import Charts import CoreData import SwiftUI let screenSize: CGRect = UIScreen.main.bounds let calendar = Calendar.current private struct BasalProfile: Hashable { let amount: Double var isOverwritten: Bool let startDate: Date let endDate: Date? init(amount: Double, isOverwritten: Bool, startDate: Date, endDate: Date? = nil) { self.amount = amount self.isOverwritten = isOverwritten self.startDate = startDate self.endDate = endDate } } private struct ChartTempTarget: Hashable { let amount: Decimal let start: Date let end: Date } struct MainChartView: View { private enum Config { static let bolusSize: CGFloat = 5 static let bolusScale: CGFloat = 1 static let carbsSize: CGFloat = 5 static let carbsScale: CGFloat = 0.3 static let fpuSize: CGFloat = 10 static let maxGlucose = 270 static let minGlucose = 45 } var geo: GeometryProxy @Binding var units: GlucoseUnits @Binding var announcement: [Announcement] @Binding var hours: Int @Binding var maxBasal: Decimal @Binding var autotunedBasalProfile: [BasalProfileEntry] @Binding var basalProfile: [BasalProfileEntry] @Binding var tempTargets: [TempTarget] @Binding var smooth: Bool @Binding var highGlucose: Decimal @Binding var lowGlucose: Decimal @Binding var screenHours: Int16 @Binding var displayXgridLines: Bool @Binding var displayYgridLines: Bool @Binding var thresholdLines: Bool @StateObject var state: Home.StateModel @State var didAppearTrigger = false @State private var basalProfiles: [BasalProfile] = [] @State private var chartTempTargets: [ChartTempTarget] = [] @State private var count: Decimal = 1 @State private var startMarker = Date(timeIntervalSinceNow: TimeInterval(hours: -24)) @State private var endMarker = Date(timeIntervalSinceNow: TimeInterval(hours: 3)) @State private var minValue: Decimal = 45 @State private var maxValue: Decimal = 270 @State private var selection: Date? = nil @State private var minValueCobChart: Decimal = 0 @State private var maxValueCobChart: Decimal = 20 @State private var minValueIobChart: Decimal = 0 @State private var maxValueIobChart: Decimal = 5 private let now = Date.now private let context = CoreDataStack.shared.persistentContainer.viewContext @Environment(\.colorScheme) var colorScheme @Environment(\.calendar) var calendar private var bolusFormatter: NumberFormatter { let formatter = NumberFormatter() formatter.numberStyle = .decimal formatter.minimumIntegerDigits = 0 formatter.maximumFractionDigits = 2 formatter.decimalSeparator = "." return formatter } private var carbsFormatter: NumberFormatter { let formatter = NumberFormatter() formatter.numberStyle = .decimal formatter.maximumFractionDigits = 0 return formatter } private var upperLimit: Decimal { units == .mgdL ? 400 : 22.2 } private var defaultBolusPosition: Int { units == .mgdL ? 120 : 7 } private var bolusOffset: Decimal { units == .mgdL ? 30 : 1.66 } private var selectedGlucose: GlucoseStored? { if let selection = selection { let lowerBound = selection.addingTimeInterval(-120) let upperBound = selection.addingTimeInterval(120) return state.glucoseFromPersistence.first { $0.date ?? now >= lowerBound && $0.date ?? now <= upperBound } } else { return nil } } private var selectedCOBValue: OrefDetermination? { if let selection = selection { let lowerBound = selection.addingTimeInterval(-120) let upperBound = selection.addingTimeInterval(120) return state.enactedAndNonEnactedDeterminations.first { $0.deliverAt ?? now >= lowerBound && $0.deliverAt ?? now <= upperBound } } else { return nil } } private var selectedIOBValue: OrefDetermination? { if let selection = selection { let lowerBound = selection.addingTimeInterval(-120) let upperBound = selection.addingTimeInterval(120) return state.enactedAndNonEnactedDeterminations.first { $0.deliverAt ?? now >= lowerBound && $0.deliverAt ?? now <= upperBound } } else { return nil } } var body: some View { VStack { ZStack { VStack(spacing: 5) { dummyBasalChart staticYAxisChart Spacer() dummyCobChart } ScrollViewReader { scroller in ScrollView(.horizontal, showsIndicators: false) { VStack(spacing: 5) { basalChart mainChart Spacer() ZStack { cobChart iobChart } }.onChange(of: screenHours) { _ in updateStartEndMarkers() yAxisChartData() yAxisChartDataCobChart() yAxisChartDataIobChart() scroller.scrollTo("MainChart", anchor: .trailing) } .onChange(of: state.glucoseFromPersistence.last?.glucose) { _ in updateStartEndMarkers() yAxisChartData() scroller.scrollTo("MainChart", anchor: .trailing) } .onChange(of: state.enactedAndNonEnactedDeterminations.first?.deliverAt) { _ in updateStartEndMarkers() yAxisChartDataCobChart() yAxisChartDataIobChart() scroller.scrollTo("MainChart", anchor: .trailing) } .onChange(of: state.tempBasals) { _ in updateStartEndMarkers() scroller.scrollTo("MainChart", anchor: .trailing) } .onChange(of: units) { _ in yAxisChartData() } .onAppear { updateStartEndMarkers() yAxisChartData() yAxisChartDataCobChart() yAxisChartDataIobChart() scroller.scrollTo("MainChart", anchor: .trailing) } } } } } } } // MARK: - Components extension MainChartView { /// empty chart that just shows the Y axis and Y grid lines. Created separately from `mainChart` to allow main chart to scroll horizontally while having a fixed Y axis private var staticYAxisChart: some View { Chart { /// high and low threshold lines if thresholdLines { RuleMark(y: .value("High", highGlucose)).foregroundStyle(Color.loopYellow) .lineStyle(.init(lineWidth: 1, dash: [5])) RuleMark(y: .value("Low", lowGlucose)).foregroundStyle(Color.loopRed) .lineStyle(.init(lineWidth: 1, dash: [5])) } } .id("DummyMainChart") .frame(minHeight: geo.size.height * 0.28) .frame(width: screenSize.width - 10) .chartXAxis { mainChartXAxis } .chartXScale(domain: startMarker ... endMarker) .chartXAxis(.hidden) .chartYAxis { mainChartYAxis } .chartYScale(domain: units == .mgdL ? minValue ... maxValue : minValue.asMmolL ... maxValue.asMmolL) .chartLegend(.hidden) } private var dummyBasalChart: some View { Chart {} .id("DummyBasalChart") .frame(minHeight: geo.size.height * 0.05) .frame(width: screenSize.width - 10) .chartXAxis { basalChartXAxis } .chartXAxis(.hidden) .chartYAxis(.hidden) .chartLegend(.hidden) } private var dummyCobChart: some View { Chart { drawCOB(dummy: true) } .id("DummyCobChart") .frame(minHeight: geo.size.height * 0.12) .frame(width: screenSize.width - 10) .chartXScale(domain: startMarker ... endMarker) .chartXAxis { basalChartXAxis } .chartXAxis(.hidden) .chartYAxis { cobChartYAxis } .chartYAxis(.hidden) .chartYScale(domain: minValueCobChart ... maxValueCobChart) .chartLegend(.hidden) } private var mainChart: some View { VStack { Chart { drawStartRuleMark() drawEndRuleMark() drawCurrentTimeMarker() drawFpus() drawBoluses() drawTempTargets() drawActiveOverrides() drawOverrideRunStored() drawGlucose(dummy: false) drawManualGlucose() drawCarbs() if state.forecastDisplayType == .lines { drawForecastsLines() } else { drawForecastsCone() } /// show glucose value when hovering over it if #available(iOS 17, *) { if let selectedGlucose { RuleMark(x: .value("Selection", selectedGlucose.date ?? now, unit: .minute)) .foregroundStyle(Color.tabBar) .offset(yStart: 70) .lineStyle(.init(lineWidth: 2)) .annotation( position: .top, alignment: .center, overflowResolution: .init(x: .fit(to: .chart), y: .fit(to: .chart)) ) { selectionPopover } PointMark( x: .value("Time", selectedGlucose.date ?? now, unit: .minute), y: .value("Value", selectedGlucose.glucose) ) .zIndex(-1) .symbolSize(CGSize(width: 15, height: 15)) .foregroundStyle( Decimal(selectedGlucose.glucose) > highGlucose ? Color.orange .opacity(0.8) : ( Decimal(selectedGlucose.glucose) < lowGlucose ? Color.red.opacity(0.8) : Color.green .opacity(0.8) ) ) PointMark( x: .value("Time", selectedGlucose.date ?? now, unit: .minute), y: .value("Value", selectedGlucose.glucose) ) .zIndex(-1) .symbolSize(CGSize(width: 6, height: 6)) .foregroundStyle(Color.primary) } } } .id("MainChart") .onChange(of: state.insulinFromPersistence) { _ in state.roundedTotalBolus = state.calculateTINS() } .onChange(of: tempTargets) { _ in Task { await calculateTTs() } } .onChange(of: didAppearTrigger) { _ in Task { await calculateTTs() } } .frame(minHeight: geo.size.height * 0.28) .frame(width: fullWidth(viewWidth: screenSize.width)) .chartXScale(domain: startMarker ... endMarker) .chartXAxis { mainChartXAxis } .chartYAxis { mainChartYAxis } .chartYAxis(.hidden) .backport.chartXSelection(value: $selection) .chartYScale(domain: units == .mgdL ? minValue ... maxValue : minValue.asMmolL ... maxValue.asMmolL) .backport.chartForegroundStyleScale(state: state) } } @ViewBuilder var selectionPopover: some View { if let sgv = selectedGlucose?.glucose { let glucoseToShow = units == .mgdL ? Decimal(sgv) : Decimal(sgv).asMmolL VStack(alignment: .leading) { HStack { Image(systemName: "clock") Text(selectedGlucose?.date?.formatted(.dateTime.hour().minute(.twoDigits)) ?? "") .font(.body).bold() }.font(.body).padding(.bottom, 5) HStack { Text(units == .mgdL ? glucoseToShow.description : Decimal(sgv).formattedAsMmolL) .bold() + Text(" \(units.rawValue)") }.foregroundStyle( glucoseToShow < lowGlucose ? Color .red : (glucoseToShow > highGlucose ? Color.orange : Color.primary) ).font(.body) if let selectedIOBValue, let iob = selectedIOBValue.iob { HStack { Image(systemName: "syringe.fill").frame(width: 15) Text(bolusFormatter.string(from: iob) ?? "") .bold() + Text(NSLocalizedString(" U", comment: "Insulin unit")) }.foregroundStyle(Color.insulin).font(.body) } if let selectedCOBValue { HStack { Image(systemName: "fork.knife").frame(width: 15) Text(carbsFormatter.string(from: selectedCOBValue.cob as NSNumber) ?? "") .bold() + Text(NSLocalizedString(" g", comment: "gram of carbs")) }.foregroundStyle(Color.orange).font(.body) } } .padding() .background { RoundedRectangle(cornerRadius: 4) .fill(Color.chart.opacity(0.85)) .shadow(color: Color.secondary, radius: 2) .overlay( RoundedRectangle(cornerRadius: 4) .stroke(Color.secondary, lineWidth: 2) ) } } } private var basalChart: some View { VStack { Chart { drawStartRuleMark() drawEndRuleMark() drawCurrentTimeMarker() drawTempBasals(dummy: false) drawBasalProfile() drawSuspensions() }.onChange(of: state.tempBasals) { _ in calculateBasals() } .onChange(of: maxBasal) { _ in calculateBasals() } .onChange(of: autotunedBasalProfile) { _ in calculateBasals() } .onChange(of: didAppearTrigger) { _ in calculateBasals() }.onChange(of: basalProfile) { _ in calculateBasals() } .frame(minHeight: geo.size.height * 0.05) .frame(width: fullWidth(viewWidth: screenSize.width)) .chartXScale(domain: startMarker ... endMarker) .chartXAxis { basalChartXAxis } .chartXAxis(.hidden) .chartYAxis(.hidden) .chartPlotStyle { basalChartPlotStyle($0) } } } private var iobChart: some View { VStack { Chart { drawIOB() if #available(iOS 17, *) { if let selectedIOBValue { PointMark( x: .value("Time", selectedIOBValue.deliverAt ?? now, unit: .minute), y: .value("Value", Int(truncating: selectedIOBValue.iob ?? 0)) ) .symbolSize(CGSize(width: 15, height: 15)) .foregroundStyle(Color.darkerBlue.opacity(0.8)) PointMark( x: .value("Time", selectedIOBValue.deliverAt ?? now, unit: .minute), y: .value("Value", Int(truncating: selectedIOBValue.iob ?? 0)) ) .symbolSize(CGSize(width: 6, height: 6)) .foregroundStyle(Color.primary) } } } .frame(minHeight: geo.size.height * 0.12) .frame(width: fullWidth(viewWidth: screenSize.width)) .chartXScale(domain: startMarker ... endMarker) .backport.chartXSelection(value: $selection) .chartXAxis { basalChartXAxis } .chartYAxis { cobChartYAxis } .chartYScale(domain: minValueIobChart ... maxValueIobChart) .chartYAxis(.hidden) } } private var cobChart: some View { Chart { drawCurrentTimeMarker() drawCOB(dummy: false) if #available(iOS 17, *) { if let selectedCOBValue { PointMark( x: .value("Time", selectedCOBValue.deliverAt ?? now, unit: .minute), y: .value("Value", selectedCOBValue.cob) ) .symbolSize(CGSize(width: 15, height: 15)) .foregroundStyle(Color.orange.opacity(0.8)) PointMark( x: .value("Time", selectedCOBValue.deliverAt ?? now, unit: .minute), y: .value("Value", selectedCOBValue.cob) ) .symbolSize(CGSize(width: 6, height: 6)) .foregroundStyle(Color.primary) } } } .frame(minHeight: geo.size.height * 0.12) .frame(width: fullWidth(viewWidth: screenSize.width)) .chartXScale(domain: startMarker ... endMarker) .backport.chartXSelection(value: $selection) .chartXAxis { basalChartXAxis } .chartYAxis { cobChartYAxis } .chartYScale(domain: minValueCobChart ... maxValueCobChart) } } // MARK: - Calculations extension MainChartView { private func drawBoluses() -> some ChartContent { ForEach(state.insulinFromPersistence) { insulin in let amount = insulin.bolus?.amount ?? 