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- import Combine
- import CoreData
- import Foundation
- import LoopKit
- import LoopKitUI
- import OmniBLE
- import OmniKit
- import RileyLinkKit
- import SwiftDate
- import Swinject
- protocol APSManager {
- func heartbeat(date: Date)
- func autotune() -> AnyPublisher<Autotune?, Never>
- func enactBolus(amount: Double, isSMB: Bool)
- var pumpManager: PumpManagerUI? { get set }
- var bluetoothManager: BluetoothStateManager? { get }
- var pumpDisplayState: CurrentValueSubject<PumpDisplayState?, Never> { get }
- var pumpName: CurrentValueSubject<String, Never> { get }
- var isLooping: CurrentValueSubject<Bool, Never> { get }
- var lastLoopDate: Date { get }
- var lastLoopDateSubject: PassthroughSubject<Date, Never> { get }
- var bolusProgress: CurrentValueSubject<Decimal?, Never> { get }
- var pumpExpiresAtDate: CurrentValueSubject<Date?, Never> { get }
- var isManualTempBasal: Bool { get }
- func enactTempBasal(rate: Double, duration: TimeInterval)
- func makeProfiles() -> AnyPublisher<Bool, Never>
- func determineBasal() -> AnyPublisher<Bool, Never>
- func determineBasalSync()
- func roundBolus(amount: Decimal) -> Decimal
- var lastError: CurrentValueSubject<Error?, Never> { get }
- func cancelBolus()
- func enactAnnouncement(_ announcement: Announcement)
- }
- enum APSError: LocalizedError {
- case pumpError(Error)
- case invalidPumpState(message: String)
- case glucoseError(message: String)
- case apsError(message: String)
- case deviceSyncError(message: String)
- case manualBasalTemp(message: String)
- var errorDescription: String? {
- switch self {
- case let .pumpError(error):
- return "Pump error: \(error.localizedDescription)"
- case let .invalidPumpState(message):
- return "Error: Invalid Pump State: \(message)"
- case let .glucoseError(message):
- return "Error: Invalid glucose: \(message)"
- case let .apsError(message):
- return "APS error: \(message)"
- case let .deviceSyncError(message):
- return "Sync error: \(message)"
- case let .manualBasalTemp(message):
- return "Manual Basal Temp : \(message)"
- }
- }
- }
- final class BaseAPSManager: APSManager, Injectable {
- private let processQueue = DispatchQueue(label: "BaseAPSManager.processQueue")
- @Injected() private var storage: FileStorage!
- @Injected() private var pumpHistoryStorage: PumpHistoryStorage!
- @Injected() private var alertHistoryStorage: AlertHistoryStorage!
- @Injected() private var glucoseStorage: GlucoseStorage!
- @Injected() private var tempTargetsStorage: TempTargetsStorage!
- @Injected() private var carbsStorage: CarbsStorage!
- @Injected() private var announcementsStorage: AnnouncementsStorage!
- @Injected() private var deviceDataManager: DeviceDataManager!
- @Injected() private var nightscout: NightscoutManager!
- @Injected() private var settingsManager: SettingsManager!
- @Injected() private var broadcaster: Broadcaster!
- @Injected() private var healthKitManager: HealthKitManager!
- @Persisted(key: "lastAutotuneDate") private var lastAutotuneDate = Date()
- @Persisted(key: "lastStartLoopDate") private var lastStartLoopDate: Date = .distantPast
- @Persisted(key: "lastLoopDate") var lastLoopDate: Date = .distantPast {
- didSet {
- lastLoopDateSubject.send(lastLoopDate)
- }
- }
- let coredataContext = CoreDataStack.shared.persistentContainer.newBackgroundContext()
- private var openAPS: OpenAPS!
- private var lifetime = Lifetime()
- private var backGroundTaskID: UIBackgroundTaskIdentifier?
- var pumpManager: PumpManagerUI? {
- get { deviceDataManager.pumpManager }
- set { deviceDataManager.pumpManager = newValue }
- }
- var bluetoothManager: BluetoothStateManager? { deviceDataManager.bluetoothManager }
- @Persisted(key: "isManualTempBasal") var isManualTempBasal: Bool = false
- let isLooping = CurrentValueSubject<Bool, Never>(false)
- let lastLoopDateSubject = PassthroughSubject<Date, Never>()
- let lastError = CurrentValueSubject<Error?, Never>(nil)
- let bolusProgress = CurrentValueSubject<Decimal?, Never>(nil)
- var pumpDisplayState: CurrentValueSubject<PumpDisplayState?, Never> {
- deviceDataManager.pumpDisplayState
- }
- var pumpName: CurrentValueSubject<String, Never> {
- deviceDataManager.pumpName
- }
- var pumpExpiresAtDate: CurrentValueSubject<Date?, Never> {
- deviceDataManager.pumpExpiresAtDate
- }
- var settings: FreeAPSSettings {
- get { settingsManager.settings }
- set { settingsManager.settings = newValue }
- }
- init(resolver: Resolver) {
- injectServices(resolver)
- openAPS = OpenAPS(storage: storage)
- subscribe()
- lastLoopDateSubject.send(lastLoopDate)
- isLooping
- .weakAssign(to: \.deviceDataManager.loopInProgress, on: self)
- .store(in: &lifetime)
- }
- private func subscribe() {
- deviceDataManager.recommendsLoop
- .receive(on: processQueue)
- .sink { [weak self] in
- self?.loop()
- }
- .store(in: &lifetime)
- pumpManager?.addStatusObserver(self, queue: processQueue)
- deviceDataManager.errorSubject
- .receive(on: processQueue)
- .map { APSError.pumpError($0) }
- .sink {
- self.processError($0)
- }
- .store(in: &lifetime)
- deviceDataManager.bolusTrigger
- .receive(on: processQueue)
- .sink { bolusing in
- if bolusing {
- self.createBolusReporter()
- } else {
- self.clearBolusReporter()
- }
- }
- .store(in: &lifetime)
- // manage a manual Temp Basal from OmniPod - Force loop() after stop a temp basal or finished
- deviceDataManager.manualTempBasal
- .receive(on: processQueue)
- .sink { manualBasal in
- if manualBasal {
- self.isManualTempBasal = true
- } else {
- if self.isManualTempBasal {
- self.isManualTempBasal = false
- self.loop()
- }
- }
- }
- .store(in: &lifetime)
- }
- func heartbeat(date: Date) {
- deviceDataManager.heartbeat(date: date)
- }
- // Loop entry point
- private func loop() {
- // check the last start of looping is more the loopInterval but the previous loop was completed
- if lastLoopDate > lastStartLoopDate {
- guard lastStartLoopDate.addingTimeInterval(Config.loopInterval) < Date() else {
- debug(.apsManager, "too close to do a loop : \(lastStartLoopDate)")
- return
- }
- }
- guard !isLooping.value else {
- warning(.apsManager, "Loop already in progress. Skip recommendation.")
