.RTC_TRACE("subscribeInterfaces()")

    # prop: [port.outport].
    prop = copy.deepcopy(self._properties)
    conn_prop = OpenRTM_aist.Properties()
    OpenRTM_aist.NVUtil.copyToProperties(conn_prop, cprof.properties)
    prop.mergeProperties(conn_prop.getNode("dataport")) # marge ConnectorProfile
    prop.mergeProperties(conn_prop.getNode("dataport.inport")) # marge ConnectorProfile for buffer property.
    
    #
    # ¤³¤³¤Ç, ConnectorProfile ¤«¤é¤Î properties ¤¬¥Þ¡¼¥¸¤µ¤ì¤¿¤¿¤á¡¢
    # prop["dataflow_type"]: ¥Ç¡¼¥¿¥Õ¥í¡¼¥¿¥¤¥×
    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×
    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dtype = [dflow_type]
    OpenRTM_aist.normalize(dtype)
    dflow_type = dtype[0]
    
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... do nothing")

      conn = self.getConnectorById(cprof.connector_id)

      if not conn:
        self._rtcout.RTC_ERROR("specified connector not found: %s",
                               cprof.connector_id)
        return RTC.RTC_ERROR

      ret = conn.setConnectorInfo(profile)
      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("subscribeInterfaces() successfully finished.")

      return ret

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... create PullConnector")

      # create OutPortConsumer
      consumer = self.createConsumer(cprof, prop)
      if not consumer:
        return RTC.BAD_PARAMETER

      # create InPortPullConnector
      connector = self.createConnector(cprof, prop, consumer_=consumer)
      if not connector:
        return RTC.RTC_ERROR

      ret = connector.setConnectorInfo(profile)

      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("publishInterface() successfully finished.")

      return ret

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER
        
    
  ##
  # @if jp
  # @brief Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë
  #
  # Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë¡£
  # Í¿¤¨¤é¤ì¤¿ConnectorProfile¤Ë´ØÏ¢¤¹¤ëConsumer¤ËÀßÄꤵ¤ì¤¿Á´¤Æ¤ÎObject¤ò
  # ²òÊü¤·Àܳ¤ò²ò½ü¤¹¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @else
  # @brief Disconnect the interface connection
  #
  # Disconnect the interface connection.
  # Release all objects set in Consumer associated with 
  # given ConnectorProfile and unscribe the interface.
  #
  # @param connector_profile The connector profile
  #
  # @endif
  #
  # void unsubscribeInterfaces(const ConnectorProfile& connector_profile);
  def unsubscribeInterfaces(self, connector_profile):
    self._rtcout.RTC_TRACE("unsubscribeInterfaces()")
    
    id = connector_profile.connector_id
    self._rtcout.RTC_PARANOID("connector_id: %s", id)

    len_ = len(self._connectors)
    for i in range(len_):
      idx = (len_ - 1) - i
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      if id == self._connectors[idx].id():
        # Connector's dtor must call disconnect()
        self._connectors[idx].deactivate()
        self._connectors[idx].disconnect()
        del self._connectors[idx]
        self._rtcout.RTC_TRACE("delete connector: %s", id)
        return

    self._rtcout.RTC_ERROR("specified connector not found: %s", id)
    return


  ##
  # @if jp
  # @brief InPort provider ¤Î½é´ü²½
  # @else
  # @brief InPort provider initialization
  # @endif
  #
  # void initProviders();
  def initProviders(self):
    self._rtcout.RTC_TRACE("initProviders()")

    # create InPort providers
    factory = OpenRTM_aist.InPortProviderFactory.instance()
    provider_types = factory.getIdentifiers()

    self._rtcout.RTC_DEBUG("available providers: %s",
                           OpenRTM_aist.flatten(provider_types))

    if self._properties.hasKey("provider_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("provider_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed providers: %s",
                             self._properties.getProperty("provider_types"))

      temp_types = provider_types
      provider_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("provider_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ptypes = set(temp_types).intersection(set(active_types))
      provider_types = provider_types + list(set_ptypes)

    # InPortProvider supports "push" dataflow type
    if len(provider_types) > 0:
      self._rtcout.RTC_DEBUG("dataflow_type push is supported")
      self.appendProperty("dataport.dataflow_type", "push")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(provider_types))

    self._providerTypes = provider_types
    return


  ##
  # @if jp
  # @brief OutPort consumer ¤Î½é´ü²½
  # @else
  # @brief OutPort consumer initialization
  # @endif
  #
  # void initConsumers();
  def initConsumers(self):
    self._rtcout.RTC_TRACE("initConsumers()")

    # create OuPort consumers
    factory = OpenRTM_aist.OutPortConsumerFactory.instance()
    consumer_types = factory.getIdentifiers()
    self._rtcout.RTC_DEBUG("available consumers: %s",
                           OpenRTM_aist.flatten(consumer_types))

    if self._properties.hasKey("consumer_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("consumer_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed consumers: %s",
                             self._properties.getProperty("consumer_types"))

      temp_types = consumer_types
      consumer_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("consumer_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ctypes = set(temp_types).intersection(set(active_types))
      consumer_types = consumer_types + list(set_ctypes)

    # OutPortConsumer supports "pull" dataflow type
    if len(consumer_types) > 0:
      self._rtcout.RTC_PARANOID("dataflow_type pull is supported")
      self.appendProperty("dataport.dataflow_type", "pull")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(consumer_types))

    self._consumerTypes = consumer_types
    return


  ##
  # @if jp
  # @brief InPort provider ¤ÎÀ¸À®
  #
  # InPortProvider ¤òÀ¸À®¤·¡¢¾ðÊó¤ò ConnectorProfile ¤Ë¸ø³«¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # InPortProvider*
  # createProvider(ConnectorProfile& cprof, coil::Properties& prop);
  def createProvider(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._providerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no provider found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._providerTypes))
      return 0

    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    provider = OpenRTM_aist.InPortProviderFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if provider != 0:
      self._rtcout.RTC_DEBUG("provider created")
      provider.init(prop.getNode("provider"))

      if not provider.publishInterface(cprof.properties):
        self._rtcout.RTC_ERROR("publishing interface information error")
        OpenRTM_aist.InPortProviderFactory.instance().deleteObject(provider)
        return 0
      return provider

    self._rtcout.RTC_ERROR("provider creation failed")
    return 0


  ##
  # @if jp
  # @brief OutPort consumer ¤ÎÀ¸À®
  #
  # OutPortConsumer ¤òÀ¸À®¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # OutPortConsumer*
  # createConsumer(const ConnectorProfile& cprof, coil::Properties& prop);
  def createConsumer(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._consumerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no consumer found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._consumerTypes))
      return 0
    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    consumer = OpenRTM_aist.OutPortConsumerFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if consumer != 0:
      self._rtcout.RTC_DEBUG("consumer created")
      consumer.init(prop.getNode("consumer"))

      if not consumer.subscribeInterface(cprof.properties):
        self._rtcout.RTC_ERROR("interface subscription failed.")
        OpenRTM_aist.OutPortConsumerFactory.instance().deleteObject(consumer)
        return 0
      return consumer

    self._rtcout.RTC_ERROR("consumer creation failed")
    return 0


  ##
  # @if jp
  # @brief InPortPushConnector ¤ÎÀ¸À®
  #
  # Connector ¤òÀ¸À®¤·¡¢À¸À®¤¬À®¸ù¤¹¤ì¤Ð m_connectors ¤ËÊݸ¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPortPushConnector creation
  # @endif
  #
  # InPortConnector*
  #  createConnector(ConnectorProfile& cprof, coil::Properties& prop,
  #                  InPortProvider* provider);
  def createConnector(self, cprof, prop, provider_=None, consumer_=None):
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    connector = None


    try:
      if provider_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners)

      elif consumer_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners)

      else:
        self._rtcout.RTC_ERROR("provider or consumer is not passed. returned 0;")
        return 0
                

      if connector is None:
        self._rtcout.RTC_ERROR("InPortConnector creation failed")
        return 0

      if provider_ is not None:
        self._rtcout.RTC_TRACE("InPortPushConnector created")
      elif consumer_ is not None:
        self._rtcout.RTC_TRACE("InPortPullConnector created")

