/// <summary>
/// Update the local placements of the members of an assembly relative to the assembly.
/// </summary>
/// <param name="exporterIFC">The ExporerIFC.</param>
/// <param name="assemblyPlacement">The assembly local placement handle.</param>
/// <param name="elementPlacements">The member local placement handles.</param>
public static void SetLocalPlacementsRelativeToAssembly(ExporterIFC exporterIFC, IFCAnyHandle assemblyPlacement, ICollection <IFCAnyHandle> elementPlacements)
{
foreach (IFCAnyHandle elementHandle in elementPlacements)
{
IFCAnyHandle elementPlacement = null;
try
{
// The assembly may contain nested groups, that don't have an object placement. In this case, continue.
elementPlacement = IFCAnyHandleUtil.GetObjectPlacement(elementHandle);
}
catch
{
continue;
}
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(assemblyPlacement, elementPlacement);
Transform inverseTrf = relTrf.Inverse;
IFCFile file = exporterIFC.GetFile();
IFCAnyHandle relLocalPlacement = ExporterUtil.CreateAxis2Placement3D(file, inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
// NOTE: caution that old IFCAXIS2PLACEMENT3D may be unused as the new one replace it.
// But we cannot delete it safely yet because we don't know if any handle is referencing it.
GeometryUtil.SetRelativePlacement(elementPlacement, relLocalPlacement);
GeometryUtil.SetPlacementRelTo(elementPlacement, assemblyPlacement);
}
}
/// <summary>
/// Obtains the handle to an alternate local placement for a room-related element.
/// </summary>
/// <param name="element">The element.</param>
/// <param name="placementToUse">The handle to the IfcLocalPlacement to use for the given room-related element.</param>
/// <returns>
/// The id of the spatial element related to the element. InvalidElementId if the element
/// is not room-related, in which case the output will contain the placement handle from
/// LocalPlacement.
/// </returns>
public ElementId UpdateRoomRelativeCoordinates(Element elem, out IFCAnyHandle placement)
{
placement = m_LocalPlacement;
FamilyInstance famInst = elem as FamilyInstance;
if (famInst == null)
{
return(ElementId.InvalidElementId);
}
Element roomOrSpace = null;
if (roomOrSpace == null)
{
try
{
roomOrSpace = ExporterCacheManager.SpaceInfoCache.ContainsRooms ? famInst.get_Room(ExporterCacheManager.ExportOptionsCache.ActivePhaseElement) : null;
}
catch
{
roomOrSpace = null;
}
}
if (roomOrSpace == null)
{
try
{
roomOrSpace = ExporterCacheManager.SpaceInfoCache.ContainsSpaces ? famInst.get_Space(ExporterCacheManager.ExportOptionsCache.ActivePhaseElement) : null;
}
catch
{
roomOrSpace = null;
}
}
if (roomOrSpace == null || roomOrSpace.Location == null)
{
return(ElementId.InvalidElementId);
}
ElementId roomId = roomOrSpace.Id;
IFCAnyHandle roomHnd = ExporterCacheManager.SpaceInfoCache.FindSpaceHandle(roomId);
if (IFCAnyHandleUtil.IsNullOrHasNoValue(roomHnd))
{
return(ElementId.InvalidElementId);
}
IFCAnyHandle roomPlacementHnd = IFCAnyHandleUtil.GetObjectPlacement(roomHnd);
Transform trf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(placement, roomPlacementHnd);
placement = ExporterUtil.CreateLocalPlacement(m_ExporterIFC.GetFile(), roomPlacementHnd, trf.Origin, trf.BasisZ, trf.BasisX);
return(roomId);
}
/// <summary>
/// Obtains the handle to an alternate local placement for a room-related element.
/// </summary>
/// <param name="roomHnd">Handle to the element.</param>
/// <param name="placementToUse">The handle to the IfcLocalPlacement to use for the given room-related element.</param>
/// <returns>
/// </returns>
private void UpdatePlacement(IFCAnyHandle roomHnd, out IFCAnyHandle placement)
{
placement = LocalPlacement;
if (roomHnd == null)
{
return;
}
IFCAnyHandle roomPlacementHnd = IFCAnyHandleUtil.GetObjectPlacement(roomHnd);
Transform trf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(placement, roomPlacementHnd);
placement = ExporterUtil.CreateLocalPlacement(ExporterIFC.GetFile(), roomPlacementHnd, trf.Origin, trf.BasisZ, trf.BasisX);
}
/// <summary>
/// Exports mullion.
/// </summary>
/// <param name="exporterIFC">
/// The ExporterIFC object.
/// </param>
/// <param name="mullion">
/// The mullion object.
/// </param>
/// <param name="geometryElement">
/// The geometry element.
/// </param>
/// <param name="localPlacement">
/// The local placement handle.
/// </param>
/// <param name="setter">
/// The IFCPlacementSetter.
/// </param>
/// <param name="productWrapper">
/// The ProductWrapper.
/// </param>
public static void Export(ExporterIFC exporterIFC, Mullion mullion, GeometryElement geometryElement,
IFCAnyHandle localPlacement, IFCPlacementSetter setter, ProductWrapper productWrapper)
{
IFCFile file = exporterIFC.GetFile();
using (IFCPlacementSetter mullionSetter = IFCPlacementSetter.Create(exporterIFC, mullion, null, null, ExporterUtil.GetBaseLevelIdForElement(mullion)))
{
using (IFCExtrusionCreationData extraParams = new IFCExtrusionCreationData())
{
IFCAnyHandle mullionPlacement = mullionSetter.GetPlacement();
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(localPlacement, mullionPlacement);
Transform inverseTrf = relTrf.Inverse;
IFCAnyHandle mullionRelativePlacement = ExporterUtil.CreateAxis2Placement3D(file, inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
IFCAnyHandle mullionLocalPlacement = IFCInstanceExporter.CreateLocalPlacement(file, localPlacement, mullionRelativePlacement);
extraParams.SetLocalPlacement(mullionLocalPlacement);
ElementId catId = CategoryUtil.GetSafeCategoryId(mullion);
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true);
IFCAnyHandle repHnd = RepresentationUtil.CreateAppropriateProductDefinitionShape(exporterIFC, mullion, catId,
geometryElement, bodyExporterOptions, null, extraParams, true);
if (IFCAnyHandleUtil.IsNullOrHasNoValue(repHnd))
{
extraParams.ClearOpenings();
return;
}
string elemGUID = GUIDUtil.CreateGUID(mullion);
IFCAnyHandle ownerHistory = exporterIFC.GetOwnerHistoryHandle();
string elemObjectType = NamingUtil.CreateIFCObjectName(exporterIFC, mullion);
string name = NamingUtil.GetNameOverride(mullion, elemObjectType);
string description = NamingUtil.GetDescriptionOverride(mullion, null);
string objectType = NamingUtil.GetObjectTypeOverride(mullion, elemObjectType);
string elemTag = NamingUtil.GetTagOverride(mullion, NamingUtil.CreateIFCElementId(mullion));
IFCAnyHandle mullionHnd = IFCInstanceExporter.CreateMember(file, elemGUID, ownerHistory, name, description, objectType,
mullionLocalPlacement, repHnd, elemTag);
ExporterCacheManager.HandleToElementCache.Register(mullionHnd, mullion.Id);
productWrapper.AddElement(mullion, mullionHnd, mullionSetter, extraParams, false);
ElementId matId = BodyExporter.GetBestMaterialIdFromGeometryOrParameter(geometryElement, exporterIFC, mullion);
CategoryUtil.CreateMaterialAssociation(exporterIFC, mullionHnd, matId);
}
}
}
/// <summary>
/// Update the local placements of the members of an assembly relative to the assembly.
