• 设为首页
  • 点击收藏
  • 手机版
    手机扫一扫访问
    迪恩网络手机版
  • 关注官方公众号
    微信扫一扫关注
    公众号

C# IFCRange类代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了C#中IFCRange的典型用法代码示例。如果您正苦于以下问题:C# IFCRange类的具体用法?C# IFCRange怎么用?C# IFCRange使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。



IFCRange类属于命名空间,在下文中一共展示了IFCRange类的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C#代码示例。

示例1: CreateExtrusionWithClipping

 /// <summary>
 /// Creates an extrusion with potential clipping from a list of solids corresponding to an element.
 /// </summary>
 /// <param name="exporterIFC">The ExporterIFC class.</param>
 /// <param name="element">The element.</param>
 /// <param name="catId">The category of the element and/or the solid geometry.</param>
 /// <param name="solids">The list of solid geometries.</param>
 /// <param name="plane">The extrusion base plane.</param>
 /// <param name="projDir">The projection direction.</param>
 /// <param name="range">The upper and lower limits of the extrusion, in the projection direction.</param>
 /// <param name="completelyClipped">Returns true if the extrusion is completely outside the range.</param>
 /// <param name="materialIds">The material ids of the solid geometry.</param>
 /// <returns>The extrusion handle.</returns>
 public static IFCAnyHandle CreateExtrusionWithClipping(ExporterIFC exporterIFC, Element element, ElementId catId,
     IList<Solid> solids, Plane plane, XYZ projDir, IFCRange range, out bool completelyClipped, out HashSet<ElementId> materialIds)
 {
     HandleAndAnalyzer handleAndAnalyzer = CreateExtrusionWithClippingBase(exporterIFC, element, catId,
         solids, plane, projDir, range, out completelyClipped, out materialIds);
     return handleAndAnalyzer.Handle;
 }
开发者ID:whztt07,项目名称:RevitCustomIFCexporter,代码行数:20,代码来源:ExtrusionExporter.cs


示例2: IsWallCompletelyClipped

 /// <summary>
 /// Checks if the wall is clipped completely.
 /// </summary>
 /// <param name="exporterIFC">
 /// The ExporterIFC object.
 /// </param>
 /// <param name="wallElement">
 /// The wall element.
 /// </param>
 /// <param name="range">
 /// The range of which may clip the wall.
 /// </param>
 /// <returns>
 /// True if the wall is clipped completely, false otherwise.
 /// </returns>
 static bool IsWallCompletelyClipped(Wall wallElement, ExporterIFC exporterIFC, IFCRange range)
 {
     return ExporterIFCUtils.IsWallCompletelyClipped(wallElement, exporterIFC, range);
 }
开发者ID:whztt07,项目名称:BIM-IFC,代码行数:19,代码来源:WallExporter.cs


示例3: ExportFamilyInstanceAsMappedItem

        /// <summary>
        /// Exports a family instance as a mapped item.
        /// </summary>
        /// <param name="exporterIFC">
        /// The ExporterIFC object.
        /// </param>
        /// <param name="familyInstance">
        /// The family instance to be exported.
        /// </param>
        /// <param name="exportType">
        /// The export type.
        /// </param>
        /// <param name="ifcEnumType">
        /// The string value represents the IFC type.
        /// </param>
        /// <param name="wrapper">
        /// The ProductWrapper.
        /// </param>
        /// <param name="overrideLevelId">
        /// The level id.
        /// </param>
        /// <param name="range">
        /// The range of this family instance to be exported.
        /// </param>
        public static void ExportFamilyInstanceAsMappedItem(ExporterIFC exporterIFC,
            FamilyInstance familyInstance, IFCExportType exportType, string ifcEnumType,
            ProductWrapper wrapper, ElementId overrideLevelId, IFCRange range, IFCAnyHandle parentLocalPlacement)
        {
            bool exportParts = PartExporter.CanExportParts(familyInstance);
            bool isSplit = range != null;
            if (exportParts && !PartExporter.CanExportElementInPartExport(familyInstance, isSplit ? overrideLevelId : familyInstance.Level.Id, isSplit))
                return;

            Document doc = familyInstance.Document;
            IFCFile file = exporterIFC.GetFile();

            FamilySymbol familySymbol = ExporterIFCUtils.GetOriginalSymbol(familyInstance);
            if (familySymbol == null)
                return;

            ProductWrapper familyProductWrapper = ProductWrapper.Create(wrapper);
            double scale = exporterIFC.LinearScale;
            Options options = GeometryUtil.GetIFCExportGeometryOptions();

            IFCAnyHandle ownerHistory = exporterIFC.GetOwnerHistoryHandle();

            HostObject hostElement = familyInstance.Host as HostObject; //hostElement could be null
            ElementId categoryId = CategoryUtil.GetSafeCategoryId(familySymbol);

            //string emptyString = "";
            string familyName = familySymbol.Name;
            string objectType = familyName;

            // A Family Instance can have its own copy of geometry, or use the symbol's copy with a transform.
            // The routine below tells us whether to use the Instance's copy or the Symbol's copy.
            bool useInstanceGeometry = ExporterIFCUtils.UsesInstanceGeometry(familyInstance);