      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      self._connectors.append(connector)
      self._rtcout.RTC_PARANOID("connector push backed: %d", len(self._connectors))
      return connector
    except:
      self._rtcout.RTC_ERROR("InPortPushConnector creation failed")
      self._rtcout.RTC_ERROR(OpenRTM_aist.Logger.print_exception())
      return 0

    self._rtcout.RTC_FATAL("never comes here: createConnector()")
    return 0

    self._rtcout.RTC_DEBUG("setting port.port_type: DataInPort")
    self.addProperty("port.port_type", "DataInPort")

    self._rtcout.RTC_DEBUG("setting port.data_type: %s", data_type)
    self.addProperty("dataport.data_type", data_type)

    self.addProperty("dataport.subscription_type", "Any")
    self._value = None
    self._listeners = OpenRTM_aist.ConnectorListeners()


  
  def __del__(self, PortBase=OpenRTM_aist.PortBase):
    self._rtcout.RTC_TRACE("InPortBase destructor")

    if len(self._connectors) != 0:
      self._rtcout.RTC_ERROR("connector.size should be 0 in InPortBase's dtor.")
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      for connector in self._connectors:
        connector.disconnect()

    if self._thebuffer is not None:
      OpenRTM_aist.CdrBufferFactory.instance().deleteObject(self._thebuffer)
      if not self._singlebuffer:
        self._rtcout.RTC_ERROR("Although singlebuffer flag is true, the buffer != 0")

    PortBase.__del__(self)
    return


  
  def init(self,prop):
    self._rtcout.RTC_TRACE("init()")
    self._properties.mergeProperties(prop)
    if self._singlebuffer:
      self._rtcout.RTC_DEBUG("single buffer mode.")
      self._thebuffer = OpenRTM_aist.CdrBufferFactory.instance().createObject("ring_buffer")

      if self._thebuffer is None:
        self._rtcout.RTC_ERROR("default buffer creation failed")
    else:
      self._rtcout.RTC_DEBUG("multi buffer mode.")

    self.initProviders()
    self.initConsumers()

    num = [-1]
    if not OpenRTM_aist.stringTo(num, self._properties.getProperty("connection_limit","-1")):
      self._rtcout.RTC_ERROR("invalid connection_limit value: %s",
                             self._properties.getProperty("connection_limit"))

    self.setConnectionLimit(num[0])
    return


  
  def read(self):
    pass

  
  def properties(self):
    self._rtcout.RTC_TRACE("properties()")
    return self._properties


  
  def connectors(self):
    self._rtcout.RTC_TRACE("connectors(): size = %d", len(self._connectors))
    #  guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    return self._connectors


  
  def getConnectorProfiles(self):
    self._rtcout.RTC_TRACE("getConnectorProfiles(): size = %d", len(self._connectors))
    profs = []
    #  guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for con in self._connectors:
      profs.append(con.profile())

    return profs
        
  
  def getConnectorIds(self):
    ids = []

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for con in self._connectors:
      ids.append(con.id())

    self._rtcout.RTC_TRACE("getConnectorIds(): %s", OpenRTM_aist.flatten(ids))
    return ids

  
  def getConnectorNames(self):
    names = []
    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for con in self._connectors:
      names.append(con.name())

    self._rtcout.RTC_TRACE("getConnectorNames(): %s", OpenRTM_aist.flatten(names))
    return names

  
  def getConnectorById(self, id):
    self._rtcout.RTC_TRACE("getConnectorById(id = %s)", id)

    for con in self._connectors:
      if id == con.id():
        return con

    self._rtcout.RTC_WARN("ConnectorProfile with the id(%s) not found.", id)
    return None

  
  def getConnectorByName(self, name):
    self._rtcout.RTC_TRACE("getConnectorByName(name = %s)", name)

    for con in self._connectors:
      if name == con.name():
        return con

    self._rtcout.RTC_WARN("ConnectorProfile with the name(%s) not found.", name)
    return None

  
  def getConnectorProfileById(self, id, prof):
    self._rtcout.RTC_TRACE("getConnectorProfileById(id = %s)", id)

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    conn = self.getConnectorById(id)
    if not conn:
      return False
    prof[0] = conn.profile()
    return True


  
  def getConnectorProfileByName(self, name, prof):
    self._rtcout.RTC_TRACE("getConnectorProfileByName(name = %s)", name)

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    conn = self.getConnectorByName(name)
    if not conn:
      return False
    prof[0] = conn.profile()
    return True


  
  def connect(self, connector_profile):
    self._rtcout.RTC_TRACE("InPortBase.connect()")
        
    if OpenRTM_aist.NVUtil.find_index(connector_profile.properties,
                                      "dataport.serializer.cdr.endian") is -1:
      self._rtcout.RTC_TRACE("ConnectorProfile dataport.serializer.cdr.endian set.")
      connector_profile.properties.append(OpenRTM_aist.NVUtil.newNV("dataport.serializer.cdr.endian","little,big"))

    return OpenRTM_aist.PortBase.connect(self, connector_profile)
        
  
  def activateInterfaces(self):
    self._rtcout.RTC_TRACE("activateInterfaces()")

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for connector in self._connectors:
      connector.activate()
      self._rtcout.RTC_DEBUG("activate connector: %s %s",
                             (connector.name(),connector.id()))

    return


  
  def deactivateInterfaces(self):
    self._rtcout.RTC_TRACE("deactivateInterfaces()")

    # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
    for connector in self._connectors:
      connector.deactivate()
      self._rtcout.RTC_DEBUG("deactivate connector: %s %s",
                             (connector.name(),connector.id()))
    return


  
  def addConnectorDataListener(self, listener_type, listener, autoclean = True):
    self._rtcout.RTC_TRACE("addConnectorDataListener()")

    if listener_type < OpenRTM_aist.ConnectorDataListenerType.CONNECTOR_DATA_LISTENER_NUM:
      self._listeners.connectorData_[listener_type].addListener(listener, autoclean)
      return

    self._rtcout.RTC_ERROR("addConnectorDataListener(): Invalid listener type.")
    return


  
  def removeConnectorDataListener(self, listener_type, listener):
    self._rtcout.RTC_TRACE("removeConnectorDataListener()")

    if listener_type < OpenRTM_aist.ConnectorDataListenerType.CONNECTOR_DATA_LISTENER_NUM:
      self._listeners.connectorData_[listener_type].removeListener(listener)
      return

    self._rtcout.RTC_ERROR("removeConnectorDataListener(): Invalid listener type.")
    return

  
  
  def addConnectorListener(self, listener_type, listener, autoclean = True):
    self._rtcout.RTC_TRACE("addConnectorListener()")

    if listener_type < OpenRTM_aist.ConnectorListenerType.CONNECTOR_LISTENER_NUM:
      self._listeners.connector_[listener_type].addListener(listener, autoclean)
      return

    self._rtcout.RTC_ERROR("addConnectorListener(): Invalid listener type.")
    return


  
  def removeConnectorListener(self, listener_type, listener):
    self._rtcout.RTC_TRACE("removeConnectorListener()")
        
    if listener_type < OpenRTM_aist.ConnectorListenerType.CONNECTOR_LISTENER_NUM:
      self._listeners.connector_[listener_type].removeListener(listener)
      return

    self._rtcout.RTC_ERROR("removeConnectorListener(): Invalid listener type.")
    return


  
  def publishInterfaces(self, cprof):
    self._rtcout.RTC_TRACE("publishInterfaces()")

    retval = self._publishInterfaces()
    if retval != RTC.RTC_OK:
      return retval

