示例#1
0
        // return set of devices on a vessel
        // - the list is only valid for a single simulation step
        public static Dictionary <uint, Device> boot(Vessel v)
        {
            // store all devices
            var devices = new Dictionary <uint, Device>();

            // store device being added
            Device dev;

            // loaded vessel
            if (v.loaded)
            {
                foreach (PartModule m in Lib.FindModules <PartModule>(v))
                {
                    switch (m.moduleName)
                    {
                    case "ProcessController":             dev = new ProcessDevice(m as ProcessController);          break;

                    case "Greenhouse":                    dev = new GreenhouseDevice(m as Greenhouse);              break;

                    case "GravityRing":                   dev = new RingDevice(m as GravityRing);                   break;

                    case "Emitter":                       dev = new EmitterDevice(m as Emitter);                    break;

                    case "Harvester":                     dev = new HarvesterDevice(m as Harvester);                break;

                    case "Laboratory":                    dev = new LaboratoryDevice(m as Laboratory);              break;

                    case "Antenna":                       dev = new AntennaDevice(m as Antenna);                    break;

                    case "Experiment":                    dev = new ExperimentDevice(m as Experiment);              break;

                    case "ModuleDeployableSolarPanel":    dev = new PanelDevice(m as ModuleDeployableSolarPanel);   break;

                    case "ModuleGenerator":               dev = new GeneratorDevice(m as ModuleGenerator);          break;

                    case "ModuleResourceConverter":       dev = new ConverterDevice(m as ModuleResourceConverter);  break;

                    case "ModuleKPBSConverter":           dev = new ConverterDevice(m as ModuleResourceConverter);  break;

                    case "FissionReactor":                dev = new ConverterDevice(m as ModuleResourceConverter);  break;

                    case "ModuleResourceHarvester":       dev = new DrillDevice(m as ModuleResourceHarvester);      break;

                    case "ModuleLight":                   dev = new LightDevice(m as ModuleLight);                  break;

                    case "ModuleColoredLensLight":        dev = new LightDevice(m as ModuleLight);                  break;

                    case "ModuleMultiPointSurfaceLight":  dev = new LightDevice(m as ModuleLight);                  break;

                    case "SCANsat":                       dev = new ScannerDevice(m);                               break;

                    case "ModuleSCANresourceScanner":     dev = new ScannerDevice(m);                               break;

                    default: continue;
                    }

                    // add the device
                    // - multiple same-type components in the same part will have the same id, and are ignored
                    if (!devices.ContainsKey(dev.id()))
                    {
                        devices.Add(dev.id(), dev);
                    }
                }
            }
            // unloaded vessel
            else
            {
                // store data required to support multiple modules of same type in a part
                var PD = new Dictionary <string, Lib.module_prefab_data>();

                // for each part
                foreach (ProtoPartSnapshot p in v.protoVessel.protoPartSnapshots)
                {
                    // get part prefab (required for module properties)
                    Part part_prefab = PartLoader.getPartInfoByName(p.partName).partPrefab;

                    // get all module prefabs
                    var module_prefabs = part_prefab.FindModulesImplementing <PartModule>();

                    // clear module indexes
                    PD.Clear();

                    // for each module
                    foreach (ProtoPartModuleSnapshot m in p.modules)
                    {
                        // get the module prefab
                        // if the prefab doesn't contain this module, skip it
                        PartModule module_prefab = Lib.ModulePrefab(module_prefabs, m.moduleName, PD);
                        if (!module_prefab)
                        {
                            continue;
                        }

                        // if the module is disabled, skip it
                        // note: this must be done after ModulePrefab is called, so that indexes are right
                        if (!Lib.Proto.GetBool(m, "isEnabled"))
                        {
                            continue;
                        }

                        // depending on module name
                        switch (m.moduleName)
                        {
                        case "ProcessController":             dev = new ProtoProcessDevice(m, module_prefab as ProcessController, p.flightID);          break;

                        case "Greenhouse":                    dev = new ProtoGreenhouseDevice(m, p.flightID);                                           break;

                        case "GravityRing":                   dev = new ProtoRingDevice(m, p.flightID);                                                 break;

                        case "Emitter":                       dev = new ProtoEmitterDevice(m, p.flightID);                                              break;

                        case "Harvester":                     dev = new ProtoHarvesterDevice(m, module_prefab as Harvester, p.flightID);                break;

                        case "Laboratory":                    dev = new ProtoLaboratoryDevice(m, p.flightID);                                           break;