            IList<IFCExtrusionData> cutPairOpeningsForColumns = new List<IFCExtrusionData>();
            using (IFCExtrusionCreationData extraParams = new IFCExtrusionCreationData())
            {
                Transform trf = familyInstance.GetTransform();

                // Extra information if we are exporting a door or a window.
                IFCDoorWindowInfo doorWindowInfo = null;
                if (exportType == IFCExportType.ExportDoorType)
                    doorWindowInfo = IFCDoorWindowInfo.CreateDoorInfo(exporterIFC, familyInstance, familySymbol, hostElement, overrideLevelId, trf);
                else if (exportType == IFCExportType.ExportWindowType)
                    doorWindowInfo = IFCDoorWindowInfo.CreateWindowInfo(exporterIFC, familyInstance, familySymbol, hostElement, overrideLevelId, trf);

                FamilyTypeInfo typeInfo = new FamilyTypeInfo();
                XYZ extraOffset = XYZ.Zero;

                bool flipped = doorWindowInfo != null ? doorWindowInfo.IsSymbolFlipped : false;
                FamilyTypeInfo currentTypeInfo = ExporterCacheManager.TypeObjectsCache.Find(familySymbol.Id, flipped);
                bool found = currentTypeInfo.IsValid();

                Family family = familySymbol.Family;

                // TODO: this code to be removed by ExtrusionAnalyzer code.
                bool trySpecialColumnCreation = ((exportType == IFCExportType.ExportColumnType) && (!family.IsInPlace));
                IList<GeometryObject> geomObjects = new List<GeometryObject>();
                Transform brepOffsetTransform = null;

                Transform doorWindowTrf = Transform.Identity;
                // We will create a new mapped type if:
                // 1.  We are exporting part of a column or in-place wall (range != null), OR
                // 2.  We are using the instance's copy of the geometry (that it, it has unique geometry), OR
                // 3.  We haven't already created the type.
                bool creatingType = ((range != null) || useInstanceGeometry || !found);
                if (creatingType)
                {
                    IFCAnyHandle bodyRepresentation = null;
                    IFCAnyHandle planRepresentation = null;

                    // If we are using the instance geometry, ignore the transformation.
                    if (useInstanceGeometry)
                        trf = Transform.Identity;

                    // TODO: this code to be removed by ExtrusionAnalyzer code.
                    if (trySpecialColumnCreation)
//.........这里部分代码省略.........
开发者ID:stiter,项目名称:ifcexporter,代码行数:101,代码来源:FamilyInstanceExporter.cs


示例4: AddClippingsToBaseExtrusion

 /// <summary>
 /// Processes the geometry of the wall to create an extruded area solid representing the geometry of the wall (including
 /// any clippings imposed by neighboring elements).
 /// </summary>
 /// <param name="exporterIFC">
 /// The exporter.
 /// </param>
 /// <param name="wallElement">
 /// The wall.
 /// </param>
 /// <param name="setterOffset">
 /// The offset from the placement setter.
 /// </param>
 /// <param name="range">
 /// The range.  This consists of two double values representing the height in Z at the start and the end
 /// of the range.  If the values are identical the entire wall is used.
 /// </param>
 /// <param name="zSpan">
 /// The overall span in Z of the wall.
 /// </param>
 /// <param name="baseBodyItemHnd">
 /// The IfcExtrudedAreaSolid handle generated initially for the wall.
 /// </param>
 /// <param name="cutPairOpenings">
 /// A collection of extruded openings that can be derived from the wall geometry.
 /// </param>
 /// <returns>
 /// IfcEtxtrudedAreaSolid handle.  This may be the same handle as was input, or a modified handle derived from the clipping
 /// geometry.  If the function fails this handle will have no value.
 /// </returns>
 static IFCAnyHandle AddClippingsToBaseExtrusion(ExporterIFC exporterIFC, Wall wallElement,
    XYZ setterOffset, IFCRange range, IFCRange zSpan, IFCAnyHandle baseBodyItemHnd, out IList<IFCExtrusionData> cutPairOpenings)
 {
     return ExporterIFCUtils.AddClippingsToBaseExtrusion(exporterIFC, wallElement, setterOffset, range, zSpan, baseBodyItemHnd, out cutPairOpenings);
 }
开发者ID:whztt07,项目名称:BIM-IFC,代码行数:35,代码来源:WallExporter.cs


示例5: FallbackTryToCreateAsExtrusion

        private static IFCAnyHandle FallbackTryToCreateAsExtrusion(ExporterIFC exporterIFC, Wall wallElement, SolidMeshGeometryInfo smCapsule,
            ElementId catId, Curve curve, Plane plane, double depth, IFCRange zSpan, IFCRange range, IFCPlacementSetter setter, 
            out IList<IFCExtrusionData> cutPairOpenings, out bool isCompletelyClipped)
        {
            cutPairOpenings = new List<IFCExtrusionData>();

            IFCAnyHandle bodyRep;
            isCompletelyClipped = false;

            XYZ localOrig = plane.Origin;

            bool hasExtrusion = HasElevationProfile(wallElement);
            if (hasExtrusion)
            {
                IList<CurveLoop> loops = GetElevationProfile(wallElement);
                if (loops.Count == 0)
                    hasExtrusion = false;
                else
                {
                    IList<IList<CurveLoop>> sortedLoops = ExporterIFCUtils.SortCurveLoops(loops);
                    if (sortedLoops.Count == 0)
                        return null;