0 as NSDecimalNumber let bolusDate = insulin.timestamp ?? Date() if amount != 0, let glucose = timeToNearestGlucose(time: bolusDate.timeIntervalSince1970)?.glucose { let yPosition = (units == .mgdL ? Decimal(glucose) : Decimal(glucose).asMmolL) + bolusOffset let size = (Config.bolusSize + CGFloat(truncating: amount) * Config.bolusScale) * 1.8 PointMark( x: .value("Time", bolusDate, unit: .second), y: .value("Value", yPosition) ) .symbol { Image(systemName: "arrowtriangle.down.fill").font(.system(size: size)).foregroundStyle(Color.insulin) } .annotation(position: .top) { Text(bolusFormatter.string(from: amount) ?? "") .font(.caption2) .foregroundStyle(Color.primary) } } } } private func drawCarbs() -> some ChartContent { /// carbs ForEach(state.carbsFromPersistence) { carb in let carbAmount = carb.carbs let carbDate = carb.date ?? Date() if let glucose = timeToNearestGlucose(time: carbDate.timeIntervalSince1970)?.glucose { let yPosition = (units == .mgdL ? Decimal(glucose) : Decimal(glucose).asMmolL) - bolusOffset let size = (Config.carbsSize + CGFloat(carbAmount) * Config.carbsScale) let limitedSize = size > 30 ? 30 : size PointMark( x: .value("Time", carbDate, unit: .second), y: .value("Value", yPosition) ) .symbol { Image(systemName: "arrowtriangle.down.fill").font(.system(size: limitedSize)).foregroundStyle(Color.orange) .rotationEffect(.degrees(180)) } .annotation(position: .bottom) { Text(carbsFormatter.string(from: carbAmount as NSNumber)!).font(.caption2) .foregroundStyle(Color.primary) } } } } private func drawFpus() -> some ChartContent { /// fpus ForEach(state.fpusFromPersistence, id: \.id) { fpu in let fpuAmount = fpu.carbs let size = (Config.fpuSize + CGFloat(fpuAmount) * Config.carbsScale) * 1.8 let yPosition = minValue PointMark( x: .value("Time", fpu.date ?? Date(), unit: .second), y: .value("Value", yPosition) ) .symbolSize(size) .foregroundStyle(Color.brown) } } private func drawGlucose(dummy _: Bool) -> some ChartContent { /// glucose point mark /// filtering for high and low bounds in settings ForEach(state.glucoseFromPersistence) { item in let glucoseToDisplay = units == .mgdL ? Decimal(item.glucose) : Decimal(item.glucose).asMmolL if smooth { LineMark(x: .value("Time", item.date ?? Date()), y: .value("Value", glucoseToDisplay)) .foregroundStyle( .linearGradient(stops: state.gradientStops, startPoint: .bottom, endPoint: .top) ) .symbol(.circle).symbolSize(34) } else { if glucoseToDisplay > highGlucose { PointMark( x: .value("Time", item.date ?? Date(), unit: .second), y: .value("Value", glucoseToDisplay) ).foregroundStyle(Color.orange.gradient).symbolSize(20) } else if glucoseToDisplay < lowGlucose { PointMark( x: .value("Time", item.date ?? Date(), unit: .second), y: .value("Value", glucoseToDisplay) ).foregroundStyle(Color.red.gradient).symbolSize(20) } else { PointMark( x: .value("Time", item.date ?? Date(), unit: .second), y: .value("Value", glucoseToDisplay) ).foregroundStyle(Color.green.gradient).symbolSize(20) } } } } private func timeForIndex(_ index: Int32) -> Date { let currentTime = Date() let timeInterval = TimeInterval(index * 300) return currentTime.addingTimeInterval(timeInterval) } private func drawForecastsCone() -> some ChartContent { // Draw AreaMark for the forecast bounds ForEach(0 ..< max(state.minForecast.count, state.maxForecast.count), id: \.self) { index in if index < state.minForecast.count, index < state.maxForecast.count { let yMinMaxDelta = Decimal(state.minForecast[index] - state.maxForecast[index]) let xValue = timeForIndex(Int32(index)) // if distance between respective min and max is 0, provide a default range if yMinMaxDelta == 0 { let yMinValue = units == .mgdL ? Decimal(state.minForecast[index] - 1) : Decimal(state.minForecast[index] - 1) .asMmolL let yMaxValue = units == .mgdL ? Decimal(state.minForecast[index] + 1) : Decimal(state.minForecast[index] + 1) .asMmolL if xValue <= Date(timeIntervalSinceNow: TimeInterval(hours: 2.5)) { AreaMark( x: .value("Time", xValue), // maxValue is already parsed to user units, no need to parse yStart: .value("Min Value", yMinValue <= maxValue ? yMinValue : maxValue), yEnd: .value("Max Value", yMaxValue <= maxValue ? yMaxValue : maxValue) ) .foregroundStyle(Color.blue.opacity(0.5)) .interpolationMethod(.catmullRom) } } else { let yMinValue = units == .mgdL ? Decimal(state.minForecast[index]) : Decimal(state.minForecast[index]).asMmolL let yMaxValue = units == .mgdL ? Decimal(state.maxForecast[index]) : Decimal(state.maxForecast[index]).asMmolL if xValue <= Date(timeIntervalSinceNow: TimeInterval(hours: 2.5)) { AreaMark( x: .value("Time", xValue), // maxValue is already parsed to user units, no need to parse yStart: .value("Min