/// </summary>
/// <param name="exporterIFC">The ExporerIFC.</param>
/// <param name="assemblyPlacement">The assembly local placement handle.</param>
/// <param name="elementPlacements">The member local placement handles.</param>
public static void SetLocalPlacementsRelativeToAssembly(ExporterIFC exporterIFC, IFCAnyHandle assemblyPlacement, ICollection <IFCAnyHandle> elementPlacements)
{
foreach (IFCAnyHandle elementHandle in elementPlacements)
{
IFCAnyHandle elementPlacement = IFCAnyHandleUtil.GetObjectPlacement(elementHandle);
Transform origTrf = ExporterIFCUtils.GetUnscaledTransform(exporterIFC, assemblyPlacement);
if (!origTrf.IsIdentity)
{
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(assemblyPlacement, elementPlacement);
Transform inverseTrf = relTrf.Inverse;
IFCFile file = exporterIFC.GetFile();
IFCAnyHandle relLocalPlacement = ExporterUtil.CreateAxis2Placement3D(file, inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
// NOTE: caution that old IFCAXIS2PLACEMENT3D may be unused as the new one replace it.
// But we cannot delete it safely yet because we don't know if any handle is referencing it.
GeometryUtil.SetRelativePlacement(elementPlacement, relLocalPlacement);
}
GeometryUtil.SetPlacementRelTo(elementPlacement, assemblyPlacement);
}
}
/// <summary>
/// Creates an opening from a solid.
/// </summary>
/// <param name="exporterIFC">The exporter.</param>
/// <param name="hostObjHnd">The host object handle.</param>
/// <param name="hostElement">The host element.</param>
/// <param name="insertElement">The insert element.</param>
/// <param name="openingGUID">The GUID for the opening, depending on how the opening is created.</param>
/// <param name="solid">The solid.</param>
/// <param name="scaledHostWidth">The scaled host width.</param>
/// <param name="isRecess">True if it is recess.</param>
/// <param name="extrusionCreationData">The extrusion creation data.</param>
/// <param name="setter">The placement setter.</param>
/// <param name="localWrapper">The product wrapper.</param>
/// <returns>The created opening handle.</returns>
static public IFCAnyHandle CreateOpening(ExporterIFC exporterIFC, IFCAnyHandle hostObjHnd, Element hostElement, Element insertElement, string openingGUID,
Solid solid, double scaledHostWidth, bool isRecess, IFCExtrusionCreationData extrusionCreationData, PlacementSetter setter, ProductWrapper localWrapper)
{
IFCFile file = exporterIFC.GetFile();
ElementId catId = CategoryUtil.GetSafeCategoryId(insertElement);
XYZ prepToWall;
bool isLinearWall = GetOpeningDirection(hostElement, out prepToWall);
if (isLinearWall)
{
extrusionCreationData.CustomAxis = prepToWall;
extrusionCreationData.PossibleExtrusionAxes = IFCExtrusionAxes.TryCustom;
}
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true);
BodyData bodyData = BodyExporter.ExportBody(exporterIFC, insertElement, catId, ElementId.InvalidElementId,
solid, bodyExporterOptions, extrusionCreationData);
IFCAnyHandle openingRepHnd = bodyData.RepresentationHnd;
if (IFCAnyHandleUtil.IsNullOrHasNoValue(openingRepHnd))
{
extrusionCreationData.ClearOpenings();
return(null);
}
IList <IFCAnyHandle> representations = new List <IFCAnyHandle>();
representations.Add(openingRepHnd);
IFCAnyHandle prodRep = IFCInstanceExporter.CreateProductDefinitionShape(file, null, null, representations);
IFCAnyHandle openingPlacement = extrusionCreationData.GetLocalPlacement();
IFCAnyHandle hostObjPlacementHnd = IFCAnyHandleUtil.GetObjectPlacement(hostObjHnd);
Transform relTransform = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(openingPlacement, hostObjPlacementHnd);
openingPlacement = ExporterUtil.CreateLocalPlacement(file, hostObjPlacementHnd,
relTransform.Origin, relTransform.BasisZ, relTransform.BasisX);
IFCAnyHandle ownerHistory = exporterIFC.GetOwnerHistoryHandle();
double scaledOpeningLength = extrusionCreationData.ScaledLength;
string openingObjectType = "Opening";
if (!MathUtil.IsAlmostZero(scaledHostWidth) && !MathUtil.IsAlmostZero(scaledOpeningLength))
{
openingObjectType = scaledOpeningLength < (scaledHostWidth - MathUtil.Eps()) ? "Recess" : "Opening";
}
else
{
openingObjectType = isRecess ? "Recess" : "Opening";
}
string openingName = NamingUtil.GetNameOverride(insertElement, null);
if (string.IsNullOrEmpty(openingName))
{
if (!IFCAnyHandleUtil.IsNullOrHasNoValue(hostObjHnd))
{
openingName = IFCAnyHandleUtil.GetStringAttribute(hostObjHnd, "Name");
}
else
{
openingName = NamingUtil.GetNameOverride(hostElement, NamingUtil.CreateIFCObjectName(exporterIFC, hostElement));
}
}
IFCAnyHandle openingHnd = IFCInstanceExporter.CreateOpeningElement(file, openingGUID, ownerHistory, openingName, null,
openingObjectType, openingPlacement, prodRep, null);
if (ExporterCacheManager.ExportOptionsCache.ExportBaseQuantities)
{
PropertyUtil.CreateOpeningQuantities(exporterIFC, openingHnd, extrusionCreationData);
}
if (localWrapper != null)
{
Element elementForProperties = null;
if (GUIDUtil.IsGUIDFor(insertElement, openingGUID))
{
elementForProperties = insertElement;
}
localWrapper.AddElement(insertElement, openingHnd, setter, extrusionCreationData, true);
}
string voidGuid = GUIDUtil.CreateGUID();
IFCInstanceExporter.CreateRelVoidsElement(file, voidGuid, ownerHistory, null, null, hostObjHnd, openingHnd);
return(openingHnd);
}
/// <summary>
/// Excutes the creator.
