private void CreatePlanet(int seed, float size) { Vector3D pos = MySector.MainCamera.Position + MySector.MainCamera.ForwardVector * size * 3 - new Vector3D(size); MyPlanetGeneratorDefinition planetDefinition = MyDefinitionManager.Static.GetDefinition<MyPlanetGeneratorDefinition>(MyStringHash.GetOrCompute(m_selectedPlanetName)); MyPlanetStorageProvider provider = new MyPlanetStorageProvider(); provider.Init(seed, planetDefinition, size / 2f); IMyStorage storage = new MyOctreeStorage(provider, provider.StorageSize); float minHillSize = provider.Radius * planetDefinition.HillParams.Min; float maxHillSize = provider.Radius * planetDefinition.HillParams.Max; float averagePlanetRadius = provider.Radius; float outerRadius = averagePlanetRadius + maxHillSize; float innerRadius = averagePlanetRadius + minHillSize; float atmosphereRadius = planetDefinition.AtmosphereSettings.HasValue && planetDefinition.AtmosphereSettings.Value.Scale > 1f ? 1 + planetDefinition.AtmosphereSettings.Value.Scale : 1.75f; atmosphereRadius *= provider.Radius; var planet = new MyPlanet(); planet.EntityId = MyRandom.Instance.NextLong(); MyPlanetInitArguments planetInitArguments; planetInitArguments.StorageName = "test"; planetInitArguments.Storage = storage; planetInitArguments.PositionMinCorner = pos; planetInitArguments.Radius = provider.Radius; planetInitArguments.AtmosphereRadius = atmosphereRadius; planetInitArguments.MaxRadius = outerRadius; planetInitArguments.MinRadius = innerRadius; planetInitArguments.HasAtmosphere = planetDefinition.HasAtmosphere; planetInitArguments.AtmosphereWavelengths = Vector3.Zero; planetInitArguments.GravityFalloff = planetDefinition.GravityFalloffPower; planetInitArguments.MarkAreaEmpty = true; planetInitArguments.AtmosphereSettings = planetDefinition.AtmosphereSettings.HasValue ? planetDefinition.AtmosphereSettings.Value : MyAtmosphereSettings.Defaults(); planetInitArguments.SurfaceGravity = planetDefinition.SurfaceGravity; planetInitArguments.AddGps = false; planetInitArguments.SpherizeWithDistance = true; planetInitArguments.Generator = planetDefinition; planetInitArguments.UserCreated = true; planet.Init(planetInitArguments); m_lastAsteroidInfo = new SpawnAsteroidInfo() { Asteroid = null, RandomSeed = seed, Position = Vector3D.Zero, IsProcedural = true, ProceduralRadius = size, }; MyClipboardComponent.Static.ActivateVoxelClipboard(planet.GetObjectBuilder(), storage, MySector.MainCamera.ForwardVector, (storage.Size * 0.5f).Length()); }
private static MyPlanet CreatePlanet(string storageName, string planetName, ref Vector3D positionMinCorner, int seed, float size, long entityId, ref MyPlanetGeneratorDefinition generatorDef, bool addGPS,bool userCreated = false) { if (MyFakes.ENABLE_PLANETS == false) { return null; } var random = MyRandom.Instance; using (MyRandom.Instance.PushSeed(seed)) { MyPlanetStorageProvider provider = new MyPlanetStorageProvider(); provider.Init(seed, generatorDef, size/2f); IMyStorage storage = new MyOctreeStorage(provider, provider.StorageSize); float minHillSize = provider.Radius * generatorDef.HillParams.Min; float maxHillSize = provider.Radius * generatorDef.HillParams.Max; float averagePlanetRadius = provider.Radius; float outerRadius = averagePlanetRadius + maxHillSize; float innerRadius = averagePlanetRadius + minHillSize; float atmosphereRadius = generatorDef.AtmosphereSettings.HasValue && generatorDef.AtmosphereSettings.Value.Scale > 1f ? 1 + generatorDef.AtmosphereSettings.Value.Scale : 1.75f; atmosphereRadius *= provider.Radius; float redAtmosphereShift = random.NextFloat(generatorDef.HostileAtmosphereColorShift.R.Min, generatorDef.HostileAtmosphereColorShift.R.Max); float greenAtmosphereShift = random.NextFloat(generatorDef.HostileAtmosphereColorShift.G.Min, generatorDef.HostileAtmosphereColorShift.G.Max); float blueAtmosphereShift = random.NextFloat(generatorDef.HostileAtmosphereColorShift.B.Min, generatorDef.HostileAtmosphereColorShift.B.Max); Vector3 atmosphereWavelengths = new Vector3(0.650f + redAtmosphereShift, 0.570f + greenAtmosphereShift, 0.475f + blueAtmosphereShift); atmosphereWavelengths.X = MathHelper.Clamp(atmosphereWavelengths.X, 0.1f, 1.0f); atmosphereWavelengths.Y = MathHelper.Clamp(atmosphereWavelengths.Y, 0.1f, 1.0f); atmosphereWavelengths.Z = MathHelper.Clamp(atmosphereWavelengths.Z, 0.1f, 1.0f); var planet = new MyPlanet(); planet.EntityId = entityId; MyPlanetInitArguments planetInitArguments; planetInitArguments.StorageName = storageName; planetInitArguments.Storage = storage; planetInitArguments.PositionMinCorner = positionMinCorner; planetInitArguments.Radius = provider.Radius; planetInitArguments.AtmosphereRadius = atmosphereRadius; planetInitArguments.MaxRadius = outerRadius; planetInitArguments.MinRadius = innerRadius; planetInitArguments.HasAtmosphere = generatorDef.HasAtmosphere; planetInitArguments.AtmosphereWavelengths = atmosphereWavelengths; planetInitArguments.GravityFalloff = generatorDef.GravityFalloffPower; planetInitArguments.MarkAreaEmpty = true; planetInitArguments.AtmosphereSettings = generatorDef.AtmosphereSettings.HasValue ? generatorDef.AtmosphereSettings.Value : MyAtmosphereSettings.Defaults(); planetInitArguments.SurfaceGravity = generatorDef.SurfaceGravity; planetInitArguments.AddGps = addGPS; planetInitArguments.SpherizeWithDistance = true; planetInitArguments.Generator = generatorDef; planetInitArguments.UserCreated = userCreated; planetInitArguments.InitializeComponents = true; planet.Init(planetInitArguments); MyEntities.Add(planet); MyEntities.RaiseEntityCreated(planet); return planet; } return null; }