public override void OnFixedUpdate()
{
nuclear_power = 0;
solar_power = 0;
displayed_solar_power = 0;
base.OnFixedUpdate();
if (IsEnabled && !relay)
{
foreach (FNGenerator generator in generators)
{
if (generator.isActive())
{
IThermalSource thermal_source = generator.getThermalSource();
if (thermal_source != null && !thermal_source.IsVolatileSource)
{
float output = generator.getMaxPowerOutput();
if (thermal_source is InterstellarFusionReactor)
{
InterstellarFusionReactor fusion_reactor = thermal_source as InterstellarFusionReactor;
output = output * 0.92f;
}
output = output * transmitPower / 100.0f;
float gpower = consumeFNResource(output * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
nuclear_power += gpower * 1000 / TimeWarp.fixedDeltaTime;
}
}
}
foreach (ModuleDeployableSolarPanel panel in panels)
{
float output = panel.flowRate;
// attempt to retrieve all solar power output
if (output == 0.0)
{
var solarpanels = panel.part.parent.FindModulesImplementing <ModuleDeployableSolarPanel>();
solarpanels.ForEach(s => output += s.flowRate);
}
float 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 += (float)(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;
}
}
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)
{
InterstellarFusionReactor fusion_reactor = thermal_source as InterstellarFusionReactor;
output = output * 0.92;
}
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++;
}