                        case "Antenna":                       dev = new ProtoAntennaDevice(m, p.flightID);                                              break;

                        case "Experiment":                    dev = new ProtoExperimentDevice(m, module_prefab as Experiment, p.flightID);              break;

                        case "ModuleDeployableSolarPanel":    dev = new ProtoPanelDevice(m, module_prefab as ModuleDeployableSolarPanel, p.flightID);   break;

                        case "ModuleGenerator":               dev = new ProtoGeneratorDevice(m, module_prefab as ModuleGenerator, p.flightID);          break;

                        case "ModuleResourceConverter":       dev = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter, p.flightID);  break;

                        case "ModuleKPBSConverter":           dev = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter, p.flightID);  break;

                        case "FissionReactor":                dev = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter, p.flightID);  break;

                        case "ModuleResourceHarvester":       dev = new ProtoDrillDevice(m, module_prefab as ModuleResourceHarvester, p.flightID);      break;

                        case "ModuleLight":                   dev = new ProtoLightDevice(m, p.flightID);                                                break;

                        case "ModuleColoredLensLight":        dev = new ProtoLightDevice(m, p.flightID);                                                break;

                        case "ModuleMultiPointSurfaceLight":  dev = new ProtoLightDevice(m, p.flightID);                                                break;

                        case "SCANsat":                       dev = new ProtoScannerDevice(m, part_prefab, v, p.flightID);                              break;

                        case "ModuleSCANresourceScanner":     dev = new ProtoScannerDevice(m, part_prefab, v, p.flightID);                              break;

                        default: continue;
                        }

                        // add the device
                        // - multiple same-type components in the same part will have the same id, and are ignored
                        if (!devices.ContainsKey(dev.id()))
                        {
                            devices.Add(dev.id(), dev);
                        }
                    }
                }
            }

            // return all devices found
            return(devices);
        }
示例#2
0
  void boot_devices(Vessel v)
  {
    // store stuff
    string filename;
    Device device;

    // index counters
    int scrubber_i = 0;
    int recycler_i = 0;
    int greenhouse_i = 0;
    int ring_i = 0;
    int emitter_i = 0;
    int light_i = 0;
    int panel_i = 0;
    int generator_i = 0;
    int converter_i = 0;
    int drill_i = 0;

    // loaded vessel
    if (v.loaded)
    {
      foreach(PartModule m in v.FindPartModulesImplementing<PartModule>())
      {
        switch(m.moduleName)
        {
          case "Scrubber":
            filename = Lib.BuildString("scrubber/", scrubber_i++.ToString());
            device = new ScrubberDevice(m as Scrubber);
            break;

          case "Recycler":
            filename = Lib.BuildString("recycler/", recycler_i++.ToString());
            device = new RecyclerDevice(m as Recycler);
            break;

          case "Greenhouse":
            filename = Lib.BuildString("greenhouse/", greenhouse_i++.ToString());
            device = new GreenhouseDevice(m as Greenhouse);
            break;

          case "GravityRing":
            filename = Lib.BuildString("ring/", ring_i++.ToString());
            device = new RingDevice(m as GravityRing);
            break;

          case "Emitter":
            if ((m as Emitter).ec_rate <= double.Epsilon) continue; //< skip non-tweakable emitters
            filename = Lib.BuildString("emitter/", emitter_i++.ToString());
            device = new EmitterDevice(m as Emitter);
            break;

          case "ModuleDeployableSolarPanel":
            filename = Lib.BuildString("panel/", panel_i++.ToString());
            device = new PanelDevice(m as ModuleDeployableSolarPanel);
            break;

          case "ModuleGenerator":
            filename = Lib.BuildString("generator/", generator_i++.ToString());
            device = new GeneratorDevice(m as ModuleGenerator);
            break;

          case "ModuleResourceConverter":
          case "ModuleKPBSConverter":
          case "FissionReactor":
            filename = Lib.BuildString("converter/", converter_i++.ToString());
            device = new ConverterDevice(m as ModuleResourceConverter);
            break;

          case "ModuleResourceHarvester":
            filename = Lib.BuildString("drill/", drill_i++.ToString());
            device = new DrillDevice(m as ModuleResourceHarvester);
            break;

          case "ModuleLight":
          case "ModuleColoredLensLight":
          case "ModuleMultiPointSurfaceLight":
            filename = Lib.BuildString("light/", light_i++.ToString());
            device = new LightDevice(m as ModuleLight);
            break;

          default: continue;
        }

        // add device file
        files.Add(filename, new File(device));
      }
    }
    // unloaded vessel
    else
    {
      foreach(ProtoPartSnapshot p in v.protoVessel.protoPartSnapshots)
      {
        // a part can contain multiple resource converters
        int converter_index = 0;

