// THIS FILE IS GENERATED BY https://github.com/fastenhealth/fasten-onprem/blob/main/backend/pkg/models/database/generate.go // PLEASE DO NOT EDIT BY HAND package database import ( "encoding/json" "fmt" goja "github.com/dop251/goja" models "github.com/fastenhealth/fastenhealth-onprem/backend/pkg/models" datatypes "gorm.io/datatypes" "time" ) type FhirDiagnosticReport struct { models.ResourceBase // Reference to the service request. // https://hl7.org/fhir/r4/search.html#reference BasedOn datatypes.JSON `gorm:"column:basedOn;type:text;serializer:json" json:"basedOn,omitempty"` // Which diagnostic discipline/department created the report // https://hl7.org/fhir/r4/search.html#token Category datatypes.JSON `gorm:"column:category;type:text;serializer:json" json:"category,omitempty"` /* Multiple Resources: * [AllergyIntolerance](allergyintolerance.html): Code that identifies the allergy or intolerance * [Condition](condition.html): Code for the condition * [DeviceRequest](devicerequest.html): Code for what is being requested/ordered * [DiagnosticReport](diagnosticreport.html): The code for the report, as opposed to codes for the atomic results, which are the names on the observation resource referred to from the result * [FamilyMemberHistory](familymemberhistory.html): A search by a condition code * [List](list.html): What the purpose of this list is * [Medication](medication.html): Returns medications for a specific code * [MedicationAdministration](medicationadministration.html): Return administrations of this medication code * [MedicationDispense](medicationdispense.html): Returns dispenses of this medicine code * [MedicationRequest](medicationrequest.html): Return prescriptions of this medication code * [MedicationStatement](medicationstatement.html): Return statements of this medication code * [Observation](observation.html): The code of the observation type * [Procedure](procedure.html): A code to identify a procedure * [ServiceRequest](servicerequest.html): What is being requested/ordered */ // https://hl7.org/fhir/r4/search.html#token Code datatypes.JSON `gorm:"column:code;type:text;serializer:json" json:"code,omitempty"` // A coded conclusion (interpretation/impression) on the report // https://hl7.org/fhir/r4/search.html#token Conclusion datatypes.JSON `gorm:"column:conclusion;type:text;serializer:json" json:"conclusion,omitempty"` /* Multiple Resources: * [AllergyIntolerance](allergyintolerance.html): Date first version of the resource instance was recorded * [CarePlan](careplan.html): Time period plan covers * [CareTeam](careteam.html): Time period team covers * [ClinicalImpression](clinicalimpression.html): When the assessment was documented * [Composition](composition.html): Composition editing time * [Consent](consent.html): When this Consent was created or indexed * [DiagnosticReport](diagnosticreport.html): The clinically relevant time of the report * [Encounter](encounter.html): A date within the period the Encounter lasted * [EpisodeOfCare](episodeofcare.html): The provided date search value falls within the episode of care's period * [FamilyMemberHistory](familymemberhistory.html): When history was recorded or last updated * [Flag](flag.html): Time period when flag is active * [Immunization](immunization.html): Vaccination (non)-Administration Date * [List](list.html): When the list was prepared * [Observation](observation.html): Obtained date/time. If the obtained element is a period, a date that falls in the period * [Procedure](procedure.html): When the procedure was performed * [RiskAssessment](riskassessment.html): When was assessment made? * [SupplyRequest](supplyrequest.html): When the request was made */ // https://hl7.org/fhir/r4/search.html#date Date *time.Time `gorm:"column:date;type:datetime" json:"date,omitempty"` /* Multiple Resources: * [Composition](composition.html): Context of the Composition * [DeviceRequest](devicerequest.html): Encounter during which request was created * [DiagnosticReport](diagnosticreport.html): The Encounter when the order was made * [DocumentReference](documentreference.html): Context of the document content * [Flag](flag.html): Alert relevant during encounter * [List](list.html): Context in which list created * [NutritionOrder](nutritionorder.html): Return nutrition orders with this encounter identifier * [Observation](observation.html): Encounter