public static void AddPlanetPrefab(string prefabName, string name)
        {
            DictionaryValuesReader <MyDefinitionId, MyPlanetPrefabDefinition> planetDefinitions = MyDefinitionManager.Static.GetPlanetsPrefabsDefinitions();

            foreach (var planetPrebabDefinition in planetDefinitions)
            {
                if (planetPrebabDefinition.Id.SubtypeName == prefabName)
                {
                    var voxelMap = new MyPlanet();
                    var ob       = planetPrebabDefinition.PlanetBuilder;

                    string storageName = MyFileSystem.ContentPath + "\\VoxelMaps\\" + ob.StorageName + MyVoxelConstants.FILE_EXTENSION;
                    voxelMap.EntityId = ob.EntityId;

                    MyPlanetInitArguments planetInitArguments;
                    planetInitArguments.StorageName           = ob.StorageName;
                    planetInitArguments.Storage               = MyStorageBase.LoadFromFile(storageName);
                    planetInitArguments.PositionMinCorner     = ob.PositionAndOrientation.Value.Position;
                    planetInitArguments.AveragePlanetRadius   = ob.Radius;
                    planetInitArguments.AtmosphereRadius      = ob.AtmosphereRadius;
                    planetInitArguments.MaximumHillRadius     = ob.MaximumHillRadius;
                    planetInitArguments.MinimumSurfaceRadius  = ob.MinimumSurfaceRadius;
                    planetInitArguments.HasAtmosphere         = ob.HasAtmosphere;
                    planetInitArguments.AtmosphereWavelengths = ob.AtmosphereWavelengths;
                    planetInitArguments.MaxOxygen             = ob.MaximumOxygen;
                    planetInitArguments.GravityFalloff        = ob.GravityFalloff;
                    planetInitArguments.MarkAreaEmpty         = true;

                    voxelMap.Init(planetInitArguments);
                    MyEntities.Add(voxelMap);
                }
            }
        }
        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,
            };

            MyCubeBuilder.Static.ActivateVoxelClipboard(planet.GetObjectBuilder(), storage, MySector.MainCamera.ForwardVector, (storage.Size * 0.5f).Length());
        }
        public static void AddPlanetPrefab(string planetName, string definitionName, Vector3D position, bool addGPS)
        {
            DictionaryValuesReader <MyDefinitionId, MyPlanetPrefabDefinition> planetPrefabDefinitions = MyDefinitionManager.Static.GetPlanetsPrefabsDefinitions();

            foreach (var planetPrefabDefinition in planetPrefabDefinitions)
            {
                if (planetPrefabDefinition.Id.SubtypeName == planetName)
                {
                    MyPlanetGeneratorDefinition planetDefinition = MyDefinitionManager.Static.GetDefinition <MyPlanetGeneratorDefinition>(MyStringHash.GetOrCompute(definitionName));

                    var planet = new MyPlanet();
                    var ob     = planetPrefabDefinition.PlanetBuilder;

                    string storageName = MyFileSystem.ContentPath + "\\VoxelMaps\\" + ob.StorageName + MyVoxelConstants.FILE_EXTENSION;
                    planet.EntityId = ob.EntityId;

                    MyPlanetInitArguments planetInitArguments;
                    planetInitArguments.StorageName           = ob.StorageName;
                    planetInitArguments.Storage               = MyStorageBase.LoadFromFile(storageName);
                    planetInitArguments.PositionMinCorner     = position;
                    planetInitArguments.Radius                = ob.Radius;
                    planetInitArguments.AtmosphereRadius      = ob.AtmosphereRadius;
                    planetInitArguments.MaxRadius             = ob.MaximumHillRadius;
                    planetInitArguments.MinRadius             = ob.MinimumSurfaceRadius;
                    planetInitArguments.HasAtmosphere         = planetDefinition.HasAtmosphere;
                    planetInitArguments.AtmosphereWavelengths = ob.AtmosphereWavelengths;
                    planetInitArguments.GravityFalloff        = planetDefinition.GravityFalloffPower;
                    planetInitArguments.MarkAreaEmpty         = true;
                    planetInitArguments.AtmosphereSettings    = ob.AtmosphereSettings.HasValue ? ob.AtmosphereSettings.Value : MyAtmosphereSettings.Defaults();
                    planetInitArguments.SurfaceGravity        = planetDefinition.SurfaceGravity;
                    planetInitArguments.AddGps                = addGPS;
                    planetInitArguments.SpherizeWithDistance  = true;
                    planetInitArguments.Generator             = planetDefinition;
                    planetInitArguments.UserCreated           = false;
                    planetInitArguments.InitializeComponents  = true;

                    planet.Init(planetInitArguments);
                    MyEntities.Add(planet);
                    MyEntities.RaiseEntityCreated(planet);
                }
            }
        }
        private static MyPlanet CreatePlanet(string storageName, ref Vector3D positionMinCorner, int seed, float size, long entityId, ref DictionaryValuesReader <MyDefinitionId, MyPlanetGeneratorDefinition> planetDefinitions)
        {
            if (MyFakes.ENABLE_PLANETS == false)
            {
                //return null;
            }

            m_materialsByOreType.Clear();
            m_oreProbalities.Clear();
            m_spawningMaterials.Clear();
            m_organicMaterials.Clear();

            foreach (var planetGeneratorDefinition in planetDefinitions)
            {
                var random = MyRandom.Instance;
                using (var stateToken = random.PushSeed(seed))
                {
                    BuildOreProbabilities(planetGeneratorDefinition);
                    FillMaterialCollections();