        // get part prefab
        Part part_prefab = PartLoader.getPartInfoByName(p.partName).partPrefab;

        // for each modules
        foreach(ProtoPartModuleSnapshot m in p.modules)
        {
          // get the module prefab, skip if prefab doesn't contain the module
          PartModule module_prefab = Lib.FindModule(part_prefab, m.moduleName);
          if (!module_prefab) continue;

          // depending on module name
          switch(m.moduleName)
          {
            case "Scrubber":
              filename = Lib.BuildString("scrubber/", scrubber_i++.ToString());
              device = new ProtoScrubberDevice(m);
              break;

            case "Recycler":
              filename = Lib.BuildString("recycler/", recycler_i++.ToString());
              device = new ProtoRecyclerDevice(m);
              break;

            case "Greenhouse":
              filename = Lib.BuildString("greenhouse/", greenhouse_i++.ToString());
              device = new ProtoGreenhouseDevice(m);
              break;

            case "GravityRing":
              filename = Lib.BuildString("ring/", ring_i++.ToString());
              device = new ProtoRingDevice(m);
              break;

            case "Emitter":
              if ((module_prefab as Emitter).ec_rate <= double.Epsilon) continue; //< skip non-tweakable emitters
              filename = Lib.BuildString("emitter/", emitter_i++.ToString());
              device = new ProtoEmitterDevice(m);
              break;

            case "ModuleDeployableSolarPanel":
              filename = Lib.BuildString("panel/", panel_i++.ToString());
              device = new ProtoPanelDevice(m, module_prefab as ModuleDeployableSolarPanel);
              break;

            case "ModuleGenerator":
              filename = Lib.BuildString("generator/", generator_i++.ToString());
              device = new ProtoGeneratorDevice(m, module_prefab as ModuleGenerator);
              break;

            case "ModuleResourceConverter":
            case "ModuleKPBSConverter":
            case "FissionReactor":
              var converter_prefabs = part_prefab.Modules.GetModules<ModuleResourceConverter>();
              if (converter_index >= converter_prefabs.Count) continue;
              module_prefab = converter_prefabs[converter_index++];
              filename = Lib.BuildString("converter/", converter_i++.ToString());
              device = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter);
              break;

            case "ModuleResourceHarvester":
              ProtoPartModuleSnapshot deploy = p.modules.Find(k => k.moduleName == "ModuleAnimationGroup");
              filename = Lib.BuildString("drill/", drill_i++.ToString());
              device = new ProtoDrillDevice(m, module_prefab as ModuleResourceHarvester, deploy);
              break;

            case "ModuleLight":
            case "ModuleColoredLensLight":
            case "ModuleMultiPointSurfaceLight":
              filename = Lib.BuildString("light/", light_i++.ToString());
              device = new ProtoLightDevice(m);
              break;

            default: continue;
          }

          // add device file
          files.Add(filename, new File(device));
        }
      }
    }
  }
示例#3
0
        // return set of devices on a vessel
        // - the list is only valid for a single simulation step
        public static List <Device> GetModuleDevices(Vessel v)
        {
            List <Device> moduleDevices = Cache.VesselObjectsCache <List <Device> >(v, "computer");

            if (moduleDevices != null)
            {
                return(moduleDevices);
            }

            moduleDevices = new List <Device>();

            // store device being added
            Device device;

            // loaded vessel
            if (v.loaded)
            {
                foreach (PartModule m in Lib.FindModules <PartModule>(v))
                {
                    switch (m.moduleName)
                    {
                    case "ProcessController":            device = new ProcessDevice(m as ProcessController);                 break;

                    case "Sickbay":                      device = new SickbayDevice(m as Sickbay);                           break;

                    case "Greenhouse":                   device = new GreenhouseDevice(m as Greenhouse);                     break;

                    case "GravityRing":                  device = new RingDevice(m as GravityRing);                          break;

                    case "Emitter":                      device = new EmitterDevice(m as Emitter);                           break;

                    case "Laboratory":                   device = new LaboratoryDevice(m as Laboratory);                     break;

