public CustomDataModule(bool _) { VectorComponentCount0 = 4; Color0 = new MinMaxGradient(true); ColorLabel0 = "Color"; Vector0_0 = new MinMaxCurve(0.0f); VectorLabel0_0 = "X"; Vector0_1 = new MinMaxCurve(0.0f); VectorLabel0_1 = "Y"; Vector0_2 = new MinMaxCurve(0.0f); VectorLabel0_2 = "Z"; Vector0_3 = new MinMaxCurve(0.0f); VectorLabel0_3 = "W"; VectorComponentCount0 = 4; Color1 = new MinMaxGradient(true); ColorLabel1 = "Color"; Vector1_0 = new MinMaxCurve(0.0f); VectorLabel1_0 = "X"; Vector1_1 = new MinMaxCurve(0.0f); VectorLabel1_1 = "Y"; Vector1_2 = new MinMaxCurve(0.0f); VectorLabel1_2 = "Z"; Vector1_3 = new MinMaxCurve(0.0f); VectorLabel1_3 = "W"; }
public MultiModeParameter(float value) { Value = value; Mode = ParticleSystemShapeMultiModeValue.Random; Spread = 0.0f; Speed = new MinMaxCurve(1.0f); }
public ParticleSystemEmissionBurst(float time, int minValue, int maxValue) { Time = time; CycleCount = 1; RepeatInterval = 0.01f; CountCurve = new MinMaxCurve(minValue, maxValue); }
public LightsModule(bool _) { RandomDistribution = true; Color = true; Range = true; Intensity = true; RangeCurve = new MinMaxCurve(1.0f); IntensityCurve = new MinMaxCurve(1.0f); MaxLights = 20; }
public TrailModule(bool _) { Ratio = 1.0f; Lifetime = new MinMaxCurve(1.0f, 1.0f, 1.0f, 1.0f); MinVertexDistance = 0.2f; RibbonCount = 1; DieWithParticles = true; SizeAffectsWidth = true; InheritParticleColor = true; ColorOverLifetime = new MinMaxGradient(true); WidthOverTrail = new MinMaxCurve(1.0f, 1.0f, 1.0f, 1.0f); ColorOverTrail = new MinMaxGradient(true); }
public override void Read(AssetReader reader) { base.Read(reader); StartLifetime.Read(reader); StartSpeed.Read(reader); StartColor.Read(reader); StartSize.Read(reader); if (IsReadSizeAxes(reader.Version)) { StartSizeY.Read(reader); StartSizeZ.Read(reader); } if (IsReadRotationAxes(reader.Version)) { StartRotationX.Read(reader); StartRotationY.Read(reader); } StartRotation.Read(reader); if (IsReadRandomizeRotationDirection(reader.Version)) { RandomizeRotationDirection = reader.ReadSingle(); } if (IsReadGravityModifierSingle(reader.Version)) { float gravityModifier = reader.ReadSingle(); GravityModifier = new MinMaxCurve(gravityModifier); } if (IsReadInheritVelocity(reader.Version)) { InheritVelocity = reader.ReadSingle(); } MaxNumParticles = reader.ReadInt32(); if (IsReadSize3D(reader.Version)) { Size3D = reader.ReadBoolean(); } if (IsReadRotation3D(reader.Version)) { Rotation3D = reader.ReadBoolean(); reader.AlignStream(AlignType.Align4); } if (!IsReadGravityModifierSingle(reader.Version)) { GravityModifier.Read(reader); } }
public void Read(AssetReader reader) { Time = reader.ReadSingle(); if (IsReadCurve(reader.Version)) { CountCurve.Read(reader); } else { int minValue = reader.ReadInt32(); int maxValue = reader.ReadInt32(); CountCurve = new MinMaxCurve(minValue, maxValue); } CycleCount = reader.ReadInt32(); RepeatInterval = reader.ReadSingle(); }
public YAMLNode ExportYAML(IAssetsExporter exporter) { #warning TODO: values acording to read version (current 2017.3.0f3) YAMLMappingNode node = new YAMLMappingNode(); node.AddSerializedVersion(GetSerializedVersion(exporter.Version)); node.Add("time", Time); if (IsReadCurve(exporter.Version)) { node.Add("countCurve", CountCurve.ExportYAML(exporter)); } else if (Config.IsExportTopmostSerializedVersion) { MinMaxCurve countCurve = new MinMaxCurve(MinValue, MaxValue); node.Add("countCurve", countCurve.ExportYAML(exporter)); } node.Add("cycleCount", CycleCount); node.Add("repeatInterval", RepeatInterval); return(node); }
public NoiseModule(bool _) { Strength = new MinMaxCurve(1.0f); StrengthY = new MinMaxCurve(1.0f); StrengthZ = new MinMaxCurve(1.0f); Frequency = 0.5f; Damping = true; Octaves = 1; OctaveMultiplier = 0.5f; OctaveScale = 2.0f; Quality = ParticleSystemNoiseQuality.High; ScrollSpeed = new MinMaxCurve(0.0f); Remap = new MinMaxCurve(1.0f, 1.0f, 1.0f, 0.0f, 1.0f); RemapY = new MinMaxCurve(1.0f, 1.0f, 1.0f, 0.0f, 1.0f); RemapZ = new MinMaxCurve(1.0f, 1.0f, 1.0f, 0.0f, 1.0f); PositionAmount = new MinMaxCurve(1.0f); RotationAmount = new MinMaxCurve(0.0f); SizeAmount = new MinMaxCurve(0.0f); }
