/// <inheritdoc /> public override CdmObject Copy(ResolveOptions resOpt = null, CdmObject host = null) { if (resOpt == null) { resOpt = new ResolveOptions(this, this.Ctx.Corpus.DefaultResolutionDirectives); } CdmTypeAttributeDefinition copy; if (host == null) { copy = new CdmTypeAttributeDefinition(this.Ctx, this.Name); } else { copy = host as CdmTypeAttributeDefinition; copy.Ctx = this.Ctx; copy.Name = this.GetName(); } copy.DataType = (CdmDataTypeReference)this.DataType?.Copy(resOpt); copy.AttributeContext = (CdmAttributeContextReference)this.AttributeContext?.Copy(resOpt); this.CopyAtt(resOpt, copy); return(copy); }
public override CdmObject Copy(ResolveOptions resOpt = null) { if (resOpt == null) { resOpt = new ResolveOptions(this); } CdmTypeAttributeDefinition copy = new CdmTypeAttributeDefinition(this.Ctx, this.Name) { DataType = (CdmDataTypeReference)this.DataType?.Copy(resOpt), AttributeContext = (CdmAttributeContextReference)this.AttributeContext?.Copy(resOpt) }; this.CopyAtt(resOpt, copy); return(copy); }
/// <inheritdoc /> internal override ProjectionAttributeStateSet AppendProjectionAttributeState( ProjectionContext projCtx, ProjectionAttributeStateSet projOutputSet, CdmAttributeContext attrCtx) { // Create new attribute context for the operation AttributeContextParameters attrCtxOpFKParam = new AttributeContextParameters { under = attrCtx, type = CdmAttributeContextType.OperationReplaceAsForeignKey, Name = $"operation/index{Index}/operationReplaceAsForeignKey" }; CdmAttributeContext attrCtxOpFK = CdmAttributeContext.CreateChildUnder(projCtx.ProjectionDirective.ResOpt, attrCtxOpFKParam); // Create new attribute context for the AddedAttributeIdentity AttributeContextParameters attrCtxFKParam = new AttributeContextParameters { under = attrCtxOpFK, type = CdmAttributeContextType.AddedAttributeIdentity, Name = $"_foreignKey" }; CdmAttributeContext attrCtxFK = CdmAttributeContext.CreateChildUnder(projCtx.ProjectionDirective.ResOpt, attrCtxFKParam); // get the added attribute and applied trait // the name here will be {m} and not {A}{o}{M} - should this map to the not projections approach and default to {A}{o}{M} - ??? CdmTypeAttributeDefinition subFK = this.ReplaceWith as CdmTypeAttributeDefinition; List <string> addTrait = new List <string>() { "is.linkedEntity.identifier" }; // Create new resolved attribute, set the new attribute as target, and apply "is.linkedEntity.identifier" trait ResolvedAttribute resAttrNewFK = CreateNewResolvedAttribute(projCtx, attrCtxFK, subFK, addedSimpleRefTraits: addTrait); ProjectionAttributeStateSet outputFromOpPasSet = CreateNewProjectionAttributeStateSet(projCtx, projOutputSet, resAttrNewFK, this.Reference); return(outputFromOpPasSet); }
/// <inheritdoc /> internal override ProjectionAttributeStateSet AppendProjectionAttributeState( ProjectionContext projCtx, ProjectionAttributeStateSet projOutputSet, CdmAttributeContext attrCtx) { // Create a new attribute context for the operation AttributeContextParameters attrCtxOpCombineAttrsParam = new AttributeContextParameters { under = attrCtx, type = CdmAttributeContextType.OperationCombineAttributes, Name = $"operation/index{Index}/operationCombineAttributes" }; CdmAttributeContext attrCtxOpCombineAttrs = CdmAttributeContext.CreateChildUnder(projCtx.ProjectionDirective.ResOpt, attrCtxOpCombineAttrsParam); // Initialize a projection attribute context tree builder with the created attribute context for the operation ProjectionAttributeContextTreeBuilder attrCtxTreeBuilder = new