private Mesh GetMeshBackup(IFCImportShapeEditScope shapeEditScope, IList <CurveLoop> loops,
XYZ scaledExtrusionDirection, double currDepth)
{
if (shapeEditScope.MustCreateSolid())
{
return(null);
}
Importer.TheLog.LogError(Id, "Extrusion has an invalid definition for a solid; reverting to mesh.", false);
MeshFromGeometryOperationResult meshResult = TessellatedShapeBuilder.CreateMeshByExtrusion(
loops, scaledExtrusionDirection, currDepth, GetMaterialElementId(shapeEditScope));
// will throw if mesh is not available
return(meshResult.GetMesh());
}
/// <summary>
/// Return geometry for a particular representation item.
/// </summary>
/// <param name="shapeEditScope">The shape edit scope.</param>
/// <param name="lcs">Local coordinate system for the geometry.</param>
/// <param name="guid">The guid of an element for which represntation is being created.</param>
/// <returns>One or more created geometries.</returns>
/// <remarks>The scaledLcs is only partially supported in this routine; it allows scaling the depth of the extrusion,
/// which is commonly found in ACA files.</remarks>
protected override IList <GeometryObject> CreateGeometryInternal(
IFCImportShapeEditScope shapeEditScope, Transform lcs, Transform scaledLcs, string guid)
{
if (Direction == null)
{
Importer.TheLog.LogError(Id, "Error processing IfcExtrudedAreaSolid, can't create geometry.", false);
return(null);
}
Transform origLCS = (lcs == null) ? Transform.Identity : lcs;
Transform origScaledLCS = (scaledLcs == null) ? Transform.Identity : scaledLcs;
Transform extrusionPosition = (Position == null) ? origLCS : origLCS.Multiply(Position);
Transform scaledExtrusionPosition = (Position == null) ? origScaledLCS : origScaledLCS.Multiply(Position);
XYZ extrusionDirection = extrusionPosition.OfVector(Direction);
ISet <IList <CurveLoop> > disjointLoops = GetTransformedCurveLoops(extrusionPosition);
if (disjointLoops == null || disjointLoops.Count() == 0)
{
return(null);
}
IList <GeometryObject> extrusions = new List <GeometryObject>();
foreach (IList <CurveLoop> loops in disjointLoops)
{
SolidOptions solidOptions = new SolidOptions(GetMaterialElementId(shapeEditScope), shapeEditScope.GraphicsStyleId);
XYZ scaledDirection = scaledExtrusionPosition.OfVector(Direction);
double currDepth = Depth * scaledDirection.GetLength();
GeometryObject extrusionObject = null;
try
{
// We may try to create separate extrusions, one per layer here.
bool shouldWarn = false;
ElementId overrideMaterialId = ElementId.InvalidElementId;
IList <GeometryObject> extrusionLayers = CreateGeometryFromMaterialLayerUsage(shapeEditScope, extrusionPosition, loops,
extrusionDirection, currDepth, out overrideMaterialId, out shouldWarn);
if (extrusionLayers == null || extrusionLayers.Count == 0)
{
if (shouldWarn)
{
Importer.TheLog.LogWarning(Id, "Couldn't process associated IfcMaterialLayerSetUsage, using body geometry instead.", false);
}
if (overrideMaterialId != ElementId.InvalidElementId)
{
solidOptions.MaterialId = overrideMaterialId;
}
extrusionObject = GeometryCreationUtilities.CreateExtrusionGeometry(loops, extrusionDirection, currDepth, solidOptions);
}
else
{
foreach (GeometryObject extrusionLayer in extrusionLayers)
{
extrusions.Add(extrusionLayer);
}
}
}
catch (Exception ex)
{
if (shapeEditScope.MustCreateSolid())
{
throw ex;
}
Importer.TheLog.LogError(Id, "Extrusion has an invalid definition for a solid; reverting to mesh.", false);
MeshFromGeometryOperationResult meshResult = TessellatedShapeBuilder.CreateMeshByExtrusion(
loops, extrusionDirection, currDepth, GetMaterialElementId(shapeEditScope));
// will throw if mesh is not available
extrusionObject = meshResult.GetMesh();
}
if (extrusionObject != null)
{
extrusions.Add(extrusionObject);
}
}
return(extrusions);
}
protected override IList <GeometryObject> CreateGeometryInternal(
IFCImportShapeEditScope shapeEditScope, Transform lcs, Transform scaledLcs, string guid)
{
// Note that lcs is unused.
if (XLength < MathUtil.Eps() || YLength < MathUtil.Eps() || ZLength < MathUtil.Eps())
{
return(null);
}
Transform scaledExtrusionPosition = (scaledLcs == null) ? Transform.Identity : scaledLcs;
XYZ llPoint = scaledExtrusionPosition.OfPoint(XYZ.Zero);
XYZ lrPoint = scaledExtrusionPosition.OfPoint(new XYZ(XLength, 0, 0));
XYZ urPoint = scaledExtrusionPosition.OfPoint(new XYZ(XLength, YLength, 0));
XYZ ulPoint = scaledExtrusionPosition.OfPoint(new XYZ(0, YLength, 0));
CurveLoop outerLoop = new CurveLoop();
outerLoop.Append(Line.CreateBound(llPoint, lrPoint));
outerLoop.Append(Line.CreateBound(lrPoint, urPoint));
outerLoop.Append(Line.CreateBound(urPoint, ulPoint));
outerLoop.Append(Line.CreateBound(ulPoint, llPoint));
IList <CurveLoop> loops = new List <CurveLoop>();
loops.Add(outerLoop);
XYZ scaledExtrusionDirection = scaledExtrusionPosition.OfVector(XYZ.BasisZ);
SolidOptions solidOptions = new SolidOptions(GetMaterialElementId(shapeEditScope), shapeEditScope.GraphicsStyleId);
GeometryObject block = null;
try
{
block = GeometryCreationUtilities.CreateExtrusionGeometry(loops, scaledExtrusionDirection, ZLength, solidOptions);
}
catch (Exception ex)
{
if (shapeEditScope.MustCreateSolid())
{
throw ex;
}
Importer.TheLog.LogError(Id, "Block has an invalid definition for a solid; reverting to mesh.", false);
MeshFromGeometryOperationResult meshResult = TessellatedShapeBuilder.CreateMeshByExtrusion(
loops, scaledExtrusionDirection, ZLength, GetMaterialElementId(shapeEditScope));
// will throw if mesh is not available
block = meshResult.GetMesh();
}
IList <GeometryObject> blocks = new List <GeometryObject>();
if (block != null)
{
blocks.Add(block);
}
return(blocks);
}