- return
- }
- // start background time extension
- backGroundTaskID = UIApplication.shared.beginBackgroundTask(withName: "Loop starting") {
- guard let backgroundTask = self.backGroundTaskID else { return }
- UIApplication.shared.endBackgroundTask(backgroundTask)
- self.backGroundTaskID = .invalid
- }
- debug(.apsManager, "Starting loop with a delay of \(UIApplication.shared.backgroundTimeRemaining.rounded())")
- lastStartLoopDate = Date()
- var loopStatRecord = LoopStats(
- start: lastStartLoopDate,
- loopStatus: "Starting"
- )
- isLooping.send(true)
- determineBasal()
- .replaceEmpty(with: false)
- .flatMap { [weak self] success -> AnyPublisher<Void, Error> in
- guard let self = self, success else {
- return Fail(error: APSError.apsError(message: "Determine basal failed")).eraseToAnyPublisher()
- }
- // Open loop completed
- guard self.settings.closedLoop else {
- self.nightscout.uploadStatus()
- return Just(()).setFailureType(to: Error.self).eraseToAnyPublisher()
- }
- self.nightscout.uploadStatus()
- // Closed loop - enact suggested
- return self.enactSuggested()
- }
- .sink { [weak self] completion in
- guard let self = self else { return }
- loopStatRecord.end = Date()
- loopStatRecord.duration = self.roundDouble(
- (loopStatRecord.end! - loopStatRecord.start).timeInterval / 60,
- 2
- )
- if case let .failure(error) = completion {
- loopStatRecord.loopStatus = error.localizedDescription
- self.loopCompleted(error: error, loopStatRecord: loopStatRecord)
- } else {
- loopStatRecord.loopStatus = "Success"
- self.loopCompleted(loopStatRecord: loopStatRecord)
- }
- } receiveValue: {}
- .store(in: &lifetime)
- }
- // Loop exit point
- private func loopCompleted(error: Error? = nil, loopStatRecord: LoopStats) {
- isLooping.send(false)
- // save AH events
- let events = pumpHistoryStorage.recent()
- healthKitManager.saveIfNeeded(pumpEvents: events)
- if let error = error {
- warning(.apsManager, "Loop failed with error: \(error.localizedDescription)")
- if let backgroundTask = backGroundTaskID {
- UIApplication.shared.endBackgroundTask(backgroundTask)
- backGroundTaskID = .invalid
- }
- processError(error)
- } else {
- debug(.apsManager, "Loop succeeded")
- lastLoopDate = Date()
- lastError.send(nil)
- }
- loopStats(loopStatRecord: loopStatRecord)
- if settings.closedLoop {
- reportEnacted(received: error == nil)
- }
- // end of the BG tasks
- if let backgroundTask = backGroundTaskID {
- UIApplication.shared.endBackgroundTask(backgroundTask)
- backGroundTaskID = .invalid
- }
- }
- private func verifyStatus() -> Error? {
- guard let pump = pumpManager else {
- return APSError.invalidPumpState(message: "Pump not set")
- }
- let status = pump.status.pumpStatus
- guard !status.bolusing else {
- return APSError.invalidPumpState(message: "Pump is bolusing")
- }
- guard !status.suspended else {
- return APSError.invalidPumpState(message: "Pump suspended")
- }
- let reservoir = storage.retrieve(OpenAPS.Monitor.reservoir, as: Decimal.self) ?? 100
- guard reservoir >= 0 else {
- return APSError.invalidPumpState(message: "Reservoir is empty")
- }
- return nil
- }
- private func autosens() -> AnyPublisher<Bool, Never> {
- guard let autosens = storage.retrieve(OpenAPS.Settings.autosense, as: Autosens.self),
- (autosens.timestamp ?? .distantPast).addingTimeInterval(30.minutes.timeInterval) > Date()
- else {
- return openAPS.autosense()
- .map { $0 != nil }
- .eraseToAnyPublisher()
- }
- return Just(false).eraseToAnyPublisher()
- }
- func determineBasal() -> AnyPublisher<Bool, Never> {
- debug(.apsManager, "Start determine basal")
- guard let glucose = storage.retrieve(OpenAPS.Monitor.glucose, as: [BloodGlucose].self), glucose.isNotEmpty else {
- debug(.apsManager, "Not enough glucose data")
- processError(APSError.glucoseError(message: "Not enough glucose data"))
- return Just(false).eraseToAnyPublisher()
- }
- let lastGlucoseDate = glucoseStorage.lastGlucoseDate()
- guard lastGlucoseDate >= Date().addingTimeInterval(-12.minutes.timeInterval) else {
- debug(.apsManager, "Glucose data is stale")
- processError(APSError.glucoseError(message: "Glucose data is stale"))
- return Just(false).eraseToAnyPublisher()
- }
- guard glucoseStorage.isGlucoseNotFlat() else {
- debug(.apsManager, "Glucose data is too flat")
- processError(APSError.glucoseError(message: "Glucose data is too flat"))
- return Just(false).eraseToAnyPublisher()
- }
- let now = Date()
- let temp = currentTemp(date: now)
- let mainPublisher = makeProfiles()
- .flatMap { _ in self.autosens() }
- .flatMap { _ in self.dailyAutotune() }
- .flatMap { _ in self.openAPS.determineBasal(currentTemp: temp, clock: now) }
- .map { suggestion -> Bool in
- if let suggestion = suggestion {
- DispatchQueue.main.async {
- self.broadcaster.notify(SuggestionObserver.self, on: .main) {
- $0.suggestionDidUpdate(suggestion)
- }
- }
- }
- return suggestion != nil
- }
- .eraseToAnyPublisher()
- if temp.duration == 0,
- settings.closedLoop,
- settingsManager.preferences.unsuspendIfNoTemp,
- let pump = pumpManager,
- pump.status.pumpStatus.suspended
- {
- return pump.resumeDelivery()
- .flatMap { _ in mainPublisher }
- .replaceError(with: false)
- .eraseToAnyPublisher()
- }
- return mainPublisher
- }
- func determineBasalSync() {
- determineBasal().cancellable().store(in: &lifetime)
- }
- func makeProfiles() -> AnyPublisher<Bool, Never> {
- openAPS.makeProfiles(useAutotune: settings.useAutotune)
- .map { tunedProfile in
- if let basalProfile = tunedProfile?.basalProfile {
- self.processQueue.async {
- self.broadcaster.notify(BasalProfileObserver.self, on: self.processQueue) {
- $0.basalProfileDidChange(basalProfile)
- }
- }
- }
- return tunedProfile != nil
- }
- .eraseToAnyPublisher()
- }
- func roundBolus(amount: Decimal) -> Decimal {
- guard let pump = pumpManager else { return amount }
- let rounded = Decimal(pump.roundToSupportedBolusVolume(units: Double(amount)))
- let maxBolus = Decimal(pump.roundToSupportedBolusVolume(units: Double(settingsManager.pumpSettings.maxBolus)))
- return min(rounded, maxBolus)
- }
- private var bolusReporter: DoseProgressReporter?
