Esempio n. 1
0
        /// <summary>
        /// Create the handle corresponding to the "Axis" IfcRepresentation for a beam, if possible.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC class.</param>
        /// <param name="element">The beam element.</param>
        /// <param name="catId">The beam category id.</param>
        /// <param name="axisInfo">The optional beam axis information.</param>
        /// <param name="offsetTransform">The optional offset transform applied to the "Body" representation.</param>
        /// <param name="elevation">The optional level elevation.</param>
        /// <returns>The handle, or null if not created.</returns>
        private static IFCAnyHandle CreateBeamAxis(ExporterIFC exporterIFC, Element element, ElementId catId, BeamAxisInfo axisInfo, Transform offsetTransform, double elevation)
        {
            if (axisInfo == null)
            {
                return(null);
            }

            Curve     curve   = axisInfo.Axis;
            XYZ       projDir = axisInfo.AxisNormal;
            Transform lcs     = axisInfo.LCSAsTransform;

            string representationTypeOpt = "Curve2D"; // This is by IFC2x2+ convention.

            XYZ curveOffset = XYZ.Zero;

            if (offsetTransform != null)
            {
                curveOffset  = -(offsetTransform.Origin);
                curveOffset -= new XYZ(0, 0, elevation);
            }
            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 = -lcs.Origin;
            }

            Transform offsetLCS = new Transform(lcs);

            offsetLCS.Origin = XYZ.Zero;
            IList <IFCAnyHandle> axis_items = null;

            if (ExporterCacheManager.ExportOptionsCache.ExportAs4ReferenceView)
            {
                IFCAnyHandle axisHnd = GeometryUtil.CreatePolyCurveFromCurve(exporterIFC, curve);
                axis_items = new List <IFCAnyHandle>();
                if (!IFCAnyHandleUtil.IsNullOrHasNoValue(axisHnd))
                {
                    axis_items.Add(axisHnd);
                    representationTypeOpt = "Curve3D";   // We use Curve3D for IFC4RV Axis
                }
            }
            else
            {
                IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, offsetLCS, projDir, false);
                ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, curve, curveOffset, true);

                axis_items = info.GetCurves();
            }

            if (axis_items.Count > 0)
            {
                string       identifierOpt = "Axis"; // This is by IFC2x2+ convention.
                IFCAnyHandle axisRep       = RepresentationUtil.CreateShapeRepresentation(exporterIFC, element, catId, exporterIFC.Get3DContextHandle(identifierOpt),
                                                                                          identifierOpt, representationTypeOpt, axis_items);
                return(axisRep);
            }

            return(null);
        }
        /// <summary>
        /// Create the handle corresponding to the "Axis" IfcRepresentation for a beam, if possible.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC class.</param>
        /// <param name="element">The beam element.</param>
        /// <param name="catId">The beam category id.</param>
        /// <param name="axisInfo">The optional beam axis information.</param>
        /// <param name="offsetTransform">The optional offset transform applied to the "Body" representation.</param>
        /// <returns>The handle, or null if not created.</returns>
        private static IFCAnyHandle CreateBeamAxis(ExporterIFC exporterIFC, Element element, ElementId catId, BeamAxisInfo axisInfo, Transform offsetTransform)
        {
            if (axisInfo == null)
            {
                return(null);
            }

            Curve     curve   = axisInfo.Axis;
            XYZ       projDir = axisInfo.AxisNormal;
            Transform lcs     = axisInfo.LCSAsTransform;

            XYZ curveOffset = XYZ.Zero;

            if (offsetTransform != null)
            {
                curveOffset = -UnitUtil.UnscaleLength(offsetTransform.Origin);
            }
            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 = -lcs.Origin;
            }

            Transform offsetLCS = new Transform(lcs);

            offsetLCS.Origin = XYZ.Zero;
            IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, offsetLCS, 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.
                string       representationTypeOpt = "Curve2D"; // This is by IFC2x2+ convention.
                IFCAnyHandle axisRep = RepresentationUtil.CreateShapeRepresentation(exporterIFC, element, catId, exporterIFC.Get3DContextHandle(identifierOpt),
                                                                                    identifierOpt, representationTypeOpt, axis_items);
                return(axisRep);
            }

            return(null);
        }
Esempio n. 3
0
        /// <summary>
        /// Get the handles of Grid Axes.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC object.</param>
        /// <param name="sameDirectionAxes">The grid axes in the same direction of one level.</param>
        /// <param name="representations">The representation of grid axis.</param>
        /// <returns>The list of handles of grid axes.</returns>
        private static List <IFCAnyHandle> CreateIFCGridAxisAndRepresentations(ExporterIFC exporterIFC, ProductWrapper productWrapper, IList <Grid> sameDirectionAxes,
                                                                               IList <IFCAnyHandle> representations, GridRepresentationData gridRepresentationData)
        {
            if (sameDirectionAxes.Count == 0)
            {
                return(null);
            }

