public void AddNested(IfcObjectDefinition o)
{
if (mIsNestedBy.Count == 0)
{
IfcRelNests rn = new IfcRelNests(this, o);
}
else mIsNestedBy[0].addObject(o);
}
protected IfcObjectDefinition(IfcObjectDefinition basis) : base(basis)
{
mHasAssignments = basis.mHasAssignments;
mNests = basis.mNests;
mIsNestedBy = basis.mIsNestedBy;
mHasContext = basis.mHasContext;
mIsDecomposedBy = basis.mIsDecomposedBy;
mDecomposes = basis.mDecomposes;
mHasAssociations = basis.mHasAssociations;
}
internal override void ParseXml(XmlElement xml)
{
base.ParseXml(xml);
foreach (XmlNode child in xml.ChildNodes)
{
string name = child.Name;
if (string.Compare(name, "HasAssignments") == 0)
{
foreach (XmlNode node in child.ChildNodes)
{
IfcRelAssigns ra = mDatabase.ParseXml <IfcRelAssigns>(node as XmlElement);
if (ra != null)
{
ra.AddRelated(this);
}
}
}
else if (string.Compare(name, "IsNestedBy") == 0)
{
foreach (XmlNode node in child.ChildNodes)
{
IfcRelNests rn = mDatabase.ParseXml <IfcRelNests>(node as XmlElement);
if (rn != null)
{
rn.RelatingObject = this;
}
}
}
else if (string.Compare(name, "IsDecomposedBy") == 0)
{
foreach (XmlNode node in child.ChildNodes)
{
IfcRelAggregates ra = mDatabase.ParseXml <IfcRelAggregates>(node as XmlElement);
if (ra != null)
{
ra.RelatingObject = this;
}
}
}
else if (string.Compare(name, "HasAssociations") == 0)
{
foreach (XmlNode node in child.ChildNodes)
{
IfcRelAssociates ra = mDatabase.ParseXml <IfcRelAssociates>(node as XmlElement);
if (ra != null)
{
ra.addAssociation(this);
}
}
}
}
}
internal GlobalIdChangeManager(BaseClassIfc obj)
{
mObject = obj;
IfcObjectDefinition objectDefinition = obj as IfcObjectDefinition;
if (objectDefinition != null)
{
mIsDefinedBy.AddRange(objectDefinition.mIsDefinedBy);
foreach (IfcRelDefinesByProperties rdp in mIsDefinedBy)
{
rdp.RelatedObjects.Remove(objectDefinition);
}
mDecomposes = objectDefinition.mDecomposes;
if (mDecomposes != null)
{
mDecomposes.RelatedObjects.Remove(objectDefinition);
}
mNests = objectDefinition.mNests;
if (mNests != null)
{
mNests.RelatedObjects.Remove(objectDefinition);
}
IfcObject o = mObject as IfcObject;
if (o != null)
{
IfcProduct product = objectDefinition as IfcProduct;
if (product != null)
{
mContainedIn = product.mContainedInStructure;
if (mContainedIn != null)
{
mContainedIn.RelatedElements.Remove(product);
}
}
}
}
}
protected void ReplaceDatabase(BaseClassIfc revised)
{
IfcRoot thisRoot = this as IfcRoot, revisedRoot = revised as IfcRoot;
if (thisRoot != null && revisedRoot != null)
{
revisedRoot.GlobalId = thisRoot.GlobalId;
revisedRoot.OwnerHistory = thisRoot.OwnerHistory;
revisedRoot.Name = thisRoot.Name;
revisedRoot.Description = thisRoot.Description;
IfcObjectDefinition thisObjectDefinition = this as IfcObjectDefinition, revisedObjectDefinition = revised as IfcObjectDefinition;
if (thisObjectDefinition != null && revisedObjectDefinition != null)
{
foreach (IfcRelAggregates rel in thisObjectDefinition.IsDecomposedBy.ToList())
{
rel.RelatingObject = revisedObjectDefinition;
}
foreach (IfcRelNests rel in thisObjectDefinition.IsNestedBy.ToList())
{
rel.RelatingObject = revisedObjectDefinition;
}
IfcRelAggregates relAggregates = thisObjectDefinition.Decomposes;
if (relAggregates != null)
{
relAggregates.RelatedObjects.Remove(thisObjectDefinition);
relAggregates.RelatedObjects.Add(revisedObjectDefinition);
}
IfcRelNests relNests = thisObjectDefinition.Nests;
if (relNests != null)
{
relNests.RelatedObjects.Remove(thisObjectDefinition);
relNests.RelatedObjects.Add(thisObjectDefinition);
}
foreach (IfcRelDefinesByProperties relDefinesByProperties in thisObjectDefinition.mIsDefinedBy.ToList())
{
relDefinesByProperties.RelatedObjects.Remove(thisObjectDefinition);
relDefinesByProperties.RelatedObjects.Add(revisedObjectDefinition);
}
foreach (IfcRelAssigns assigns in thisObjectDefinition.HasAssignments.ToList())
{
assigns.RelatedObjects.Remove(thisObjectDefinition);
assigns.RelatedObjects.Add(revisedObjectDefinition);
}
IfcRelDeclares relDeclares = thisObjectDefinition.HasContext;
if (relDeclares != null)
{
relDeclares.RelatedDefinitions.Remove(thisObjectDefinition);
relDeclares.RelatedDefinitions.Add(revisedObjectDefinition);
}
foreach (IfcRelAssociates associates in thisObjectDefinition.HasAssociations.ToList())
{
associates.RelatedObjects.Remove(thisObjectDefinition);
associates.RelatedObjects.Add(revisedObjectDefinition);
}
IfcObject thisObject = this as IfcObject, revisedObject = revised as IfcObject;