ProjectionAttributeContextTreeBuilder(attrCtxOpCombineAttrs); // Get all the leaf level PAS nodes from the tree for each selected attribute and cache to a dictionary Dictionary <string, List <ProjectionAttributeState> > leafLevelCombineAttributeNames = new Dictionary <string, List <ProjectionAttributeState> >(); // Also, create a single list of leaf level PAS List <ProjectionAttributeState> leafLevelMergePASList = new List <ProjectionAttributeState>(); foreach (string select in this.Select) { List <ProjectionAttributeState> leafLevelListForCurrentSelect = ProjectionResolutionCommonUtil.GetLeafList(projCtx, select); if (leafLevelListForCurrentSelect != null && leafLevelListForCurrentSelect.Count > 0 && !leafLevelCombineAttributeNames.ContainsKey(select)) { leafLevelCombineAttributeNames.Add(select, leafLevelListForCurrentSelect); leafLevelMergePASList.AddRange(leafLevelListForCurrentSelect); } } // Create a List of top-level PAS objects that will be get merged based on the selected attributes List <ProjectionAttributeState> pasMergeList = new List <ProjectionAttributeState>(); // Run through the top-level PAS objects foreach (ProjectionAttributeState currentPAS in projCtx.CurrentAttributeStateSet.States) { if (leafLevelCombineAttributeNames.ContainsKey(currentPAS.CurrentResolvedAttribute.ResolvedName)) { // Attribute to Merge if (!pasMergeList.Contains(currentPAS)) { pasMergeList.Add(currentPAS); } } else { // Attribute to Pass Through // Create a projection attribute state for the non-selected / pass-through attribute by creating a copy of the current state // Copy() sets the current state as the previous state for the new one ProjectionAttributeState newPAS = currentPAS.Copy(); projOutputSet.Add(newPAS); } } if (pasMergeList.Count > 0) { CdmTypeAttributeDefinition mergeIntoAttribute = this.MergeInto as CdmTypeAttributeDefinition; // the merged attribute needs one new place to live, so here it is AttributeContextParameters mergedAttrCtxParam = new AttributeContextParameters { under = attrCtxOpCombineAttrs, type = CdmAttributeContextType.AttributeDefinition, Name = mergeIntoAttribute.GetName() }; CdmAttributeContext mergedAttrCtx = CdmAttributeContext.CreateChildUnder(projCtx.ProjectionDirective.ResOpt, mergedAttrCtxParam); // Create new resolved attribute, set the new attribute as target ResolvedAttribute raNewMergeInto = CreateNewResolvedAttribute(projCtx, mergedAttrCtx, mergeIntoAttribute, null); // Create new output projection attribute state set ProjectionAttributeState newMergeIntoPAS = new ProjectionAttributeState(projOutputSet.Ctx) { CurrentResolvedAttribute = raNewMergeInto, PreviousStateList = pasMergeList }; // Create the attribute context parameters and just store it in the builder for now // We will create the attribute contexts at the end foreach (string select in leafLevelCombineAttributeNames.Keys) { if (leafLevelCombineAttributeNames.ContainsKey(select) && leafLevelCombineAttributeNames[select] != null && leafLevelCombineAttributeNames[select].Count > 0) { foreach (ProjectionAttributeState leafLevelForSelect in leafLevelCombineAttributeNames[select]) { attrCtxTreeBuilder.CreateAndStoreAttributeContextParameters(select, leafLevelForSelect, newMergeIntoPAS.CurrentResolvedAttribute, CdmAttributeContextType.AttributeDefinition, leafLevelForSelect.CurrentResolvedAttribute.AttCtx, // lineage is the source att newMergeIntoPAS.CurrentResolvedAttribute.AttCtx); // merge into points back here } } } projOutputSet.Add(newMergeIntoPAS); } // Create all the attribute contexts and construct the tree attrCtxTreeBuilder.ConstructAttributeContextTree(projCtx); return(projOutputSet); }
