private static Body ParseEddbBody(object response)
{
JObject bodyJson = ((JObject)response);
Body Body = new Body
{
// General items
EDDBID = (long)bodyJson["id"],
updatedat = (long)(Dates.fromDateTimeStringToSeconds((string)bodyJson["updated_at"])),
name = (string)bodyJson["name"],
Type = BodyType.FromEDName((string)bodyJson["group_name"]),
systemEDDBID = (long)bodyJson["system_id"],
// Orbital data
distance = (decimal?)bodyJson["distance_to_arrival"], // Light seconds
temperature = (decimal?)bodyJson["surface_temperature"], //Kelvin
tidallylocked = (bool?)bodyJson["is_rotational_period_tidally_locked"] ?? false, // Days
rotationalperiod = (decimal?)(double?)bodyJson["rotational_period"], // Days
tilt = (decimal?)(double?)bodyJson["axis_tilt"], // Degrees
semimajoraxis = ConstantConverters.au2ls((decimal?)(double?)bodyJson["semi_major_axis"]), // Light Seconds
orbitalperiod = (decimal?)(double?)bodyJson["orbital_period"], // Days
periapsis = (decimal?)(double?)bodyJson["arg_of_periapsis"], // Degrees
eccentricity = (decimal?)(double?)bodyJson["orbital_eccentricity"],
inclination = (decimal?)(double?)bodyJson["orbital_inclination"] // Degrees
};
if ((string)bodyJson["group_name"] == "belt")
{
// Not interested in asteroid belts,
// no need to add additional information at this time.
}
else if ((string)bodyJson["group_name"] == "star")
{
// Star-specific items
Body.stellarclass = ((string)bodyJson["spectral_class"])?.ToUpperInvariant();
Body.luminosityclass = ((string)bodyJson["luminosity_class"])?.ToUpperInvariant();
Body.solarmass = (decimal?)(double?)bodyJson["solar_masses"];
Body.solarradius = (decimal?)(double?)bodyJson["solar_radius"];
Body.age = (long?)bodyJson["age"]; // MegaYears
Body.mainstar = (bool?)bodyJson["is_main_star"];
Body.landable = false;
Body.setStellarExtras();
}
else if ((string)bodyJson["group_name"] == "planet")
{
// Planet-specific items
Body.planetClass = PlanetClass.FromEDName((string)bodyJson["type_name"]);
Body.landable = (bool?)bodyJson["is_landable"] ?? false;
Body.earthmass = (decimal?)(double?)bodyJson["earth_masses"];
Body.gravity = (decimal?)(double?)bodyJson["gravity"]; // G's
Body.radius = (decimal?)bodyJson["radius"]; // Kilometers
Body.pressure = (decimal?)(double?)bodyJson["surface_pressure"] ?? 0;
Body.terraformState = TerraformState.FromName((string)bodyJson["terraforming_state_name"]);
// Per Themroc @ EDDB, "Major" and "Minor" volcanism descriptors are stripped from EDDB data.
