public ProceduralConstructionSeed(ProceduralFactionSeed faction, Vector3D location, Ob_ProceduralConstructionSeed ob)
{
Faction = faction;
Location = location;
Name = ob.Name;
Orientation = ob.Orientation;
Population = ob.Population;
Seed = ob.Seed;
Speciality = ob.Speciality;
SpecialityExport = ob.SpecialityExport;
m_blockCountRequirements = new Dictionary <SupportedBlockTypes, BlockRequirement>();
foreach (var k in ob.BlockCountRequirements)
{
m_blockCountRequirements[k.Type] = new BlockRequirement(k.Count, k.ErrorMultiplier);
}
m_imports = TradeReqToDictionary(ob.Imports);
m_exports = TradeReqToDictionary(ob.Exports);
m_localStorage = TradeReqToDictionary(ob.Local);
ComputeStorageVolumeMass(out StorageVolume, out StorageMass);
}
private ProceduralFactionSpeciality Add(ProceduralStationSpeciality s, float w)
{
StationSpecialities.Add(new KeyValuePair <ProceduralStationSpeciality, float>(s, w));
return(this);
}
public ProceduralConstructionSeed(ProceduralFactionSeed faction, Vector4D locationDepth, Quaternion?orientation, long seed,
int?populationOverride = null)
{
Seed = seed;
Location = locationDepth.XYZ();
Faction = faction;
var tmpRandom = new Random((int)seed);
Population = populationOverride ?? (int)MyMath.Clamp((float)(Math.Round(5 * tmpRandom.NextExponential() * locationDepth.W)), 1, 100);
var sqrtPopulation = Math.Sqrt(Population);
var choice = new WeightedChoice <ProceduralStationSpeciality>();
foreach (var kv in Faction.Specialities)
{
foreach (var kt in kv.Key.StationSpecialities)
{
choice.Add(kt.Key, kv.Value * kt.Value);
}
}
Speciality = choice.Choose(tmpRandom.NextDouble(), WeightedChoice <ProceduralStationSpeciality> .WeightedNormalization.ClampToZero);
m_exports = new Dictionary <MyDefinitionId, TradeRequirements>(MyDefinitionId.Comparer);
m_imports = new Dictionary <MyDefinitionId, TradeRequirements>(MyDefinitionId.Comparer);
List <MyDefinitionBase> rchoice = null;
var specialExport = tmpRandom.NextDouble() <= Speciality.SpecializationChance;
if (specialExport)
{
rchoice = new List <MyDefinitionBase>();
}
foreach (var kv in MyDefinitionManager.Static.GetAllDefinitions())
{
if (Speciality.CanExport(kv))
{
m_exports.Add(kv.Id, default(TradeRequirements));
rchoice?.Add(kv);
}
if (Speciality.CanImport(kv))
{
m_imports.Add(kv.Id, default(TradeRequirements));
}
}
SpecialityExport = null;
if (specialExport)
{
// ReSharper disable once PossibleNullReferenceException
SpecialityExport = rchoice[tmpRandom.Next(0, rchoice.Count)].Id;
m_exports.Clear();
m_exports.Add(SpecialityExport.Value, default(TradeRequirements));
}
var nameBuilder = new StringBuilder();
nameBuilder.Append(Faction.FounderName).Append("'s ");
if (SpecialityExport.HasValue)
{
nameBuilder.Append(MyDefinitionManager.Static.GetDefinition(SpecialityExport.Value).DisplayNameText).Append(" ");
}
else if (Speciality.GeneralizedPrefixes != null && Speciality.GeneralizedPrefixes.Length > 0)
{
nameBuilder.Append(tmpRandom.NextUniformChoice(Speciality.GeneralizedPrefixes)).Append(" ");
}
nameBuilder.Append(tmpRandom.NextUniformChoice(Speciality.Suffixes));
Name = nameBuilder.ToString();
// Compute hotlisted import amounts
{
var keys = m_imports.Keys.ToList();
foreach (var kv in keys)
{
var baseMult = Population * tmpRandom.NextExponential() / keys.Count;
var k = MyDefinitionManager.Static.GetDefinition(kv);
var pi = k as MyPhysicalItemDefinition;
if (k is MyComponentDefinition)
{
baseMult *= 100 / pi.Mass;
}
else if (k.Id.TypeId == typeof(MyObjectBuilder_Ore))
{
baseMult *= 10000 / (1 + Math.Sqrt(OreUtilities.GetRarity(k.Id)));
}
else if (k.Id.TypeId == typeof(MyObjectBuilder_Ingot))
{
baseMult *= 5000 * OreUtilities.GetOutputRatio(k.Id);
}
else if (k.Id.TypeId == typeof(MyObjectBuilder_GasProperties))
{
baseMult *= 250000; // 1/10th a large tank
}
else if (pi != null)
{
baseMult *= 10 / pi.Mass;
}
m_imports[kv] = new TradeRequirements(baseMult, Math.Sqrt(baseMult));
}
}
// Compute exported amounts
{
var keys = m_exports.Keys.ToList();
foreach (var kv in keys)
{
var baseMult = Population * Population * tmpRandom.NextExponential() / keys.Count;
var k = MyDefinitionManager.Static.GetDefinition(kv);
var pi = k as MyPhysicalItemDefinition;
if (k is MyComponentDefinition)
{
baseMult *= 100 / pi.Mass;
}
else if (k.Id.TypeId == typeof(MyObjectBuilder_Ore))
{
baseMult *= 10000 / (1 + Math.Sqrt(OreUtilities.GetRarity(k.Id)));
}
else if (k.Id.TypeId == typeof(MyObjectBuilder_Ingot))
{
baseMult *= 5000 * OreUtilities.GetOutputRatio(k.Id);
}
else if (k.Id.TypeId == typeof(MyObjectBuilder_GasProperties))
{
baseMult *= 250000; // 1/10th a large tank
}
m_exports[kv] = new TradeRequirements(baseMult, Math.Sqrt(baseMult));
}
}
// Using exports, compute imports
{
foreach (var kv in m_exports)
{
var producer = BlueprintIndex.Instance.GetAllProducing(kv.Key, true).ToList();
foreach (var blueprint in producer)
{
foreach (var ingredient in blueprint.Ingredients)
{
var aStorage = kv.Value.Storage * (double)ingredient.Value / producer.Count;
var aThroughput = kv.Value.Throughput * (double)ingredient.Value / producer.Count;
TradeRequirements current;
m_imports[ingredient.Key] = m_imports.TryGetValue(ingredient.Key, out current) ?
