/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "amountQuantity": AmountQuantity = new Fhir.R4.Models.Quantity(); AmountQuantity.DeserializeJson(ref reader, options); break; case "amountRange": AmountRange = new Fhir.R4.Models.Range(); AmountRange.DeserializeJson(ref reader, options); break; case "amountString": AmountString = reader.GetString(); break; case "_amountString": _AmountString = new Fhir.R4.Models.Element(); _AmountString.DeserializeJson(ref reader, options); break; case "amountType": AmountType = new Fhir.R4.Models.CodeableConcept(); AmountType.DeserializeJson(ref reader, options); break; case "interaction": Interaction = new Fhir.R4.Models.CodeableConcept(); Interaction.DeserializeJson(ref reader, options); break; case "organism": Organism = new Fhir.R4.Models.CodeableConcept(); Organism.DeserializeJson(ref reader, options); break; case "organismType": OrganismType = new Fhir.R4.Models.CodeableConcept(); OrganismType.DeserializeJson(ref reader, options); break; case "source": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Source = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objSource = new Fhir.R4.Models.Reference(); objSource.DeserializeJson(ref reader, options); Source.Add(objSource); if (!reader.Read()) { throw new JsonException(); } } if (Source.Count == 0) { Source = null; } break; case "target": Target = new Fhir.R4.Models.Identifier(); Target.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "additiveCodeableConcept": AdditiveCodeableConcept = new Fhir.R4.Models.CodeableConcept(); AdditiveCodeableConcept.DeserializeJson(ref reader, options); break; case "additiveReference": AdditiveReference = new Fhir.R4.Models.Reference(); AdditiveReference.DeserializeJson(ref reader, options); break; case "capacity": Capacity = new Fhir.R4.Models.Quantity(); Capacity.DeserializeJson(ref reader, options); break; case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "specimenQuantity": SpecimenQuantity = new Fhir.R4.Models.Quantity(); SpecimenQuantity.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "amount": Amount = new Fhir.R4.Models.Money(); Amount.DeserializeJson(ref reader, options); break; case "date": Date = reader.GetString(); break; case "_date": _Date = new Fhir.R4.Models.Element(); _Date.DeserializeJson(ref reader, options); break; case "identifier": Identifier = new Fhir.R4.Models.Identifier(); Identifier.DeserializeJson(ref reader, options); break; case "payee": Payee = new Fhir.R4.Models.Reference(); Payee.DeserializeJson(ref reader, options); break; case "predecessor": Predecessor = new Fhir.R4.Models.Identifier(); Predecessor.DeserializeJson(ref reader, options); break; case "request": Request = new Fhir.R4.Models.Reference(); Request.DeserializeJson(ref reader, options); break; case "response": Response = new Fhir.R4.Models.Reference(); Response.DeserializeJson(ref reader, options); break; case "responsible": Responsible = new Fhir.R4.Models.Reference(); Responsible.DeserializeJson(ref reader, options); break; case "submitter": Submitter = new Fhir.R4.Models.Reference(); Submitter.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "alternateMaterial": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } AlternateMaterial = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objAlternateMaterial = new Fhir.R4.Models.CodeableConcept(); objAlternateMaterial.DeserializeJson(ref reader, options); AlternateMaterial.Add(objAlternateMaterial); if (!reader.Read()) { throw new JsonException(); } } if (AlternateMaterial.Count == 0) { AlternateMaterial = null; } break; case "device": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Device = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objDevice = new Fhir.R4.Models.Reference(); objDevice.DeserializeJson(ref reader, options); Device.Add(objDevice); if (!reader.Read()) { throw new JsonException(); } } if (Device.Count == 0) { Device = null; } break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "manufacturedItem": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } ManufacturedItem = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objManufacturedItem = new Fhir.R4.Models.Reference(); objManufacturedItem.DeserializeJson(ref reader, options); ManufacturedItem.Add(objManufacturedItem); if (!reader.Read()) { throw new JsonException(); } } if (ManufacturedItem.Count == 0) { ManufacturedItem = null; } break; case "manufacturer": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Manufacturer = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objManufacturer = new Fhir.R4.Models.Reference(); objManufacturer.DeserializeJson(ref reader, options); Manufacturer.Add(objManufacturer); if (!reader.Read()) { throw new JsonException(); } } if (Manufacturer.Count == 0) { Manufacturer = null; } break; case "material": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Material = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objMaterial = new Fhir.R4.Models.CodeableConcept(); objMaterial.DeserializeJson(ref reader, options); Material.Add(objMaterial); if (!reader.Read()) { throw new JsonException(); } } if (Material.Count == 0) { Material = null; } break; case "otherCharacteristics": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } OtherCharacteristics = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objOtherCharacteristics = new Fhir.R4.Models.CodeableConcept(); objOtherCharacteristics.DeserializeJson(ref reader, options); OtherCharacteristics.Add(objOtherCharacteristics); if (!reader.Read()) { throw new JsonException(); } } if (OtherCharacteristics.Count == 0) { OtherCharacteristics = null; } break; case "packageItem": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } PackageItem = new List <MedicinalProductPackagedPackageItem>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.MedicinalProductPackagedPackageItem objPackageItem = new Fhir.R4.Models.MedicinalProductPackagedPackageItem(); objPackageItem.DeserializeJson(ref reader, options); PackageItem.Add(objPackageItem); if (!reader.Read()) { throw new JsonException(); } } if (PackageItem.Count == 0) { PackageItem = null; } break; case "physicalCharacteristics": PhysicalCharacteristics = new Fhir.R4.Models.ProdCharacteristic(); PhysicalCharacteristics.DeserializeJson(ref reader, options); break; case "quantity": Quantity = new Fhir.R4.Models.Quantity(); Quantity.DeserializeJson(ref reader, options); break; case "shelfLifeStorage": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } ShelfLifeStorage = new List <ProductShelfLife>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.ProductShelfLife objShelfLifeStorage = new Fhir.R4.Models.ProductShelfLife(); objShelfLifeStorage.DeserializeJson(ref reader, options); ShelfLifeStorage.Add(objShelfLifeStorage); if (!reader.Read()) { throw new JsonException(); } } if (ShelfLifeStorage.Count == 0) { ShelfLifeStorage = null; } break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "basedOn": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } BasedOn = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objBasedOn = new Fhir.R4.Models.Reference(); objBasedOn.DeserializeJson(ref reader, options); BasedOn.Add(objBasedOn); if (!reader.Read()) { throw new JsonException(); } } if (BasedOn.Count == 0) { BasedOn = null; } break; case "destination": Destination = new Fhir.R4.Models.Reference(); Destination.