Body.volcanism = Volcanism.FromName((string)bodyJson["volcanism_type_name"]);
Body.atmosphereclass = AtmosphereClass.FromName((string)bodyJson["atmosphere_type_name"]);
if (bodyJson["atmosphere_composition"] != null)
{
List <AtmosphereComposition> atmosphereCompositions = new List <AtmosphereComposition>();
foreach (JObject atmoJson in bodyJson["atmosphere_composition"])
{
string composition = (string)atmoJson["atmosphere_component_name"];
decimal?share = (decimal?)atmoJson["share"];
if (composition != null && share != null)
{
atmosphereCompositions.Add(new AtmosphereComposition(composition, (decimal)share));
}
}
if (atmosphereCompositions.Count > 0)
{
atmosphereCompositions = atmosphereCompositions.OrderByDescending(x => x.percent).ToList();
Body.atmospherecompositions = atmosphereCompositions;
}
}
if (bodyJson["solid_composition"] != null)
{
List <SolidComposition> bodyCompositions = new List <SolidComposition>();
foreach (JObject bodyCompJson in bodyJson["solid_composition"])
{
string composition = (string)bodyCompJson["solid_component_name"];
decimal?share = (decimal?)bodyCompJson["share"];
if (composition != null && share != null)
{
bodyCompositions.Add(new SolidComposition(composition, (decimal)share));
}
}
if (bodyCompositions.Count > 0)
{
bodyCompositions = bodyCompositions.OrderByDescending(x => x.percent).ToList();
Body.solidcompositions = bodyCompositions;
}
}
if (bodyJson["materials"] != null)
{
List <MaterialPresence> Materials = new List <MaterialPresence>();
foreach (JObject materialJson in bodyJson["materials"])
{
Material material = Material.FromEDName((string)materialJson["material_name"]);
decimal? amount = (decimal?)(double?)materialJson["share"];
if (material != null && amount != null)
{
Materials.Add(new MaterialPresence(material, (decimal)amount));
}
}
if (Materials.Count > 0)
{
Body.materials = Materials.OrderByDescending(o => o.percentage).ToList();
}
}
}
// Rings may be an object or may be a singular
List <Ring> rings = new List <Ring>();
if (bodyJson["rings"] != null)
{
foreach (JObject ringJson in bodyJson["rings"])
{
string name = (string)ringJson["name"];
RingComposition composition = RingComposition.FromName((string)ringJson["ring_type_name"]);
decimal ringMassMegaTons = (decimal)ringJson["ring_mass"];
decimal innerRadiusKm = (decimal)ringJson["ring_inner_radius"];
decimal outerRadiusKm = (decimal)ringJson["ring_outer_radius"];
Ring ring = new Ring(name, composition, ringMassMegaTons, innerRadiusKm, outerRadiusKm);
rings.Add(ring);
}
}
if (bodyJson["ring_type_name"].HasValues)
{
string name = (string)bodyJson["name"];
RingComposition composition = RingComposition.FromName((string)bodyJson["ring_type_name"]);
decimal ringMassMegaTons = (decimal)bodyJson["ring_mass"];
decimal innerRadiusKm = (decimal)bodyJson["ring_inner_radius"];
decimal outerRadiusKm = (decimal)bodyJson["ring_outer_radius"];
Ring ring = new Ring(name, composition, ringMassMegaTons, innerRadiusKm, outerRadiusKm);
rings.Add(ring);
}
if (rings.Count > 0)
{
Body.rings = rings.OrderBy(o => o.innerradius).ToList();
}
return(Body);
}
private Body ParseStarMapBody(JObject body, string systemName)
{
// General items
long? bodyId = (long?)body["bodyId"];
long? EDSMID = (long?)body["id"];
string bodyname = (string)body["name"];
BodyType bodyType = BodyType.FromName((string)body["type"]) ?? BodyType.None;
decimal? distanceLs = (decimal?)body["distanceToArrival"]; // Light Seconds
decimal? temperatureKelvin = (long?)body["surfaceTemperature"]; // Kelvin
// Orbital characteristics
decimal?orbitalPeriodDays = (decimal?)body["orbitalPeriod"]; // Days
decimal?semimajoraxisLs = ConstantConverters.au2ls((decimal?)body["semiMajorAxis"]); // Light seconds
decimal?eccentricity = (decimal?)body["orbitalEccentricity"];
decimal?orbitalInclinationDegrees = (decimal?)body["orbitalInclination"]; // Degrees
decimal?periapsisDegrees = (decimal?)body["argOfPeriapsis"]; // Degrees