                    // Current limitation: can't handle wall split into multiple disjointed pieces.
                    int numSortedLoops = sortedLoops.Count;
                    if (numSortedLoops > 1)
                        return null;

                    bool ignoreExtrusion = true;
                    bool cantHandle = false;
                    bool hasGeometry = false;
                    for (int ii = 0; (ii < numSortedLoops) && !cantHandle; ii++)
                    {
                        int sortedLoopSize = sortedLoops[ii].Count;
                        if (sortedLoopSize == 0)
                            continue;
                        if (!ExporterIFCUtils.IsCurveLoopConvexWithOpenings(sortedLoops[ii][0], wallElement, range, out ignoreExtrusion))
                        {
                            if (ignoreExtrusion)
                            {
                                // we need more information.  Is there something to export?  If so, we'll
                                // ignore the extrusion.  Otherwise, we will fail.

                                if (smCapsule.SolidsCount() == 0 && smCapsule.MeshesCount() == 0)
                                {
                                    continue;
                                }
                            }
                            else
                            {
                                cantHandle = true;
                            }
                            hasGeometry = true;
                        }
                        else
                        {
                            hasGeometry = true;
                        }
                    }

                    if (!hasGeometry)
                    {
                        isCompletelyClipped = true;
                        return null;
                    }

                    if (cantHandle)
                        return null;
                }
            }

            if (!CanExportWallGeometryAsExtrusion(wallElement, range))
                return null;

            // extrusion direction.
            XYZ extrusionDir = GetWallHeightDirection(wallElement);

            // create extrusion boundary.
            IList<CurveLoop> boundaryLoops = new List<CurveLoop>();

            bool alwaysThickenCurve = IsWallBaseRectangular(wallElement, curve);

            if (!alwaysThickenCurve)
            {
                boundaryLoops = GetLoopsFromTopBottomFace(wallElement, exporterIFC);
                if (boundaryLoops.Count == 0)
                    return null;
            }
            else
            {
                CurveLoop newLoop = CurveLoop.CreateViaThicken(curve, wallElement.Width, XYZ.BasisZ);
                if (newLoop == null)
                    return null;

                if (!newLoop.IsCounterclockwise(XYZ.BasisZ))
                    newLoop = GeometryUtil.ReverseOrientation(newLoop);
                boundaryLoops.Add(newLoop);
            }

            // origin gets scaled later.
//.........这里部分代码省略.........
开发者ID:whztt07,项目名称:BIM-IFC,代码行数:101,代码来源:WallExporter.cs


示例6: GetExtrusionRangeOfCurveLoop

 private static IFCRange GetExtrusionRangeOfCurveLoop(CurveLoop loop, XYZ extrusionDirection)
 {
     IFCRange range = new IFCRange();
     bool init = false;
     foreach (Curve curve in loop)
     {
         if (!init)
         {
             if (curve.IsBound)
             {
                 IList<XYZ> coords = curve.Tessellate();
                 foreach (XYZ coord in coords)
                 {
                     double val = coord.DotProduct(extrusionDirection);
                     if (!init)
                     {
                         range.Start = val;
                         range.End = val;
                         init = true;
                     }
                     else
                     {
                         range.Start = Math.Min(range.Start, val);
                         range.End = Math.Max(range.End, val);
                     }
                 }
             }
             else
             {
                 double val = curve.get_EndPoint(0).DotProduct(extrusionDirection);
                 range.Start = val;
                 range.End = val;
                 init = true;
             }
         }
         else
         {
             double val = curve.get_EndPoint(0).DotProduct(extrusionDirection);
             range.Start = Math.Min(range.Start, val);
             range.End = Math.Max(range.End, val);
         }
     }
     return range;
 }
开发者ID:whztt07,项目名称:RevitCustomIFCexporter,代码行数:44,代码来源:GeometryUtil.cs


示例7: ProcessClippingFace

        // return null if parent should be completely clipped.
        // TODO: determine whether or not to use face boundary.
        private static IFCAnyHandle ProcessClippingFace(ExporterIFC exporterIFC, CurveLoop outerBoundary, Plane boundaryPlane, 
            Plane extrusionBasePlane, XYZ extrusionDirection, IFCRange range, bool useFaceBoundary, IFCAnyHandle bodyItemHnd)
        {
            if (outerBoundary == null || boundaryPlane == null)
                throw new Exception("Invalid face boundary.");

            double clippingSlant = boundaryPlane.Normal.DotProduct(extrusionDirection);
            if (useFaceBoundary)
            {
                if (MathUtil.IsAlmostZero(clippingSlant))
                    return bodyItemHnd;
            }

            bool clipCompletely;
            if (!IsInRange(range, outerBoundary, boundaryPlane, extrusionDirection, out clipCompletely))
                return clipCompletely ? null : bodyItemHnd;

            if (MathUtil.IsAlmostZero(clippingSlant))
                throw new Exception("Can't create clipping perpendicular to extrusion.");

            IFCFile file = exporterIFC.GetFile();

            XYZ scaledOrig = ExporterIFCUtils.TransformAndScalePoint(exporterIFC, boundaryPlane.Origin);
            XYZ scaledNorm = ExporterIFCUtils.TransformAndScaleVector(exporterIFC, boundaryPlane.Normal);
            XYZ scaledXDir = ExporterIFCUtils.TransformAndScaleVector(exporterIFC, boundaryPlane.XVec);

