/// <summary> /// Call ResourceUpdate on all part modules that have that method /// </summary> public void ResourceUpdate(VesselResources resources, double elapsed_s) { // only do this for loaded vessels. unloaded vessels will be handled in Background.cs if (!Vessel.loaded) { return; } if (resourceUpdateDelegates == null) { resourceUpdateDelegates = new List <ResourceUpdateDelegate>(); foreach (var part in Vessel.parts) { foreach (var module in part.Modules) { if (!module.isEnabled) { continue; } var resourceUpdateDelegate = ResourceUpdateDelegate.Instance(module); if (resourceUpdateDelegate != null) { resourceUpdateDelegates.Add(resourceUpdateDelegate); } } } } if (resourceUpdateDelegates.Count == 0) { return; } List <ResourceInfo> allResources = resources.GetAllResources(Vessel); // there might be some performance to be gained by caching the list of all resource Dictionary <string, double> availableResources = new Dictionary <string, double>(); foreach (var ri in allResources) { availableResources[ri.ResourceName] = ri.Amount; } List <KeyValuePair <string, double> > resourceChangeRequests = new List <KeyValuePair <string, double> >(); foreach (var resourceUpdateDelegate in resourceUpdateDelegates) { resourceChangeRequests.Clear(); string title = resourceUpdateDelegate.invoke(availableResources, resourceChangeRequests); foreach (var rc in resourceChangeRequests) { if (rc.Value > 0) { resources.Produce(Vessel, rc.Key, rc.Value * elapsed_s, title); } if (rc.Value < 0) { resources.Consume(Vessel, rc.Key, -rc.Value * elapsed_s, title); } } } }
public static void Update(Vessel v, VesselData vd, VesselResources resources, double elapsed_s) { if (!Lib.IsVessel(v)) { return; } // get most used resource handlers ResourceInfo ec = resources.GetResource(v, "ElectricCharge"); List <ResourceInfo> allResources = resources.GetAllResources(v); Dictionary <string, double> availableResources = new Dictionary <string, double>(); foreach (var ri in allResources) { availableResources[ri.ResourceName] = ri.Amount; } List <KeyValuePair <string, double> > resourceChangeRequests = new List <KeyValuePair <string, double> >(); foreach (var e in Background_PMs(v)) { switch (e.type) { case Module_type.Reliability: Reliability.BackgroundUpdate(v, e.p, e.m, e.module_prefab as Reliability, elapsed_s); break; case Module_type.Experiment: (e.module_prefab as Experiment).BackgroundUpdate(v, vd, e.m, ec, resources, elapsed_s); break; // experiments use the prefab as a singleton instead of a static method case Module_type.Greenhouse: Greenhouse.BackgroundUpdate(v, e.m, e.module_prefab as Greenhouse, vd, resources, elapsed_s); break; case Module_type.GravityRing: GravityRing.BackgroundUpdate(v, e.p, e.m, e.module_prefab as GravityRing, ec, elapsed_s); break; case Module_type.Harvester: Harvester.BackgroundUpdate(v, e.m, e.module_prefab as Harvester, elapsed_s); break; // Kerbalism ground and air harvester module case Module_type.Laboratory: Laboratory.BackgroundUpdate(v, e.p, e.m, e.module_prefab as Laboratory, ec, elapsed_s); break; case Module_type.Command: ProcessCommand(v, e.p, e.m, e.module_prefab as ModuleCommand, resources, elapsed_s); break; case Module_type.Generator: ProcessGenerator(v, e.p, e.m, e.module_prefab as ModuleGenerator, resources, elapsed_s); break; case Module_type.Converter: ProcessConverter(v, e.p, e.m, e.module_prefab as ModuleResourceConverter, resources, elapsed_s); break; case Module_type.Drill: ProcessDrill(v, e.p, e.m, e.module_prefab as ModuleResourceHarvester, resources, elapsed_s); break; // Stock ground harvester module // case Module_type.AsteroidDrill: ProcessAsteroidDrill(v, e.p, e.m, e.module_prefab as ModuleAsteroidDrill, resources, elapsed_s); break; // Stock asteroid harvester module case Module_type.StockLab: ProcessStockLab(v, e.p, e.m, e.module_prefab as ModuleScienceConverter, ec, elapsed_s); break; case Module_type.Light: ProcessLight(v, e.p, e.m, e.module_prefab as ModuleLight, ec, elapsed_s); break; case Module_type.Scanner: KerbalismScansat.BackgroundUpdate(v, e.p, e.m, e.module_prefab as KerbalismScansat, e.part_prefab, vd, ec, elapsed_s); break; case Module_type.FissionGenerator: ProcessFissionGenerator(v, e.p, e.m, e.module_prefab, ec, elapsed_s); break; case Module_type.RadioisotopeGenerator: ProcessRadioisotopeGenerator(v, e.p, e.m, e.module_prefab, ec, elapsed_s); break; case Module_type.CryoTank: ProcessCryoTank(v, e.p, e.m, e.module_prefab, resources, ec, elapsed_s); break; case Module_type.FNGenerator: ProcessFNGenerator(v, e.p, e.m, e.module_prefab, ec, elapsed_s); break; case Module_type.SolarPanelFixer: SolarPanelFixer.BackgroundUpdate(v, e.m, e.module_prefab as SolarPanelFixer, vd, ec, elapsed_s); break; case Module_type.KerbalismSentinel: KerbalismSentinel.BackgroundUpdate(v, e.m, e.module_prefab as KerbalismSentinel, vd, ec, elapsed_s); break; case Module_type.APIModule: ProcessApiModule(v, e.p, e.m, e.part_prefab, e.module_prefab, resources, availableResources, resourceChangeRequests, elapsed_s); break; } } }