/// </summary>
/// <param name="exporterIFC">The exporter.</param>
/// <param name="doc">The document.</param>
public void Execute(ExporterIFC exporterIFC, Document doc)
{
IFCAnyHandle hostObjHnd = !IFCAnyHandleUtil.IsNullOrHasNoValue(HostHnd) ? HostHnd :
DoorWindowUtil.GetHndForHostAndLevel(exporterIFC, HostId, LevelId);
if (IFCAnyHandleUtil.IsNullOrHasNoValue(hostObjHnd))
{
return;
}
IList <DoorWindowOpeningInfo> doorWindowOpeningInfoList = new List <DoorWindowOpeningInfo>();
Element doorElem = doc.GetElement(InsertId);
string openingGUID = GUIDUtil.CreateSubElementGUID(doorElem, (int)IFCDoorSubElements.DoorOpening);
if (ExtrusionData != null)
{
foreach (IFCExtrusionData extrusionData in ExtrusionData)
{
if (doorWindowOpeningInfoList.Count > 0)
{
openingGUID = GUIDUtil.CreateGUID();
}
DoorWindowOpeningInfo openingInfo = DoorWindowUtil.CreateOpeningForDoorWindow(exporterIFC, doc, hostObjHnd,
HostId, InsertId, openingGUID, extrusionData.GetLoops()[0], extrusionData.ExtrusionDirection,
UnitUtil.UnscaleLength(extrusionData.ScaledExtrusionLength), PosHingeSide, IsRecess);
if (openingInfo != null && !IFCAnyHandleUtil.IsNullOrHasNoValue(openingInfo.OpeningHnd))
{
doorWindowOpeningInfoList.Add(openingInfo);
}
}
}
if (Solids != null)
{
foreach (Solid solid in Solids)
{
if (doorWindowOpeningInfoList.Count > 0)
{
openingGUID = GUIDUtil.CreateGUID();
}
DoorWindowOpeningInfo openingInfo = DoorWindowUtil.CreateOpeningForDoorWindow(exporterIFC, doc, hostObjHnd,
HostId, InsertId, openingGUID, solid, ScaledHostWidth, IsRecess);
if (openingInfo != null && !IFCAnyHandleUtil.IsNullOrHasNoValue(openingInfo.OpeningHnd))
{
doorWindowOpeningInfoList.Add(openingInfo);
}
}
}
if (IFCAnyHandleUtil.IsNullOrHasNoValue(DoorWindowHnd))
{
return;
}
bool foundOpening = false;
bool foundHeight = false;
bool foundWidth = false;
bool?isDoorOrWindowOpening = null;
foreach (DoorWindowOpeningInfo openingInfo in doorWindowOpeningInfoList)
{
// If we've updated the door/window placement, and set its height and width, there's nothing more to do here.
if (foundOpening && foundHeight && foundWidth)
{
break;
}
// update original door or window to be relative to the first opening we find.
// We only allow one IfcRelFillsElement per door or window, so only do this for the first opening.
if (!foundOpening)
{
IFCFile file = exporterIFC.GetFile();
IFCAnyHandle ownerHistory = ExporterCacheManager.OwnerHistoryHandle;
IFCAnyHandle openingHnd = openingInfo.OpeningHnd;
foundOpening = true;
string relGUID = GUIDUtil.CreateGUID();
IFCInstanceExporter.CreateRelFillsElement(file, relGUID, ownerHistory, null, null, openingHnd, DoorWindowHnd);
IFCAnyHandle openingPlacement = IFCAnyHandleUtil.GetObjectPlacement(openingHnd);
if (!IFCAnyHandleUtil.IsNullOrHasNoValue(openingPlacement))
{
IFCAnyHandle origObjectPlacement = IFCAnyHandleUtil.GetObjectPlacement(DoorWindowHnd);
Transform relTransform = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(origObjectPlacement, openingPlacement);
IFCAnyHandle newLocalPlacement = ExporterUtil.CreateLocalPlacement(file, openingPlacement,
relTransform.Origin, relTransform.BasisZ, relTransform.BasisX);
IFCAnyHandleUtil.SetAttribute(DoorWindowHnd, "ObjectPlacement", newLocalPlacement);
origObjectPlacement.Delete();
}
}
// The first entry for a particular door may not have the height or width set, so keep looking until we find an entry that does.
if (!isDoorOrWindowOpening.HasValue)
{
isDoorOrWindowOpening = IFCAnyHandleUtil.IsTypeOf(DoorWindowHnd, IFCEntityType.IfcDoor) || IFCAnyHandleUtil.IsTypeOf(DoorWindowHnd, IFCEntityType.IfcWindow);
}
if (!(foundHeight && foundWidth) && isDoorOrWindowOpening.Value)
{
double openingHeight = openingInfo.OpeningHeight;
double openingWidth = openingInfo.OpeningWidth;
if (openingHeight > MathUtil.Eps())
{
foundHeight = true;
IFCAnyHandleUtil.SetAttribute(DoorWindowHnd, "OverallHeight", UnitUtil.ScaleLength(openingHeight));
}
if (openingWidth > MathUtil.Eps())
{
foundWidth = true;
IFCAnyHandleUtil.SetAttribute(DoorWindowHnd, "OverallWidth", UnitUtil.ScaleLength(openingWidth));
}
}
}
}
/// <summary>
/// Exports an element as IFC covering.
/// </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 ExportCovering(ExporterIFC exporterIFC, Element element, GeometryElement geomElem, string ifcEnumType, ProductWrapper productWrapper)
{
bool exportParts = PartExporter.CanExportParts(element);
if (exportParts && !PartExporter.CanExportElementInPartExport(element, element.LevelId, false))
{
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>("IfcCovering", out elementClassTypeEnum))
{
if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
{
return;
}
}
ElementType elemType = element.Document.GetElement(element.GetTypeId()) as ElementType;
IFCFile file = exporterIFC.GetFile();
using (IFCTransaction transaction = new IFCTransaction(file))
{
using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, element))
{
using (IFCExtrusionCreationData ecData = new IFCExtrusionCreationData())
{
ElementId categoryId = CategoryUtil.GetSafeCategoryId(element);
IFCAnyHandle prodRep = null;
if (!exportParts)
{
ecData.SetLocalPlacement(setter.LocalPlacement);
ecData.PossibleExtrusionAxes = IFCExtrusionAxes.TryZ;
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true, ExportOptionsCache.ExportTessellationLevel.ExtraLow);
prodRep = RepresentationUtil.CreateAppropriateProductDefinitionShape(exporterIFC, element,
categoryId, geomElem, bodyExporterOptions, null, ecData, true);
if (IFCAnyHandleUtil.IsNullOrHasNoValue(prodRep))
{
ecData.ClearOpenings();
return;
}
}
// We will use the category of the element to set a default value for the covering.