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "occurrenceDateTime": OccurrenceDateTime = reader.GetString(); break; case "_occurrenceDateTime": _OccurrenceDateTime = new Fhir.R4.Models.Element(); _OccurrenceDateTime.DeserializeJson(ref reader, options); break; case "occurrencePeriod": OccurrencePeriod = new Fhir.R4.Models.Period(); OccurrencePeriod.DeserializeJson(ref reader, options); break; case "occurrenceTiming": OccurrenceTiming = new Fhir.R4.Models.Timing(); OccurrenceTiming.DeserializeJson(ref reader, options); break; case "partOf": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } PartOf = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objPartOf = new Fhir.R4.Models.Reference(); objPartOf.DeserializeJson(ref reader, options); PartOf.Add(objPartOf); if (!reader.Read()) { throw new JsonException(); } } if (PartOf.Count == 0) { PartOf = null; } break; case "patient": Patient = new Fhir.R4.Models.Reference(); Patient.DeserializeJson(ref reader, options); break; case "receiver": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Receiver = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objReceiver = new Fhir.R4.Models.Reference(); objReceiver.DeserializeJson(ref reader, options); Receiver.Add(objReceiver); if (!reader.Read()) { throw new JsonException(); } } if (Receiver.Count == 0) { Receiver = null; } break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "suppliedItem": SuppliedItem = new Fhir.R4.Models.SupplyDeliverySuppliedItem(); SuppliedItem.DeserializeJson(ref reader, options); break; case "supplier": Supplier = new Fhir.R4.Models.Reference(); Supplier.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "component": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Component = new List <MeasureReportGroupStratifierStratumComponent>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.MeasureReportGroupStratifierStratumComponent objComponent = new Fhir.R4.Models.MeasureReportGroupStratifierStratumComponent(); objComponent.DeserializeJson(ref reader, options); Component.Add(objComponent); if (!reader.Read()) { throw new JsonException(); } } if (Component.Count == 0) { Component = null; } break; case "measureScore": MeasureScore = new Fhir.R4.Models.Quantity(); MeasureScore.DeserializeJson(ref reader, options); break; case "population": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Population = new List <MeasureReportGroupStratifierStratumPopulation>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.MeasureReportGroupStratifierStratumPopulation objPopulation = new Fhir.R4.Models.MeasureReportGroupStratifierStratumPopulation(); objPopulation.DeserializeJson(ref reader, options); Population.Add(objPopulation); if (!reader.Read()) { throw new JsonException(); } } if (Population.Count == 0) { Population = null; } break; case "value": Value = new Fhir.R4.Models.CodeableConcept(); Value.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "authority": Authority = new Fhir.R4.Models.Reference(); Authority.DeserializeJson(ref reader, options); break; case "date": Date = reader.GetString(); break; case "_date": _Date = new Fhir.R4.Models.Element(); _Date.DeserializeJson(ref reader, options); break; case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "doseNumberPositiveInt": DoseNumberPositiveInt = reader.GetUInt32(); break; case "doseNumberString": DoseNumberString = reader.GetString(); break; case "_doseNumberString": _DoseNumberString = new Fhir.R4.Models.Element(); _DoseNumberString.DeserializeJson(ref reader, options); break; case "doseStatus": DoseStatus = new Fhir.R4.Models.CodeableConcept(); DoseStatus.DeserializeJson(ref reader, options); break; case "doseStatusReason": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } DoseStatusReason = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objDoseStatusReason = new Fhir.R4.Models.CodeableConcept(); objDoseStatusReason.DeserializeJson(ref reader, options); DoseStatusReason.Add(objDoseStatusReason); if (!reader.Read()) { throw new JsonException(); } } if (DoseStatusReason.Count == 0) { DoseStatusReason = null; } break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "immunizationEvent": ImmunizationEvent = new Fhir.R4.Models.Reference(); ImmunizationEvent.DeserializeJson(ref reader, options); break; case "patient": Patient = new Fhir.R4.Models.Reference(); Patient.DeserializeJson(ref reader, options); break; case "series": Series = reader.GetString(); break; case "_series": _Series = new Fhir.R4.Models.Element(); _Series.DeserializeJson(ref reader, options); break; case "seriesDosesPositiveInt": SeriesDosesPositiveInt = reader.GetUInt32(); break; case "seriesDosesString": SeriesDosesString = reader.GetString(); break; case "_seriesDosesString": _SeriesDosesString = new Fhir.R4.Models.Element(); _SeriesDosesString.DeserializeJson(ref reader, options); break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "targetDisease": TargetDisease = new Fhir.R4.Models.CodeableConcept(); TargetDisease.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "author": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Author = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objAuthor = new Fhir.R4.Models.Reference(); objAuthor.DeserializeJson(ref reader, options); Author.Add(objAuthor); if (!reader.Read()) { throw new JsonException(); } } if (Author.Count == 0) { Author = null; } break; case "content": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Content = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objContent = new Fhir.R4.Models.Reference(); objContent.DeserializeJson(ref reader, options); Content.Add(objContent); if (!reader.Read()) { throw new JsonException(); } } if (Content.Count == 0) { Content = null; } break; case "created": Created = reader.GetString(); break; case "_created": _Created = new Fhir.R4.Models.Element(); _Created.DeserializeJson(ref reader, options); break; case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "masterIdentifier": MasterIdentifier = new Fhir.R4.Models.Identifier(); MasterIdentifier.DeserializeJson(ref reader, options); break; case "recipient": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Recipient = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objRecipient = new Fhir.R4.Models.Reference(); objRecipient.DeserializeJson(ref reader, options); Recipient.Add(objRecipient); if (!reader.Read()) { throw new JsonException(); } } if (Recipient.Count == 0) { Recipient = null; } break; case "related": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Related = new List <DocumentManifestRelated>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.DocumentManifestRelated objRelated = new Fhir.R4.Models.DocumentManifestRelated(); objRelated.DeserializeJson(ref reader, options); Related.Add(objRelated); if (!reader.Read()) { throw new JsonException(); } } if (Related.Count == 0) { Related = null; } break; case "source": Source = reader.GetString(); break; case "_source": _Source = new Fhir.R4.Models.Element(); _Source.DeserializeJson(ref reader, options); break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "subject": Subject = new Fhir.R4.Models.Reference(); Subject.