/// <summary>
/// Calculates the start hook angle for a rebar.
/// </summary>
/// <param name="exporterIFC">The ExporterIFC object.</param>
/// <param name="extrusionCreationData">The IFCExtrusionCreationData.</param>
/// <param name="element">The element to calculate the value.</param>
/// <param name="elementType">The element type.</param>
/// <returns>
/// True if the operation succeed, false otherwise.
/// </returns>
public override bool Calculate(ExporterIFC exporterIFC, IFCExtrusionCreationData extrusionCreationData, Element element, ElementType elementType)
{
if (element is Rebar)
{
Rebar rebar = element as Rebar;
if (rebar.CanBeMatchedWithMultipleShapes())
{
return(false); // In case of the Bent free form the hook angle should be obtain from subelement
}
}
RebarBendData bendData = null;
if (element is Rebar)
{
bendData = (element as Rebar).GetBendData();
}
else if (element is RebarInSystem)
{
bendData = (element as RebarInSystem).GetBendData();
}
if (bendData != null)
{
if (bendData.HookLength0 > MathUtil.Eps())
{
// HookAngle0 is already in degress, so convert to radians and then scale.
double hookAngleInRadians = bendData.HookAngle0 * (Math.PI / 180.0);
m_Angle = UnitUtil.ScaleAngle(hookAngleInRadians);
return(true);
}
}
return(false);
}
/// <summary>
/// Calculates shape parameter A for a rebar.
/// </summary>
/// <param name="exporterIFC">The ExporterIFC object.</param>
/// <param name="extrusionCreationData">The IFCExtrusionCreationData.</param>
/// <param name="element">The element to calculate the value.</param>
/// <param name="elementType">The element type.</param>
/// <returns>
/// True if the operation succeed, false otherwise.
/// </returns>
public override bool Calculate(ExporterIFC exporterIFC, IFCExtrusionCreationData extrusionCreationData, Element element, ElementType elementType, EntryMap entryMap)
{
if (element is Rebar)
{
Rebar rebar = element as Rebar;
if (rebar.CanBeMatchedWithMultipleShapes())
{
return(false); // In case of the Bent free form the parameter should be obtain from subelement. (It can have value for another bar in set and we don't want that value).
}
}
bool ret = (ParameterUtil.GetDoubleValueFromElement(element, BuiltInParameterGroup.PG_GEOMETRY, "A", out m_ShapeParameterA) != null);
if (ret)
{
m_ShapeParameterA = UnitUtil.ScaleLength(m_ShapeParameterA);
}
return(ret);
}
/// <summary>
/// Exports a Rebar to IFC ReinforcingBar.
/// </summary>
/// <param name="exporterIFC">The ExporterIFC object.</param>
/// <param name="rebarItem">The rebar to be exported. This might be an element or a sub-element.</param>
/// <param name="rebarElement">The element that contains the rebar to be exported. This may be the same as rebarItem.</param>
/// <param name="itemIndex">If greater than 0, the index of the first rebar in the rebarItem in the rebarElement, used for naming and GUID creation.</param>
/// <param name="productWrapper">The ProductWrapper object.</param>
/// <returns>The set of handles created, to add to the ProductWrapper in the calling function.</returns>
private static ISet <DelayedProductWrapper> ExportRebar(ExporterIFC exporterIFC, object rebarItem, Element rebarElement, int itemIndex, 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.IfcReinforcingBar;
if (ExporterCacheManager.ExportOptionsCache.IsElementInExcludeList(elementClassTypeEnum))
{
return(null);
}
IFCFile file = exporterIFC.GetFile();
HashSet <DelayedProductWrapper> createdRebars = new HashSet <DelayedProductWrapper>();
int rebarQuantity = GetRebarQuantity(rebarItem);
if (rebarQuantity == 0)
{
return(null);
}
using (IFCTransaction transaction = new IFCTransaction(file))
{
using (PlacementSetter setter = PlacementSetter.Create(exporterIFC, rebarElement))
{
bool cannotExportRebar = false;
IFCAnyHandle rebarHandle = ExportRebarAsProxyElementInView(exporterIFC, rebarElement, productWrapper, out cannotExportRebar);
if (!IFCAnyHandleUtil.IsNullOrHasNoValue(rebarHandle) || cannotExportRebar)
{
if (!cannotExportRebar)
{
transaction.Commit();
}
return(null); // Rebar doesn't create a group.