                    case "Experiment":                   device = new ExperimentDevice(m as Experiment);                     break;

                    case "SolarPanelFixer":                          device = new PanelDevice(m as SolarPanelFixer);                                          break;

                    case "ModuleGenerator":              device = new GeneratorDevice(m as ModuleGenerator);                 break;

                    case "ModuleResourceConverter":      device = new ConverterDevice(m as ModuleResourceConverter);         break;

                    case "ModuleKPBSConverter":          device = new ConverterDevice(m as ModuleResourceConverter);         break;

                    case "FissionReactor":               device = new ConverterDevice(m as ModuleResourceConverter);         break;

                    case "ModuleResourceHarvester":      device = new DrillDevice(m as ModuleResourceHarvester);             break;

                    case "ModuleLight":                  device = new LightDevice(m as ModuleLight);                         break;

                    case "ModuleColoredLensLight":       device = new LightDevice(m as ModuleLight);                         break;

                    case "ModuleMultiPointSurfaceLight": device = new LightDevice(m as ModuleLight);                         break;

                    case "SCANsat":                      device = new ScannerDevice(m);                                      break;

                    case "ModuleSCANresourceScanner":    device = new ScannerDevice(m);                                      break;

                    case "ModuleRTAntenna":
                    case "ModuleDataTransmitter":        device = new AntennaDevice(m, m.moduleName);                              break;

                    case "ModuleRTAntennaPassive":       device = new AntennaDevice(m, "ModuleRTAntenna"); break;

                    default: continue;
                    }

                    // add the device
                    moduleDevices.Add(device);
                }
            }
            // unloaded vessel
            else
            {
                // store data required to support multiple modules of same type in a part
                var PD = new Dictionary <string, Lib.Module_prefab_data>();

                // for each part
                foreach (ProtoPartSnapshot p in v.protoVessel.protoPartSnapshots)
                {
                    // get part prefab (required for module properties)
                    Part part_prefab = PartLoader.getPartInfoByName(p.partName).partPrefab;

                    // get all module prefabs
                    var module_prefabs = part_prefab.FindModulesImplementing <PartModule>();

                    // clear module indexes
                    PD.Clear();

                    // for each module
                    foreach (ProtoPartModuleSnapshot m in p.modules)
                    {
                        // get the module prefab
                        // if the prefab doesn't contain this module, skip it
                        PartModule module_prefab = Lib.ModulePrefab(module_prefabs, m.moduleName, PD);
                        if (!module_prefab)
                        {
                            continue;
                        }

                        // if the module is disabled, skip it
                        // note: this must be done after ModulePrefab is called, so that indexes are right
                        if (!Lib.Proto.GetBool(m, "isEnabled"))
                        {
                            continue;
                        }

                        // depending on module name
                        switch (m.moduleName)
                        {
                        case "ProcessController":            device = new ProtoProcessDevice(module_prefab as ProcessController, p, m);        break;

                        case "Sickbay":                      device = new ProtoSickbayDevice(module_prefab as Sickbay, p, m);                  break;

                        case "Greenhouse":                   device = new ProtoGreenhouseDevice(module_prefab as Greenhouse, p, m);            break;

                        case "GravityRing":                  device = new ProtoRingDevice(module_prefab as GravityRing, p, m);                 break;

                        case "Emitter":                      device = new ProtoEmitterDevice(module_prefab as Emitter, p, m);                  break;

                        case "Laboratory":                   device = new ProtoLaboratoryDevice(module_prefab as Laboratory, p, m);            break;

                        case "Experiment":                                       device = new ProtoExperimentDevice(module_prefab as Experiment, p, m, v);         break;

                        case "SolarPanelFixer":              device = new ProtoPanelDevice(module_prefab as SolarPanelFixer, p, m);            break;

                        case "ModuleGenerator":              device = new ProtoGeneratorDevice(module_prefab as ModuleGenerator, p, m);        break;

                        case "ModuleResourceConverter":
                        case "ModuleKPBSConverter":
                        case "FissionReactor":               device = new ProtoConverterDevice(module_prefab as ModuleResourceConverter, p, m); break;

                        case "ModuleResourceHarvester":      device = new ProtoDrillDevice(module_prefab as ModuleResourceHarvester, p, m);    break;

                        case "ModuleLight":
                        case "ModuleColoredLensLight":
                        case "ModuleMultiPointSurfaceLight": device = new ProtoLightDevice(module_prefab as ModuleLight, p, m);                break;

