public override bool Deserialize() { X = new FloatPropertyValue(Data, PCC); if (!X.Deserialize()) { return(false); } Y = new FloatPropertyValue(Data, PCC); if (!Y.Deserialize()) { return(false); } Z = new FloatPropertyValue(Data, PCC); if (!Z.Deserialize()) { return(false); } W = new FloatPropertyValue(Data, PCC); if (!Z.Deserialize()) { return(false); } return(true); }
public override bool Deserialize() { B = new FloatPropertyValue(Data, PCC); if (!B.Deserialize()) { return(false); } G = new FloatPropertyValue(Data, PCC); if (!G.Deserialize()) { return(false); } R = new FloatPropertyValue(Data, PCC); if (!R.Deserialize()) { return(false); } A = new FloatPropertyValue(Data, PCC); if (!A.Deserialize()) { return(false); } return(true); }
public override bool Deserialize() { X = new FloatPropertyValue(Data, PCC); if (!X.Deserialize()) return false; Y = new FloatPropertyValue(Data, PCC); if (!Y.Deserialize()) return false; Z = new FloatPropertyValue(Data, PCC); if (!Z.Deserialize()) return false; W = new FloatPropertyValue(Data, PCC); if (!Z.Deserialize()) return false; return true; }
public override bool Deserialize() { Scale = new VectorPropertyValue(Data, PCC); if (!Scale.Deserialize()) return false; SheerRate = new FloatPropertyValue(Data, PCC); if (!SheerRate.Deserialize()) return false; SheerAxis = new BytePropertyValue(Data, PCC); if (!SheerAxis.Deserialize()) return false; return true; }
public override bool Deserialize() { B = new FloatPropertyValue(Data, PCC); if (!B.Deserialize()) return false; G = new FloatPropertyValue(Data, PCC); if (!G.Deserialize()) return false; R = new FloatPropertyValue(Data, PCC); if (!R.Deserialize()) return false; A = new FloatPropertyValue(Data, PCC); if (!A.Deserialize()) return false; return true; }
public override bool Deserialize() { Scale = new VectorPropertyValue(Data, PCC); if (!Scale.Deserialize()) { return(false); } SheerRate = new FloatPropertyValue(Data, PCC); if (!SheerRate.Deserialize()) { return(false); } SheerAxis = new BytePropertyValue(Data, PCC); if (!SheerAxis.Deserialize()) { return(false); } return(true); }
public bool DeserializeValue(PropertyType type, out DefaultPropertyValue value, UInt32 size) { value = null; switch (type) // Adjust size for certain types: { case PropertyType.BoolProperty: value = new BoolPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.ByteProperty: var enumName = PCC.GetName(Data.ReadNameRef()); if (size == 8) // if it's an enum-based byte value { value = new EnumPropertyValue(Data, PCC, size, enumName); } else { value = new BytePropertyValue(Data, PCC); } return(value.Deserialize()); case PropertyType.IntProperty: value = new IntPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.FloatProperty: value = new FloatPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.StrProperty: value = new StrPropertyValue(Data, PCC, size); return(value.Deserialize()); case PropertyType.StringRefProperty: value = new StringRefPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.NameProperty: value = new NamePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.ObjectProperty: value = new ObjectPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.InterfaceProperty: value = new InterfacePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.DelegateProperty: value = new DelegatePropertyValue(Data, PCC, Name); return(value.Deserialize()); case PropertyType.StructProperty: var structName = PCC.GetName(Data.ReadNameRef()); // If it's a hardcoded struct type, deserialize it as that. if (Enum.GetNames(typeof(PropertyType)).Skip(11).Contains(structName)) { return(DeserializeValue((PropertyType)Enum.Parse(typeof(PropertyType), structName), out value, size)); } // otherwise use the deserialization of a user-defined struct: value = new StructPropertyValue(Data, PCC, size, structName); return(value.Deserialize()); case PropertyType.ArrayProperty: value = new ArrayPropertyValue(Data, PCC, size); return(value.Deserialize()); #region BioWare case PropertyType.BioMask4Property: value = new BioMask4PropertyValue(Data, PCC); return(value.Deserialize()); #endregion #region Hardcoded Structs #region Standard case PropertyType.Vector: value = new VectorPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Color: value = new ColorPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.LinearColor: value = new LinearColorPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.TwoVectors: value = new TwoVectorsPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Vector4: value = new Vector4PropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Vector2D: value = new Vector2DPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Rotator: value = new RotatorPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Guid: value = new GUIDPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Sphere: value = new SpherePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Plane: value = new PlanePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Scale: value = new ScalePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Box: value = new BoxPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Quat: value = new QuatPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.Matrix: value = new MatrixPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.IntPoint: value = new IntPointPropertyValue(Data, PCC); return(value.Deserialize()); #endregion #region BioWare case PropertyType.BioRwBox: value = new BioRwBoxPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.RwVector3: value = new RwVector3PropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.RwVector2: value = new RwVector2PropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.RwVector4: value = new RwVector4PropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.RwPlane: value = new RwPlanePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.RwQuat: value = new RwQuatPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.RwMatrix44: value = new RwMatrix44PropertyValue(Data, PCC); return(value.Deserialize()); #endregion #region UE3Internals case PropertyType.ActorReference: value = new ActorReferencePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.PolyReference: value = new PolyReferencePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.AimTransform: value = new AimTransformPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.NavReference: value = new NavReferencePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.CoverReference: value = new CoverReferencePropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.CoverInfo: value = new CoverInfoPropertyValue(Data, PCC); return(value.Deserialize()); case PropertyType.CoverSlot: value = new CoverSlotPropertyValue(Data, PCC, size); return(value.Deserialize()); #endregion #endregion default: return(false); } }