    # prop: [port.outport].
    prop = copy.deepcopy(self._properties)

    conn_prop = OpenRTM_aist.Properties()
    OpenRTM_aist.NVUtil.copyToProperties(conn_prop, cprof.properties)
    prop.mergeProperties(conn_prop.getNode("dataport")) # marge ConnectorProfile

    # marge ConnectorProfile for buffer property.
    prop.mergeProperties(conn_prop.getNode("dataport.inport"))

    #
    # ¤³¤³¤Ç, ConnectorProfile ¤«¤é¤Î properties ¤¬¥Þ¡¼¥¸¤µ¤ì¤¿¤¿¤á¡¢
    # prop["dataflow_type"]: ¥Ç¡¼¥¿¥Õ¥í¡¼¥¿¥¤¥×    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×
    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dflow_type = OpenRTM_aist.normalize([dflow_type])

    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... create PushConnector")

      # create InPortProvider
      provider = self.createProvider(cprof, prop)

      if not provider:
        self._rtcout.RTC_ERROR("InPort provider creation failed.")
        return RTC.BAD_PARAMETER

      # create InPortPushConnector
      connector = self.createConnector(cprof, prop, provider_=provider)
      if not connector:
        self._rtcout.RTC_ERROR("PushConnector creation failed.")
        return RTC.RTC_ERROR

      connector.setDataType(self._value)
      provider.setConnector(connector) # So that a provider gets endian information from a connector.

      self._rtcout.RTC_DEBUG("publishInterfaces() successfully finished.")
      return RTC.RTC_OK

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... do nothing")
      return RTC.RTC_OK

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER

    
  ##
  # @if jp
  # @brief Interface¤ËÀܳ¤¹¤ë
  #
  # Interface¤ËÀܳ¤¹¤ë¡£
  # Port¤¬½êÍ­¤¹¤ëConsumer¤ËŬ¹ç¤¹¤ëProvider¤Ë´Ø¤¹¤ë¾ðÊó¤ò 
  # ConnectorProfile#properties ¤«¤éÃê½Ð¤·¡¢
  # Consumer¤ËCORBA¥ª¥Ö¥¸¥§¥¯¥È»²¾È¤òÀßÄꤹ¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @return ReturnCode_t ·¿¤Î¥ê¥¿¡¼¥ó¥³¡¼¥É
  #
  # @else
  # @brief Subscribe to the interface
  #
  # Subscribe to interface.
  # Derive Provider information that matches Consumer owned by the Port 
  # from ConnectorProfile#properties and 
  # set the Consumer to the reference of the CORBA object.
  #
  # @param connector_profile The connector profile
  #
  # @return ReturnCode_t The return code of ReturnCode_t type
  #
  # @endif
  #
  # ReturnCode_t subscribeInterfaces(const ConnectorProfile& connector_profile);
  def subscribeInterfaces(self, cprof):
    self._rtcout.RTC_TRACE("subscribeInterfaces()")

    # prop: [port.outport].
    prop = copy.deepcopy(self._properties)
    conn_prop = OpenRTM_aist.Properties()
    OpenRTM_aist.NVUtil.copyToProperties(conn_prop, cprof.properties)
    prop.mergeProperties(conn_prop.getNode("dataport")) # marge ConnectorProfile
    prop.mergeProperties(conn_prop.getNode("dataport.inport")) # marge ConnectorProfile for buffer property.
    
    #
    # ¤³¤³¤Ç, ConnectorProfile ¤«¤é¤Î properties ¤¬¥Þ¡¼¥¸¤µ¤ì¤¿¤¿¤á¡¢
    # prop["dataflow_type"]: ¥Ç¡¼¥¿¥Õ¥í¡¼¥¿¥¤¥×
    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×
    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dtype = [dflow_type]
    OpenRTM_aist.normalize(dtype)
    dflow_type = dtype[0]
    
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... do nothing")

      conn = self.getConnectorById(cprof.connector_id)

      if not conn:
        self._rtcout.RTC_ERROR("specified connector not found: %s",
                               cprof.connector_id)
        return RTC.RTC_ERROR

      ret = conn.setConnectorInfo(profile)
      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("subscribeInterfaces() successfully finished.")

      return ret

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... create PullConnector")

      # create OutPortConsumer
      consumer = self.createConsumer(cprof, prop)
      if not consumer:
        return RTC.BAD_PARAMETER

      # create InPortPullConnector
      connector = self.createConnector(cprof, prop, consumer_=consumer)
      if not connector:
        return RTC.RTC_ERROR

      ret = connector.setConnectorInfo(profile)

      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("publishInterface() successfully finished.")

      return ret

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER
        
    
  ##
  # @if jp
  # @brief Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë
  #
  # Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë¡£
  # Í¿¤¨¤é¤ì¤¿ConnectorProfile¤Ë´ØÏ¢¤¹¤ëConsumer¤ËÀßÄꤵ¤ì¤¿Á´¤Æ¤ÎObject¤ò
  # ²òÊü¤·Àܳ¤ò²ò½ü¤¹¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @else
  # @brief Disconnect the interface connection
  #
  # Disconnect the interface connection.
  # Release all objects set in Consumer associated with 
  # given ConnectorProfile and unscribe the interface.
  #
  # @param connector_profile The connector profile
  #
  # @endif
  #
  # void unsubscribeInterfaces(const ConnectorProfile& connector_profile);
  def unsubscribeInterfaces(self, connector_profile):
    self._rtcout.RTC_TRACE("unsubscribeInterfaces()")
    
    id = connector_profile.connector_id
    self._rtcout.RTC_PARANOID("connector_id: %s", id)

    len_ = len(self._connectors)
    for i in range(len_):
      idx = (len_ - 1) - i
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      if id == self._connectors[idx].id():
        # Connector's dtor must call disconnect()
        self._connectors[idx].deactivate()
        self._connectors[idx].disconnect()
        del self._connectors[idx]
        self._rtcout.RTC_TRACE("delete connector: %s", id)
        return

    self._rtcout.RTC_ERROR("specified connector not found: %s", id)
    return


  ##
  # @if jp
  # @brief InPort provider ¤Î½é´ü²½
  # @else
  # @brief InPort provider initialization
  # @endif
  #
  # void initProviders();
  def initProviders(self):
    self._rtcout.RTC_TRACE("initProviders()")

    # create InPort providers
    factory = OpenRTM_aist.InPortProviderFactory.instance()
    provider_types = factory.getIdentifiers()

    self._rtcout.RTC_DEBUG("available providers: %s",
                           OpenRTM_aist.flatten(provider_types))

    if self._properties.hasKey("provider_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("provider_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed providers: %s",
                             self._properties.getProperty("provider_types"))

      temp_types = provider_types
      provider_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("provider_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ptypes = set(temp_types).intersection(set(active_types))
      provider_types = provider_types + list(set_ptypes)

    # InPortProvider supports "push" dataflow type
    if len(provider_types) > 0:
      self._rtcout.RTC_DEBUG("dataflow_type push is supported")
      self.appendProperty("dataport.dataflow_type", "push")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(provider_types))

    self._providerTypes = provider_types
    return


  ##
  # @if jp
  # @brief OutPort consumer ¤Î½é´ü²½
  # @else
  # @brief OutPort consumer initialization
  # @endif
  #
  # void initConsumers();
  def initConsumers(self):
    self._rtcout.RTC_TRACE("initConsumers()")

    # create OuPort consumers
    factory = OpenRTM_aist.OutPortConsumerFactory.instance()
    consumer_types = factory.getIdentifiers()
    self._rtcout.RTC_DEBUG("available consumers: %s",
                           OpenRTM_aist.flatten(consumer_types))

    if self._properties.hasKey("consumer_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("consumer_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed consumers: %s",
                             self._properties.getProperty("consumer_types"))

      temp_types = consumer_types
      consumer_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("consumer_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ctypes = set(temp_types).intersection(set(active_types))
      consumer_types = consumer_types + list(set_ctypes)