                        case "SCANsat":                      device = new ProtoScannerDevice(module_prefab, p, m, v);                          break;

                        case "ModuleSCANresourceScanner":    device = new ProtoScannerDevice(module_prefab, p, m, v);                          break;

                        case "ModuleRTAntenna":
                        case "ModuleDataTransmitter":        device = new ProtoAntennaDevice(module_prefab, p, m, m.moduleName);               break;

                        case "ModuleRTAntennaPassive":       device = new ProtoAntennaDevice(module_prefab, p, m, "ModuleRTAntenna");          break;

                        default: continue;
                        }

                        // add the device
                        moduleDevices.Add(device);
                    }
                }
            }

            // return all found module devices sorted by type, then by name
            // in reverse (the list will be presented from end to start in the UI)
            moduleDevices.Sort((b, a) =>
            {
                int xdiff = a.DeviceType.CompareTo(b.DeviceType);
                if (xdiff != 0)
                {
                    return(xdiff);
                }
                else
                {
                    return(a.Name.CompareTo(b.Name));
                }
            });

            // now add vessel wide devices to the end of the list
            VesselData vd = v.KerbalismData();

            moduleDevices.Add(new VesselDeviceTransmit(v, vd));             // vessel wide transmission toggle

            Cache.SetVesselObjectsCache(v, "computer", moduleDevices);
            return(moduleDevices);
        }
示例#4
0
        // return set of devices on a vessel
        // - the list is only valid for a single simulation step
        public static Dictionary <uint, Device> Boot(Vessel v)
        {
            var devices = Cache.VesselObjectsCache <Dictionary <uint, Device> >(v, "computer");

            if (devices != null)
            {
                return(devices);
            }

            devices = new Dictionary <uint, Device>();

            // store device being added
            Device dev;

            // loaded vessel
            if (v.loaded)
            {
                foreach (PartModule m in Lib.FindModules <PartModule>(v))
                {
                    switch (m.moduleName)
                    {
                    case "ProcessController":            dev = new ProcessDevice(m as ProcessController);                 break;

                    case "Sickbay":                      dev = new SickbayDevice(m as Sickbay);                           break;

                    case "Greenhouse":                   dev = new GreenhouseDevice(m as Greenhouse);                     break;

                    case "GravityRing":                  dev = new RingDevice(m as GravityRing);                          break;

                    case "Emitter":                      dev = new EmitterDevice(m as Emitter);                           break;

                    case "Laboratory":                   dev = new LaboratoryDevice(m as Laboratory);                     break;

                    case "Experiment":                   dev = new ExperimentDevice(m as Experiment);                     break;

                    case "ModuleDeployableSolarPanel":   dev = new PanelDevice(m as ModuleDeployableSolarPanel);          break;

                    case "ModuleGenerator":              dev = new GeneratorDevice(m as ModuleGenerator);                 break;

                    case "ModuleResourceConverter":      dev = new ConverterDevice(m as ModuleResourceConverter);         break;

                    case "ModuleKPBSConverter":          dev = new ConverterDevice(m as ModuleResourceConverter);         break;

                    case "FissionReactor":               dev = new ConverterDevice(m as ModuleResourceConverter);         break;

                    case "ModuleResourceHarvester":      dev = new DrillDevice(m as ModuleResourceHarvester);             break;

                    case "ModuleLight":                  dev = new LightDevice(m as ModuleLight);                         break;

                    case "ModuleColoredLensLight":       dev = new LightDevice(m as ModuleLight);                         break;

                    case "ModuleMultiPointSurfaceLight": dev = new LightDevice(m as ModuleLight);                         break;

                    case "SCANsat":                      dev = new ScannerDevice(m);                                      break;

                    case "ModuleSCANresourceScanner":    dev = new ScannerDevice(m);                                      break;

                    case "ModuleRTAntenna":
                    case "ModuleDataTransmitter":        dev = new Antenna(m, m.moduleName);                              break;

                    case "ModuleRTAntennaPassive":       dev = new Antenna(m, "ModuleRTAntenna"); break;

                    default: continue;
                    }

                    // add the device
                    // - multiple same-type components in the same part will have the same id, and are ignored
                    if (!devices.ContainsKey(dev.Id()))
                    {
                        devices.Add(dev.Id(), dev);
                    }
                }
            }
            // unloaded vessel
            else
            {
                // store data required to support multiple modules of same type in a part
                var PD = new Dictionary <string, Lib.Module_prefab_data>();

                var experiments = new List <KeyValuePair <Experiment, ProtoPartModuleSnapshot> >();