            IDictionary <ElementId, List <IFCAnyHandle> > gridAxisMap = new Dictionary <ElementId, List <IFCAnyHandle> >();
            IDictionary <ElementId, List <IFCAnyHandle> > gridRepMap  = new Dictionary <ElementId, List <IFCAnyHandle> >();

            IFCFile ifcFile  = exporterIFC.GetFile();
            Grid    baseGrid = sameDirectionAxes[0];

            Transform lcs = Transform.Identity;

            List <IFCAnyHandle> ifcGridAxes = new List <IFCAnyHandle>();

            foreach (Grid grid in sameDirectionAxes)
            {
                // Because the IfcGrid is a collection of Revit Grids, any one of them can override the IFC CAD Layer.
                // We will take the first name, and not do too much checking.
                if (string.IsNullOrWhiteSpace(gridRepresentationData.m_IFCCADLayer))
                {
                    ParameterUtil.GetStringValueFromElementOrSymbol(grid, "IFCCadLayer", out gridRepresentationData.m_IFCCADLayer);
                }

                // Get the handle of curve.
                XYZ          projectionDirection = lcs.BasisZ;
                IFCAnyHandle axisCurve;
                if (ExporterCacheManager.ExportOptionsCache.ExportAs4ReferenceView)
                {
                    axisCurve = GeometryUtil.CreatePolyCurveFromCurve(exporterIFC, grid.Curve, lcs, projectionDirection);
                }
                else
                {
                    IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, lcs, projectionDirection, false);
                    ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, grid.Curve, XYZ.Zero, false);
                    IList <IFCAnyHandle> curves = info.GetCurves();
                    if (curves.Count != 1)
                    {
                        throw new Exception("IFC: expected 1 curve when export curve element.");
                    }

                    axisCurve = curves[0];
                }

                bool sameSense = true;
                if (baseGrid.Curve is Line)
                {
                    Line baseLine = baseGrid.Curve as Line;
                    Line axisLine = grid.Curve as Line;
                    sameSense = (axisLine.Direction.IsAlmostEqualTo(baseLine.Direction));
                }

                IFCAnyHandle ifcGridAxis = IFCInstanceExporter.CreateGridAxis(ifcFile, grid.Name, axisCurve, sameSense);
                ifcGridAxes.Add(ifcGridAxis);

                HashSet <IFCAnyHandle> AxisCurves = new HashSet <IFCAnyHandle>();
                AxisCurves.Add(axisCurve);

                IFCAnyHandle repItemHnd = IFCInstanceExporter.CreateGeometricCurveSet(ifcFile, AxisCurves);

                // get the weight and color from the GridType to create the curve style.
                GridType gridType = grid.Document.GetElement(grid.GetTypeId()) as GridType;

                IFCData curveWidth = null;
                if (ExporterCacheManager.ExportOptionsCache.ExportAnnotations)
                {
                    int    outWidth;
                    double width =
                        (ParameterUtil.GetIntValueFromElement(gridType, BuiltInParameter.GRID_END_SEGMENT_WEIGHT, out outWidth) != null) ? outWidth : 1;
                    curveWidth = IFCDataUtil.CreateAsPositiveLengthMeasure(width);
                }

                if (!ExporterCacheManager.ExportOptionsCache.ExportAs4ReferenceView)
                {
                    int outColor;
                    int color =
                        (ParameterUtil.GetIntValueFromElement(gridType, BuiltInParameter.GRID_END_SEGMENT_COLOR, out outColor) != null) ? outColor : 0;
                    double blueVal  = 0.0;
                    double greenVal = 0.0;
                    double redVal   = 0.0;
                    GeometryUtil.GetRGBFromIntValue(color, out blueVal, out greenVal, out redVal);
                    IFCAnyHandle colorHnd = IFCInstanceExporter.CreateColourRgb(ifcFile, null, redVal, greenVal, blueVal);

