/// <summary> /// Serialize the <see cref="RequestForDeviation"/> /// </summary> /// <param name="requestForDeviation">The <see cref="RequestForDeviation"/> to serialize</param> /// <returns>The <see cref="JObject"/></returns> private JObject Serialize(RequestForDeviation requestForDeviation) { var jsonObject = new JObject(); jsonObject.Add("approvedBy", this.PropertySerializerMap["approvedBy"](requestForDeviation.ApprovedBy.OrderBy(x => x, this.guidComparer))); jsonObject.Add("author", this.PropertySerializerMap["author"](requestForDeviation.Author)); jsonObject.Add("category", this.PropertySerializerMap["category"](requestForDeviation.Category.OrderBy(x => x, this.guidComparer))); jsonObject.Add("classification", this.PropertySerializerMap["classification"](Enum.GetName(typeof(CDP4Common.ReportingData.AnnotationClassificationKind), requestForDeviation.Classification))); jsonObject.Add("classKind", this.PropertySerializerMap["classKind"](Enum.GetName(typeof(CDP4Common.CommonData.ClassKind), requestForDeviation.ClassKind))); jsonObject.Add("content", this.PropertySerializerMap["content"](requestForDeviation.Content)); jsonObject.Add("createdOn", this.PropertySerializerMap["createdOn"](requestForDeviation.CreatedOn)); jsonObject.Add("discussion", this.PropertySerializerMap["discussion"](requestForDeviation.Discussion.OrderBy(x => x, this.guidComparer))); jsonObject.Add("excludedDomain", this.PropertySerializerMap["excludedDomain"](requestForDeviation.ExcludedDomain.OrderBy(x => x, this.guidComparer))); jsonObject.Add("excludedPerson", this.PropertySerializerMap["excludedPerson"](requestForDeviation.ExcludedPerson.OrderBy(x => x, this.guidComparer))); jsonObject.Add("iid", this.PropertySerializerMap["iid"](requestForDeviation.Iid)); jsonObject.Add("languageCode", this.PropertySerializerMap["languageCode"](requestForDeviation.LanguageCode)); jsonObject.Add("modifiedOn", this.PropertySerializerMap["modifiedOn"](requestForDeviation.ModifiedOn)); jsonObject.Add("owner", this.PropertySerializerMap["owner"](requestForDeviation.Owner)); jsonObject.Add("primaryAnnotatedThing", this.PropertySerializerMap["primaryAnnotatedThing"](requestForDeviation.PrimaryAnnotatedThing)); jsonObject.Add("relatedThing", this.PropertySerializerMap["relatedThing"](requestForDeviation.RelatedThing.OrderBy(x => x, this.guidComparer))); jsonObject.Add("revisionNumber", this.PropertySerializerMap["revisionNumber"](requestForDeviation.RevisionNumber)); jsonObject.Add("shortName", this.PropertySerializerMap["shortName"](requestForDeviation.ShortName)); jsonObject.Add("sourceAnnotation", this.PropertySerializerMap["sourceAnnotation"](requestForDeviation.SourceAnnotation.OrderBy(x => x, this.guidComparer))); jsonObject.Add("status", this.PropertySerializerMap["status"](Enum.GetName(typeof(CDP4Common.ReportingData.AnnotationStatusKind), requestForDeviation.Status))); jsonObject.Add("thingPreference", this.PropertySerializerMap["thingPreference"](requestForDeviation.ThingPreference)); jsonObject.Add("title", this.PropertySerializerMap["title"](requestForDeviation.Title)); return(jsonObject); }
/// <summary> /// Persist the <see cref="RequestForDeviation"/> containment tree to the ORM layer. Update if it already exists. /// This is typically used during the import of existing data to the Database. /// </summary> /// <param name="transaction"> /// The current <see cref="NpgsqlTransaction"/> to the database. /// </param> /// <param name="partition"> /// The database partition (schema) where the requested resource will be stored. /// </param> /// <param name="requestForDeviation"> /// The <see cref="RequestForDeviation"/> instance to persist. /// </param> /// <returns> /// True if the persistence was successful. /// </returns> private bool UpsertContainment(NpgsqlTransaction transaction, string partition, RequestForDeviation requestForDeviation) { var results = new List <bool>(); foreach (var approvedBy in this.ResolveFromRequestCache(requestForDeviation.ApprovedBy)) { results.Add(this.ApprovedByService.UpsertConcept(transaction, partition, approvedBy, requestForDeviation)); } foreach (var discussion in this.ResolveFromRequestCache(requestForDeviation.Discussion)) { results.Add(this.DiscussionService.UpsertConcept(transaction, partition, discussion, requestForDeviation)); } foreach (var relatedThing in this.ResolveFromRequestCache(requestForDeviation.RelatedThing)) { results.Add(this.RelatedThingService.UpsertConcept(transaction, partition, relatedThing, requestForDeviation)); } return(results.All(x => x)); }
/// <summary> /// Persist the DTO composition to the ORM layer. /// </summary> /// <param name="transaction"> /// The transaction object. /// </param> /// <param name="partition"> /// The database partition (schema) where the requested resource will be stored. /// </param> /// <param name="requestForDeviation"> /// The requestForDeviation instance to persist. /// </param> /// <returns> /// True if the persistence was successful. /// </returns> private bool CreateContainment(NpgsqlTransaction transaction, string partition, RequestForDeviation requestForDeviation) { var results = new List <bool>(); foreach (var relatedThing in this.ResolveFromRequestCache(requestForDeviation.RelatedThing)) { results.Add(this.ModellingThingReferenceService.CreateConcept(transaction, partition, relatedThing, requestForDeviation)); } foreach (var discussion in this.ResolveFromRequestCache(requestForDeviation.Discussion)) { results.Add(this.EngineeringModelDataDiscussionItemService.CreateConcept(transaction, partition, discussion, requestForDeviation)); } foreach (var approvedBy in this.ResolveFromRequestCache(requestForDeviation.ApprovedBy)) { results.Add(this.ApprovalService.CreateConcept(transaction, partition, approvedBy, requestForDeviation)); } return(results.All(x => x)); }