import CoreData import Foundation /// Migration-specific errors that might happen during migration enum JSONImporterError: Error { case missingGlucoseValueInGlucoseEntry case tempBasalAndDurationMismatch case missingRequiredPropertyInPumpEntry case suspendResumePumpEventMismatch case duplicatePumpEvents case missingCarbsValueInCarbEntry case missingRequiredPropertyInDetermination(String) case invalidDeterminationReason var errorDescription: String? { switch self { case let .missingRequiredPropertyInDetermination(field): return "Missing required property: \(field)" case .invalidDeterminationReason: return "Determination reason cannot be empty!" default: return nil } } } // MARK: - JSONImporter Class /// Responsible for importing JSON data into Core Data. /// /// The importer handles two important states: /// - JSON files stored in the file system that contain data to import /// - Existing entries in CoreData that should not be duplicated /// /// Imports are performed when a JSON file exists. The importer checks /// CoreData for existing entries to avoid duplicating records from partial imports. class JSONImporter { private let context: NSManagedObjectContext private let coreDataStack: CoreDataStack /// Initializes the importer with a Core Data context. init(context: NSManagedObjectContext, coreDataStack: CoreDataStack) { self.context = context self.coreDataStack = coreDataStack } /// Reads and parses a JSON file from the file system. /// /// - Parameters: /// - url: The URL of the JSON file to read. /// - Returns: A decoded object of the specified type. /// - Throws: An error if the file cannot be read or decoded. private func readJsonFile(url: URL) throws -> T { let data = try Data(contentsOf: url) let decoder = JSONCoding.decoder return try decoder.decode(T.self, from: data) } /// Retrieves the set of dates for all glucose values currently stored in CoreData. /// /// - Parameters: the start and end dates to fetch glucose values, inclusive /// - Returns: A set of dates corresponding to existing glucose readings. /// - Throws: An error if the fetch operation fails. private func fetchGlucoseDates(start: Date, end: Date) async throws -> Set { let allReadings = try await coreDataStack.fetchEntitiesAsync( ofType: GlucoseStored.self, onContext: context, predicate: .predicateForDateBetween(start: start, end: end), key: "date", ascending: false ) as? [GlucoseStored] ?? [] return Set(allReadings.compactMap(\.date)) } /// Retrieves the set of timestamps for all pump events currently stored in CoreData. /// /// - Parameters: the start and end dates to fetch pump events, inclusive /// - Returns: A set of dates corresponding to existing pump events. /// - Throws: An error if the fetch operation fails. private func fetchPumpTimestamps(start: Date, end: Date) async throws -> Set { let allPumpEvents = try await coreDataStack.fetchEntitiesAsync( ofType: PumpEventStored.self, onContext: context, predicate: .predicateForTimestampBetween(start: start, end: end), key: "timestamp", ascending: false ) as? [PumpEventStored] ?? [] return Set(allPumpEvents.compactMap(\.timestamp)) } /// Retrieves the set of timestamps for all carb entries currently stored in CoreData. /// /// - Parameters: the start and end dates to fetch carb entries, inclusive /// - Returns: A set of dates corresponding to existing carb entries. /// - Throws: An error if the fetch operation fails. private func fetchCarbEntryDates(start: Date, end: Date) async throws -> Set { let allCarbEntryDates = try await coreDataStack.fetchEntitiesAsync( ofType: CarbEntryStored.self, onContext: context, predicate: .predicateForDateBetween(start: start, end: end), key: "date", ascending: false ) as? [CarbEntryStored] ?? [] return Set(allCarbEntryDates.compactMap(\.date)) } /// Retrieves the set of dates for all oref determinations currently stored in CoreData. /// /// - Parameters: /// - start: the start to fetch from; inclusive /// - end: the end date to fetch to; inclusive /// - Returns: A set of dates corresponding to existing determinations. /// - Throws: An error if the fetch operation fails. private func