public static string RequirementText(string requirement)
{
var parts = Lib.Tokenize(requirement, ':');
var condition = parts[0];
string value = string.Empty;
if (parts.Count > 1)
{
value = parts[1];
}
switch (condition)
{
case "OrbitMinInclination": return(Lib.BuildString("Min. inclination ", value, "°"));
case "OrbitMaxInclination": return(Lib.BuildString("Max. inclination ", value, "°"));
case "OrbitMinEccentricity": return(Lib.BuildString("Min. eccentricity ", value));
case "OrbitMaxEccentricity": return(Lib.BuildString("Max. eccentricity ", value));
case "OrbitMinArgOfPeriapsis": return(Lib.BuildString("Min. argument of Pe ", value));
case "OrbitMaxArgOfPeriapsis": return(Lib.BuildString("Max. argument of Pe ", value));
case "AltitudeMin": return(Lib.BuildString("Min. altitude ", Lib.HumanReadableRange(Double.Parse(value))));
case "AltitudeMax":
var v = Double.Parse(value);
if (v >= 0)
{
return(Lib.BuildString("Max. altitude ", Lib.HumanReadableRange(v)));
}
return(Lib.BuildString("Min. depth ", Lib.HumanReadableRange(-v)));
case "RadiationMin": return(Lib.BuildString("Min. radiation ", Lib.HumanReadableRadiation(Double.Parse(value))));
case "RadiationMax": return(Lib.BuildString("Max. radiation ", Lib.HumanReadableRadiation(Double.Parse(value))));
case "Body": return(PrettyBodyText(value));
case "TemperatureMin": return(Lib.BuildString("Min. temperature ", Lib.HumanReadableTemp(Double.Parse(value))));
case "TemperatureMax": return(Lib.BuildString("Max. temperature ", Lib.HumanReadableTemp(Double.Parse(value))));
case "CrewMin": return(Lib.BuildString("Min. crew ", value));
case "CrewMax": return(Lib.BuildString("Max. crew ", value));
case "CrewCapacityMin": return(Lib.BuildString("Min. crew capacity ", value));
case "CrewCapacityMax": return(Lib.BuildString("Max. crew capacity ", value));
case "VolumePerCrewMin": return(Lib.BuildString("Min. vol./crew ", Lib.HumanReadableVolume(double.Parse(value))));
case "VolumePerCrewMax": return(Lib.BuildString("Max. vol./crew ", Lib.HumanReadableVolume(double.Parse(value))));
case "MaxAsteroidDistance": return(Lib.BuildString("Max. asteroid distance ", Lib.HumanReadableRange(double.Parse(value))));
case "SunAngleMin": return(Lib.BuildString("Min. sun angle ", Lib.HumanReadableAngle(double.Parse(value))));
case "SunAngleMax": return(Lib.BuildString("Max. sun angle ", Lib.HumanReadableAngle(double.Parse(value))));
case "AtmosphereBody": return("Body with atmosphere");
case "AtmosphereAltMin": return(Lib.BuildString("Min. atmosphere altitude ", value));
case "AtmosphereAltMax": return(Lib.BuildString("Max. atmosphere altitude ", value));
case "SurfaceSpeedMin": return(Lib.BuildString("Min. surface speed ", Lib.HumanReadableSpeed(double.Parse(value))));
case "SurfaceSpeedMax": return(Lib.BuildString("Max. surface speed ", Lib.HumanReadableSpeed(double.Parse(value))));
case "VerticalSpeedMin": return(Lib.BuildString("Min. vertical speed ", Lib.HumanReadableSpeed(double.Parse(value))));
case "VerticalSpeedMax": return(Lib.BuildString("Max. vertical speed ", Lib.HumanReadableSpeed(double.Parse(value))));
case "SpeedMin": return(Lib.BuildString("Min. speed ", Lib.HumanReadableSpeed(double.Parse(value))));
case "SpeedMax": return(Lib.BuildString("Max. speed ", Lib.HumanReadableSpeed(double.Parse(value))));
case "DynamicPressureMin": return(Lib.BuildString("Min. dynamic pressure ", Lib.HumanReadablePressure(double.Parse(value))));
case "DynamicPressureMax": return(Lib.BuildString("Max. dynamic pressure ", Lib.HumanReadablePressure(double.Parse(value))));
case "StaticPressureMin": return(Lib.BuildString("Min. pressure ", Lib.HumanReadablePressure(double.Parse(value))));
case "StaticPressureMax": return(Lib.BuildString("Max. pressure ", Lib.HumanReadablePressure(double.Parse(value))));