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "administrableDoseForm": AdministrableDoseForm = new Fhir.R4.Models.CodeableConcept(); AdministrableDoseForm.DeserializeJson(ref reader, options); break; case "characteristics": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Characteristics = new List <MedicinalProductPharmaceuticalCharacteristics>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.MedicinalProductPharmaceuticalCharacteristics objCharacteristics = new Fhir.R4.Models.MedicinalProductPharmaceuticalCharacteristics(); objCharacteristics.DeserializeJson(ref reader, options); Characteristics.Add(objCharacteristics); if (!reader.Read()) { throw new JsonException(); } } if (Characteristics.Count == 0) { Characteristics = null; } break; case "device": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Device = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objDevice = new Fhir.R4.Models.Reference(); objDevice.DeserializeJson(ref reader, options); Device.Add(objDevice); if (!reader.Read()) { throw new JsonException(); } } if (Device.Count == 0) { Device = null; } break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "ingredient": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Ingredient = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objIngredient = new Fhir.R4.Models.Reference(); objIngredient.DeserializeJson(ref reader, options); Ingredient.Add(objIngredient); if (!reader.Read()) { throw new JsonException(); } } if (Ingredient.Count == 0) { Ingredient = null; } break; case "routeOfAdministration": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } RouteOfAdministration = new List <MedicinalProductPharmaceuticalRouteOfAdministration>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.MedicinalProductPharmaceuticalRouteOfAdministration objRouteOfAdministration = new Fhir.R4.Models.MedicinalProductPharmaceuticalRouteOfAdministration(); objRouteOfAdministration.DeserializeJson(ref reader, options); RouteOfAdministration.Add(objRouteOfAdministration); if (!reader.Read()) { throw new JsonException(); } } if (RouteOfAdministration.Count == 0) { RouteOfAdministration = null; } break; case "unitOfPresentation": UnitOfPresentation = new Fhir.R4.Models.CodeableConcept(); UnitOfPresentation.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "ingredient": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Ingredient = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objIngredient = new Fhir.R4.Models.Reference(); objIngredient.DeserializeJson(ref reader, options); Ingredient.Add(objIngredient); if (!reader.Read()) { throw new JsonException(); } } if (Ingredient.Count == 0) { Ingredient = null; } break; case "manufacturedDoseForm": ManufacturedDoseForm = new Fhir.R4.Models.CodeableConcept(); ManufacturedDoseForm.DeserializeJson(ref reader, options); break; case "manufacturer": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Manufacturer = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objManufacturer = new Fhir.R4.Models.Reference(); objManufacturer.DeserializeJson(ref reader, options); Manufacturer.Add(objManufacturer); if (!reader.Read()) { throw new JsonException(); } } if (Manufacturer.Count == 0) { Manufacturer = null; } break; case "otherCharacteristics": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } OtherCharacteristics = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objOtherCharacteristics = new Fhir.R4.Models.CodeableConcept(); objOtherCharacteristics.DeserializeJson(ref reader, options); OtherCharacteristics.Add(objOtherCharacteristics); if (!reader.Read()) { throw new JsonException(); } } if (OtherCharacteristics.Count == 0) { OtherCharacteristics = null; } break; case "physicalCharacteristics": PhysicalCharacteristics = new Fhir.R4.Models.ProdCharacteristic(); PhysicalCharacteristics.DeserializeJson(ref reader, options); break; case "quantity": Quantity = new Fhir.R4.Models.Quantity(); Quantity.DeserializeJson(ref reader, options); break; case "unitOfPresentation": UnitOfPresentation = new Fhir.R4.Models.CodeableConcept(); UnitOfPresentation.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "container": Container = new Fhir.R4.Models.SpecimenDefinitionTypeTestedContainer(); Container.DeserializeJson(ref reader, options); break; case "handling": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Handling = new List <SpecimenDefinitionTypeTestedHandling>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.SpecimenDefinitionTypeTestedHandling objHandling = new Fhir.R4.Models.SpecimenDefinitionTypeTestedHandling(); objHandling.DeserializeJson(ref reader, options); Handling.Add(objHandling); if (!reader.Read()) { throw new JsonException(); } } if (Handling.Count == 0) { Handling = null; } break; case "isDerived": IsDerived = reader.GetBoolean(); break; case "preference": Preference = reader.GetString(); break; case "_preference": _Preference = new Fhir.R4.Models.Element(); _Preference.DeserializeJson(ref reader, options); break; case "rejectionCriterion": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } RejectionCriterion = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objRejectionCriterion = new Fhir.R4.Models.CodeableConcept(); objRejectionCriterion.DeserializeJson(ref reader, options); RejectionCriterion.Add(objRejectionCriterion); if (!reader.Read()) { throw new JsonException(); } } if (RejectionCriterion.Count == 0) { RejectionCriterion = null; } break; case "requirement": Requirement = reader.GetString(); break; case "_requirement": _Requirement = new Fhir.R4.Models.Element(); _Requirement.DeserializeJson(ref reader, options); break; case "retentionTime": RetentionTime = new Fhir.R4.Models.Duration(); RetentionTime.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "additive": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Additive = new List <SpecimenDefinitionTypeTestedContainerAdditive>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.SpecimenDefinitionTypeTestedContainerAdditive objAdditive = new Fhir.R4.Models.SpecimenDefinitionTypeTestedContainerAdditive(); objAdditive.DeserializeJson(ref reader, options); Additive.Add(objAdditive); if (!reader.Read()) { throw new JsonException(); } } if (Additive.Count == 0) { Additive = null; } break; case "cap": Cap = new Fhir.R4.Models.CodeableConcept(); Cap.DeserializeJson(ref reader, options); break; case "capacity": Capacity = new Fhir.R4.Models.Quantity(); Capacity.DeserializeJson(ref reader, options); break; case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "material": Material = new Fhir.R4.Models.CodeableConcept(); Material.DeserializeJson(ref reader, options); break; case "minimumVolumeQuantity": MinimumVolumeQuantity = new Fhir.R4.Models.Quantity(); MinimumVolumeQuantity.DeserializeJson(ref reader, options); break; case "minimumVolumeString": MinimumVolumeString = reader.GetString(); break; case "_minimumVolumeString": _MinimumVolumeString = new Fhir.R4.Models.Element(); _MinimumVolumeString.DeserializeJson(ref reader, options); break; case "preparation": Preparation = reader.GetString(); break; case "_preparation": _Preparation = new Fhir.R4.Models.Element(); _Preparation.