fetchDeterminationDates(start: Date, end: Date) async throws -> Set { let determinations = try await coreDataStack.fetchEntitiesAsync( ofType: OrefDetermination.self, onContext: context, predicate: .predicateForDeliverAtBetween(start: start, end: end), key: "deliverAt", ascending: false ) as? [OrefDetermination] ?? [] return Set(determinations.compactMap(\.deliverAt)) } /// Imports glucose history from a JSON file into CoreData. /// /// The function reads glucose data from the provided JSON file and stores new entries /// in CoreData, skipping entries with dates that already exist in the database. /// /// - Parameters: /// - url: The URL of the JSON file containing glucose history. /// - now: The current time, used to skip old entries /// - Throws: /// - JSONImporterError.missingGlucoseValueInGlucoseEntry if a glucose entry is missing a value. /// - An error if the file cannot be read or decoded. /// - An error if the CoreData operation fails. func importGlucoseHistory(url: URL, now: Date) async throws { let twentyFourHoursAgo = now - 24.hours.timeInterval let glucoseHistoryFull: [BloodGlucose] = try readJsonFile(url: url) let existingDates = try await fetchGlucoseDates(start: twentyFourHoursAgo, end: now) // only import glucose values from the last 24 hours that don't exist let glucoseHistory = glucoseHistoryFull .filter { $0.dateString >= twentyFourHoursAgo && $0.dateString <= now && !existingDates.contains($0.dateString) } // Create a background context for batch processing let backgroundContext = NSManagedObjectContext(concurrencyType: .privateQueueConcurrencyType) backgroundContext.parent = context try await backgroundContext.perform { for glucoseEntry in glucoseHistory { try glucoseEntry.store(in: backgroundContext) } try backgroundContext.save() } try await context.perform { try self.context.save() } } /// combines tempBasal and tempBasalDuration events into one PumpHistoryEvent private func combineTempBasalAndDuration(pumpHistory: [PumpHistoryEvent]) throws -> [PumpHistoryEvent] { let tempBasal = pumpHistory.filter({ $0.type == .tempBasal }).sorted { $0.timestamp < $1.timestamp } let tempBasalDuration = pumpHistory.filter({ $0.type == .tempBasalDuration }).sorted { $0.timestamp < $1.timestamp } let nonTempBasal = pumpHistory.filter { $0.type != .tempBasal && $0.type != .tempBasalDuration } guard tempBasal.count == tempBasalDuration.count else { throw JSONImporterError.tempBasalAndDurationMismatch } let combinedTempBasal = try zip(tempBasal, tempBasalDuration).map { rate, duration in guard rate.timestamp == duration.timestamp else { throw JSONImporterError.tempBasalAndDurationMismatch } return PumpHistoryEvent( id: duration.id, type: .tempBasal, timestamp: duration.timestamp, duration: duration.durationMin, rate: rate.rate, temp: rate.temp ) } return (combinedTempBasal + nonTempBasal).sorted { $0.timestamp < $1.timestamp } } /// checks for pumpHistory inconsistencies that might cause issues if we import these events into CoreData private func checkForInconsistencies(pumpHistory: [PumpHistoryEvent]) throws { // make sure that pump suspends / resumes match up let suspendsAndResumes = pumpHistory.filter({ $0.type == .pumpSuspend || $0.type == .pumpResume }) .sorted { $0.timestamp < $1.timestamp } for (current, next) in zip(suspendsAndResumes, suspendsAndResumes.dropFirst()) { guard current.type != next.type else { throw JSONImporterError.suspendResumePumpEventMismatch } } // check for duplicate events struct TypeTimestamp: Hashable { let timestamp: Date let type: EventType } let duplicates = Dictionary(grouping: pumpHistory) { TypeTimestamp(timestamp: $0.timestamp, type: $0.type) } .values.first(where: { $0.count > 1 }) if duplicates != nil { throw JSONImporterError.duplicatePumpEvents } } /// Imports pump history from a JSON file into CoreData. /// /// The function reads pump history data from the provided JSON file and stores new entries /// in CoreData, skipping entries with timestamps that already exist in the database. /// /// - Parameters: /// - url: The URL of the JSON file containing pump history. /// - now: The current time, used to skip old