                    BodyExporter.CreateCurveStyleForRepItem(exporterIFC, repItemHnd, curveWidth, colorHnd);
                }

                HashSet <IFCAnyHandle> curveSet = new HashSet <IFCAnyHandle>();
                curveSet.Add(repItemHnd);

                gridRepresentationData.m_Grids.Add(grid);
                gridRepresentationData.m_curveSets.Add(curveSet);
            }

            return(ifcGridAxes);
        }
        /// <summary>
        /// Exports a curve element to IFC curve annotation.
        /// </summary>
        /// <param name="exporterIFC">
        /// The ExporterIFC object.
        /// </param>
        /// <param name="curveElement">
        /// The curve element to be exported.
        /// </param>
        /// <param name="geometryElement">
        /// The geometry element.
        /// </param>
        /// <param name="productWrapper">
        /// The ProductWrapper.
        /// </param>
        public static void ExportCurveElement(ExporterIFC exporterIFC, CurveElement curveElement, GeometryElement geometryElement,
                                              ProductWrapper productWrapper)
        {
            if (geometryElement == null || !ShouldCurveElementBeExported(curveElement))
            {
                return;
            }

            SketchPlane sketchPlane = curveElement.SketchPlane;

            if (sketchPlane == null)
            {
                return;
            }

            // Check the intended IFC entity or type name is in the exclude list specified in the UI
            Common.Enums.IFCEntityType elementClassTypeEnum = Common.Enums.IFCEntityType.IfcAnnotation;
            if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
            {
                return;
            }

            IFCFile file = exporterIFC.GetFile();

            using (IFCTransaction transaction = new IFCTransaction(file))
            {
                using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, curveElement))
                {
                    IFCAnyHandle localPlacement = setter.LocalPlacement;
                    IFCAnyHandle axisPlacement  = GeometryUtil.GetRelativePlacementFromLocalPlacement(localPlacement);

                    Plane planeSK      = sketchPlane.GetPlane();
                    XYZ   projDir      = planeSK.Normal;
                    XYZ   origin       = planeSK.Origin;
                    bool  useOffsetTrf = false;
                    if (projDir.IsAlmostEqualTo(XYZ.BasisZ))
                    {
                        XYZ offset = XYZ.BasisZ * setter.Offset;
                        origin -= offset;
                    }
                    else
                    {
                        useOffsetTrf = true;
                    }

                    Transform curveLCS = GeometryUtil.CreateTransformFromPlane(planeSK);
                    curveLCS.Origin = origin;

                    IList <IFCAnyHandle> curves = null;

                    if (ExporterCacheManager.ExportOptionsCache.ExportAs4ReferenceView)
                    {
                        Transform trf = null;
                        if (useOffsetTrf)
                        {
                            XYZ offsetOrig = -XYZ.BasisZ * setter.Offset;
                            trf = Transform.CreateTranslation(offsetOrig);
                        }

                        curves = new List <IFCAnyHandle>();
                        //Curve curve = (geometryElement as GeometryObject) as Curve;
                        List <Curve> curvesFromGeomElem = GeometryUtil.GetCurvesFromGeometryElement(geometryElement);
                        foreach (Curve curve in curvesFromGeomElem)
                        {
                            IFCAnyHandle curveHnd = GeometryUtil.CreatePolyCurveFromCurve(exporterIFC, curve, trf);
                            //IList<int> segmentIndex = null;
                            //IList<IList<double>> pointList = GeometryUtil.PointListFromCurve(exporterIFC, curve, trf, null, out segmentIndex);

                            //// For now because of no support in creating IfcLineIndex and IfcArcIndex yet, it is set to null
                            ////IList<IList<int>> segmentIndexList = new List<IList<int>>();
                            ////segmentIndexList.Add(segmentIndex);
                            //IList<IList<int>> segmentIndexList = null;

                            //IFCAnyHandle pointListHnd = IFCInstanceExporter.CreateCartesianPointList3D(file, pointList);
                            //IFCAnyHandle curveHnd = IFCInstanceExporter.CreateIndexedPolyCurve(file, pointListHnd, segmentIndexList, false);

