int main(int argc, char* argv[]) { JAUS::Component component; JAUS::Subsystem* judge_subsystem; std::cout << "Initializing JAUS component... "; if (initialize_jaus(&component) < 0) { std::cout << "Failed!" << std::endl; return -1; } std::cout << "OKkk" << std::endl; std::cout << "Searching for Judges' COP... "; if ((judge_subsystem = discover_judge(&component)) == NULL) { std::cout << "Failed!" << std::endl; return -1; } std::cout << "Success (Identification: " << judge_subsystem->mIdentification << ")" << std::endl; std::cout << "READY, We are now listening to ROS topics and updating current JAUS state..." << std::endl; JAUS::Management* management_service = (JAUS::Management*)component.GetService(JAUS::Management::Name); JAUS::Time::Stamp display_time = JAUS::Time::GetUtcTimeMs(); while(management_service->GetStatus() != JAUS::Management::Status::Shutdown) { if (CxUtils::GetChar() == 'q') break; if (JAUS::Time::GetUtcTimeMs() - display_time > 2000) { management_service->PrintStatus(); // display a status message display_time = JAUS::Time::GetUtcTimeMs(); } } component.Shutdown(); return 0; }
int main(int argc, char* argv[]) { JAUS::Component component; // Add services to a component is done using the AddService // method. Services can only be added before a // component is initialized using the Initialize method. // Any attempt to add after will fail. Finally, you // cannot add multiple of the same service. // Create a Global Pose Sensor service. JAUS::GlobalPoseSensor* globalPoseSensor = new JAUS::GlobalPoseSensor(); // Set the update rate of the sensor (Hz). This // is used to determine what type of periodic // events the sensor can support. globalPoseSensor->SetSensorUpdateRate(25); // Set some global pose values. JAUS::GlobalPose globalPose; globalPose.SetLatitude(34.12345); globalPose.SetLongitude(-116.12345); globalPose.SetAltitude(100); globalPose.SetTimeStamp(JAUS::Time(true)); // Set the values. globalPoseSensor->SetGlobalPose(globalPose); // Add the sensor service to the component. Remember // this must be done before initialization. Also, // the component will delete the service for us // automatically, so we don't have to! component.AddService(globalPoseSensor); // Setup identification info. For questions about this, // see the previous tutorial(s). JAUS::Discovery* discoveryService = NULL; discoveryService = component.DiscoveryService(); discoveryService->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Robot"); discoveryService->SetNodeIdentification("Primary Computer"); discoveryService->SetComponentIdentification("Baseline"); JAUS::Address componentID(1000, 1, 6); // Initialize! std::cout << "Initializing component..."; if(component.Initialize(componentID) == false) { std::cout << "Failed to initialize component [" << componentID.ToString() << "]\n"; return 0; } std::cout << "Success!\n"; // Now go into your main computer loop until the // component has been told to shutdown. JAUS::Time::Stamp displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); while(true) { // To "simulate" a real sensor, lets modify // the latitude like the robot is moving north. globalPose.SetLatitude(globalPose.GetLatitude() + 0.00001); globalPose.SetTimeStamp(JAUS::Time(true)); // Update the sensor with the new data. This will // automatically trigger events if someone (i.e. another // component) is subscribing to the data from our sensor. // this is because the Global Pose Sensor class inherits // from the Events service and has implemented all the // methods needed to support subscriptions. globalPoseSensor->SetGlobalPose(globalPose); JAUS::Management* managementService = NULL; managementService = component.ManagementService(); if(managementService->GetStatus() == JAUS::Management::Status::Shutdown) { // Exit program. break; } if(JAUS::Time::GetUtcTimeMs() - displayStatusTimeMs > 500) { // Print out status of the service. component.GetService(JAUS::GlobalPoseSensor::Name)->PrintStatus(); std::cout << std::endl; displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); } if(CxUtils::GetChar() == 27) { break; } CxUtils::SleepMs(100); } // Shutdown your component completely. Any // services added or belonging to the component // will be deleted. component.Shutdown(); return 0; }