entries /// - Throws: /// - JSONImporterError.tempBasalAndDurationMismatch if we can't match tempBasals with their duration. /// - An error if the file cannot be read or decoded. /// - An error if the CoreData operation fails. func importPumpHistory(url: URL, now: Date) async throws { let twentyFourHoursAgo = now - 24.hours.timeInterval let pumpHistoryRaw: [PumpHistoryEvent] = try readJsonFile(url: url) let existingTimestamps = try await fetchPumpTimestamps(start: twentyFourHoursAgo, end: now) let pumpHistoryFiltered = pumpHistoryRaw .filter { $0.timestamp >= twentyFourHoursAgo && $0.timestamp <= now && !existingTimestamps.contains($0.timestamp) } let pumpHistory = try combineTempBasalAndDuration(pumpHistory: pumpHistoryFiltered) try checkForInconsistencies(pumpHistory: pumpHistory) // Create a background context for batch processing let backgroundContext = NSManagedObjectContext(concurrencyType: .privateQueueConcurrencyType) backgroundContext.parent = context try await backgroundContext.perform { for pumpEntry in pumpHistory { try pumpEntry.store(in: backgroundContext) } try backgroundContext.save() } try await context.perform { try self.context.save() } } /// Imports carb history from a JSON file into CoreData. /// /// The function reads carb entries data from the provided JSON file and stores new entries /// in CoreData, skipping entries with dates that already exist in the database. /// We ignore all FPU entries (aka carb equivalents) when performing an import. /// /// - Parameters: /// - url: The URL of the JSON file containing glucose history. /// - now: The current datetime /// - Throws: /// - JSONImporterError.missingCarbsValueInCarbEntry if a carb entry is missing a `carbs: Decimal` value. /// - An error if the file cannot be read or decoded. /// - An error if the CoreData operation fails. func importCarbHistory(url: URL, now: Date) async throws { let twentyFourHoursAgo = now - 24.hours.timeInterval let carbHistoryFull: [CarbsEntry] = try readJsonFile(url: url) let existingDates = try await fetchCarbEntryDates(start: twentyFourHoursAgo, end: now) // Only import carb entries from the last 24 hours that do not exist yet in Core Data // Only import "true" carb entries; ignore all FPU entries (aka carb equivalents) let carbHistory = carbHistoryFull .filter { let dateToCheck = $0.actualDate ?? $0.createdAt return dateToCheck >= twentyFourHoursAgo && dateToCheck <= now && !existingDates.contains(dateToCheck) && $0 .isFPU ?? false == false } // Create a background context for batch processing let backgroundContext = NSManagedObjectContext(concurrencyType: .privateQueueConcurrencyType) backgroundContext.parent = context try await backgroundContext.perform { for carbEntry in carbHistory { try carbEntry.store(in: backgroundContext) } try backgroundContext.save() } try await context.perform { try self.context.save() } } /// Imports oref determination from a JSON file into CoreData. /// /// The function reads oref determination data from the provided JSON file and stores new entries /// in CoreData, skipping entries with dates that already exist in the database. /// /// - Parameters: /// - url: The URL of the JSON file containing determination data. /// - Throws: /// - JSONImporterError.missingGlucoseValueInGlucoseEntry if a glucose entry is missing a value. /// - An error if the file cannot be read or decoded. /// - An error if the CoreData operation fails. func importOrefDetermination(enactedUrl: URL, suggestedUrl: URL, now: Date) async throws { let twentyFourHoursAgo = now - 24.hours.timeInterval let enactedDetermination: Determination = try readJsonFile(url: enactedUrl) let suggestedDetermination: Determination = try readJsonFile(url: suggestedUrl) let existingDates = try await fetchDeterminationDates(start: twentyFourHoursAgo, end: now) /// Helper function to check if entries are from within the last 24 hours that do not yet exist in Core Data func checkDeterminationDate(_ date: Date) -> Bool { date >= twentyFourHoursAgo && date <= now && !existingDates.contains(date) } guard let enactedDeliverAt = enactedDetermination.deliverAt, let suggestedDeliverAt = suggestedDetermination.deliverAt else { throw JSONImporterError.missingRequiredPropertyInDetermination("deliverAt") } guard checkDeterminationDate(enactedDeliverAt), checkDeterminationDate(suggestedDeliverAt) else { return } try enactedDetermination.checkForRequiredFields() try suggestedDetermination.checkForRequiredFields() // Create a background context for batch processing let backgroundContext = NSManagedObjectContext(concurrencyType: .privateQueueConcurrencyType) backgroundContext.parent = context try await backgroundContext.perform { /// We know both determination entries are from within last 24 hrs via `checkDeterminationDate()` in the earlier `guard` clause /// If their `deliverAt` does not match, and if `suggestedDeliverAt` is newer, it is worth storing them both, as that represents /// a more recent algorithm run that did not cause a dosing enactment, e.g., a carb entry or a manual bolus. if suggestedDeliverAt > enactedDeliverAt { try suggestedDetermination.store(in: backgroundContext) } try enactedDetermination.store(in: backgroundContext) try backgroundContext.save() } try await context.perform { try self.context.save() } } } // MARK: - Extension for Specific Import Functions extension BloodGlucose { /// Helper function to convert `BloodGlucose` to `GlucoseStored` while importing JSON glucose entries func store(in context: NSManagedObjectContext) throws { guard let glucoseValue = glucose ?? sgv else { throw JSONImporterError.missingGlucoseValueInGlucoseEntry } let glucoseEntry = GlucoseStored(context: context) glucoseEntry.id = _id.flatMap({ UUID(uuidString: $0) }) ?? UUID() glucoseEntry.date = dateString glucoseEntry.glucose = Int16(glucoseValue) glucoseEntry.direction = direction?.rawValue glucoseEntry.isManual = type == "Manual" glucoseEntry.isUploadedToNS = true glucoseEntry.isUploadedToHealth = true glucoseEntry.isUploadedToTidepool = true } } extension PumpHistoryEvent { /// Helper function to convert `PumpHistoryEvent` to `PumpEventStored` while importing JSON pump histories func store(in context: NSManagedObjectContext) throws { let pumpEntry = PumpEventStored(context: context) pumpEntry.id = id pumpEntry.timestamp = timestamp pumpEntry.type = type.rawValue pumpEntry.isUploadedToNS = true pumpEntry.isUploadedToHealth = true pumpEntry.isUploadedToTidepool = true if type == .bolus { guard let amount = amount else { throw JSONImporterError.missingRequiredPropertyInPumpEntry } let bolusEntry = BolusStored(context: context) bolusEntry.amount = NSDecimalNumber(decimal: amount) bolusEntry.isSMB = isSMB ?? false bolusEntry.isExternal = isExternal ?? isExternalInsulin ?? false pumpEntry.bolus = bolusEntry } else if type == .tempBasal { guard let rate = rate, let duration = duration else { throw JSONImporterError.missingRequiredPropertyInPumpEntry } let tempEntry = TempBasalStored(context: context) tempEntry.rate = NSDecimalNumber(decimal: rate) tempEntry.duration = Int16(duration) tempEntry.tempType = temp?.rawValue pumpEntry.tempBasal = tempEntry } } } /// Extension to support decoding `CarbsEntry` from JSON with multiple possible key formats for entry notes. /// /// This is needed because some JSON sources (e.g., Trio v0.2.5) use the singular key `"note"` /// for the `note` field, while others (e.g., Nightscout or oref) use the plural `"notes"`. /// /// To ensure compatibility across all sources without duplicating models or requiring upstream fixes, /// this custom implementation attempts to decode the `note` field first from `"note"`, then from `"notes"`. /// Encoding will always use the canonical `"notes"` key to preserve consistency in output, /// as this is what's established throughout the backend now. extension CarbsEntry: Codable { init(from decoder: Decoder) throws { let container = try decoder.container(keyedBy: CodingKeys.self) id = try container.decodeIfPresent(String.self, forKey: .id) createdAt = try container.decode(Date.self, forKey: .createdAt) actualDate = try container.decodeIfPresent(Date.self, forKey: .actualDate) carbs = try container.decode(Decimal.self, forKey: .carbs) fat = try