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "fivePrime": FivePrime = new Fhir.R4.Models.CodeableConcept(); FivePrime.DeserializeJson(ref reader, options); break; case "length": Length = reader.GetInt32(); break; case "linkage": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Linkage = new List <SubstanceNucleicAcidSubunitLinkage>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.SubstanceNucleicAcidSubunitLinkage objLinkage = new Fhir.R4.Models.SubstanceNucleicAcidSubunitLinkage(); objLinkage.DeserializeJson(ref reader, options); Linkage.Add(objLinkage); if (!reader.Read()) { throw new JsonException(); } } if (Linkage.Count == 0) { Linkage = null; } break; case "sequence": Sequence = reader.GetString(); break; case "_sequence": _Sequence = new Fhir.R4.Models.Element(); _Sequence.DeserializeJson(ref reader, options); break; case "sequenceAttachment": SequenceAttachment = new Fhir.R4.Models.Attachment(); SequenceAttachment.DeserializeJson(ref reader, options); break; case "subunit": Subunit = reader.GetInt32(); break; case "sugar": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Sugar = new List <SubstanceNucleicAcidSubunitSugar>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.SubstanceNucleicAcidSubunitSugar objSugar = new Fhir.R4.Models.SubstanceNucleicAcidSubunitSugar(); objSugar.DeserializeJson(ref reader, options); Sugar.Add(objSugar); if (!reader.Read()) { throw new JsonException(); } } if (Sugar.Count == 0) { Sugar = null; } break; case "threePrime": ThreePrime = new Fhir.R4.Models.CodeableConcept(); ThreePrime.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "accessionIdentifier": AccessionIdentifier = new Fhir.R4.Models.Identifier(); AccessionIdentifier.DeserializeJson(ref reader, options); break; case "collection": Collection = new Fhir.R4.Models.SpecimenCollection(); Collection.DeserializeJson(ref reader, options); break; case "condition": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Condition = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objCondition = new Fhir.R4.Models.CodeableConcept(); objCondition.DeserializeJson(ref reader, options); Condition.Add(objCondition); if (!reader.Read()) { throw new JsonException(); } } if (Condition.Count == 0) { Condition = null; } break; case "container": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Container = new List <SpecimenContainer>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.SpecimenContainer objContainer = new Fhir.R4.Models.SpecimenContainer(); objContainer.DeserializeJson(ref reader, options); Container.Add(objContainer); if (!reader.Read()) { throw new JsonException(); } } if (Container.Count == 0) { Container = null; } break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "note": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Note = new List <Annotation>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Annotation objNote = new Fhir.R4.Models.Annotation(); objNote.DeserializeJson(ref reader, options); Note.Add(objNote); if (!reader.Read()) { throw new JsonException(); } } if (Note.Count == 0) { Note = null; } break; case "parent": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Parent = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objParent = new Fhir.R4.Models.Reference(); objParent.DeserializeJson(ref reader, options); Parent.Add(objParent); if (!reader.Read()) { throw new JsonException(); } } if (Parent.Count == 0) { Parent = null; } break; case "processing": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Processing = new List <SpecimenProcessing>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.SpecimenProcessing objProcessing = new Fhir.R4.Models.SpecimenProcessing(); objProcessing.DeserializeJson(ref reader, options); Processing.Add(objProcessing); if (!reader.Read()) { throw new JsonException(); } } if (Processing.Count == 0) { Processing = null; } break; case "receivedTime": ReceivedTime = reader.GetString(); break; case "_receivedTime": _ReceivedTime = new Fhir.R4.Models.Element(); _ReceivedTime.DeserializeJson(ref reader, options); break; case "request": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Request = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objRequest = new Fhir.R4.Models.Reference(); objRequest.DeserializeJson(ref reader, options); Request.Add(objRequest); if (!reader.Read()) { throw new JsonException(); } } if (Request.Count == 0) { Request = null; } break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "subject": Subject = new Fhir.R4.Models.Reference(); Subject.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "about": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } About = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objAbout = new Fhir.R4.Models.Reference(); objAbout.DeserializeJson(ref reader, options); About.Add(objAbout); if (!reader.Read()) { throw new JsonException(); } } if (About.Count == 0) { About = null; } break; case "basedOn": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } BasedOn = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objBasedOn = new Fhir.R4.Models.Reference(); objBasedOn.DeserializeJson(ref reader, options); BasedOn.Add(objBasedOn); if (!reader.Read()) { throw new JsonException(); } } if (BasedOn.Count == 0) { BasedOn = null; } break; case "category": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Category = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objCategory = new Fhir.R4.Models.CodeableConcept(); objCategory.DeserializeJson(ref reader, options); Category.Add(objCategory); if (!reader.Read()) { throw new JsonException(); } } if (Category.Count == 0) { Category = null; } break; case "encounter": Encounter = new Fhir.R4.Models.Reference(); Encounter.