int main(int argc, char* argv[]) { JAUS::Component component; // Setup identification info. For questions about this, // see the previous tutorial(s). JAUS::Discovery* discoveryService = NULL; discoveryService = component.DiscoveryService(); discoveryService->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Robot"); discoveryService->SetNodeIdentification("Primary Computer"); discoveryService->SetComponentIdentification("Baseline"); JAUS::Address componentID(1000, 1, 2); // Initialize! std::cout << "Initializing component..."; if(component.Initialize(componentID) == false) { std::cout << "Failed to initialize component [" << componentID.ToString() << "]\n"; return 0; } std::cout << "Success!\n"; // Now go into your main computer loop until the // component has been told to shutdown. JAUS::Time::Stamp displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); while(true) { JAUS::Management* managementService = NULL; managementService = component.ManagementService(); if(managementService->GetStatus() == JAUS::Management::Status::Shutdown) { // Exit program. break; } if(JAUS::Time::GetUtcTimeMs() - displayStatusTimeMs > 500) { // Use the discovery service to get a list of // discovered subsystems. (see below for how to clear map). JAUS::Subsystem::Map discoveredSubsystems; discoveryService->GetSubsystems(discoveredSubsystems); std::cout << "======================================================\n"; JAUS::Subsystem::Map::iterator subsystem; // The map is indexed by the subsystem number. for(subsystem = discoveredSubsystems.begin(); subsystem != discoveredSubsystems.end(); subsystem++) { std::cout << "Subsystem: " << subsystem->first << " Identification: " << subsystem->second->mIdentification << std::endl; // Lets see if it has specific service we // want to communicate with. For this tutorial // let's check for the Liveness service, which // supports the Query Heartbeat Pulse and // Report Heartbeat Pulse messages. // We can use the subsystem data structure to // get a list of components on the subsystem that // have the service, so we can send a message to it. JAUS::Address::List componentsWithLiveness; componentsWithLiveness = subsystem->second->GetComponentsWithService(JAUS::Liveness::Name); JAUS::Address::List::iterator c; for(c = componentsWithLiveness.begin(); c != componentsWithLiveness.end(); c++) { // First, make sure it is not the // component we are using, because we // want to talk to a different one. if( (*c) != component.GetComponentID()) { // Now that we have the ID of // component with the Liveness // service, lets send a query message // and wait for the response. // Setup the query message to send. JAUS::QueryHeartbeatPulse query; query.SetDestinationID( (*c) ); query.SetSourceID(component.GetComponentID()); // This is the response message we want. JAUS::ReportHeartbeatPulse response; // Send and see if we got a // response, but only wait up to 1 second // for a response. Default value for waiting // is 100 ms. std::cout << "\tSending Query to " << c->ToString() << std::endl; if(component.Send(&query, &response, 1000)) { std::cout << "\tReceived Response Message!\n\t"; response.Print(); } } } // The above steps can be used to find any component // with a specific service you wish to communicate with. } // Make sure you delete the subsystem map when // you are done with it, otherwise you will have a // memory leak. JAUS::Subsystem::DeleteSubsystemMap(discoveredSubsystems); displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); } if(CxUtils::GetChar() == 27) { break; } CxUtils::SleepMs(1); } // Shutdown your component completely. Any // services added or belonging to the component // will be deleted. component.Shutdown(); return 0; }
int main(int argc, char* argv[]) { if (argc < 3) { std::cout << "Error: Arguments must include IP and Address" << std::endl; return 1; } char* ip_address = argv[1]; char* comp_address = argv[2]; cout << "ip_address: " << ip_address << " comp_address: " << comp_address << std::endl; JAUS::Component component; JAUS::Discovery* discoveryService = nullptr; JAUS::Transport* transportService = nullptr; discoveryService = (JAUS::Discovery*)component.GetService(JAUS::Discovery::Name); discoveryService->SetSubsystemIdentification(JAUS::Subsystem::Vehicle,"Snowbots"); discoveryService->SetNodeIdentification("Main"); discoveryService->SetComponentIdentification("Baseline"); int comp_id = 5000; JAUS::Address componentID(comp_id,1,1); discoveryService->EnableDebugMessages(true); while(component.Initialize(componentID)==false){ std::cout << "Failed to initialize [" << componentID.ToString() << "]" << std::endl; comp_id++; componentID(comp_id,1,1); } std::cout << "Success!" << std::endl; transportService = (JAUS::Transport*) component.GetService(JAUS::Transport::Name); transportService->LoadSettings("services.xml"); const JAUS::Address comp_address_id = component.GetComponentID(); if(!transportService->IsInitialized()) { transportService->Initialize(comp_address_id); } // Create