related to the observation * [Procedure](procedure.html): Encounter created as part of * [RiskAssessment](riskassessment.html): Where was assessment performed? * [ServiceRequest](servicerequest.html): An encounter in which this request is made * [VisionPrescription](visionprescription.html): Return prescriptions with this encounter identifier */ // https://hl7.org/fhir/r4/search.html#reference Encounter datatypes.JSON `gorm:"column:encounter;type:text;serializer:json" json:"encounter,omitempty"` /* Multiple Resources: * [AllergyIntolerance](allergyintolerance.html): External ids for this item * [CarePlan](careplan.html): External Ids for this plan * [CareTeam](careteam.html): External Ids for this team * [Composition](composition.html): Version-independent identifier for the Composition * [Condition](condition.html): A unique identifier of the condition record * [Consent](consent.html): Identifier for this record (external references) * [DetectedIssue](detectedissue.html): Unique id for the detected issue * [DeviceRequest](devicerequest.html): Business identifier for request/order * [DiagnosticReport](diagnosticreport.html): An identifier for the report * [DocumentManifest](documentmanifest.html): Unique Identifier for the set of documents * [DocumentReference](documentreference.html): Master Version Specific Identifier * [Encounter](encounter.html): Identifier(s) by which this encounter is known * [EpisodeOfCare](episodeofcare.html): Business Identifier(s) relevant for this EpisodeOfCare * [FamilyMemberHistory](familymemberhistory.html): A search by a record identifier * [Goal](goal.html): External Ids for this goal * [ImagingStudy](imagingstudy.html): Identifiers for the Study, such as DICOM Study Instance UID and Accession number * [Immunization](immunization.html): Business identifier * [List](list.html): Business identifier * [MedicationAdministration](medicationadministration.html): Return administrations with this external identifier * [MedicationDispense](medicationdispense.html): Returns dispenses with this external identifier * [MedicationRequest](medicationrequest.html): Return prescriptions with this external identifier * [MedicationStatement](medicationstatement.html): Return statements with this external identifier * [NutritionOrder](nutritionorder.html): Return nutrition orders with this external identifier * [Observation](observation.html): The unique id for a particular observation * [Procedure](procedure.html): A unique identifier for a procedure * [RiskAssessment](riskassessment.html): Unique identifier for the assessment * [ServiceRequest](servicerequest.html): Identifiers assigned to this order * [SupplyDelivery](supplydelivery.html): External identifier * [SupplyRequest](supplyrequest.html): Business Identifier for SupplyRequest * [VisionPrescription](visionprescription.html): Return prescriptions with this external identifier */ // https://hl7.org/fhir/r4/search.html#token Identifier datatypes.JSON `gorm:"column:identifier;type:text;serializer:json" json:"identifier,omitempty"` // When the report was issued // https://hl7.org/fhir/r4/search.html#date Issued *time.Time `gorm:"column:issued;type:datetime" json:"issued,omitempty"` // Language of the resource content // https://hl7.org/fhir/r4/search.html#token Language datatypes.JSON `gorm:"column:language;type:text;serializer:json" json:"language,omitempty"` // When the resource version last changed // https://hl7.org/fhir/r4/search.html#date LastUpdated *time.Time `gorm:"column:lastUpdated;type:datetime" json:"lastUpdated,omitempty"` // A reference to the image source. // https://hl7.org/fhir/r4/search.html#reference Media datatypes.JSON `gorm:"column:media;type:text;serializer:json" json:"media,omitempty"` // Who is responsible for the report // https://hl7.org/fhir/r4/search.html#reference Performer datatypes.JSON `gorm:"column:performer;type:text;serializer:json" json:"performer,omitempty"` // Profiles this resource claims to conform to // https://hl7.org/fhir/r4/search.html#reference Profile datatypes.JSON `gorm:"column:profile;type:text;serializer:json" json:"profile,omitempty"` // Link to an atomic result (observation resource) // https://hl7.org/fhir/r4/search.html#reference Result datatypes.JSON `gorm:"column:result;type:text;serializer:json" json:"result,omitempty"` // Who was the source