decimal?rotationPeriodDays = (decimal?)body["rotationalPeriod"]; // Days
decimal?axialTiltDegrees = (decimal?)body["axialTilt"]; // Degrees
List <IDictionary <string, object> > parents = new List <IDictionary <string, object> >();
if (body["parents"] != null)
{
// Parent body types and IDs
parents = body["parents"].ToObject <List <IDictionary <string, object> > >() ?? new List <IDictionary <string, object> >();
}
List <Ring> rings = new List <Ring>();
if ((JArray)body["rings"] != null || (JArray)body["belts"] != null)
{
var ringsData = body["rings"] ?? body["belts"];
if (ringsData != null)
{
foreach (JObject ring in ringsData)
{
rings.Add(new Ring(
(string)ring["name"],
RingComposition.FromName((string)ring["type"]),
(decimal)ring["mass"],
(decimal)ring["innerRadius"],
(decimal)ring["outerRadius"]
));
}
}
}
if ((string)body["type"] == "Star")
{
// Star-specific items
string stellarclass = ((string)body["subType"]).Split(' ')[0]; // Splits "B (Blue-White) Star" to "B"
int? stellarsubclass = null;
string endOfStellarClass = stellarclass.ToCharArray().ElementAt(stellarclass.Length - 1).ToString();
if (int.TryParse(endOfStellarClass, out int subclass))
{
// If our stellarclass ends in a number, we need to separate the class from the subclass
stellarsubclass = subclass;
stellarclass = stellarclass.Replace(endOfStellarClass, "");
}
long? ageMegaYears = (long?)body["age"]; // Age in megayears
string luminosityclass = (string)body["luminosity"];
decimal?absolutemagnitude = (decimal?)body["absoluteMagnitude"];
decimal?stellarMass = (decimal?)body["solarMasses"];
decimal?solarradius = (decimal?)body["solarRadius"];
decimal radiusKm = (decimal)(solarradius != null ? solarradius * Constants.solarRadiusMeters / 1000 : null);
Body Body = new Body(bodyname, bodyId, parents, distanceLs, stellarclass, stellarsubclass, stellarMass,
radiusKm, absolutemagnitude, ageMegaYears, temperatureKelvin, luminosityclass, semimajoraxisLs,
eccentricity, orbitalInclinationDegrees, periapsisDegrees, orbitalPeriodDays, rotationPeriodDays,
axialTiltDegrees, rings, true, false, systemName, null)
{
EDSMID = EDSMID
};
DateTime updatedAt = JsonParsing.getDateTime("updateTime", body);
Body.updatedat = updatedAt == null ? null : (long?)Dates.fromDateTimeToSeconds(updatedAt);
return(Body);
}
if ((string)body["type"] == "Planet")
{
// Planet and moon specific items
PlanetClass planetClass = PlanetClass.FromName((string)body["subType"]) ?? PlanetClass.None;
bool? tidallylocked = (bool?)body["rotationalPeriodTidallyLocked"] ?? false;
bool? landable = (bool?)body["isLandable"];
decimal? gravity = (decimal?)body["gravity"]; // G's
decimal? earthmass = (decimal?)body["earthMasses"];
decimal? radiusKm = (decimal?)body["radius"]; // Kilometers
TerraformState terraformState = TerraformState.FromName((string)body["terraformingState"]) ?? TerraformState.NotTerraformable;
Volcanism volcanism = null;
if ((string)body["volcanismType"] != null)
{
volcanism = Volcanism.FromName((string)body["volcanismType"]);
}
List <AtmosphereComposition> atmosphereCompositions = new List <AtmosphereComposition>();
if (body["atmosphereComposition"] is JObject)
{
var compositions = body["atmosphereComposition"].ToObject <Dictionary <string, decimal?> >();
foreach (KeyValuePair <string, decimal?> compositionKV in compositions)
{
string compositionName = compositionKV.Key;
decimal?share = compositionKV.Value;
if (compositionName != null && share != null)
{
atmosphereCompositions.Add(new AtmosphereComposition(compositionName, (decimal)share));
}
}
if (atmosphereCompositions.Count > 0)
{
atmosphereCompositions = atmosphereCompositions.OrderByDescending(x => x.percent).ToList();
}
}
decimal? pressureAtm = (decimal?)body["surfacePressure"];
AtmosphereClass atmosphereClass = null;
if (((string)body["subType"]).Contains("gas giant") &&
(string)body["atmosphereType"] == "No atmosphere")
{
// EDSM classifies any body with an empty string atmosphere property as "No atmosphere".