string defaultCoveringEnumType = null;
if (categoryId == new ElementId(BuiltInCategory.OST_Ceilings))
{
defaultCoveringEnumType = "CEILING";
}
else if (categoryId == new ElementId(BuiltInCategory.OST_Floors))
{
defaultCoveringEnumType = "FLOORING";
}
else if (categoryId == new ElementId(BuiltInCategory.OST_Roofs))
{
defaultCoveringEnumType = "ROOFING";
}
string instanceGUID = GUIDUtil.CreateGUID(element);
string instanceName = NamingUtil.GetNameOverride(element, NamingUtil.GetIFCName(element));
string instanceDescription = NamingUtil.GetDescriptionOverride(element, null);
string instanceObjectType = NamingUtil.GetObjectTypeOverride(element, exporterIFC.GetFamilyName());
string instanceTag = NamingUtil.GetTagOverride(element, NamingUtil.CreateIFCElementId(element));
string coveringType = IFCValidateEntry.GetValidIFCType(element, ifcEnumType, defaultCoveringEnumType);
IFCAnyHandle covering = IFCInstanceExporter.CreateCovering(file, instanceGUID, ExporterCacheManager.OwnerHistoryHandle,
instanceName, instanceDescription, instanceObjectType, setter.LocalPlacement, prodRep, instanceTag, coveringType);
if (exportParts)
{
PartExporter.ExportHostPart(exporterIFC, element, covering, productWrapper, setter, setter.LocalPlacement, null);
}
bool containInSpace = false;
IFCAnyHandle localPlacementToUse = setter.LocalPlacement;
// Ceiling containment in Space is generally required and not specific to any view
if (ExporterCacheManager.CeilingSpaceRelCache.ContainsKey(element.Id))
{
IList <ElementId> roomlist = ExporterCacheManager.CeilingSpaceRelCache[element.Id];
// Process Ceiling to be contained in a Space only when it is exactly bounding one Space
if (roomlist.Count == 1)
{
productWrapper.AddElement(element, covering, setter, null, false);
// Modify the Ceiling placement to be relative to the Space that it bounds
IFCAnyHandle roomPlacement = IFCAnyHandleUtil.GetObjectPlacement(ExporterCacheManager.SpaceInfoCache.FindSpaceHandle(roomlist[0]));
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(roomPlacement, localPlacementToUse);
Transform inverseTrf = relTrf.Inverse;
IFCAnyHandle relLocalPlacement = ExporterUtil.CreateAxis2Placement3D(file, inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
IFCAnyHandleUtil.SetAttribute(localPlacementToUse, "PlacementRelTo", roomPlacement);
GeometryUtil.SetRelativePlacement(localPlacementToUse, relLocalPlacement);
ExporterCacheManager.SpaceInfoCache.RelateToSpace(roomlist[0], covering);
containInSpace = true;
}
}
// if not contained in Space, assign it to default containment in Level
if (!containInSpace)
{
productWrapper.AddElement(element, covering, setter, null, true);
}
if (!exportParts)
{
Ceiling ceiling = element as Ceiling;
if (ceiling != null)
{
HostObjectExporter.ExportHostObjectMaterials(exporterIFC, ceiling, covering,
geomElem, productWrapper, ElementId.InvalidElementId, Toolkit.IFCLayerSetDirection.Axis3, null);
}
else
{
ElementId matId = BodyExporter.GetBestMaterialIdFromGeometryOrParameter(geomElem, exporterIFC, element);
CategoryUtil.CreateMaterialAssociation(exporterIFC, covering, matId);
}
}
OpeningUtil.CreateOpeningsIfNecessary(covering, element, ecData, null,
exporterIFC, ecData.GetLocalPlacement(), setter, productWrapper);
}
}
transaction.Commit();
}
}
/// <summary>
/// Exports an element as IFC railing.
/// </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 ExportRailing(ExporterIFC exporterIFC, Element element, GeometryElement geomElem, string ifcEnumType, ProductWrapper productWrapper)
{
// Check the intended IFC entity or type name is in the exclude list specified in the UI
Common.Enums.IFCEntityType elementClassTypeEnum = Common.Enums.IFCEntityType.IfcRailing;
if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
{
return;
}
ElementType elemType = element.Document.GetElement(element.GetTypeId()) as ElementType;
IFCFile file = exporterIFC.GetFile();
Options geomOptions = GeometryUtil.GetIFCExportGeometryOptions();
using (IFCTransaction transaction = new IFCTransaction(file))
{
using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, element))
{
using (IFCExtrusionCreationData ecData = new IFCExtrusionCreationData())
{
IFCAnyHandle localPlacement = setter.LocalPlacement;
StairRampContainerInfo stairRampInfo = null;
ElementId hostId = GetStairOrRampHostId(exporterIFC, element as Railing);
Transform inverseTrf = Transform.Identity;
if (hostId != ElementId.InvalidElementId)
{
stairRampInfo = ExporterCacheManager.StairRampContainerInfoCache.GetStairRampContainerInfo(hostId);
IFCAnyHandle stairRampLocalPlacement = stairRampInfo.LocalPlacements[0];
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(stairRampLocalPlacement, localPlacement);
inverseTrf = relTrf.Inverse;
IFCAnyHandle railingLocalPlacement = ExporterUtil.CreateLocalPlacement(file, stairRampLocalPlacement,
inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
localPlacement = railingLocalPlacement;
}
ecData.SetLocalPlacement(localPlacement);
SolidMeshGeometryInfo solidMeshInfo = GeometryUtil.GetSplitSolidMeshGeometry(geomElem);
IList <Solid> solids = solidMeshInfo.GetSolids();
IList <Mesh> meshes = solidMeshInfo.GetMeshes();
Railing railingElem = element as Railing;
IList <ElementId> subElementIds = CollectSubElements(railingElem);
foreach (ElementId subElementId in subElementIds)
{
Element subElement = railingElem.Document.GetElement(subElementId);
if (subElement != null)
{
GeometryElement subElementGeom = GeometryUtil.GetOneLevelGeometryElement(subElement.get_Geometry(geomOptions), 0);
SolidMeshGeometryInfo subElementSolidMeshInfo = GeometryUtil.GetSplitSolidMeshGeometry(subElementGeom);
IList <Solid> subElementSolids = subElementSolidMeshInfo.GetSolids();
IList <Mesh> subElementMeshes = subElementSolidMeshInfo.GetMeshes();
foreach (Solid subElementSolid in subElementSolids)
{
solids.Add(subElementSolid);
}
foreach (Mesh subElementMesh in subElementMeshes)
{
meshes.Add(subElementMesh);
}
}
}
ElementId catId = CategoryUtil.GetSafeCategoryId(element);
BodyData bodyData = null;
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true, ExportOptionsCache.ExportTessellationLevel.Medium);
//bodyExporterOptions.UseGroupsIfPossible = true;
//bodyExporterOptions.UseMappedGeometriesIfPossible = true;
if (solids.Count > 0 || meshes.Count > 0)
{
bodyData = BodyExporter.ExportBody(exporterIFC, element, catId, ElementId.InvalidElementId, solids, meshes, bodyExporterOptions, ecData);
}
else
{
IList <GeometryObject> geomlist = new List <GeometryObject>();
geomlist.Add(geomElem);
bodyData = BodyExporter.ExportBody(exporterIFC, element, catId, ElementId.InvalidElementId, geomlist, bodyExporterOptions, ecData);
}
IFCAnyHandle bodyRep = bodyData.RepresentationHnd;
if (IFCAnyHandleUtil.IsNullOrHasNoValue(bodyRep))
{
if (ecData != null)
{
ecData.ClearOpenings();
}
return;
}
IList <IFCAnyHandle> representations = new List <IFCAnyHandle>();
representations.Add(bodyRep);
IList <GeometryObject> geomObjects = new List <GeometryObject>();
foreach (Solid solid in solids)
{
geomObjects.Add(solid);
}
foreach (Mesh mesh in meshes)
{
geomObjects.Add(mesh);
}
Transform boundingBoxTrf = (bodyData.OffsetTransform != null) ? bodyData.OffsetTransform.Inverse : Transform.Identity;
boundingBoxTrf = inverseTrf.Multiply(boundingBoxTrf);
IFCAnyHandle boundingBoxRep = BoundingBoxExporter.ExportBoundingBox(exporterIFC, geomObjects, boundingBoxTrf);
if (boundingBoxRep != null)
{
representations.Add(boundingBoxRep);
}
IFCAnyHandle prodRep = IFCInstanceExporter.CreateProductDefinitionShape(file, null, null, representations);
IFCAnyHandle ownerHistory = ExporterCacheManager.OwnerHistoryHandle;
string instanceGUID = GUIDUtil.CreateGUID(element);
//string railingType = IFCValidateEntry.GetValidIFCPredefinedType(element, ifcEnumType);
IFCAnyHandle railing = IFCInstanceExporter.CreateRailing(exporterIFC, element, instanceGUID, ownerHistory,
ecData.GetLocalPlacement(), prodRep, ifcEnumType);
bool associateToLevel = (hostId == ElementId.InvalidElementId);
productWrapper.AddElement(element, railing, setter, ecData, associateToLevel);
OpeningUtil.CreateOpeningsIfNecessary(railing, element, ecData, bodyData.OffsetTransform,
exporterIFC, ecData.GetLocalPlacement(), setter, productWrapper);
CategoryUtil.CreateMaterialAssociation(exporterIFC, railing, bodyData.MaterialIds);
// Create multi-story duplicates of this railing.