    # OutPortConsumer supports "pull" dataflow type
    if len(consumer_types) > 0:
      self._rtcout.RTC_PARANOID("dataflow_type pull is supported")
      self.appendProperty("dataport.dataflow_type", "pull")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(consumer_types))

    self._consumerTypes = consumer_types
    return


  ##
  # @if jp
  # @brief InPort provider ¤ÎÀ¸À®
  #
  # InPortProvider ¤òÀ¸À®¤·¡¢¾ðÊó¤ò ConnectorProfile ¤Ë¸ø³«¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # InPortProvider*
  # createProvider(ConnectorProfile& cprof, coil::Properties& prop);
  def createProvider(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._providerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no provider found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._providerTypes))
      return 0

    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    provider = OpenRTM_aist.InPortProviderFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if provider != 0:
      self._rtcout.RTC_DEBUG("provider created")
      provider.init(prop.getNode("provider"))

      if not provider.publishInterface(cprof.properties):
        self._rtcout.RTC_ERROR("publishing interface information error")
        OpenRTM_aist.InPortProviderFactory.instance().deleteObject(provider)
        return 0
      return provider

    self._rtcout.RTC_ERROR("provider creation failed")
    return 0


  ##
  # @if jp
  # @brief OutPort consumer ¤ÎÀ¸À®
  #
  # OutPortConsumer ¤òÀ¸À®¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # OutPortConsumer*
  # createConsumer(const ConnectorProfile& cprof, coil::Properties& prop);
  def createConsumer(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._consumerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no consumer found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._consumerTypes))
      return 0
    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    consumer = OpenRTM_aist.OutPortConsumerFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if consumer != 0:
      self._rtcout.RTC_DEBUG("consumer created")
      consumer.init(prop.getNode("consumer"))

      if not consumer.subscribeInterface(cprof.properties):
        self._rtcout.RTC_ERROR("interface subscription failed.")
        OpenRTM_aist.OutPortConsumerFactory.instance().deleteObject(consumer)
        return 0
      return consumer

    self._rtcout.RTC_ERROR("consumer creation failed")
    return 0


  ##
  # @if jp
  # @brief InPortPushConnector ¤ÎÀ¸À®
  #
  # Connector ¤òÀ¸À®¤·¡¢À¸À®¤¬À®¸ù¤¹¤ì¤Ð m_connectors ¤ËÊݸ¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPortPushConnector creation
  # @endif
  #
  # InPortConnector*
  #  createConnector(ConnectorProfile& cprof, coil::Properties& prop,
  #                  InPortProvider* provider);
  def createConnector(self, cprof, prop, provider_=None, consumer_=None):
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    connector = None


    try:
      if provider_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners)

      elif consumer_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners)

      else:
        self._rtcout.RTC_ERROR("provider or consumer is not passed. returned 0;")
        return 0
                

      if connector is None:
        self._rtcout.RTC_ERROR("InPortConnector creation failed")
        return 0

      if provider_ is not None:
        self._rtcout.RTC_TRACE("InPortPushConnector created")
      elif consumer_ is not None:
        self._rtcout.RTC_TRACE("InPortPullConnector created")

      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      self._connectors.append(connector)
      self._rtcout.RTC_PARANOID("connector push backed: %d", len(self._connectors))
      return connector
    except:
      self._rtcout.RTC_ERROR("InPortPushConnector creation failed")
      self._rtcout.RTC_ERROR(OpenRTM_aist.Logger.print_exception())
      return 0

    self._rtcout.RTC_FATAL("never comes here: createConnector()")
    return 0

    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dflow_type = OpenRTM_aist.normalize([dflow_type])

    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... create PushConnector")

      # create InPortProvider
      provider = self.createProvider(cprof, prop)

      if not provider:
        self._rtcout.RTC_ERROR("InPort provider creation failed.")
        return RTC.BAD_PARAMETER

      # create InPortPushConnector
      connector = self.createConnector(cprof, prop, provider_=provider)
      if not connector:
        self._rtcout.RTC_ERROR("PushConnector creation failed.")
        return RTC.RTC_ERROR

      connector.setDataType(self._value)
      provider.setConnector(connector) # So that a provider gets endian information from a connector.

      self._rtcout.RTC_DEBUG("publishInterfaces() successfully finished.")
      return RTC.RTC_OK

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... do nothing")
      return RTC.RTC_OK

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER

    
  ##
  # @if jp
  # @brief Interface¤ËÀܳ¤¹¤ë
  #
  # Interface¤ËÀܳ¤¹¤ë¡£
  # Port¤¬½êÍ­¤¹¤ëConsumer¤ËŬ¹ç¤¹¤ëProvider¤Ë´Ø¤¹¤ë¾ðÊó¤ò 
  # ConnectorProfile#properties ¤«¤éÃê½Ð¤·¡¢
  # Consumer¤ËCORBA¥ª¥Ö¥¸¥§¥¯¥È»²¾È¤òÀßÄꤹ¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @return ReturnCode_t ·¿¤Î¥ê¥¿¡¼¥ó¥³¡¼¥É
  #
  # @else
  # @brief Subscribe to the interface
  #
  # Subscribe to interface.
  # Derive Provider information that matches Consumer owned by the Port 
  # from ConnectorProfile#properties and 
  # set the Consumer to the reference of the CORBA object.
  #
  # @param connector_profile The connector profile
  #
  # @return ReturnCode_t The return code of ReturnCode_t type
  #
  # @endif
  #
  # ReturnCode_t subscribeInterfaces(const ConnectorProfile& connector_profile);
  def subscribeInterfaces(self, cprof):
    self._rtcout.RTC_TRACE("subscribeInterfaces()")

    # prop: [port.outport].
    prop = copy.deepcopy(self._properties)
    conn_prop = OpenRTM_aist.Properties()
    OpenRTM_aist.NVUtil.copyToProperties(conn_prop, cprof.properties)
    prop.mergeProperties(conn_prop.getNode("dataport")) # marge ConnectorProfile
    prop.mergeProperties(conn_prop.getNode("dataport.inport")) # marge ConnectorProfile for buffer property.
    
    #
    # ¤³¤³¤Ç, ConnectorProfile ¤«¤é¤Î properties ¤¬¥Þ¡¼¥¸¤µ¤ì¤¿¤¿¤á¡¢
    # prop["dataflow_type"]: ¥Ç¡¼¥¿¥Õ¥í¡¼¥¿¥¤¥×
    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×
    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dtype = [dflow_type]
    OpenRTM_aist.normalize(dtype)
    dflow_type = dtype[0]
    
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... do nothing")

      conn = self.getConnectorById(cprof.connector_id)

      if not conn:
        self._rtcout.RTC_ERROR("specified connector not found: %s",
                               cprof.connector_id)
        return RTC.RTC_ERROR

      ret = conn.setConnectorInfo(profile)
      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("subscribeInterfaces() successfully finished.")

      return ret

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... create PullConnector")

      # create OutPortConsumer
      consumer = self.createConsumer(cprof, prop)
      if not consumer:
        return RTC.BAD_PARAMETER

      # create InPortPullConnector
      connector = self.createConnector(cprof, prop, consumer_=consumer)
      if not connector:
        return RTC.RTC_ERROR

      ret = connector.setConnectorInfo(profile)

      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("publishInterface() successfully finished.")