connection to OCP for the JAUS Interoperability Challenge using JUDP. /*transportService->AddNetworkConnection(JAUS::Address(8000, 1, 1), std::string(ip_address), 3794);*/ JAUS::Management* managementService = nullptr; managementService = (JAUS::Management*)component.GetService(JAUS::Management::Name); JAUS::Time::Stamp displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); while(true) { if(managementService->GetStatus() == JAUS::Management::Status::Shutdown) { break; } if(JAUS::Time::GetUtcTimeMs() - displayStatusTimeMs > 500) { std::cout << "==================" << std::endl; managementService->PrintStatus(); discoveryService->PrintStatus(); //std::cout << std::endl; transportService->PrintStatus(); std::cout << std::endl; displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); } CxUtils::SleepMs(1); } component.Shutdown(); return 0; }
//////////////////////////////////////////////////////////////////////////////////// /// /// \brief Entry point of jaus_challenge_2010.cpp /// /// This program demonstrates everything required to complete the JAUS /// Interoperability Challenge for 2010. In this program a simulated robot /// is created which can drive to local waypoints. This program has /// run against the JAUS Validation Tool (JVT) and the OCP of the /// JAUS Interopability Challange during the Autonomous Surface Vehicle /// Competition, passing all requirements. /// /// All you have to do is integrate on your own robot, providing real /// sensor values and generating real control of your bot! /// //////////////////////////////////////////////////////////////////////////////////// int main(int argc, char* argv[]) { JAUS::Component component; //component.AddService(new JAUS::JTCPClient()); // Setting timeout for control to 0 (disables timeout of control). // This is done because the JVT and OCP do not query for the timeout period // and may not send messages to re-acquire/maintain control within the // normal 2 second timeout window. component.AccessControlService()->SetTimeoutPeriod(0); // Add the services we want/need for our component. By // default, the component object already has the Core Service set // (e.g. Discovery, Events, Access Control, Management). // The Discovery service automatically handles finding other JAUS // components, so you do not need to generate any Query Messages // (e.g. Query Identification) yourself, because Discovery does it // for you. // In this test program, we are making a simulated robot, which // requires the following mobility services. JAUS::GlobalPoseSensor* globalPoseSensor = new JAUS::GlobalPoseSensor(); globalPoseSensor->SetSensorUpdateRate(25); // Updates at 25 Hz (used for periodic events). component.AddService(globalPoseSensor); JAUS::LocalPoseSensor* localPoseSensor = new JAUS::LocalPoseSensor(); localPoseSensor->SetSensorUpdateRate(25); // Updates at 25 Hz (used for periodic events). component.AddService(localPoseSensor); JAUS::VelocityStateSensor* velocityStateSensor = new JAUS::VelocityStateSensor(); velocityStateSensor->SetSensorUpdateRate(25); // Updates at 25 Hz (used for periodic events). component.AddService(velocityStateSensor); // Need a List Manager Service for Local Waypoint List Driver. You can // ignore this service for the Underwater Vehicle Competition. component.AddService(new JAUS::ListManager()); JAUS::LocalWaypointListDriver* localWaypointListDriver = new JAUS::LocalWaypointListDriver(); component.AddService(localWaypointListDriver); // Set Vehicle Identification Information. Available options for the // parameters are JAUS::Subsystem::OCU and JAUS::Subsystem::Vehicle. Since // we are not an OCU, we use Vehicle. Finally, the string represents the type // of robot you have (e.g. Segway RMP, XUV). This is different than the // name of your vehicle, but you can use that if you want. Your subsystem number // is your unique identifier. component.DiscoveryService()->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Simulation"); // Initialize component with a given ID. Remember, you must // add all your services before you initialize the component, because you // cannot add them after initialization. All services will be deleted by // the component on program exit. if(component.Initialize(JAUS::Address(gSubsystemID, gNodeID, gComponentID)) == false) { std::cout << "Failed to Initialize Component.