/// <summary> /// Creates a resolved copy of the entity. /// </summary> public async Task <CdmEntityDefinition> CreateResolvedEntityAsync(string newEntName, ResolveOptions resOpt = null, CdmFolderDefinition folder = null, string newDocName = null) { if (resOpt == null) { resOpt = new ResolveOptions(this, this.Ctx.Corpus.DefaultResolutionDirectives); } if (resOpt.WrtDoc == null) { Logger.Error(nameof(CdmEntityDefinition), this.Ctx as ResolveContext, $"No WRT document was supplied.", nameof(CreateResolvedEntityAsync)); return(null); } if (string.IsNullOrEmpty(newEntName)) { Logger.Error(nameof(CdmEntityDefinition), this.Ctx as ResolveContext, $"No Entity Name provided.", nameof(CreateResolvedEntityAsync)); return(null); } // if the wrtDoc needs to be indexed (like it was just modified) then do that first if (!await resOpt.WrtDoc.IndexIfNeeded(resOpt, true)) { Logger.Error(nameof(CdmEntityDefinition), this.Ctx as ResolveContext, $"Couldn't index source document.", nameof(CreateResolvedEntityAsync)); return(null); } if (folder == null) { folder = this.InDocument.Folder; } string fileName = (string.IsNullOrEmpty(newDocName)) ? $"{newEntName}.cdm.json" : newDocName; string origDoc = this.InDocument.AtCorpusPath; // Don't overwite the source document string targetAtCorpusPath = $"{this.Ctx.Corpus.Storage.CreateAbsoluteCorpusPath(folder.AtCorpusPath, folder)}{fileName}"; if (StringUtils.EqualsWithIgnoreCase(targetAtCorpusPath, origDoc)) { Logger.Error(nameof(CdmEntityDefinition), this.Ctx as ResolveContext, $"Attempting to replace source entity's document '{targetAtCorpusPath}'", nameof(CreateResolvedEntityAsync)); return(null); } // make the top level attribute context for this entity // for this whole section where we generate the attribute context tree and get resolved attributes // set the flag that keeps all of the parent changes and document dirty from from happening bool wasResolving = this.Ctx.Corpus.isCurrentlyResolving; this.Ctx.Corpus.isCurrentlyResolving = true; string entName = newEntName; ResolveContext ctx = this.Ctx as ResolveContext; CdmAttributeContext attCtxEnt = ctx.Corpus.MakeObject <CdmAttributeContext>(CdmObjectType.AttributeContextDef, entName, true); attCtxEnt.Ctx = ctx; attCtxEnt.InDocument = this.InDocument; // cheating a bit to put the paths in the right place AttributeContextParameters acp = new AttributeContextParameters { under = attCtxEnt, type = CdmAttributeContextType.AttributeGroup, Name = "attributeContext" }; CdmAttributeContext attCtxAC = CdmAttributeContext.CreateChildUnder(resOpt, acp); AttributeContextParameters acpEnt = new AttributeContextParameters { under = attCtxAC, type = CdmAttributeContextType.Entity, Name = entName, Regarding = ctx.Corpus.MakeObject <CdmObject>(CdmObjectType.EntityRef, this.GetName(), true) }; // use this whenever we need to keep references pointing at things that were already found. used when 'fixing' references by localizing to a new document ResolveOptions resOptCopy = CdmObjectBase.CopyResolveOptions(resOpt); resOptCopy.SaveResolutionsOnCopy = true; // resolve attributes with this context. the end result is that each resolved attribute // points to the level of the context where it was created var ras = this.FetchResolvedAttributes(resOptCopy, acpEnt); if (ras == null) { this.resolvingAttributes = false; return(null); } // create a new copy of the attribute context for this entity HashSet <CdmAttributeContext> allAttCtx = new HashSet <CdmAttributeContext>(); CdmAttributeContext newNode = attCtxEnt.CopyNode(resOpt) as CdmAttributeContext; attCtxEnt = attCtxEnt.CopyAttributeContextTree(resOpt, newNode, ras, allAttCtx, "resolvedFrom"); CdmAttributeContext attCtx = (attCtxEnt.Contents[0] as CdmAttributeContext).Contents[0] as CdmAttributeContext; this.Ctx.Corpus.isCurrentlyResolving = wasResolving; // make a new document in given folder if provided or the same folder as the source entity folder.Documents.Remove(fileName); CdmDocumentDefinition docRes = folder.Documents.Add(fileName); // add a import of the source document origDoc = this.Ctx.Corpus.Storage.CreateRelativeCorpusPath(origDoc, docRes); // just in case we missed the prefix docRes.Imports.Add(origDoc, "resolvedFrom"); // make the empty entity CdmEntityDefinition entResolved = docRes.Definitions.Add(entName); // set the context to the copy of the tree. fix the docs on the context nodes entResolved.AttributeContext = attCtx; attCtx.Visit($"{entName}/attributeContext/", new VisitCallback { Invoke = (obj, path) => { obj.InDocument = docRes; return(false); } }, null); // add the traits of the entity ResolvedTraitSet rtsEnt = this.FetchResolvedTraits(resOpt); rtsEnt.Set.ForEach(rt => { var traitRef = CdmObjectBase.ResolvedTraitToTraitRef(resOptCopy, rt); (entResolved as CdmObjectDefinition).ExhibitsTraits.Add(traitRef); }); // the attributes have been named, shaped, etc for this entity so now it is safe to go and // make each attribute context level point at these final versions of attributes IDictionary <string, int> attPath2Order = new Dictionary <string, int>(); Action <ResolvedAttributeSet, string> pointContextAtResolvedAtts = null; pointContextAtResolvedAtts = (rasSub, path) => { rasSub.Set.ForEach(ra => { List <CdmAttributeContext> raCtxInEnt = new List <CdmAttributeContext>(); HashSet <CdmAttributeContext> raCtxSet = null; rasSub.Ra2attCtxSet.TryGetValue(ra, out raCtxSet); // find the correct attCtx for this copy, intersect these two sets // (iterate over the shortest list) if (allAttCtx.Count < raCtxSet.Count) { foreach (CdmAttributeContext currAttCtx in allAttCtx) { if (raCtxSet.Contains(currAttCtx)) { raCtxInEnt.Add(currAttCtx); } } } else { foreach (CdmAttributeContext currAttCtx in raCtxSet) { if (allAttCtx.Contains(currAttCtx)) { raCtxInEnt.Add(currAttCtx); } } } foreach (CdmAttributeContext raCtx in raCtxInEnt) { var refs = raCtx.Contents; // there might be more than one explanation for where and attribute came from when things get merges as they do // this won't work when I add the structured attributes to avoid name collisions string attRefPath = path + ra.ResolvedName; if ((ra.Target as CdmAttribute)?.GetType().GetMethod("GetObjectType") != null) { if (!attPath2Order.ContainsKey(attRefPath)) { var attRef = this.Ctx.Corpus.MakeObject <CdmObjectReferenceBase>(CdmObjectType.AttributeRef, attRefPath, true); // only need one explanation for this path to the insert order attPath2Order.Add(attRef.NamedReference, ra.InsertOrder); refs.Add(attRef); } } else { attRefPath += "/members/"; pointContextAtResolvedAtts(ra.Target as ResolvedAttributeSet, attRefPath); } } }); }; pointContextAtResolvedAtts(ras, entName + "/hasAttributes/"); // generated attribute structures may end up with 0 attributes after that. prune them Func <CdmObject, bool, bool> CleanSubGroup = null; CleanSubGroup = (subItem, underGenerated) => { if (subItem.ObjectType == CdmObjectType.AttributeRef) { return(true); // not empty } CdmAttributeContext