/// <summary> /// Create the "Body" IfcRepresentation for a beam if it is representable by an extrusion, possibly with clippings and openings. /// </summary> /// <param name="exporterIFC">The exporterIFC class.</param> /// <param name="element">The beam element.T</param> /// <param name="catId">The category id.</param> /// <param name="geomObjects">The list of solids and meshes representing the beam's geometry. /// <param name="axisInfo">The beam axis information.</param> /// <returns>The BeamBodyAsExtrusionInfo class which contains the created handle (if any) and other information, or null.</returns> private static BeamBodyAsExtrusionInfo CreateBeamGeometryAsExtrusion(ExporterIFC exporterIFC, Element element, ElementId catId, IList <GeometryObject> geomObjects, BeamAxisInfo axisInfo) { // If we have a beam with a Linear location line that only has one solid geometry, // we will try to use the ExtrusionAnalyzer to generate an extrusion with 0 or more clippings. // This code is currently limited in that it will not process beams with openings, so we // use other methods below if this one fails. if (geomObjects == null || geomObjects.Count != 1 || (!(geomObjects[0] is Solid)) || axisInfo == null || !(axisInfo.Axis is Line)) { return(null); } BeamBodyAsExtrusionInfo info = new BeamBodyAsExtrusionInfo(); info.DontExport = false; info.Materials = new HashSet <ElementId>(); info.Slope = 0.0; Transform orientTrf = axisInfo.LCSAsTransform; Solid solid = geomObjects[0] as Solid; bool completelyClipped; XYZ beamDirection = orientTrf.BasisX; XYZ planeXVec = orientTrf.BasisY.Normalize(); XYZ planeYVec = orientTrf.BasisZ.Normalize(); Plane beamExtrusionBasePlane = GeometryUtil.CreatePlaneByXYVectorsAtOrigin(planeXVec, planeYVec); info.RepresentationHandle = ExtrusionExporter.CreateExtrusionWithClipping(exporterIFC, element, catId, solid, beamExtrusionBasePlane, orientTrf.Origin, beamDirection, null, out completelyClipped); if (completelyClipped) { info.DontExport = true; return(null); } if (!IFCAnyHandleUtil.IsNullOrHasNoValue(info.RepresentationHandle)) { // This is used by the BeamSlopeCalculator. This should probably be generated automatically by // CreateExtrusionWithClipping. IFCExtrusionBasis bestAxis = (Math.Abs(beamDirection[0]) > Math.Abs(beamDirection[1])) ? IFCExtrusionBasis.BasisX : IFCExtrusionBasis.BasisY; info.Slope = GeometryUtil.GetSimpleExtrusionSlope(beamDirection, bestAxis); ElementId materialId = BodyExporter.GetBestMaterialIdFromGeometryOrParameter(solid, exporterIFC, element); if (materialId != ElementId.InvalidElementId) { info.Materials.Add(materialId); } } return(info); }
/// <summary> /// Calculates the slope of an extrusion relative to an axis. /// </summary> /// <param name="extrusionDirection">The extrusion direction.</param> /// <param name="axis">The axis.</param> /// <returns>The slope.</returns> /// <remarks>This is a simple routine mainly intended for beams and columns.</remarks> static public double GetSimpleExtrusionSlope(XYZ extrusionDirection, IFCExtrusionBasis axis) { double zOff = (axis == IFCExtrusionBasis.BasisZ) ? (1.0 - Math.Abs(extrusionDirection[2])) : Math.Abs(extrusionDirection[2]); double scaledAngle = Math.Asin(zOff) * 180 / Math.PI; return scaledAngle; }
/// <summary> /// Exports a beam to IFC beam. /// </summary> /// <param name="exporterIFC"> /// The ExporterIFC object. /// </param> /// <param name="element"> /// The element to be exported. /// </param> /// <param name="geometryElement"> /// The geometry element. /// </param> /// <param name="productWrapper"> /// The ProductWrapper. /// </param> public static void ExportBeam(ExporterIFC exporterIFC, Element element, GeometryElement geometryElement, ProductWrapper productWrapper) { if (geometryElement == null) { return; } IFCFile file = exporterIFC.GetFile(); double scale = exporterIFC.LinearScale; using (IFCTransaction transaction = new