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "inResponseTo": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } InResponseTo = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objInResponseTo = new Fhir.R4.Models.Reference(); objInResponseTo.DeserializeJson(ref reader, options); InResponseTo.Add(objInResponseTo); if (!reader.Read()) { throw new JsonException(); } } if (InResponseTo.Count == 0) { InResponseTo = null; } break; case "instantiatesCanonical": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } InstantiatesCanonical = new List <string>(); while (reader.TokenType != JsonTokenType.EndArray) { InstantiatesCanonical.Add(reader.GetString()); if (!reader.Read()) { throw new JsonException(); } } if (InstantiatesCanonical.Count == 0) { InstantiatesCanonical = null; } break; case "_instantiatesCanonical": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } _InstantiatesCanonical = new List <Element>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Element obj_InstantiatesCanonical = new Fhir.R4.Models.Element(); obj_InstantiatesCanonical.DeserializeJson(ref reader, options); _InstantiatesCanonical.Add(obj_InstantiatesCanonical); if (!reader.Read()) { throw new JsonException(); } } if (_InstantiatesCanonical.Count == 0) { _InstantiatesCanonical = null; } break; case "instantiatesUri": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } InstantiatesUri = new List <string>(); while (reader.TokenType != JsonTokenType.EndArray) { InstantiatesUri.Add(reader.GetString()); if (!reader.Read()) { throw new JsonException(); } } if (InstantiatesUri.Count == 0) { InstantiatesUri = null; } break; case "_instantiatesUri": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } _InstantiatesUri = new List <Element>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Element obj_InstantiatesUri = new Fhir.R4.Models.Element(); obj_InstantiatesUri.DeserializeJson(ref reader, options); _InstantiatesUri.Add(obj_InstantiatesUri); if (!reader.Read()) { throw new JsonException(); } } if (_InstantiatesUri.Count == 0) { _InstantiatesUri = null; } break; case "medium": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Medium = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objMedium = new Fhir.R4.Models.CodeableConcept(); objMedium.DeserializeJson(ref reader, options); Medium.Add(objMedium); if (!reader.Read()) { throw new JsonException(); } } if (Medium.Count == 0) { Medium = null; } break; case "note": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Note = new List <Annotation>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Annotation objNote = new Fhir.R4.Models.Annotation(); objNote.DeserializeJson(ref reader, options); Note.Add(objNote); if (!reader.Read()) { throw new JsonException(); } } if (Note.Count == 0) { Note = null; } break; case "partOf": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } PartOf = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objPartOf = new Fhir.R4.Models.Reference(); objPartOf.DeserializeJson(ref reader, options); PartOf.Add(objPartOf); if (!reader.Read()) { throw new JsonException(); } } if (PartOf.Count == 0) { PartOf = null; } break; case "payload": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Payload = new List <CommunicationPayload>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CommunicationPayload objPayload = new Fhir.R4.Models.CommunicationPayload(); objPayload.DeserializeJson(ref reader, options); Payload.Add(objPayload); if (!reader.Read()) { throw new JsonException(); } } if (Payload.Count == 0) { Payload = null; } break; case "priority": Priority = reader.GetString(); break; case "_priority": _Priority = new Fhir.R4.Models.Element(); _Priority.DeserializeJson(ref reader, options); break; case "reasonCode": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } ReasonCode = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objReasonCode = new Fhir.R4.Models.CodeableConcept(); objReasonCode.DeserializeJson(ref reader, options); ReasonCode.Add(objReasonCode); if (!reader.Read()) { throw new JsonException(); } } if (ReasonCode.Count == 0) { ReasonCode = null; } break; case "reasonReference": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } ReasonReference = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objReasonReference = new Fhir.R4.Models.Reference(); objReasonReference.DeserializeJson(ref reader, options); ReasonReference.Add(objReasonReference); if (!reader.Read()) { throw new JsonException(); } } if (ReasonReference.Count == 0) { ReasonReference = null; } break; case "received": Received = reader.GetString(); break; case "_received": _Received = new Fhir.R4.Models.Element(); _Received.DeserializeJson(ref reader, options); break; case "recipient": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Recipient = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objRecipient = new Fhir.R4.Models.Reference(); objRecipient.DeserializeJson(ref reader, options); Recipient.Add(objRecipient); if (!reader.Read()) { throw new JsonException(); } } if (Recipient.Count == 0) { Recipient = null; } break; case "sender": Sender = new Fhir.R4.Models.Reference(); Sender.DeserializeJson(ref reader, options); break; case "sent": Sent = reader.GetString(); break; case "_sent": _Sent = new Fhir.R4.Models.Element(); _Sent.DeserializeJson(ref reader, options); break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "statusReason": StatusReason = new Fhir.R4.Models.CodeableConcept(); StatusReason.DeserializeJson(ref reader, options); break; case "subject": Subject = new Fhir.R4.Models.Reference(); Subject.DeserializeJson(ref reader, options); break; case "topic": Topic = new Fhir.R4.Models.CodeableConcept(); Topic.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "calibration": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Calibration = new List <DeviceMetricCalibration>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.DeviceMetricCalibration objCalibration = new Fhir.R4.Models.DeviceMetricCalibration(); objCalibration.DeserializeJson(ref reader, options); Calibration.Add(objCalibration); if (!reader.Read()) { throw new JsonException(); } } if (Calibration.Count == 0) { Calibration = null; } break; case "category": Category = reader.GetString(); break; case "_category": _Category = new Fhir.R4.Models.Element(); _Category.DeserializeJson(ref reader, options); break; case "color": Color = reader.GetString(); break; case "_color": _Color = new Fhir.R4.Models.Element(); _Color.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "measurementPeriod": MeasurementPeriod = new Fhir.R4.Models.Timing(); MeasurementPeriod.DeserializeJson(ref reader, options); break; case "operationalStatus": OperationalStatus = reader.GetString(); break; case "_operationalStatus": _OperationalStatus = new Fhir.R4.Models.Element(); _OperationalStatus.DeserializeJson(ref reader, options); break; case "parent": Parent = new Fhir.R4.Models.Reference(); Parent.DeserializeJson(ref reader, options); break; case "source": Source = new Fhir.R4.Models.Reference(); Source.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; case "unit": Unit = new Fhir.R4.Models.CodeableConcept(); Unit.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "detailQuantity": DetailQuantity = new Fhir.R4.Models.Quantity(); DetailQuantity.DeserializeJson(ref reader, options); break; case "detailRange": DetailRange = new Fhir.R4.Models.Range(); DetailRange.DeserializeJson(ref reader, options); break; case "detailCodeableConcept": DetailCodeableConcept = new Fhir.R4.Models.CodeableConcept(); DetailCodeableConcept.DeserializeJson(ref reader, options); break; case "detailString": DetailString = reader.GetString(); break; case "_detailString": _DetailString = new Fhir.R4.Models.Element(); _DetailString.DeserializeJson(ref reader, options); break; case "detailBoolean": DetailBoolean = reader.GetBoolean(); break; case "detailInteger": DetailInteger = reader.GetInt32(); break; case "detailRatio": DetailRatio = new Fhir.R4.Models.Ratio(); DetailRatio.DeserializeJson(ref reader, options); break; case "dueDate": DueDate = reader.GetString(); break; case "_dueDate": _DueDate = new Fhir.R4.Models.Element(); _DueDate.DeserializeJson(ref reader, options); break; case "dueDuration": DueDuration = new Fhir.R4.Models.Duration(); DueDuration.DeserializeJson(ref reader, options); break; case "measure": Measure = new Fhir.R4.Models.CodeableConcept(); Measure.