new TradeRequirements(current.Storage + aStorage, current.Throughput + aThroughput) :
new TradeRequirements(aStorage, aThroughput);
}
}
}
}
m_localStorage = new Dictionary <MyDefinitionId, TradeRequirements>(MyDefinitionId.Comparer)
{
// ~0.5MWH / person stored, ~1MW / person produced
[MyResourceDistributorComponent.ElectricityId] = new TradeRequirements(Population * 0.5 * tmpRandom.NextNormal(1, 0.1), Population * tmpRandom.NextNormal(1, 0.1), 10, 10),
// one large O2 tank / 10 person stored (~2 days), 1 O2/sec/person produced
[MyResourceDistributorComponent.OxygenId] = new TradeRequirements(Population * 1e4 * tmpRandom.NextNormal(1, 0.1), Population * 1 * tmpRandom.NextNormal(1, 0.1), 10, 10),
// I don't even know how I'd guess this
[MyResourceDistributorComponent.HydrogenId] = new TradeRequirements(Population * 1e4 * tmpRandom.NextExponential(), tmpRandom.NextExponential() * sqrtPopulation)
};
// Compute mass & volume of storage
ComputeStorageVolumeMass(out StorageVolume, out StorageMass);
// ReSharper disable once UseObjectOrCollectionInitializer
m_blockCountRequirements = new Dictionary <SupportedBlockTypes, BlockRequirement>(SupportedBlockTypesEquality.Instance);
// living quarters.
var addlLiving = Faction.AttributeWeight(ProceduralFactionSpeciality.Housing);
m_blockCountRequirements[SupportedBlockTypes.CryoChamber] = Population + Math.Max(0, (int)Math.Round(sqrtPopulation * (tmpRandom.NextNormal(1, 2) + addlLiving)));
m_blockCountRequirements[SupportedBlockTypes.MedicalRoom] = new BlockRequirement(Math.Max(1, (int)Math.Round(sqrtPopulation * (tmpRandom.NextNormal(0.5, 0.5) + Math.Max(addlLiving, Faction.AttributeWeight(ProceduralFactionSpeciality.Military))))), 1e3);
m_blockCountRequirements[SupportedBlockTypes.ShipController] = Math.Max(1, (int)Math.Round(Population * tmpRandom.NextNormal(0.5, 0.5)));
// how "defensive" this group is
m_blockCountRequirements[SupportedBlockTypes.Weapon] = Math.Max(0, (int)Math.Round(Population * tmpRandom.NextNormal(2, 2) * Faction.AttributeWeight(ProceduralFactionSpeciality.Military)));
// ship repair?
m_blockCountRequirements[SupportedBlockTypes.ShipConstruction] = Math.Max(0, (int)Math.Round(Population * tmpRandom.NextNormal(4, 3) * Faction.AttributeWeight(ProceduralFactionSpeciality.Repair)));
// docking?
m_blockCountRequirements[SupportedBlockTypes.Docking] = Math.Max(1, (int)Math.Round(sqrtPopulation * tmpRandom.NextNormal(1, 1) * Faction.AttributeWeight(ProceduralFactionSpeciality.Housing)));
// comms?
m_blockCountRequirements[SupportedBlockTypes.Communications] = new BlockRequirement(Math.Max(1, (int)Math.Round(sqrtPopulation * MyMath.Clamp((float)tmpRandom.NextNormal(), 0, 1))), 1e6);
Orientation = tmpRandom.NextQuaternion();
// Branched, since we want to consume a quaternion from the random.
if (orientation != null)
{
Orientation = orientation.Value;
}
}