ac = subItem as CdmAttributeContext; if (ac.Type == CdmAttributeContextType.GeneratedSet) { underGenerated = true; } if (ac.Contents == null || ac.Contents.Count == 0) { return(false); // empty } // look at all children, make a set to remove List <CdmAttributeContext> toRemove = new List <CdmAttributeContext>(); foreach (var subSub in ac.Contents) { if (CleanSubGroup(subSub, underGenerated) == false) { bool potentialTarget = underGenerated; if (potentialTarget == false) { // cast is safe because we returned false meaning empty and not a attribute ref // so is this the set holder itself? potentialTarget = (subSub as CdmAttributeContext).Type == CdmAttributeContextType.GeneratedSet; } if (potentialTarget) { toRemove.Add(subSub as CdmAttributeContext); } } } foreach (var toDie in toRemove) { ac.Contents.Remove(toDie); } return(ac.Contents.Count != 0); }; CleanSubGroup(attCtx, false); Func <CdmAttributeContext, int?> orderContents = null; // create an all-up ordering of attributes at the leaves of this tree based on insert order // sort the attributes in each context by their creation order and mix that with the other sub-contexts that have been sorted Func <CdmObject, int?> getOrderNum = (item) => { if (item.ObjectType == CdmObjectType.AttributeContextDef && orderContents != null) { return(orderContents(item as CdmAttributeContext)); } else if (item.ObjectType == CdmObjectType.AttributeRef) { string attName = (item as CdmAttributeReference).NamedReference; int o = attPath2Order[attName]; return(o); } else { return(-1); // put the mystery item on top. } }; orderContents = (CdmAttributeContext under) => { if (under.LowestOrder == null) { under.LowestOrder = -1; // used for group with nothing but traits if (under.Contents.Count == 1) { under.LowestOrder = getOrderNum(under.Contents[0]); } else { under.Contents.AllItems.Sort((l, r) => { int lNum = -1; int rNum = -1; int?aux; aux = getOrderNum(l); if (aux != null) { lNum = (int)aux; } aux = getOrderNum(r); if (aux != null) { rNum = (int)aux; } if (lNum != -1 && (under.LowestOrder == -1 || lNum < under.LowestOrder)) { under.LowestOrder = lNum; } if (rNum != -1 && (under.LowestOrder == -1 || rNum < under.LowestOrder)) { under.LowestOrder = rNum; } return(lNum - rNum); }); } } return(under.LowestOrder); }; orderContents((CdmAttributeContext)attCtx); // resolved attributes can gain traits that are applied to an entity when referenced // since these traits are described in the context, it is redundant and messy to list them in the attribute // so, remove them. create and cache a set of names to look for per context // there is actually a hierarchy to all attributes from the base entity should have all traits applied independently of the // sub-context they come from. Same is true of attribute entities. so do this recursively top down var ctx2traitNames = new Dictionary <CdmAttributeContext, HashSet <string> >(); Action <CdmAttributeContext, HashSet <string> > collectContextTraits = null; collectContextTraits = (subAttCtx, inheritedTraitNames) => { var traitNamesHere = new HashSet <string>(inheritedTraitNames); var traitsHere = subAttCtx.ExhibitsTraits; if (traitsHere != null) { foreach (var tat in traitsHere) { traitNamesHere.Add(tat.NamedReference); } } ctx2traitNames.Add(subAttCtx, traitNamesHere); subAttCtx.Contents.AllItems.ForEach((cr) => { if (cr.ObjectType == CdmObjectType.AttributeContextDef) { // do this for all types? collectContextTraits(cr as CdmAttributeContext, traitNamesHere); } }); }; collectContextTraits(attCtx, new