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "authenticator": Authenticator = new Fhir.R4.Models.Reference(); Authenticator.DeserializeJson(ref reader, options); break; case "author": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Author = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objAuthor = new Fhir.R4.Models.Reference(); objAuthor.DeserializeJson(ref reader, options); Author.Add(objAuthor); if (!reader.Read()) { throw new JsonException(); } } if (Author.Count == 0) { Author = null; } break; case "category": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Category = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objCategory = new Fhir.R4.Models.CodeableConcept(); objCategory.DeserializeJson(ref reader, options); Category.Add(objCategory); if (!reader.Read()) { throw new JsonException(); } } if (Category.Count == 0) { Category = null; } break; case "content": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Content = new List <DocumentReferenceContent>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.DocumentReferenceContent objContent = new Fhir.R4.Models.DocumentReferenceContent(); objContent.DeserializeJson(ref reader, options); Content.Add(objContent); if (!reader.Read()) { throw new JsonException(); } } if (Content.Count == 0) { Content = null; } break; case "context": Context = new Fhir.R4.Models.DocumentReferenceContext(); Context.DeserializeJson(ref reader, options); break; case "custodian": Custodian = new Fhir.R4.Models.Reference(); Custodian.DeserializeJson(ref reader, options); break; case "date": Date = reader.GetString(); break; case "_date": _Date = new Fhir.R4.Models.Element(); _Date.DeserializeJson(ref reader, options); break; case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "docStatus": DocStatus = reader.GetString(); break; case "_docStatus": _DocStatus = new Fhir.R4.Models.Element(); _DocStatus.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "masterIdentifier": MasterIdentifier = new Fhir.R4.Models.Identifier(); MasterIdentifier.DeserializeJson(ref reader, options); break; case "relatesTo": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } RelatesTo = new List <DocumentReferenceRelatesTo>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.DocumentReferenceRelatesTo objRelatesTo = new Fhir.R4.Models.DocumentReferenceRelatesTo(); objRelatesTo.DeserializeJson(ref reader, options); RelatesTo.Add(objRelatesTo); if (!reader.Read()) { throw new JsonException(); } } if (RelatesTo.Count == 0) { RelatesTo = null; } break; case "securityLabel": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } SecurityLabel = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objSecurityLabel = new Fhir.R4.Models.CodeableConcept(); objSecurityLabel.DeserializeJson(ref reader, options); SecurityLabel.Add(objSecurityLabel); if (!reader.Read()) { throw new JsonException(); } } if (SecurityLabel.Count == 0) { SecurityLabel = null; } break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "subject": Subject = new Fhir.R4.Models.Reference(); Subject.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "code": Code = new Fhir.R4.Models.CodeableConcept(); Code.DeserializeJson(ref reader, options); break; case "contributedToDeath": ContributedToDeath = reader.GetBoolean(); break; case "note": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Note = new List <Annotation>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Annotation objNote = new Fhir.R4.Models.Annotation(); objNote.DeserializeJson(ref reader, options); Note.Add(objNote); if (!reader.Read()) { throw new JsonException(); } } if (Note.Count == 0) { Note = null; } break; case "onsetAge": OnsetAge = new Fhir.R4.Models.Age(); OnsetAge.DeserializeJson(ref reader, options); break; case "onsetRange": OnsetRange = new Fhir.R4.Models.Range(); OnsetRange.DeserializeJson(ref reader, options); break; case "onsetPeriod": OnsetPeriod = new Fhir.R4.Models.Period(); OnsetPeriod.DeserializeJson(ref reader, options); break; case "onsetString": OnsetString = reader.GetString(); break; case "_onsetString": _OnsetString = new Fhir.R4.Models.Element(); _OnsetString.DeserializeJson(ref reader, options); break; case "outcome": Outcome = new Fhir.R4.Models.CodeableConcept(); Outcome.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "attester": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Attester = new List <CompositionAttester>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CompositionAttester objAttester = new Fhir.R4.Models.CompositionAttester(); objAttester.DeserializeJson(ref reader, options); Attester.Add(objAttester); if (!reader.Read()) { throw new JsonException(); } } if (Attester.Count == 0) { Attester = null; } break; case "author": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Author = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objAuthor = new Fhir.R4.Models.Reference(); objAuthor.DeserializeJson(ref reader, options); Author.Add(objAuthor); if (!reader.Read()) { throw new JsonException(); } } if (Author.Count == 0) { Author = null; } break; case "category": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Category = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objCategory = new Fhir.R4.Models.CodeableConcept(); objCategory.DeserializeJson(ref reader, options); Category.Add(objCategory); if (!reader.Read()) { throw new JsonException(); } } if (Category.Count == 0) { Category = null; } break; case "confidentiality": Confidentiality = reader.GetString(); break; case "_confidentiality": _Confidentiality = new Fhir.R4.Models.Element(); _Confidentiality.DeserializeJson(ref reader, options); break; case "custodian": Custodian = new Fhir.R4.Models.Reference(); Custodian.DeserializeJson(ref reader, options); break; case "date": Date = reader.GetString(); break; case "_date": _Date = new Fhir.R4.Models.Element(); _Date.DeserializeJson(ref reader, options); break; case "encounter": Encounter = new Fhir.R4.Models.Reference(); Encounter.DeserializeJson(ref reader, options); break; case "event": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Event = new List <CompositionEvent>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CompositionEvent objEvent = new Fhir.R4.Models.CompositionEvent(); objEvent.DeserializeJson(ref reader, options); Event.Add(objEvent); if (!reader.Read()) { throw new JsonException(); } } if (Event.Count == 0) { Event = null; } break; case "identifier": Identifier = new Fhir.R4.Models.Identifier(); Identifier.DeserializeJson(ref reader, options); break; case "relatesTo": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } RelatesTo = new List <CompositionRelatesTo>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CompositionRelatesTo objRelatesTo = new Fhir.R4.Models.CompositionRelatesTo(); objRelatesTo.DeserializeJson(ref reader, options); RelatesTo.Add(objRelatesTo); if (!reader.Read()) { throw new JsonException(); } } if (RelatesTo.Count == 0) { RelatesTo = null; } break; case "section": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Section = new List <CompositionSection>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CompositionSection objSection = new Fhir.R4.Models.CompositionSection(); objSection.DeserializeJson(ref reader, options); Section.Add(objSection); if (!reader.Read()) { throw new JsonException(); } } if (Section.Count == 0) { Section = null; } break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "subject": Subject = new Fhir.R4.Models.Reference(); Subject.DeserializeJson(ref reader, options); break; case "title": Title = reader.GetString(); break; case "_title": _Title = new Fhir.R4.Models.Element(); _Title.