Value", yMinValue <= maxValue ? yMinValue : maxValue), yEnd: .value("Max Value", yMaxValue <= maxValue ? yMaxValue : maxValue) ) .foregroundStyle(Color.blue.opacity(0.5)) .interpolationMethod(.catmullRom) } } } } } private func drawForecastsLines() -> some ChartContent { ForEach(state.preprocessedData, id: \.id) { tuple in let forecastValue = tuple.forecastValue let forecast = tuple.forecast let valueAsDecimal = Decimal(forecastValue.value) let displayValue = units == .mmolL ? valueAsDecimal.asMmolL : valueAsDecimal let xValue = timeForIndex(forecastValue.index) if xValue <= Date(timeIntervalSinceNow: TimeInterval(hours: 2.5)) { LineMark( x: .value("Time", xValue), y: .value("Value", displayValue) ) .foregroundStyle(by: .value("Predictions", forecast.type ?? "")) } } } private func drawCurrentTimeMarker() -> some ChartContent { RuleMark( x: .value( "", Date(timeIntervalSince1970: TimeInterval(NSDate().timeIntervalSince1970)), unit: .second ) ).lineStyle(.init(lineWidth: 2, dash: [3])).foregroundStyle(Color(.systemGray2)) } private func drawStartRuleMark() -> some ChartContent { RuleMark( x: .value( "", startMarker, unit: .second ) ).foregroundStyle(Color.clear) } private func drawEndRuleMark() -> some ChartContent { RuleMark( x: .value( "", endMarker, unit: .second ) ).foregroundStyle(Color.clear) } private func drawTempTargets() -> some ChartContent { /// temp targets ForEach(chartTempTargets, id: \.self) { target in let targetLimited = min(max(target.amount, 0), upperLimit) RuleMark( xStart: .value("Start", target.start), xEnd: .value("End", target.end), y: .value("Value", targetLimited) ) .foregroundStyle(Color.purple.opacity(0.5)).lineStyle(.init(lineWidth: 8)) } } private func drawActiveOverrides() -> some ChartContent { ForEach(state.overrides) { override in let start: Date = override.date ?? .distantPast let duration = state.calculateDuration(override: override) let end: Date = start.addingTimeInterval(duration) let target = state.calculateTarget(override: override) RuleMark( xStart: .value("Start", start, unit: .second), xEnd: .value("End", end, unit: .second), y: .value("Value", target) ) .foregroundStyle(Color.purple.opacity(0.6)) .lineStyle(.init(lineWidth: 8)) // .annotation(position: .overlay, spacing: 0) { // if let name = override.name { // Text("\(name)").foregroundStyle(.secondary).font(.footnote) // } // } } } private func drawOverrideRunStored() -> some ChartContent { ForEach(state.overrideRunStored) { overrideRunStored in let start: Date = overrideRunStored.startDate ?? .distantPast let end: Date = overrideRunStored.endDate ?? Date() let target = overrideRunStored.target?.decimalValue ?? 100 RuleMark( xStart: .value("Start", start, unit: .second), xEnd: .value("End", end, unit: .second), y: .value("Value", target) ) .foregroundStyle(Color.purple.opacity(0.4)) .lineStyle(.init(lineWidth: 8)) // .annotation(position: .bottom, spacing: 0) { // if let name = overrideRunStored.override?.name { // Text("\(name)").foregroundStyle(.secondary).font(.footnote) // } // } } } private func drawManualGlucose() -> some ChartContent { /// manual glucose mark ForEach(state.manualGlucoseFromPersistence) { item in let manualGlucose = units == .mgdL ? Decimal(item.glucose) : Decimal(item.glucose).asMmolL PointMark( x: .value("Time", item.date ?? Date(), unit: .second), y: .value("Value", manualGlucose) ) .symbol { Image(systemName: "drop.fill").font(.system(size: 10)).symbolRenderingMode(.monochrome) .foregroundStyle(.red) } } } private func drawSuspensions() -> some ChartContent { let suspensions = state.suspensions return ForEach(suspensions) { suspension in let now = Date() if let type = suspension.type, type == EventType.pumpSuspend.rawValue, let suspensionStart = suspension.timestamp { let suspensionEnd = min( ( suspensions .first(where: { $0.timestamp ?? now > suspensionStart && $0.type == EventType.pumpResume.rawValue })? .timestamp ) ?? now, now ) let basalProfileDuringSuspension = basalProfiles.first(where: { $0.startDate <= suspensionStart }) let suspensionMarkHeight = basalProfileDuringSuspension?.amount ?? 1 RectangleMark( xStart: .value("start", suspensionStart), xEnd: .value("end", suspensionEnd), yStart: .value("suspend-start", 0), yEnd: .value("suspend-end", suspensionMarkHeight) ) .foregroundStyle(Color.loopGray.opacity(colorScheme == .dark ? 