Exemplo n.º 1
0
        public void Main(string arg)
        {
            // If setupcomplete is false, run Setup method.
            if (setupcomplete == false)
            {
                Echo("Running setup.");
                Setup();
            }
            else
            {
                string tag1 = "Traffic Control";
                IGC.RegisterBroadcastListener(tag1);

                // Create a list for broadcast listeners.
                List <IMyBroadcastListener> listeners = new List <IMyBroadcastListener>();

                // The method argument below is the list we wish IGC to populate with all Listeners we've made.
                // Our Listener we created will be at index 0, because we only have that one Listener so far.
                IGC.GetBroadcastListeners(listeners);

                // We don't want to try receiving messages if we don't have any.
                // So we access the HasPendingMessage property to check if our Listener has any unread messages.
                if (listeners[0].HasPendingMessage)
                {
                    MyIGCMessage message = new MyIGCMessage();
                    message = listeners[0].AcceptMessage();
                    string messagetext = message.Data.ToString();

                    if (messagetext.Contains("Requesting Docking Clearance"))
                    {
                        IMyShipConnector dockingPort = GridTerminalSystem.GetBlockWithName("Docking Port 1") as IMyShipConnector;

                        string messageOut = "Clearance denied.";

                        if (dockingPort != null)
                        {
                            messageOut = $"Clearance granted. Proceed to Docking Port #{dockingPort.EntityId} at {dockingPort.Position.ToString()}";
                        }

                        IGC.SendBroadcastMessage(tag1, messageOut, TransmissionDistance.TransmissionDistanceMax);
                    }
                }
            }
        }
        public Program()
        {
            Runtime.UpdateFrequency = UpdateFrequency.Update10;

            antenna = GridTerminalSystem.GetBlockWithName("Antenna") as IMyRadioAntenna;

            up1 = GridTerminalSystem.GetBlockWithName("up1") as IMyPistonBase;
            up2 = GridTerminalSystem.GetBlockWithName("up2") as IMyPistonBase;

            out1 = GridTerminalSystem.GetBlockWithName("out1") as IMyPistonBase;
            out2 = GridTerminalSystem.GetBlockWithName("out2") as IMyPistonBase;

            antenna.AttachedProgrammableBlock = Me.EntityId;

            IGC.RegisterBroadcastListener(Channel);
            IGC.GetBroadcastListeners(listeners);

            listeners[0].SetMessageCallback("door");
        }
Exemplo n.º 3
0
 public void Main(string arg)
 {
     if (setupcomplete == false)
     {
         Echo("Running setup.");
         Setup();
     }
     else if (setupcomplete == true && requestSent == false)
     {
         string messageOut = "Requesting Docking Clearance";
         IGC.SendBroadcastMessage(tag1, messageOut, TransmissionDistance.TransmissionDistanceMax);
         Echo("Requesting Clearance");
         requestSent = true;
     }
     else if (requestSent == true && clearanceReceived == false)
     {
         // Now that we've requested clearance, listen for a clearance response.
         IGC.RegisterBroadcastListener(tag1);
         List <IMyBroadcastListener> listeners = new List <IMyBroadcastListener>();
         IGC.GetBroadcastListeners(listeners);
         Echo("checking messages");
         if (listeners[0].HasPendingMessage)
         {
             Echo("message received");
             clearance         = listeners[0].AcceptMessage();
             clearanceReceived = true;
         }
         else
         {
             requestSent = false;
         }
     }
     else if (clearanceReceived == true)
     {
         Echo(clearance.Data.ToString());
     }
 }
Exemplo n.º 4
0
        public void SearchForILSMessages()
        {
            List <MyIni> ActiveILSTransmitters    = new List <MyIni>();
            List <IMyBroadcastListener> listeners = new List <IMyBroadcastListener>();

            IGC.GetBroadcastListeners(listeners);

            // Parse any messages from active listeners on the selected channel.
            listeners.ForEach(listener => {
                if (!listener.IsActive)
                {
                    return;
                }
                if (listener.Tag != ILSAntennaChannel)
                {
                    return;
                }
                if (listener.HasPendingMessage)
                {
                    ActiveILSTransmitters.Add(
                        ParseBroadcastedMessage(listener.AcceptMessage())
                        );
                }
            });

            double shortestDistance       = 99999;
            MyIni  selectedILSTransmitter = new MyIni();