- func enactBolus(amount: Double, isSMB: Bool) {
- if let error = verifyStatus() {
- processError(error)
- processQueue.async {
- self.broadcaster.notify(BolusFailureObserver.self, on: self.processQueue) {
- $0.bolusDidFail()
- }
- }
- return
- }
- guard let pump = pumpManager else { return }
- let roundedAmout = pump.roundToSupportedBolusVolume(units: amount)
- debug(.apsManager, "Enact bolus \(roundedAmout), manual \(!isSMB)")
- pump.enactBolus(units: roundedAmout, automatic: isSMB).sink { completion in
- if case let .failure(error) = completion {
- warning(.apsManager, "Bolus failed with error: \(error.localizedDescription)")
- self.processError(APSError.pumpError(error))
- if !isSMB {
- self.processQueue.async {
- self.broadcaster.notify(BolusFailureObserver.self, on: self.processQueue) {
- $0.bolusDidFail()
- }
- }
- }
- } else {
- debug(.apsManager, "Bolus succeeded")
- if !isSMB {
- self.determineBasal().sink { _ in }.store(in: &self.lifetime)
- }
- self.bolusProgress.send(0)
- }
- } receiveValue: { _ in }
- .store(in: &lifetime)
- }
- func cancelBolus() {
- guard let pump = pumpManager, pump.status.pumpStatus.bolusing else { return }
- debug(.apsManager, "Cancel bolus")
- pump.cancelBolus().sink { completion in
- if case let .failure(error) = completion {
- debug(.apsManager, "Bolus cancellation failed with error: \(error.localizedDescription)")
- self.processError(APSError.pumpError(error))
- } else {
- debug(.apsManager, "Bolus cancelled")
- }
- self.bolusReporter?.removeObserver(self)
- self.bolusReporter = nil
- self.bolusProgress.send(nil)
- } receiveValue: { _ in }
- .store(in: &lifetime)
- }
- func enactTempBasal(rate: Double, duration: TimeInterval) {
- if let error = verifyStatus() {
- processError(error)
- return
- }
- guard let pump = pumpManager else { return }
- // unable to do temp basal during manual temp basal 😁
- if isManualTempBasal {
- processError(APSError.manualBasalTemp(message: "Loop not possible during the manual basal temp"))
- return
- }
- debug(.apsManager, "Enact temp basal \(rate) - \(duration)")
- let roundedAmout = pump.roundToSupportedBasalRate(unitsPerHour: rate)
- pump.enactTempBasal(unitsPerHour: roundedAmout, for: duration) { error in
- if let error = error {
- debug(.apsManager, "Temp Basal failed with error: \(error.localizedDescription)")
- self.processError(APSError.pumpError(error))
- } else {
- debug(.apsManager, "Temp Basal succeeded")
- let temp = TempBasal(duration: Int(duration / 60), rate: Decimal(rate), temp: .absolute, timestamp: Date())
- self.storage.save(temp, as: OpenAPS.Monitor.tempBasal)
- if rate == 0, duration == 0 {
- self.pumpHistoryStorage.saveCancelTempEvents()
- }
- }
- }
- }
- func dailyAutotune() -> AnyPublisher<Bool, Never> {
- guard settings.useAutotune else {
- return Just(false).eraseToAnyPublisher()
- }
- let now = Date()
- guard lastAutotuneDate.isBeforeDate(now, granularity: .day) else {
- return Just(false).eraseToAnyPublisher()
- }
- lastAutotuneDate = now
- return autotune().map { $0 != nil }.eraseToAnyPublisher()
- }
- func autotune() -> AnyPublisher<Autotune?, Never> {
- openAPS.autotune().eraseToAnyPublisher()
- }
- func enactAnnouncement(_ announcement: Announcement) {
- guard let action = announcement.action else {
- warning(.apsManager, "Invalid Announcement action")
- return
- }
- guard let pump = pumpManager else {
- warning(.apsManager, "Pump is not set")
- return
- }
- debug(.apsManager, "Start enact announcement: \(action)")
- switch action {
- case let .bolus(amount):
- if let error = verifyStatus() {
- processError(error)
- return
- }
- let roundedAmount = pump.roundToSupportedBolusVolume(units: Double(amount))
- pump.enactBolus(units: roundedAmount, activationType: .manualRecommendationAccepted) { error in
- if let error = error {
- // warning(.apsManager, "Announcement Bolus failed with error: \(error.localizedDescription)")
- switch error {
- case .uncertainDelivery:
- // Do not generate notification on uncertain delivery error
- break
- default:
- // Do not generate notifications for automatic boluses that fail.
- warning(.apsManager, "Announcement Bolus failed with error: \(error.localizedDescription)")
- }
- } else {
- debug(.apsManager, "Announcement Bolus succeeded")
- self.announcementsStorage.storeAnnouncements([announcement], enacted: true)
- self.bolusProgress.send(0)
- }
- }
- case let .pump(pumpAction):
- switch pumpAction {
- case .suspend:
- if let error = verifyStatus() {
- processError(error)
- return
- }
- pump.suspendDelivery { error in
- if let error = error {
- debug(.apsManager, "Pump not suspended by Announcement: \(error.localizedDescription)")
- } else {
- debug(.apsManager, "Pump suspended by Announcement")
- self.announcementsStorage.storeAnnouncements([announcement], enacted: true)
- self.nightscout.uploadStatus()
- }
- }
- case .resume:
- guard pump.status.pumpStatus.suspended else {
- return
- }
- pump.resumeDelivery { error in
- if let error = error {
- warning(.apsManager, "Pump not resumed by Announcement: \(error.localizedDescription)")
- } else {
- debug(.apsManager, "Pump resumed by Announcement")
- self.announcementsStorage.storeAnnouncements([announcement], enacted: true)
- self.nightscout.uploadStatus()
- }
- }
- }
- case let .looping(closedLoop):
- settings.closedLoop = closedLoop
- debug(.apsManager, "Closed loop \(closedLoop) by Announcement")
- announcementsStorage.storeAnnouncements([announcement], enacted: true)
- case let .tempbasal(rate, duration):
- if let error = verifyStatus() {
- processError(error)
- return
- }
- // unable to do temp basal during manual temp basal 😁
- if isManualTempBasal {
- processError(APSError.manualBasalTemp(message: "Loop not possible during the manual basal temp"))
- return
- }
- guard !settings.closedLoop else {
- return
- }
- let roundedRate = pump.roundToSupportedBasalRate(unitsPerHour: Double(rate))
- pump.enactTempBasal(unitsPerHour: roundedRate, for: TimeInterval(duration) * 60) { error in
- if let error = error {
- warning(.apsManager, "Announcement TempBasal failed with error: \(error.localizedDescription)")
- } else {
- debug(.apsManager, "Announcement TempBasal succeeded")
- self.announcementsStorage.storeAnnouncements([announcement], enacted: true)
- }
- }
- }
- }
- private func currentTemp(date: Date) -> TempBasal {
- let defaultTemp = { () -> TempBasal in
- guard let temp = storage.retrieve(OpenAPS.Monitor.tempBasal, as: TempBasal.self) else {
- return TempBasal(duration: 0, rate: 0, temp: .absolute, timestamp: Date())
- }
- let delta = Int((date.timeIntervalSince1970 - temp.timestamp.timeIntervalSince1970) / 60)
- let duration = max(0, temp.duration - delta)
- return TempBasal(duration: duration, rate: temp.rate, temp: .absolute, timestamp: date)
