private static void ProcessAAttributeDefinition(GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, Int64 myTransactionToken, IVertexType vertexType, AAttributeAssignOrUpdate aAttributeDefinition, ref RequestInsertVertex result) { if (vertexType.HasAttribute(aAttributeDefinition.AttributeIDChain.ContentString)) { ProcessStructuredProperty(myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, vertexType, aAttributeDefinition, ref result); } else { ProcessUnstructuredAttribute(vertexType, aAttributeDefinition, ref result); } }
private Tuple<long?, String, VertexUpdateDefinition> CreateVertexUpdateDefinition( IVertex myVertex, IVertexType myVertexType, RequestUpdate myUpdate, IPropertyProvider myPropertyCopy, Int64 myTransaction, SecurityToken mySecurity) { #region get removes List<long> toBeDeletedSingle = null; List<long> toBeDeletedHyper = null; List<long> toBeDeletedStructured = null; List<String> toBeDeletedUnstructured = null; List<long> toBeDeletedBinaries = null; if (myUpdate.RemovedAttributes != null) { #region remove each defined attribute foreach (var name in myUpdate.RemovedAttributes) { if (myVertexType.HasAttribute(name)) { var attr = myVertexType.GetAttributeDefinition(name); switch (attr.Kind) { case AttributeType.Property: if ((attr as IPropertyDefinition).IsMandatory) throw new MandatoryConstraintViolationException(attr.Name); toBeDeletedStructured = toBeDeletedStructured ?? new List<long>(); toBeDeletedStructured.Add(attr.ID); break; case AttributeType.BinaryProperty: toBeDeletedBinaries = toBeDeletedBinaries ?? new List<long>(); toBeDeletedBinaries.Add(attr.ID); break; case AttributeType.IncomingEdge: //TODO: a better exception here. throw new Exception("The edges on an incoming edge attribute can not be removed."); case AttributeType.OutgoingEdge: switch ((attr as IOutgoingEdgeDefinition).Multiplicity) { case EdgeMultiplicity.HyperEdge: case EdgeMultiplicity.MultiEdge: toBeDeletedHyper = toBeDeletedHyper ?? new List<long>(); toBeDeletedHyper.Add(attr.ID); break; case EdgeMultiplicity.SingleEdge: toBeDeletedSingle = toBeDeletedSingle ?? new List<long>(); toBeDeletedSingle.Add(attr.ID); break; default: //TODO a better exception here throw new Exception("The enumeration EdgeMultiplicity was changed, but not this switch statement."); } break; default: //TODO: a better exception here. throw new Exception("The enumeration AttributeType was updated, but not this switch statement."); } } else { toBeDeletedUnstructured = toBeDeletedUnstructured ?? new List<String>(); toBeDeletedUnstructured.Add(name); } } #endregion } if (myUpdate.RemovedUnstructuredProperties != null) { #region remove each unstructured property foreach (var name in myUpdate.RemovedUnstructuredProperties) { if ((myVertexType.HasAttribute(name)) && (myVertexType.GetAttributeDefinition(name).Kind == AttributeType.Property)) { toBeDeletedUnstructured = toBeDeletedUnstructured ?? new List<String>(); toBeDeletedUnstructured.Add(name); } } #endregion } #endregion #region get update definitions IDictionary<Int64, HyperEdgeUpdateDefinition> toBeUpdatedHyper = null; IDictionary<Int64, SingleEdgeUpdateDefinition> toBeUpdatedSingle = null; IDictionary<Int64, IComparable> toBeUpdatedStructured = null; IDictionary<String, Object> toBeUpdatedUnstructured = null; IDictionary<Int64, StreamAddDefinition> toBeUpdatedBinaries = null; long? revision = null; string edition = myUpdate.UpdatedEdition; string comment = myUpdate.UpdatedComment; #region property copy things if (myPropertyCopy.StructuredProperties != null) { toBeUpdatedStructured = new Dictionary<long, IComparable>(); foreach (var prop in myPropertyCopy.StructuredProperties) { var propDef = myVertexType.GetPropertyDefinition(prop.Key); CheckPropertyType(myVertexType.Name, prop.Value, propDef); toBeUpdatedStructured.Add(propDef.ID, prop.Value); } } toBeUpdatedUnstructured = myPropertyCopy.UnstructuredProperties; #endregion #region binary properties if (myUpdate.UpdatedBinaryProperties != null) { foreach (var prop in myUpdate.UpdatedBinaryProperties) { var propDef = myVertexType.GetBinaryPropertyDefinition(prop.Key); toBeUpdatedBinaries = toBeUpdatedBinaries ?? new Dictionary<long, StreamAddDefinition>(); toBeUpdatedBinaries.Add(propDef.ID, new StreamAddDefinition(propDef.ID, prop.Value)); } } #endregion #region collections if (myUpdate.AddedElementsToCollectionProperties != null || myUpdate.RemovedElementsFromCollectionProperties != null) { if (myUpdate.AddedElementsToCollectionProperties != null && myUpdate.RemovedElementsFromCollectionProperties != null) { var keys = myUpdate.AddedElementsToCollectionProperties.Keys.Intersect(myUpdate.RemovedElementsFromCollectionProperties.Keys); if (keys.CountIsGreater(0)) { //TOTO a better exception here throw new Exception("You can not add and remove items simultaneously on a collection attribute."); } if (myUpdate.AddedElementsToCollectionProperties != null) { foreach (var added in myUpdate.AddedElementsToCollectionProperties) { var propDef = myVertexType.GetPropertyDefinition(added.Key); var hasValue = (propDef == null) ? myVertex.HasUnstructuredProperty(added.Key) : myVertex.HasProperty(propDef.ID); //if it is not ICollectionWrapper something wrong with deserialization var extractedValue = (!hasValue) ? null : (propDef == null) ? myVertex.GetUnstructuredProperty<ICollectionWrapper>(added.Key) : (ICollectionWrapper)propDef.GetValue(myVertex); PropertyMultiplicity mult; if (propDef != null) { //check types only for structured properties foreach (var element in added.Value) { CheckPropertyType(myVertexType.Name, element, propDef); } mult = propDef.Multiplicity; } else mult = (added.Value is SetCollectionWrapper) ? PropertyMultiplicity.Set : PropertyMultiplicity.List; var newValue = CreateNewCollectionWrapper( (hasValue) ? extractedValue.Union(added.Value) : added.Value, mult); if (propDef == null) { toBeUpdatedUnstructured = toBeUpdatedUnstructured ?? new Dictionary<String, object>(); toBeUpdatedUnstructured.Add(added.Key, newValue); } else { toBeUpdatedStructured = toBeUpdatedStructured ?? new Dictionary<long, IComparable>(); toBeUpdatedStructured.Add(propDef.ID, newValue); } } } if (myUpdate.RemovedElementsFromCollectionProperties != null) { foreach (var remove in myUpdate.RemovedElementsFromCollectionProperties) { var propDef = myVertexType.GetPropertyDefinition(remove.Key); var hasValue = (propDef == null) ? myVertex.HasUnstructuredProperty(remove.Key) : myVertex.HasProperty(propDef.ID); //no value, nothing to remove if (!hasValue) continue; //if it is not ICollectionWrapper something wrong with deserialization var extractedValue = (propDef == null) ? myVertex.GetUnstructuredProperty<ICollectionWrapper>(remove.Key) : (ICollectionWrapper)propDef.GetValue(myVertex); PropertyMultiplicity mult = (propDef != null) ? propDef.Multiplicity : (extractedValue is SetCollectionWrapper) ? PropertyMultiplicity.Set : PropertyMultiplicity.List; var newValue = CreateNewCollectionWrapper(extractedValue.Except(remove.Value), mult); toBeUpdatedStructured.Add(propDef.ID, newValue); if (propDef == null) { toBeUpdatedUnstructured = toBeUpdatedUnstructured ?? new Dictionary<String, object>(); toBeUpdatedUnstructured.Add(remove.Key, newValue); } else { toBeUpdatedStructured = toBeUpdatedStructured ?? new Dictionary<long, IComparable>(); toBeUpdatedStructured.Add(propDef.ID, newValue); } } } } } #endregion #region extract vertex properties #region will be ignored long vertexID = 0L; long creationDate = 0L; long modificationDate = 0L; #endregion ExtractVertexProperties(ref edition, ref revision, ref comment, ref vertexID, ref creationDate, ref modificationDate, toBeUpdatedStructured); #endregion #region edge magic if (myUpdate.AddedElementsToCollectionEdges != null || myUpdate.RemovedElementsFromCollectionEdges != null || myUpdate.UpdateOutgoingEdges != null || myUpdate.UpdateOutgoingEdgesProperties != null) { VertexInformation source = new VertexInformation(myVertex.VertexTypeID, myVertex.VertexID); #region update outgoing edges if (myUpdate.UpdateOutgoingEdges != null) { foreach (var edge in myUpdate.UpdateOutgoingEdges) { var edgeDef = myVertexType.GetOutgoingEdgeDefinition(edge.EdgeName); switch (edgeDef.Multiplicity) { case EdgeMultiplicity.SingleEdge: { #region SingleEdge var targets = GetResultingVertexIDs(myTransaction, mySecurity, edge, edgeDef.TargetVertexType); if (targets == null || !targets.CountIsGreater(0)) { toBeDeletedSingle = toBeDeletedSingle ?? new List<long>(); toBeDeletedSingle.Add(edgeDef.ID); } else if (targets.CountIsGreater(1)) { throw new Exception("Single edge can not have more than one target."); } else { ConvertUnknownProperties(edge, edgeDef.EdgeType); var structured = CreateStructuredUpdate(edge.StructuredProperties, edgeDef.EdgeType); var unstructured = CreateUnstructuredUpdate(edge.UnstructuredProperties); toBeUpdatedSingle = toBeUpdatedSingle ?? new Dictionary<long, SingleEdgeUpdateDefinition>(); toBeUpdatedSingle.Add(edgeDef.ID, new SingleEdgeUpdateDefinition(source, targets.First(), edgeDef.EdgeType.ID, edge.Comment, structured, unstructured)); } #endregion } break; case EdgeMultiplicity.MultiEdge: { #region MultiEdge // Why deleting the edge instances ??? // they will never be inserted inside the update !!! // After delete the update will be needless because the edges are deleted !!! //List<SingleEdgeDeleteDefinition> internSingleDelete = null; //if (myVertex.HasOutgoingEdge(edgeDef.ID)) //{ // internSingleDelete = new List<SingleEdgeDeleteDefinition>(); // foreach (var edgeInstance in myVertex.GetOutgoingHyperEdge(edgeDef.ID).GetTargetVertices()) // { // internSingleDelete.Add( // new SingleEdgeDeleteDefinition(source, // new VertexInformation(edgeInstance.VertexTypeID, // edgeInstance.VertexID))); // } //} List<SingleEdgeUpdateDefinition> internSingleUpdate = null; var targets = GetResultingVertexIDs(myTransaction, mySecurity, edge, edgeDef.TargetVertexType); if (targets != null) { foreach (var target in targets) { internSingleUpdate = internSingleUpdate ?? new List<SingleEdgeUpdateDefinition>(); internSingleUpdate.Add(new SingleEdgeUpdateDefinition(source, target, edgeDef.InnerEdgeType.ID)); } } if (edge.ContainedEdges != null) { foreach (var innerEdge in edge.ContainedEdges) { targets = GetResultingVertexIDs(myTransaction, mySecurity, innerEdge, edgeDef.TargetVertexType); if (targets != null && targets.CountIsGreater(0)) { ConvertUnknownProperties(innerEdge, edgeDef.InnerEdgeType); var structured = CreateStructuredUpdate(innerEdge.StructuredProperties, edgeDef.InnerEdgeType); var unstructured = CreateUnstructuredUpdate(innerEdge.UnstructuredProperties); foreach (var target in targets) { internSingleUpdate = internSingleUpdate ?? new List<SingleEdgeUpdateDefinition>(); internSingleUpdate.Add( new SingleEdgeUpdateDefinition(source, target, edgeDef.InnerEdgeType.ID, innerEdge.Comment, structured, unstructured)); } } } } ConvertUnknownProperties(edge, edgeDef.EdgeType); var