                // for each part
                foreach (ProtoPartSnapshot p in v.protoVessel.protoPartSnapshots)
                {
                    // get part prefab (required for module properties)
                    Part part_prefab = PartLoader.getPartInfoByName(p.partName).partPrefab;

                    // get all module prefabs
                    var module_prefabs = part_prefab.FindModulesImplementing <PartModule>();

                    // clear module indexes
                    PD.Clear();

                    // for each module
                    foreach (ProtoPartModuleSnapshot m in p.modules)
                    {
                        // get the module prefab
                        // if the prefab doesn't contain this module, skip it
                        PartModule module_prefab = Lib.ModulePrefab(module_prefabs, m.moduleName, PD);
                        if (!module_prefab)
                        {
                            continue;
                        }

                        // if the module is disabled, skip it
                        // note: this must be done after ModulePrefab is called, so that indexes are right
                        if (!Lib.Proto.GetBool(m, "isEnabled"))
                        {
                            continue;
                        }

                        // depending on module name
                        switch (m.moduleName)
                        {
                        case "ProcessController":            dev = new ProtoProcessDevice(m, module_prefab as ProcessController, p.flightID);                 break;

                        case "Sickbay":                      dev = new ProtoSickbayDevice(m, module_prefab as Sickbay, p.flightID);                           break;

                        case "Greenhouse":                   dev = new ProtoGreenhouseDevice(m, p.flightID);                                                  break;

                        case "GravityRing":                  dev = new ProtoRingDevice(m, p.flightID);                                                        break;

                        case "Emitter":                      dev = new ProtoEmitterDevice(m, p.flightID);                                                     break;

                        case "Laboratory":                   dev = new ProtoLaboratoryDevice(m, p.flightID);                                                  break;

                        case "Experiment":
                            experiments.Add(new KeyValuePair <Experiment, ProtoPartModuleSnapshot>(module_prefab as Experiment, m));
                            dev = new ProtoExperimentDevice(m, module_prefab as Experiment, p.flightID, v.vesselName, experiments);
                            break;

                        case "ModuleDeployableSolarPanel":   dev = new ProtoPanelDevice(m, module_prefab as ModuleDeployableSolarPanel, p.flightID);          break;

                        case "ModuleGenerator":              dev = new ProtoGeneratorDevice(m, module_prefab as ModuleGenerator, p.flightID);                 break;

                        case "ModuleResourceConverter":      dev = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter, p.flightID);         break;

                        case "ModuleKPBSConverter":          dev = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter, p.flightID);         break;

                        case "FissionReactor":               dev = new ProtoConverterDevice(m, module_prefab as ModuleResourceConverter, p.flightID);         break;

                        case "ModuleResourceHarvester":      dev = new ProtoDrillDevice(m, module_prefab as ModuleResourceHarvester, p.flightID);             break;

                        case "ModuleLight":                  dev = new ProtoLightDevice(m, p.flightID);                                                       break;

                        case "ModuleColoredLensLight":       dev = new ProtoLightDevice(m, p.flightID);                                                       break;

                        case "ModuleMultiPointSurfaceLight": dev = new ProtoLightDevice(m, p.flightID);                                                       break;

                        case "SCANsat":                      dev = new ProtoScannerDevice(m, part_prefab, v, p.flightID);                                     break;

                        case "ModuleSCANresourceScanner":    dev = new ProtoScannerDevice(m, part_prefab, v, p.flightID);                                     break;

                        case "ModuleRTAntenna":
                        case "ModuleDataTransmitter":        dev = new ProtoPartAntenna(m, p, v, m.moduleName, p.flightID);                                   break;

                        case "ModuleRTAntennaPassive":       dev = new ProtoPartAntenna(m, p, v, "ModuleRTAntenna", p.flightID); break;

                        default: continue;
                        }

                        // add the device
                        // - multiple same-type components in the same part will have the same id, and are ignored
                        if (!devices.ContainsKey(dev.Id()))
                        {
                            devices.Add(dev.Id(), dev);
                        }
                    }
                }
            }

            devices = devices.OrderBy(k => k.Value.Name()).ToDictionary(pair => pair.Key, pair => pair.Value);
            //return all found devices sorted by name

            Cache.SetVesselObjectsCache(v, "computer", devices);
            return(devices);
        }