- }()
- guard let state = pumpManager?.status.basalDeliveryState else { return defaultTemp }
- switch state {
- case .active:
- return TempBasal(duration: 0, rate: 0, temp: .absolute, timestamp: date)
- case let .tempBasal(dose):
- let rate = Decimal(dose.unitsPerHour)
- let durationMin = max(0, Int((dose.endDate.timeIntervalSince1970 - date.timeIntervalSince1970) / 60))
- return TempBasal(duration: durationMin, rate: rate, temp: .absolute, timestamp: date)
- default:
- return defaultTemp
- }
- }
- private func enactSuggested() -> AnyPublisher<Void, Error> {
- guard let suggested = storage.retrieve(OpenAPS.Enact.suggested, as: Suggestion.self) else {
- return Fail(error: APSError.apsError(message: "Suggestion not found")).eraseToAnyPublisher()
- }
- guard Date().timeIntervalSince(suggested.deliverAt ?? .distantPast) < Config.eхpirationInterval else {
- return Fail(error: APSError.apsError(message: "Suggestion expired")).eraseToAnyPublisher()
- }
- guard let pump = pumpManager else {
- return Fail(error: APSError.apsError(message: "Pump not set")).eraseToAnyPublisher()
- }
- // unable to do temp basal during manual temp basal 😁
- if isManualTempBasal {
- return Fail(error: APSError.manualBasalTemp(message: "Loop not possible during the manual basal temp"))
- .eraseToAnyPublisher()
- }
- let basalPublisher: AnyPublisher<Void, Error> = Deferred { () -> AnyPublisher<Void, Error> in
- if let error = self.verifyStatus() {
- return Fail(error: error).eraseToAnyPublisher()
- }
- guard let rate = suggested.rate, let duration = suggested.duration else {
- // It is OK, no temp required
- debug(.apsManager, "No temp required")
- return Just(()).setFailureType(to: Error.self)
- .eraseToAnyPublisher()
- }
- return pump.enactTempBasal(unitsPerHour: Double(rate), for: TimeInterval(duration * 60)).map { _ in
- let temp = TempBasal(duration: duration, rate: rate, temp: .absolute, timestamp: Date())
- self.storage.save(temp, as: OpenAPS.Monitor.tempBasal)
- return ()
- }
- .eraseToAnyPublisher()
- }.eraseToAnyPublisher()
- let bolusPublisher: AnyPublisher<Void, Error> = Deferred { () -> AnyPublisher<Void, Error> in
- if let error = self.verifyStatus() {
- return Fail(error: error).eraseToAnyPublisher()
- }
- guard let units = suggested.units else {
- // It is OK, no bolus required
- debug(.apsManager, "No bolus required")
- return Just(()).setFailureType(to: Error.self)
- .eraseToAnyPublisher()
- }
- return pump.enactBolus(units: Double(units), automatic: true).map { _ in
- self.bolusProgress.send(0)
- return ()
- }
- .eraseToAnyPublisher()
- }.eraseToAnyPublisher()
- return basalPublisher.flatMap { bolusPublisher }.eraseToAnyPublisher()
- }
- private func reportEnacted(received: Bool) {
- if let suggestion = storage.retrieve(OpenAPS.Enact.suggested, as: Suggestion.self), suggestion.deliverAt != nil {
- var enacted = suggestion
- enacted.timestamp = Date()
- enacted.recieved = received
- storage.save(enacted, as: OpenAPS.Enact.enacted)
- debug(.apsManager, "Suggestion enacted. Received: \(received)")
- DispatchQueue.main.async {
- self.broadcaster.notify(EnactedSuggestionObserver.self, on: .main) {
- $0.enactedSuggestionDidUpdate(enacted)
- }
- }
- nightscout.uploadStatus()
- // Update the TDD value
- tdd(enacted_: enacted)
- // Update statistics
- statistics()
- }
- }
- private func tdd(enacted_: Suggestion) {
- let tddStartedAt = Date()
- let preferences = settingsManager.preferences
- let currentTDD = enacted_.tdd ?? 0
- // MARK: Fetch data from Core Data: TDD Entity. TEST:
- if currentTDD > 0 {
- let tenDaysAgo = Date().addingTimeInterval(-10.days.timeInterval)
- let twoHoursAgo = Date().addingTimeInterval(-2.hours.timeInterval)
- var uniqEvents = [TDD]()
- var total: Decimal = 0
- var totalAmount: Decimal = 0
- var indeces: Int = 0
- var nrOfIndeces: Int = 0
- var booleanArray = [ViewPercentage]()
- var isPercentageEnabled = false
- coredataContext.performAndWait {
- let requestTDD = TDD.fetchRequest() as NSFetchRequest<TDD>
- requestTDD.predicate = NSPredicate(format: "timestamp > %@ AND tdd > 0", tenDaysAgo as NSDate)
- let sortTDD = NSSortDescriptor(key: "timestamp", ascending: true)
- requestTDD.sortDescriptors = [sortTDD]
- try? uniqEvents = coredataContext.fetch(requestTDD)
- let requestIsEnbled = ViewPercentage.fetchRequest() as NSFetchRequest<ViewPercentage>
- let sortIsEnabled = NSSortDescriptor(key: "date", ascending: false)
- requestIsEnbled.sortDescriptors = [sortIsEnabled]
- requestIsEnbled.fetchLimit = 1
- try? booleanArray = coredataContext.fetch(requestIsEnbled)
- total = uniqEvents.compactMap({ each in each.tdd as? Decimal ?? 0 }).reduce(0, +)
- indeces = uniqEvents.count
- // Only fetch once. Use same (previous) fetch
- let twoHoursArray = uniqEvents.filter({ ($0.timestamp ?? Date()) >= twoHoursAgo })
- nrOfIndeces = twoHoursArray.count
- totalAmount = twoHoursArray.compactMap({ each in each.tdd as? Decimal ?? 0 }).reduce(0, +)
- }
- if indeces == 0 {
- indeces = 1
- }
- if nrOfIndeces == 0 {
- nrOfIndeces = 1
- }
- let average2hours = totalAmount / Decimal(nrOfIndeces)
- let average14 = total / Decimal(indeces)
- let weight = preferences.weightPercentage
- let weighted_average = weight * average2hours + (1 - weight) * average14
- if !booleanArray.isEmpty {
- isPercentageEnabled = booleanArray[0].enabled
- }
- let averages = TDD_averages(
- average_total_data: roundDecimal(average14, 1),
- weightedAverage: roundDecimal(weighted_average, 1),
- past2hoursAverage: roundDecimal(average2hours, 1),
- date: Date(),
- isEnabled: isPercentageEnabled
- )
- storage.save(averages, as: OpenAPS.Monitor.tdd_averages)
- print("Test time of TDD: \(-1 * tddStartedAt.timeIntervalSinceNow) s")
- }
- }
- private func roundDecimal(_ decimal: Decimal, _ digits: Double) -> Decimal {
- let rounded = round(Double(decimal) * pow(10, digits)) / pow(10, digits)
- return Decimal(rounded)
- }
- private func roundDouble(_ double: Double, _ digits: Double) -> Double {
- let rounded = round(Double(double) * pow(10, digits)) / pow(10, digits)
- return rounded
- }
- private func medianCalculation(array: [Double]) -> Double {
- guard !array.isEmpty else {
- return 0
- }
- let sorted = array.sorted()
- let length = array.count
- if length % 2 == 0 {
- return (sorted[length / 2 - 1] + sorted[length / 2]) / 2
- }
- return sorted[length / 2]
- }
- // Add to statistics.JSON
- private func statistics() {
- let statisticsStartedAt = Date()
- var testFile: [Statistics] = []
- var testIfEmpty = 0
- storage.transaction { storage in
- testFile = storage.retrieve(OpenAPS.Monitor.statistics, as: [Statistics].self) ?? []
- testIfEmpty = testFile.count
- }
- let updateThisOften = Int(settingsManager.preferences.updateInterval)
- // Only run every 30 minutes or according to setting.