}
IFCAnyHandle prodRep = null;
double totalBarLengthUnscale = GetRebarTotalLength(rebarItem);
double volumeUnscale = GetRebarVolume(rebarItem);
double totalBarLength = UnitUtil.ScaleLength(totalBarLengthUnscale);
if (MathUtil.IsAlmostZero(totalBarLength))
{
return(null);
}
ElementId materialId = ElementId.InvalidElementId;
ParameterUtil.GetElementIdValueFromElementOrSymbol(rebarElement, BuiltInParameter.MATERIAL_ID_PARAM, out materialId);
double diameter = GetBarDiameter(rebarItem);
double radius = diameter / 2.0;
double longitudinalBarNominalDiameter = diameter;
double longitudinalBarCrossSectionArea = UnitUtil.ScaleArea(volumeUnscale / totalBarLengthUnscale);
int numberOfBarPositions = GetNumberOfBarPositions(rebarItem);
string steelGrade = NamingUtil.GetOverrideStringValue(rebarElement, "SteelGrade", null);
// Allow use of IFC2x3 or IFC4 naming.
string predefinedType = NamingUtil.GetOverrideStringValue(rebarElement, "BarRole", null);
if (string.IsNullOrWhiteSpace(predefinedType))
{
predefinedType = NamingUtil.GetOverrideStringValue(rebarElement, "PredefinedType", null);
}
IFCReinforcingBarRole role = GetReinforcingBarRole(predefinedType);
string origRebarName = NamingUtil.GetNameOverride(rebarElement, NamingUtil.GetIFCName(rebarElement));
const int maxBarGUIDS = IFCReinforcingBarSubElements.BarEnd - IFCReinforcingBarSubElements.BarStart + 1;
ElementId categoryId = CategoryUtil.GetSafeCategoryId(rebarElement);
IFCAnyHandle originalPlacement = setter.LocalPlacement;
// Potential issue : totalBarLength has a rounded value but individual lengths (from centerlines) do not have rounded values.
// Also dividing a rounded totalBarLength does not result in barLength rounded by the same round value.
double barLength = totalBarLength / rebarQuantity;
IList <Curve> baseCurves = GetRebarCenterlineCurves(rebarItem, true, false, false, MultiplanarOption.IncludeAllMultiplanarCurves);
ElementId barLengthParamId = new ElementId(BuiltInParameter.REBAR_ELEM_LENGTH);
ParameterSet rebarElementParams = rebarElement.Parameters;
for (int ii = 0; ii < numberOfBarPositions; ii++)
{
if (!DoesBarExistAtPosition(rebarItem, ii))
{
continue;
}
Rebar rebar = rebarElement as Rebar;
if ((rebar != null) && (rebar.DistributionType == DistributionType.VaryingLength || rebar.IsRebarFreeForm()))
{
baseCurves = GetRebarCenterlineCurves(rebar, true, false, false, MultiplanarOption.IncludeAllMultiplanarCurves, ii);
DoubleParameterValue barLengthParamVal = rebar.GetParameterValueAtIndex(barLengthParamId, ii) as DoubleParameterValue;
if (barLengthParamVal != null)
{
barLength = barLengthParamVal.Value;
}
}
string rebarNameFormated = origRebarName;
if (rebar != null && rebar.CanBeMatchedWithMultipleShapes())
{
string shapeName = getShapeNameAtIndex(rebar, ii);
string elementName = rebar.Name;
if (!elementName.Contains(shapeName))
{
// this means that our rebar is a free form bent with varying shapes. We want to have in its name "Shape xx"
shapeName = Resources.Shape + " " + shapeName; // This is something like - "Shape 00" or "Shape 17"