                            if (!IFCAnyHandleUtil.IsNullOrHasNoValue(curveHnd))
                            {
                                curves.Add(curveHnd);
                            }
                        }
                    }
                    else
                    {
                        IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, curveLCS, projDir, false);

                        if (useOffsetTrf)
                        {
                            XYZ       offsetOrig = -XYZ.BasisZ * setter.Offset;
                            Transform trf        = Transform.CreateTranslation(offsetOrig);
                            ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, geometryElement, XYZ.Zero, false, trf);
                        }
                        else
                        {
                            ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, geometryElement, XYZ.Zero, false);
                        }

                        curves = info.GetCurves();
                    }

                    if (curves.Count != 1)
                    {
                        throw new Exception("IFC: expected 1 curve when export curve element.");
                    }

                    HashSet <IFCAnyHandle> curveSet   = new HashSet <IFCAnyHandle>(curves);
                    IFCAnyHandle           repItemHnd = IFCInstanceExporter.CreateGeometricCurveSet(file, curveSet);

                    IFCAnyHandle curveStyle = file.CreateStyle(exporterIFC, repItemHnd);

                    CurveAnnotationCache annotationCache = ExporterCacheManager.CurveAnnotationCache;
                    IFCAnyHandle         curveAnno       = annotationCache.GetAnnotation(sketchPlane.Id, curveStyle);
                    if (!IFCAnyHandleUtil.IsNullOrHasNoValue(curveAnno))
                    {
                        AddCurvesToAnnotation(curveAnno, curves);
                    }
                    else
                    {
                        curveAnno = CreateCurveAnnotation(exporterIFC, curveElement, curveElement.Category.Id, sketchPlane.Id, curveLCS, curveStyle, setter, localPlacement, repItemHnd);
                        productWrapper.AddAnnotation(curveAnno, setter.LevelInfo, true);

                        annotationCache.AddAnnotation(sketchPlane.Id, curveStyle, curveAnno);
                    }
                }
                transaction.Commit();
            }
        }
Esempio n. 5
0
        /// <summary>
        /// Exports a curve element to IFC curve annotation.
        /// </summary>
        /// <param name="exporterIFC">
        /// The ExporterIFC object.
        /// </param>
        /// <param name="curveElement">
        /// The curve element to be exported.
        /// </param>
        /// <param name="geometryElement">
        /// The geometry element.
        /// </param>
        /// <param name="productWrapper">
        /// The IFCProductWrapper.
        /// </param>
        public static void ExportCurveElement(ExporterIFC exporterIFC, CurveElement curveElement, GeometryElement geometryElement,
                                              IFCProductWrapper productWrapper)
        {
            if (geometryElement == null || !ShouldCurveElementBeExported(curveElement))
            {
                return;
            }

            SketchPlane sketchPlane = curveElement.SketchPlane;

            if (sketchPlane == null)
            {
                return;
            }

            IFCFile file = exporterIFC.GetFile();

            using (IFCTransaction transaction = new IFCTransaction(file))
            {
                using (IFCPlacementSetter setter = IFCPlacementSetter.Create(exporterIFC, curveElement))
                {
                    IFCAnyHandle localPlacement = setter.GetPlacement();
                    IFCAnyHandle axisPlacement  = GeometryUtil.GetRelativePlacementFromLocalPlacement(localPlacement);

                    Plane planeSK      = sketchPlane.Plane;
                    XYZ   projDir      = planeSK.Normal;
                    XYZ   origin       = planeSK.Origin;
                    bool  useOffsetTrf = false;
                    if (projDir.IsAlmostEqualTo(XYZ.BasisZ))
                    {
                        XYZ offset = XYZ.BasisZ * setter.Offset;
                        origin -= offset;
                    }
                    else
                    {
                        useOffsetTrf = true;
                    }

                    Plane           plane = new Plane(planeSK.XVec, planeSK.YVec, origin);
                    IFCGeometryInfo info  = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, plane, projDir, false);

                    if (useOffsetTrf)
                    {
                        XYZ       offsetOrig = -XYZ.BasisZ * setter.Offset;
                        Transform trf        = Transform.get_Translation(offsetOrig);
                        ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, geometryElement, XYZ.Zero, false, trf);
                    }
                    else
                    {
                        ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, geometryElement, XYZ.Zero, false);
                    }

                    IList <IFCAnyHandle> curves = info.GetCurves();

                    if (curves.Count != 1)
                    {
                        throw new Exception("IFC: expected 1 curve when export curve element.");
                    }

