public static double getEnumeratedPowerFromSatelliteForAllVesssels(VesselMicrowavePersistence vmp)
{
double enumerated_power = 0;
foreach (Vessel vess in FlightGlobals.Vessels)
{
List <MicrowavePowerReceiver> receivers = vess.FindPartModulesImplementing <MicrowavePowerReceiver>();
foreach (MicrowavePowerReceiver receiver in receivers)
{
enumerated_power += receiver.getPowerFromSatellite(vmp);
}
}
return(enumerated_power);
}
protected double GetSatPower(VesselMicrowavePersistence transmitter, double efficiency)
{
double availablePower = transmitter.getAvailablePower();
return availablePower * efficiency;
}
public static double getEnumeratedPowerFromSatelliteForAllVesssels(VesselMicrowavePersistence vmp)
{
double enumerated_power = 0;
foreach (Vessel vess in FlightGlobals.Vessels)
{
List<MicrowavePowerReceiver> receivers = vess.FindPartModulesImplementing<MicrowavePowerReceiver>();
foreach (MicrowavePowerReceiver receiver in receivers)
{
enumerated_power += receiver.getPowerFromSatellite(vmp);
}
}
return enumerated_power;
}
public double getPowerFromSatellite(VesselMicrowavePersistence vmp)
{
if (received_power.ContainsKey(vmp.getVessel()) && receiverIsEnabled)
{
return received_power[vmp.getVessel()];
}
return 0;
}
public override void OnStart(PartModule.StartState state)
{
String[] resources_to_supply = { FNResourceManager.FNRESOURCE_MEGAJOULES, FNResourceManager.FNRESOURCE_WASTEHEAT, FNResourceManager.FNRESOURCE_THERMALPOWER };
this.resources_to_supply = resources_to_supply;
base.OnStart(state);
if (state == StartState.Editor) { return; }
if (part.FindModulesImplementing<MicrowavePowerTransmitter>().Count == 1)
{
part_transmitter = part.FindModulesImplementing<MicrowavePowerTransmitter>().First();
has_transmitter = true;
}
if (animTName != null)
{
animT = part.FindModelAnimators(animTName).FirstOrDefault();
if (animT != null)
{
animT[animTName].layer = 1;
animT[animTName].normalizedTime = 0f;
animT[animTName].speed = 0.001f;
animT.Play();
}
}
if (animName != null)
{
anim = part.FindModelAnimators(animName).FirstOrDefault();
if (anim != null)
{
anim[animName].layer = 1;
if (connectedsatsi > 0 || connectedrelaysi > 0)
{
anim[animName].normalizedTime = 1f;
anim[animName].speed = -1f;
}
else
{
anim[animName].normalizedTime = 0f;
anim[animName].speed = 1f;
}
anim.Play();
}
}
vmps = new List<VesselMicrowavePersistence>();
vrps = new List<VesselRelayPersistence>();
ConfigNode config = PluginHelper.getPluginSaveFile();
foreach (Vessel vess in FlightGlobals.Vessels)
{
String vesselID = vess.id.ToString();
if (vess.isActiveVessel == false && vess.vesselName.ToLower().IndexOf("debris") == -1)
{
if (config.HasNode("VESSEL_MICROWAVE_POWER_" + vesselID))
{
ConfigNode power_node = config.GetNode("VESSEL_MICROWAVE_POWER_" + vesselID);
double nuclear_power = 0;
double solar_power = 0;
if (power_node.HasValue("nuclear_power"))
{
nuclear_power = double.Parse(power_node.GetValue("nuclear_power"));
}
if (power_node.HasValue("solar_power"))
{
solar_power = double.Parse(power_node.GetValue("solar_power"));
}
if (nuclear_power > 0 || solar_power > 0)
{
VesselMicrowavePersistence vmp = new VesselMicrowavePersistence(vess);
vmp.setSolarPower(solar_power);
vmp.setNuclearPower(nuclear_power);
vmps.Add(vmp);
}
}
if (config.HasNode("VESSEL_MICROWAVE_RELAY_" + vesselID))
{
ConfigNode relay_node = config.GetNode("VESSEL_MICROWAVE_RELAY_" + vesselID);
if (relay_node.HasValue("relay"))
{
bool relay = bool.Parse(relay_node.GetValue("relay"));
if (relay)
{
VesselRelayPersistence vrp = new VesselRelayPersistence(vess);
vrp.setActive(relay);
vrps.Add(vrp);
}
}
}
}
}
penaltyFreeDistance = Math.Sqrt(1 / ((microwaveAngleTan * microwaveAngleTan) / collectorArea));
this.part.force_activate();
}
