protected void saveState() { if (HighLogic.LoadedSceneIsFlight) { ConfigNode config = PluginHelper.getPluginSaveFile(); string vesselID = vessel.id.ToString(); if (config.HasNode("VESSEL_SEISMIC_PROBE_" + vesselID)) { ConfigNode probe_node = config.GetNode("VESSEL_SEISMIC_PROBE_" + vesselID); if (probe_node.HasValue("is_active")) { probe_node.SetValue("is_active", probeIsEnabled.ToString()); } else { probe_node.AddValue("is_active", probeIsEnabled.ToString()); } if (probe_node.HasValue("celestial_body")) { probe_node.SetValue("celestial_body", vessel.mainBody.flightGlobalsIndex.ToString()); } else { probe_node.AddValue("celestial_body", vessel.mainBody.flightGlobalsIndex.ToString()); } } else { ConfigNode probe_node = config.AddNode("VESSEL_SEISMIC_PROBE_" + vesselID); probe_node.AddValue("is_active", probeIsEnabled.ToString()); probe_node.AddValue("celestial_body", vessel.mainBody.flightGlobalsIndex.ToString()); } config.Save(PluginHelper.getPluginSaveFilePath()); } }
public static ConfigNode getPluginSaveFile() { ConfigNode config = ConfigNode.Load(PluginHelper.getPluginSaveFilePath()); if (config == null) { config = new ConfigNode(); config.AddValue("writtenat", DateTime.Now.ToString()); config.Save(PluginHelper.getPluginSaveFilePath()); } return(config); }
protected override void cleanUpScienceData() { if (science_vess_ref != null) { ConfigNode config = PluginHelper.getPluginSaveFile(); if (config.HasNode("SEISMIC_SCIENCE_" + vessel.mainBody.name.ToUpper())) { ConfigNode planet_data = config.GetNode("SEISMIC_SCIENCE_" + vessel.mainBody.name.ToUpper()); if (planet_data.HasNode(science_vess_ref)) { ConfigNode impact_node = planet_data.GetNode(science_vess_ref); if (impact_node.HasValue("transmitted")) { impact_node.SetValue("transmitted", "True"); } config.Save(PluginHelper.getPluginSaveFilePath()); } } } }
public override void OnFixedUpdate() { activeCount++; if (IsEnabled) { List <Part> vesselparts = vessel.parts; float electrical_current_available = 0; for (int i = 0; i < vesselparts.Count; ++i) { Part cPart = vesselparts.ElementAt(i); PartModuleList pml = cPart.Modules; for (int j = 0; j < pml.Count; ++j) { var curFNGen = pml.GetModule(j) as FNGenerator; var curMwRec = pml.GetModule(j) as MicrowavePowerReceiver; var curSolarPan = pml.GetModule(j) as ModuleDeployableSolarPanel; if (curFNGen != null) { float consumeMJ = curFNGen.getMaxPowerOutput() * TimeWarp.fixedDeltaTime; float cvalue = consumeFNResource(consumeMJ, FNResourceManager.FNRESOURCE_MEGAJOULES); electrical_current_available = cvalue * 1000 / TimeWarp.fixedDeltaTime; nuclear = true; } else if (curMwRec != null && nuclear == false) { //electrical_current_available = curMwRec.powerInput; part.RequestResource("ElectricCharge", electrical_current_available * TimeWarp.fixedDeltaTime); microwave = true; } else if (curSolarPan != null && nuclear == false && microwave == false) { electrical_current_available += curSolarPan.flowRate; part.RequestResource("ElectricCharge", electrical_current_available * TimeWarp.fixedDeltaTime); solar = true; } } } inputPower = electrical_current_available; } else { inputPower = 0; } if (activeCount % 1000 == 9) { ConfigNode config = PluginHelper.getPluginSaveFile(); string genType = "undefined"; //float inputPowerFixedAlt = (float) ((double)inputPower * (Math.Pow(FlightGlobals.Bodies[0].GetAltitude(vessel.transform.position), 2)) / PluginHelper.FIXED_SAT_ALTITUDE / PluginHelper.FIXED_SAT_ALTITUDE); float inputPowerFixedAlt = 0; if (nuclear == true) { inputPowerFixedAlt = inputPower; //print ("warp: nuclear inputPower " + inputPowerFixedAlt); genType = "nuclear"; } else if (microwave == true) { inputPowerFixedAlt = inputPower; //print ("warp: relay inputPower " + inputPowerFixedAlt); genType = "relay"; } else if (solar == true) { //inputPowerFixedAlt = inputPower / PluginHelper.getSatFloatCurve ().Evaluate ((float)FlightGlobals.Bodies [0].GetAltitude (vessel.transform.position)); //print ("warp: solar inputPower " + inputPowerFixedAlt); genType = "solar"; } if (genType != "undefined") { string vesselIDSolar = vessel.id.ToString(); string outputPower = inputPowerFixedAlt.ToString("0.000"); if (!config.HasValue(vesselIDSolar)) { config.AddValue(vesselIDSolar, outputPower); } else { config.SetValue(vesselIDSolar, outputPower); } if (!config.HasValue(vesselIDSolar + "type")) { config.AddValue(vesselIDSolar + "type", genType); } else { config.SetValue(vesselIDSolar + "type", genType); } config.Save(PluginHelper.getPluginSaveFilePath()); } } }
public void onVesselAboutToBeDestroyed() { print("[KSP Interstellar] Handling Impactor"); int body = vessel.mainBody.flightGlobalsIndex; //print(vessel.srf_velocity.magnitude); ConfigNode config = PluginHelper.getPluginSaveFile(); Vector3d net_vector = Vector3d.zero; bool first = true; double net_science = 0; double initial_science = 0; foreach (Vessel conf_vess in FlightGlobals.Vessels) { String conf_vess_ID = conf_vess.id.ToString(); if (config.HasNode("VESSEL_SEISMIC_PROBE_" + conf_vess_ID)) { ConfigNode probe_node = config.GetNode("VESSEL_SEISMIC_PROBE_" + conf_vess_ID); bool is_active = false; int planet = 0; if (probe_node.HasValue("is_active")) { is_active = bool.Parse(probe_node.GetValue("is_active")); } if (probe_node.HasValue("celestial_body")) { planet = int.Parse(probe_node.GetValue("celestial_body")); } double theta = vessel.longitude; double phi = vessel.latitude; Vector3d up = vessel.mainBody.GetSurfaceNVector(phi, theta).normalized; double surface_height = vessel.mainBody.pqsController.GetSurfaceHeight(QuaternionD.AngleAxis(theta, Vector3d.down) * QuaternionD.AngleAxis(phi, Vector3d.forward) * Vector3d.right) - vessel.mainBody.Radius; double height_diff = vessel.pqsAltitude - surface_height; // record science if we have crashed into the surface at velocity > 40m/s if (is_active && planet == body && vessel.heightFromSurface <= 0.75 && vessel.srf_velocity.magnitude > 40 && height_diff <= 1) { // do sciency stuff Vector3d surface_vector = (conf_vess.transform.position - FlightGlobals.Bodies[body].transform.position); surface_vector = surface_vector.normalized; if (first) { first = false; net_vector = surface_vector; net_science = 50 * PluginHelper.getImpactorScienceMultiplier(body); initial_science = net_science; } else { net_science += (1.0 - Vector3d.Dot(surface_vector, net_vector.normalized)) * 50 * PluginHelper.getImpactorScienceMultiplier(body); net_vector = net_vector + surface_vector; } } else { if (vessel.heightFromSurface > 0.5) { print("[KSP Interstellar] Impactor: Ignored due to vessel being destroyed at too high altitude."); } if (vessel.srf_velocity.magnitude <= 40) { print("[KSP Interstellar] Impactor: Ignored due to vessel being at too low velocity."); } } } } net_science = Math.Min(net_science, initial_science * 3.5); // no more than 3.5x boost to science by using multiple detectors if (net_science > 0 && !double.IsInfinity(net_science) && !double.IsNaN(net_science)) { ConfigNode science_node; int