0.3 : 0.8)) } } } private func drawIOB() -> some ChartContent { ForEach(state.enactedAndNonEnactedDeterminations) { iob in let rawAmount = iob.iob?.doubleValue ?? 0 let amount: Double = rawAmount > 0 ? rawAmount : rawAmount * 2 // weigh negative iob with factor 2 let date: Date = iob.deliverAt ?? Date() LineMark(x: .value("Time", date), y: .value("Amount", amount)) .foregroundStyle(Color.darkerBlue) AreaMark(x: .value("Time", date), y: .value("Amount", amount)) .foregroundStyle( LinearGradient( gradient: Gradient( colors: [ Color.darkerBlue.opacity(0.8), Color.darkerBlue.opacity(0.01) ] ), startPoint: .top, endPoint: .bottom ) ) } } private func drawCOB(dummy: Bool) -> some ChartContent { ForEach(state.enactedAndNonEnactedDeterminations) { cob in let amount = Int(cob.cob) let date: Date = cob.deliverAt ?? Date() if dummy { LineMark(x: .value("Time", date), y: .value("Value", amount)) .foregroundStyle(Color.clear) AreaMark(x: .value("Time", date), y: .value("Value", amount)).foregroundStyle( Color.clear ) } else { LineMark(x: .value("Time", date), y: .value("Value", amount)) .foregroundStyle(Color.orange.gradient) AreaMark(x: .value("Time", date), y: .value("Value", amount)).foregroundStyle( LinearGradient( gradient: Gradient( colors: [ Color.orange.opacity(0.8), Color.orange.opacity(0.01) ] ), startPoint: .top, endPoint: .bottom ) ) } } } private func prepareTempBasals() -> [(start: Date, end: Date, rate: Double)] { let now = Date() let tempBasals = state.tempBasals return tempBasals.compactMap { temp -> (start: Date, end: Date, rate: Double)? in let duration = temp.tempBasal?.duration ?? 0 let timestamp = temp.timestamp ?? Date() let end = min(timestamp + duration.minutes, now) let isInsulinSuspended = state.suspensions.contains { $0.timestamp ?? now >= timestamp && $0.timestamp ?? now <= end } let rate = Double(truncating: temp.tempBasal?.rate ?? Decimal.zero as NSDecimalNumber) * (isInsulinSuspended ? 0 : 1) // Check if there's a subsequent temp basal to determine the end time guard let nextTemp = state.tempBasals.first(where: { $0.timestamp ?? .distantPast > timestamp }) else { return (timestamp, end, rate) } return (timestamp, nextTemp.timestamp ?? Date(), rate) // end defaults to current time } } private func drawTempBasals(dummy: Bool) -> some ChartContent { ForEach(prepareTempBasals(), id: \.rate) { basal in if dummy { RectangleMark( xStart: .value("start", basal.start), xEnd: .value("end", basal.end), yStart: .value("rate-start", 0), yEnd: .value("rate-end", basal.rate) ).foregroundStyle(Color.clear) LineMark(x: .value("Start Date", basal.start), y: .value("Amount", basal.rate)) .lineStyle(.init(lineWidth: 1)).foregroundStyle(Color.clear) LineMark(x: .value("End Date", basal.end), y: .value("Amount", basal.rate)) .lineStyle(.init(lineWidth: 1)).foregroundStyle(Color.clear) } else { RectangleMark( xStart: .value("start", basal.start), xEnd: .value("end", basal.end), yStart: .value("rate-start", 0), yEnd: .value("rate-end", basal.rate) ).foregroundStyle( LinearGradient( gradient: Gradient( colors: [ Color.insulin.opacity(0.6), Color.insulin.opacity(0.1) ] ), startPoint: .top, endPoint: .bottom ) ) LineMark(x: .value("Start Date", basal.start), y: .value("Amount", basal.rate)) .lineStyle(.init(lineWidth: 1)).foregroundStyle(Color.insulin) LineMark(x: .value("End Date", basal.end), y: .value("Amount", basal.rate)) .lineStyle(.init(lineWidth: 1)).foregroundStyle(Color.insulin) } } } private func drawBasalProfile() -> some ChartContent { /// dashed profile line ForEach(basalProfiles, id: \.self) { profile in LineMark( x: .value("Start Date", profile.startDate), y: .value("Amount", profile.amount), series: .value("profile", "profile") ).lineStyle(.init(lineWidth: 2, dash: [2, 4])).foregroundStyle(Color.insulin) LineMark( x: .value("End Date", profile.endDate ?? endMarker), y: .value("Amount", profile.amount), series: .value("profile", "profile") ).lineStyle(.init(lineWidth: 2.5, dash: [2, 4])).foregroundStyle(Color.insulin) } } /// calculates the glucose value thats the nearest to parameter 'time' private func timeToNearestGlucose(time: TimeInterval) -> GlucoseStored? { guard !state.glucoseFromPersistence.isEmpty else { return nil } var low = 0 var high = state.glucoseFromPersistence.count - 1 var closestGlucose: GlucoseStored? // binary search to find next glucose while low <= high { let mid = low + (high - low) / 2 let midTime = state.glucoseFromPersistence[mid].date?.timeIntervalSince1970 ?? 