protected double GetSatPower(VesselMicrowavePersistence transmitter, double efficiency)
{
double availablePower = transmitter.getAvailablePower();
return(availablePower * efficiency);
}
public override void OnFixedUpdate()
{
int activeSatsIncr = 0;
//int activeRelsIncr = 0;
double total_power = 0;
connectedsatsi = 0;
connectedrelaysi = 0;
networkDepth = 0;
base.OnFixedUpdate();
if (receiverIsEnabled)
{
if (getResourceBarRatio(FNResourceManager.FNRESOURCE_WASTEHEAT) >= 0.95 && !isThermalReceiver)
{
receiverIsEnabled = false;
deactivate_timer++;
if (FlightGlobals.ActiveVessel == vessel && deactivate_timer > 2)
{
ScreenMessages.PostScreenMessage("Warning Dangerous Overheating Detected: Emergency microwave power shutdown occuring NOW!", 5.0f, ScreenMessageStyle.UPPER_CENTER);
}
return;
}
double atmosphericefficiency = Math.Exp(-FlightGlobals.getStaticPressure(vessel.transform.position) / 5);
efficiency_d = GameConstants.microwave_dish_efficiency * atmosphericefficiency;
deactivate_timer = 0;
HashSet <VesselRelayPersistence> usedRelays = new HashSet <VesselRelayPersistence>();
//Transmitters power calculation
foreach (var connectedTransmitterEntry in GetConnectedTransmitters())
{
VesselMicrowavePersistence transmitter = connectedTransmitterEntry.Key;
Vessel transmitterVessel = connectedTransmitterEntry.Key.getVessel();
double routeEfficiency = connectedTransmitterEntry.Value.Key;
IEnumerable <VesselRelayPersistence> relays = connectedTransmitterEntry.Value.Value;
received_power[transmitterVessel] = 0;
// calculate maximum power receivable from satellite
double satPowerCap = transmitter.getAvailablePower() * efficiency_d;
double currentPowerFromSat = MicrowavePowerReceiver.getEnumeratedPowerFromSatelliteForAllVesssels(transmitter);
double powerAvailableFromSat = (satPowerCap - currentPowerFromSat);
double satPower = Math.Min(GetSatPower(transmitter, routeEfficiency), powerAvailableFromSat); // get sat power and make sure we conserve enegy
received_power[transmitterVessel] = satPower * atmosphericefficiency;
total_power += satPower;
if (satPower > 0)
{
activeSatsIncr++;
if (relays != null)
{
foreach (var relay in relays)
{
usedRelays.Add(relay);
}
networkDepth = Math.Max(networkDepth, relays.Count());
}
}
}
connectedsatsi = activeSatsIncr;
connectedrelaysi = usedRelays.Count;
double availPower = total_power / 1000.0 * GameConstants.microwave_dish_efficiency * atmosphericefficiency; // maximum available in network
if (automode)
{
// dynamicly configure power reception
List <Part> parts = vessel.parts; // lets find the maxPower in those part configs for each engine
double eEnginePower = 0; //we'll save total electric engine power here
double tEnginePower = 0; // and the thermal engine power here
double vEnginePower = 0; // and now the vista engines
int aRecieverCount = 0; //count active recievers
var eEngines = FlightGlobals.ActiveVessel.FindPartModulesImplementing <ElectricEngineController>().ToList(); // Lets find the electric engines
foreach (ElectricEngineController engine in eEngines)
{
if (engine.isEnabled) // if they are enabled
{
eEnginePower += engine.maxPower; // add thier demand together
}
}
var vEngines = FlightGlobals.ActiveVessel.FindPartModulesImplementing <VistaEngineController>().ToList(); // Lets find the vista engines
foreach (VistaEngineController vengine in vEngines)
{
if (vengine.isEnabled) // if they are enabled
{
vEnginePower += vengine.powerConsumption; // add thier demand together
}
}
var tEngines = FlightGlobals.ActiveVessel.FindPartModulesImplementing <FNNozzleController>().ToList(); // find the thermal nozzles
foreach (FNNozzleController engine in tEngines)
{
if (engine.IsEnabled) // if they are enabled
{
tEnginePower = availPower; // max the power, since there is no power cap, and waste heat isn't an issue.