                    MyCsgShapePlanetShapeAttributes shapeAttributes = new MyCsgShapePlanetShapeAttributes();

                    shapeAttributes.Seed           = seed;
                    shapeAttributes.Diameter       = size;
                    shapeAttributes.Radius         = size / 2.0f;
                    shapeAttributes.DeviationScale = random.NextFloat(planetGeneratorDefinition.Deviation.Min, planetGeneratorDefinition.Deviation.Max);
                    float maxHillSize = random.NextFloat(planetGeneratorDefinition.HillParams.SizeRatio.Min, planetGeneratorDefinition.HillParams.SizeRatio.Max);


                    float planetHalfDeviation = (shapeAttributes.Diameter * shapeAttributes.DeviationScale) / 2.0f;
                    float hillHalfDeviation   = planetHalfDeviation * maxHillSize;
                    float canyonHalfDeviation = 1;


                    float averagePlanetRadius = shapeAttributes.Radius - hillHalfDeviation;

                    float outerRadius = averagePlanetRadius + hillHalfDeviation;
                    float innerRadius = averagePlanetRadius - canyonHalfDeviation;

                    float atmosphereRadius = MathHelper.Max(outerRadius, averagePlanetRadius * 1.08f);
                    float minPlanetRadius  = MathHelper.Min(innerRadius, averagePlanetRadius - planetHalfDeviation * 2 * 2.5f);

                    MyCsgShapePlanetMaterialAttributes materialAttributes = new MyCsgShapePlanetMaterialAttributes();
                    materialAttributes.OreStartDepth = innerRadius - random.NextFloat(planetGeneratorDefinition.MaterialsMinDepth.Min, planetGeneratorDefinition.MaterialsMinDepth.Max);
                    materialAttributes.OreEndDepth   = innerRadius - random.NextFloat(planetGeneratorDefinition.MaterialsMaxDepth.Min, planetGeneratorDefinition.MaterialsMaxDepth.Max);
                    materialAttributes.OreEndDepth   = MathHelper.Max(materialAttributes.OreEndDepth, 0);
                    materialAttributes.OreStartDepth = MathHelper.Max(materialAttributes.OreStartDepth, 0);

                    bool isHostile = random.NextFloat(0, 1) < planetGeneratorDefinition.HostilityProbability;

                    materialAttributes.OreProbabilities = new MyOreProbability[m_oreProbalities.Count];

                    for (int i = 0; i < m_oreProbalities.Count; ++i)
                    {
                        materialAttributes.OreProbabilities[i] = m_oreProbalities[i];
                        materialAttributes.OreProbabilities[i].CummulativeProbability /= m_oreCummulativeProbability;
                    }

                    shapeAttributes.AveragePlanetRadius = averagePlanetRadius;


                    IMyStorage storage = new MyOctreeStorage(MyCompositeShapeProvider.CreatePlanetShape(0, ref shapeAttributes, hillHalfDeviation, ref materialAttributes), MyVoxelCoordSystems.FindBestOctreeSize(size));

                    float redAtmosphereShift   = isHostile ? random.NextFloat(planetGeneratorDefinition.HostileAtmosphereColorShift.R.Min, planetGeneratorDefinition.HostileAtmosphereColorShift.R.Max) : 0;
                    float greenAtmosphereShift = isHostile ? random.NextFloat(planetGeneratorDefinition.HostileAtmosphereColorShift.G.Min, planetGeneratorDefinition.HostileAtmosphereColorShift.G.Max) : 0;
                    float blueAtmosphereShift  = isHostile ? random.NextFloat(planetGeneratorDefinition.HostileAtmosphereColorShift.B.Min, planetGeneratorDefinition.HostileAtmosphereColorShift.B.Max) : 0;

                    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);

                    float gravityFalloff = random.NextFloat(planetGeneratorDefinition.GravityFalloffPower.Min, planetGeneratorDefinition.GravityFalloffPower.Max);

                    var voxelMap = new MyPlanet();
                    voxelMap.EntityId = entityId;