            // Select the transmitter closest to the ship.
            ActiveILSTransmitters.ForEach(transmitter =>
            {
                string _GPS     = transmitter.Get("TouchdownZone", "GPSA").ToString();
                double distance = CalculateShipDistanceFromGPSString(_GPS);

                if (distance < shortestDistance)
                {
                    selectedILSTransmitter = transmitter;
                }
            });

            if (ActiveILSTransmitters.Count == 0)
            {
                Echo("Not able to connect to any ILS transmitter signals.");
                return;
            }


            // Select appropriate runway from the chosen transmitter.
            string GPSA     = selectedILSTransmitter.Get("TouchdownZone", "GPSA").ToString();
            string GPSB     = selectedILSTransmitter.Get("TouchdownZone", "GPSB").ToString();
            string HeadingA = selectedILSTransmitter.Get("Runway", "HeadingA").ToString();
            string HeadingB = selectedILSTransmitter.Get("Runway", "HeadingB").ToString();

            double TouchdownZoneADistance = CalculateShipDistanceFromGPSString(GPSA);
            double TouchdownZoneBDistance = CalculateShipDistanceFromGPSString(GPSB);

            string ActingLocalizer, ActingGlideSlope, ActiveHeading;

            if (TouchdownZoneADistance < TouchdownZoneBDistance)
            {
                ActingGlideSlope = GPSA;
                ActingLocalizer  = GPSB;
                ActiveHeading    = HeadingA;
            }
            else
            {
                ActingGlideSlope = GPSB;
                ActingLocalizer  = GPSA;
                ActiveHeading    = HeadingB;
            }

            config.Set("TouchdownZone", "GPSA", GPSA);
            config.Set("TouchdownZone", "GPSB", GPSB);
            config.Set("Runway", "HeadingA", HeadingA);
            config.Set("Runway", "HeadingB", HeadingB);

            config.Set("LocalizerData", "RWYHDG", ActiveHeading);
            config.Set("LocalizerData", "GPS", ActingLocalizer);
            config.Set("GlideSlopeData", "GPS", ActingGlideSlope);

            SaveStorage();


            ShipShouldListenForILS = false;
            ShipHasSelectedILS     = true;
        }
Exemplo n.º 5
0
        public void Main(string argument, UpdateType updateSource)
        {
            Runtime.UpdateFrequency = UpdateFrequency.Update100 | UpdateFrequency.Update10;
            IMyTextPanel     textPanel     = (IMyTextPanel)GridTerminalSystem.GetBlockWithName(lcdName);
            IMyRemoteControl remoteControl = (IMyRemoteControl)GridTerminalSystem.GetBlockWithName(remoteControllerName);

            // If setupcomplete is false, run Setup method.
            if (!setupcomplete)
            {
                Echo("Running setup.");
                Setup();
            }
            else
            {
                // To create a listener, we use IGC to access the relevant method.
                // We pass the same tag argument we used for our message.
                IGC.RegisterBroadcastListener(broadcastChannel);


                // Create a list for broadcast listeners.
                List <IMyBroadcastListener> listeners = new List <IMyBroadcastListener>();

                // The method argument below is the list we wish IGC to populate with all Listeners we've made.
                // Our Listener will be at index 0, since it's the only one we've made so far.
                IGC.GetBroadcastListeners(listeners);

                if (listeners[0].HasPendingMessage)
                {
                    // Let's create a variable for our new message.
                    // Remember, messages have the type MyIGCMessage.
                    MyIGCMessage message = new MyIGCMessage();

                    // Time to get our message from our Listener (at index 0 of our Listener list).
                    // We do this with the following method:
                    message = listeners[0].AcceptMessage();


                    // A message is a struct of 3 variables. To read the actual data,
                    // we access the Data field, convert it to type string (unboxing),
                    // and store it in the variable messagetext.
                    string messagetext = message.Data.ToString();



