public static IOrbitingBody Generate(
Distance orbitalDistance,
short orbitNumber,
string occupiedType,
string orbitType,
IStar parentStar,
double combinedLuminosity)
{
var p = new Planet();
p.Size = SystemBodySizeGenerator.Generate(orbitNumber, parentStar.Classification);
p.Diameter = PlanetDiameterGenerator.Generate(occupiedType, p.Size);
p.Density = DensityGenerator.Generate(orbitType);
p.Mass = PlanetMassGenerator.Generate(p.Diameter, p.Density);
p.OrbitNumber = orbitNumber;
p.OrbitalDistance = orbitalDistance;
p.OrbitalPeriod = OrbitalPeriodGenerator.Generate(parentStar, p);
p.OrbitEccentricity = OrbitalEccentricityGenerator.Generate();
p.OrbitFactor = OrbitFactorGenerator.Generate(p);
p.RotationPeriod = RotationPeriodGenerator.Generate(parentStar.Mass, p.OrbitalDistance);
p.AxialTilt = AxialTiltGenerator.Generate();
p.AxialTiltEffect = TiltEffectGenerator.Generate(p.AxialTilt);
p.Atmosphere = AtmosphereGenerator.Generate(orbitType, p.Size);
p.AtmosphereCode = AtmosphereCodeGenerator.Generate(p.Atmosphere);
p.Hydrographics = HydrographicsGenerator.Generate(orbitType, p.Atmosphere, p.Size);
p.MaxPopulation = MaxPopulationGenerator.Generate(orbitNumber, orbitType, p.Size, p.Atmosphere, p.Hydrographics, parentStar.HabitableZone);
p.EnergyAbsorptionFactor = EnergyAbsorptionGenerator.Generate(orbitType, p.Hydrographics, p.AtmosphereCode);
p.GreenhouseFactor = GreenhouseTables.GreenHouse[p.Atmosphere];
if (SystemConstants.UseGaiaFactor &&
p.MaxPopulation > 5)
{
p.EnergyAbsorptionFactor = GaiaFactorGenerator.Generate(combinedLuminosity, p.OrbitFactor, p.GreenhouseFactor, p.EnergyAbsorptionFactor);
}
p.MeanTemperature = MeanTemperatureGenerator.Generate(combinedLuminosity, p.OrbitFactor,
p.EnergyAbsorptionFactor, p.GreenhouseFactor);
p.Seasons = SeasonsGenerator.Generate(p.Size, p.AxialTilt, p.AxialTiltEffect, p.OrbitFactor,
p.MeanTemperature, combinedLuminosity, p.OrbitalDistance, p.RotationPeriod, p.Atmosphere);
SatellitesGenerator.Generate(parentStar, p, combinedLuminosity);
return(p);
}
public static IOrbitingBody Generate(IStar parentStar, IStellarOrbitingBody parentBody, double combinedLuminosity)
{
Moon moon = new Moon();
//Body Details
moon.Size = SatelliteSizeGenerator.Generate(parentBody.Size);
moon.Density = DensityGenerator.Generate(parentBody.OrbitType);
moon.Diameter = PlanetDiameterGenerator.Generate(OccupiedTypes.World, moon.Size);
moon.Mass = PlanetMassGenerator.Generate(moon.Diameter, moon.Density);
//Orbital
moon.OrbitalDistance = SatelliteOrbitDistanceGenerator.Generate(parentBody);
moon.OrbitalPeriod = OrbitalPeriodGenerator.Generate(parentBody, moon);
moon.OrbitFactor = OrbitFactorGenerator.Generate(parentBody);
moon.OrbitEccentricity = OrbitalEccentricityGenerator.Generate();
moon.RotationPeriod = (4 * (DieRoll.Roll2D6() - 2)) + 5;
moon.AxialTilt = AxialTiltGenerator.Generate();
moon.AxialTiltEffect = TiltEffectGenerator.Generate(moon.AxialTilt);
//Environmental
moon.Atmosphere = AtmosphereGenerator.Generate(parentBody.OrbitType, parentBody.Size);
moon.AtmosphereCode = AtmosphereCodeGenerator.Generate(moon.Atmosphere);
moon.Hydrographics = HydrographicsGenerator.Generate(parentBody.OrbitType, moon.Size, moon.Atmosphere);
moon.MaxPopulation = MaxPopulationGenerator.Generate(parentBody.OrbitNumber, parentBody.OrbitType, moon.Size,
moon.Atmosphere, moon.Hydrographics, parentStar.HabitableZone);
moon.EnergyAbsorptionFactor = EnergyAbsorptionGenerator.Generate(parentBody.OrbitType, moon.Hydrographics, moon.AtmosphereCode);
moon.GreenhouseFactor = GreenhouseTables.GreenHouse[moon.Atmosphere];
if (SystemConstants.UseGaiaFactor &&
moon.MaxPopulation > 5)
{
moon.EnergyAbsorptionFactor = GaiaFactorGenerator.Generate(combinedLuminosity, moon.OrbitFactor, moon.GreenhouseFactor, moon.EnergyAbsorptionFactor);
}
moon.MeanTemperature = MeanTemperatureGenerator.Generate(combinedLuminosity, moon.OrbitFactor, moon.EnergyAbsorptionFactor, moon.GreenhouseFactor);
moon.Seasons = SeasonsGenerator.Generate(moon.Size, moon.AxialTilt, moon.AxialTiltEffect, moon.OrbitFactor,
moon.MeanTemperature, combinedLuminosity, moon.OrbitalDistance, moon.RotationPeriod, moon.Atmosphere);
return(moon);
}