container.decodeIfPresent(Decimal.self, forKey: .fat) protein = try container.decodeIfPresent(Decimal.self, forKey: .protein) // Handle both `note` and `notes` if let noteValue = try? container.decodeIfPresent(String.self, forKey: .note) { note = noteValue } else if let notesValue = try? container.decodeIfPresent(String.self, forKey: .noteAlt) { note = notesValue } else { note = nil } enteredBy = try container.decodeIfPresent(String.self, forKey: .enteredBy) isFPU = try container.decodeIfPresent(Bool.self, forKey: .isFPU) fpuID = try container.decodeIfPresent(String.self, forKey: .fpuID) } func encode(to encoder: Encoder) throws { var container = encoder.container(keyedBy: CodingKeys.self) try container.encodeIfPresent(id, forKey: .id) try container.encode(createdAt, forKey: .createdAt) try container.encodeIfPresent(actualDate, forKey: .actualDate) try container.encode(carbs, forKey: .carbs) try container.encodeIfPresent(fat, forKey: .fat) try container.encodeIfPresent(protein, forKey: .protein) try container.encodeIfPresent(note, forKey: .note) try container.encodeIfPresent(enteredBy, forKey: .enteredBy) try container.encodeIfPresent(isFPU, forKey: .isFPU) try container.encodeIfPresent(fpuID, forKey: .fpuID) } private enum CodingKeys: String, CodingKey { case id = "_id" case createdAt = "created_at" case actualDate case carbs case fat case protein case note = "notes" // standard key case noteAlt = "note" // import key case enteredBy case isFPU case fpuID } /// Helper function to convert `CarbsStored` to `CarbEntryStored` while importing JSON carb entries func store(in context: NSManagedObjectContext) throws { guard carbs >= 0 else { throw JSONImporterError.missingCarbsValueInCarbEntry } // skip FPU entries for now let carbEntry = CarbEntryStored(context: context) carbEntry.id = id .flatMap({ UUID(uuidString: $0) }) ?? UUID() /// The `CodingKey` of `id` is `_id`, so this fine to use here carbEntry.date = actualDate ?? createdAt carbEntry.carbs = Double(truncating: NSDecimalNumber(decimal: carbs.rounded(toPlaces: 0))) carbEntry.fat = Double(truncating: NSDecimalNumber(decimal: fat?.rounded(toPlaces: 0) ?? 0)) carbEntry.protein = Double(truncating: NSDecimalNumber(decimal: protein?.rounded(toPlaces: 0) ?? 0)) carbEntry.note = note ?? "" carbEntry.isFPU = false carbEntry.isUploadedToNS = true carbEntry.isUploadedToHealth = true carbEntry.isUploadedToTidepool = true } } /// Extension to support decoding `Determination` entries with misspelled keys from external JSON sources. /// /// Some legacy or third-party tools occasionally serialize the `received` property as `"recieved"` /// (misspelled) instead of the correct `"received"`. To prevent decoding failures or data loss, /// this custom decoder attempts to decode from `"received"` first, then falls back to `"recieved"` /// if necessary. /// /// Encoding always uses the correct `"received"` key to ensure consistent, standards-compliant output. /// /// This improves resilience and ensures compatibility with imported loop history, simulations, /// or devicestatus artifacts that may contain typos in their keys. extension Determination: Codable { private enum CodingKeys: String, CodingKey { case id case reason case units case insulinReq case eventualBG case sensitivityRatio case rate case duration case iob = "IOB" case cob = "COB" case predictions = "predBGs" case deliverAt case carbsReq case temp case bg case reservoir case timestamp case isf = "ISF" case current_target case tdd = "TDD" case insulinForManualBolus case manualBolusErrorString case minDelta case expectedDelta case minGuardBG case minPredBG case threshold case carbRatio = "CR" case received case receivedAlt = "recieved" } init(from decoder: Decoder) throws { let container = try decoder.container(keyedBy: CodingKeys.self) id = try container.decodeIfPresent(UUID.self, forKey: .id) reason = try container.decode(String.self, forKey: .reason) units = try container.decodeIfPresent(Decimal.self, forKey: .units) insulinReq = try container.decodeIfPresent(Decimal.self, forKey: .insulinReq) eventualBG = try container.decodeIfPresent(Int.self, forKey: .eventualBG) sensitivityRatio = try container.decodeIfPresent(Decimal.self, forKey: .sensitivityRatio) rate = try container.decodeIfPresent(Decimal.self, forKey: .rate) duration = try container.decodeIfPresent(Decimal.self, forKey: .duration) iob = try container.decodeIfPresent(Decimal.self, forKey: .iob) cob = try container.decodeIfPresent(Decimal.self, forKey: .cob) predictions = try container.decodeIfPresent(Predictions.self, forKey: .predictions) deliverAt = try container.decodeIfPresent(Date.self, forKey: .deliverAt) carbsReq = try container.decodeIfPresent(Decimal.self, forKey: .carbsReq) temp = try container.decodeIfPresent(TempType.self, forKey: .temp) bg = try container.decodeIfPresent(Decimal.self, forKey: .bg) reservoir = try container.decodeIfPresent(Decimal.self, forKey: .reservoir) timestamp = try container.decodeIfPresent(Date.self, forKey: .timestamp) isf = try container.decodeIfPresent(Decimal.self, forKey: .isf) current_target = try container.decodeIfPresent(Decimal.self, forKey: .current_target) tdd = try container.decodeIfPresent(Decimal.self, forKey: .tdd) insulinForManualBolus = try container.decodeIfPresent(Decimal.self, forKey: .insulinForManualBolus) manualBolusErrorString = try container.decodeIfPresent(Decimal.self, forKey: .manualBolusErrorString) minDelta = try container.decodeIfPresent(Decimal.self, forKey: .minDelta) expectedDelta = try container.decodeIfPresent(Decimal.self, forKey: .expectedDelta) minGuardBG = try container.decodeIfPresent(Decimal.self, forKey: .minGuardBG) minPredBG = try container.decodeIfPresent(Decimal.self, forKey: .minPredBG) threshold = try container.decodeIfPresent(Decimal.self, forKey: .threshold) carbRatio = try container.decodeIfPresent(Decimal.self, forKey: .carbRatio) // Handle both spellings of "received" if let value = try container.decodeIfPresent(Bool.self, forKey: .received) { received = value } else if let fallback = try container.decodeIfPresent(Bool.self, forKey: .receivedAlt) { received = fallback } else { received = nil } } func encode(to encoder: Encoder) throws { var container = encoder.container(keyedBy: CodingKeys.self) try container.encodeIfPresent(id, forKey: .id) try container.encode(reason, forKey: .reason) try container.encodeIfPresent(units, forKey: .units) try container.encodeIfPresent(insulinReq, forKey: .insulinReq) try container.encodeIfPresent(eventualBG, forKey: .eventualBG) try container.encodeIfPresent(sensitivityRatio, forKey: .sensitivityRatio) try container.encodeIfPresent(rate, forKey: .rate) try container.encodeIfPresent(duration, forKey: .duration) try container.encodeIfPresent(iob, forKey: .iob) try container.encodeIfPresent(cob, forKey: .cob) try container.encodeIfPresent(predictions, forKey: .predictions) try container.encodeIfPresent(deliverAt, forKey: .deliverAt) try container.encodeIfPresent(carbsReq, forKey: .carbsReq) try container.encodeIfPresent(temp, forKey: .temp) try container.encodeIfPresent(bg, forKey: .bg) try container.encodeIfPresent(reservoir, forKey: .reservoir) try container.encodeIfPresent(timestamp, forKey: .timestamp) try container.encodeIfPresent(isf, forKey: .isf) try container.encodeIfPresent(current_target, forKey: .current_target) try container.encodeIfPresent(tdd, forKey: .tdd) try container.encodeIfPresent(insulinForManualBolus, forKey: .insulinForManualBolus) try container.encodeIfPresent(manualBolusErrorString, forKey: .manualBolusErrorString) try container.encodeIfPresent(minDelta, forKey: .minDelta) try container.encodeIfPresent(expectedDelta, forKey: .expectedDelta) try container.encodeIfPresent(minGuardBG, forKey: .minGuardBG) try container.encodeIfPresent(minPredBG, forKey: .minPredBG) try container.encodeIfPresent(threshold, forKey: .threshold) try container.encodeIfPresent(carbRatio, forKey: .carbRatio) try container.encodeIfPresent(received, forKey: .received) // always encode the correct spelling } func checkForRequiredFields() throws { guard let deliverAt = deliverAt else { throw JSONImporterError.missingRequiredPropertyInDetermination("deliverAt") } guard let timestamp = timestamp else { throw