if (stairRampInfo != null)
{
stairRampInfo.AddComponent(0, railing);
List <IFCAnyHandle> stairHandles = stairRampInfo.StairOrRampHandles;
for (int ii = 1; ii < stairHandles.Count; ii++)
{
IFCAnyHandle railingLocalPlacement = stairRampInfo.LocalPlacements[ii];
if (!IFCAnyHandleUtil.IsNullOrHasNoValue(railingLocalPlacement))
{
IFCAnyHandle railingHndCopy = CopyRailingHandle(exporterIFC, element, catId, railingLocalPlacement, railing);
stairRampInfo.AddComponent(ii, railingHndCopy);
productWrapper.AddElement(element, railingHndCopy, (IFCLevelInfo)null, ecData, false);
CategoryUtil.CreateMaterialAssociation(exporterIFC, railingHndCopy, bodyData.MaterialIds);
}
}
ExporterCacheManager.StairRampContainerInfoCache.AddStairRampContainerInfo(hostId, stairRampInfo);
}
}
transaction.Commit();
}
}
}
/// <summary>
/// Exports mullion.
/// </summary>
/// <param name="exporterIFC">
/// The ExporterIFC object.
/// </param>
/// <param name="mullion">
/// The mullion object.
/// </param>
/// <param name="geometryElement">
/// The geometry element.
/// </param>
/// <param name="localPlacement">
/// The local placement handle.
/// </param>
/// <param name="setter">
/// The PlacementSetter.
/// </param>
/// <param name="productWrapper">
/// The ProductWrapper.
/// </param>
public static void Export(ExporterIFC exporterIFC, Mullion mullion, GeometryElement geometryElement,
IFCAnyHandle localPlacement, PlacementSetter setter, ProductWrapper productWrapper)
{
IFCFile file = exporterIFC.GetFile();
using (PlacementSetter mullionSetter = PlacementSetter.Create(exporterIFC, mullion))
{
using (IFCExtrusionCreationData extraParams = new IFCExtrusionCreationData())
{
IFCAnyHandle mullionPlacement = mullionSetter.LocalPlacement;
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(localPlacement, mullionPlacement);
Transform inverseTrf = relTrf.Inverse;
IFCAnyHandle mullionLocalPlacement = ExporterUtil.CreateLocalPlacement(file, localPlacement,
inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
extraParams.SetLocalPlacement(mullionLocalPlacement);
Transform extrusionLCS = null;
// Add a custom direction for trying to create an extrusion based on the base curve of the mullion, if it is a line and not an arc.
Curve baseCurve = mullion.LocationCurve;
if ((baseCurve != null) && (baseCurve is Line))
{
// We won't use curveBounds and origin yet; just need the axis for now.
IFCRange curveBounds;
XYZ origin, mullionDirection;
GeometryUtil.GetAxisAndRangeFromCurve(baseCurve, out curveBounds, out mullionDirection, out origin);
// approx 1.0/sqrt(2.0)
XYZ planeY = (Math.Abs(mullionDirection.Z) < 0.707) ? XYZ.BasisZ.CrossProduct(mullionDirection) : XYZ.BasisX.CrossProduct(mullionDirection);
planeY.Normalize();
XYZ projDir = mullionDirection.CrossProduct(planeY);
extrusionLCS = Transform.Identity;
extrusionLCS.BasisX = mullionDirection; extrusionLCS.BasisY = planeY; extrusionLCS.BasisZ = projDir; extrusionLCS.Origin = origin;
}
ElementId catId = CategoryUtil.GetSafeCategoryId(mullion);
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true);
bodyExporterOptions.ExtrusionLocalCoordinateSystem = extrusionLCS;
IFCAnyHandle repHnd = RepresentationUtil.CreateAppropriateProductDefinitionShape(exporterIFC, mullion, catId,
geometryElement, bodyExporterOptions, null, extraParams, true);
if (IFCAnyHandleUtil.IsNullOrHasNoValue(repHnd))
{
extraParams.ClearOpenings();
return;
}
string elemGUID = GUIDUtil.CreateGUID(mullion);
IFCAnyHandle ownerHistory = exporterIFC.GetOwnerHistoryHandle();
string elemObjectType = NamingUtil.CreateIFCObjectName(exporterIFC, mullion);
string name = NamingUtil.GetNameOverride(mullion, elemObjectType);
string description = NamingUtil.GetDescriptionOverride(mullion, null);
string objectType = NamingUtil.GetObjectTypeOverride(mullion, elemObjectType);
string elemTag = NamingUtil.GetTagOverride(mullion, NamingUtil.CreateIFCElementId(mullion));
IFCAnyHandle mullionHnd = IFCInstanceExporter.CreateMember(file, elemGUID, ownerHistory, name, description, objectType,
mullionLocalPlacement, repHnd, elemTag, "MULLION");
ExporterCacheManager.HandleToElementCache.Register(mullionHnd, mullion.Id);
productWrapper.AddElement(mullion, mullionHnd, mullionSetter, extraParams, false);
ElementId matId = BodyExporter.GetBestMaterialIdFromGeometryOrParameter(geometryElement, exporterIFC, mullion);
CategoryUtil.CreateMaterialAssociation(exporterIFC, mullionHnd, matId);
}
}
}
/// <summary>
/// Exports an element as IFC covering.