outerStructured = CreateStructuredUpdate(edge.StructuredProperties, edgeDef.EdgeType); var outerUnstructured = CreateUnstructuredUpdate(edge.UnstructuredProperties); toBeUpdatedHyper = toBeUpdatedHyper ?? new Dictionary<long, HyperEdgeUpdateDefinition>(); toBeUpdatedHyper.Add(edgeDef.ID, new HyperEdgeUpdateDefinition(edgeDef.EdgeType.ID, edge.Comment, outerStructured, outerUnstructured, null,//internSingleDelete, internSingleUpdate)); #endregion } break; case EdgeMultiplicity.HyperEdge: break; default: throw new Exception("The enumeration EdgeMultiplicity was changed, but not this switch statement."); } } } #endregion #region update outgoing edges properties if (myUpdate.UpdateOutgoingEdgesProperties != null) { foreach (var edge in myUpdate.UpdateOutgoingEdgesProperties) { var edgeDef = myVertexType .GetOutgoingEdgeDefinitions(true) .Where(_ => _.ID.Equals(edge.EdgeTypeID) || _.InnerEdgeType.ID.Equals(edge.EdgeTypeID)).FirstOrDefault(); switch (edgeDef.Multiplicity) { case EdgeMultiplicity.SingleEdge: { #region SingleEdge //var targets = GetResultingVertexIDs(myTransaction, mySecurity, edge, edgeDef.TargetVertexType); //if (targets == null || !targets.CountIsGreater(0)) //{ // toBeDeletedSingle = toBeDeletedSingle ?? new List<long>(); // toBeDeletedSingle.Add(edgeDef.ID); //} //else if (targets.CountIsGreater(1)) //{ // throw new Exception("Single edge can not have more than one target."); //} //else //{ // ConvertUnknownProperties(edge, edgeDef.EdgeType); // var structured = CreateStructuredUpdate(edge.StructuredProperties, edgeDef.EdgeType); // var unstructured = CreateUnstructuredUpdate(edge.UnstructuredProperties); // toBeUpdatedSingle = toBeUpdatedSingle ?? new Dictionary<long, SingleEdgeUpdateDefinition>(); // toBeUpdatedSingle.Add(edgeDef.ID, // new SingleEdgeUpdateDefinition(source, // targets.First(), // edgeDef.EdgeType.ID, // edge.Comment, // structured, // unstructured)); //} #endregion } break; case EdgeMultiplicity.MultiEdge: { #region MultiEdge List<SingleEdgeUpdateDefinition> internSingleUpdate = null; var targets = myVertex .GetOutgoingEdge(edgeDef.ID) .GetTargetVertices() .Select(_ => new VertexInformation(_.VertexTypeID, _.VertexID)); if (targets != null && targets.CountIsGreater(0)) { var structured = edge.UpdatedStructuredProperties; var unstructured = edge.UpdatedUnstructuredProperties; foreach (var target in targets) { internSingleUpdate = internSingleUpdate ?? new List<SingleEdgeUpdateDefinition>(); internSingleUpdate.Add( new SingleEdgeUpdateDefinition(source, target, edgeDef.InnerEdgeType.ID, edge.CommentUpdate, structured, unstructured)); } } toBeUpdatedHyper = toBeUpdatedHyper ?? new Dictionary<long, HyperEdgeUpdateDefinition>(); if (toBeUpdatedHyper.ContainsKey(edgeDef.ID)) { var temp = toBeUpdatedHyper[edgeDef.ID]; toBeUpdatedHyper.Remove(edgeDef.ID); toBeUpdatedHyper.Add(edgeDef.ID, MergeToBeAddedHyperEdgeUpdates(temp, internSingleUpdate)); } else toBeUpdatedHyper.Add(edgeDef.ID, new HyperEdgeUpdateDefinition(edgeDef.EdgeType.ID, null, null, null, null, internSingleUpdate)); #endregion } break; case EdgeMultiplicity.HyperEdge: break; default: throw new Exception("The enumeration EdgeMultiplicity was changed, but not this switch statement."); } } } #endregion #region update AddedElementsToCollectionEdges if (myUpdate.AddedElementsToCollectionEdges != null) { foreach (var hyperEdge in myUpdate.AddedElementsToCollectionEdges) { var edgeDef = myVertexType.GetOutgoingEdgeDefinition(hyperEdge.Key); if (edgeDef == null) //TODO a better exception here throw new Exception("edge attribute not defined."); if (edgeDef.Multiplicity == EdgeMultiplicity.SingleEdge) //TODO a better exception here throw new Exception("Add edges is only defined on hyper/multi edges."); var edgeTypeID = edgeDef.ID; StructuredPropertiesUpdate structuredUpdate; UnstructuredPropertiesUpdate unstructuredUpdate; IEnumerable<SingleEdgeUpdateDefinition> singleUpdate; CheckIfToBeAddedElementAlreadyExist(myVertex, edgeDef, hyperEdge.Value, myTransaction, mySecurity); CreateSingleEdgeUpdateDefinitions(source, myTransaction, mySecurity, hyperEdge.Value, edgeDef, out structuredUpdate, out unstructuredUpdate, out singleUpdate); toBeUpdatedHyper = toBeUpdatedHyper ?? new Dictionary<long, HyperEdgeUpdateDefinition>(); toBeUpdatedHyper.Add(edgeTypeID, new HyperEdgeUpdateDefinition(edgeTypeID, null, structuredUpdate, unstructuredUpdate, null, singleUpdate)); } } #endregion #region update RemovedElementsFromCollectionEdges if (myUpdate.RemovedElementsFromCollectionEdges != null) { foreach (var hyperEdge in myUpdate.RemovedElementsFromCollectionEdges) { var edgeDef = myVertexType.GetOutgoingEdgeDefinition(hyperEdge.Key); if (edgeDef == null) //TODO a better exception here throw new Exception("Edge attribute not defined."); if (edgeDef.Multiplicity == EdgeMultiplicity.SingleEdge) //TODO a better exception here throw new Exception("Removing edges is only defined on hyper/multi edges."); var edgeTypeID = edgeDef.ID; var del = CreateSingleEdgeDeleteDefinitions(source, myTransaction, mySecurity, hyperEdge.Value, edgeDef); toBeUpdatedHyper = toBeUpdatedHyper ?? new Dictionary<long, HyperEdgeUpdateDefinition>(); toBeUpdatedHyper.Add(edgeTypeID, new HyperEdgeUpdateDefinition(edgeTypeID, null, null, null, del, null)); } } #endregion } #endregion #region create updates var updateSingle = (toBeUpdatedSingle != null || toBeDeletedSingle != null) ? new SingleEdgeUpdate(toBeUpdatedSingle, toBeDeletedSingle) : null; var updateHyper = (toBeUpdatedHyper != null || toBeDeletedHyper != null) ? new HyperEdgeUpdate(toBeUpdatedHyper, toBeDeletedHyper) : null; var updateStructured = (toBeUpdatedStructured != null || toBeDeletedStructured != null) ? new StructuredPropertiesUpdate(toBeUpdatedStructured, toBeDeletedStructured) : null; var updateUnstructured = (toBeUpdatedUnstructured != null || toBeDeletedUnstructured != null) ? new UnstructuredPropertiesUpdate(toBeUpdatedUnstructured, toBeDeletedUnstructured) : null; var updateBinaries = (toBeUpdatedBinaries != null || toBeDeletedBinaries != null) ? new BinaryPropertiesUpdate(toBeUpdatedBinaries, toBeDeletedBinaries) : null; #endregion return Tuple.Create(revision, edition, new VertexUpdateDefinition(comment, updateStructured, updateUnstructured, updateBinaries, updateSingle, updateHyper)); }
private void ProcessAttributeRemoveList(IVertexType vertexType, GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, TransactionToken myTransactionToken, AttributeRemoveList attributeRemoveList, ref RequestUpdate result) { if (attributeRemoveList.TupleDefinition is VertexTypeVertexIDCollectionNode) { #region setofUUIDs var edgedef = new EdgePredefinition(attributeRemoveList.AttributeName); List<EdgePredefinition> toBeRemovedEdges = new List<EdgePredefinition>(); foreach (var aTupleElement in ((VertexTypeVertexIDCollectionNode)attributeRemoveList.TupleDefinition).Elements) { foreach (var aVertexIDTuple in aTupleElement.VertexIDs) { var innerEdge = new EdgePredefinition(); innerEdge.AddVertexID(aTupleElement.ReferencedVertexTypeName, aVertexIDTuple.Item1); edgedef.AddEdge(innerEdge); } } result.RemoveElementsFromCollection(attributeRemoveList.AttributeName, edgedef); #endregion } else if (attributeRemoveList.TupleDefinition is TupleDefinition) { if (((TupleDefinition)attributeRemoveList.TupleDefinition).All(_ => _.Value is ValueDefinition)) { #region base-set //has to be list of comparables ListCollectionWrapper listWrapper = new ListCollectionWrapper(); Type myRequestedType; if (vertexType.HasProperty(attributeRemoveList.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType.GetAttributeDefinition(attributeRemoveList.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)attributeRemoveList.TupleDefinition) { listWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.RemoveElementsFromCollection(attributeRemoveList.AttributeIDChain.ContentString, listWrapper); #endregion } else { #region binaryExpression Dictionary<String, EdgePredefinition> toBeRemovedEdges = new Dictionary<String, EdgePredefinition>(); foreach (var aTupleElement in ((TupleDefinition)attributeRemoveList.TupleDefinition)) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition if (!vertexType.HasAttribute(attributeRemoveList.AttributeName)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, attributeRemoveList.AttributeName)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(attributeRemoveList.AttributeName); var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; var vertexIDs = ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType).ToList(); if (vertexIDs.Count > 1) { throw new ReferenceAssignmentExpectedException(String.Format("It is not possible to create a single edge pointing to {0} vertices", vertexIDs.Count)); } EdgePredefinition outValue = null; if (toBeRemovedEdges.TryGetValue(attributeRemoveList.AttributeName, out outValue)) { foreach (var aVertex in vertexIDs) { outValue.AddEdge(new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID)); } } else { EdgePredefinition edge = new EdgePredefinition(attributeRemoveList.AttributeName); foreach (var aVertex in vertexIDs) { edge.AddEdge(new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID)); } toBeRemovedEdges.Add(attributeRemoveList.AttributeName, edge); } #endregion } else { throw new NotImplementedQLException(""); } } foreach (var item in toBeRemovedEdges) { result.RemoveElementsFromCollection(item.Key, item.Value); } #endregion } } else { throw new NotImplementedException(); } }
private void ProcessAttributeAssignOrUpdateSetRef(IVertexType vertexType, GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, TransactionToken myTransactionToken, AttributeAssignOrUpdateSetRef attributeAssignOrUpdateSetRef, ref RequestUpdate result) { #region SetRefNode var edgeDefinition = new EdgePredefinition(attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString); if (attributeAssignOrUpdateSetRef.SetRefDefinition.IsREFUUID) { #region direct vertex ids foreach (var aTupleElement in attributeAssignOrUpdateSetRef.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is ValueDefinition) { #region ValueDefinition foreach (var aProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aProperty.Key, aProperty.Value); } edgeDefinition.AddVertexID( attributeAssignOrUpdateSetRef.SetRefDefinition.ReferencedVertexType, Convert.ToInt64(((ValueDefinition)aTupleElement.Value).Value)); #endregion } else { throw new NotImplementedQLException("TODO"); } } result.UpdateEdge(edgeDefinition); #endregion } else { #region expression if (!vertexType.HasAttribute(attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString); foreach (var aTupleElement in attributeAssignOrUpdateSetRef.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; var vertexIDs = ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType).ToList(); if (vertexIDs.Count > 1) { throw new ReferenceAssignmentExpectedException(String.Format("It is not possible to create a single edge pointing to {0} vertices", vertexIDs.Count)); } var inneredge = new EdgePredefinition(); foreach (var aStructuredProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddVertexID(vertexIDs.FirstOrDefault().VertexTypeID, vertexIDs.FirstOrDefault().VertexID); #endregion } else { throw new NotImplementedQLException(""); } } #endregion result.UpdateEdge(edgeDefinition); return; } #endregion }