\n"; return 0; } // Set state to Standby since we have initialized OK. component.ManagementService()->SetStatus(JAUS::Management::Status::Standby); // Now that we are initialized, lets create a fixed connection to the // JVT for testing. Since the JVT and the OCP of the JAUS // Interoperability Challenge do not support multicast for Discovery, you // must make a direct connection to them. JAUS::JTCPClient* transportService = NULL; transportService = (JAUS::JTCPClient*)component.TransportService(); /* // Create connection to JAUS Validation Tool (JVT) transportService->AddConnection("24.42.140.203", JAUS::Address(90, 1, 1)); // Create connection to OCP for the JAUS Interoperability Challenge. transportService->AddConnection("192.168.1.42", JAUS::Address(42, 1, 1)); */ // Set an initial global pose. JAUS::GlobalPose globalPose; globalPose.SetLatitude(32.703356); globalPose.SetLongitude(-117.253919); globalPose.SetAltitude(300); globalPose.SetPositionRMS(0.0); globalPose.SetRoll(0.0); globalPose.SetPitch(0.0); globalPose.SetYaw(CxUtils::CxToRadians(45)); globalPose.SetAttitudeRMS(0.0); globalPose.SetTimeStamp(JAUS::Time::GetUtcTime()); // Save the data to the service. globalPoseSensor->SetGlobalPose(globalPose); // You can set local pose data using global pose // as it is automatically converted to local pose data for you. // How convenient! localPoseSensor->SetLocalPose(globalPose); // Set an initial velocity state. JAUS::VelocityState velocityState; velocityState.SetVelocityX(0.0); velocityState.SetYawRate(0.0); velocityState.SetVelocityRMS(0.0); velocityState.SetTimeStamp(JAUS::Time::GetUtcTime()); // Save the data to the service. velocityStateSensor->SetVelocityState(velocityState); JAUS::Time::Stamp printTimeMs = 0; double timeDiff = 0.33; // Used for simulation of robot physics. while(CxUtils::GetChar() != 27 && component.ManagementService()->GetStatus() != JAUS::Management::Status::Shutdown) { double thrust = 25; double steering = 0; // Simulate some simple physics based on // desired thrust and steering // to reach local waypoints. double linearDistance = timeDiff*thrust*0.025; double linearVelocity = linearDistance/timeDiff; double rotation = timeDiff*steering*CxUtils::CxToRadians(1); double rotationRate = rotation/timeDiff; double yaw = globalPose.GetYaw(); JAUS::Point3D localPosChange(linearDistance, 0, 0); localPosChange = localPosChange.Rotate(yaw, JAUS::Point3D::Z); CxUtils::Wgs worldPositionWgs(globalPose.GetLatitude(), globalPose.GetLongitude(), globalPose.GetAltitude()); CxUtils::Utm worldPositionUtm(worldPositionWgs); worldPositionUtm.mNorthing += localPosChange.mX; worldPositionUtm.mEasting += localPosChange.mY; yaw = CxUtils::Orientation::AddToAngle(yaw, rotation); // Convert to WGS worldPositionWgs << worldPositionUtm; // Save newly calculated position and orientation. globalPose.SetYaw(yaw); globalPose.SetLatitude(worldPositionWgs.mLatitude); globalPose.SetLongitude(worldPositionWgs.mLongitude); globalPose.SetAltitude(worldPositionWgs.mElevation); globalPose.SetTimeStamp(JAUS::Time(true)); velocityState.SetVelocityX(linearVelocity); velocityState.SetYawRate(rotationRate); velocityState.SetTimeStamp(JAUS::Time(true)); // Save global pose information. globalPoseSensor->SetGlobalPose(globalPose); // The Local Pose Sensor service supports converting // global pose data to local pose data. It automatically // calculates offsets and relative changes for you. localPoseSensor->SetLocalPose(globalPose); // Save velocity state information. velocityStateSensor->SetVelocityState(velocityState); if(JAUS::Time::GetUtcTimeMs() - printTimeMs > 500) { // Print status of services. std::cout << "\n======================================================\n"; component.AccessControlService()->PrintStatus(); std::cout << std::endl; component.ManagementService()->PrintStatus(); std::cout << std::endl; globalPoseSensor->PrintStatus(); std::cout << std::endl; localPoseSensor->PrintStatus(); std::cout << std::endl; velocityStateSensor->PrintStatus(); std::cout << std::endl; localWaypointListDriver->PrintStatus(); printTimeMs = JAUS::Time::GetUtcTimeMs(); } // Exit if escape key pressed. if(CxUtils::GetChar() == 27) { break; } CxUtils::SleepMs((unsigned int)(timeDiff*1000.0)); } // Don't delete services, they are // deleted by the Component class. // Shutdown any components associated with our subsystem. component.Shutdown(); return 0; }
