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UsefulModules.cs
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UsefulModules.cs
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using System;
using System.Collections.Generic;
using UnityEngine;
using KSP.Localization;
using CommNet.Occluders;
namespace UniversalResourceTransfer
{
public class VesselFinder
{
// Loading all vessels that have WirelessSource module, and adding them to a list to use later
public void SourceData(string vesselName, out List<Vessel> vesselList, out List<double> excess, out List<double> constant, out List<string> target, out List<string> wave)
{
ConfigNode Node = ConfigNode.Load(KSPUtil.ApplicationRootPath + "saves/" + HighLogic.SaveFolder + "/persistent.sfs");
ConfigNode FlightNode = Node.GetNode("GAME").GetNode("FLIGHTSTATE");
vesselList = new List<Vessel>(); excess = new List<double>();
constant = new List<double>(); target = new List<string>();
wave = new List<string>();
foreach (ConfigNode vesselnode in FlightNode.GetNodes("VESSEL"))
{
if (vesselnode.GetValue("name") != vesselName)
{
foreach (ConfigNode partnode in vesselnode.GetNodes("PART"))
{
if (partnode.HasNode("MODULE"))
{
foreach (ConfigNode module in partnode.GetNodes("MODULE"))
{
if (module.GetValue("name") == "WirelessSource")
{
foreach (Vessel vessel in FlightGlobals.Vessels)
{
if (vesselnode.GetValue("name") == vessel.GetDisplayName())
{
vesselList.Add(vessel);
if (vessel.loaded)
{
foreach (Part part in vessel.Parts)
{
if (part.Modules.Contains<WirelessSource>())
{
excess.Add(Convert.ToDouble(part.Modules.GetModule<WirelessSource>().Fields.GetValue("Excess")));
constant.Add(Convert.ToDouble(part.Modules.GetModule<WirelessSource>().Fields.GetValue("Constant")));
target.Add(Convert.ToString(part.Modules.GetModule<WirelessSource>().Fields.GetValue("TransmittingTo")));
wave.Add(Convert.ToString(part.Modules.GetModule<WirelessSource>().Fields.GetValue("Wavelength")));
break;
}
}
}
else
{
excess.Add(Convert.ToDouble(module.GetValue("Excess")));
constant.Add(Convert.ToDouble(module.GetValue("Constant")));
target.Add(module.GetValue("TransmittingTo"));
wave.Add(module.GetValue("Wavelength"));
}
break;
}
}
break;
}
else if (module.GetValue("name") == "WirelessReflector")
{
foreach (Vessel vessel in FlightGlobals.Vessels)
{
if (vesselnode.GetValue("name") == vessel.GetDisplayName())
{
vesselList.Add(vessel);
if (vessel.loaded)
{
foreach (Part part in vessel.Parts)
{
if (part.Modules.Contains<WirelessReflector>())
{
excess.Add(Convert.ToDouble(part.Modules.GetModule<WirelessReflector>().Fields.GetValue("Excess")));
constant.Add(Convert.ToDouble(part.Modules.GetModule<WirelessReflector>().Fields.GetValue("Constant")));
target.Add(Convert.ToString(part.Modules.GetModule<WirelessReflector>().Fields.GetValue("TransmittingTo")));
wave.Add(Convert.ToString(part.Modules.GetModule<WirelessReflector>().Fields.GetValue("Wavelength")));
break;
}
}
}
else
{
excess.Add(Convert.ToDouble(module.GetValue("Excess")));
constant.Add(Convert.ToDouble(module.GetValue("Constant")));
target.Add(module.GetValue("TransmittingTo"));
wave.Add(module.GetValue("Wavelength"));
}
}
}
}
}
}
}
}
}
}
// gets all receiver spacecraft's confignodes from savefile
public void ReceiverData(string vesselName, out List<ConfigNode> receiversList)
{
ConfigNode Node = ConfigNode.Load(KSPUtil.ApplicationRootPath + "saves/" + HighLogic.SaveFolder + "/persistent.sfs");
ConfigNode FlightNode = Node.GetNode("GAME").GetNode("FLIGHTSTATE");
receiversList = new List<ConfigNode>();
foreach (ConfigNode vesselnode in FlightNode.GetNodes("VESSEL"))
{
if (vesselnode.GetValue("name") != vesselName)
{
foreach (ConfigNode partnode in vesselnode.GetNodes("PART"))
{
if (partnode.HasNode("MODULE"))
{
foreach (ConfigNode module in partnode.GetNodes("MODULE"))
{
if (module.GetValue("name") == "WirelessReceiver")
{
receiversList.Add(vesselnode);
break;
}
else if (module.GetValue("name") == "WirelessReflector" | module.GetValue("name") == "ThermalEngine")
{
receiversList.Add(vesselnode);
break;
}
else if (module.GetValue("name") == "AblativeEngine" | module.GetValue("name") == "PhotonSail")
{
receiversList.Add(vesselnode);
break;
}
}
}
}
}
}
}
}
public class PlanetOcclusion
{
// checks for occlusion by each celestial body
public void IsOccluded(Vector3d source, Vector3d dest, string wavelength, out CelestialBody celestialBody, out bool occluded)
{
bool planetocclusion = HighLogic.CurrentGame.Parameters.CustomParams<BPSettings>().planetOcclusion;
Transform transform2; double radius2; celestialBody = new CelestialBody(); occluded = new bool();
if (planetocclusion)
{
for (int x = 0; x < FlightGlobals.Bodies.Count; x++)
{
transform2 = FlightGlobals.Bodies[x].transform;
radius2 = FlightGlobals.Bodies[x].Radius;
celestialBody = FlightGlobals.Bodies[x];
radius2 *= (wavelength == "Long") ? 0.7 : 0.95;
OccluderHorizonCulling occlusion = new OccluderHorizonCulling(transform2, radius2, radius2, radius2);
occlusion.Update();
occluded = occlusion.Raycast(source, dest);
if (occluded == true)
{
break;
}
}
}
else
{
occluded = false;
}
}
}
public class RelativisticEffects
{
bool relativistic; const float c = 299792452; Vector3d prevPos = Vector3d.zero;
string exceeded_c = Localizer.Format("#LOC_BeamedPower_ExceededC");
public double RedOrBlueShift(Vessel source, Vessel dest, string state, out string status)
{
relativistic = HighLogic.CurrentGame.Parameters.CustomParams<BPSettings>().relativistic; double powerMult;
double v = Vector3d.Magnitude(source.orbit.GetWorldSpaceVel() - dest.orbit.GetWorldSpaceVel());
v *= Math.Cos(Vector3d.Angle((source.GetWorldPos3D() - dest.GetWorldPos3D()),
(source.orbit.GetWorldSpaceVel() - dest.orbit.GetWorldSpaceVel())));
if (relativistic)
{
if (v >= c - 1)
{
powerMult = 0;
status = exceeded_c;
}
else
{
powerMult = Math.Sqrt((1 + v / c) / (1 - v / c));
status = state;
}
}
else
{
powerMult = 1;
status = state;
}
return powerMult;
}
public bool WarpDriveEngaged(Part part)
{
relativistic = HighLogic.CurrentGame.Parameters.CustomParams<BPSettings>().relativistic; bool warping = false;
if (relativistic)
{
Vector3d position = part.vessel.GetWorldPos3D();
double displacement = Vector3d.Distance(position, prevPos);
double v = displacement / TimeWarp.fixedDeltaTime;
if (v > part.vessel.orbit.GetWorldSpaceVel().magnitude * 2d)
{
warping = true;
}
prevPos = position;
}
return warping;
}
}
}