if (thisObject != null && revisedObject != null)
{
if (!string.IsNullOrEmpty(thisObject.ObjectType))
{
revisedObject.ObjectType = thisObject.ObjectType;
}
if (thisObject.mIsTypedBy != null)
{
thisObject.mIsTypedBy.mRelatedObjects.Remove(thisObject);
}
IfcProduct thisProduct = this as IfcProduct, revisedProduct = revised as IfcProduct;
if (thisProduct != null && revisedProduct != null)
{
IfcRelContainedInSpatialStructure containedInSpatialStructure = thisProduct.mContainedInStructure;
if (containedInSpatialStructure != null)
{
containedInSpatialStructure.RelatedElements.Remove(thisProduct);
containedInSpatialStructure.RelatedElements.Add(revisedProduct);
}
IfcElement thisElement = this as IfcElement, revisedElement = revised as IfcElement;
if (thisElement != null && revisedElement != null)
{
revisedElement.Tag = thisElement.Tag;
List <IfcRelVoidsElement> voids = thisElement.HasOpenings.ToList();
foreach (var relVoids in voids)
{
relVoids.RelatingBuildingElement = revisedElement;
}
}
IfcSpatialElement thisSpatial = this as IfcSpatialElement, revisedSpatial = revised as IfcSpatialElement;
if (thisSpatial != null && revisedSpatial != null)
{
foreach (IfcRelContainedInSpatialStructure contained in thisSpatial.ContainsElements.ToList())
{
contained.RelatingStructure = revisedSpatial;
}
}
else if (revisedSpatial != null && thisElement != null)
{
if (containedInSpatialStructure != null)
{
containedInSpatialStructure.RelatedElements.Remove(revisedProduct);
containedInSpatialStructure.RelatingStructure.AddAggregated(revisedProduct);
}
List <IfcProduct> subProducts = thisObjectDefinition.IsDecomposedBy.SelectMany(x => x.RelatedObjects).OfType <IfcProduct>().ToList();
if (subProducts.Count > 0)
{
new IfcRelContainedInSpatialStructure(subProducts, revisedSpatial);
}
foreach (IfcRelAssociatesMaterial associates in revisedSpatial.HasAssociations.OfType <IfcRelAssociatesMaterial>().ToList())
{
associates.RelatedObjects.Remove(revisedSpatial);
}
IfcFacilityPart facilityPart = revisedSpatial as IfcFacilityPart;
if (facilityPart != null)
{
IfcFacility facility = revisedSpatial.FindHost <IfcFacility>();
if (facility != null)
{
facility.AddAggregated(revisedSpatial);
}
}
}
}
}
else
{
IfcTypeObject thisTypeObject = this as IfcTypeObject, revisedTypeObject = revised as IfcTypeObject;
if (thisTypeObject != null && revisedTypeObject != null)
{
IfcTypeProduct thisTypeProduct = this as IfcTypeProduct, revisedTypeProduct = revised as IfcTypeProduct;
if (thisTypeProduct != null && revisedTypeProduct != null)
{
revisedTypeProduct.Tag = thisTypeProduct.Tag;
IfcElementType thisElementType = this as IfcElementType, revisedElementType = revised as IfcElementType;
if (thisElementType != null && revisedElementType != null)
{
revisedElementType.ElementType = thisElementType.ElementType;
}
}
}
}
}
}
else
{
IfcRepresentationItem representationItem = this as IfcRepresentationItem, revisedItem = revised as IfcRepresentationItem;
if (representationItem != null && revisedItem != null)
{
IfcStyledItem styledItem = representationItem.StyledByItem;
if (styledItem != null)
{
styledItem.Item = revisedItem;
}
foreach (IfcShapeModel shapeModel in representationItem.Represents.ToList())
{
shapeModel.Items.Remove(representationItem);
shapeModel.Items.Add(revisedItem);
}
IfcPresentationLayerAssignment layerAssignment = representationItem.mLayerAssignment;
if (layerAssignment != null)
{
layerAssignment.AssignedItems.Remove(representationItem);
layerAssignment.AssignedItems.Add(revisedItem);
}
}
}
mDatabase[revised.mStepId] = null;
revised.mStepId = StepId;
mDatabase[StepId] = revised;
}
internal virtual void relateNested(IfcRelNests n)
{
mIsNestedBy.Add(n);
}
internal static void parseFields(IfcRelNests a, List<string> arrFields, ref int ipos) { IfcRelDecomposes.parseFields(a, arrFields, ref ipos); a.mRelatingObject = ParserSTEP.ParseLink(arrFields[ipos++]); a.mRelatedObjects = ParserSTEP.SplitListLinks(arrFields[ipos++]); }
internal static IfcRelNests Parse(string strDef) { IfcRelNests a = new IfcRelNests(); int ipos = 0; parseFields(a, ParserSTEP.SplitLineFields(strDef), ref ipos); return a; }
internal IfcRelNests(IfcRelNests n) : base(n) { mRelatingObject = n.mRelatingObject; mRelatedObjects = new List<int>(n.mRelatedObjects.ToArray()); }
internal virtual void relateNested(IfcRelNests n) { mIsNestedBy.Add(n); }
public void AddNested(IfcObjectDefinition o)
{
if (mIsNestedBy.Count == 0)
{
IfcRelNests rn = new IfcRelNests(this, o);
}
else mIsNestedBy[0].addObject(o);
}