science_experiment_number = 0; if (config.HasNode("SEISMIC_SCIENCE_" + vessel.mainBody.name.ToUpper())) { science_node = config.GetNode("SEISMIC_SCIENCE_" + vessel.mainBody.name.ToUpper()); science_experiment_number = science_node.nodes.Count; } else { science_node = config.AddNode("SEISMIC_SCIENCE_" + vessel.mainBody.name.ToUpper()); science_node.AddValue("name", "interstellarseismicarchive"); } double science_coeff = -science_experiment_number / 2.0; net_science = net_science * Math.Exp(science_coeff); ScreenMessages.PostScreenMessage("Impact Recorded, science report can now be accessed from one of your accelerometers deployed on this body.", 5f, ScreenMessageStyle.UPPER_CENTER); //science_node.AddValue(vessel.id.ToString(), net_science); if (!science_node.HasNode("IMPACT_" + vessel.id.ToString())) { ConfigNode impact_node = new ConfigNode("IMPACT_" + vessel.id.ToString()); impact_node.AddValue("transmitted", "False"); impact_node.AddValue("vesselname", vessel.vesselName); impact_node.AddValue("science", net_science); impact_node.AddValue("number", (science_experiment_number + 1).ToString("0")); science_node.AddNode(impact_node); } //if (ResearchAndDevelopment.Instance != null) { // ResearchAndDevelopment.Instance.Science = ResearchAndDevelopment.Instance.Science + (float)net_science; //} config.Save(PluginHelper.getPluginSaveFilePath()); } }
public override void OnFixedUpdate() { activeCount++; nuclear_power = 0; solar_power = 0; displayed_solar_power = 0; if (IsEnabled && !relay) { foreach (FNGenerator generator in generators) { if (generator.isActive()) { IThermalSource thermal_source = generator.getThermalSource(); if (thermal_source != null && !thermal_source.IsVolatileSource) { double output = generator.getMaxPowerOutput(); if (thermal_source is InterstellarFusionReactor) { output = output * 0.95; } output = output * transmitPower / 100.0; double gpower = consumeFNResource(output * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES); nuclear_power += gpower * 1000 / TimeWarp.fixedDeltaTime; } } } foreach (ModuleDeployableSolarPanel panel in panels) { double output = panel.flowRate; double spower = part.RequestResource("ElectricCharge", output * TimeWarp.fixedDeltaTime); double inv_square_mult = Math.Pow(Vector3d.Distance(FlightGlobals.Bodies[PluginHelper.REF_BODY_KERBIN].transform.position, FlightGlobals.Bodies[PluginHelper.REF_BODY_KERBOL].transform.position), 2) / Math.Pow(Vector3d.Distance(vessel.transform.position, FlightGlobals.Bodies[PluginHelper.REF_BODY_KERBOL].transform.position), 2); displayed_solar_power += spower / TimeWarp.fixedDeltaTime; //scale solar power to what it would be in Kerbin orbit for file storage solar_power += spower / TimeWarp.fixedDeltaTime / inv_square_mult; } } if (double.IsInfinity(nuclear_power) || double.IsNaN(nuclear_power)) { nuclear_power = 0; } if (double.IsInfinity(solar_power) || double.IsNaN(solar_power)) { solar_power = 0; } if (activeCount % 1000 == 9) { ConfigNode config = PluginHelper.getPluginSaveFile(); string vesselID = vessel.id.ToString(); if (config.HasNode("VESSEL_MICROWAVE_POWER_" + vesselID)) { ConfigNode power_node = config.GetNode("VESSEL_MICROWAVE_POWER_" + vesselID); if (power_node.HasValue("nuclear_power")) { power_node.SetValue("nuclear_power", MicrowavePowerTransmitter.getEnumeratedNuclearPowerForVessel(vessel).ToString("E")); } else { power_node.AddValue("nuclear_power", MicrowavePowerTransmitter.getEnumeratedNuclearPowerForVessel(vessel).ToString("E")); } if (power_node.HasValue("solar_power")) { power_node.SetValue("solar_power", MicrowavePowerTransmitter.getEnumeratedSolarPowerForVessel(vessel).ToString("E")); } else { power_node.AddValue("solar_power", MicrowavePowerTransmitter.getEnumeratedSolarPowerForVessel(vessel).ToString("E")); } } else { ConfigNode power_node = config.AddNode("VESSEL_MICROWAVE_POWER_" + vesselID); power_node.AddValue("nuclear_power", MicrowavePowerTransmitter.getEnumeratedNuclearPowerForVessel(vessel).ToString("E")); power_node.AddValue("solar_power", MicrowavePowerTransmitter.getEnumeratedSolarPowerForVessel(vessel).ToString("E")); } if (config.HasNode("VESSEL_MICROWAVE_RELAY_" + vesselID)) { ConfigNode relay_node = config.GetNode("VESSEL_MICROWAVE_RELAY_" + vesselID); if (relay_node.HasValue("relay")) { relay_node.SetValue("relay", MicrowavePowerTransmitter.vesselIsRelay(vessel).ToString()); } else { relay_node.AddValue("relay", MicrowavePowerTransmitter.vesselIsRelay(vessel).ToString()); } } else { ConfigNode relay_node = config.AddNode("VESSEL_MICROWAVE_RELAY_" + vesselID); relay_node.AddValue("relay", MicrowavePowerTransmitter.vesselIsRelay(vessel).ToString()); } config.Save(PluginHelper.getPluginSaveFilePath()); } activeCount++; }
public void onVesselAboutToBeDestroyed(EventReport report) { Debug.Log("[KSP Interstellar] Handling Impactor"); ConfigNode config; ConfigNode science_node; Vessel vessel = report.origin.vessel; float vesselMass; int science_experiment_number = 0; string vessel_impact_node_string = string.Concat("IMPACT_", vessel.id.ToString()); string vessel_seismic_node_string = string.Concat("SEISMIC_SCIENCE_", vessel.mainBody.name.ToUpper()); // Do nothing if we don't have a vessel. This seems improbable, but who knows. if (vessel == null) { Debug.Log("[KSP Interstellar] Impactor: Ignored because the vessel is undefined."); return; } // Do nothing if we have recorded an impact less than 10 physics updates ago. This probably means this call // is a duplicate of a previous call. if (Planetarium.GetUniversalTime() - this.lastImpactTime < TimeWarp.fixedDeltaTime * 10f) { Debug.Log("[KSP Interstellar] Impactor: Ignored because we've just recorded an impact."); return; } // Do nothing if we are a debris item less than ten physics-updates old. That probably means we were // generated by a recently-recorded impact. if (vessel.vesselType == VesselType.Debris && vessel.missionTime < Time.fixedDeltaTime * 10f) { Debug.Log("[KSP Interstellar] Impactor: Ignored due to vessel being brand-new debris."); return; } vesselMass = vessel.GetTotalMass(); // Do nothing if we aren't very near the terrain. Note that using heightFromTerrain probably allows // impactors against the ocean floor... good luck. float vesselDimension = vessel.MOI.magnitude / vesselMass; if (vessel.heightFromSurface > Mathf.Max(vesselDimension, 0.75f)) { Debug.Log("[KSP Interstellar] Impactor: Ignored due to vessel altitude being too high."); return; } // Do nothing if we aren't impacting the surface. if (!