            IFCAnyHandle planeAxisHnd = ExporterUtil.CreateAxis(file, scaledOrig, scaledNorm, scaledXDir);
            IFCAnyHandle surfHnd = IFCInstanceExporter.CreatePlane(file, planeAxisHnd);

            IFCAnyHandle clippedBodyItemHnd = null;
            IFCAnyHandle halfSpaceHnd = null;

            if (useFaceBoundary)
            {
                IFCAnyHandle boundedCurveHnd;
                if (boundaryPlane != null)
                {
                    XYZ projScaledOrigin = ExporterIFCUtils.TransformAndScalePoint(exporterIFC, extrusionBasePlane.Origin);
                    XYZ projScaledX = ExporterIFCUtils.TransformAndScaleVector(exporterIFC, extrusionBasePlane.XVec);
                    XYZ projScaledY= ExporterIFCUtils.TransformAndScaleVector(exporterIFC, extrusionBasePlane.YVec);
                    XYZ projScaledNorm = projScaledX.CrossProduct(projScaledY);
                    
                    Plane projScaledPlane = new Plane(projScaledX, projScaledY, projScaledOrigin);

                    IList<UV> polylinePts = TransformAndProjectCurveLoopToPlane(exporterIFC, outerBoundary, projScaledPlane);
                    polylinePts.Add(polylinePts[0]);
                    boundedCurveHnd = ExporterUtil.CreatePolyline(file, polylinePts);

                    IFCAnyHandle boundedAxisHnd = ExporterUtil.CreateAxis(file, projScaledOrigin, projScaledNorm, projScaledX);

                    halfSpaceHnd = IFCInstanceExporter.CreatePolygonalBoundedHalfSpace(file, boundedAxisHnd, boundedCurveHnd, surfHnd, false);
                }
                else
                {
                    throw new Exception("Can't create non-polygonal face boundary.");
                }
            }
            else
            {
                halfSpaceHnd = IFCInstanceExporter.CreateHalfSpaceSolid(file, surfHnd, false);
            }

            if (halfSpaceHnd == null)
                throw new Exception("Can't create clipping.");

            clippedBodyItemHnd = IFCInstanceExporter.CreateBooleanClippingResult(file, IFCBooleanOperator.Difference,
                bodyItemHnd, halfSpaceHnd);
            return clippedBodyItemHnd;
        }
开发者ID:whztt07,项目名称:RevitCustomIFCexporter,代码行数:71,代码来源:GeometryUtil.cs


示例8: WallHasGeometryToExport

        private static bool WallHasGeometryToExport(Wall wallElement,
            IList<Solid> solids,
            IList<Mesh> meshes,
            IFCRange range,
            out bool isCompletelyClipped)
        {
            isCompletelyClipped = false;
            
            bool hasExtrusion = HasElevationProfile(wallElement);
            if (hasExtrusion)
            {
                IList<CurveLoop> loops = GetElevationProfile(wallElement);
                if (loops.Count == 0)
                    hasExtrusion = false;
                else
                {
                    IList<IList<CurveLoop>> sortedLoops = ExporterIFCUtils.SortCurveLoops(loops);
                    if (sortedLoops.Count == 0)
                        return false;

                    // Current limitation: can't handle wall split into multiple disjointed pieces.
                    int numSortedLoops = sortedLoops.Count;
                    if (numSortedLoops > 1)
                        return false;

                    bool ignoreExtrusion = true;
                    bool cantHandle = false;
                    bool hasGeometry = false;
                    for (int ii = 0; (ii < numSortedLoops) && !cantHandle; ii++)
                    {
                        int sortedLoopSize = sortedLoops[ii].Count;
                        if (sortedLoopSize == 0)
                            continue;
                        if (!ExporterIFCUtils.IsCurveLoopConvexWithOpenings(sortedLoops[ii][0], wallElement, range, out ignoreExtrusion))
                        {
                            if (ignoreExtrusion)
                            {
                                // we need more information.  Is there something to export?  If so, we'll
                                // ignore the extrusion.  Otherwise, we will fail.

                                if (solids.Count == 0 && meshes.Count == 0)
                                    continue;
                            }
                            else
                            {
                                cantHandle = true;
                            }
                            hasGeometry = true;
                        }
                        else
                        {
                            hasGeometry = true;
                        }
                    }

                    if (!hasGeometry)
                    {
                        isCompletelyClipped = true;
                        return false;
                    }

                    if (cantHandle)
                        return false;
                }
            }

            return true;
        }
开发者ID:whztt07,项目名称:RevitCustomIFCexporter,代码行数:68,代码来源:WallExporter.cs


示例9: TryToCreateAsExtrusion

        private static IFCAnyHandle TryToCreateAsExtrusion(ExporterIFC exporterIFC, 
            Wall wallElement, 
            IList<IList<IFCConnectedWallData>> connectedWalls,
            IList<Solid> solids,
            IList<Mesh> meshes,
            double baseWallElevation, 
            ElementId catId, 
            Curve baseCurve, 
            Curve trimmedCurve,
            Plane wallLCS, 
            double scaledDepth, 
            IFCRange zSpan, 
            IFCRange range, 
            PlacementSetter setter,
            out IList<IFCExtrusionData> cutPairOpenings, 
            out bool isCompletelyClipped, 
            out double scaledFootprintArea, 
            out double scaledLength)
        {
            cutPairOpenings = new List<IFCExtrusionData>();