string formatedString = elementName + " : " + shapeName;
rebarNameFormated = origRebarName.Replace(elementName, formatedString);
}
}
int indexForNamingAndGUID = (itemIndex > 0) ? ii + itemIndex : ii + 1;
string rebarName = NamingUtil.GetNameOverride(rebarElement, rebarNameFormated + ": " + indexForNamingAndGUID);
Transform barTrf = GetBarPositionTransform(rebarItem, ii);
IList <Curve> curves = new List <Curve>();
double endParam = 0.0;
foreach (Curve baseCurve in baseCurves)
{
if (baseCurve is Arc || baseCurve is Ellipse)
{
if (baseCurve.IsBound)
{
endParam += UnitUtil.ScaleAngle(baseCurve.GetEndParameter(1) - baseCurve.GetEndParameter(0));
}
else
{
endParam += UnitUtil.ScaleAngle(2 * Math.PI);
}
}
else
{
endParam += 1.0;
}
curves.Add(baseCurve.CreateTransformed(barTrf));
}
// For IFC4 and Structural Exchange Requirement export, Entity type not allowed for RV: IfcPolyline
IFCAnyHandle compositeCurve = GeometryUtil.CreateCompositeOrIndexedCurve(exporterIFC, curves, null, null);
IFCAnyHandle sweptDiskSolid = IFCInstanceExporter.CreateSweptDiskSolid(file, compositeCurve, radius, null, 0, endParam);
HashSet <IFCAnyHandle> bodyItems = new HashSet <IFCAnyHandle>();
bodyItems.Add(sweptDiskSolid);
RepresentationUtil.CreateStyledItemAndAssign(file, rebarElement.Document, materialId, sweptDiskSolid);
IFCAnyHandle shapeRep = RepresentationUtil.CreateAdvancedSweptSolidRep(exporterIFC, rebarElement, categoryId, exporterIFC.Get3DContextHandle("Body"), bodyItems, null);
IList <IFCAnyHandle> shapeReps = new List <IFCAnyHandle>();
shapeReps.Add(shapeRep);
prodRep = IFCInstanceExporter.CreateProductDefinitionShape(file, null, null, shapeReps);
IFCAnyHandle copyLevelPlacement = (ii == 0) ? originalPlacement : ExporterUtil.CopyLocalPlacement(file, originalPlacement);
string rebarGUID = (indexForNamingAndGUID < maxBarGUIDS) ?
GUIDUtil.CreateSubElementGUID(rebarElement, indexForNamingAndGUID + (int)IFCReinforcingBarSubElements.BarStart - 1) :
GUIDUtil.CreateGUID();
IFCAnyHandle elemHnd = IFCInstanceExporter.CreateReinforcingBar(exporterIFC, rebarElement, rebarGUID, ExporterCacheManager.OwnerHistoryHandle,
copyLevelPlacement, prodRep, steelGrade, longitudinalBarNominalDiameter, longitudinalBarCrossSectionArea, barLength, role, null);
IFCAnyHandleUtil.OverrideNameAttribute(elemHnd, rebarName);
IFCExportInfoPair exportInfo = new IFCExportInfoPair(IFCEntityType.IfcReinforcingBar);
// We will not add the element ot the productWrapper here, but instead in the function that calls
// ExportRebar. The reason for this is that we don't currently know if the handles such be associated
// to the level or not, depending on whether they will or won't be grouped.
createdRebars.Add(new DelayedProductWrapper(rebarElement, elemHnd, setter.LevelInfo, exportInfo));
CacheSubelementParameterValues(rebarElement, rebarElementParams, ii, elemHnd);
ExporterCacheManager.HandleToElementCache.Register(elemHnd, rebarElement.Id);
CategoryUtil.CreateMaterialAssociation(exporterIFC, elemHnd, materialId);
}
}
transaction.Commit();
}
return(createdRebars);
}