      return ret

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER
        
    
  ##
  # @if jp
  # @brief Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë
  #
  # Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë¡£
  # Í¿¤¨¤é¤ì¤¿ConnectorProfile¤Ë´ØÏ¢¤¹¤ëConsumer¤ËÀßÄꤵ¤ì¤¿Á´¤Æ¤ÎObject¤ò
  # ²òÊü¤·Àܳ¤ò²ò½ü¤¹¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @else
  # @brief Disconnect the interface connection
  #
  # Disconnect the interface connection.
  # Release all objects set in Consumer associated with 
  # given ConnectorProfile and unscribe the interface.
  #
  # @param connector_profile The connector profile
  #
  # @endif
  #
  # void unsubscribeInterfaces(const ConnectorProfile& connector_profile);
  def unsubscribeInterfaces(self, connector_profile):
    self._rtcout.RTC_TRACE("unsubscribeInterfaces()")
    
    id = connector_profile.connector_id
    self._rtcout.RTC_PARANOID("connector_id: %s", id)

    len_ = len(self._connectors)
    for i in range(len_):
      idx = (len_ - 1) - i
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      if id == self._connectors[idx].id():
        # Connector's dtor must call disconnect()
        self._connectors[idx].deactivate()
        self._connectors[idx].disconnect()
        del self._connectors[idx]
        self._rtcout.RTC_TRACE("delete connector: %s", id)
        return

    self._rtcout.RTC_ERROR("specified connector not found: %s", id)
    return


  ##
  # @if jp
  # @brief InPort provider ¤Î½é´ü²½
  # @else
  # @brief InPort provider initialization
  # @endif
  #
  # void initProviders();
  def initProviders(self):
    self._rtcout.RTC_TRACE("initProviders()")

    # create InPort providers
    factory = OpenRTM_aist.InPortProviderFactory.instance()
    provider_types = factory.getIdentifiers()

    self._rtcout.RTC_DEBUG("available providers: %s",
                           OpenRTM_aist.flatten(provider_types))

    if self._properties.hasKey("provider_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("provider_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed providers: %s",
                             self._properties.getProperty("provider_types"))

      temp_types = provider_types
      provider_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("provider_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ptypes = set(temp_types).intersection(set(active_types))
      provider_types = provider_types + list(set_ptypes)

    # InPortProvider supports "push" dataflow type
    if len(provider_types) > 0:
      self._rtcout.RTC_DEBUG("dataflow_type push is supported")
      self.appendProperty("dataport.dataflow_type", "push")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(provider_types))

    self._providerTypes = provider_types
    return


  ##
  # @if jp
  # @brief OutPort consumer ¤Î½é´ü²½
  # @else
  # @brief OutPort consumer initialization
  # @endif
  #
  # void initConsumers();
  def initConsumers(self):
    self._rtcout.RTC_TRACE("initConsumers()")

    # create OuPort consumers
    factory = OpenRTM_aist.OutPortConsumerFactory.instance()
    consumer_types = factory.getIdentifiers()
    self._rtcout.RTC_DEBUG("available consumers: %s",
                           OpenRTM_aist.flatten(consumer_types))

    if self._properties.hasKey("consumer_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("consumer_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed consumers: %s",
                             self._properties.getProperty("consumer_types"))

      temp_types = consumer_types
      consumer_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("consumer_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ctypes = set(temp_types).intersection(set(active_types))
      consumer_types = consumer_types + list(set_ctypes)

    # OutPortConsumer supports "pull" dataflow type
    if len(consumer_types) > 0:
      self._rtcout.RTC_PARANOID("dataflow_type pull is supported")
      self.appendProperty("dataport.dataflow_type", "pull")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(consumer_types))

    self._consumerTypes = consumer_types
    return


  ##
  # @if jp
  # @brief InPort provider ¤ÎÀ¸À®
  #
  # InPortProvider ¤òÀ¸À®¤·¡¢¾ðÊó¤ò ConnectorProfile ¤Ë¸ø³«¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # InPortProvider*
  # createProvider(ConnectorProfile& cprof, coil::Properties& prop);
  def createProvider(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._providerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no provider found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._providerTypes))
      return 0

    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    provider = OpenRTM_aist.InPortProviderFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if provider != 0:
      self._rtcout.RTC_DEBUG("provider created")
      provider.init(prop.getNode("provider"))

      if not provider.publishInterface(cprof.properties):
        self._rtcout.RTC_ERROR("publishing interface information error")
        OpenRTM_aist.InPortProviderFactory.instance().deleteObject(provider)
        return 0
      return provider

    self._rtcout.RTC_ERROR("provider creation failed")
    return 0


  ##
  # @if jp
  # @brief OutPort consumer ¤ÎÀ¸À®
  #
  # OutPortConsumer ¤òÀ¸À®¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # OutPortConsumer*
  # createConsumer(const ConnectorProfile& cprof, coil::Properties& prop);
  def createConsumer(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._consumerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no consumer found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._consumerTypes))
      return 0
    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    consumer = OpenRTM_aist.OutPortConsumerFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if consumer != 0:
      self._rtcout.RTC_DEBUG("consumer created")
      consumer.init(prop.getNode("consumer"))

      if not consumer.subscribeInterface(cprof.properties):
        self._rtcout.RTC_ERROR("interface subscription failed.")
        OpenRTM_aist.OutPortConsumerFactory.instance().deleteObject(consumer)
        return 0
      return consumer

    self._rtcout.RTC_ERROR("consumer creation failed")
    return 0


  ##
  # @if jp
  # @brief InPortPushConnector ¤ÎÀ¸À®
  #
  # Connector ¤òÀ¸À®¤·¡¢À¸À®¤¬À®¸ù¤¹¤ì¤Ð m_connectors ¤ËÊݸ¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPortPushConnector creation
  # @endif
  #
  # InPortConnector*
  #  createConnector(ConnectorProfile& cprof, coil::Properties& prop,
  #                  InPortProvider* provider);
  def createConnector(self, cprof, prop, provider_=None, consumer_=None):
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    connector = None


    try:
      if provider_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners)

      elif consumer_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners)

      else:
        self._rtcout.RTC_ERROR("provider or consumer is not passed. returned 0;")
        return 0
                

      if connector is None:
        self._rtcout.RTC_ERROR("InPortConnector creation failed")
        return 0

      if provider_ is not None:
        self._rtcout.RTC_TRACE("InPortPushConnector created")
      elif consumer_ is not None:
        self._rtcout.RTC_TRACE("InPortPullConnector created")

      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      self._connectors.append(connector)
      self._rtcout.RTC_PARANOID("connector push backed: %d", len(self._connectors))
      return connector
    except:
      self._rtcout.RTC_ERROR("InPortPushConnector creation failed")
      self._rtcout.RTC_ERROR(OpenRTM_aist.Logger.print_exception())
      return 0

    self._rtcout.RTC_FATAL("never comes here: createConnector()")
    return 0

    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dflow_type = OpenRTM_aist.normalize([dflow_type])

    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... create PushConnector")

      # create InPortProvider
      provider = self.createProvider(cprof, prop)

      if not provider:
        self._rtcout.RTC_ERROR("InPort provider creation failed.")
        return RTC.BAD_PARAMETER

      # create InPortPushConnector
      connector = self.createConnector(cprof, prop, provider_=provider)
      if not connector:
        self._rtcout.RTC_ERROR("PushConnector creation failed.")
        return RTC.RTC_ERROR

      connector.setDataType(self._value)
      provider.setConnector(connector) # So that a provider gets endian information from a connector.

      self._rtcout.RTC_DEBUG("publishInterfaces() successfully finished.")
      return RTC.RTC_OK

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... do nothing")
      return RTC.RTC_OK

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER

    
  
  def subscribeInterfaces(self, cprof):
    self._rtcout.RTC_TRACE("subscribeInterfaces()")

    # prop: [port.outport].
    prop = copy.deepcopy(self._properties)
    conn_prop = OpenRTM_aist.Properties()
    OpenRTM_aist.NVUtil.copyToProperties(conn_prop, cprof.properties)
    prop.mergeProperties(conn_prop.getNode("dataport")) # marge ConnectorProfile
    prop.mergeProperties(conn_prop.getNode("dataport.inport")) # marge ConnectorProfile for buffer property.
    