/// </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 ExportCovering(ExporterIFC exporterIFC, Element element, ref GeometryElement geomElem, string ifcEnumType, ProductWrapper productWrapper)
{
// Check the intended IFC entity or type name is in the exclude list specified in the UI
Common.Enums.IFCEntityType elementClassTypeEnum = Common.Enums.IFCEntityType.IfcCovering;
if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
{
return;
}
ElementType elemType = element.Document.GetElement(element.GetTypeId()) as ElementType;
IFCFile file = exporterIFC.GetFile();
MaterialLayerSetInfo layersetInfo = new MaterialLayerSetInfo(exporterIFC, element, productWrapper);
using (IFCTransaction transaction = new IFCTransaction(file))
{
// For IFC4RV export, Element will be split into its parts(temporarily) in order to export the wall by its parts
// If Parts are created by code and not by user then their name should be equal to Material name.
bool setMaterialNameToPartName = ExporterUtil.CreateParts(element, layersetInfo.MaterialIds.Count, ref geomElem);
ExporterUtil.ExportPartAs exportPartAs = ExporterUtil.CanExportByComponentsOrParts(element);
bool exportByComponents = exportPartAs == ExporterUtil.ExportPartAs.ShapeAspect;
bool exportParts = exportPartAs == ExporterUtil.ExportPartAs.Part;
if (exportParts && !PartExporter.CanExportElementInPartExport(element, element.LevelId, false))
{
return;
}
// Check for containment override
IFCAnyHandle overrideContainerHnd = null;
ElementId overrideContainerId = ParameterUtil.OverrideContainmentParameter(exporterIFC, element, out overrideContainerHnd);
IList <IFCAnyHandle> representations = new List <IFCAnyHandle>();
using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, element, null, null, overrideContainerId, overrideContainerHnd))
{
using (IFCExtrusionCreationData ecData = new IFCExtrusionCreationData())
{
ElementId categoryId = CategoryUtil.GetSafeCategoryId(element);
IFCAnyHandle prodRep = null;
if (!exportParts)
{
ecData.SetLocalPlacement(setter.LocalPlacement);
ecData.PossibleExtrusionAxes = IFCExtrusionAxes.TryZ;
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true, ExportOptionsCache.ExportTessellationLevel.ExtraLow);
if (exportByComponents)
{
prodRep = RepresentationUtil.CreateProductDefinitionShapeWithoutBodyRep(exporterIFC, element, categoryId, geomElem, representations);
}
else
{
prodRep = RepresentationUtil.CreateAppropriateProductDefinitionShape(exporterIFC, element,
categoryId, geomElem, bodyExporterOptions, null, ecData, true);
}
if (IFCAnyHandleUtil.IsNullOrHasNoValue(prodRep))
{
ecData.ClearOpenings();
return;
}
}
// We will use the category of the element to set a default value for the covering.
string defaultCoveringEnumType = null;
if (categoryId == new ElementId(BuiltInCategory.OST_Ceilings))
{
defaultCoveringEnumType = "CEILING";
}
else if (categoryId == new ElementId(BuiltInCategory.OST_Floors))
{
defaultCoveringEnumType = "FLOORING";
}
else if (categoryId == new ElementId(BuiltInCategory.OST_Roofs))
{
defaultCoveringEnumType = "ROOFING";
}
string instanceGUID = GUIDUtil.CreateGUID(element);
string coveringType = IFCValidateEntry.GetValidIFCPredefinedTypeType(/*element,*/ ifcEnumType, defaultCoveringEnumType, "IfcCoveringType");
IFCAnyHandle covering = IFCInstanceExporter.CreateCovering(exporterIFC, element, instanceGUID, ExporterCacheManager.OwnerHistoryHandle,
setter.LocalPlacement, prodRep, coveringType);
if (exportParts)
{
PartExporter.ExportHostPart(exporterIFC, element, covering, productWrapper, setter, setter.LocalPlacement, null, setMaterialNameToPartName);
}
else if (exportByComponents)
{
IFCAnyHandle hostShapeRepFromParts = PartExporter.ExportHostPartAsShapeAspects(exporterIFC, element, prodRep,
productWrapper, setter, setter.LocalPlacement, ElementId.InvalidElementId, layersetInfo, ecData);
}
ExporterUtil.AddIntoComplexPropertyCache(covering, layersetInfo);
IFCExportInfoPair exportInfo = new IFCExportInfoPair(IFCEntityType.IfcCovering, IFCEntityType.IfcCoveringType, coveringType);
IFCAnyHandle typeHnd = ExporterUtil.CreateGenericTypeFromElement(element, exportInfo, file, ExporterCacheManager.OwnerHistoryHandle, coveringType, productWrapper);
ExporterCacheManager.TypeRelationsCache.Add(typeHnd, covering);
bool containInSpace = false;
IFCAnyHandle localPlacementToUse = setter.LocalPlacement;
// Ceiling containment in Space is generally required and not specific to any view
if (ExporterCacheManager.CeilingSpaceRelCache.ContainsKey(element.Id))
{
IList <ElementId> roomlist = ExporterCacheManager.CeilingSpaceRelCache[element.Id];
// Process Ceiling to be contained in a Space only when it is exactly bounding one Space
if (roomlist.Count == 1)
{
productWrapper.AddElement(element, covering, setter, ecData, false, exportInfo);
// Modify the Ceiling placement to be relative to the Space that it bounds
IFCAnyHandle roomPlacement = IFCAnyHandleUtil.GetObjectPlacement(ExporterCacheManager.SpaceInfoCache.FindSpaceHandle(roomlist[0]));
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(roomPlacement, localPlacementToUse);
Transform inverseTrf = relTrf.Inverse;
IFCAnyHandle relLocalPlacement = ExporterUtil.CreateAxis2Placement3D(file, inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
IFCAnyHandleUtil.SetAttribute(localPlacementToUse, "PlacementRelTo", roomPlacement);
GeometryUtil.SetRelativePlacement(localPlacementToUse, relLocalPlacement);
ExporterCacheManager.SpaceInfoCache.RelateToSpace(roomlist[0], covering);
containInSpace = true;
}
}
// if not contained in Space, assign it to default containment in Level
if (!containInSpace)
{
productWrapper.AddElement(element, covering, setter, ecData, true, exportInfo);
}
if (!exportParts)
{
Ceiling ceiling = element as Ceiling;
if (ceiling != null)
{
HostObjectExporter.ExportHostObjectMaterials(exporterIFC, ceiling, covering,
geomElem, productWrapper, ElementId.InvalidElementId, Toolkit.IFCLayerSetDirection.Axis3, null, null);
}
else
{
ElementId matId = BodyExporter.GetBestMaterialIdFromGeometryOrParameter(geomElem, element);
CategoryUtil.CreateMaterialAssociation(exporterIFC, covering, matId);
}
}
OpeningUtil.CreateOpeningsIfNecessary(covering, element, ecData, null,
exporterIFC, ecData.GetLocalPlacement(), setter, productWrapper);
}
}
transaction.Commit();
}
}
/// <summary>
/// Excutes the creator.