of the report // https://hl7.org/fhir/r4/search.html#reference ResultsInterpreter datatypes.JSON `gorm:"column:resultsInterpreter;type:text;serializer:json" json:"resultsInterpreter,omitempty"` // Identifies where the resource comes from // https://hl7.org/fhir/r4/search.html#uri SourceUri string `gorm:"column:sourceUri;type:text" json:"sourceUri,omitempty"` // The specimen details // https://hl7.org/fhir/r4/search.html#reference Specimen datatypes.JSON `gorm:"column:specimen;type:text;serializer:json" json:"specimen,omitempty"` // The status of the report // https://hl7.org/fhir/r4/search.html#token Status datatypes.JSON `gorm:"column:status;type:text;serializer:json" json:"status,omitempty"` // The subject of the report // https://hl7.org/fhir/r4/search.html#reference Subject datatypes.JSON `gorm:"column:subject;type:text;serializer:json" json:"subject,omitempty"` // Tags applied to this resource // https://hl7.org/fhir/r4/search.html#token Tag datatypes.JSON `gorm:"column:tag;type:text;serializer:json" json:"tag,omitempty"` // Text search against the narrative // https://hl7.org/fhir/r4/search.html#string Text datatypes.JSON `gorm:"column:text;type:text;serializer:json" json:"text,omitempty"` // A resource type filter // https://hl7.org/fhir/r4/search.html#special Type datatypes.JSON `gorm:"column:type;type:text;serializer:json" json:"type,omitempty"` } func (s *FhirDiagnosticReport) GetSearchParameters() map[string]string { searchParameters := map[string]string{ "basedOn": "reference", "category": "token", "code": "token", "conclusion": "token", "date": "date", "encounter": "reference", "identifier": "token", "issued": "date", "language": "token", "lastUpdated": "date", "media": "reference", "performer": "reference", "profile": "reference", "result": "reference", "resultsInterpreter": "reference", "sourceUri": "uri", "specimen": "reference", "status": "token", "subject": "reference", "tag": "token", "text": "string", "type": "special", } return searchParameters } func (s *FhirDiagnosticReport) PopulateAndExtractSearchParameters(resourceRaw json.RawMessage) error { s.ResourceRaw = datatypes.JSON(resourceRaw) // unmarshal the raw resource (bytes) into a map var resourceRawMap map[string]interface{} err := json.Unmarshal(resourceRaw, &resourceRawMap) if err != nil { return err } if len(fhirPathJs) == 0 { return fmt.Errorf("fhirPathJs script is empty") } vm := goja.New() // setup the global window object vm.Set("window", vm.NewObject()) // set the global FHIR Resource object vm.Set("fhirResource", resourceRawMap) // compile the fhirpath library fhirPathJsProgram, err := goja.Compile("fhirpath.min.js", fhirPathJs, true) if err != nil { return err } // add the fhirpath library in the goja vm _, err = vm.RunProgram(fhirPathJsProgram) if err != nil { return err } // execute the fhirpath expression for each search parameter // extracting BasedOn basedOnResult, err := vm.RunString(` BasedOnResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.basedOn') if(BasedOnResult.length == 0) { "undefined" } else { JSON.stringify(BasedOnResult) } `) if err == nil && basedOnResult.String() != "undefined" { s.BasedOn = []byte(basedOnResult.String()) } // extracting Category categoryResult, err := vm.RunString(` CategoryResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.category') CategoryProcessed = CategoryResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(CategoryProcessed.length == 0) { "undefined" } else { JSON.stringify(CategoryProcessed) } `) if err == nil && categoryResult.String() != "undefined" { s.Category = []byte(categoryResult.String()) } // extracting Code codeResult, err := vm.RunString(` CodeResult = window.fhirpath.evaluate(fhirResource, 'AllergyIntolerance.code | AllergyIntolerance.reaction.substance | Condition.code | (DeviceRequest.codeCodeableConcept) | DiagnosticReport.code | FamilyMemberHistory.condition.code | List.code | Medication.code | (MedicationAdministration.medicationCodeableConcept) | (MedicationDispense.medicationCodeableConcept) | (MedicationRequest.medicationCodeableConcept) | (MedicationStatement.medicationCodeableConcept) | Observation.code | Procedure.code | ServiceRequest.code') CodeProcessed = CodeResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(CodeProcessed.length == 0) { "undefined" } else { JSON.stringify(CodeProcessed) } `) if err == nil && codeResult.String() != "undefined" { s.Code = []byte(codeResult.String()) } // extracting Conclusion conclusionResult, err := vm.RunString(` ConclusionResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.conclusionCode') ConclusionProcessed = ConclusionResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(ConclusionProcessed.length == 0) { "undefined" } else { JSON.stringify(ConclusionProcessed) } `) if err == nil && conclusionResult.String() != "undefined" { s.Conclusion = []byte(conclusionResult.String()) } // extracting Date dateResult, err := vm.RunString("window.fhirpath.evaluate(fhirResource, 'AllergyIntolerance.recordedDate | CarePlan.period | CareTeam.period | ClinicalImpression.date | Composition.date | Consent.dateTime | DiagnosticReport.effective | Encounter.period | EpisodeOfCare.period | FamilyMemberHistory.date | Flag.period | (Immunization.occurrenceDateTime) | List.date | Observation.effective | Procedure.performed | (RiskAssessment.occurrenceDateTime) | SupplyRequest.authoredOn')[0]") if err == nil && dateResult.String() != "undefined" { t, err := time.Parse(time.RFC3339, dateResult.String()) if err == nil { s.Date = &t } else if err != nil { d, err := time.Parse("2006-01-02", dateResult.String()) if err == nil { s.Date = &d } } } // extracting Encounter encounterResult, err := vm.RunString(` EncounterResult = window.fhirpath.evaluate(fhirResource, 'Composition.encounter | DeviceRequest.encounter | DiagnosticReport.encounter | DocumentReference.context.encounter.where(resolve() is Encounter) | Flag.encounter | List.encounter | NutritionOrder.encounter | Observation.encounter | Procedure.encounter | RiskAssessment.encounter | ServiceRequest.encounter | VisionPrescription.encounter') if(EncounterResult.length == 0) { "undefined" } else { JSON.stringify(EncounterResult) } `) if err == nil && encounterResult.String() != "undefined" { s.Encounter = []byte(encounterResult.String()) } // extracting Identifier identifierResult, err := vm.RunString(` IdentifierResult = window.fhirpath.evaluate(fhirResource, 'AllergyIntolerance.identifier | CarePlan.identifier | CareTeam.identifier | Composition.identifier | Condition.identifier | Consent.identifier | DetectedIssue.identifier | DeviceRequest.identifier | DiagnosticReport.identifier | DocumentManifest.masterIdentifier | DocumentManifest.identifier | DocumentReference.masterIdentifier | DocumentReference.identifier | Encounter.identifier | EpisodeOfCare.identifier | FamilyMemberHistory.identifier | Goal.identifier | ImagingStudy.identifier | Immunization.identifier | List.identifier | MedicationAdministration.identifier | MedicationDispense.identifier | MedicationRequest.identifier | MedicationStatement.identifier | NutritionOrder.identifier | Observation.identifier | Procedure.identifier | RiskAssessment.identifier | ServiceRequest.identifier | SupplyDelivery.identifier | SupplyRequest.identifier | VisionPrescription.identifier') IdentifierProcessed = IdentifierResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(IdentifierProcessed.length == 0) { "undefined" } else { JSON.stringify(IdentifierProcessed) } `) if err == nil && identifierResult.String() != "undefined" { s.Identifier = []byte(identifierResult.String()) } // extracting Issued issuedResult, err := vm.RunString("window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.issued')[0]") if err == nil && issuedResult.String() != "undefined" { t, err := time.Parse(time.RFC3339, issuedResult.String()) if err == nil { s.Issued = &t } else if err != nil { d, err := time.Parse("2006-01-02", issuedResult.String()) if err == nil { s.Issued = &d } } } // extracting Language languageResult, err := vm.RunString(` LanguageResult = window.fhirpath.evaluate(fhirResource, 'language') LanguageProcessed = LanguageResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(LanguageProcessed.length == 0) { "undefined" } else { JSON.stringify(LanguageProcessed) } `) if err == nil && languageResult.String() != "undefined" { s.Language = []byte(languageResult.String()) } // extracting LastUpdated lastUpdatedResult, err := vm.RunString("window.fhirpath.evaluate(fhirResource, 'meta.lastUpdated')[0]") if err == nil && lastUpdatedResult.String() != "undefined" { t, err := time.Parse(time.RFC3339, lastUpdatedResult.String()) if err == nil { s.LastUpdated = &t } else if err != nil { d, err := time.Parse("2006-01-02", lastUpdatedResult.String()) if err == nil { s.LastUpdated = &d } } } // extracting Media mediaResult, err := vm.RunString(` MediaResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.media.link') if(MediaResult.length == 0) { "undefined" } else { JSON.stringify(MediaResult) } `) if err == nil && mediaResult.String() != "undefined" { s.Media = []byte(mediaResult.String()) } // extracting Performer performerResult, err := vm.RunString(` PerformerResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.performer') if(PerformerResult.length == 0) { "undefined" } else { JSON.stringify(PerformerResult) } `) if err == nil && performerResult.String() != "undefined" { s.Performer = []byte(performerResult.String()) } // extracting Profile profileResult, err := vm.RunString(` ProfileResult = window.fhirpath.evaluate(fhirResource, 'meta.profile') if(ProfileResult.length == 0) { "undefined" } else { JSON.stringify(ProfileResult) } `) if err == nil && profileResult.String() != "undefined" { s.Profile = []byte(profileResult.String()) } // extracting Result resultResult, err := vm.RunString(` ResultResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.result') if(ResultResult.length == 0) { "undefined" } else { JSON.stringify(ResultResult) } `) if err == nil && resultResult.String() != "undefined" { s.Result = []byte(resultResult.String()) } // extracting ResultsInterpreter resultsInterpreterResult, err := vm.RunString(` ResultsInterpreterResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.resultsInterpreter') if(ResultsInterpreterResult.length == 0) { "undefined" } else { JSON.stringify(ResultsInterpreterResult) } `) if err == nil && resultsInterpreterResult.String() != "undefined" { s.ResultsInterpreter = []byte(resultsInterpreterResult.String()) } // extracting SourceUri sourceUriResult, err := vm.RunString("window.fhirpath.evaluate(fhirResource, 'meta.source')[0]") if err == nil && sourceUriResult.String() != "undefined" { s.SourceUri = sourceUriResult.String() } // extracting Specimen specimenResult, err := vm.RunString(` SpecimenResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.specimen') if(SpecimenResult.length == 0) { "undefined" } else { JSON.stringify(SpecimenResult) } `) if err == nil && specimenResult.String() != "undefined" { s.Specimen = []byte(specimenResult.String()) } // extracting Status statusResult, err := vm.RunString(` StatusResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.status') StatusProcessed = StatusResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(StatusProcessed.length == 0) { "undefined" } else { JSON.stringify(StatusProcessed) } `) if err == nil && statusResult.String() != "undefined" { s.Status = []byte(statusResult.String()) } // extracting Subject subjectResult, err := vm.RunString(` SubjectResult = window.fhirpath.evaluate(fhirResource, 'DiagnosticReport.subject') if(SubjectResult.length == 0) { "undefined" } else { JSON.stringify(SubjectResult) } `) if err == nil && subjectResult.String() != "undefined" { s.Subject = []byte(subjectResult.String()) } // extracting Tag tagResult, err := vm.RunString(` TagResult = window.fhirpath.evaluate(fhirResource, 'meta.tag') TagProcessed = TagResult.reduce((accumulator, currentValue) => { if (currentValue.coding) { //CodeableConcept currentValue.coding.map((coding) => { accumulator.push({ "code": coding.code, "system": coding.system, "text": currentValue.text }) }) } else if (currentValue.value) { //ContactPoint, Identifier accumulator.push({ "code": currentValue.value, "system": currentValue.system, "text": currentValue.type?.text }) } else if (currentValue.code) { //Coding accumulator.push({ "code": currentValue.code, "system": currentValue.system, "text": currentValue.display }) } else if ((typeof currentValue === 'string') || (typeof currentValue === 'boolean')) { //string, boolean accumulator.push({ "code": currentValue, }) } return accumulator }, []) if(TagProcessed.length == 0) { "undefined" } else { JSON.stringify(TagProcessed) } `) if err == nil && tagResult.String() != "undefined" { s.Tag = []byte(tagResult.String()) } return nil } // TableName overrides the table name from fhir_observations (pluralized) to `fhir_observation`. https://gorm.io/docs/conventions.html#TableName func (s *FhirDiagnosticReport) TableName() string { return "fhir_diagnostic_report" }