public static Model.RiskAssessment.PredictionComponent addPrediction(this Model.RiskAssessment me) { var item = new Model.RiskAssessment.PredictionComponent(); me.Prediction.Add(item); return(item); }
public static Model.Element getProbability(this Model.RiskAssessment.PredictionComponent me) { return(me.Probability); }
public static Model.RiskAssessment.PredictionComponent setProbability(this Model.RiskAssessment.PredictionComponent me, Model.Element value) { me.Probability = value; return(me); }
/// <summary> /// Deserialize JSON into a FHIR RiskAssessment /// </summary> public static void DeserializeJsonProperty(this RiskAssessment current, ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "identifier": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException($"RiskAssessment error reading 'identifier' expected StartArray, found {reader.TokenType}! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } current.Identifier = new List <Identifier>(); while (reader.TokenType != JsonTokenType.EndArray) { Hl7.Fhir.Model.Identifier v_Identifier = new Hl7.Fhir.Model.Identifier(); v_Identifier.DeserializeJson(ref reader, options); current.Identifier.Add(v_Identifier); if (!reader.Read()) { throw new JsonException($"RiskAssessment error reading 'identifier' array, read failed! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } if (reader.TokenType == JsonTokenType.EndObject) { reader.Read(); } } if (current.Identifier.Count == 0) { current.Identifier = null; } break; case "basedOn": current.BasedOn = new Hl7.Fhir.Model.ResourceReference(); ((Hl7.Fhir.Model.ResourceReference)current.BasedOn).DeserializeJson(ref reader, options); break; case "parent": current.Parent = new Hl7.Fhir.Model.ResourceReference(); ((Hl7.Fhir.Model.ResourceReference)current.Parent).DeserializeJson(ref reader, options); break; case "status": if (reader.TokenType == JsonTokenType.Null) { current.StatusElement = new Code <Hl7.Fhir.Model.ObservationStatus>(); reader.Skip(); } else { current.StatusElement = new Code <Hl7.Fhir.Model.ObservationStatus>(Hl7.Fhir.Utility.EnumUtility.ParseLiteral <Hl7.Fhir.Model.ObservationStatus>(reader.GetString())); } break; case "_status": if (current.StatusElement == null) { current.StatusElement = new Code <Hl7.Fhir.Model.ObservationStatus>(); } ((Hl7.Fhir.Model.Element)current.StatusElement).DeserializeJson(ref reader, options); break; case "method": current.Method = new Hl7.Fhir.Model.CodeableConcept(); ((Hl7.Fhir.Model.CodeableConcept)current.Method).DeserializeJson(ref reader, options); break; case "code": current.Code = new Hl7.Fhir.Model.CodeableConcept(); ((Hl7.Fhir.Model.CodeableConcept)current.Code).DeserializeJson(ref reader, options); break; case "subject": current.Subject = new Hl7.Fhir.Model.ResourceReference(); ((Hl7.Fhir.Model.ResourceReference)current.Subject).DeserializeJson(ref reader, options); break; case "encounter": current.Encounter = new Hl7.Fhir.Model.ResourceReference(); ((Hl7.Fhir.Model.ResourceReference)current.Encounter).DeserializeJson(ref reader, options); break; case "occurrenceDateTime": if (reader.TokenType == JsonTokenType.Null) { current.Occurrence = new FhirDateTime(); reader.Skip(); } else { current.Occurrence = new FhirDateTime(reader.GetString()); } break; case "_occurrenceDateTime": if (current.Occurrence == null) { current.Occurrence = new FhirDateTime(); } ((Hl7.Fhir.Model.Element)current.Occurrence).DeserializeJson(ref reader, options); break; case "occurrencePeriod": current.Occurrence = new Hl7.Fhir.Model.Period(); ((Hl7.Fhir.Model.Period)current.Occurrence).DeserializeJson(ref reader, options); break; case "condition": current.Condition = new Hl7.Fhir.Model.ResourceReference(); ((Hl7.Fhir.Model.ResourceReference)current.Condition).DeserializeJson(ref reader, options); break; case "performer": current.Performer = new Hl7.Fhir.Model.ResourceReference(); ((Hl7.Fhir.Model.ResourceReference)current.Performer).DeserializeJson(ref reader, options); break; case "reasonCode": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException($"RiskAssessment error reading 'reasonCode' expected StartArray, found {reader.TokenType}! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } current.ReasonCode = new List <CodeableConcept>(); while (reader.TokenType != JsonTokenType.EndArray) { Hl7.Fhir.Model.CodeableConcept v_ReasonCode = new Hl7.Fhir.Model.CodeableConcept(); v_ReasonCode.DeserializeJson(ref reader, options); current.ReasonCode.Add(v_ReasonCode); if (!reader.Read()) { throw new JsonException($"RiskAssessment error reading 'reasonCode' array, read failed! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } if (reader.TokenType == JsonTokenType.EndObject) { reader.Read(); } } if (current.ReasonCode.Count == 0) { current.ReasonCode = null; } break; case "reasonReference": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException($"RiskAssessment error reading 'reasonReference' expected StartArray, found {reader.TokenType}! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } current.ReasonReference = new List <ResourceReference>(); while (reader.TokenType != JsonTokenType.EndArray) { Hl7.Fhir.Model.ResourceReference v_ReasonReference = new Hl7.Fhir.Model.ResourceReference(); v_ReasonReference.DeserializeJson(ref reader, options); current.ReasonReference.Add(v_ReasonReference); if (!reader.Read()) { throw new JsonException($"RiskAssessment error reading 'reasonReference' array, read failed! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } if (reader.TokenType == JsonTokenType.EndObject) { reader.Read(); } } if (current.ReasonReference.Count == 0) { current.ReasonReference = null; } break; case "basis": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException($"RiskAssessment error reading 'basis' expected StartArray, found {reader.TokenType}! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } current.Basis = new List <ResourceReference>(); while (reader.TokenType != JsonTokenType.EndArray) { Hl7.Fhir.Model.ResourceReference v_Basis = new Hl7.Fhir.Model.ResourceReference(); v_Basis.DeserializeJson(ref reader, options); current.Basis.Add(v_Basis); if (!reader.Read()) { throw new JsonException($"RiskAssessment error reading 'basis' array, read failed! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } if (reader.TokenType == JsonTokenType.EndObject) { reader.Read(); } } if (current.Basis.Count == 0) { current.Basis = null; } break; case "prediction": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException($"RiskAssessment error reading 'prediction' expected StartArray, found {reader.TokenType}! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } current.Prediction = new List <RiskAssessment.PredictionComponent>(); while (reader.TokenType != JsonTokenType.EndArray) { Hl7.Fhir.Model.RiskAssessment.PredictionComponent v_Prediction = new Hl7.Fhir.Model.RiskAssessment.PredictionComponent(); v_Prediction.DeserializeJson(ref reader, options); current.Prediction.Add(v_Prediction); if (!reader.Read()) { throw new JsonException($"RiskAssessment error reading 'prediction' array, read failed! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } if (reader.TokenType == JsonTokenType.EndObject) { reader.Read(); } } if (current.Prediction.Count == 0) { current.Prediction = null; } break; case "mitigation": if (reader.TokenType == JsonTokenType.Null) { current.MitigationElement = new FhirString(); reader.Skip(); } else { current.MitigationElement = new FhirString(reader.GetString()); } break; case "_mitigation": if (current.MitigationElement == null) { current.MitigationElement = new FhirString(); } ((Hl7.Fhir.Model.Element)current.MitigationElement).DeserializeJson(ref reader, options); break; case "note": if ((reader.TokenType != JsonTokenType.StartArray) || (!reader.Read())) { throw new JsonException($"RiskAssessment error reading 'note' expected StartArray, found {reader.TokenType}! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } current.Note = new List <Annotation>(); while (reader.TokenType != JsonTokenType.EndArray) { Hl7.Fhir.Model.Annotation v_Note = new Hl7.Fhir.Model.Annotation(); v_Note.DeserializeJson(ref reader, options); current.Note.Add(v_Note); if (!reader.Read()) { throw new JsonException($"RiskAssessment error reading 'note' array, read failed! depth: {reader.CurrentDepth}, pos: {reader.BytesConsumed}"); } if (reader.TokenType == JsonTokenType.EndObject) { reader.Read(); } } if (current.Note.Count == 0) { current.Note = null; } break; // Complex: RiskAssessment, Export: RiskAssessment, Base: DomainResource default: ((Hl7.Fhir.Model.DomainResource)current).DeserializeJsonProperty(ref reader, options, propertyName); break; } }