private static bool AddCylinder(CyPhy.Cylinder cylinder, List <KeyValuePair <string, string> > featureList) { bool status = true; if (cylinder != null) { // start, end, radius MgaModel cylinderMga = cylinder.Impl as MgaModel; List <MgaFCO> startPts = new List <MgaFCO>(); startPts = FindByRole(cylinderMga, "CylinderStart"); List <MgaFCO> endPts = new List <MgaFCO>(); endPts = FindByRole(cylinderMga, "CylinderEnd"); List <MgaFCO> radiusPts = new List <MgaFCO>(); radiusPts = FindByRole(cylinderMga, "CylinderRadius"); if (startPts.Count != 1 || endPts.Count != 1 || radiusPts.Count != 1) { Logger.Instance.AddLogMessage(String.Format("Cylinder geometry must contain 1 CylinderStart, 1 CylinderEnd, and 1 CylinderRadius: {0}", cylinder.ToHyperLink()), Severity.Error); return(false); } CyPhy.Point startPt = CyPhyClasses.Point.Cast(startPts[0]); if (!CreateFeatureFromPoint(startPt, featureList)) { Logger.Instance.AddLogMessage(String.Format("Cylinder geometry's CylinderStart point must connect to a Point datum inside a CADModel: {0}", cylinder.ToHyperLink()), Severity.Error); return(false); } CyPhy.Point endPt = CyPhyClasses.Point.Cast(endPts[0]); if (!CreateFeatureFromPoint(endPt, featureList)) { Logger.Instance.AddLogMessage(String.Format("Cylinder geometry's CylinderEnd point must connect to a Point datum inside a CADModel: {0}", cylinder.ToHyperLink()), Severity.Error); return(false); } CyPhy.Point radiusPt = CyPhyClasses.Point.Cast(radiusPts[0]); if (!CreateFeatureFromPoint(radiusPt, featureList)) { Logger.Instance.AddLogMessage(String.Format("Cylinder geometry's CylinderRadius point must connect to a Point datum inside a CADModel: {0}", cylinder.ToHyperLink()), Severity.Error); return(false); } } else { status = false; } //var height = (extrusion.Impl as MgaModel).ChildFCOs.Cast<MgaFCO>().Where(x => x.MetaRole.Name == "ExtrusionHeight").FirstOrDefault(); return(status); }
public static CADGeometry CreateGeometry(CyPhy.GeometryTypes geometryBase) { List <KeyValuePair <string, string> > featureList = new List <KeyValuePair <string, string> >(); string geometryType = geometryBase.Kind; CADGeometry geometryRep = new CADGeometry { FeatureID = geometryBase.ID, GeometryType = geometryType.ToUpper(), PrimaryQualifier = geometryBase.Attributes.BoundaryQualifier.ToString().Replace("_", string.Empty) }; if (geometryType == "Sphere") { CyPhy.Sphere sphere = CyPhyClasses.Sphere.Cast(geometryBase.Impl); if (AddSphere(sphere, featureList)) { geometryRep.CreateGeometryFeature(featureList); } else { geometryRep = null; } } else if (geometryType == "Cylinder") { CyPhy.Cylinder cylinder = CyPhyClasses.Cylinder.Cast(geometryBase.Impl); geometryRep.SecondaryQualifier = cylinder.Attributes.EndCapInclusionQualifier.ToString(); if (AddCylinder(cylinder, featureList)) { geometryRep.CreateGeometryFeature(featureList); } else { geometryRep = null; } } else if (geometryType == "Extrusion") { CyPhy.Extrusion extrusion = CyPhyClasses.Extrusion.Cast(geometryBase.Impl); if (AddExtrusion(extrusion, featureList)) { geometryRep.CreateGeometryFeature(featureList); } else { geometryRep = null; } } else if (geometryType == "Polygon") { CyPhy.Polygon polygon = CyPhyClasses.Polygon.Cast(geometryBase.Impl); if (AddPolygon(polygon, featureList)) { geometryRep.CreateGeometryFeature(featureList); } else { geometryRep = null; } } else if (geometryType == "Circle") { CyPhy.Circle circle = CyPhyClasses.Circle.Cast(geometryBase.Impl); if (AddCircle(circle, featureList)) { geometryRep.CreateGeometryFeature(featureList); } else { geometryRep = null; } } else if (geometryType == "Face") { CyPhy.Face face = CyPhyClasses.Face.Cast(geometryBase.Impl); CADGeometry.FeatureTypeEnum type; if (AddFace(face, featureList, out type)) { geometryRep.featureType = type; geometryRep.CreateGeometryFeature(featureList); } else { geometryRep = null; } } else { Logger.Instance.AddLogMessage("Geometry shape not supported [" + geometryType + "]", Severity.Warning); geometryRep = null; } return(geometryRep); }