public InheritVelocityModule(float value) : base(value != 0.0f) { Curve = new MinMaxCurve(value); }
public InheritVelocityModule(bool _) { Curve = new MinMaxCurve(0.0f); }
public override void Read(AssetReader reader) { base.Read(reader); if (IsReadType(reader.Version)) { EmissionType type = (EmissionType)reader.ReadInt32(); if (type == EmissionType.Time) { RateOverTime.Read(reader); RateOverDistance = new MinMaxCurve(0.0f); } else { RateOverTime = new MinMaxCurve(0.0f); RateOverDistance.Read(reader); } } else { RateOverTime.Read(reader); RateOverDistance.Read(reader); } if (IsReadCnt(reader.Version)) { int cnt0 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); int cnt1 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); int cnt2 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); int cnt3 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); int cntMax0 = cnt0; int cntMax1 = cnt1; int cntMax2 = cnt2; int cntMax3 = cnt3; if (IsReadCntMax(reader.Version)) { cntMax0 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); cntMax1 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); cntMax2 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); cntMax3 = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadUInt16(); } float time0 = reader.ReadSingle(); float time1 = reader.ReadSingle(); float time2 = reader.ReadSingle(); float time3 = reader.ReadSingle(); BurstCount = IsIntCount(reader.Version) ? reader.ReadInt32() : reader.ReadByte(); reader.AlignStream(AlignType.Align4); m_bursts = new ParticleSystemEmissionBurst[BurstCount]; if (BurstCount > 0) { m_bursts[0] = new ParticleSystemEmissionBurst(time0, cnt0, cntMax0); if (BurstCount > 1) { m_bursts[1] = new ParticleSystemEmissionBurst(time1, cnt1, cntMax1); if (BurstCount > 2) { m_bursts[2] = new ParticleSystemEmissionBurst(time2, cnt2, cntMax2); if (BurstCount > 3) { m_bursts[3] = new ParticleSystemEmissionBurst(time3, cnt3, cntMax3); } } } } } else { BurstCount = reader.ReadInt32(); reader.AlignStream(AlignType.Align4); m_bursts = reader.ReadArray <ParticleSystemEmissionBurst>(); } }
public override void Read(AssetReader reader) { base.Read(reader); Type = (ParticleSystemCollisionType)reader.ReadInt32(); if (IsReadCollisionMode(reader.Version)) { CollisionMode = (ParticleSystemCollisionMode)reader.ReadInt32(); } if (IsReadColliderForce(reader.Version)) { ColliderForce = reader.ReadSingle(); MultiplyColliderForceByParticleSize = reader.ReadBoolean(); MultiplyColliderForceByParticleSpeed = reader.ReadBoolean(); MultiplyColliderForceByCollisionAngle = reader.ReadBoolean(); reader.AlignStream(AlignType.Align4); } Plane0.Read(reader); Plane1.Read(reader); Plane2.Read(reader); Plane3.Read(reader); Plane4.Read(reader); Plane5.Read(reader); if (IsReadDampenSingle(reader.Version)) { float dampenSingle = reader.ReadSingle(); float bounceSingle = reader.ReadSingle(); float energyLossOnCollisionSingle = reader.ReadSingle(); Dampen = new MinMaxCurve(dampenSingle); Bounce = new MinMaxCurve(bounceSingle); EnergyLossOnCollision = new MinMaxCurve(energyLossOnCollisionSingle); } else { Dampen.Read(reader); Bounce.Read(reader); EnergyLossOnCollision.Read(reader); } MinKillSpeed = reader.ReadSingle(); if (IsReadMaxKillSpeed(reader.Version)) { MaxKillSpeed = reader.ReadSingle(); } if (IsReadRadiusScale(reader.Version)) { RadiusScale = reader.ReadSingle(); CollidesWith.Read(reader); } if (IsReadMaxCollisionShapes(reader.Version)) { MaxCollisionShapes = reader.ReadInt32(); } if (IsReadQuality(reader.Version)) { Quality = (ParticleSystemCollisionQuality)reader.ReadInt32(); VoxelSize = reader.ReadSingle(); } if (IsReadCollisionMessages(reader.Version)) { CollisionMessages = reader.ReadBoolean(); } if (IsReadCollidesWithDynamic(reader.Version)) { CollidesWithDynamic = reader.ReadBoolean(); InteriorCollisions = reader.ReadBoolean(); reader.AlignStream(AlignType.Align4); } }