JSONImporterError.missingRequiredPropertyInDetermination("timestamp") } guard reason.isNotEmpty else { throw JSONImporterError.invalidDeterminationReason } guard let insulinReq = insulinReq else { throw JSONImporterError.missingRequiredPropertyInDetermination("insulinReq") } guard let currentTarget = current_target else { throw JSONImporterError.missingRequiredPropertyInDetermination("current_target") } guard let reservoir = reservoir else { throw JSONImporterError.missingRequiredPropertyInDetermination("reservoir") } guard let threshold = threshold else { throw JSONImporterError.missingRequiredPropertyInDetermination("threshold") } guard let iob = iob else { throw JSONImporterError.missingRequiredPropertyInDetermination("IOB") } guard let isf = isf else { throw JSONImporterError.missingRequiredPropertyInDetermination("ISF") } guard let manualBolusErrorString = manualBolusErrorString else { throw JSONImporterError.missingRequiredPropertyInDetermination("manualBolusErrorString") } guard let insulinForManualBolus = insulinForManualBolus else { throw JSONImporterError.missingRequiredPropertyInDetermination("insulinForManualBolus") } guard let cob = cob else { throw JSONImporterError.missingRequiredPropertyInDetermination("COB") } guard let tdd = tdd else { throw JSONImporterError.missingRequiredPropertyInDetermination("TDD") } guard let bg = bg else { throw JSONImporterError.missingRequiredPropertyInDetermination("bg") } guard let minDelta = minDelta else { throw JSONImporterError.missingRequiredPropertyInDetermination("minDelta") } guard let eventualBG = eventualBG else { throw JSONImporterError.missingRequiredPropertyInDetermination("eventualBG") } guard let sensitivityRatio = sensitivityRatio else { throw JSONImporterError.missingRequiredPropertyInDetermination("sensitivityRatio") } guard let temp = temp else { throw JSONImporterError.missingRequiredPropertyInDetermination("temp") } guard let expectedDelta = expectedDelta else { throw JSONImporterError.missingRequiredPropertyInDetermination("expectedDelta") } } /// Helper function to convert `Determination` to `OrefDetermination` while importing JSON glucose entries func store(in context: NSManagedObjectContext) throws { let newOrefDetermination = OrefDetermination(context: context) newOrefDetermination.id = UUID() newOrefDetermination.insulinSensitivity = decimalToNSDecimalNumber(isf) newOrefDetermination.currentTarget = decimalToNSDecimalNumber(current_target) newOrefDetermination.eventualBG = eventualBG.map(NSDecimalNumber.init) newOrefDetermination.deliverAt = deliverAt newOrefDetermination.timestamp = timestamp newOrefDetermination.enacted = received ?? false newOrefDetermination.insulinForManualBolus = decimalToNSDecimalNumber(insulinForManualBolus) newOrefDetermination.carbRatio = decimalToNSDecimalNumber(carbRatio) newOrefDetermination.glucose = decimalToNSDecimalNumber(bg) newOrefDetermination.reservoir = decimalToNSDecimalNumber(reservoir) newOrefDetermination.insulinReq = decimalToNSDecimalNumber(insulinReq) newOrefDetermination.temp = temp?.rawValue ?? "absolute" newOrefDetermination.rate = decimalToNSDecimalNumber(rate) newOrefDetermination.reason = reason newOrefDetermination.duration = decimalToNSDecimalNumber(duration) newOrefDetermination.iob = decimalToNSDecimalNumber(iob) newOrefDetermination.threshold = decimalToNSDecimalNumber(threshold) newOrefDetermination.minDelta = decimalToNSDecimalNumber(minDelta) newOrefDetermination.sensitivityRatio = decimalToNSDecimalNumber(sensitivityRatio) newOrefDetermination.expectedDelta = decimalToNSDecimalNumber(expectedDelta) newOrefDetermination.cob = Int16(Int(cob ?? 0)) newOrefDetermination.manualBolusErrorString = decimalToNSDecimalNumber(manualBolusErrorString) newOrefDetermination.smbToDeliver = units.map { NSDecimalNumber(decimal: $0) } newOrefDetermination.carbsRequired = Int16(Int(carbsReq ?? 