IFCTransaction(file)) { LocationCurve locCurve = element.Location as LocationCurve; Transform orientTrf = Transform.Identity; bool canExportAxis = (locCurve != null); IFCAnyHandle axisRep = null; XYZ beamDirection = null; XYZ projDir = null; Curve curve = null; Plane plane = null; if (canExportAxis) { curve = locCurve.Curve; if (curve is Line) { Line line = curve as Line; XYZ planeY, planeOrig; planeOrig = line.get_EndPoint(0); beamDirection = line.Direction; if (Math.Abs(beamDirection.Z) < 0.707) // approx 1.0/sqrt(2.0) { planeY = XYZ.BasisZ.CrossProduct(beamDirection); } else { planeY = XYZ.BasisX.CrossProduct(beamDirection); } planeY = planeY.Normalize(); projDir = beamDirection.CrossProduct(planeY); plane = new Plane(beamDirection, planeY, planeOrig); orientTrf.BasisX = beamDirection; orientTrf.BasisY = planeY; orientTrf.BasisZ = projDir; orientTrf.Origin = planeOrig; } else if (curve is Arc) { XYZ yDir, center; Arc arc = curve as Arc; beamDirection = arc.XDirection; yDir = arc.YDirection; projDir = arc.Normal; center = arc.Center; plane = new Plane(beamDirection, yDir, center); orientTrf.BasisX = beamDirection; orientTrf.BasisY = yDir; orientTrf.BasisZ = projDir; orientTrf.Origin = center; } else { canExportAxis = false; } } using (IFCPlacementSetter setter = IFCPlacementSetter.Create(exporterIFC, element, null, canExportAxis ? orientTrf : null, ExporterUtil.GetBaseLevelIdForElement(element))) { IFCAnyHandle localPlacement = setter.GetPlacement(); SolidMeshGeometryInfo solidMeshInfo = GeometryUtil.GetSplitSolidMeshGeometry(geometryElement); using (IFCExtrusionCreationData extrusionCreationData = new IFCExtrusionCreationData()) { extrusionCreationData.SetLocalPlacement(localPlacement); if (canExportAxis && (orientTrf.BasisX != null)) { extrusionCreationData.CustomAxis = beamDirection; extrusionCreationData.PossibleExtrusionAxes = IFCExtrusionAxes.TryCustom; } else { extrusionCreationData.PossibleExtrusionAxes = IFCExtrusionAxes.TryXY; } IList <Solid> solids = solidMeshInfo.GetSolids(); IList <Mesh> meshes = solidMeshInfo.GetMeshes(); ElementId catId = CategoryUtil.GetSafeCategoryId(element); // The representation handle generated from one of the methods below. IFCAnyHandle repHnd = null; // The list of materials in the solids or meshes. ICollection <ElementId> materialIds = new HashSet <ElementId>(); // There may be an offset to make the local coordinate system // be near the origin. This offset will be used to move the axis to the new LCS. Transform offsetTransform = null; // If we have a beam with a Linear location line that only has one solid geometry, // we will try to use the ExtrusionAnalyzer to generate an extrusion with 0 or more clippings. // This code is currently limited in that it will not process beams with openings, so we // use other methods below if this one fails. if (solids.Count == 1 && meshes.Count == 0 && (canExportAxis && (curve is Line))) { bool completelyClipped; beamDirection = orientTrf.BasisX; Plane beamExtrusionPlane = new Plane(orientTrf.BasisY, orientTrf.BasisZ, orientTrf.Origin); repHnd = ExtrusionExporter.CreateExtrusionWithClipping(exporterIFC, element, catId, solids[0], beamExtrusionPlane, beamDirection, null, out completelyClipped); if (completelyClipped) { return; } if (!IFCAnyHandleUtil.IsNullOrHasNoValue(repHnd)) { // This is used by the BeamSlopeCalculator. This should probably be generated automatically by // CreateExtrusionWithClipping. IFCExtrusionBasis bestAxis = (Math.Abs(beamDirection[0]) > Math.Abs(beamDirection[1])) ? IFCExtrusionBasis.BasisX : IFCExtrusionBasis.BasisY; extrusionCreationData.Slope = GeometryUtil.GetSimpleExtrusionSlope(beamDirection, bestAxis); ElementId materialId = BodyExporter.GetBestMaterialIdFromGeometryOrParameter(solids[0], exporterIFC, element); if (materialId != ElementId.InvalidElementId) { materialIds.Add(materialId); } } } if (IFCAnyHandleUtil.IsNullOrHasNoValue(repHnd)) { BodyData bodyData = null; BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true); if (solids.Count > 0 || meshes.Count > 0) { bodyData = BodyExporter.ExportBody(exporterIFC, element, catId, ElementId.InvalidElementId, solids, meshes, bodyExporterOptions, extrusionCreationData); } else { IList <GeometryObject> geomlist = new List <GeometryObject>(); geomlist.Add(geometryElement); bodyData = BodyExporter.ExportBody(exporterIFC, element, catId, ElementId.InvalidElementId, geomlist, bodyExporterOptions, extrusionCreationData); } repHnd = bodyData.RepresentationHnd; materialIds = bodyData.MaterialIds; offsetTransform = bodyData.OffsetTransform; } if (IFCAnyHandleUtil.IsNullOrHasNoValue(repHnd)) { extrusionCreationData.ClearOpenings(); return; } IList <IFCAnyHandle> representations = new List <IFCAnyHandle>(); if (canExportAxis) { XYZ curveOffset = new XYZ(0, 0, 0); if (offsetTransform != null) { curveOffset = -offsetTransform.Origin / scale; } else { // Note that we do not have to have any scaling adjustment here, since the curve origin is in the // same internal coordinate system as the curve. curveOffset = -plane.Origin; } Plane offsetPlane = new Plane(plane.XVec, plane.YVec, XYZ.Zero); IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, offsetPlane, projDir, false); ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, curve, curveOffset, true); IList <IFCAnyHandle> axis_items = info.GetCurves(); if (axis_items.Count > 0) { string identifierOpt = "Axis"; // this is by IFC2x2 convention, not temporary string representationTypeOpt = "Curve2D"; // this is by IFC2x2 convention, not temporary axisRep = RepresentationUtil.CreateShapeRepresentation(exporterIFC, element, catId, exporterIFC.Get3DContextHandle(identifierOpt), identifierOpt, representationTypeOpt, axis_items); representations.Add(axisRep); } } representations.Add(repHnd); Transform boundingBoxTrf = (offsetTransform == null) ? Transform.Identity : offsetTransform.Inverse; IFCAnyHandle boundingBoxRep = BoundingBoxExporter.ExportBoundingBox(exporterIFC, geometryElement, boundingBoxTrf); if (boundingBoxRep != null) { representations.Add(boundingBoxRep); } IFCAnyHandle prodRep = IFCInstanceExporter.CreateProductDefinitionShape(file, null, null, representations); string instanceGUID = GUIDUtil.CreateGUID(element); string instanceName = NamingUtil.GetNameOverride(element, NamingUtil.GetIFCName(element)); string instanceDescription = NamingUtil.GetDescriptionOverride(element, null); string instanceObjectType = NamingUtil.GetObjectTypeOverride(element, NamingUtil.CreateIFCObjectName(exporterIFC, element)); string instanceTag = NamingUtil.GetTagOverride(element, NamingUtil.CreateIFCElementId(element)); IFCAnyHandle beam = IFCInstanceExporter.CreateBeam(file, instanceGUID, exporterIFC.GetOwnerHistoryHandle(), instanceName, instanceDescription, instanceObjectType, extrusionCreationData.GetLocalPlacement(), prodRep, instanceTag); productWrapper.AddElement(element, beam, setter, extrusionCreationData, true); OpeningUtil.CreateOpeningsIfNecessary(beam, element, extrusionCreationData, offsetTransform, exporterIFC, extrusionCreationData.GetLocalPlacement(), setter, productWrapper); FamilyTypeInfo typeInfo = new FamilyTypeInfo(); typeInfo.ScaledDepth = extrusionCreationData.ScaledLength; typeInfo.ScaledArea = extrusionCreationData.ScaledArea; typeInfo.ScaledInnerPerimeter = extrusionCreationData.ScaledInnerPerimeter; typeInfo.ScaledOuterPerimeter = extrusionCreationData.ScaledOuterPerimeter; PropertyUtil.CreateBeamColumnBaseQuantities(exporterIFC, beam, element, typeInfo); if (materialIds.Count != 0) { CategoryUtil.CreateMaterialAssociations(exporterIFC, beam, materialIds); } // Register the beam's IFC handle for later use by truss and beam system export. ExporterCacheManager.ElementToHandleCache.Register(element.Id, beam); } } transaction.Commit(); } }