                    // We can also access the tag that the message was sent with.
                    string messagetag = message.Tag;

                    //Here we store the "address" to the Programmable Block (our friend's) that sent the message.
                    long sender = message.Source;

                    //Do something with the information!
                    Echo("Message received with tag" + messagetag + "\n\r");
                    Echo("from address " + sender.ToString() + ": \n\r");
                    Echo(messagetext);



                    allmessage += $"\n new message \n {messagetext}\n{messagetext.Split(':')[2]}";
                    textPanel.WriteText(allmessage);

                    List <MyWaypointInfo> myWaypoints = new List <MyWaypointInfo>();

                    string gpsname = messagetext.Split(':')[1];
                    double x       = 0;
                    double y       = 0;
                    double z       = 0;
                    try
                    {
                        x = Convert.ToDouble(messagetext.Split(':')[2]);
                        y = Convert.ToDouble(messagetext.Split(':')[3]);
                        z = Convert.ToDouble(messagetext.Split(':')[4]);
                    }
                    catch (Exception e)
                    {
                        Echo(e.Message);
                    }



                    Echo(messagetext.Split('1')[0]);

                    myWaypoints.Add(new MyWaypointInfo(gpsname, x, y, z));

                    remoteControl.ClearWaypoints();

                    remoteControl.AddWaypoint(myWaypoints[0]);

                    remoteControl.SetCollisionAvoidance(true);

                    remoteControl.SetAutoPilotEnabled(true);
                }
            }

            int textlength = textPanel.GetText().Length;

            if (textlength > 100)
            {
                allmessage = "";
            }
        }
Exemplo n.º 6
0
        public void Main(string argument, UpdateType updateSource)
        {
            //screen that you write text into and send
            IMyTextPanel lcdWritingScreen = (IMyTextPanel)GridTerminalSystem.GetBlockWithName(lcdTextSender);

            //screen that recives
            IMyTextPanel lcdRecieverScreen = (IMyTextPanel)GridTerminalSystem.GetBlockWithName(MessageReciverScreen);



            // If setupcomplete is false, run Setup method.
            if (!setupcomplete)
            {
                Echo("Running setup.");
                Setup();
            }
            else
            {
                // Create our message. We first make it a string, and then we "box" it as an object type.
                string messageOut = lcdWritingScreen.GetText();

                // Through the IGC variable we issue the broadcast method. IGC is "pre-made",
                // so we don't have to declare it ourselves, just go ahead and use it.
                IGC.SendBroadcastMessage(broadcastChannel, messageOut, TransmissionDistance.TransmissionDistanceMax);

                // To create a listener, we use IGC to access the relevant method.
                // We pass the same tag argument we used for our message.
                IGC.RegisterBroadcastListener(broadcastChannel);

                // Create a list for broadcast listeners.
                List <IMyBroadcastListener> listeners = new List <IMyBroadcastListener>();

                // The method argument below is the list we wish IGC to populate with all Listeners we've made.
                // Our Listener will be at index 0, since it's the only one we've made so far.
                IGC.GetBroadcastListeners(listeners);

                if (listeners[0].HasPendingMessage)
                {
                    // Let's create a variable for our new message.
                    // Remember, messages have the type MyIGCMessage.
                    MyIGCMessage message = new MyIGCMessage();

                    // Time to get our message from our Listener (at index 0 of our Listener list).
                    // We do this with the following method:
                    message = listeners[0].AcceptMessage();


                    // A message is a struct of 3 variables. To read the actual data,
                    // we access the Data field, convert it to type string (unboxing),
                    // and store it in the variable messagetext.
                    string messagetext = message.Data.ToString();

                    // We can also access the tag that the message was sent with.
                    string messagetag = message.Tag;

                    //Here we store the "address" to the Programmable Block (our friend's) that sent the message.
                    long sender = message.Source;

                    //Do something with the information!
                    Echo("Message received with tag" + messagetag + "\n\r");
                    Echo("from address " + sender.ToString() + ": \n\r");
                    Echo(messagetext);



                    allmessage += $"\n new message \n {messagetext}";
                    lcdRecieverScreen.WriteText(allmessage);
                }
            }
        }