            IFCAnyHandle bodyRep;
            scaledFootprintArea = 0;

            double unscaledLength = trimmedCurve != null ? trimmedCurve.Length : 0;
            scaledLength = UnitUtil.ScaleLength(unscaledLength);

            XYZ localOrig = wallLCS.Origin;

            // Check to see if the wall has geometry given the specified range.
            if (!WallHasGeometryToExport(wallElement, solids, meshes, range, out isCompletelyClipped))
                return null;

            // This is our major check here that goes into internal code.  If we have enough information to faithfully reproduce
            // the wall as an extrusion with clippings and openings, we will continue.  Otherwise, export it as a BRep.
            if (!CanExportWallGeometryAsExtrusion(wallElement, range))
                return null;

            // extrusion direction.
            XYZ extrusionDir = GetWallHeightDirection(wallElement);

            // create extrusion boundary.
            bool alwaysThickenCurve = IsWallBaseRectangular(wallElement, trimmedCurve);
            
            double unscaledWidth = wallElement.Width;
            IList<CurveLoop> boundaryLoops = GetBoundaryLoopsFromWall(exporterIFC, wallElement, alwaysThickenCurve, trimmedCurve, unscaledWidth);
            if (boundaryLoops == null || boundaryLoops.Count == 0)
                    return null;

            double fullUnscaledLength = baseCurve.Length;
            double unscaledFootprintArea = ExporterIFCUtils.ComputeAreaOfCurveLoops(boundaryLoops);
            scaledFootprintArea = UnitUtil.ScaleArea(unscaledFootprintArea);
            // We are going to do a little sanity check here.  If the scaledFootprintArea is significantly less than the 
            // width * length of the wall footprint, we probably calculated the area wrong, and will abort.
            // This could occur because of a door or window that cuts a corner of the wall (i.e., has no wall material on one side).
            // We want the scaledFootprintArea to be at least (95% of approximateBaseArea - 2 * side wall area).  
            // The "side wall area" is an approximate value that takes into account potential wall joins.  
            // This prevents us from doing extra work for many small walls because of joins.  We'll allow 1' (~30 cm) per side for this.
            double approximateUnscaledBaseArea = unscaledWidth * fullUnscaledLength;
            if (unscaledFootprintArea < (approximateUnscaledBaseArea * .95 - 2 * unscaledWidth))
            {
                // Can't handle the case where we don't have a simple extrusion to begin with.
                if (!alwaysThickenCurve)
                    return null;

                boundaryLoops = GetBoundaryLoopsFromBaseCurve(wallElement, connectedWalls, baseCurve, trimmedCurve, unscaledWidth, scaledDepth);
                if (boundaryLoops == null || boundaryLoops.Count == 0)
                return null;
            }

            // origin gets scaled later.
            double baseWallZOffset = localOrig[2] - ((range == null) ? baseWallElevation : Math.Min(range.Start, baseWallElevation));
            XYZ modifiedSetterOffset = new XYZ(0, 0, setter.Offset + baseWallZOffset);

            IFCAnyHandle baseBodyItemHnd = ExtrusionExporter.CreateExtrudedSolidFromCurveLoop(exporterIFC, null, boundaryLoops, wallLCS,
                extrusionDir, scaledDepth);
            if (IFCAnyHandleUtil.IsNullOrHasNoValue(baseBodyItemHnd))
                return null;

            IFCAnyHandle bodyItemHnd = AddClippingsToBaseExtrusion(exporterIFC, wallElement,
               modifiedSetterOffset, range, zSpan, baseBodyItemHnd, out cutPairOpenings);
            if (IFCAnyHandleUtil.IsNullOrHasNoValue(bodyItemHnd))
                return null;
            bool hasClipping = bodyItemHnd.Id != baseBodyItemHnd.Id;

            ElementId matId = HostObjectExporter.GetFirstLayerMaterialId(wallElement);
            IFCAnyHandle styledItemHnd = BodyExporter.CreateSurfaceStyleForRepItem(exporterIFC, wallElement.Document,
                baseBodyItemHnd, matId);

            HashSet<IFCAnyHandle> bodyItems = new HashSet<IFCAnyHandle>();
            bodyItems.Add(bodyItemHnd);

            // Check whether wall has opening. If it has, exporting it in the Reference View will need to be in a tessellated geometry that includes the opening cut
            IList<IFCOpeningData> openingDataList = ExporterIFCUtils.GetOpeningData(exporterIFC, wallElement, wallLCS, range);
            bool wallHasOpening = openingDataList.Count > 0;
            BodyExporterOptions options = new BodyExporterOptions(true);

            IFCAnyHandle contextOfItemsBody = exporterIFC.Get3DContextHandle("Body");
            if (!hasClipping)
            {
//.........这里部分代码省略.........
开发者ID:whztt07,项目名称:RevitCustomIFCexporter,代码行数:101,代码来源:WallExporter.cs