    #
    # ¤³¤³¤Ç, ConnectorProfile ¤«¤é¤Î properties ¤¬¥Þ¡¼¥¸¤µ¤ì¤¿¤¿¤á¡¢
    # prop["dataflow_type"]: ¥Ç¡¼¥¿¥Õ¥í¡¼¥¿¥¤¥×    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×
    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dtype = [dflow_type]
    OpenRTM_aist.normalize(dtype)
    dflow_type = dtype[0]
    
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... do nothing")

      conn = self.getConnectorById(cprof.connector_id)

      if not conn:
        self._rtcout.RTC_ERROR("specified connector not found: %s",
                               cprof.connector_id)
        return RTC.RTC_ERROR

      ret = conn.setConnectorInfo(profile)
      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("subscribeInterfaces() successfully finished.")

      return ret

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... create PullConnector")

      # create OutPortConsumer
      consumer = self.createConsumer(cprof, prop)
      if not consumer:
        return RTC.BAD_PARAMETER

      # create InPortPullConnector
      connector = self.createConnector(cprof, prop, consumer_=consumer)
      if not connector:
        return RTC.RTC_ERROR

      ret = connector.setConnectorInfo(profile)

      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("publishInterface() successfully finished.")

      return ret

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER
        
    
  ##
  # @if jp
  # @brief Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë
  #
  # Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë¡£
  # Í¿¤¨¤é¤ì¤¿ConnectorProfile¤Ë´ØÏ¢¤¹¤ëConsumer¤ËÀßÄꤵ¤ì¤¿Á´¤Æ¤ÎObject¤ò
  # ²òÊü¤·Àܳ¤ò²ò½ü¤¹¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @else
  # @brief Disconnect the interface connection
  #
  # Disconnect the interface connection.
  # Release all objects set in Consumer associated with 
  # given ConnectorProfile and unscribe the interface.
  #
  # @param connector_profile The connector profile
  #
  # @endif
  #
  # void unsubscribeInterfaces(const ConnectorProfile& connector_profile);
  def unsubscribeInterfaces(self, connector_profile):
    self._rtcout.RTC_TRACE("unsubscribeInterfaces()")
    
    id = connector_profile.connector_id
    self._rtcout.RTC_PARANOID("connector_id: %s", id)

    len_ = len(self._connectors)
    for i in range(len_):
      idx = (len_ - 1) - i
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      if id == self._connectors[idx].id():
        # Connector's dtor must call disconnect()
        self._connectors[idx].deactivate()
        self._connectors[idx].disconnect()
        del self._connectors[idx]
        self._rtcout.RTC_TRACE("delete connector: %s", id)
        return

    self._rtcout.RTC_ERROR("specified connector not found: %s", id)
    return


  ##
  # @if jp
  # @brief InPort provider ¤Î½é´ü²½
  # @else
  # @brief InPort provider initialization
  # @endif
  #
  # void initProviders();
  def initProviders(self):
    self._rtcout.RTC_TRACE("initProviders()")

    # create InPort providers
    factory = OpenRTM_aist.InPortProviderFactory.instance()
    provider_types = factory.getIdentifiers()

    self._rtcout.RTC_DEBUG("available providers: %s",
                           OpenRTM_aist.flatten(provider_types))

    if self._properties.hasKey("provider_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("provider_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed providers: %s",
                             self._properties.getProperty("provider_types"))

      temp_types = provider_types
      provider_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("provider_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ptypes = set(temp_types).intersection(set(active_types))
      provider_types = provider_types + list(set_ptypes)

    # InPortProvider supports "push" dataflow type
    if len(provider_types) > 0:
      self._rtcout.RTC_DEBUG("dataflow_type push is supported")
      self.appendProperty("dataport.dataflow_type", "push")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(provider_types))

    self._providerTypes = provider_types
    return


  ##
  # @if jp
  # @brief OutPort consumer ¤Î½é´ü²½
  # @else
  # @brief OutPort consumer initialization
  # @endif
  #
  # void initConsumers();
  def initConsumers(self):
    self._rtcout.RTC_TRACE("initConsumers()")

    # create OuPort consumers
    factory = OpenRTM_aist.OutPortConsumerFactory.instance()
    consumer_types = factory.getIdentifiers()
    self._rtcout.RTC_DEBUG("available consumers: %s",
                           OpenRTM_aist.flatten(consumer_types))

    if self._properties.hasKey("consumer_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("consumer_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed consumers: %s",
                             self._properties.getProperty("consumer_types"))

      temp_types = consumer_types
      consumer_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("consumer_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ctypes = set(temp_types).intersection(set(active_types))
      consumer_types = consumer_types + list(set_ctypes)

    # OutPortConsumer supports "pull" dataflow type
    if len(consumer_types) > 0:
      self._rtcout.RTC_PARANOID("dataflow_type pull is supported")
      self.appendProperty("dataport.dataflow_type", "pull")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(consumer_types))

    self._consumerTypes = consumer_types
    return


  ##
  # @if jp
  # @brief InPort provider ¤ÎÀ¸À®
  #
  # InPortProvider ¤òÀ¸À®¤·¡¢¾ðÊó¤ò ConnectorProfile ¤Ë¸ø³«¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # InPortProvider*
  # createProvider(ConnectorProfile& cprof, coil::Properties& prop);
  def createProvider(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._providerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no provider found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._providerTypes))
      return 0

    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    provider = OpenRTM_aist.InPortProviderFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if provider != 0:
      self._rtcout.RTC_DEBUG("provider created")
      provider.init(prop.getNode("provider"))

      if not provider.publishInterface(cprof.properties):
        self._rtcout.RTC_ERROR("publishing interface information error")
        OpenRTM_aist.InPortProviderFactory.instance().deleteObject(provider)
        return 0
      return provider

    self._rtcout.RTC_ERROR("provider creation failed")
    return 0


  ##
  # @if jp
  # @brief OutPort consumer ¤ÎÀ¸À®
  #
  # OutPortConsumer ¤òÀ¸À®¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # OutPortConsumer*
  # createConsumer(const ConnectorProfile& cprof, coil::Properties& prop);
  def createConsumer(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._consumerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no consumer found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._consumerTypes))
      return 0
    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    consumer = OpenRTM_aist.OutPortConsumerFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if consumer != 0:
      self._rtcout.RTC_DEBUG("consumer created")
      consumer.init(prop.getNode("consumer"))

      if not consumer.subscribeInterface(cprof.properties):
        self._rtcout.RTC_ERROR("interface subscription failed.")
        OpenRTM_aist.OutPortConsumerFactory.instance().deleteObject(consumer)
        return 0
      return consumer

    self._rtcout.RTC_ERROR("consumer creation failed")
    return 0


  ##
  # @if jp
  # @brief InPortPushConnector ¤ÎÀ¸À®
  #
  # Connector ¤òÀ¸À®¤·¡¢À¸À®¤¬À®¸ù¤¹¤ì¤Ð m_connectors ¤ËÊݸ¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPortPushConnector creation
  # @endif
  #
  # InPortConnector*
  #  createConnector(ConnectorProfile& cprof, coil::Properties& prop,
  #                  InPortProvider* provider);
  def createConnector(self, cprof, prop, provider_=None, consumer_=None):
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    connector = None


    try:
      if provider_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners)

      elif consumer_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners)

      else:
        self._rtcout.RTC_ERROR("provider or consumer is not passed. returned 0;")
        return 0
                

      if connector is None:
        self._rtcout.RTC_ERROR("InPortConnector creation failed")
        return 0

      if provider_ is not None:
        self._rtcout.RTC_TRACE("InPortPushConnector created")
      elif consumer_ is not None:
        self._rtcout.RTC_TRACE("InPortPullConnector created")

      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      self._connectors.append(connector)
      self._rtcout.RTC_PARANOID("connector push backed: %d", len(self._connectors))
      return connector
    except:
      self._rtcout.RTC_ERROR("InPortPushConnector creation failed")
      self._rtcout.RTC_ERROR(OpenRTM_aist.Logger.print_exception())
      return 0

    self._rtcout.RTC_FATAL("never comes here: createConnector()")
    return 0

    # prop["interface_type"]: ¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹¥¿¥¤¥×    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dtype = [dflow_type]
    OpenRTM_aist.normalize(dtype)
    dflow_type = dtype[0]
    