- if testIfEmpty != 0 {
- guard testFile[0].created_at.addingTimeInterval(updateThisOften.minutes.timeInterval) < Date()
- else {
- return
- }
- }
- let units = settingsManager.settings.units
- let preferences = settingsManager.preferences
- // MARK: Fetch Carbs from CoreData
- var carbs = [Carbohydrates]()
- var carbTotal: Decimal = 0
- coredataContext.performAndWait {
- let requestCarbs = Carbohydrates.fetchRequest() as NSFetchRequest<Carbohydrates>
- let daysAgo = Date().addingTimeInterval(-1.days.timeInterval)
- requestCarbs.predicate = NSPredicate(format: "carbs > 0 AND date > %@", daysAgo as NSDate)
- let sortCarbs = NSSortDescriptor(key: "date", ascending: true)
- requestCarbs.sortDescriptors = [sortCarbs]
- try? carbs = coredataContext.fetch(requestCarbs)
- carbTotal = carbs.map({ carbs in carbs.carbs as? Decimal ?? 0 }).reduce(0, +)
- }
- // MARK: Fetch TDD from CoreData
- var tdds = [TDD]()
- var currentTDD: Decimal = 0
- coredataContext.performAndWait {
- let requestTDD = TDD.fetchRequest() as NSFetchRequest<TDD>
- let sort = NSSortDescriptor(key: "timestamp", ascending: false)
- requestTDD.sortDescriptors = [sort]
- requestTDD.fetchLimit = 1
- try? tdds = coredataContext.fetch(requestTDD)
- if !tdds.isEmpty {
- currentTDD = tdds[0].tdd?.decimalValue ?? 0
- }
- }
- var algo_ = "Oref0"
- if preferences.sigmoid, preferences.enableDynamicCR {
- algo_ = "Dynamic ISF + CR: Sigmoid"
- } else if preferences.sigmoid, !preferences.enableDynamicCR {
- algo_ = "Dynamic ISF: Sigmoid"
- } else if preferences.useNewFormula, preferences.enableDynamicCR {
- algo_ = "Dynamic ISF + CR: Logarithmic"
- } else if preferences.useNewFormula, !preferences.sigmoid,!preferences.enableDynamicCR {
- algo_ = "Dynamic ISF: Logarithmic"
- }
- let af = preferences.adjustmentFactor
- let insulin_type = preferences.curve
- let buildDate = Bundle.main.buildDate
- let version = Bundle.main.releaseVersionNumber
- let build = Bundle.main.buildVersionNumber
- let branch = Bundle.main.infoDictionary?["BuildBranch"] as? String ?? ""
- let copyrightNotice_ = Bundle.main.infoDictionary?["NSHumanReadableCopyright"] as? String ?? ""
- let pump_ = pumpManager?.localizedTitle ?? ""
- let cgm = settingsManager.settings.cgm
- let file = OpenAPS.Monitor.statistics
- var iPa: Decimal = 75
- if preferences.useCustomPeakTime {
- iPa = preferences.insulinPeakTime
- } else if preferences.curve.rawValue == "rapid-acting" {
- iPa = 65
- } else if preferences.curve.rawValue == "ultra-rapid" {
- iPa = 50
- }
- // MARK: Fetch LoopStatRecords from CoreData
- var lsr = [LoopStatRecord]()
- var successRate: Double?
- var successNR = 0
- var errorNR = 0
- var minimumInt = 999.0
- var maximumInt = 0.0
- var minimumLoopTime = 9999.0
- var maximumLoopTime = 0.0
- var timeIntervalLoops = 0.0
- var previousTimeLoop = Date()
- var timeForOneLoop = 0.0
- var averageLoopTime = 0.0
- var timeForOneLoopArray: [Double] = []
- var medianLoopTime = 0.0
- var timeIntervalLoopArray: [Double] = []
- var medianInterval = 0.0
- var averageIntervalLoops = 0.0
- var averageLoopDuration = 0.0
- coredataContext.performAndWait {
- let requestLSR = LoopStatRecord.fetchRequest() as NSFetchRequest<LoopStatRecord>
- requestLSR.predicate = NSPredicate(format: "start > %@", Date().addingTimeInterval(-24.hours.timeInterval) as NSDate)
- let sortLSR = NSSortDescriptor(key: "start", ascending: false)
- requestLSR.sortDescriptors = [sortLSR]
- try? lsr = coredataContext.fetch(requestLSR)
- if lsr.isNotEmpty {
- var i = 0.0
- if let loopEnd = lsr[0].end {
- previousTimeLoop = loopEnd
- }
- for each in lsr {
- if let loopEnd = each.end {
- let loopDuration = each.duration
- if each.loopStatus!.contains("Success") {
- successNR += 1
- } else {
- errorNR += 1
- }
- i += 1
- timeIntervalLoops = (previousTimeLoop - (each.start ?? previousTimeLoop)).timeInterval / 60
- if timeIntervalLoops > 0.0, i != 1 {
- timeIntervalLoopArray.append(timeIntervalLoops)
- }
- if timeIntervalLoops > maximumInt {
- maximumInt = timeIntervalLoops
- }
- if timeIntervalLoops < minimumInt, i != 1 {
- minimumInt = timeIntervalLoops
- }
- timeForOneLoop = loopDuration
- timeForOneLoopArray.append(timeForOneLoop)
- if timeForOneLoop >= maximumLoopTime, timeForOneLoop != 0.0 {
- maximumLoopTime = timeForOneLoop
- }
- if timeForOneLoop <= minimumLoopTime, timeForOneLoop != 0.0 {
- minimumLoopTime = timeForOneLoop
- }
- previousTimeLoop = loopEnd
- }
- }
- successRate = (Double(successNR) / Double(i)) * 100
- // Average Loop Interval in minutes
- let timeOfFirstIndex = lsr[0].start ?? Date()
- let lastIndexWithTimestamp = lsr.count - 1
- let timeOfLastIndex = lsr[lastIndexWithTimestamp].end ?? Date()
- averageLoopTime = (timeOfFirstIndex - timeOfLastIndex).timeInterval / 60 / Double(errorNR + successNR)
- // Median values
- medianLoopTime = medianCalculation(array: timeForOneLoopArray)
- medianInterval = medianCalculation(array: timeIntervalLoopArray)
- // Average time interval between loops
- averageIntervalLoops = timeIntervalLoopArray.reduce(0, +) / Double(timeIntervalLoopArray.count)
- // Average loop duration
- averageLoopDuration = timeForOneLoopArray.reduce(0, +) / Double(timeForOneLoopArray.count)
- }
- }
- if minimumInt == 999.0 {
- minimumInt = 0.0
- }
- if minimumLoopTime == 9999.0 {
- minimumLoopTime = 0.0
- }
- var glucose = [Readings]()
- var firstElementTime = Date()
- var lastElementTime = Date()
- var currentIndexTime = Date()
- var bg: Decimal = 0
- var bgArray: [Double] = []
- var bgArray_1_: [Double] = []
- var bgArray_7_: [Double] = []
- var bgArray_30_: [Double] = []
- var bgArray_90_: [Double] = []
- var bgArrayForTIR: [(bg_: Double, date_: Date)] = []
- var bgArray_1: [(bg_: Double, date_: Date)] = []
- var bgArray_7: [(bg_: Double, date_: Date)] = []
- var bgArray_30: [(bg_: Double, date_: Date)] = []
- var bgArray_90: [(bg_: Double, date_: Date)] = []
- var medianBG = 0.0
- var nr_bgs: Decimal = 0
- var bg_1: Decimal = 0
- var bg_7: Decimal = 0
- var bg_30: Decimal = 0
- var bg_90: Decimal = 0
- var bg_total: Decimal = 0
- var j = -1
- var conversionFactor: Decimal = 1
- if units == .mmolL {
- conversionFactor = 0.0555
- }
- var numberOfDays: Double = 0
- var nr1: Decimal = 0
- coredataContext.performAndWait {
- let requestGFS = Readings.fetchRequest() as NSFetchRequest<Readings>
- let sortGlucose = NSSortDescriptor(key: "date", ascending: false)
- requestGFS.sortDescriptors = [sortGlucose]
- try? glucose = coredataContext.fetch(requestGFS)
- // Time In Range (%) and Average Glucose. This will be refactored later after some testing.