case "AtmDensityMin": return(Lib.BuildString("Min. atm. density ", Lib.HumanReadablePressure(double.Parse(value))));
case "AtmDensityMax": return(Lib.BuildString("Max. atm. density ", Lib.HumanReadablePressure(double.Parse(value))));
case "AltAboveGroundMin": return(Lib.BuildString("Min. ground altitude ", Lib.HumanReadableRange(double.Parse(value))));
case "AltAboveGroundMax": return(Lib.BuildString("Max. ground altitude ", Lib.HumanReadableRange(double.Parse(value))));
case "MissionControlLevelMin": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.MissionControl), " level ", value));
case "MissionControlLevelMax": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.MissionControl), " max. level ", value));
case "AdministrationLevelMin": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.Administration), " level ", value));
case "AdministrationLevelMax": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.Administration), " max. level ", value));
case "TrackingStationLevelMin": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.TrackingStation), " level ", value));
case "TrackingStationLevelMax": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.TrackingStation), " max. level ", value));
case "AstronautComplexLevelMin": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.AstronautComplex), " level ", value));
case "AstronautComplexLevelMax": return(Lib.BuildString(ScenarioUpgradeableFacilities.GetFacilityName(SpaceCenterFacility.AstronautComplex), " max. level ", value));
case "Part": return(Lib.BuildString("Needs part ", value));
case "Module": return(Lib.BuildString("Needs module ", value));
default:
return(Lib.SpacesOnCaps(condition));
}
}
public static string ReqValueFormat(Require req, object reqValue)
{
switch (req)
{
case Require.OrbitMinEccentricity:
case Require.OrbitMaxEccentricity:
case Require.OrbitMinArgOfPeriapsis:
case Require.OrbitMaxArgOfPeriapsis:
case Require.AtmosphereAltMin:
case Require.AtmosphereAltMax:
return(((double)reqValue).ToString("F2"));
case Require.SunAngleMin:
case Require.SunAngleMax:
case Require.OrbitMinInclination:
case Require.OrbitMaxInclination:
return(Lib.HumanReadableAngle((double)reqValue));
case Require.TemperatureMin:
case Require.TemperatureMax:
return(Lib.HumanReadableTemp((double)reqValue));
case Require.AltitudeMin:
case Require.AltitudeMax:
case Require.AltAboveGroundMin:
case Require.AltAboveGroundMax:
case Require.MaxAsteroidDistance:
return(Lib.HumanReadableDistance((double)reqValue));
case Require.RadiationMin:
case Require.RadiationMax:
return(Lib.HumanReadableRadiation((double)reqValue));
case Require.VolumePerCrewMin:
case Require.VolumePerCrewMax:
return(Lib.HumanReadableVolume((double)reqValue));
case Require.SurfaceSpeedMin:
case Require.SurfaceSpeedMax:
case Require.VerticalSpeedMin:
case Require.VerticalSpeedMax:
case Require.SpeedMin:
case Require.SpeedMax:
return(Lib.HumanReadableSpeed((double)reqValue));
case Require.DynamicPressureMin:
case Require.DynamicPressureMax:
case Require.StaticPressureMin:
case Require.StaticPressureMax:
case Require.AtmDensityMin:
case Require.AtmDensityMax:
return(Lib.HumanReadablePressure((double)reqValue));
case Require.CrewMin:
case Require.CrewMax:
case Require.CrewCapacityMin:
case Require.CrewCapacityMax:
case Require.AstronautComplexLevelMin:
case Require.AstronautComplexLevelMax:
case Require.TrackingStationLevelMin:
case Require.TrackingStationLevelMax:
case Require.MissionControlLevelMin:
case Require.MissionControlLevelMax:
case Require.AdministrationLevelMin:
case Require.AdministrationLevelMax:
return(((int)reqValue).ToString());
case Require.Module:
return(KSPUtil.PrintModuleName((string)reqValue));
case Require.Part:
return(PartLoader.getPartInfoByName((string)reqValue)?.title ?? (string)reqValue);
default:
return(string.Empty);
}
}