private void ProcessAttributeAssignOrUpdateList(IVertexType vertexType, GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, TransactionToken myTransactionToken, AttributeAssignOrUpdateList attributeAssignOrUpdateList, ref RequestUpdate result) { Type myRequestedType; switch (attributeAssignOrUpdateList.CollectionDefinition.CollectionType) { case CollectionType.Set: #region set if (((TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition).All(_ => _.Value is ValueDefinition)) { #region base-set //has to be list of comparables SetCollectionWrapper setWrapper = new SetCollectionWrapper(); if (vertexType.HasProperty(attributeAssignOrUpdateList.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType.GetAttributeDefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition) { setWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, setWrapper); #endregion } else { #region edge-set EdgePredefinition edgeDefinition = new EdgePredefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString); if (!vertexType.HasAttribute(attributeAssignOrUpdateList.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, attributeAssignOrUpdateList.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString); foreach (var aTupleElement in (TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; foreach (var aVertex in ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType)) { var inneredge = new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID); foreach (var aStructuredProperty in aTupleElement.Parameters) { inneredge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddEdge(inneredge); } #endregion } else { throw new NotImplementedQLException("TODO"); } } if (attributeAssignOrUpdateList.Assign) { result.UpdateEdge(edgeDefinition); } else { result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, edgeDefinition); } #endregion } #endregion return; case CollectionType.List: #region list //has to be list of comparables ListCollectionWrapper listWrapper = new ListCollectionWrapper(); if (vertexType.HasProperty(attributeAssignOrUpdateList.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType.GetAttributeDefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition) { listWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, listWrapper); #endregion return; case CollectionType.SetOfUUIDs: #region SetOfUUIDs EdgePredefinition anotheredgeDefinition = new EdgePredefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString); foreach (var aTupleElement in ((VertexTypeVertexIDCollectionNode)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition).Elements) { foreach (var aVertexIDTuple in aTupleElement.VertexIDs) { var innerEdge = new EdgePredefinition(); foreach (var aStructuredProperty in aVertexIDTuple.Item2) { innerEdge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } innerEdge.AddVertexID(aTupleElement.ReferencedVertexTypeName, aVertexIDTuple.Item1); anotheredgeDefinition.AddEdge(innerEdge); } } result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, anotheredgeDefinition); #endregion return; default: return; } }
private void ProcessAttributeAssignOrUpdateList(IVertexType vertexType, GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, Int64 myTransactionToken, AttributeAssignOrUpdateList attributeAssignOrUpdateList, ref RequestUpdate result) { Type myRequestedType; switch (attributeAssignOrUpdateList.CollectionDefinition.CollectionType) { case CollectionType.Set: #region set if (((TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition).All(_ => _.Value is ValueDefinition)) { #region base-set //has to be list of comparables SetCollectionWrapper setWrapper = new SetCollectionWrapper(); if (vertexType.HasProperty(attributeAssignOrUpdateList.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType.GetAttributeDefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition) { setWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, setWrapper); #endregion } else { #region edge-set EdgePredefinition edgeDefinition = new EdgePredefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString); if (!vertexType.HasAttribute(attributeAssignOrUpdateList.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, attributeAssignOrUpdateList.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString); foreach (var aTupleElement in (TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; foreach (var aVertex in ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType)) { var inneredge = new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID); foreach (var aStructuredProperty in aTupleElement.Parameters) { inneredge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddEdge(inneredge); } #endregion } else { throw new NotImplementedQLException("TODO"); } } if (attributeAssignOrUpdateList.Assign) { result.UpdateEdge(edgeDefinition); } else { result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, edgeDefinition); } #endregion } #endregion return; case CollectionType.List: #region list //has to be list of comparables ListCollectionWrapper listWrapper = new ListCollectionWrapper(); if (vertexType.HasProperty(attributeAssignOrUpdateList.