- let endIndex = glucose.count - 1
- firstElementTime = glucose[0].date ?? Date()
- lastElementTime = glucose[endIndex].date ?? Date()
- currentIndexTime = firstElementTime
- numberOfDays = (firstElementTime - lastElementTime).timeInterval / 8.64E4
- // Make arrays for median calculations and calculate averages
- if endIndex >= 0 {
- repeat {
- j += 1
- if glucose[j].glucose > 0 {
- currentIndexTime = glucose[j].date ?? firstElementTime
- bg += Decimal(glucose[j].glucose) * conversionFactor
- bgArray.append(Double(glucose[j].glucose) * Double(conversionFactor))
- bgArrayForTIR.append((Double(glucose[j].glucose), glucose[j].date!))
- nr_bgs += 1
- if (firstElementTime - currentIndexTime).timeInterval <= 8.64E4 { // 1 day
- bg_1 = bg / nr_bgs
- bgArray_1 = bgArrayForTIR
- bgArray_1_ = bgArray
- nr1 = nr_bgs
- }
- if (firstElementTime - currentIndexTime).timeInterval <= 6.048E5 { // 7 days
- bg_7 = bg / nr_bgs
- bgArray_7 = bgArrayForTIR
- bgArray_7_ = bgArray
- }
- if (firstElementTime - currentIndexTime).timeInterval <= 2.592E6 { // 30 days
- bg_30 = bg / nr_bgs
- bgArray_30 = bgArrayForTIR
- bgArray_30_ = bgArray
- }
- if (firstElementTime - currentIndexTime).timeInterval <= 7.776E7 { // 30 days
- bg_90 = bg / nr_bgs
- bgArray_90 = bgArrayForTIR
- bgArray_90_ = bgArray
- }
- }
- } while j != glucose.count - 1
- }
- }
- if nr_bgs > 0 {
- // Up to 91 days
- bg_total = bg / nr_bgs
- }
- // Total median
- medianBG = medianCalculation(array: bgArray)
- func tir(_ array: [(bg_: Double, date_: Date)]) -> (TIR: Double, hypos: Double, hypers: Double) {
- var timeInHypo = 0.0
- var timeInHyper = 0.0
- var hypos = 0.0
- var hypers = 0.0
- var i = -1
- var lastIndex = false
- let endIndex = array.count - 1
- var hypoLimit = settingsManager.preferences.low
- var hyperLimit = settingsManager.preferences.high
- if units == .mmolL {
- hypoLimit = hypoLimit / 0.0555
- hyperLimit = hyperLimit / 0.0555
- }
- var full_time = 0.0
- if endIndex > 0 {
- full_time = (array[0].date_ - array[endIndex].date_).timeInterval
- }
- while i < endIndex {
- i += 1
- let currentTime = array[i].date_
- var previousTime = currentTime
- if i + 1 <= endIndex {
- previousTime = array[i + 1].date_
- } else {
- lastIndex = true
- }
- if array[i].bg_ < Double(hypoLimit), !lastIndex {
- timeInHypo += (currentTime - previousTime).timeInterval
- } else if array[i].bg_ >= Double(hyperLimit), !lastIndex {
- timeInHyper += (currentTime - previousTime).timeInterval
- }
- }
- if timeInHypo == 0.0 {
- hypos = 0
- } else if full_time != 0.0 { hypos = (timeInHypo / full_time) * 100
- }
- if timeInHyper == 0.0 {
- hypers = 0
- } else if full_time != 0.0 { hypers = (timeInHyper / full_time) * 100
- }
- let TIR = 100 - (hypos + hypers)
- return (roundDouble(TIR, 1), roundDouble(hypos, 1), roundDouble(hypers, 1))
- }
- // HbA1c estimation (%, mmol/mol) 1 day
- var NGSPa1CStatisticValue: Decimal = 0.0
- var IFCCa1CStatisticValue: Decimal = 0.0
- if nr_bgs > 0 {
- NGSPa1CStatisticValue = ((bg_1 / conversionFactor) + 46.7) / 28.7 // NGSP (%)
- IFCCa1CStatisticValue = 10.929 *
- (NGSPa1CStatisticValue - 2.152) // IFCC (mmol/mol) A1C(mmol/mol) = 10.929 * (A1C(%) - 2.15)
- }
- // 7 days
- var NGSPa1CStatisticValue_7: Decimal = 0.0
- var IFCCa1CStatisticValue_7: Decimal = 0.0
- if nr_bgs > 0 {
- NGSPa1CStatisticValue_7 = ((bg_7 / conversionFactor) + 46.7) / 28.7
- IFCCa1CStatisticValue_7 = 10.929 * (NGSPa1CStatisticValue_7 - 2.152)
- }
- // 30 days
- var NGSPa1CStatisticValue_30: Decimal = 0.0
- var IFCCa1CStatisticValue_30: Decimal = 0.0
- if nr_bgs > 0 {
- NGSPa1CStatisticValue_30 = ((bg_30 / conversionFactor) + 46.7) / 28.7
- IFCCa1CStatisticValue_30 = 10.929 * (NGSPa1CStatisticValue_30 - 2.152)
- }
- // 90 days
- var NGSPa1CStatisticValue_90: Decimal = 0.0
- var IFCCa1CStatisticValue_90: Decimal = 0.0
- if nr_bgs > 0 {
- NGSPa1CStatisticValue_90 = ((bg_90 / conversionFactor) + 46.7) / 28.7
- IFCCa1CStatisticValue_90 = 10.929 * (NGSPa1CStatisticValue_90 - 2.152)
- }
- // Total days
- var NGSPa1CStatisticValue_total: Decimal = 0.0
- var IFCCa1CStatisticValue_total: Decimal = 0.0
- if nr_bgs > 0 {
- NGSPa1CStatisticValue_total = ((bg_total / conversionFactor) + 46.7) / 28.7
- IFCCa1CStatisticValue_total = 10.929 *
- (NGSPa1CStatisticValue_total - 2.152)
- }
- let median = Durations(
- day: roundDecimal(Decimal(medianCalculation(array: bgArray_1_)), 1),
- week: roundDecimal(Decimal(medianCalculation(array: bgArray_7_)), 1),
- month: roundDecimal(Decimal(medianCalculation(array: bgArray_30_)), 1),
- total: roundDecimal(Decimal(medianBG), 1)
- )
- // MARK: Save to Median to CoreData
- coredataContext.perform {
- let saveMedianToCoreData = BGmedian(context: self.coredataContext)
- saveMedianToCoreData.date = Date()
- saveMedianToCoreData.median = median.total as NSDecimalNumber
- saveMedianToCoreData.median_1 = median.day as NSDecimalNumber
- saveMedianToCoreData.median_7 = median.week as NSDecimalNumber
- saveMedianToCoreData.median_30 = median.month as NSDecimalNumber
- saveMedianToCoreData.median_90 = self.roundDecimal(
- Decimal(self.medianCalculation(array: bgArray_90_)),
- 1
- ) as NSDecimalNumber
- try? self.coredataContext.save()
- }
- var hbs = Durations(
- day: roundDecimal(NGSPa1CStatisticValue, 1),
- week: roundDecimal(NGSPa1CStatisticValue_7, 1),
- month: roundDecimal(NGSPa1CStatisticValue_30, 1),
- total: roundDecimal(NGSPa1CStatisticValue_total, 1)
- )
- coredataContext.perform {
- let saveHbA1c = HbA1c(context: self.coredataContext)
- saveHbA1c.date = Date()
- saveHbA1c.hba1c = NGSPa1CStatisticValue_total as NSDecimalNumber
- saveHbA1c.hba1c_1 = NGSPa1CStatisticValue as NSDecimalNumber
- saveHbA1c.hba1c_7 = NGSPa1CStatisticValue_7 as NSDecimalNumber
- saveHbA1c.hba1c_30 = NGSPa1CStatisticValue_30 as NSDecimalNumber
- saveHbA1c.hba1c_90 = NGSPa1CStatisticValue_90 as NSDecimalNumber
- try? self.coredataContext.save()
- }
- // Convert to user-preferred unit
- let overrideHbA1cUnit = settingsManager.preferences.overrideHbA1cUnit
- if units == .mmolL {
- // Override if users sets overrideHbA1cUnit: true
- if !overrideHbA1cUnit {
- hbs = Durations(
- day: roundDecimal(IFCCa1CStatisticValue, 1),
- week: roundDecimal(IFCCa1CStatisticValue_7, 1),
- month: roundDecimal(IFCCa1CStatisticValue_30, 1),