HashSet <string>()); // add the attributes, put them in attribute groups if structure needed IDictionary <ResolvedAttribute, string> resAtt2RefPath = new Dictionary <ResolvedAttribute, string>(); Action <ResolvedAttributeSet, dynamic, string> addAttributes = null; addAttributes = (rasSub, container, path) => { rasSub.Set.ForEach(ra => { string attPath = path + ra.ResolvedName; // use the path of the context associated with this attribute to find the new context that matches on path HashSet <CdmAttributeContext> raCtxSet = null; rasSub.Ra2attCtxSet.TryGetValue(ra, out raCtxSet); CdmAttributeContext raCtx = null; // find the correct attCtx for this copy // (interate over the shortest list) if (allAttCtx.Count < raCtxSet.Count) { foreach (CdmAttributeContext currAttCtx in allAttCtx) { if (raCtxSet.Contains(currAttCtx)) { raCtx = currAttCtx; break; } } } else { foreach (CdmAttributeContext currAttCtx in raCtxSet) { if (allAttCtx.Contains(currAttCtx)) { raCtx = currAttCtx; break; } } } if (ra.Target is ResolvedAttributeSet) { // this is a set of attributes. // make an attribute group to hold them CdmAttributeGroupDefinition attGrp = this.Ctx.Corpus.MakeObject <CdmAttributeGroupDefinition>(CdmObjectType.AttributeGroupDef, ra.ResolvedName, false); attGrp.AttributeContext = this.Ctx.Corpus.MakeObject <CdmAttributeContextReference>(CdmObjectType.AttributeContextRef, raCtx.AtCorpusPath, true); // take any traits from the set and make them look like traits exhibited by the group HashSet <string> avoidSet = ctx2traitNames[raCtx]; ResolvedTraitSet rtsAtt = ra.ResolvedTraits; rtsAtt.Set.ForEach(rt => { if (rt.Trait.Ugly != true) { // don't mention your ugly traits if (avoidSet?.Contains(rt.TraitName) != true) { // avoid the ones from the context var traitRef = CdmObjectBase.ResolvedTraitToTraitRef(resOptCopy, rt); (attGrp as CdmObjectDefinitionBase).ExhibitsTraits.Add(traitRef); } } }); // wrap it in a reference and then recurse with this as the new container CdmAttributeGroupReference attGrpRef = this.Ctx.Corpus.MakeObject <CdmAttributeGroupReference>(CdmObjectType.AttributeGroupRef, null, false); attGrpRef.ExplicitReference = attGrp; container.AddAttributeDef(attGrpRef); // isn't this where ... addAttributes(ra.Target as ResolvedAttributeSet, attGrp, attPath + "/members/"); } else { CdmTypeAttributeDefinition att = this.Ctx.Corpus.MakeObject <CdmTypeAttributeDefinition>(CdmObjectType.TypeAttributeDef, ra.ResolvedName, false); att.AttributeContext = this.Ctx.Corpus.MakeObject <CdmAttributeContextReference>(CdmObjectType.AttributeContextRef, raCtx.AtCorpusPath, true); HashSet <string> avoidSet = ctx2traitNames[raCtx]; ResolvedTraitSet rtsAtt = ra.ResolvedTraits; rtsAtt.Set.ForEach(rt => { if (rt.Trait.Ugly != true) { // don't mention your ugly traits if (avoidSet?.Contains(rt.TraitName) != true) { // avoid the ones from the context var traitRef = CdmObjectBase.ResolvedTraitToTraitRef(resOptCopy, rt); ((CdmTypeAttributeDefinition)att).AppliedTraits.Add(traitRef); } } }); // none of the dataformat traits have the bit set that will make them turn into a property // this is intentional so that the format traits make it into the resolved object // but, we still want a guess as the data format, so get it and set it. var impliedDataFormat = att.DataFormat; if (impliedDataFormat != CdmDataFormat.Unknown) { att.DataFormat = impliedDataFormat; } container.AddAttributeDef(att); resAtt2RefPath[ra] = attPath; } }); }; addAttributes(ras, entResolved, entName + "/hasAttributes/"); // any resolved traits