using System;
using System.ComponentModel;
using System.ComponentModel.DataAnnotations;
using System.Runtime.Serialization;
using NewHorizons.External.Configs;
using NewHorizons.Utility;
using Newtonsoft.Json;
using Newtonsoft.Json.Converters;
namespace NewHorizons.External.Modules.VariableSize
{
[JsonObject]
public class StarModule : VariableSizeModule
{
///
/// Colour of the star at the end of its lifespan.
///
public MColor endTint;
///
/// Should this star explode at the end of its lifespan?
///
[Obsolete("goSupernova is deprecated, please use stellarDeathType instead")] [DefaultValue(true)] public bool goSupernova = true;
///
/// How long in minutes this star will last until it supernovas.
///
[DefaultValue(22f)]
public float lifespan = 22f;
///
/// Should we add a star controller to this body? If you want clouds to work on a binary brown dwarf system, set this to false.
///
[DefaultValue(true)] public bool hasStarController = true;
///
/// The default sun has its own atmosphere that is different from regular planets. If you want that, set this to
/// `true`.
///
[DefaultValue(true)] public bool hasAtmosphere = true;
///
/// Colour of the light given off. Defaults to yellowish.
///
public MColor lightTint;
///
/// Radius of the star.
///
[DefaultValue(2000f)] [Range(0f, double.MaxValue)]
public float size = 2000f;
///
/// Relative strength of the light compared to the sun.
///
[DefaultValue(1f)] [Range(0f, double.MaxValue)]
public float solarLuminosity = 1f;
///
/// Radius of the supernova. Any planets within this will be destroyed.
///
[DefaultValue(50000f)]
[Range(0f, double.MaxValue)]
public float supernovaSize = 50000f;
///
/// The tint of the supernova this star creates when it dies.
///
public MColor supernovaTint;
///
/// Colour of the star.
///
public MColor tint;
///
/// Path to the texture to put as the star ramp. Optional.
///
public string starRampTexture;
///
/// Path to the texture to put as the star ramp while it is collapsing. Optional.
///
public string starCollapseRampTexture;
///
/// How far the light from the star can reach.
///
[DefaultValue(50000f)] [Range(0f, double.MaxValue)]
public float lightRadius = 50000f;
///
/// The type of death your star will have.
///
[DefaultValue("default")] public StellarDeathType stellarDeathType = StellarDeathType.Default;
///
/// The type of stellar remnant your star will leave behind.
///
[DefaultValue("default")] public StellarRemnantType stellarRemnantType = StellarRemnantType.Default;
}
[JsonConverter(typeof(StringEnumConverter))]
public enum StellarDeathType
{
[EnumMember(Value = @"default")] Default,
[EnumMember(Value = @"none")] None,
[EnumMember(Value = @"planetaryNebula")] PlanetaryNebula,
[EnumMember(Value = @"supernova")] Supernova
}
[JsonConverter(typeof(StringEnumConverter))]
public enum StellarRemnantType
{
[EnumMember(Value = @"default")] Default,
[EnumMember(Value = @"whiteDwarf")] WhiteDwarf,
[EnumMember(Value = @"neutronStar")] NeutronStar,
[EnumMember(Value = @"pulsar")] Pulsar,
[EnumMember(Value = @"blackHole")] BlackHole,
[EnumMember(Value = @"custom")] Custom
}
}