示例10: GetBestMaterialIdForGeometry

        /// <summary>
        /// Gets the best material id for the geometry.
        /// </summary>
        /// <param name="geometryElement">The geometry object to get the best material id.</param>
        /// <param name="exporterIFC">The ExporterIFC object.</param>
        /// <param name="range">The range to get the clipped geometry.</param>
        /// <returns>The material id.</returns>
        public static ElementId GetBestMaterialIdForGeometry(GeometryElement geometryElement,
           ExporterIFC exporterIFC, IFCRange range)
        {
            SolidMeshGeometryInfo solidMeshCapsule = null;

            if (range == null)
            {
                solidMeshCapsule = GeometryUtil.GetSolidMeshGeometry(geometryElement, Transform.Identity);
            }
            else
            {
                solidMeshCapsule = GeometryUtil.GetClippedSolidMeshGeometry(geometryElement, range);
            }

            IList<Solid> solids = solidMeshCapsule.GetSolids();
            IList<Mesh> polyMeshes = solidMeshCapsule.GetMeshes();

            ElementId id = GetBestMaterialIdForGeometry(solids, polyMeshes);

            return id;
        }
开发者ID:whztt07,项目名称:BIM-IFC,代码行数:28,代码来源:BodyExporter.cs


示例11: ExportDummyWall

        /// <summary>
        /// Export the dummy wall to host an orphan part. It usually happens in the cases of associated parts are higher than split sub-wall.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC object.</param>
        /// <param name="element">The wall element.</param>
        /// <param name="geometryElement">The geometry of wall.</param>
        /// <param name="origWrapper">The ProductWrapper.</param>
        /// <param name="overrideLevelId">The ElementId that will crate the dummy wall.</param>
        /// <param name="range">The IFCRange corresponding to the dummy wall.</param>
        /// <returns>The handle of dummy wall.</returns>
        public static IFCAnyHandle ExportDummyWall(ExporterIFC exporterIFC, Element element, GeometryElement geometryElement,
           ProductWrapper origWrapper, ElementId overrideLevelId, IFCRange range)
        {
            using (ProductWrapper localWrapper = ProductWrapper.Create(origWrapper))
            {
                ElementId catId = CategoryUtil.GetSafeCategoryId(element);

                Wall wallElement = element as Wall;
                if (wallElement == null)
                    return null;

                if (wallElement != null && IsWallCompletelyClipped(wallElement, exporterIFC, range))
                    return null;

                // get global values.
                Document doc = element.Document;
                
                IFCFile file = exporterIFC.GetFile();
                IFCAnyHandle ownerHistory = exporterIFC.GetOwnerHistoryHandle();

                bool validRange = (range != null && !MathUtil.IsAlmostZero(range.Start - range.End));

                bool exportParts = PartExporter.CanExportParts(wallElement);
                if (exportParts && !PartExporter.CanExportElementInPartExport(wallElement, validRange ? overrideLevelId : wallElement.LevelId, validRange))
                    return null;

                string objectType = NamingUtil.CreateIFCObjectName(exporterIFC, element);
                IFCAnyHandle wallHnd = null;

                string elemGUID = null;
                int subElementIndex = ExporterStateManager.GetCurrentRangeIndex();
                if (subElementIndex == 0)
                    elemGUID = GUIDUtil.CreateGUID(element);
                else if (subElementIndex <= ExporterStateManager.RangeIndexSetter.GetMaxStableGUIDs())
                    elemGUID = GUIDUtil.CreateSubElementGUID(element, subElementIndex + (int)IFCGenericSubElements.SplitInstanceStart - 1);
                else
                    elemGUID = GUIDUtil.CreateGUID();

                string elemName = NamingUtil.GetNameOverride(element, NamingUtil.GetIFCName(element));
                string elemDesc = NamingUtil.GetDescriptionOverride(element, null);
                string elemObjectType = NamingUtil.GetObjectTypeOverride(element, objectType);
                string elemTag = NamingUtil.GetTagOverride(element, NamingUtil.CreateIFCElementId(element));

                Transform orientationTrf = Transform.Identity;

                using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, element, null, orientationTrf, overrideLevelId))
                {
                    IFCAnyHandle localPlacement = setter.LocalPlacement;
                    wallHnd = IFCInstanceExporter.CreateWall(file, elemGUID, ownerHistory, elemName, elemDesc, elemObjectType,
                        localPlacement, null, elemTag, "NOTDEFINED");

                    if (exportParts)
                        PartExporter.ExportHostPart(exporterIFC, element, wallHnd, localWrapper, setter, localPlacement, overrideLevelId);

                    IFCExtrusionCreationData extraParams = new IFCExtrusionCreationData();
                    extraParams.PossibleExtrusionAxes = IFCExtrusionAxes.TryZ;   // only allow vertical extrusions!
                    extraParams.AreInnerRegionsOpenings = true;
                    localWrapper.AddElement(element, wallHnd, setter, extraParams, true);

                    ElementId wallLevelId = (validRange) ? setter.LevelId : ElementId.InvalidElementId;
                    SpaceBoundingElementUtil.RegisterSpaceBoundingElementHandle(exporterIFC, wallHnd, element.Id, wallLevelId);
                }

                return wallHnd;
            }
        }
开发者ID:whztt07,项目名称:RevitCustomIFCexporter,代码行数:76,代码来源:WallExporter.cs