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... do nothing")

      conn = self.getConnectorById(cprof.connector_id)

      if not conn:
        self._rtcout.RTC_ERROR("specified connector not found: %s",
                               cprof.connector_id)
        return RTC.RTC_ERROR

      ret = conn.setConnectorInfo(profile)
      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("subscribeInterfaces() successfully finished.")

      return ret

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... create PullConnector")

      # create OutPortConsumer
      consumer = self.createConsumer(cprof, prop)
      if not consumer:
        return RTC.BAD_PARAMETER

      # create InPortPullConnector
      connector = self.createConnector(cprof, prop, consumer_=consumer)
      if not connector:
        return RTC.RTC_ERROR

      ret = connector.setConnectorInfo(profile)

      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("publishInterface() successfully finished.")

      return ret

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER
        
    
  ##
  # @if jp
  # @brief Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë
  #
  # Interface¤Ø¤ÎÀܳ¤ò²ò½ü¤¹¤ë¡£
  # Í¿¤¨¤é¤ì¤¿ConnectorProfile¤Ë´ØÏ¢¤¹¤ëConsumer¤ËÀßÄꤵ¤ì¤¿Á´¤Æ¤ÎObject¤ò
  # ²òÊü¤·Àܳ¤ò²ò½ü¤¹¤ë¡£
  #
  # @param connector_profile ¥³¥Í¥¯¥¿¡¦¥×¥í¥Õ¥¡¥¤¥ë
  #
  # @else
  # @brief Disconnect the interface connection
  #
  # Disconnect the interface connection.
  # Release all objects set in Consumer associated with 
  # given ConnectorProfile and unscribe the interface.
  #
  # @param connector_profile The connector profile
  #
  # @endif
  #
  # void unsubscribeInterfaces(const ConnectorProfile& connector_profile);
  def unsubscribeInterfaces(self, connector_profile):
    self._rtcout.RTC_TRACE("unsubscribeInterfaces()")
    
    id = connector_profile.connector_id
    self._rtcout.RTC_PARANOID("connector_id: %s", id)

    len_ = len(self._connectors)
    for i in range(len_):
      idx = (len_ - 1) - i
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      if id == self._connectors[idx].id():
        # Connector's dtor must call disconnect()
        self._connectors[idx].deactivate()
        self._connectors[idx].disconnect()
        del self._connectors[idx]
        self._rtcout.RTC_TRACE("delete connector: %s", id)
        return

    self._rtcout.RTC_ERROR("specified connector not found: %s", id)
    return


  ##
  # @if jp
  # @brief InPort provider ¤Î½é´ü²½
  # @else
  # @brief InPort provider initialization
  # @endif
  #
  # void initProviders();
  def initProviders(self):
    self._rtcout.RTC_TRACE("initProviders()")

    # create InPort providers
    factory = OpenRTM_aist.InPortProviderFactory.instance()
    provider_types = factory.getIdentifiers()

    self._rtcout.RTC_DEBUG("available providers: %s",
                           OpenRTM_aist.flatten(provider_types))

    if self._properties.hasKey("provider_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("provider_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed providers: %s",
                             self._properties.getProperty("provider_types"))

      temp_types = provider_types
      provider_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("provider_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ptypes = set(temp_types).intersection(set(active_types))
      provider_types = provider_types + list(set_ptypes)

    # InPortProvider supports "push" dataflow type
    if len(provider_types) > 0:
      self._rtcout.RTC_DEBUG("dataflow_type push is supported")
      self.appendProperty("dataport.dataflow_type", "push")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(provider_types))

    self._providerTypes = provider_types
    return


  ##
  # @if jp
  # @brief OutPort consumer ¤Î½é´ü²½
  # @else
  # @brief OutPort consumer initialization
  # @endif
  #
  # void initConsumers();
  def initConsumers(self):
    self._rtcout.RTC_TRACE("initConsumers()")

    # create OuPort consumers
    factory = OpenRTM_aist.OutPortConsumerFactory.instance()
    consumer_types = factory.getIdentifiers()
    self._rtcout.RTC_DEBUG("available consumers: %s",
                           OpenRTM_aist.flatten(consumer_types))

    if self._properties.hasKey("consumer_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("consumer_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed consumers: %s",
                             self._properties.getProperty("consumer_types"))

      temp_types = consumer_types
      consumer_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("consumer_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ctypes = set(temp_types).intersection(set(active_types))
      consumer_types = consumer_types + list(set_ctypes)

    # OutPortConsumer supports "pull" dataflow type
    if len(consumer_types) > 0:
      self._rtcout.RTC_PARANOID("dataflow_type pull is supported")
      self.appendProperty("dataport.dataflow_type", "pull")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(consumer_types))

    self._consumerTypes = consumer_types
    return


  ##
  # @if jp
  # @brief InPort provider ¤ÎÀ¸À®
  #
  # InPortProvider ¤òÀ¸À®¤·¡¢¾ðÊó¤ò ConnectorProfile ¤Ë¸ø³«¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # InPortProvider*
  # createProvider(ConnectorProfile& cprof, coil::Properties& prop);
  def createProvider(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._providerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no provider found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._providerTypes))
      return 0

    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    provider = OpenRTM_aist.InPortProviderFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if provider != 0:
      self._rtcout.RTC_DEBUG("provider created")
      provider.init(prop.getNode("provider"))

      if not provider.publishInterface(cprof.properties):
        self._rtcout.RTC_ERROR("publishing interface information error")
        OpenRTM_aist.InPortProviderFactory.instance().deleteObject(provider)
        return 0
      return provider

    self._rtcout.RTC_ERROR("provider creation failed")
    return 0


  ##
  # @if jp
  # @brief OutPort consumer ¤ÎÀ¸À®
  #
  # OutPortConsumer ¤òÀ¸À®¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPort provider creation
  # @endif
  #
  # OutPortConsumer*
  # createConsumer(const ConnectorProfile& cprof, coil::Properties& prop);
  def createConsumer(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._consumerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no consumer found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._consumerTypes))
      return 0
    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    consumer = OpenRTM_aist.OutPortConsumerFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if consumer != 0:
      self._rtcout.RTC_DEBUG("consumer created")
      consumer.init(prop.getNode("consumer"))

      if not consumer.subscribeInterface(cprof.properties):
        self._rtcout.RTC_ERROR("interface subscription failed.")
        OpenRTM_aist.OutPortConsumerFactory.instance().deleteObject(consumer)
        return 0
      return consumer

    self._rtcout.RTC_ERROR("consumer creation failed")
    return 0


  ##
  # @if jp
  # @brief InPortPushConnector ¤ÎÀ¸À®
  #
  # Connector ¤òÀ¸À®¤·¡¢À¸À®¤¬À®¸ù¤¹¤ì¤Ð m_connectors ¤ËÊݸ¤¹¤ë¡£
  # À¸À®¤Ë¼ºÇÔ¤·¤¿¾ì¹ç 0 ¤òÊÖ¤¹¡£
  #
  # @else
  # @brief InPortPushConnector creation
  # @endif
  #
  # InPortConnector*
  #  createConnector(ConnectorProfile& cprof, coil::Properties& prop,
  #                  InPortProvider* provider);
  def createConnector(self, cprof, prop, provider_=None, consumer_=None):
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    connector = None


    try:
      if provider_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners)

      elif consumer_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners)

      else:
        self._rtcout.RTC_ERROR("provider or consumer is not passed. returned 0;")
        return 0
                

      if connector is None:
        self._rtcout.RTC_ERROR("InPortConnector creation failed")
        return 0

      if provider_ is not None:
        self._rtcout.RTC_TRACE("InPortPushConnector created")
      elif consumer_ is not None:
        self._rtcout.RTC_TRACE("InPortPullConnector created")