/* * Main program entry point. */ int main(int argc, char* argv[]) { std::cout << "Initializing ROS component... "; // ROS initialization stuff ros::init(argc, argv, "jaus"); ros::NodeHandle n; // subscriptions subscriberCmdVel = n.subscribe(ROSTopicCmdVelocity, 1000, ROSVelocityCallback); subscriberOdom = n.subscribe(ROSTopicOdometry, 1000, ROSOdometryCallback); // publications publisherSetLocalPose = n.advertise<nav_msgs::Odometry>(ROSTopicSetLocalPose, 1000); // -- we just use std_msgs::String for waypoints for now, until we can all agree on // some custom ROS messages for setting local pose, and setting waypoints... publisherSetWaypoints = n.advertise<std_msgs::String>(ROSTopicSetWaypoints, 1000); std::cout << "OK" << std::endl; // JAUS initialization stuff JAUS::Component component; JAUS::Subsystem* judgeSubsystem; std::cout << "Initializing JAUS component... "; if (InitializeJAUSComponent(&component) < 0) { std::cout << "Failed!" << std::endl; return -1; } std::cout << "OK" << std::endl; std::cout << "Searching for Judges' COP... "; if ((judgeSubsystem = DiscoverJudgeSubsystem(&component)) == NULL) { std::cout << "Failed!" << std::endl; return -1; } std::cout << "Success (Identification: " << judgeSubsystem->mIdentification << ")" << std::endl; /* * Set initial states for services */ // Set an initial local pose JAUS::LocalPose localPose; localPose.SetX(0.0); localPose.SetY(0.0); localPose.SetTimeStamp(JAUS::Time::GetUtcTime()); localPoseSensor->SetLocalPose(localPose); // Set an initial velocity state JAUS::VelocityState velocityState; velocityState.SetVelocityX(0.0); velocityState.SetYawRate(0.0); velocityState.SetTimeStamp(JAUS::Time::GetUtcTime()); velocityStateSensor->SetVelocityState(velocityState); // now loop forever std::cout << "READY, We are now listening to ROS topics and updating current JAUS state..." << std::endl; JAUS::Management* managementService = (JAUS::Management*)component.GetService(JAUS::Management::Name); JAUS::Time::Stamp displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); while (true) // (managementService->GetStatus() != JAUS::Management::Status::Shutdown) { if (CxUtils::GetChar() == 'q') break; if (JAUS::Time::GetUtcTimeMs() - displayStatusTimeMs > 2000) { managementService->PrintStatus(); // display a status message displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); } ros::spinOnce(); // process ROS callbacks CxUtils::SleepMs(10); // save some CPU time } component.Shutdown(); // this will take care of cleanup return 0; }
int main(int argc, char* argv[]) { ros::init(argc, argv, "jaus"); ros::NodeHandle self; JAUS::Component component; JAUS::Discovery* discoveryService = nullptr; JAUS::Transport* transportService = nullptr; localPoseSensor = new JAUS::LocalPoseSensor(); velocityStateSensor = new JAUS::VelocityStateSensor(); LocalWaypointDriver* localWaypointDriver = new LocalWaypointDriver(self.advertise<sb_msgs::MoveCommand>(MOVE_COMMAND_TOPIC,100),localPoseSensor,nullptr); LocalWaypointListDriver* localWaypointListDriver = new LocalWaypointListDriver(localWaypointDriver); localWaypointDriver->setListDriver(localWaypointListDriver); { JAUS::ReportLocalPose localPose; localPose.SetX(1.0); localPose.SetY(1.0); localPose.SetYaw(0.1); localPoseSensor->SetLocalPose(localPose); } { JAUS::ReportVelocityState state; state.SetVelocityX(2); state.SetYawRate(0.1); velocityStateSensor->SetVelocityState(state); } self.subscribe("robot_state",100,onRobotStateChange); self.subscribe("GPS_COORD",100,onNewWaypoint); component.AddService(localPoseSensor); component.AddService(localWaypointDriver); component.AddService(velocityStateSensor); discoveryService = (JAUS::Discovery*)component.GetService(JAUS::Discovery::Name); discoveryService->SetSubsystemIdentification(JAUS::Subsystem::Vehicle,"Snowbots"); discoveryService->SetNodeIdentification("Main"); discoveryService->SetComponentIdentification("Baseline"); int comp_id = 5000; JAUS::Address componentID(comp_id,1,1); discoveryService->EnableDebugMessages(true); while(component.Initialize(componentID)==false) { std::cout << "Failed to initialize [" << componentID.ToString() << "]" << std::endl; comp_id++; componentID(comp_id,1,1); } std::cout << "Success!" << std::endl; transportService = (JAUS::Transport*) component.GetService(JAUS::Transport::Name); transportService->LoadSettings("services.xml"); const JAUS::Address comp_address_id = component.GetComponentID(); if(!transportService->IsInitialized()) { transportService->Initialize(comp_address_id); } JAUS::Management* managementService = nullptr; managementService = (JAUS::Management*)component.GetService(JAUS::Management::Name); JAUS::Time::Stamp displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); ros::Rate loop_rate(10); while(ros::ok()) { if(managementService->GetStatus() == JAUS::Management::Status::Shutdown) { break; } if(JAUS::Time::GetUtcTimeMs() - displayStatusTimeMs > 500) { std::cout << "==================" << std::endl; managementService->PrintStatus(); discoveryService->PrintStatus(); transportService->PrintStatus(); std::cout << std::endl; displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); } ros::spinOnce(); loop_rate.sleep(); } component.Shutdown(); return 0; }