                    HashSet <IFCAnyHandle> curveSet   = new HashSet <IFCAnyHandle>(curves);
                    IFCAnyHandle           repItemHnd = IFCInstanceExporter.CreateGeometricCurveSet(file, curveSet);

                    IFCAnyHandle curveStyle = file.CreateStyle(exporterIFC, repItemHnd);

                    CurveAnnotationCache annotationCache = ExporterCacheManager.CurveAnnotationCache;
                    IFCAnyHandle         curveAnno       = annotationCache.GetAnnotation(sketchPlane.Id, curveStyle);
                    if (!IFCAnyHandleUtil.IsNullOrHasNoValue(curveAnno))
                    {
                        AddCurvesToAnnotation(curveAnno, curves);
                    }
                    else
                    {
                        curveAnno = CreateCurveAnnotation(exporterIFC, curveElement, curveElement.Category.Id, sketchPlane.Id, plane, curveStyle, setter, localPlacement, repItemHnd);
                        productWrapper.AddAnnotation(curveAnno, setter.GetLevelInfo(), true);

                        annotationCache.AddAnnotation(sketchPlane.Id, curveStyle, curveAnno);
                    }
                }
                transaction.Commit();
            }
        }
Esempio n. 6
0
        /// <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();
            }
        }
Esempio n. 7
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        /// <summary>
        /// Create the handle corresponding to the "Axis" IfcRepresentation for a beam, if possible.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC class.</param>
        /// <param name="element">The beam element.</param>
        /// <param name="catId">The beam category id.</param>
        /// <param name="axisInfo">The optional beam axis information.</param>
        /// <param name="offsetTransform">The optional offset transform applied to the "Body" representation.</param>
        /// <returns>The handle, or null if not created.</returns>
        private static IFCAnyHandle CreateBeamAxis(ExporterIFC exporterIFC, Element element, ElementId catId, BeamAxisInfo axisInfo, Transform offsetTransform)
        {
            if (axisInfo == null)
            {
                return(null);
            }

            Curve     curve   = axisInfo.Axis;
            XYZ       projDir = axisInfo.AxisNormal;
            Transform lcs     = axisInfo.LCSAsTransform;

            string representationTypeOpt = "Curve2D"; // This is by IFC2x2+ convention.

            XYZ curveOffset = XYZ.Zero;

            if (offsetTransform != null)
            {
                curveOffset = -UnitUtil.UnscaleLength(offsetTransform.Origin);
            }
            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 = -lcs.Origin;
            }

            Transform offsetLCS = new Transform(lcs);

            offsetLCS.Origin = XYZ.Zero;
            IList <IFCAnyHandle> axis_items = null;

            if (ExporterCacheManager.ExportOptionsCache.ExportAs4ReferenceView)
            {
                IFCFile                 file         = exporterIFC.GetFile();
                IList <int>             segmentIndex = null;
                IList <IList <double> > pointList    = GeometryUtil.PointListFromCurve(exporterIFC, curve, null, null, out segmentIndex);

                // For now because of no support in creating IfcLineIndex and IfcArcIndex yet, it is set to null
                //IList<IList<int>> segmentIndexList = new List<IList<int>>();
                //segmentIndexList.Add(segmentIndex);
                IList <IList <int> > segmentIndexList = null;

                IFCAnyHandle pointListHnd = IFCInstanceExporter.CreateCartesianPointList3D(file, pointList);
                IFCAnyHandle axisHnd      = IFCInstanceExporter.CreateIndexedPolyCurve(file, pointListHnd, segmentIndexList, false);
                axis_items = new List <IFCAnyHandle>();
                if (!IFCAnyHandleUtil.IsNullOrHasNoValue(axisHnd))
                {
                    axis_items.Add(axisHnd);
                    representationTypeOpt = "Curve3D";   // We use Curve3D for IFC4RV Axis
                }
            }
            else
            {
                IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, offsetLCS, projDir, false);
                ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, curve, curveOffset, true);

                axis_items = info.GetCurves();
            }

            if (axis_items.Count > 0)
            {
                string       identifierOpt = "Axis"; // This is by IFC2x2+ convention.
                IFCAnyHandle axisRep       = RepresentationUtil.CreateShapeRepresentation(exporterIFC, element, catId, exporterIFC.Get3DContextHandle(identifierOpt),
                                                                                          identifierOpt, representationTypeOpt, axis_items);
                return(axisRep);
            }