      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      self._connectors.append(connector)
      self._rtcout.RTC_PARANOID("connector push backed: %d", len(self._connectors))
      return connector
    except:
      self._rtcout.RTC_ERROR("InPortPushConnector creation failed")
      self._rtcout.RTC_ERROR(OpenRTM_aist.Logger.print_exception())
      return 0

    self._rtcout.RTC_FATAL("never comes here: createConnector()")
    return 0

    # ¤Ê¤É¤¬¥¢¥¯¥»¥¹²Äǽ¤Ë¤Ê¤ë¡£
    #
    dflow_type = prop.getProperty("dataflow_type")
    dtype = [dflow_type]
    OpenRTM_aist.normalize(dtype)
    dflow_type = dtype[0]
    
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    if dflow_type == "push":
      self._rtcout.RTC_DEBUG("dataflow_type = push .... do nothing")

      conn = self.getConnectorById(cprof.connector_id)

      if not conn:
        self._rtcout.RTC_ERROR("specified connector not found: %s",
                               cprof.connector_id)
        return RTC.RTC_ERROR

      ret = conn.setConnectorInfo(profile)
      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("subscribeInterfaces() successfully finished.")

      return ret

    elif dflow_type == "pull":
      self._rtcout.RTC_DEBUG("dataflow_type = pull .... create PullConnector")

      # create OutPortConsumer
      consumer = self.createConsumer(cprof, prop)
      if not consumer:
        return RTC.BAD_PARAMETER

      # create InPortPullConnector
      connector = self.createConnector(cprof, prop, consumer_=consumer)
      if not connector:
        return RTC.RTC_ERROR

      ret = connector.setConnectorInfo(profile)

      if ret == RTC.RTC_OK:
        self._rtcout.RTC_DEBUG("publishInterface() successfully finished.")

      return ret

    self._rtcout.RTC_ERROR("unsupported dataflow_type")
    return RTC.BAD_PARAMETER
        
    
  
  def unsubscribeInterfaces(self, connector_profile):
    self._rtcout.RTC_TRACE("unsubscribeInterfaces()")
    
    id = connector_profile.connector_id
    self._rtcout.RTC_PARANOID("connector_id: %s", id)

    len_ = len(self._connectors)
    for i in range(len_):
      idx = (len_ - 1) - i
      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      if id == self._connectors[idx].id():
        # Connector's dtor must call disconnect()
        self._connectors[idx].deactivate()
        self._connectors[idx].disconnect()
        del self._connectors[idx]
        self._rtcout.RTC_TRACE("delete connector: %s", id)
        return

    self._rtcout.RTC_ERROR("specified connector not found: %s", id)
    return


  
  def initProviders(self):
    self._rtcout.RTC_TRACE("initProviders()")

    # create InPort providers
    factory = OpenRTM_aist.InPortProviderFactory.instance()
    provider_types = factory.getIdentifiers()

    self._rtcout.RTC_DEBUG("available providers: %s",
                           OpenRTM_aist.flatten(provider_types))

    if self._properties.hasKey("provider_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("provider_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed providers: %s",
                             self._properties.getProperty("provider_types"))

      temp_types = provider_types
      provider_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("provider_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ptypes = set(temp_types).intersection(set(active_types))
      provider_types = provider_types + list(set_ptypes)

    # InPortProvider supports "push" dataflow type
    if len(provider_types) > 0:
      self._rtcout.RTC_DEBUG("dataflow_type push is supported")
      self.appendProperty("dataport.dataflow_type", "push")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(provider_types))

    self._providerTypes = provider_types
    return


  
  def initConsumers(self):
    self._rtcout.RTC_TRACE("initConsumers()")

    # create OuPort consumers
    factory = OpenRTM_aist.OutPortConsumerFactory.instance()
    consumer_types = factory.getIdentifiers()
    self._rtcout.RTC_DEBUG("available consumers: %s",
                           OpenRTM_aist.flatten(consumer_types))

    if self._properties.hasKey("consumer_types") and \
          OpenRTM_aist.normalize(self._properties.getProperty("consumer_types")) != "all":
      self._rtcout.RTC_DEBUG("allowed consumers: %s",
                             self._properties.getProperty("consumer_types"))

      temp_types = consumer_types
      consumer_types = []
      active_types = OpenRTM_aist.split(self._properties.getProperty("consumer_types"), ",")

      temp_types.sort()
      active_types.sort()

      set_ctypes = set(temp_types).intersection(set(active_types))
      consumer_types = consumer_types + list(set_ctypes)

    # OutPortConsumer supports "pull" dataflow type
    if len(consumer_types) > 0:
      self._rtcout.RTC_PARANOID("dataflow_type pull is supported")
      self.appendProperty("dataport.dataflow_type", "pull")
      self.appendProperty("dataport.interface_type",
                          OpenRTM_aist.flatten(consumer_types))

    self._consumerTypes = consumer_types
    return


  
  def createProvider(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._providerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no provider found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._providerTypes))
      return 0

    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    provider = OpenRTM_aist.InPortProviderFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if provider != 0:
      self._rtcout.RTC_DEBUG("provider created")
      provider.init(prop.getNode("provider"))

      if not provider.publishInterface(cprof.properties):
        self._rtcout.RTC_ERROR("publishing interface information error")
        OpenRTM_aist.InPortProviderFactory.instance().deleteObject(provider)
        return 0
      return provider

    self._rtcout.RTC_ERROR("provider creation failed")
    return 0


  
  def createConsumer(self, cprof, prop):
    if not prop.getProperty("interface_type") and \
          not OpenRTM_aist.includes(self._consumerTypes, prop.getProperty("interface_type")):
      self._rtcout.RTC_ERROR("no consumer found")
      self._rtcout.RTC_DEBUG("interface_type:  %s", prop.getProperty("interface_type"))
      self._rtcout.RTC_DEBUG("interface_types: %s",
                             OpenRTM_aist.flatten(self._consumerTypes))
      return 0
    
    self._rtcout.RTC_DEBUG("interface_type: %s", prop.getProperty("interface_type"))
    consumer = OpenRTM_aist.OutPortConsumerFactory.instance().createObject(prop.getProperty("interface_type"))
    
    if consumer != 0:
      self._rtcout.RTC_DEBUG("consumer created")
      consumer.init(prop.getNode("consumer"))

      if not consumer.subscribeInterface(cprof.properties):
        self._rtcout.RTC_ERROR("interface subscription failed.")
        OpenRTM_aist.OutPortConsumerFactory.instance().deleteObject(consumer)
        return 0
      return consumer

    self._rtcout.RTC_ERROR("consumer creation failed")
    return 0


  
  def createConnector(self, cprof, prop, provider_=None, consumer_=None):
    profile = OpenRTM_aist.ConnectorInfo(cprof.name,
                                         cprof.connector_id,
                                         OpenRTM_aist.CORBA_SeqUtil.refToVstring(cprof.ports),
                                         prop)
    connector = None


    try:
      if provider_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPushConnector(profile, provider_,
                                                       self._listeners)

      elif consumer_ is not None:
        if self._singlebuffer:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners,
                                                       self._thebuffer)
        else:
          connector = OpenRTM_aist.InPortPullConnector(profile, consumer_,
                                                       self._listeners)

      else:
        self._rtcout.RTC_ERROR("provider or consumer is not passed. returned 0;")
        return 0
                

      if connector is None:
        self._rtcout.RTC_ERROR("InPortConnector creation failed")
        return 0

      if provider_ is not None:
        self._rtcout.RTC_TRACE("InPortPushConnector created")
      elif consumer_ is not None:
        self._rtcout.RTC_TRACE("InPortPullConnector created")

      # guard = OpenRTM_aist.ScopedLock(self._connector_mutex)
      self._connectors.append(connector)
      self._rtcout.RTC_PARANOID("connector push backed: %d", len(self._connectors))
      return connector
    except:
      self._rtcout.RTC_ERROR("InPortPushConnector creation failed")
      self._rtcout.RTC_ERROR(OpenRTM_aist.Logger.print_exception())
      return 0

    self._rtcout.RTC_FATAL("never comes here: createConnector()")
    return 0