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType.GetAttributeDefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition) { listWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, listWrapper); #endregion return; case CollectionType.SetOfUUIDs: #region SetOfUUIDs EdgePredefinition anotheredgeDefinition = new EdgePredefinition(attributeAssignOrUpdateList.AttributeIDChain.ContentString); foreach (var aTupleElement in ((VertexTypeVertexIDCollectionNode)attributeAssignOrUpdateList.CollectionDefinition.TupleDefinition).Elements) { foreach (var aVertexIDTuple in aTupleElement.VertexIDs) { var innerEdge = new EdgePredefinition(); foreach (var aStructuredProperty in aVertexIDTuple.Item2) { innerEdge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } innerEdge.AddVertexID(aTupleElement.ReferencedVertexTypeName, aVertexIDTuple.Item1); anotheredgeDefinition.AddEdge(innerEdge); } } result.AddElementsToCollection(attributeAssignOrUpdateList.AttributeIDChain.ContentString, anotheredgeDefinition); #endregion return; default: return; } }
private void ProcessAttributeAssignOrUpdateSetRef(IVertexType vertexType, GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, Int64 myTransactionToken, AttributeAssignOrUpdateSetRef attributeAssignOrUpdateSetRef, ref RequestUpdate result) { #region SetRefNode var edgeDefinition = new EdgePredefinition(attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString); if (attributeAssignOrUpdateSetRef.SetRefDefinition.IsREFUUID) { #region direct vertex ids foreach (var aTupleElement in attributeAssignOrUpdateSetRef.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is ValueDefinition) { #region ValueDefinition foreach (var aProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aProperty.Key, aProperty.Value); } edgeDefinition.AddVertexID( attributeAssignOrUpdateSetRef.SetRefDefinition.ReferencedVertexType, Convert.ToInt64(((ValueDefinition)aTupleElement.Value).Value)); #endregion } else { throw new NotImplementedQLException("TODO"); } } result.UpdateEdge(edgeDefinition); #endregion } else { #region expression if (!vertexType.HasAttribute(attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(attributeAssignOrUpdateSetRef.AttributeIDChain.ContentString); foreach (var aTupleElement in attributeAssignOrUpdateSetRef.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; var vertexIDs = ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType).ToList(); if (vertexIDs.Count > 1) { throw new ReferenceAssignmentExpectedException(String.Format("It is not possible to create a single edge pointing to {0} vertices", vertexIDs.Count)); } var inneredge = new EdgePredefinition(); foreach (var aStructuredProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddVertexID(vertexIDs.FirstOrDefault().VertexTypeID, vertexIDs.FirstOrDefault().VertexID); #endregion } else { throw new NotImplementedQLException(""); } } #endregion result.UpdateEdge(edgeDefinition); return; } #endregion }
private void ProcessAttributeRemoveList(IVertexType vertexType, GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, Int64 myTransactionToken, AttributeRemoveList attributeRemoveList, ref RequestUpdate result) { if (attributeRemoveList.TupleDefinition is VertexTypeVertexIDCollectionNode) { #region setofUUIDs var edgedef = new EdgePredefinition(attributeRemoveList.AttributeName); List <EdgePredefinition> toBeRemovedEdges = new List <EdgePredefinition>(); foreach (var aTupleElement in ((VertexTypeVertexIDCollectionNode)attributeRemoveList.TupleDefinition).Elements) { foreach (var aVertexIDTuple in aTupleElement.VertexIDs) { var innerEdge = new EdgePredefinition(); innerEdge.AddVertexID(aTupleElement.ReferencedVertexTypeName, aVertexIDTuple.Item1); edgedef.AddEdge(innerEdge); } } result.RemoveElementsFromCollection(attributeRemoveList.AttributeName, edgedef); #endregion } else if (attributeRemoveList.TupleDefinition is TupleDefinition) { if (((TupleDefinition)attributeRemoveList.TupleDefinition).All(_ => _.Value is ValueDefinition)) { #region base-set //has to be list of comparables ListCollectionWrapper listWrapper = new ListCollectionWrapper(); Type myRequestedType; if (vertexType.HasProperty(attributeRemoveList.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType.GetAttributeDefinition(attributeRemoveList.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)attributeRemoveList.TupleDefinition) { listWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.RemoveElementsFromCollection(attributeRemoveList.AttributeIDChain.ContentString, listWrapper); #endregion } else { #region binaryExpression Dictionary <String, EdgePredefinition> toBeRemovedEdges = new Dictionary <String, EdgePredefinition>(); foreach (var aTupleElement in ((TupleDefinition)attributeRemoveList.TupleDefinition)) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition if (!vertexType.HasAttribute(attributeRemoveList.AttributeName)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, attributeRemoveList.AttributeName)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(attributeRemoveList.AttributeName); var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; var vertexIDs = ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType).ToList(); if (vertexIDs.Count > 1) { throw new ReferenceAssignmentExpectedException(String.Format("It is not possible to create a single edge pointing to {0} vertices", vertexIDs.Count)); } EdgePredefinition outValue = null; if (toBeRemovedEdges.TryGetValue(attributeRemoveList.AttributeName, out outValue)) { foreach (var aVertex in vertexIDs) { outValue.AddEdge(new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID)); } } else { EdgePredefinition edge = new EdgePredefinition(attributeRemoveList.AttributeName); foreach (var aVertex in vertexIDs) { edge.AddEdge(new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID)); } toBeRemovedEdges.Add(attributeRemoveList.AttributeName, edge); } #endregion } else { throw new NotImplementedQLException(""); } } foreach (var item in toBeRemovedEdges) { result.RemoveElementsFromCollection(item.Key, item.Value); } #endregion } } else { throw new NotImplementedException(); } }
private static void ProcessStructuredProperty(GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, Int64 myTransactionToken, IVertexType vertexType, AAttributeAssignOrUpdate aAttributeDefinition, ref RequestInsertVertex result) { #region AttributeAssignOrUpdateValue if (aAttributeDefinition is AttributeAssignOrUpdateValue) { var value = aAttributeDefinition as AttributeAssignOrUpdateValue; result.AddUnknownProperty(value.AttributeIDChain.ContentString, value.Value); return; } #endregion #region AttributeAssignOrUpdateList if (aAttributeDefinition is AttributeAssignOrUpdateList) { var value = aAttributeDefinition as AttributeAssignOrUpdateList; switch (value.CollectionDefinition.CollectionType) { case CollectionType.Set: #region set if (!vertexType.HasAttribute(aAttributeDefinition.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, aAttributeDefinition.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(aAttributeDefinition .AttributeIDChain .ContentString); EdgePredefinition edgeDefinition = new EdgePredefinition(value.AttributeIDChain.ContentString); foreach (var aTupleElement in (TupleDefinition)value.CollectionDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; foreach (var aVertex in ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType)) { var inneredge = new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID); foreach (var aStructuredProperty in aTupleElement.Parameters) { inneredge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddEdge(inneredge); } #endregion } else { throw new NotImplementedQLException("TODO"); } } result.AddEdge(edgeDefinition); #endregion) return; case CollectionType.List: #region list //has to be list of comparables ListCollectionWrapper listWrapper = new ListCollectionWrapper(); Type myRequestedType; if (vertexType.HasProperty(aAttributeDefinition.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType .GetAttributeDefinition(aAttributeDefinition.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)value.CollectionDefinition.TupleDefinition) { listWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.AddStructuredProperty(aAttributeDefinition.AttributeIDChain.ContentString, listWrapper); #endregion) return; case CollectionType.SetOfUUIDs: #region SetOfUUIDs EdgePredefinition anotheredgeDefinition = new EdgePredefinition(value.AttributeIDChain.ContentString); foreach (var aTupleElement in ((VertexTypeVertexIDCollectionNode)value.CollectionDefinition.TupleDefinition).Elements) { foreach (var aVertexIDTuple in aTupleElement.VertexIDs) { var innerEdge = new EdgePredefinition(); foreach (var aStructuredProperty in aVertexIDTuple.Item2) { innerEdge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } innerEdge.AddVertexID(aTupleElement.ReferencedVertexTypeName, aVertexIDTuple.Item1); anotheredgeDefinition.AddEdge(innerEdge); } } result.AddEdge(anotheredgeDefinition); #endregion return; default: return; } } #endregion #region SetRefNode if (aAttributeDefinition is AttributeAssignOrUpdateSetRef) { var value = aAttributeDefinition as AttributeAssignOrUpdateSetRef; var edgeDefinition = new EdgePredefinition(value.AttributeIDChain.ContentString); if (value.SetRefDefinition.IsREFUUID) { #region direct vertex ids foreach (var aTupleElement in value.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is ValueDefinition) { #region ValueDefinition foreach (var aProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aProperty.Key, aProperty.Value); } edgeDefinition.AddVertexID(value.SetRefDefinition.ReferencedVertexType, Convert.ToInt64(((ValueDefinition) aTupleElement.Value).Value)); #endregion } else { throw new NotImplementedQLException("TODO"); } } #endregion } else { #region expression if (!vertexType.HasAttribute(aAttributeDefinition.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, aAttributeDefinition.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(aAttributeDefinition.AttributeIDChain.ContentString); foreach (var aTupleElement in value.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; var vertexIDs = ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType).ToList(); if (vertexIDs.Count > 1) { throw new ReferenceAssignmentExpectedException(String.Format("It is not possible to create a single edge pointing to {0} vertices", vertexIDs.Count)); } var inneredge = new EdgePredefinition(); foreach (var aStructuredProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddVertexID(vertexIDs.FirstOrDefault().VertexTypeID, vertexIDs.FirstOrDefault().VertexID); #endregion } else { throw new NotImplementedQLException(""); } } #endregion } result.AddEdge(edgeDefinition); return; } #endregion }