}
}
//var activeRecievers = FlightGlobals.ActiveVessel.FindPartModulesImplementing<MicrowavePowerReceiver>().ToList();
//foreach (MicrowavePowerReceiver receiver in activeRecievers)
//{
// if (receiver)
// {
// aRecieverCount += 1; // count active recievers
// }
//}
minDemand = getCurrentResourceDemand("Megajoules") + getCurrentResourceDemand("ElectricCharge"); // fallback for minimum demand
maxDemand = eEnginePower + vEnginePower + tEnginePower; // the max draw of the engines
//if (aRecieverCount < 1) // handle divide by zero
//{
// aRecieverCount = 1;
//}
// this needs to be fixed to only add power for one active reciever
//if throttled up, recieve the maximum of demand up to the maximum available power (ie. atmo, dist, angle, total supply)
if (FlightGlobals.ActiveVessel.ctrlState.mainThrottle > 0.0f)
{
powerInputMegajoules = ((Math.Min(maxDemand, availPower) - vEnginePower) * FlightGlobals.ActiveVessel.ctrlState.mainThrottle) + vEnginePower;
}
// else only recieve the minimum demand (just enough to keep the lights running) again, if enough available power
else
{
powerInputMegajoules = Math.Min(minDemand, availPower);
}
}
else
{
powerInputMegajoules = availPower;
}
powerInput = powerInputMegajoules * 1000.0f * receiptPower / 100.0f;
float animateTemp = (float)powerInputMegajoules / 3000;
if (animateTemp > 1)
{
animateTemp = 1;
}
if (animT != null)
{
animT[animTName].speed = 0.001f;
animT[animTName].normalizedTime = animateTemp;
animT.Blend(animTName, 2f);
}
if (!isThermalReceiver)
{
supplyFNResource(powerInputMegajoules * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
double waste_head_production = powerInputMegajoules / GameConstants.microwave_dish_efficiency * (1.0f - GameConstants.microwave_dish_efficiency);
supplyFNResource(waste_head_production * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_WASTEHEAT);
}
else
{
double cur_thermal_power = supplyFNResource(powerInputMegajoules * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_THERMALPOWER) / TimeWarp.fixedDeltaTime;
if (ThermalPower <= 0)
{
ThermalPower = (float)(cur_thermal_power);
}
else
{
ThermalPower = (float)(cur_thermal_power * GameConstants.microwave_alpha + (1.0f - GameConstants.microwave_alpha) * ThermalPower);
}
}
}
else
{
received_power.Clear();
}
}
public override void OnStart(PartModule.StartState state)
{
String[] resources_to_supply = { FNResourceManager.FNRESOURCE_MEGAJOULES, FNResourceManager.FNRESOURCE_WASTEHEAT, FNResourceManager.FNRESOURCE_THERMALPOWER };
this.resources_to_supply = resources_to_supply;
base.OnStart(state);
if (state == StartState.Editor)
{
return;
}
if (part.FindModulesImplementing <MicrowavePowerTransmitter>().Count == 1)
{
part_transmitter = part.FindModulesImplementing <MicrowavePowerTransmitter>().First();
has_transmitter = true;
}
if (animTName != null)
{
animT = part.FindModelAnimators(animTName).FirstOrDefault();
if (animT != null)
{
animT[animTName].layer = 1;
animT[animTName].normalizedTime = 0f;
animT[animTName].speed = 0.001f;
animT.Play();
}
}
if (animName != null)
{
anim = part.FindModelAnimators(animName).FirstOrDefault();
if (anim != null)
{
anim[animName].layer = 1;
if (connectedsatsi > 0 || connectedrelaysi > 0)
{
anim[animName].normalizedTime = 1f;
anim[animName].speed = -1f;
}
else
{
anim[animName].normalizedTime = 0f;
anim[animName].speed = 1f;
}
anim.Play();
}
}
vmps = new List <VesselMicrowavePersistence>();
vrps = new List <VesselRelayPersistence>();
ConfigNode config = PluginHelper.getPluginSaveFile();
foreach (Vessel vess in FlightGlobals.Vessels)
{
String vesselID = vess.id.ToString();
if (vess.isActiveVessel == false && vess.vesselName.ToLower().IndexOf("debris") == -1)
{
if (config.HasNode("VESSEL_MICROWAVE_POWER_" + vesselID))
{
ConfigNode power_node = config.GetNode("VESSEL_MICROWAVE_POWER_" + vesselID);
double nuclear_power = 0;
double solar_power = 0;
if (power_node.HasValue("nuclear_power"))
{
nuclear_power = double.Parse(power_node.GetValue("nuclear_power"));
}
if (power_node.HasValue("solar_power"))
{
solar_power = double.Parse(power_node.GetValue("solar_power"));
}
if (nuclear_power > 0 || solar_power > 0)
{
VesselMicrowavePersistence vmp = new VesselMicrowavePersistence(vess);
vmp.setSolarPower(solar_power);
vmp.setNuclearPower(nuclear_power);
vmps.Add(vmp);
}
}
if (config.HasNode("VESSEL_MICROWAVE_RELAY_" + vesselID))
{
ConfigNode relay_node = config.GetNode("VESSEL_MICROWAVE_RELAY_" + vesselID);
if (relay_node.HasValue("relay"))
{
bool relay = bool.Parse(relay_node.GetValue("relay"));
if (relay)
{
VesselRelayPersistence vrp = new VesselRelayPersistence(vess);
vrp.setActive(relay);
vrps.Add(vrp);
}
}
}
}
}
penaltyFreeDistance = Math.Sqrt(1 / ((microwaveAngleTan * microwaveAngleTan) / collectorArea));
this.part.force_activate();
}