// However, gas giants also receive an empty string. Fix it, since gas giants have atmospheres.
atmosphereClass = AtmosphereClass.FromEDName("GasGiant");
}
else
{
atmosphereClass = AtmosphereClass.FromName((string)body["atmosphereType"]);
}
List <SolidComposition> solidCompositions = new List <SolidComposition>();
if (body["solidComposition"] is JObject)
{
var compositions = body["solidComposition"].ToObject <Dictionary <string, decimal?> >();
foreach (KeyValuePair <string, decimal?> compositionKV in compositions)
{
string composition = compositionKV.Key;
decimal?share = compositionKV.Value;
if (composition != null && share != null)
{
solidCompositions.Add(new SolidComposition(composition, (decimal)share));
}
}
if (solidCompositions.Count > 0)
{
solidCompositions = solidCompositions.OrderByDescending(x => x.percent).ToList();
}
}
List <MaterialPresence> materials = new List <MaterialPresence>();
if (body["materials"] is JObject)
{
var materialsData = body["materials"].ToObject <Dictionary <string, decimal?> >();
foreach (KeyValuePair <string, decimal?> materialKV in materialsData)
{
Material material = Material.FromName(materialKV.Key);
decimal? amount = materialKV.Value;
if (material != null && amount != null)
{
materials.Add(new MaterialPresence(material, (decimal)amount));
}
}
if (materials.Count > 0)
{
materials = materials.OrderByDescending(o => o.percentage).ToList();
}
}
ReserveLevel reserveLevel = ReserveLevel.FromName((string)body["reserveLevel"]) ?? ReserveLevel.None;
DateTime updatedAt = JsonParsing.getDateTime("updateTime", body);
Body Body = new Body(bodyname, bodyId, parents, distanceLs, tidallylocked, terraformState, planetClass, atmosphereClass, atmosphereCompositions, volcanism, earthmass, radiusKm, (decimal)gravity, temperatureKelvin, pressureAtm, landable, materials, solidCompositions, semimajoraxisLs, eccentricity, orbitalInclinationDegrees, periapsisDegrees, orbitalPeriodDays, rotationPeriodDays, axialTiltDegrees, rings, reserveLevel, true, true, systemName, null)
{
EDSMID = EDSMID,
updatedat = updatedAt == null ? null : (long?)Dates.fromDateTimeToSeconds(updatedAt)
};
return(Body);
}
return(null);
}
private static Body ParseStarMapBody(JObject body, string system)
{
Body Body = new Body
{
// General items
EDSMID = (long?)body["id"],
name = (string)body["name"],
systemname = system,
Type = BodyType.FromName((string)body["type"]) ?? BodyType.None,
distance = (decimal?)body["distanceToArrival"], // Light Seconds
temperature = (long?)body["surfaceTemperature"], // Kelvin
// Orbital characteristics
orbitalperiod = (decimal?)body["orbitalPeriod"], // Days
semimajoraxis = ConstantConverters.au2ls((decimal?)body["semiMajorAxis"]), // Light seconds
eccentricity = (decimal?)body["orbitalEccentricity"],
inclination = (decimal?)body["orbitalInclination"], // Degrees
periapsis = (decimal?)body["argOfPeriapsis"], // Degrees
rotationalperiod = (decimal?)body["rotationalPeriod"], // Days
tidallylocked = (bool?)body["rotationalPeriodTidallyLocked"] ?? false,
tilt = (decimal?)body["axialTilt"] // Degrees
};
if ((string)body["type"] == "Belt")
{
// Not interested in asteroid belts,
// no need to add additional information at this time.