//////////////////////////////////////////////////////////////////////////////////// /// /// \brief Simple simulation of a component with a Local Pose Sensor using /// JTCP. /// /// \param[in] subsystemID Subsystem ID number. /// \param[in] nodeID Node ID number. /// //////////////////////////////////////////////////////////////////////////////////// int RunServer(JAUS::UShort subsystemID, JAUS::Byte nodeID) { JAUS::Component component; JAUS::Address id(subsystemID, nodeID, 1); if(id.IsValid() == false) { std::cout << "Invalid JAUS ID: " << id.ToString() << std::endl; } // Setup identification data. component.DiscoveryService()->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Local Pose JTCP Tutorial"); // Change the transport service to use JTCP component.AddService(new JAUS::JTCPClient()); // Add any other services. In this case local pose. JAUS::LocalPoseSensor* localPoseSensor = new JAUS::LocalPoseSensor(); component.AddService(localPoseSensor); // Initialize component and communication. if(component.Initialize(id) == false) { std::cout << "Failed to initialize JAUS component with ID: " << id.ToString() << std::endl; return 0; } // Configure local pose information. JAUS::LocalPose localPose; localPose.SetX(0); localPose.SetY(0); localPose.SetZ(0); localPose.SetYaw(0); localPose.SetTimeStamp(JAUS::Time(true)); JAUS::Time printTime(true); while(CxUtils::GetChar() != 27 && component.ManagementService()->GetStatus() != JAUS::Management::Status::Shutdown) { // Fake a position change. localPose.SetY(localPose.GetY() + .01); localPose.SetTimeStamp(JAUS::Time(true)); // Save the data. Anyone who is subscribing will be // notified of the change automatically. localPoseSensor->SetLocalPose(localPose); // Only print to screen every now and then. if(JAUS::Time(true) - printTime > .5) { std::cout << "=======================================================\n"; localPoseSensor->PrintStatus(); component.EventsService()->PrintStatus(); printTime.SetCurrentTime(); } // Don't overload the CPU CxUtils::SleepMs(1); } // Do shutdown component.Shutdown(); return 0; }
//////////////////////////////////////////////////////////////////////////////////// /// /// \brief Simple simulation of a component that subscribes to any Local /// Pose Sensor data on network using JTCP. /// /// \param[in] subsystemID Subsystem ID number. /// \param[in] nodeID Node ID number. /// //////////////////////////////////////////////////////////////////////////////////// int RunClient(JAUS::UShort subsystemID, JAUS::Byte nodeID) { JAUS::Component component; JAUS::Address id(subsystemID, nodeID, 1); if(id.IsValid() == false) { std::cout << "Invalid JAUS ID: " << id.ToString() << std::endl; } // Setup identification data. component.DiscoveryService()->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Subscriber JTCP Tutorial"); // Change the transport service to use JTCP component.AddService(new JAUS::JTCPClient()); //((JAUS::JTCPClient*)component.TransportService())->AddConnection("10.171.190.61", JAUS::Address(subsystemID, 1, 1)); //((JAUS::JTCPClient*)component.TransportService())->AddConnection("127.0.0.1", JAUS::Address(subsystemID, 1, 1)); // Add support for reading Local Pose messages without having to // add a custom service. component.TransportService()->AddMessageTemplate(new JAUS::ReportLocalPose()); component.TransportService()->AddMessageTemplate(new JAUS::QueryLocalPose()); // Add a callback to get messages when they arrive. LocalPoseCallback localPoseCallback; component.TransportService()->RegisterCallback(JAUS::REPORT_LOCAL_POSE, &localPoseCallback); // Initialize component and communication. if(component.Initialize(id) == false) { std::cout << "Failed to initialize JAUS component with ID: " << id.ToString() << std::endl; return 0; } JAUS::Time printTime(true); while(CxUtils::GetChar() != 27 && component.ManagementService()->GetStatus() != JAUS::Management::Status::Shutdown) { // Look for any subsystems. JAUS::Subsystem::Map subsystems; JAUS::Subsystem::Map::iterator subsystem; component.DiscoveryService()->GetSubsystems(subsystems); for(subsystem = subsystems.begin(); subsystem != subsystems.end(); subsystem++) { // Look for local pose sensors to subscribe to. JAUS::Address::List sensors = subsystem->second->GetComponentsWithService(JAUS::LocalPoseSensor::Name); if(sensors.size() > 0) { JAUS::Address::List::iterator id; for(id = sensors.begin(); id != sensors.end(); id++) { if(*id != component.GetComponentID() && component.EventsService()->HaveSubscription(JAUS::REPORT_LOCAL_POSE, *id) == false) { std::cout << "Found new Local Pose Sensors on " << id->ToString() << std::endl; JAUS::QueryLocalPose queryLocalPose; // Request all fields. queryLocalPose.SetPresenceVector(queryLocalPose.GetPresenceVectorMask()); component.EventsService()->RequestPeriodicEvent(*id, &queryLocalPose, 5); } } } } JAUS::Subsystem::DeleteSubsystemMap(subsystems); // Only print to screen every now and then. if(JAUS::Time(true) - printTime > .5) { //std::cout << "=======================================================\n"; //component.EventsService()->PrintStatus(); //printTime.SetCurrentTime(); } // Don't overload the CPU CxUtils::SleepMs(1); } // Do shutdown component.Shutdown(); return 0; }
int main(int argc, char* argv[]) { // Create a component. By default a component // has all the services of the Core Service set: // - Transport (JUDP) // - Control // - Discovery // - Events // - Liveness // - Time // - Management JAUS::Component component; // The Transport service is used to send // and receive messages to other JAUS components. All // other services use the Transport service. The // default transport type for JAUS++ is UDP communication // using the JUDP class. // The Discovery service is used to find // other JAUS components and services on the // network using the Transport service. In JAUS++ // Discovery will automatically find these components, // make connections to them, and keep track of what // services they have. // The first thing we must do for a component is // configure its identification. This is done by // using the Discovery Service. Get a pointer // to the service: JAUS::Discovery* discoveryService = NULL; discoveryService = (JAUS::Discovery*)component.GetService(JAUS::Discovery::Name); // Alternative method: // discoveryService = component.DiscoveryService(); // Set the type of subsystem the component is for. Subsystem // types available are currently Vehicle, or OCU. The string // name "Robot" represents the type or category of platform. // You must set the subsystem identification before you will be // able to initialize your component. discoveryService->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Robot"); // You can also set identification information for the component // and node that it is on. discoveryService->SetNodeIdentification("Primary Computer"); discoveryService->SetComponentIdentification("Baseline"); // Now that we have setup our identification information we // can initialize our component. First, create the // component ID. JAUS::Address componentID(1000, 1, 1); // Initialize! std::cout << "Initializing component..."; if(component.Initialize(componentID) == false) { std::cout << "Failed to initialize component [" << componentID.ToString() << "]\n"; return 0; } std::cout << "Success!\n"; // Now go into your main computer loop until the // component has been told to shutdown. JAUS::Time::Stamp displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); while(true) { // Let's check the "state" of our component. This // is done using the Management service. // A component can be in the following states: // - Initialized // - Ready // - Standby // - Shutdown // - Failure // - Emergency JAUS::Management* managementService = NULL; managementService = (JAUS::Management*)component.GetService(JAUS::Management::Name); // Alternative method: //managementService = component.ManagementService(); if(managementService->GetStatus() == JAUS::Management::Status::Shutdown) { // Exit program. break; } if(JAUS::Time::GetUtcTimeMs() - displayStatusTimeMs > 500) { std::cout << "======================================================\n"; // Print status of the service. managementService->PrintStatus(); std::cout << std::endl; displayStatusTimeMs = JAUS::Time::GetUtcTimeMs(); } if(CxUtils::GetChar() == 27) { break; } CxUtils::SleepMs(1); } // Shutdown your component completely. Any // services added or belonging to the component // will be deleted. component.Shutdown(); return 0; }