that hold arguments with attribute refs should get 'fixed' here Action <CdmTraitReference, string, bool> replaceTraitAttRef = (tr, entityHint, isAttributeContext) => { if (tr.Arguments != null) { foreach (CdmArgumentDefinition arg in tr.Arguments.AllItems) { dynamic v = arg.UnResolvedValue != null ? arg.UnResolvedValue : arg.Value; // is this an attribute reference? if (v != null && (v as CdmObject)?.ObjectType == CdmObjectType.AttributeRef) { // only try this if the reference has no path to it (only happens with intra-entity att refs) var attRef = v as CdmAttributeReference; if (!string.IsNullOrEmpty(attRef.NamedReference) && attRef.NamedReference.IndexOf('/') == -1) { if (arg.UnResolvedValue == null) { arg.UnResolvedValue = arg.Value; } // give a promise that can be worked out later. assumption is that the attribute must come from this entity. var newAttRef = this.Ctx.Corpus.MakeRef <CdmAttributeReference>(CdmObjectType.AttributeRef, entityHint + "/(resolvedAttributes)/" + attRef.NamedReference, true); // inDocument is not propagated during resolution, so set it here newAttRef.InDocument = arg.InDocument; arg.Value = newAttRef; } } } } }; // fix entity traits if (entResolved.ExhibitsTraits != null) { foreach (var et in entResolved.ExhibitsTraits) { replaceTraitAttRef(et, newEntName, false); } } // fix context traits Action <CdmAttributeContext, string> fixContextTraits = null; fixContextTraits = (subAttCtx, entityHint) => { var traitsHere = subAttCtx.ExhibitsTraits; if (traitsHere != null) { foreach (var tr in traitsHere) { replaceTraitAttRef(tr, entityHint, true); } } subAttCtx.Contents.AllItems.ForEach((cr) => { if (cr.ObjectType == CdmObjectType.AttributeContextDef) { // if this is a new entity context, get the name to pass along CdmAttributeContext subSubAttCtx = (CdmAttributeContext)cr; string subEntityHint = entityHint; if (subSubAttCtx.Type == CdmAttributeContextType.Entity) { subEntityHint = subSubAttCtx.Definition.NamedReference; } // do this for all types fixContextTraits(subSubAttCtx, subEntityHint); } }); }; fixContextTraits(attCtx, newEntName); // and the attribute traits var entAttributes = entResolved.Attributes; if (entAttributes != null) { foreach (var entAtt in entAttributes) { CdmTraitCollection attTraits = entAtt.AppliedTraits; if (attTraits != null) { foreach (var tr in attTraits) { replaceTraitAttRef(tr, newEntName, false); } } } } // we are about to put this content created in the context of various documents (like references to attributes from base entities, etc.) // into one specific document. all of the borrowed refs need to work. so, re-write all string references to work from this new document // the catch-22 is that the new document needs these fixes done before it can be used to make these fixes. // the fix needs to happen in the middle of the refresh // trigger the document to refresh current content into the resolved OM attCtx.Parent = null; // remove the fake parent that made the paths work ResolveOptions resOptNew = CdmObjectBase.CopyResolveOptions(resOpt); resOptNew.LocalizeReferencesFor = docRes; resOptNew.WrtDoc = docRes; if (!await docRes.RefreshAsync(resOptNew)) { Logger.Error(nameof(CdmEntityDefinition), this.Ctx as ResolveContext, $"Failed to index the resolved document.", nameof(CreateResolvedEntityAsync)); return(null); } // get a fresh ref entResolved = docRes.FetchObjectFromDocumentPath(entName, resOptNew) as CdmEntityDefinition; this.Ctx.Corpus.resEntMap[this.AtCorpusPath] = entResolved.AtCorpusPath; return(entResolved); }