- total: roundDecimal(IFCCa1CStatisticValue_total, 1)
- )
- }
- } else if units != .mmolL, overrideHbA1cUnit {
- hbs = Durations(
- day: roundDecimal(IFCCa1CStatisticValue, 1),
- week: roundDecimal(IFCCa1CStatisticValue_7, 1),
- month: roundDecimal(IFCCa1CStatisticValue_30, 1),
- total: roundDecimal(IFCCa1CStatisticValue_total, 1)
- )
- }
- let nrOfCGMReadings = nr1
- let loopstat = LoopCycles(
- loops: successNR + errorNR,
- errors: errorNR,
- readings: Int(nrOfCGMReadings),
- success_rate: Decimal(round(successRate ?? 0)),
- avg_interval: roundDecimal(Decimal(averageLoopTime), 1),
- median_interval: roundDecimal(Decimal(medianInterval), 1),
- min_interval: roundDecimal(Decimal(minimumInt), 1),
- max_interval: roundDecimal(Decimal(maximumInt), 1),
- avg_duration: Decimal(roundDouble(averageLoopDuration, 2)),
- median_duration: Decimal(roundDouble(medianLoopTime, 2)),
- min_duration: roundDecimal(Decimal(minimumLoopTime), 2),
- max_duration: Decimal(roundDouble(maximumLoopTime, 1))
- )
- // TIR calcs for every case
- var oneDay_: (TIR: Double, hypos: Double, hypers: Double) = (0.0, 0.0, 0.0)
- var sevenDays_: (TIR: Double, hypos: Double, hypers: Double) = (0.0, 0.0, 0.0)
- var thirtyDays_: (TIR: Double, hypos: Double, hypers: Double) = (0.0, 0.0, 0.0)
- var totalDays_: (TIR: Double, hypos: Double, hypers: Double) = (0.0, 0.0, 0.0)
- // Get all TIR calcs for every case
- if nr_bgs > 0 {
- oneDay_ = tir(bgArray_1)
- sevenDays_ = tir(bgArray_7)
- thirtyDays_ = tir(bgArray_30)
- totalDays_ = tir(bgArrayForTIR)
- }
- let tir = Durations(
- day: roundDecimal(Decimal(oneDay_.TIR), 1),
- week: roundDecimal(Decimal(sevenDays_.TIR), 1),
- month: roundDecimal(Decimal(thirtyDays_.TIR), 1),
- total: roundDecimal(Decimal(totalDays_.TIR), 1)
- )
- let hypo = Durations(
- day: Decimal(oneDay_.hypos),
- week: Decimal(sevenDays_.hypos),
- month: Decimal(thirtyDays_.hypos),
- total: Decimal(totalDays_.hypos)
- )
- let hyper = Durations(
- day: Decimal(oneDay_.hypers),
- week: Decimal(sevenDays_.hypers),
- month: Decimal(thirtyDays_.hypers),
- total: Decimal(totalDays_.hypers)
- )
- let TimeInRange = TIRs(TIR: tir, Hypos: hypo, Hypers: hyper)
- let avgs = Durations(
- day: roundDecimal(bg_1, 1),
- week: roundDecimal(bg_7, 1),
- month: roundDecimal(bg_30, 1),
- total: roundDecimal(bg_total, 1)
- )
- coredataContext.perform {
- let saveAverages = BGaverages(context: self.coredataContext)
- saveAverages.date = Date()
- saveAverages.average = bg_total as NSDecimalNumber
- saveAverages.average_1 = bg_1 as NSDecimalNumber
- saveAverages.average_7 = bg_7 as NSDecimalNumber
- saveAverages.average_30 = bg_30 as NSDecimalNumber
- saveAverages.average_90 = bg_90 as NSDecimalNumber
- try? self.coredataContext.save()
- }
- let avg = Averages(Average: avgs, Median: median)
- var insulinDistribution = [InsulinDistribution]()
- var insulin = Ins(
- TDD: 0,
- bolus: 0,
- temp_basal: 0,
- scheduled_basal: 0
- )
- coredataContext.performAndWait {
- let requestInsulinDistribution = InsulinDistribution.fetchRequest() as NSFetchRequest<InsulinDistribution>
- let sortInsulin = NSSortDescriptor(key: "date", ascending: false)
- requestInsulinDistribution.sortDescriptors = [sortInsulin]
- requestInsulinDistribution.fetchLimit = 1
- try? insulinDistribution = coredataContext.fetch(requestInsulinDistribution)
- insulin = Ins(
- TDD: roundDecimal(currentTDD, 2),
- bolus: insulinDistribution.first != nil ? ((insulinDistribution[0].bolus ?? 0) as Decimal) : 0,
- temp_basal: insulinDistribution.first != nil ? ((insulinDistribution[0].tempBasal ?? 0) as Decimal) : 0,
- scheduled_basal: insulinDistribution.first != nil ? ((insulinDistribution[0].scheduledBasal ?? 0) as Decimal) : 0
- )
- }
- var sumOfSquares = 0.0
- var sumOfSquares_1 = 0.0
- var sumOfSquares_7 = 0.0
- var sumOfSquares_30 = 0.0
- // Total
- for array in bgArray {
- sumOfSquares += pow(array - Double(bg_total), 2)
- }
- // One day
- for array_1 in bgArray_1_ {
- sumOfSquares_1 += pow(array_1 - Double(bg_1), 2)
- }
- // week
- for array_7 in bgArray_7_ {
- sumOfSquares_7 += pow(array_7 - Double(bg_7), 2)
- }
- // month
- for array_30 in bgArray_30_ {
- sumOfSquares_30 += pow(array_30 - Double(bg_30), 2)
- }
- // Standard deviation and Coefficient of variation
- var sd_total = 0.0
- var cv_total = 0.0
- var sd_1 = 0.0
- var cv_1 = 0.0
- var sd_7 = 0.0
- var cv_7 = 0.0
- var sd_30 = 0.0
- var cv_30 = 0.0
- // Avoid division by zero
- if bg_total > 0 {
- sd_total = sqrt(sumOfSquares / Double(nr_bgs))
- cv_total = sd_total / Double(bg_total) * 100
- }
- if bg_1 > 0 {
- sd_1 = sqrt(sumOfSquares_1 / Double(bgArray_1_.count))
- cv_1 = sd_1 / Double(bg_1) * 100
- }
- if bg_7 > 0 {
- sd_7 = sqrt(sumOfSquares_7 / Double(bgArray_7_.count))
- cv_7 = sd_7 / Double(bg_7) * 100
- }
- if bg_30 > 0 {
- sd_30 = sqrt(sumOfSquares_30 / Double(bgArray_30_.count))
- cv_30 = sd_30 / Double(bg_30) * 100
- }
- // Standard Deviations
- let standardDeviations = Durations(
- day: roundDecimal(Decimal(sd_1), 1),
- week: roundDecimal(Decimal(sd_7), 1),
- month: roundDecimal(Decimal(sd_30), 1),
- total: roundDecimal(Decimal(sd_total), 1)
- )
- // CV = standard deviation / sample mean x 100
- let cvs = Durations(
- day: roundDecimal(Decimal(cv_1), 1),
- week: roundDecimal(Decimal(cv_7), 1),
- month: roundDecimal(Decimal(cv_30), 1),
- total: roundDecimal(Decimal(cv_total), 1)
- )
- let variance = Variance(SD: standardDeviations, CV: cvs)
- let dailystat = Statistics(
- created_at: Date(),
- iPhone: UIDevice.current.getDeviceId,
- iOS: UIDevice.current.getOSInfo,
- Build_Version: version ?? "",
- Build_Number: build ?? "1",
- Branch: branch,
- CopyRightNotice: String(copyrightNotice_.prefix(32)),
- Build_Date: buildDate,
- Algorithm: algo_,
- AdjustmentFactor: af,
- Pump: pump_,
- CGM: cgm.rawValue,
- insulinType: insulin_type.rawValue,
- peakActivityTime: iPa,
- Carbs_24h: carbTotal,
- GlucoseStorage_Days: Decimal(roundDouble(numberOfDays, 1)),
- Statistics: Stats(
- Distribution: TimeInRange,
- Glucose: avg,
- HbA1c: hbs,
- LoopCycles: loopstat,
- Insulin: insulin,
- Variance: variance
- )
- )
- storage.transaction { storage in
- storage.append(dailystat, to: file, uniqBy: \.created_at)
- let uniqeEvents: [Statistics] = storage.retrieve(file, as: [Statistics].self)?