                    MyPlanetInitArguments planetInitArguments;
                    planetInitArguments.StorageName           = storageName;
                    planetInitArguments.Storage               = storage;
                    planetInitArguments.PositionMinCorner     = positionMinCorner;
                    planetInitArguments.AveragePlanetRadius   = averagePlanetRadius;
                    planetInitArguments.AtmosphereRadius      = atmosphereRadius;
                    planetInitArguments.MaximumHillRadius     = averagePlanetRadius + hillHalfDeviation;
                    planetInitArguments.MinimumSurfaceRadius  = minPlanetRadius;
                    planetInitArguments.HasAtmosphere         = planetGeneratorDefinition.HasAtmosphere;
                    planetInitArguments.AtmosphereWavelengths = atmosphereWavelengths;
                    planetInitArguments.MaxOxygen             = isHostile ? 0.0f : 1.0f;
                    planetInitArguments.GravityFalloff        = gravityFalloff;
                    planetInitArguments.MarkAreaEmpty         = false;

                    voxelMap.Init(planetInitArguments);

                    MyEntities.Add(voxelMap);

                    m_materialsByOreType.Clear();
                    m_oreProbalities.Clear();
                    m_spawningMaterials.Clear();
                    m_organicMaterials.Clear();

                    return(voxelMap);
                }
            }
            return(null);
        }
Esempio n. 5
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        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;

                planet.Init(planetInitArguments);

                MyEntities.Add(planet);
                MyEntities.RaiseEntityCreated(planet);

                return(planet);
            }
            return(null);
        }
Esempio n. 6
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        public static MyPlanet SpawnPlanet(Vector3D pos, MyPlanetGeneratorDefinition generatorDef, long seed, float size, string storageName)
        {
            var provider = new PlanetStorageProviderBuilder();

            provider.Init(seed, generatorDef, size / 2f);

            var storageBuilder = new OctreeStorageBuilder(provider, provider.StorageSize);
            var storage        = MyAPIGateway.Session.VoxelMaps.CreateStorage(storageBuilder.GetCompressedData());

            var minHillSize = provider.Radius * generatorDef.HillParams.Min;
            var maxHillSize = provider.Radius * generatorDef.HillParams.Max;

            var averagePlanetRadius = provider.Radius;

            var outerRadius = averagePlanetRadius + maxHillSize;
            var innerRadius = averagePlanetRadius + minHillSize;

            var atmosphereRadius = AtmosphereRadius(generatorDef.AtmosphereSettings);

            atmosphereRadius *= (float)provider.Radius;

            var random               = new Random((int)seed);
            var redAtmosphereShift   = random.NextFloat(generatorDef.HostileAtmosphereColorShift.R.Min, generatorDef.HostileAtmosphereColorShift.R.Max);
            var greenAtmosphereShift = random.NextFloat(generatorDef.HostileAtmosphereColorShift.G.Min, generatorDef.HostileAtmosphereColorShift.G.Max);
            var blueAtmosphereShift  = random.NextFloat(generatorDef.HostileAtmosphereColorShift.B.Min, generatorDef.HostileAtmosphereColorShift.B.Max);

            var 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 entityId = GetPlanetEntityId($"proc_planet_{provider.Seed}_{(int) provider.Radius}_{(long) pos.X}_{(long) pos.Y}_{(long) pos.Z}");
            var result   = MyAPIGateway.Entities.GetEntityById(entityId);

            if (result != null)
            {
                return(result as MyPlanet);
            }
            var planet = new MyPlanet();

            planet.EntityId = entityId;
            MyPlanetInitArguments planetInitArguments = new MyPlanetInitArguments();

            planetInitArguments.StorageName = storageName;
            CastProhibit(storage, out planetInitArguments.Storage);
            var posMinCorner = pos - provider.Radius;

            planetInitArguments.PositionMinCorner     = posMinCorner;
            planetInitArguments.Radius                = (float)provider.Radius;
            planetInitArguments.AtmosphereRadius      = atmosphereRadius;
            planetInitArguments.MaxRadius             = (float)outerRadius;
            planetInitArguments.MinRadius             = (float)innerRadius;
            planetInitArguments.HasAtmosphere         = generatorDef.HasAtmosphere;
            planetInitArguments.AtmosphereWavelengths = atmosphereWavelengths;
            planetInitArguments.GravityFalloff        = generatorDef.GravityFalloffPower;
            planetInitArguments.MarkAreaEmpty         = true;
            MoveAtmosphereSettings(generatorDef.AtmosphereSettings, out planetInitArguments.AtmosphereSettings);
            planetInitArguments.SurfaceGravity       = generatorDef.SurfaceGravity;
            planetInitArguments.AddGps               = false;
            planetInitArguments.SpherizeWithDistance = true;
            planetInitArguments.Generator            = generatorDef;
            planetInitArguments.UserCreated          = false;
            planetInitArguments.InitializeComponents = true;

            planet.Init(planetInitArguments);

            MyEntities.Add(planet);
            MyEntities.RaiseEntityCreated(planet);

            return(planet);
        }