virtual bool threadInit() override { p.open("/readWriteTest_writer"); image.resize(100, 100); image.zero(); return true; }
virtual bool configure(yarp::os::ResourceFinder &rf) { yarp::os::Time::turboBoost(); mNavThread=new Navigator(&rf); if (!mNavThread->start()) { delete mNavThread; return false; } std::string local=rf.check("local",yarp::os::Value("/ikartnav")).asString().c_str(); mHandlerPort.open(local.c_str()); attach(mHandlerPort); //attachTerminal(); return true; }
bool configure( yarp::os::ResourceFinder &rf ) { std::string moduleName = rf.check("name", yarp::os::Value("demoServerModule"), "module name (string)").asString().c_str(); setName(moduleName.c_str()); std::string slash="/"; attach(cmdPort); std::string cmdPortName= "/"; cmdPortName+= getName(); cmdPortName += "/cmd"; if (!cmdPort.open(cmdPortName.c_str())) { std::cout << getName() << ": Unable to open port " << cmdPortName << std::endl; return false; } return true; }
virtual bool configure(yarp::os::ResourceFinder &rf) { yarp::os::Time::turboBoost(); Property p; ConstString configFile = rf.findFile("from"); if (configFile!="") p.fromConfigFile(configFile.c_str()); gotoThread = new GotoThread(10,rf,p); if (!gotoThread->start()) { delete gotoThread; return false; } rpcPort.open("/ikartGoto/rpc:i"); attach(rpcPort); //attachTerminal(); return true; }
/** * Performs module configuration, parsing user options stored in the resource finder. * Available options are described in main module documentation. * @return true if the module was successfully configured and opened, false otherwise. */ virtual bool configure(yarp::os::ResourceFinder &rf) { yarp::os::Time::turboBoost(); m_rpcPort.open("/"+m_module_name+"/rpc"); attach(m_rpcPort); //attachTerminal(); m_rf = rf; //configuration file checking Bottle general_group = m_rf.findGroup("GENERAL"); if (general_group.isNull()) { yError() << "Missing GENERAL group!"; return false; } Bottle initial_group = m_rf.findGroup("INITIAL_POS"); if (initial_group.isNull()) { yError() << "Missing INITIAL_POS group!"; return false; } Bottle localization_group = m_rf.findGroup("LOCALIZATION"); if (localization_group.isNull()) { yError() << "Missing LOCALIZATION group!"; return false; } Bottle ros_group = m_rf.findGroup("ROS"); Bottle tf_group = m_rf.findGroup("TF"); if (tf_group.isNull()) { yError() << "Missing TF group!"; return false; } Bottle odometry_group = m_rf.findGroup("ODOMETRY"); if (odometry_group.isNull()) { yError() << "Missing ODOMETRY group!"; return false; } Bottle map_group = m_rf.findGroup("MAP"); if (map_group.isNull()) { yError() << "Missing MAP group!"; return false; } yDebug() << map_group.toString(); //general group if (general_group.check("module_name") == false) { yError() << "Missing `module_name` in [GENERAL] group"; return false; } m_module_name = general_group.find("module_name").asString(); if (general_group.check("enable_ros") == false) { yError() << "Missing `ros_enable` in [GENERAL] group"; return false; } m_ros_enabled = (general_group.find("enable_ros").asInt()==1); //ROS group if (m_ros_enabled) { m_rosNode = new yarp::os::Node("/"+m_module_name); //initialize an occupancy grid publisher (every time the localization is re-initialized, the map is published too) if (ros_group.check ("occupancygrid_topic")) { m_topic_occupancyGrid = ros_group.find ("occupancygrid_topic").asString(); if (!m_rosPublisher_occupancyGrid.topic(m_topic_occupancyGrid)) { if (m_rosNode) { delete m_rosNode; m_rosNode=0; } yError() << "localizationModule: unable to publish data on " << m_topic_occupancyGrid << " topic, check your yarp-ROS network configuration"; return false; } } //initialize an initial pose publisher if (ros_group.check ("initialpose_topic")) { m_topic_initial_pose = ros_group.find ("initialpose_topic").asString(); { if (!m_rosPublisher_initial_pose.topic(m_topic_initial_pose)) { if (m_rosNode) { delete m_rosNode; m_rosNode=0; } yError() << "localizationModule: unable to publish data on " << m_topic_initial_pose << " topic, check your yarp-ROS network configuration"; return false; } } } } //localization group if (localization_group.check("use_localization_from_odometry_port")) { m_use_localization_from_odometry_port = (localization_group.find("use_localization_from_odometry_port").asInt() == 1); } if (localization_group.check("use_localization_from_tf")) { m_use_localization_from_tf = (localization_group.find("use_localization_from_tf").asInt() == 1); } if (m_use_localization_from_odometry_port == true && m_use_localization_from_tf == true) { yError() << "`use_localization_from_tf` and `use_localization_from_odometry_port` cannot be true simultaneously!"; return false; } //map server group yDebug() << map_group.toString(); if (map_group.check("connect_to_yarp_mapserver") == false) { yError() << "Missing `connect_to_yarp_mapserver` in [MAP] group"; return false; } m_use_map_server= (map_group.find("connect_to_yarp_mapserver").asInt()==1); //tf group if (tf_group.check("map_frame_id") == false) { yError() << "Missing `map_frame_id` in [TF] group"; return false; } if (tf_group.check("robot_frame_id") == false) { yError() << "Missing `robot_frame_id` in [TF] group"; return false; } m_frame_map_id = tf_group.find("map_frame_id").asString(); m_frame_robot_id = tf_group.find("robot_frame_id").asString(); //odometry group if (odometry_group.check("odometry_broadcast_port") == false) { yError() << "Missing `odometry_port` in [ODOMETRY] group"; return false; } m_port_broadcast_odometry_name = odometry_group.find("odometry_broadcast_port").asString(); //device driver opening and/or connections if (m_use_localization_from_odometry_port) { //opens a YARP port to receive odometry data std::string odom_portname = "/" + m_module_name + "/odometry:i"; bool b1 = m_port_odometry_input.open(odom_portname.c_str()); bool b2 = yarp::os::Network::sync(odom_portname.c_str(),false); bool b3 = yarp::os::Network::connect(m_port_broadcast_odometry_name.c_str(), odom_portname.c_str()); if (b1 == false || b2 ==false || b3==false) { yError() << "Unable to initialize odometry port connection from " << m_port_broadcast_odometry_name.c_str()<< "to:" << odom_portname.c_str(); return false; } } if (m_use_localization_from_tf) { //opens a client to receive localization data from transformServer Property options; options.put("device", "transformClient"); options.put("local", "/"+m_module_name + "/TfClient"); options.put("remote", "/transformServer"); if (m_ptf.open(options) == false) { yError() << "Unable to open transform client"; return false; } m_ptf.view(m_iTf); if (m_ptf.isValid() == false || m_iTf == 0) { yError() << "Unable to view iTransform interface"; return false; } } if (m_use_map_server) { //opens a client to send/received data from mapServer Property map_options; map_options.put("device", "map2DClient"); map_options.put("local", "/" +m_module_name); //This is just a prefix. map2DClient will complete the port name. map_options.put("remote", "/mapServer"); if (m_pmap.open(map_options) == false) { yWarning() << "Unable to open mapClient"; } else { yInfo() << "Opened mapClient"; m_pmap.view(m_iMap); if (m_pmap.isValid() == false || m_iMap == 0) { yError() << "Unable to view map interface"; return false; } } } //initial location initialization if (initial_group.check("initial_x")) { m_initial_loc.x = initial_group.find("initial_x").asDouble(); } else { yError() << "missing initial_x param"; return false; } if (initial_group.check("initial_y")) { m_initial_loc.y = initial_group.find("initial_y").asDouble(); } else { yError() << "missing initial_y param"; return false; } if (initial_group.check("initial_theta")) { m_initial_loc.theta = initial_group.find("initial_theta").asDouble(); } else { yError() << "missing initial_theta param"; return false; } if (initial_group.check("initial_map")) { m_initial_loc.map_id = initial_group.find("initial_map").asString(); } else { yError() << "missing initial_map param"; return false; } this->initializeLocalization(m_initial_loc); return true; }
virtual bool configure(yarp::os::ResourceFinder &rf) { Property options; options.fromString(rf.toString()); char robotName[255]; Bottle *jointsList=0; std::string moduleName = "torqueObserver"; Time::turboBoost(); reset_offset = true; for (int i=0; i<6; i++) initial_offset[i]=0.0; /* options.put("device", "remote_controlboard"); if(options.check("robot")) strncpy(robotName, options.find("robot").asString().c_str(),sizeof(robotName)); else strncpy(robotName, "icub", sizeof(robotName)); if (options.check("name")) { moduleName = options.find("name").asString(); } if(options.check("part")) { sprintf(partName, "%s", options.find("part").asString().c_str()); sprintf(tmp, "/%s/%s/%s/client", moduleName.c_str(), robotName, partName); options.put("local",tmp); sprintf(tmp, "/%s/%s", robotName, partName); options.put("remote", tmp); sprintf(tmp, "/%s/%s/rpc", moduleName.c_str(), partName); rpc_port.open(tmp); options.put("carrier", "tcp"); attach(rpc_port); } else { yError("Please specify part (e.g. --part head)\n"); return false; } //opening the device driver if (!driver.open(options)) { yError("Error opening device, check parameters\n"); return false; } bool ret = true; idir = 0; icmd = 0; ret &= driver.view(idir); ret &= driver.view(icmd); */ char pin[255]; sprintf(pin, "/%s/torque:i", moduleName.c_str()); inport.open(pin); char pout[255]; sprintf(pout, "/%s/torque:o", moduleName.c_str()); outport.open(pout); bool b1 = yarp::os::Network::connect("/icub/left_leg/analog:o",pin); bool b2 = yarp::os::Network::connect(pout,"/icub/left_leg/analog:o"); if (!b1) { yWarning("failed input connection"); } if (!b2) { yWarning("failed ouput connection"); } return true; }