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "exposureRoute": ExposureRoute = new Fhir.R4.Models.CodeableConcept(); ExposureRoute.DeserializeJson(ref reader, options); break; case "manifestation": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Manifestation = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objManifestation = new Fhir.R4.Models.CodeableConcept(); objManifestation.DeserializeJson(ref reader, options); Manifestation.Add(objManifestation); if (!reader.Read()) { throw new JsonException(); } } if (Manifestation.Count == 0) { Manifestation = null; } break; case "note": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Note = new List <Annotation>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Annotation objNote = new Fhir.R4.Models.Annotation(); objNote.DeserializeJson(ref reader, options); Note.Add(objNote); if (!reader.Read()) { throw new JsonException(); } } if (Note.Count == 0) { Note = null; } break; case "onset": Onset = reader.GetString(); break; case "_onset": _Onset = new Fhir.R4.Models.Element(); _Onset.DeserializeJson(ref reader, options); break; case "severity": Severity = reader.GetString(); break; case "_severity": _Severity = new Fhir.R4.Models.Element(); _Severity.DeserializeJson(ref reader, options); break; case "substance": Substance = new Fhir.R4.Models.CodeableConcept(); Substance.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "authorizationRequired": AuthorizationRequired = reader.GetBoolean(); break; case "authorizationSupporting": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } AuthorizationSupporting = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objAuthorizationSupporting = new Fhir.R4.Models.CodeableConcept(); objAuthorizationSupporting.DeserializeJson(ref reader, options); AuthorizationSupporting.Add(objAuthorizationSupporting); if (!reader.Read()) { throw new JsonException(); } } if (AuthorizationSupporting.Count == 0) { AuthorizationSupporting = null; } break; case "authorizationUrl": AuthorizationUrl = reader.GetString(); break; case "_authorizationUrl": _AuthorizationUrl = new Fhir.R4.Models.Element(); _AuthorizationUrl.DeserializeJson(ref reader, options); break; case "benefit": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Benefit = new List <CoverageEligibilityResponseInsuranceItemBenefit>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CoverageEligibilityResponseInsuranceItemBenefit objBenefit = new Fhir.R4.Models.CoverageEligibilityResponseInsuranceItemBenefit(); objBenefit.DeserializeJson(ref reader, options); Benefit.Add(objBenefit); if (!reader.Read()) { throw new JsonException(); } } if (Benefit.Count == 0) { Benefit = null; } break; case "category": Category = new Fhir.R4.Models.CodeableConcept(); Category.DeserializeJson(ref reader, options); break; case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "excluded": Excluded = reader.GetBoolean(); break; case "modifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Modifier = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CodeableConcept objModifier = new Fhir.R4.Models.CodeableConcept(); objModifier.DeserializeJson(ref reader, options); Modifier.Add(objModifier); if (!reader.Read()) { throw new JsonException(); } } if (Modifier.Count == 0) { Modifier = null; } break; case "name": Name = reader.GetString(); break; case "_name": _Name = new Fhir.R4.Models.Element(); _Name.DeserializeJson(ref reader, options); break; case "network": Network = new Fhir.R4.Models.CodeableConcept(); Network.DeserializeJson(ref reader, options); break; case "productOrService": ProductOrService = new Fhir.R4.Models.CodeableConcept(); ProductOrService.DeserializeJson(ref reader, options); break; case "provider": Provider = new Fhir.R4.Models.Reference(); Provider.DeserializeJson(ref reader, options); break; case "term": Term = new Fhir.R4.Models.CodeableConcept(); Term.DeserializeJson(ref reader, options); break; case "unit": Unit = new Fhir.R4.Models.CodeableConcept(); Unit.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.BackboneElement) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "asserter": Asserter = new Fhir.R4.Models.Reference(); Asserter.DeserializeJson(ref reader, options); break; case "category": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Category = new List <string>(); while (reader.TokenType != JsonTokenType.EndArray) { Category.Add(reader.GetString()); if (!reader.Read()) { throw new JsonException(); } } if (Category.Count == 0) { Category = null; } break; case "_category": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } _Category = new List <Element>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Element obj_Category = new Fhir.R4.Models.Element(); obj_Category.DeserializeJson(ref reader, options); _Category.Add(obj_Category); if (!reader.Read()) { throw new JsonException(); } } if (_Category.Count == 0) { _Category = null; } break; case "clinicalStatus": ClinicalStatus = new Fhir.R4.Models.CodeableConcept(); ClinicalStatus.DeserializeJson(ref reader, options); break; case "code": Code = new Fhir.R4.Models.CodeableConcept(); Code.DeserializeJson(ref reader, options); break; case "criticality": Criticality = reader.GetString(); break; case "_criticality": _Criticality = new Fhir.R4.Models.Element(); _Criticality.DeserializeJson(ref reader, options); break; case "encounter": Encounter = new Fhir.R4.Models.Reference(); Encounter.