int main(int argc, char* argv[]) { JAUS::Component component; // Testing prioritized message data component.TransportService()->AddPriorityMessage(JAUS::REPORT_GLOBAL_POSE); // Add the services our component needs. This has to // be done before component initialization. // Second, you cannot add the same service twice. JAUS::GlobalPoseSensor* globalPoseSensor = new JAUS::GlobalPoseSensor(); JAUS::LocalPoseSensor* localPoseSensor = new JAUS::LocalPoseSensor(); JAUS::VelocityStateSensor* velocityStateSensor = new JAUS::VelocityStateSensor(); JAUS::AccelerationStateSensor* accelerationStateSensor = new JAUS::AccelerationStateSensor(); FakeMicrocontroller* mcu = new FakeMicrocontroller(); // Add to our component. component.AddService(globalPoseSensor); component.AddService(localPoseSensor); component.AddService(velocityStateSensor); component.AddService(accelerationStateSensor); component.AddService(mcu); // Tell our sensor services what component we want them // to sync there data with (i.e. who to subscribe to. JAUS::Address syncID(gSubsystemID, gSyncNodeID, gSyncComponentID); globalPoseSensor->SynchronizeToComponent(syncID); localPoseSensor->SynchronizeToComponent(syncID); velocityStateSensor->SynchronizeToComponent(syncID); accelerationStateSensor->SynchronizeToComponent(syncID); mcu->SynchronizeToComponent(syncID); // Example of how to use events callback EventCallback callback; component.EventsService()->RegisterCallback(&callback); // Try load settings files. // These files determine your UDP network // settings, what Services to turn on/off // or any Service specific settings. See the // example file for settings file format. if(component.LoadSettings("settings/services.xml") == false) { // Working directory probably not set (or not running from output directory), so // use default values. component.DiscoveryService()->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Simulation"); // Set optional identification info for this component. component.DiscoveryService()->SetComponentIdentification("Synchronize"); } // Initialize component with component given ID. if(component.Initialize(JAUS::Address(gSubsystemID, gNodeID, gComponentID)) == false) { std::cout << "Failed to Initialize Component.\n"; return 0; } bool foundSyncID = false; CxUtils::Time::Stamp printTimeMs = 0; while(CxUtils::GetChar() != 27) { // This is a short example code to dynamically lookup a // component ID for the service you want to synchronize on your // subsystem (like in your AI program if the services may run on different computers). #if 0 // Enable synchronization for each sensor. if(globalPoseSensor->IsSynchronizing() == false) { // Find sensor to sync to. JAUS::Address::List idList = component.DiscoveryService()->GetSubsystem(gSubsystemID)->GetComponentsWithService(JAUS::GlobalPoseSensor::Name); if(idList.size() > 0) { globalPoseSensor->SynchronizeToComponent(idList.front()); } } #endif if(CxUtils::Time::GetUtcTimeMs() - printTimeMs > 500) { // Print status of services. std::cout << "\n======================================================\n"; globalPoseSensor->PrintStatus(); std::cout << std::endl; localPoseSensor->PrintStatus(); std::cout << std::endl; velocityStateSensor->PrintStatus(); std::cout << std::endl; accelerationStateSensor->PrintStatus(); std::cout << std::endl; mcu->PrintStatus(); std::cout << std::endl; printTimeMs = CxUtils::Time::GetUtcTimeMs(); } CxUtils::SleepMs(1); } // Don't delete services, they are // deleted by the Component class. // Shutdown any components associated with our subsystem. component.Shutdown(); return 0; }
int main(int argc, char **argv) { SICK::Sick laser; MessageCallback cb; JAUS::Component component; // Add the services we want our component to have // beyond the core set. JAUS::RangeSensor* rangeSensor = new JAUS::RangeSensor(); // Setup the configuration of a range sensing device. JAUS::RangeSensorConfig rangeSensorConfig; rangeSensorConfig.mID = 0; rangeSensorConfig.mName = "LIDAR"; rangeSensorConfig.mMinRange = 0.0; rangeSensorConfig.mMaxRange = 9.0; // 9 meter range. rangeSensorConfig.mUnitType = JAUS::RangeSensorConfig::MM; // Range values are in mm. rangeSensorConfig.mScanAngle = CxUtils::CxToRadians(180); // [-90, 90] degrees. rangeSensorConfig.mAngleIncrement = CxUtils::CxToRadians(0.5); // 0.5 degree increment. rangeSensor->AddRangeDevice(rangeSensorConfig); // Add to component. component.AddService(rangeSensor); cb.mpRangeSensor = rangeSensor; // Register a callback to process the received // messages. laser.RegisterCallback(&cb); cout << "Connecting to SICK..."; laser.InitializeWithDefaults("/dev/ttyUSB0", 38400); cout << "Success!\n"; // In this example, we are simulating a component on part of a simulated // robot. component.DiscoveryService()->SetSubsystemIdentification(JAUS::Subsystem::Vehicle, "Simulation"); // Initialize component component with component given ID. if(component.InitializeWithUniqueID(2000) == false) { std::cout << "Failed to Initialize JAUS Component.\n"; return 0; } std::cout << "JAUS Component [" << component.GetComponentID().ToString() << "] Initialized!\n"; while ( true ) { if (CxUtils::GetChar() == 27) { break; } CxUtils::SleepMs(1); } // Make sure to shutdown the laser. laser.Shutdown(); component.Shutdown(); return 0; }