0 if midTime == time { return state.glucoseFromPersistence[mid] } else if midTime < time { low = mid + 1 } else { high = mid - 1 } // update if necessary if closestGlucose == nil || abs(midTime - time) < abs(closestGlucose!.date?.timeIntervalSince1970 ?? 0 - time) { closestGlucose = state.glucoseFromPersistence[mid] } } return closestGlucose } private func fullWidth(viewWidth: CGFloat) -> CGFloat { viewWidth * CGFloat(hours) / CGFloat(min(max(screenHours, 2), 24)) } /// calculations for temp target bar mark private func calculateTTs() async { // Perform calculations off the main thread let calculatedTTs = await Task.detached { () -> [ChartTempTarget] in var groupedPackages: [[TempTarget]] = [] var currentPackage: [TempTarget] = [] var calculatedTTs: [ChartTempTarget] = [] for target in await tempTargets { if target.duration > 0 { if !currentPackage.isEmpty { groupedPackages.append(currentPackage) currentPackage = [] } currentPackage.append(target) } else if let lastNonZeroTempTarget = currentPackage.last(where: { $0.duration > 0 }) { // Ensure this cancel target is within the valid time range if target.createdAt >= lastNonZeroTempTarget.createdAt, target.createdAt <= lastNonZeroTempTarget.createdAt .addingTimeInterval(TimeInterval(lastNonZeroTempTarget.duration * 60)) { currentPackage.append(target) } } } // Append the last group, if any if !currentPackage.isEmpty { groupedPackages.append(currentPackage) } for package in groupedPackages { guard let firstNonZeroTarget = package.first(where: { $0.duration > 0 }) else { continue } var end = firstNonZeroTarget.createdAt.addingTimeInterval(TimeInterval(firstNonZeroTarget.duration * 60)) let earliestCancelTarget = package.filter({ $0.duration == 0 }).min(by: { $0.createdAt < $1.createdAt }) if let earliestCancelTarget = earliestCancelTarget { end = min(earliestCancelTarget.createdAt, end) } if let targetTop = firstNonZeroTarget.targetTop { let adjustedTarget = await units == .mgdL ? targetTop : targetTop.asMmolL calculatedTTs .append(ChartTempTarget(amount: adjustedTarget, start: firstNonZeroTarget.createdAt, end: end)) } } return calculatedTTs }.value // Update chartTempTargets on the main thread await MainActor.run { self.chartTempTargets = calculatedTTs } } private func findRegularBasalPoints( timeBegin: TimeInterval, timeEnd: TimeInterval, autotuned: Bool ) async -> [BasalProfile] { guard timeBegin < timeEnd else { return [] } let beginDate = Date(timeIntervalSince1970: timeBegin) let startOfDay = Calendar.current.startOfDay(for: beginDate) let profile = autotuned ? autotunedBasalProfile : basalProfile var basalPoints: [BasalProfile] = [] // Iterate over the next three days, multiplying the time intervals for dayOffset in 0 ..< 3 { let dayTimeOffset = TimeInterval(dayOffset * 24 * 60 * 60) // One Day in seconds for entry in profile { let basalTime = startOfDay.addingTimeInterval(entry.minutes.minutes.timeInterval + dayTimeOffset) let basalTimeInterval = basalTime.timeIntervalSince1970 // Only append points within the timeBegin and timeEnd range if basalTimeInterval >= timeBegin, basalTimeInterval < timeEnd { basalPoints.append(BasalProfile( amount: Double(entry.rate), isOverwritten: false, startDate: basalTime )) } } } return basalPoints } /// update start and end marker to fix scroll update problem with x axis private func updateStartEndMarkers() { startMarker = Date(timeIntervalSince1970: TimeInterval(NSDate().timeIntervalSince1970 - 86400)) let threeHourSinceNow = Date(timeIntervalSinceNow: TimeInterval(hours: 3)) // min is 1.5h -> (1.5*1h = 1.5*(5*12*60)) let dynamicFutureDateForCone = Date(timeIntervalSinceNow: TimeInterval( Int(1.5) * 5 * state .minCount * 60 )) endMarker = state .forecastDisplayType == .lines ? threeHourSinceNow : dynamicFutureDateForCone <= threeHourSinceNow ? dynamicFutureDateForCone.addingTimeInterval(TimeInterval(minutes: 30)) : threeHourSinceNow } private func calculateBasals() { Task { let dayAgoTime = Date().addingTimeInterval(-1.days.timeInterval).timeIntervalSince1970 // Get Regular and Autotuned Basal parallel async let getRegularBasalPoints = findRegularBasalPoints( timeBegin: dayAgoTime, timeEnd: endMarker.timeIntervalSince1970, autotuned: false ) async let getAutotunedBasalPoints = findRegularBasalPoints( timeBegin: dayAgoTime, timeEnd: endMarker.timeIntervalSince1970, autotuned: true ) let (regularPoints, autotunedBasalPoints) = await (getRegularBasalPoints, getAutotunedBasalPoints) var totalBasal = regularPoints + autotunedBasalPoints totalBasal.sort { $0.startDate.timeIntervalSince1970 < $1.startDate.timeIntervalSince1970 } var basals: [BasalProfile] = [] totalBasal.indices.forEach { index in basals.append(BasalProfile( amount: totalBasal[index].amount, isOverwritten: totalBasal[index].isOverwritten, startDate: totalBasal[index].startDate, endDate: totalBasal.count > index + 1 ? totalBasal[index + 1].startDate : endMarker )) } await MainActor.run { basalProfiles = basals } } } // MARK: - Chart formatting private func yAxisChartData() { let glucoseMapped = state.glucoseFromPersistence.map { Decimal($0.glucose) } let forecastValues = state.preprocessedData.map { Decimal($0.forecastValue.value) } guard let minGlucose = glucoseMapped.min(), let maxGlucose = glucoseMapped.max(), let minForecast = forecastValues.min(), let maxForecast = forecastValues.max() else { // default values minValue = 45 - 20 maxValue = 270 + 50 return } // Ensure maxForecast is not more than 100 over maxGlucose let adjustedMaxForecast = min(maxForecast, maxGlucose + 100) let minOverall = min(minGlucose, minForecast) let maxOverall = max(maxGlucose, adjustedMaxForecast) minValue = minOverall - 50 maxValue = maxOverall + 80 } private func yAxisChartDataCobChart() { let cobMapped = state.enactedAndNonEnactedDeterminations.map { Decimal($0.cob) } guard let maxCob = cobMapped.max() else { // default values minValueCobChart = 0 maxValueCobChart = 20 return } maxValueCobChart = maxCob == 0 ? 20 : maxCob + 20 // 2 is added to the max of iob and to keep the 1:10 ratio we add 20 here } private func yAxisChartDataIobChart() { let iobMapped = state.enactedAndNonEnactedDeterminations.compactMap { $0.iob?.decimalValue } guard let minIob = iobMapped.min(), let maxIob = iobMapped.max() else { // default values minValueIobChart = 0 maxValueIobChart = 5 return } minValueIobChart = minIob // we need to set this here because IOB can also be negative minValueCobChart = minIob < 0 ? minIob - 2 : 0 // if there is negative IOB the COB-X-Axis should still align with the IOB-X-Axis; 2 is only subtracted to make the charts align maxValueIobChart = maxIob + 2 } private func basalChartPlotStyle(_ plotContent: ChartPlotContent) -> some View { plotContent .rotationEffect(.degrees(180)) .scaleEffect(x: -1, y: 1) } private var mainChartXAxis: some AxisContent { AxisMarks(values: .stride(by: .hour, count: screenHours > 6 ? (screenHours > 12 ? 4 : 2) : 1)) { _ in if displayXgridLines { AxisGridLine(stroke: .init(lineWidth: 0.5, dash: [2, 3])) } else { AxisGridLine(stroke: .init(lineWidth: 0, dash: [2, 3])) } } } private var basalChartXAxis: some AxisContent { AxisMarks(values: .stride(by: .hour, count: screenHours > 6 ? (screenHours > 12 ? 4 : 2) : 1)) { _ in if displayXgridLines { AxisGridLine(stroke: .init(lineWidth: 0.5, dash: [2, 3])) } else { AxisGridLine(stroke: .init(lineWidth: 0, dash: [2, 3])) } AxisValueLabel(format: .dateTime.hour(.defaultDigits(amPM: .narrow)), anchor: .top) .font(.footnote).foregroundStyle(Color.primary) } } private var mainChartYAxis: some AxisContent { AxisMarks(position: .trailing) { value in if displayYgridLines { AxisGridLine(stroke: .init(lineWidth: 0.5, dash: [2, 3])) } else { AxisGridLine(stroke: .init(lineWidth: 0, dash: [2, 3])) } if let glucoseValue = value.as(Double.self), glucoseValue > 0 { /// fix offset between the two charts... if units == .mmolL { AxisTick(length: 7, stroke: .init(lineWidth: 7)).foregroundStyle(Color.clear) } AxisValueLabel().font(.footnote).foregroundStyle(Color.primary) } } } private var cobChartYAxis: some AxisContent { AxisMarks(position: .trailing) { _ in if displayYgridLines { AxisGridLine(stroke: .init(lineWidth: 0.5, dash: [2, 3])) } else { AxisGridLine(stroke: .init(lineWidth: 0, dash: [2, 3])) } } } } struct LegendItem: View { var color: Color var label: String var body: some View { Group { Circle().fill(color).frame(width: 8, height: 8) Text(label) .font(.system(size: 10, weight: .bold)) .foregroundColor(color) } } } extension Int16 { var minutes: TimeInterval { TimeInterval(self) * 60 } }