示例12: SplitParts

        /// <summary>
        /// Split associated parts when host element is split by level.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC object.</param>
        /// <param name="hostElement">The host element havign associtaed parts.</param>
        /// <param name="associatedPartsList">The list of associtated parts.</param>
        private static void SplitParts(ExporterIFC exporterIFC, Element hostElement, List<ElementId> associatedPartsList)
        {
            string ifcEnumType;
            IFCExportType exportType = ExporterUtil.GetExportType(exporterIFC, hostElement, out ifcEnumType);

            // Split the host to find the orphan parts.
            IList<ElementId> orphanLevels = new List<ElementId>();
            IList<ElementId> hostLevels = new List<ElementId>();
            IList<IFCRange> hostRanges = new List<IFCRange>();
            LevelUtil.CreateSplitLevelRangesForElement(exporterIFC, exportType, hostElement, out hostLevels, out hostRanges);
            orphanLevels = hostLevels;

            // Split each Parts
            IList<ElementId> levels = new List<ElementId>();
            IList<IFCRange> ranges = new List<IFCRange>();
            // Dictionary to storage the level and its parts.
            Dictionary<ElementId, List<KeyValuePair<Part, IFCRange>>> levelParts = new Dictionary<ElementId, List<KeyValuePair<Part, IFCRange>>>();

            foreach (ElementId partId in associatedPartsList)
            {
                Part part = hostElement.Document.GetElement(partId) as Part;
                LevelUtil.CreateSplitLevelRangesForElement(exporterIFC, exportType, part, out levels, out ranges);

                // if the parts are above top level, associate them with nearest bottom level.
                if (ranges.Count == 0)
                {
                    ElementId bottomLevelId = FindPartSplitLevel(exporterIFC, part);

                    if (bottomLevelId == ElementId.InvalidElementId && part.Level != null)
                        bottomLevelId = part.Level.Id;

                    if (!levelParts.ContainsKey(bottomLevelId))
                        levelParts.Add(bottomLevelId, new List<KeyValuePair<Part, IFCRange>>());

                    KeyValuePair<Part, IFCRange> splitPartRange = new KeyValuePair<Part, IFCRange>(part, null);
                    levelParts[bottomLevelId].Add(splitPartRange);

                    continue;
                }

                // The parts split by levels are stored in dictionary.
                for (int ii = 0; ii < ranges.Count; ii++)
                {
                    if (!levelParts.ContainsKey(levels[ii]))
                        levelParts.Add(levels[ii], new List<KeyValuePair<Part, IFCRange>>());

                    KeyValuePair<Part, IFCRange> splitPartRange = new KeyValuePair<Part, IFCRange>(part, ranges[ii]);
                    levelParts[levels[ii]].Add(splitPartRange);
                }
             
                if (levels.Count > hostLevels.Count)
                {
                    orphanLevels = orphanLevels.Union<ElementId>(levels).ToList();
                }
            }      

            ExporterCacheManager.HostPartsCache.Register(hostElement.Id, levelParts);

            // The levels of orphan part.
            orphanLevels = orphanLevels.Where(number => !hostLevels.Contains(number)).ToList();
            List<KeyValuePair<ElementId, IFCRange>> levelRangePairList = new List<KeyValuePair<ElementId, IFCRange>>();
            foreach (ElementId orphanLevelId in orphanLevels)
            {
                IFCLevelInfo levelInfo = ExporterCacheManager.LevelInfoCache.GetLevelInfo(exporterIFC, orphanLevelId);
                if (levelInfo == null)
                    continue;
                double levelHeight = ExporterCacheManager.LevelInfoCache.FindHeight(orphanLevelId);
                IFCRange levelRange = new IFCRange(levelInfo.Elevation, levelInfo.Elevation + levelHeight);

                List<KeyValuePair<Part, IFCRange>> splitPartRangeList = new List<KeyValuePair<Part, IFCRange>>();
                splitPartRangeList = ExporterCacheManager.HostPartsCache.Find(hostElement.Id, orphanLevelId);
                IFCRange highestRange = levelRange;
                foreach (KeyValuePair<Part, IFCRange> partRange in splitPartRangeList)
                {
                    if (partRange.Value.End > highestRange.End)
                    {
                        highestRange = partRange.Value;
                    }
                }
                levelRangePairList.Add(new KeyValuePair<ElementId, IFCRange>(orphanLevelId, highestRange));
            }
            if (levelRangePairList.Count > 0)
            {
                ExporterCacheManager.DummyHostCache.Register(hostElement.Id, levelRangePairList);
            }
        }
开发者ID:whztt07,项目名称:BIM-IFC,代码行数:92,代码来源:PartExporter.cs


示例13: ExportPart

        /// <summary>
        /// Export the individual part (IfcBuildingElementPart).
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC object.</param>
        /// <param name="partElement">The part element to export.</param>
        /// <param name="geometryElement">The geometry of part.</param>
        /// <param name="productWrapper">The IFCProductWrapper object.</param>
        public static void ExportPart(ExporterIFC exporterIFC, Element partElement, IFCProductWrapper productWrapper,
            IFCPlacementSetter placementSetter, IFCAnyHandle originalPlacement, IFCRange range, IFCExtrusionAxes ifcExtrusionAxes,
            Element hostElement, ElementId overrideLevelId, bool asBuildingElement)
        {
            if (!ElementFilteringUtil.IsElementVisible(ExporterCacheManager.ExportOptionsCache.FilterViewForExport, partElement))
                return;