/// </summary>
/// <param name="exporterIFC">The exporter.</param>
/// <param name="doc">The document.</param>
public void Execute(ExporterIFC exporterIFC, Document doc)
{
IFCAnyHandle hostObjHnd = !IFCAnyHandleUtil.IsNullOrHasNoValue(HostHnd) ? HostHnd :
DoorWindowUtil.GetHndForHostAndLevel(exporterIFC, HostId, LevelId);
if (IFCAnyHandleUtil.IsNullOrHasNoValue(hostObjHnd))
{
return;
}
IList <DoorWindowOpeningInfo> doorWindowOpeningInfoList = new List <DoorWindowOpeningInfo>();
Element doorElem = doc.GetElement(InsertId);
string openingGUID = GUIDUtil.CreateSubElementGUID(doorElem, (int)IFCDoorSubElements.DoorOpening);
if (ExtrusionData != null)
{
foreach (IFCExtrusionData extrusionData in ExtrusionData)
{
if (doorWindowOpeningInfoList.Count > 0)
{
openingGUID = GUIDUtil.CreateGUID();
}
DoorWindowOpeningInfo openingInfo = DoorWindowUtil.CreateOpeningForDoorWindow(exporterIFC, doc, hostObjHnd,
HostId, InsertId, openingGUID, extrusionData.GetLoops()[0], extrusionData.ExtrusionDirection,
UnitUtil.UnscaleLength(extrusionData.ScaledExtrusionLength), PosHingeSide, IsRecess);
if (openingInfo != null && !IFCAnyHandleUtil.IsNullOrHasNoValue(openingInfo.OpeningHnd))
{
doorWindowOpeningInfoList.Add(openingInfo);
}
}
}
if (Solids != null)
{
foreach (Solid solid in Solids)
{
if (doorWindowOpeningInfoList.Count > 0)
{
openingGUID = GUIDUtil.CreateGUID();
}
DoorWindowOpeningInfo openingInfo = DoorWindowUtil.CreateOpeningForDoorWindow(exporterIFC, doc, hostObjHnd,
HostId, InsertId, openingGUID, solid, ScaledHostWidth, IsRecess);
if (openingInfo != null && !IFCAnyHandleUtil.IsNullOrHasNoValue(openingInfo.OpeningHnd))
{
doorWindowOpeningInfoList.Add(openingInfo);
}
}
}
if (IFCAnyHandleUtil.IsNullOrHasNoValue(DoorWindowHnd))
{
return;
}
foreach (DoorWindowOpeningInfo openingInfo in doorWindowOpeningInfoList)
{
IFCFile file = exporterIFC.GetFile();
IFCAnyHandle ownerHistory = exporterIFC.GetOwnerHistoryHandle();
IFCAnyHandle openingHnd = openingInfo.OpeningHnd;
double openingHeight = openingInfo.OpeningHeight;
double openingWidth = openingInfo.OpeningWidth;
// update original door.
string relGUID = GUIDUtil.CreateGUID();
IFCInstanceExporter.CreateRelFillsElement(file, relGUID, ownerHistory, null, null, openingHnd, DoorWindowHnd);
IFCAnyHandle openingPlacement = IFCAnyHandleUtil.GetObjectPlacement(openingHnd);
if (!IFCAnyHandleUtil.IsNullOrHasNoValue(openingPlacement))
{
IFCAnyHandle origObjectPlacement = IFCAnyHandleUtil.GetObjectPlacement(DoorWindowHnd);
Transform relTransform = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(origObjectPlacement, openingPlacement);
IFCAnyHandle newLocalPlacement = ExporterUtil.CreateLocalPlacement(file, openingPlacement,
relTransform.Origin, relTransform.BasisZ, relTransform.BasisX);
IFCAnyHandleUtil.SetAttribute(DoorWindowHnd, "ObjectPlacement", newLocalPlacement);
origObjectPlacement.Delete();
}
if (IFCAnyHandleUtil.IsTypeOf(DoorWindowHnd, IFCEntityType.IfcDoor) ||
IFCAnyHandleUtil.IsTypeOf(DoorWindowHnd, IFCEntityType.IfcWindow))
{
if (openingHeight > MathUtil.Eps())
{
IFCAnyHandleUtil.SetAttribute(DoorWindowHnd, "OverallHeight", UnitUtil.ScaleLength(openingHeight));
}
if (openingWidth > MathUtil.Eps())
{
IFCAnyHandleUtil.SetAttribute(DoorWindowHnd, "OverallWidth", UnitUtil.ScaleLength(openingWidth));
}
}
}
}
/// <summary>
/// Exports an element as IFC railing.
/// </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 ExportRailing(ExporterIFC exporterIFC, Element element, GeometryElement geomElem, string ifcEnumType, ProductWrapper productWrapper)
{
// Check the intended IFC entity or type name is in the exclude list specified in the UI
Common.Enums.IFCEntityType elementClassTypeEnum = Common.Enums.IFCEntityType.IfcRailing;
if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
{
return;
}
ElementType elemType = element.Document.GetElement(element.GetTypeId()) as ElementType;
IFCFile file = exporterIFC.GetFile();
Options geomOptions = GeometryUtil.GetIFCExportGeometryOptions();
using (IFCTransaction transaction = new IFCTransaction(file))
{
// Check for containment override
IFCAnyHandle overrideContainerHnd = null;
ElementId overrideContainerId = ParameterUtil.OverrideContainmentParameter(exporterIFC, element, out overrideContainerHnd);
using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, element, null, null, overrideContainerId, overrideContainerHnd))
{
using (IFCExtrusionCreationData ecData = new IFCExtrusionCreationData())
{
IFCAnyHandle localPlacement = setter.LocalPlacement;
StairRampContainerInfo stairRampInfo = null;
ElementId hostId = GetStairOrRampHostId(exporterIFC, element as Railing);
Transform inverseTrf = Transform.Identity;
if (hostId != ElementId.InvalidElementId)
{
stairRampInfo = ExporterCacheManager.StairRampContainerInfoCache.GetStairRampContainerInfo(hostId);
IFCAnyHandle stairRampLocalPlacement = stairRampInfo.LocalPlacements[0];
Transform relTrf = ExporterIFCUtils.GetRelativeLocalPlacementOffsetTransform(stairRampLocalPlacement, localPlacement);
inverseTrf = relTrf.Inverse;
IFCAnyHandle railingLocalPlacement = ExporterUtil.CreateLocalPlacement(file, stairRampLocalPlacement,
inverseTrf.Origin, inverseTrf.BasisZ, inverseTrf.BasisX);
localPlacement = railingLocalPlacement;
}
ecData.SetLocalPlacement(localPlacement);
SolidMeshGeometryInfo solidMeshInfo = GeometryUtil.GetSplitSolidMeshGeometry(geomElem);
IList <Solid> solids = solidMeshInfo.GetSolids();
IList <Mesh> meshes = solidMeshInfo.GetMeshes();
IList <GeometryObject> gObjs = FamilyExporterUtil.RemoveInvisibleSolidsAndMeshes(element.Document, exporterIFC, ref solids, ref meshes);
Railing railingElem = element as Railing;