0)) newOrefDetermination.isUploadedToNS = true if let predictions = predictions { ["iob": predictions.iob, "zt": predictions.zt, "cob": predictions.cob, "uam": predictions.uam] .forEach { type, values in if let values = values { let forecast = Forecast(context: context) forecast.id = UUID() forecast.type = type forecast.date = Date() forecast.orefDetermination = newOrefDetermination for (index, value) in values.enumerated() { let forecastValue = ForecastValue(context: context) forecastValue.index = Int32(index) forecastValue.value = Int32(value) forecast.addToForecastValues(forecastValue) } newOrefDetermination.addToForecasts(forecast) } } } } func decimalToNSDecimalNumber(_ value: Decimal?) -> NSDecimalNumber? { guard let value = value else { return nil } return NSDecimalNumber(decimal: value) } } extension JSONImporter { private func openAPSFileURL(_ relativePath: String) -> URL { FileManager.default.urls(for: .documentDirectory, in: .userDomainMask).first! .appendingPathComponent(relativePath) } func importGlucoseHistoryIfNeeded() async throws { debug(.coreData, "Checking for glucose history JSON file...") let url = openAPSFileURL(OpenAPS.Monitor.glucose) let suffix = "migrated.json" guard FileManager.default.fileExists(atPath: url.path) else { debug(.coreData, "❌ No JSON file to import at \(url.path)") return } debug(.coreData, "Glucose history JSON file found, proceeding with import of glucose history...") try await importGlucoseHistory(url: url, now: Date()) debug(.coreData, "Glucose history JSON file imported successfully, moving to \(suffix)") try FileManager.default.moveItem( at: url, to: url.deletingPathExtension().appendingPathExtension(suffix) ) debug(.coreData, "Import of glucose history completed successfully.") } func importPumpHistoryIfNeeded() async throws { debug(.coreData, "Checking for pump history JSON file...") let url = openAPSFileURL(OpenAPS.Monitor.pumpHistory) let suffix = "migrated.json" guard FileManager.default.fileExists(atPath: url.path) else { debug(.coreData, "❌ No JSON file to import at \(url.path)") return } debug(.coreData, "Pump history JSON file found, proceeding with import of glucose history...") try await importPumpHistory(url: url, now: Date()) debug(.coreData, "Pump history JSON file imported successfully, moving to \(suffix)") try FileManager.default.moveItem( at: url, to: url.deletingPathExtension().appendingPathExtension(suffix) ) debug(.coreData, "Import of pump history completed successfully.") } func importCarbHistoryIfNeeded() async throws { debug(.coreData, "Checking for carb history JSON file...") let url = openAPSFileURL(OpenAPS.Monitor.carbHistory) let suffix = "migrated.json" guard FileManager.default.fileExists(atPath: url.path) else { debug(.coreData, "❌ No JSON file to import at \(url.path)") return } debug(.coreData, "Carb history JSON file found, proceeding with import of glucose history...") try await importCarbHistory(url: url, now: Date()) debug(.coreData, "Carb history JSON file imported successfully, moving to \(suffix)") try FileManager.default.moveItem( at: url, to: url.deletingPathExtension().appendingPathExtension(suffix) ) debug(.coreData, "Import of carb history completed successfully.") } func importDeterminationIfNeeded() async throws { debug(.coreData, "Checking for determination JSON files...") let enactedPath = OpenAPS.Enact.enacted // "enact/enacted.json" let suggestedPath = OpenAPS.Enact.suggested // "enact/suggested.json" let suffix = "migrated.json" let enactedURL = openAPSFileURL(enactedPath) let suggestedURL = openAPSFileURL(suggestedPath) guard FileManager.default.fileExists(atPath: enactedURL.path), FileManager.default.fileExists(atPath: suggestedURL.path) else { debug(.coreData, "❌ No JSON file to import at \(enactedURL.path) and/or \(suggestedURL.path)") return } debug(.coreData, "Determination JSON files found, proceeding with import...") try await importOrefDetermination(enactedUrl: enactedURL, suggestedUrl: suggestedURL, now: Date()) debug(.coreData, "Determination JSON file(s) imported successfully, moving to \(suffix)") try FileManager.default.moveItem(at: enactedURL, to: enactedURL.deletingPathExtension().appendingPathExtension(suffix)) try FileManager.default.moveItem( at: suggestedURL, to: suggestedURL.deletingPathExtension().appendingPathExtension(suffix) ) debug(.coreData, "Import of determination data completed successfully.") } }