            Part part = partElement as Part;
            if (part == null)
                return;

            IFCPlacementSetter standalonePlacementSetter = null;
            bool standaloneExport = hostElement == null && !asBuildingElement;

            ElementId partExportLevel = null;
            if (standaloneExport || asBuildingElement)
            {
                if (partElement.Level != null)
                    partExportLevel = partElement.Level.Id;
            }
            else
            {
                if (part.OriginalCategoryId != hostElement.Category.Id)
                    return;
                partExportLevel = hostElement.Level.Id;
            }
            if (overrideLevelId != null)
                partExportLevel = overrideLevelId;

            if (ExporterCacheManager.PartExportedCache.HasExported(partElement.Id, partExportLevel))
                return;

            Options options = GeometryUtil.GetIFCExportGeometryOptions();
            View ownerView = partElement.Document.GetElement(partElement.OwnerViewId) as View;
            if (ownerView != null)
                options.View = ownerView;

            GeometryElement geometryElement = partElement.get_Geometry(options);
            if (geometryElement == null)
                return;

            try
            {
                IFCFile file = exporterIFC.GetFile();
                using (IFCTransaction transaction = new IFCTransaction(file))
                {
                    IFCAnyHandle partPlacement = null;
                    if (standaloneExport || asBuildingElement)
                    {
                        Transform orientationTrf = Transform.Identity;
                        standalonePlacementSetter = IFCPlacementSetter.Create(exporterIFC, partElement, null, orientationTrf, partExportLevel);
                        partPlacement = standalonePlacementSetter.GetPlacement();
                    }
                    else
                        partPlacement = ExporterUtil.CopyLocalPlacement(file, originalPlacement);

                    bool validRange = (range != null && !MathUtil.IsAlmostZero(range.Start - range.End));

                    SolidMeshGeometryInfo solidMeshInfo;
                    if (validRange)
                    {
                        solidMeshInfo = GeometryUtil.GetClippedSolidMeshGeometry(geometryElement, range);
                        if (solidMeshInfo.GetSolids().Count == 0 && solidMeshInfo.GetMeshes().Count == 0)
                            return;
                    }
                    else
                    {
                        solidMeshInfo = GeometryUtil.GetSolidMeshGeometry(geometryElement, Transform.Identity);
                    }

                    using (IFCExtrusionCreationData extrusionCreationData = new IFCExtrusionCreationData())
                    {
                        extrusionCreationData.SetLocalPlacement(partPlacement);
                        extrusionCreationData.ReuseLocalPlacement = false;
                        extrusionCreationData.PossibleExtrusionAxes = ifcExtrusionAxes;

                        IList<Solid> solids = solidMeshInfo.GetSolids();
                        IList<Mesh> meshes = solidMeshInfo.GetMeshes();

                        ElementId catId = CategoryUtil.GetSafeCategoryId(partElement);

                        BodyData bodyData = null;
                        BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true);
                        if (solids.Count > 0 || meshes.Count > 0)
                        {
                            bodyData = BodyExporter.ExportBody(partElement.Document.Application, exporterIFC, partElement, catId, solids, meshes,
                                bodyExporterOptions, extrusionCreationData);
                        }
                        else
                        {
                            IList<GeometryObject> geomlist = new List<GeometryObject>();
                            geomlist.Add(geometryElement);
                            bodyData = BodyExporter.ExportBody(partElement.Document.Application, exporterIFC, partElement, catId, geomlist,
//.........这里部分代码省略.........
开发者ID:whztt07,项目名称:BIM-IFC,代码行数:101,代码来源:PartExporter.cs


示例14: CreateExtrusionWithClippingAndProperties

        /// <summary>
        /// Creates an extrusion with potential clipping from a solid corresponding to an element, and supplies ExtrusionCreationData for the result.
        /// </summary>
        /// <param name="exporterIFC">The ExporterIFC class.</param>
        /// <param name="element">The element.</param>
        /// <param name="catId">The category of the element and/or the solid geometry.</param>
        /// <param name="solid">The solid geometry.</param>
        /// <param name="plane">The extrusion base plane.</param>
        /// <param name="projDir">The projection direction.</param>
        /// <param name="range">The upper and lower limits of the extrusion, in the projection direction.</param>
        /// <param name="completelyClipped">Returns true if the extrusion is completely outside the range.</param>
        /// <returns>The extrusion handle.</returns>
        public static HandleAndData CreateExtrusionWithClippingAndProperties(ExporterIFC exporterIFC,
            El 

鲜花

握手

雷人

路过

鸡蛋
该文章已有0人参与评论

请发表评论

全部评论

专题导读
上一篇:
C# IFCTransaction类代码示例发布时间:2022-05-24
下一篇:
C# IFCFile类代码示例发布时间:2022-05-24
热门推荐
阅读排行榜

扫描微信二维码

查看手机版网站

随时了解更新最新资讯

139-2527-9053

在线客服(服务时间 9:00~18:00)

在线QQ客服
地址:深圳市南山区西丽大学城创智工业园
电邮:jeky_zhao#qq.com
移动电话:139-2527-9053

Powered by 互联科技 X3.4© 2001-2213 极客世界.|Sitemap