private static void ProcessStructuredProperty(GQLPluginManager myPluginManager, IGraphDB myGraphDB, SecurityToken mySecurityToken, Int64 myTransactionToken, IVertexType vertexType, AAttributeAssignOrUpdate aAttributeDefinition, ref RequestInsertVertex result) { #region AttributeAssignOrUpdateValue if (aAttributeDefinition is AttributeAssignOrUpdateValue) { var value = aAttributeDefinition as AttributeAssignOrUpdateValue; result.AddUnknownProperty(value.AttributeIDChain.ContentString, value.Value); return; } #endregion #region AttributeAssignOrUpdateList if (aAttributeDefinition is AttributeAssignOrUpdateList) { var value = aAttributeDefinition as AttributeAssignOrUpdateList; switch (value.CollectionDefinition.CollectionType) { case CollectionType.Set: #region set if (!vertexType.HasAttribute(aAttributeDefinition.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, aAttributeDefinition.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(aAttributeDefinition .AttributeIDChain .ContentString); EdgePredefinition edgeDefinition = new EdgePredefinition(value.AttributeIDChain.ContentString); foreach (var aTupleElement in (TupleDefinition)value.CollectionDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; foreach (var aVertex in ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType)) { var inneredge = new EdgePredefinition().AddVertexID(aVertex.VertexTypeID, aVertex.VertexID); foreach (var aStructuredProperty in aTupleElement.Parameters) { inneredge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddEdge(inneredge); } #endregion } else { throw new NotImplementedQLException("TODO"); } } result.AddEdge(edgeDefinition); #endregion ) return; case CollectionType.List: #region list //has to be list of comparables ListCollectionWrapper listWrapper = new ListCollectionWrapper(); Type myRequestedType; if (vertexType.HasProperty(aAttributeDefinition.AttributeIDChain.ContentString)) { myRequestedType = ((IPropertyDefinition)vertexType .GetAttributeDefinition(aAttributeDefinition.AttributeIDChain.ContentString)).BaseType; } else { myRequestedType = typeof(String); } foreach (var aTupleElement in (TupleDefinition)value.CollectionDefinition.TupleDefinition) { listWrapper.Add(((ValueDefinition)aTupleElement.Value).Value.ConvertToIComparable(myRequestedType)); } result.AddStructuredProperty(aAttributeDefinition.AttributeIDChain.ContentString, listWrapper); #endregion ) return; case CollectionType.SetOfUUIDs: #region SetOfUUIDs EdgePredefinition anotheredgeDefinition = new EdgePredefinition(value.AttributeIDChain.ContentString); foreach (var aTupleElement in ((VertexTypeVertexIDCollectionNode)value.CollectionDefinition.TupleDefinition).Elements) { foreach (var aVertexIDTuple in aTupleElement.VertexIDs) { var innerEdge = new EdgePredefinition(); foreach (var aStructuredProperty in aVertexIDTuple.Item2) { innerEdge.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } innerEdge.AddVertexID(aTupleElement.ReferencedVertexTypeName, aVertexIDTuple.Item1); anotheredgeDefinition.AddEdge(innerEdge); } } result.AddEdge(anotheredgeDefinition); #endregion return; default: return; } } #endregion #region SetRefNode if (aAttributeDefinition is AttributeAssignOrUpdateSetRef) { var value = aAttributeDefinition as AttributeAssignOrUpdateSetRef; var edgeDefinition = new EdgePredefinition(value.AttributeIDChain.ContentString); if (value.SetRefDefinition.IsREFUUID) { #region direct vertex ids foreach (var aTupleElement in value.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is ValueDefinition) { #region ValueDefinition foreach (var aProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aProperty.Key, aProperty.Value); } edgeDefinition.AddVertexID(value.SetRefDefinition.ReferencedVertexType, Convert.ToInt64(((ValueDefinition)aTupleElement.Value).Value)); #endregion } else { throw new NotImplementedQLException("TODO"); } } #endregion } else { #region expression if (!vertexType.HasAttribute(aAttributeDefinition.AttributeIDChain.ContentString)) { throw new InvalidVertexAttributeException(String.Format("The vertex type {0} has no attribute named {1}.", vertexType.Name, aAttributeDefinition.AttributeIDChain.ContentString)); } IAttributeDefinition attribute = vertexType.GetAttributeDefinition(aAttributeDefinition.AttributeIDChain.ContentString); foreach (var aTupleElement in value.SetRefDefinition.TupleDefinition) { if (aTupleElement.Value is BinaryExpressionDefinition) { #region BinaryExpressionDefinition var targetVertexType = ((IOutgoingEdgeDefinition)attribute).TargetVertexType; var vertexIDs = ProcessBinaryExpression( (BinaryExpressionDefinition)aTupleElement.Value, myPluginManager, myGraphDB, mySecurityToken, myTransactionToken, targetVertexType).ToList(); if (vertexIDs.Count > 1) { throw new ReferenceAssignmentExpectedException(String.Format("It is not possible to create a single edge pointing to {0} vertices", vertexIDs.Count)); } var inneredge = new EdgePredefinition(); foreach (var aStructuredProperty in aTupleElement.Parameters) { edgeDefinition.AddUnknownProperty(aStructuredProperty.Key, aStructuredProperty.Value); } edgeDefinition.AddVertexID(vertexIDs.FirstOrDefault().VertexTypeID, vertexIDs.FirstOrDefault().VertexID); #endregion } else { throw new NotImplementedQLException(""); } } #endregion } result.AddEdge(edgeDefinition); return; } #endregion }