IList <ElementId> subElementIds = CollectSubElements(railingElem);
foreach (ElementId subElementId in subElementIds)
{
Element subElement = railingElem.Document.GetElement(subElementId);
if (subElement != null)
{
GeometryElement allLevelsGeometry = subElement.get_Geometry(geomOptions);
var oneLevelGeom = GeometryUtil.GetOneLevelGeometryElement(allLevelsGeometry, 0);
GeometryElement subElementGeom = oneLevelGeom.element;
// Get rail terminations geometry
List <GeometryElement> overallGeometry = GeometryUtil.GetAdditionalOneLevelGeometry(allLevelsGeometry, oneLevelGeom.symbolId);
overallGeometry.Add(subElementGeom);
foreach (GeometryElement subGeomentry in overallGeometry)
{
SolidMeshGeometryInfo subElementSolidMeshInfo = GeometryUtil.GetSplitSolidMeshGeometry(subGeomentry);
IList <Solid> subElemSolids = subElementSolidMeshInfo.GetSolids();
IList <Mesh> subElemMeshes = subElementSolidMeshInfo.GetMeshes();
IList <GeometryObject> partGObjs = FamilyExporterUtil.RemoveInvisibleSolidsAndMeshes(element.Document, exporterIFC, ref subElemSolids, ref subElemMeshes);
foreach (Solid subElSolid in subElemSolids)
{
solids.Add(subElSolid);
}
foreach (Mesh subElMesh in subElemMeshes)
{
meshes.Add(subElMesh);
}
}
}
}
ElementId catId = CategoryUtil.GetSafeCategoryId(element);
BodyData bodyData = null;
BodyExporterOptions bodyExporterOptions = new BodyExporterOptions(true, ExportOptionsCache.ExportTessellationLevel.Medium);
if (solids.Count > 0 || meshes.Count > 0)
{
bodyData = BodyExporter.ExportBody(exporterIFC, element, catId, ElementId.InvalidElementId, solids, meshes, bodyExporterOptions, ecData);
}
else
{
IList <GeometryObject> geomlist = new List <GeometryObject>();
geomlist.Add(geomElem);
bodyData = BodyExporter.ExportBody(exporterIFC, element, catId, ElementId.InvalidElementId, geomlist, bodyExporterOptions, ecData);
}
IFCAnyHandle bodyRep = bodyData.RepresentationHnd;
if (IFCAnyHandleUtil.IsNullOrHasNoValue(bodyRep))
{
if (ecData != null)
{
ecData.ClearOpenings();
}
return;
}
IList <IFCAnyHandle> representations = new List <IFCAnyHandle>();
representations.Add(bodyRep);
IList <GeometryObject> geomObjects = new List <GeometryObject>(solids);
foreach (Mesh mesh in meshes)
{
geomObjects.Add(mesh);
}
Transform boundingBoxTrf = (bodyData.OffsetTransform != null) ? bodyData.OffsetTransform.Inverse : Transform.Identity;
boundingBoxTrf = inverseTrf.Multiply(boundingBoxTrf);
IFCAnyHandle boundingBoxRep = BoundingBoxExporter.ExportBoundingBox(exporterIFC, geomObjects, boundingBoxTrf);
if (boundingBoxRep != null)
{
representations.Add(boundingBoxRep);
}
IFCAnyHandle prodRep = IFCInstanceExporter.CreateProductDefinitionShape(file, null, null, representations);
IFCAnyHandle ownerHistory = ExporterCacheManager.OwnerHistoryHandle;
string instanceGUID = GUIDUtil.CreateGUID(element);
IFCExportInfoPair exportInfo = ExporterUtil.GetProductExportType(exporterIFC, element, out ifcEnumType);
IFCAnyHandle railing = IFCInstanceExporter.CreateGenericIFCEntity(exportInfo, exporterIFC, element, instanceGUID, ownerHistory,
ecData.GetLocalPlacement(), prodRep);
bool associateToLevel = (hostId == ElementId.InvalidElementId);
productWrapper.AddElement(element, railing, setter, ecData, associateToLevel, exportInfo);
OpeningUtil.CreateOpeningsIfNecessary(railing, element, ecData, bodyData.OffsetTransform,
exporterIFC, ecData.GetLocalPlacement(), setter, productWrapper);
IFCAnyHandle singleMaterialOverrideHnd = null;
IList <ElementId> matIds = null;
ElementId defaultMatId = ElementId.InvalidElementId;
ElementId matId = CategoryUtil.GetBaseMaterialIdForElement(element);
// Get IfcSingleMaterialOverride to work for railing
singleMaterialOverrideHnd = ExporterUtil.GetSingleMaterial(exporterIFC, element, matId);
if (singleMaterialOverrideHnd != null)
{
matIds = new List <ElementId> {
matId
};
}
else
{
matIds = bodyData.MaterialIds;
defaultMatId = matIds[0];
// Check if all the items are the same, then get the first material id
if (matIds.All(x => x == defaultMatId))
{
matIds = new List <ElementId> {
defaultMatId
};
}
}
CategoryUtil.CreateMaterialAssociationWithShapeAspect(exporterIFC, element, railing, bodyData.RepresentationItemInfo);
// Create multi-story duplicates of this railing.
if (stairRampInfo != null)
{
stairRampInfo.AddComponent(0, railing);
List <IFCAnyHandle> stairHandles = stairRampInfo.StairOrRampHandles;
int levelCount = stairHandles.Count;
if (levelCount > 0 && railingElem != null)
{
Stairs stairs = railingElem.Document.GetElement(railingElem.HostId) as Stairs;
if ((stairs?.MultistoryStairsId ?? ElementId.InvalidElementId) != ElementId.InvalidElementId)
{
// If the railing is hosted by stairs, don't use stairHandles.Count,
// use ids (count) of levels the railing is placed on.
ISet <ElementId> multistoryStairsPlacementLevels = railingElem.GetMultistoryStairsPlacementLevels();
if (multistoryStairsPlacementLevels != null)
{
levelCount = multistoryStairsPlacementLevels.Count;
}
}
}
for (int ii = 1; ii < levelCount; ii++)
{
IFCAnyHandle railingLocalPlacement = stairRampInfo.LocalPlacements[ii];
if (!IFCAnyHandleUtil.IsNullOrHasNoValue(railingLocalPlacement))
{
IFCAnyHandle railingHndCopy = CopyRailingHandle(exporterIFC, element, catId,
railingLocalPlacement, railing, ii);
stairRampInfo.AddComponent(ii, railingHndCopy);
productWrapper.AddElement(element, railingHndCopy, (IFCLevelInfo)null, ecData, false, exportInfo);
CategoryUtil.CreateMaterialAssociationWithShapeAspect(exporterIFC, element, railingHndCopy, bodyData.RepresentationItemInfo);
}
}
ExporterCacheManager.StairRampContainerInfoCache.AddStairRampContainerInfo(hostId, stairRampInfo);
}
}
transaction.Commit();
}
}
}