}
if ((string)body["type"] == "Star")
{
// Star-specific items
Body.stellarclass = ((string)body["subType"]).Split(' ')[0]; // Splits "B (Blue-White) Star" to "B"
Body.mainstar = (bool?)body["isMainStar"];
Body.age = (long?)body["age"]; // Age in megayears
Body.luminosityclass = (string)body["luminosity"];
Body.absoluteMagnitude = (decimal?)body["absoluteMagnitude"];
Body.solarmass = (decimal?)body["solarMasses"];
Body.solarradius = (decimal?)body["solarRadius"];
Body.landable = false;
Body.setStellarExtras();
}
if ((string)body["type"] == "Planet")
{
// Planet-specific items
Body.planetClass = PlanetClass.FromName((string)body["subType"]) ?? PlanetClass.None;
Body.landable = (bool?)body["isLandable"];
Body.gravity = (decimal?)body["gravity"]; // G's
Body.earthmass = (decimal?)body["earthMasses"];
Body.radius = (decimal?)body["radius"]; // Kilometers
Body.terraformState = TerraformState.FromName((string)body["terraformingState"]) ?? TerraformState.NotTerraformable;
if ((string)body["volcanismType"] != null)
{
Body.volcanism = Volcanism.FromName((string)body["volcanismType"]);
}
if (body["atmosphereComposition"] is JObject)
{
List <AtmosphereComposition> atmosphereCompositions = new List <AtmosphereComposition>();
var compositions = body["atmosphereComposition"].ToObject <Dictionary <string, decimal?> >();
foreach (KeyValuePair <string, decimal?> compositionKV in compositions)
{
string compositionName = compositionKV.Key;
decimal?share = compositionKV.Value;
if (compositionName != null && share != null)
{
atmosphereCompositions.Add(new AtmosphereComposition(compositionName, (decimal)share));
}
}
if (atmosphereCompositions.Count > 0)
{
atmosphereCompositions = atmosphereCompositions.OrderByDescending(x => x.percent).ToList();
Body.atmospherecompositions = atmosphereCompositions;
}
}
Body.pressure = (decimal?)body["surfacePressure"];
if (((string)body["subType"]).Contains("gas giant") &&
(string)body["atmosphereType"] == "No atmosphere")
{
// EDSM classifies any body with an empty string atmosphere property as "No atmosphere".
// However, gas giants also receive an empty string. Fix it, since gas giants have atmospheres.
Body.atmosphereclass = AtmosphereClass.FromEDName("GasGiant");
}
else
{
Body.atmosphereclass = AtmosphereClass.FromName((string)body["atmosphereType"]);
}
if (body["solidComposition"] is JObject)
{
List <SolidComposition> bodyCompositions = new List <SolidComposition>();
var compositions = body["solidComposition"].ToObject <Dictionary <string, decimal?> >();
foreach (KeyValuePair <string, decimal?> compositionKV in compositions)
{
string composition = compositionKV.Key;
decimal?share = compositionKV.Value;
if (composition != null && share != null)
{
bodyCompositions.Add(new SolidComposition(composition, (decimal)share));
}
}
if (bodyCompositions.Count > 0)
{
bodyCompositions = bodyCompositions.OrderByDescending(x => x.percent).ToList();
Body.solidcompositions = bodyCompositions;
}
}
if (body["materials"] is JObject)
{
List <MaterialPresence> Materials = new List <MaterialPresence>();
var materials = body["materials"].ToObject <Dictionary <string, decimal?> >();
foreach (KeyValuePair <string, decimal?> materialKV in materials)
{
Material material = Material.FromName(materialKV.Key);
decimal? amount = materialKV.Value;
if (material != null && amount != null)
{
Materials.Add(new MaterialPresence(material, (decimal)amount));
}
}
if (Materials.Count > 0)
{
Body.materials = Materials.OrderByDescending(o => o.percentage).ToList();
}
}
}
if ((JArray)body["rings"] != null || (JArray)body["belts"] != null)
{
var rings = body["rings"] ?? body["belts"];
if (rings != null)
{
List <Ring> Rings = new List <Ring>();
foreach (JObject ring in rings)
{
Rings.Add(new Ring(
(string)ring["name"],
RingComposition.FromName((string)ring["type"]),
(decimal)ring["mass"],
(decimal)ring["innerRadius"],
(decimal)ring["outerRadius"]
));
}
Body.rings = Rings;
}
}
Body.reserveLevel = ReserveLevel.FromName((string)body["reserveLevel"]) ?? ReserveLevel.None;
DateTime updatedAt = DateTime.SpecifyKind(DateTime.Parse((string)body["updateTime"]), DateTimeKind.Utc);
Body.updatedat = updatedAt == null ? null : (long?)(updatedAt.Subtract(new DateTime(1970, 1, 1, 0, 0, 0))).TotalSeconds;
return(Body);
}