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "lastOccurrence": LastOccurrence = reader.GetString(); break; case "_lastOccurrence": _LastOccurrence = new Fhir.R4.Models.Element(); _LastOccurrence.DeserializeJson(ref reader, options); break; case "note": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Note = new List <Annotation>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Annotation objNote = new Fhir.R4.Models.Annotation(); objNote.DeserializeJson(ref reader, options); Note.Add(objNote); if (!reader.Read()) { throw new JsonException(); } } if (Note.Count == 0) { Note = null; } break; case "onsetDateTime": OnsetDateTime = reader.GetString(); break; case "_onsetDateTime": _OnsetDateTime = new Fhir.R4.Models.Element(); _OnsetDateTime.DeserializeJson(ref reader, options); break; case "onsetAge": OnsetAge = new Fhir.R4.Models.Age(); OnsetAge.DeserializeJson(ref reader, options); break; case "onsetPeriod": OnsetPeriod = new Fhir.R4.Models.Period(); OnsetPeriod.DeserializeJson(ref reader, options); break; case "onsetRange": OnsetRange = new Fhir.R4.Models.Range(); OnsetRange.DeserializeJson(ref reader, options); break; case "onsetString": OnsetString = reader.GetString(); break; case "_onsetString": _OnsetString = new Fhir.R4.Models.Element(); _OnsetString.DeserializeJson(ref reader, options); break; case "patient": Patient = new Fhir.R4.Models.Reference(); Patient.DeserializeJson(ref reader, options); break; case "reaction": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Reaction = new List <AllergyIntoleranceReaction>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.AllergyIntoleranceReaction objReaction = new Fhir.R4.Models.AllergyIntoleranceReaction(); objReaction.DeserializeJson(ref reader, options); Reaction.Add(objReaction); if (!reader.Read()) { throw new JsonException(); } } if (Reaction.Count == 0) { Reaction = null; } break; case "recordedDate": RecordedDate = reader.GetString(); break; case "_recordedDate": _RecordedDate = new Fhir.R4.Models.Element(); _RecordedDate.DeserializeJson(ref reader, options); break; case "recorder": Recorder = new Fhir.R4.Models.Reference(); Recorder.DeserializeJson(ref reader, options); break; case "type": Type = reader.GetString(); break; case "_type": _Type = new Fhir.R4.Models.Element(); _Type.DeserializeJson(ref reader, options); break; case "verificationStatus": VerificationStatus = new Fhir.R4.Models.CodeableConcept(); VerificationStatus.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "beneficiary": Beneficiary = new Fhir.R4.Models.Reference(); Beneficiary.DeserializeJson(ref reader, options); break; case "class": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Class = new List <CoverageClass>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CoverageClass objClass = new Fhir.R4.Models.CoverageClass(); objClass.DeserializeJson(ref reader, options); Class.Add(objClass); if (!reader.Read()) { throw new JsonException(); } } if (Class.Count == 0) { Class = null; } break; case "contract": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Contract = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objContract = new Fhir.R4.Models.Reference(); objContract.DeserializeJson(ref reader, options); Contract.Add(objContract); if (!reader.Read()) { throw new JsonException(); } } if (Contract.Count == 0) { Contract = null; } break; case "costToBeneficiary": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } CostToBeneficiary = new List <CoverageCostToBeneficiary>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.CoverageCostToBeneficiary objCostToBeneficiary = new Fhir.R4.Models.CoverageCostToBeneficiary(); objCostToBeneficiary.DeserializeJson(ref reader, options); CostToBeneficiary.Add(objCostToBeneficiary); if (!reader.Read()) { throw new JsonException(); } } if (CostToBeneficiary.Count == 0) { CostToBeneficiary = null; } break; case "dependent": Dependent = reader.GetString(); break; case "_dependent": _Dependent = new Fhir.R4.Models.Element(); _Dependent.DeserializeJson(ref reader, options); break; case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Identifier objIdentifier = new Fhir.R4.Models.Identifier(); objIdentifier.DeserializeJson(ref reader, options); Identifier.Add(objIdentifier); if (!reader.Read()) { throw new JsonException(); } } if (Identifier.Count == 0) { Identifier = null; } break; case "network": Network = reader.GetString(); break; case "_network": _Network = new Fhir.R4.Models.Element(); _Network.DeserializeJson(ref reader, options); break; case "order": Order = reader.GetUInt32(); break; case "payor": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Payor = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objPayor = new Fhir.R4.Models.Reference(); objPayor.DeserializeJson(ref reader, options); Payor.Add(objPayor); if (!reader.Read()) { throw new JsonException(); } } if (Payor.Count == 0) { Payor = null; } break; case "period": Period = new Fhir.R4.Models.Period(); Period.DeserializeJson(ref reader, options); break; case "policyHolder": PolicyHolder = new Fhir.R4.Models.Reference(); PolicyHolder.DeserializeJson(ref reader, options); break; case "relationship": Relationship = new Fhir.R4.Models.CodeableConcept(); Relationship.DeserializeJson(ref reader, options); break; case "status": Status = reader.GetString(); break; case "_status": _Status = new Fhir.R4.Models.Element(); _Status.DeserializeJson(ref reader, options); break; case "subrogation": Subrogation = reader.GetBoolean(); break; case "subscriber": Subscriber = new Fhir.R4.Models.Reference(); Subscriber.DeserializeJson(ref reader, options); break; case "subscriberId": SubscriberId = reader.GetString(); break; case "_subscriberId": _SubscriberId = new Fhir.R4.Models.Element(); _SubscriberId.DeserializeJson(ref reader, options); break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
/// <summary> /// Deserialize a JSON property /// </summary> public new void DeserializeJsonProperty(ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "description": Description = reader.GetString(); break; case "_description": _Description = new Fhir.R4.Models.Element(); _Description.DeserializeJson(ref reader, options); break; case "effect": Effect = new Fhir.R4.Models.CodeableConcept(); Effect.DeserializeJson(ref reader, options); break; case "incidence": Incidence = new Fhir.R4.Models.CodeableConcept(); Incidence.DeserializeJson(ref reader, options); break; case "interactant": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Interactant = new List <MedicinalProductInteractionInteractant>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.MedicinalProductInteractionInteractant objInteractant = new Fhir.R4.Models.MedicinalProductInteractionInteractant(); objInteractant.DeserializeJson(ref reader, options); Interactant.Add(objInteractant); if (!reader.Read()) { throw new JsonException(); } } if (Interactant.Count == 0) { Interactant = null; } break; case "management": Management = new Fhir.R4.Models.CodeableConcept(); Management.DeserializeJson(ref reader, options); break; case "subject": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException(); } Subject = new List <Reference>(); while (reader.TokenType != JsonTokenType.EndArray) { Fhir.R4.Models.Reference objSubject = new Fhir.R4.Models.Reference(); objSubject.DeserializeJson(ref reader, options); Subject.Add(objSubject); if (!reader.Read()) { throw new JsonException(); } } if (Subject.Count == 0) { Subject = null; } break; case "type": Type = new Fhir.R4.Models.CodeableConcept(); Type.DeserializeJson(ref reader, options); break; default: ((Fhir.R4.Models.DomainResource) this).DeserializeJsonProperty(ref reader, options, propertyName); break; } }