- .filter { $0.created_at.addingTimeInterval(24.hours.timeInterval) > Date() }
- .sorted { $0.created_at > $1.created_at } ?? []
- storage.save(Array(uniqeEvents), as: file)
- }
- nightscout.uploadStatistics(dailystat: dailystat)
- nightscout.uploadPreferences()
- print("Test time of statistics computation: \(-1 * statisticsStartedAt.timeIntervalSinceNow) s")
- }
- private func loopStats(loopStatRecord: LoopStats) {
- let LoopStatsStartedAt = Date()
- coredataContext.perform {
- let nLS = LoopStatRecord(context: self.coredataContext)
- nLS.start = loopStatRecord.start
- nLS.end = loopStatRecord.end ?? Date()
- nLS.loopStatus = loopStatRecord.loopStatus
- nLS.duration = loopStatRecord.duration ?? 0.0
- try? self.coredataContext.save()
- }
- print("Test time of LoopStats computation: \(-1 * LoopStatsStartedAt.timeIntervalSinceNow) s")
- }
- private func processError(_ error: Error) {
- warning(.apsManager, "\(error.localizedDescription)")
- lastError.send(error)
- }
- private func createBolusReporter() {
- bolusReporter = pumpManager?.createBolusProgressReporter(reportingOn: processQueue)
- bolusReporter?.addObserver(self)
- }
- private func updateStatus() {
- debug(.apsManager, "force update status")
- guard let pump = pumpManager else {
- return
- }
- if let omnipod = pump as? OmnipodPumpManager {
- omnipod.getPodStatus { _ in }
- }
- if let omnipodBLE = pump as? OmniBLEPumpManager {
- omnipodBLE.getPodStatus { _ in }
- }
- }
- private func clearBolusReporter() {
- bolusReporter?.removeObserver(self)
- bolusReporter = nil
- processQueue.asyncAfter(deadline: .now() + 0.5) {
- self.bolusProgress.send(nil)
- self.updateStatus()
- }
- }
- }
- private extension PumpManager {
- func enactTempBasal(unitsPerHour: Double, for duration: TimeInterval) -> AnyPublisher<DoseEntry?, Error> {
- Future { promise in
- self.enactTempBasal(unitsPerHour: unitsPerHour, for: duration) { error in
- if let error = error {
- debug(.apsManager, "Temp basal failed: \(unitsPerHour) for: \(duration)")
- promise(.failure(error))
- } else {
- debug(.apsManager, "Temp basal succeded: \(unitsPerHour) for: \(duration)")
- promise(.success(nil))
- }
- }
- }
- .mapError { APSError.pumpError($0) }
- .eraseToAnyPublisher()
- }
- func enactBolus(units: Double, automatic: Bool) -> AnyPublisher<DoseEntry?, Error> {
- Future { promise in
- // convert automatic
- let automaticValue = automatic ? BolusActivationType.automatic : BolusActivationType.manualRecommendationAccepted
- self.enactBolus(units: units, activationType: automaticValue) { error in
- if let error = error {
- debug(.apsManager, "Bolus failed: \(units)")
- promise(.failure(error))
- } else {
- debug(.apsManager, "Bolus succeded: \(units)")
- promise(.success(nil))
- }
- }
- }
- .mapError { APSError.pumpError($0) }
- .eraseToAnyPublisher()
- }
- func cancelBolus() -> AnyPublisher<DoseEntry?, Error> {
- Future { promise in
- self.cancelBolus { result in
- switch result {
- case let .success(dose):
- debug(.apsManager, "Cancel Bolus succeded")
- promise(.success(dose))
- case let .failure(error):
- debug(.apsManager, "Cancel Bolus failed")
- promise(.failure(error))
- }
- }
- }
- .mapError { APSError.pumpError($0) }
- .eraseToAnyPublisher()
- }
- func suspendDelivery() -> AnyPublisher<Void, Error> {
- Future { promise in
- self.suspendDelivery { error in
- if let error = error {
- promise(.failure(error))
- } else {
- promise(.success(()))
- }
- }
- }
- .mapError { APSError.pumpError($0) }
- .eraseToAnyPublisher()
- }
- func resumeDelivery() -> AnyPublisher<Void, Error> {
- Future { promise in
- self.resumeDelivery { error in
- if let error = error {
- promise(.failure(error))
- } else {
- promise(.success(()))
- }
- }
- }
- .mapError { APSError.pumpError($0) }
- .eraseToAnyPublisher()
- }
- }
- extension BaseAPSManager: PumpManagerStatusObserver {
- func pumpManager(_: PumpManager, didUpdate status: PumpManagerStatus, oldStatus _: PumpManagerStatus) {
- let percent = Int((status.pumpBatteryChargeRemaining ?? 1) * 100)
- let battery = Battery(
- percent: percent,
- voltage: nil,
- string: percent > 10 ? .normal : .low,
- display: status.pumpBatteryChargeRemaining != nil
- )
- storage.save(battery, as: OpenAPS.Monitor.battery)
- storage.save(status.pumpStatus, as: OpenAPS.Monitor.status)
- }
- }
- extension BaseAPSManager: DoseProgressObserver {
- func doseProgressReporterDidUpdate(_ doseProgressReporter: DoseProgressReporter) {
- bolusProgress.send(Decimal(doseProgressReporter.progress.percentComplete))
- if doseProgressReporter.progress.isComplete {
- clearBolusReporter()
- }
- }
- }
- extension PumpManagerStatus {
- var pumpStatus: PumpStatus {
- let bolusing = bolusState != .noBolus
- let suspended = basalDeliveryState?.isSuspended ?? true
- let type = suspended ? StatusType.suspended : (bolusing ? .bolusing : .normal)
- return PumpStatus(status: type, bolusing: bolusing, suspended: suspended, timestamp: Date())
- }
- }
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