            return(null);
        }
Esempio n. 8
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        /// <summary>
        /// Exports a curve element to IFC curve annotation.
        /// </summary>
        /// <param name="exporterIFC">
        /// The ExporterIFC object.
        /// </param>
        /// <param name="curveElement">
        /// The curve element to be exported.
        /// </param>
        /// <param name="geometryElement">
        /// The geometry element.
        /// </param>
        /// <param name="productWrapper">
        /// The ProductWrapper.
        /// </param>
        public static void ExportCurveElement(ExporterIFC exporterIFC, CurveElement curveElement, GeometryElement geometryElement,
                                              ProductWrapper productWrapper)
        {
            if (geometryElement == null || !ShouldCurveElementBeExported(curveElement))
            {
                return;
            }

            SketchPlane sketchPlane = curveElement.SketchPlane;

            if (sketchPlane == null)
            {
                return;
            }

            // Check the intended IFC entity or type name is in the exclude list specified in the UI
            Common.Enums.IFCEntityType elementClassTypeEnum;
            if (Enum.TryParse <Common.Enums.IFCEntityType>("IfcAnnotation", out elementClassTypeEnum))
            {
                if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
                {
                    return;
                }
            }

            IFCFile file = exporterIFC.GetFile();

            using (IFCTransaction transaction = new IFCTransaction(file))
            {
                using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, curveElement))
                {
                    IFCAnyHandle localPlacement = setter.LocalPlacement;
                    IFCAnyHandle axisPlacement  = GeometryUtil.GetRelativePlacementFromLocalPlacement(localPlacement);

                    Plane planeSK      = sketchPlane.GetPlane();
                    XYZ   projDir      = planeSK.Normal;
                    XYZ   origin       = planeSK.Origin;
                    bool  useOffsetTrf = false;
                    if (projDir.IsAlmostEqualTo(XYZ.BasisZ))
                    {
                        XYZ offset = XYZ.BasisZ * setter.Offset;
                        origin -= offset;
                    }
                    else
                    {
                        useOffsetTrf = true;
                    }

                    Transform curveLCS = GeometryUtil.CreateTransformFromPlane(planeSK);
                    curveLCS.Origin = origin;
                    IFCGeometryInfo info = IFCGeometryInfo.CreateCurveGeometryInfo(exporterIFC, curveLCS, projDir, false);

                    if (useOffsetTrf)
                    {
                        XYZ       offsetOrig = -XYZ.BasisZ * setter.Offset;
                        Transform trf        = Transform.CreateTranslation(offsetOrig);
                        ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, geometryElement, XYZ.Zero, false, trf);
                    }
                    else
                    {
                        ExporterIFCUtils.CollectGeometryInfo(exporterIFC, info, geometryElement, XYZ.Zero, false);
                    }

                    IList <IFCAnyHandle> curves = info.GetCurves();

                    if (curves.Count != 1)
                    {
                        throw new Exception("IFC: expected 1 curve when export curve element.");
                    }

                    HashSet <IFCAnyHandle> curveSet   = new HashSet <IFCAnyHandle>(curves);
                    IFCAnyHandle           repItemHnd = IFCInstanceExporter.CreateGeometricCurveSet(file, curveSet);

                    IFCAnyHandle curveStyle = file.CreateStyle(exporterIFC, repItemHnd);

                    CurveAnnotationCache annotationCache = ExporterCacheManager.CurveAnnotationCache;
                    IFCAnyHandle         curveAnno       = annotationCache.GetAnnotation(sketchPlane.Id, curveStyle);
                    if (!IFCAnyHandleUtil.IsNullOrHasNoValue(curveAnno))
                    {
                        AddCurvesToAnnotation(curveAnno, curves);
                    }
                    else
                    {
                        curveAnno = CreateCurveAnnotation(exporterIFC, curveElement, curveElement.Category.Id, sketchPlane.Id, curveLCS, curveStyle, setter, localPlacement, repItemHnd);
                        productWrapper.AddAnnotation(curveAnno, setter.LevelInfo, true);

                        annotationCache.AddAnnotation(sketchPlane.Id, curveStyle, curveAnno);
                    }
                }
                transaction.Commit();
            }
        }