( report.other.ToLower().Contains(string.Intern("surface")) || report.other.ToLower().Contains(string.Intern("terrain")) || report.other.ToLower().Contains(vessel.mainBody.name.ToLower()) )) { Debug.Log("[KSP Interstellar] Impactor: Ignored due to not impacting the surface."); return; } /* * NOTE: This is a deviation from current KSPI behavior. KSPI currently registers an impact over 40 m/s * regardless of its mass; this means that trivially light impactors (single instruments, even) could * trigger the experiment. * * The guard below requires that the impactor have at least as much vertical impact energy as a 1 Mg * object traveling at 40 m/s. This means that nearly-tangential impacts or very light impactors will need * to be much faster, but that heavier impactors may be slower. * * */ if ( (Math.Pow(vessel.verticalSpeed, 2d) * vesselMass / 2d < 800d) && (vessel.verticalSpeed > 20d) ) { Debug.Log("[KSP Interstellar] Impactor: Ignored due to vessel imparting too little impact energy."); return; } config = PluginHelper.getPluginSaveFile(); if (config.HasNode(vessel_seismic_node_string)) { science_node = config.GetNode(vessel_seismic_node_string); science_experiment_number = science_node.nodes.Count; if (science_node.HasNode(vessel_impact_node_string)) { Debug.Log("[KSP Interstellar] Impactor: Ignored because this vessel's impact has already been recorded."); return; } } else { science_node = config.AddNode(vessel_seismic_node_string); science_node.AddValue("name", "interstellarseismicarchive"); } int body = vessel.mainBody.flightGlobalsIndex; Vector3d net_vector = Vector3d.zero; bool first = true; double net_science = 0; double initial_science = 0; foreach (Vessel conf_vess in FlightGlobals.Vessels) { String vessel_probe_node_string = string.Concat("VESSEL_SEISMIC_PROBE_", conf_vess.id.ToString()); if (config.HasNode(vessel_probe_node_string)) { ConfigNode probe_node = config.GetNode(vessel_probe_node_string); // If the seismometer is inactive, skip it. bool is_active = false; if (probe_node.HasValue("is_active")) { bool.TryParse(probe_node.GetValue("is_active"), out is_active); if (!is_active) { continue; } } // If the seismometer is on another planet, skip it. int planet = -1; if (probe_node.HasValue("celestial_body")) { int.TryParse(probe_node.GetValue("celestial_body"), out planet); if (planet != body) { continue; } } // do sciency stuff Vector3d surface_vector = (conf_vess.transform.position - FlightGlobals.Bodies[body].transform.position); surface_vector = surface_vector.normalized; if (first) { first = false; net_vector = surface_vector; net_science = 50 * PluginHelper.getImpactorScienceMultiplier(body); initial_science = net_science; } else { net_science += (1.0 - Vector3d.Dot(surface_vector, net_vector.normalized)) * 50 * PluginHelper.getImpactorScienceMultiplier(body); net_vector = net_vector + surface_vector; } } } net_science = Math.Min(net_science, initial_science * 3.5); // no more than 3.5x boost to science by using multiple detectors if (net_science > 0 && !double.IsInfinity(net_science) && !double.IsNaN(net_science)) { double science_coeff = -science_experiment_number / 2.0; net_science = net_science * Math.Exp(science_coeff); ScreenMessages.PostScreenMessage("Impact Recorded, science report can now be accessed from one of your accelerometers deployed on this body.", 5f, ScreenMessageStyle.UPPER_CENTER); this.lastImpactTime = Planetarium.GetUniversalTime(); Debug.Log("[KSP Interstellar] Impactor: Impact registered!"); ConfigNode impact_node = new ConfigNode(vessel_impact_node_string); impact_node.AddValue(string.Intern("transmitted"), bool.FalseString); impact_node.AddValue(string.Intern("vesselname"), vessel.vesselName); impact_node.AddValue(string.Intern("science"), net_science); impact_node.AddValue(string.Intern("number"), (science_experiment_number + 1).ToString("0")); science_node.AddNode(impact_node); config.Save(PluginHelper.getPluginSaveFilePath()); } }