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Author SHA1 Message Date
Claude b953908f58 Add HealthBridge iOS app for intelligent health data synchronization
Complete implementation of a SwiftUI iOS app that serves as a "Single Source
of Truth" for health data. The app reads from all Apple Health sources,
detects conflicts between devices, merges data using configurable strategies,
and writes cleaned data back.

Features:
- Phase 1: HealthKit integration with automatic source discovery
- Phase 2: DataReader with conflict detection (time-window based)
- Phase 3: RuleEngine with 8 merge strategies (exclusive, priority, higher wins, etc.)
- Phase 4: MergeEngine for conflict resolution + DataWriter for HealthKit writes
- Phase 5: SwiftUI UI for dashboard, conflicts, rules, and sources management
- Phase 6: Background sync with configurable intervals and push notifications
- Phase 7: Complete rule editor and polished UI components

Supported data types:
- Steps, Heart Rate, Blood Pressure, SpO2, Sleep
- Distance, Floors Climbed, Active Energy, HRV, Respiratory Rate

Architecture: SourceManager -> DataReader -> RuleEngine -> MergeEngine -> DataWriter
2025-12-25 16:59:48 +00:00
admin 0ffb1c771e Merge pull request #12 from metacube2/claude/dctp-delta-transfer-swz4W
Build Delta Code Transfer Protocol tool
2025-12-25 14:51:10 +01:00
Claude 8858a08a32 Add DCTP (Delta Code Transfer Protocol) tool for efficient AI code transfers
DCTP enables efficient transfer of AI-generated code using delta operations
instead of sending complete files for each modification. Features include:

- Parser for DCTP control commands (NEW, DELETE, INSERT_AFTER, REPLACE, RENUMBER)
- Line-numbered code with language-specific comment formats
- Backup/Undo system with session management
- Diff generation for preview functionality
- CustomTkinter GUI with project management, preview, and diff views
2025-12-25 12:59:07 +00:00
admin faa36d0e5e Merge pull request #11 from metacube2/claude/family-albums-portal-jhT0O
Build family photo album portal backend
2025-12-25 11:52:32 +01:00
33 changed files with 8760 additions and 0 deletions
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import SwiftUI
import HealthKit
import BackgroundTasks
@main
struct HealthBridgeApp: App {
@StateObject private var appState = AppState()
@StateObject private var healthKitManager = HealthKitManager.shared
@StateObject private var syncCoordinator = SyncCoordinator.shared
init() {
registerBackgroundTasks()
}
var body: some Scene {
WindowGroup {
ContentView()
.environmentObject(appState)
.environmentObject(healthKitManager)
.environmentObject(syncCoordinator)
.onAppear {
Task {
await requestHealthKitAuthorization()
}
}
}
}
private func registerBackgroundTasks() {
BGTaskScheduler.shared.register(
forTaskWithIdentifier: "com.healthbridge.sync",
using: nil
) { task in
guard let bgTask = task as? BGAppRefreshTask else { return }
handleBackgroundSync(task: bgTask)
}
}
private func handleBackgroundSync(task: BGAppRefreshTask) {
scheduleNextBackgroundSync()
let syncTask = Task {
do {
try await syncCoordinator.performSync()
task.setTaskCompleted(success: true)
} catch {
task.setTaskCompleted(success: false)
}
}
task.expirationHandler = {
syncTask.cancel()
}
}
private func scheduleNextBackgroundSync() {
let request = BGAppRefreshTaskRequest(identifier: "com.healthbridge.sync")
request.earliestBeginDate = Date(timeIntervalSinceNow: 15 * 60) // 15 min
do {
try BGTaskScheduler.shared.submit(request)
} catch {
print("Failed to schedule background sync: \(error)")
}
}
private func requestHealthKitAuthorization() async {
do {
try await healthKitManager.requestAuthorization()
} catch {
print("HealthKit authorization failed: \(error)")
}
}
}
// MARK: - App State
@MainActor
class AppState: ObservableObject {
@Published var selectedTab: Tab = .dashboard
@Published var showingConflictDetail: Conflict?
@Published var isLoading = false
@Published var lastSyncDate: Date?
@Published var pendingConflicts: [Conflict] = []
enum Tab {
case dashboard
case conflicts
case rules
case sources
}
}
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import Foundation
// MARK: - Conflict
struct Conflict: Identifiable, Codable {
let id: UUID
let dataType: HealthDataType
let timeWindow: TimeWindow
var readings: [SourceReading]
var status: ConflictStatus
var resolution: ConflictResolution?
var appliedStrategy: MergeStrategy?
let detectedAt: Date
var resolvedAt: Date?
init(
id: UUID = UUID(),
dataType: HealthDataType,
timeWindow: TimeWindow,
readings: [SourceReading],
status: ConflictStatus = .pending,
resolution: ConflictResolution? = nil,
appliedStrategy: MergeStrategy? = nil,
detectedAt: Date = Date(),
resolvedAt: Date? = nil
) {
self.id = id
self.dataType = dataType
self.timeWindow = timeWindow
self.readings = readings
self.status = status
self.resolution = resolution
self.appliedStrategy = appliedStrategy
self.detectedAt = detectedAt
self.resolvedAt = resolvedAt
}
var valueDifference: Double {
guard readings.count >= 2 else { return 0 }
let values = readings.map { $0.value }
return (values.max() ?? 0) - (values.min() ?? 0)
}
var percentageDifference: Double {
guard readings.count >= 2 else { return 0 }
let values = readings.map { $0.value }
guard let min = values.min(), min > 0 else { return 0 }
guard let max = values.max() else { return 0 }
return ((max - min) / min) * 100
}
var severity: ConflictSeverity {
let pctDiff = percentageDifference
if pctDiff < 5 { return .minor }
if pctDiff < 20 { return .moderate }
if pctDiff < 50 { return .significant }
return .major
}
var highestValueReading: SourceReading? {
readings.max(by: { $0.value < $1.value })
}
var lowestValueReading: SourceReading? {
readings.min(by: { $0.value < $1.value })
}
var primarySourceReading: SourceReading? {
readings.max(by: { $0.sourceCategory.priority < $1.sourceCategory.priority })
}
}
// MARK: - Conflict Status
enum ConflictStatus: String, Codable {
case pending = "pending"
case resolved = "resolved"
case manualReview = "manual_review"
case ignored = "ignored"
var displayName: String {
switch self {
case .pending: return "Offen"
case .resolved: return "Gelöst"
case .manualReview: return "Manuelle Prüfung"
case .ignored: return "Ignoriert"
}
}
var icon: String {
switch self {
case .pending: return "clock.fill"
case .resolved: return "checkmark.circle.fill"
case .manualReview: return "hand.raised.fill"
case .ignored: return "eye.slash.fill"
}
}
}
// MARK: - Conflict Severity
enum ConflictSeverity: String, Codable {
case minor = "minor"
case moderate = "moderate"
case significant = "significant"
case major = "major"
var displayName: String {
switch self {
case .minor: return "Gering"
case .moderate: return "Moderat"
case .significant: return "Erheblich"
case .major: return "Gross"
}
}
var color: String {
switch self {
case .minor: return "green"
case .moderate: return "yellow"
case .significant: return "orange"
case .major: return "red"
}
}
}
// MARK: - Conflict Resolution
struct ConflictResolution: Codable {
let resolvedValue: Double
let secondaryResolvedValue: Double? // For blood pressure
let winningSourceId: String
let strategy: MergeStrategy
let isManual: Bool
let resolvedAt: Date
let notes: String?
init(
resolvedValue: Double,
secondaryResolvedValue: Double? = nil,
winningSourceId: String,
strategy: MergeStrategy,
isManual: Bool = false,
resolvedAt: Date = Date(),
notes: String? = nil
) {
self.resolvedValue = resolvedValue
self.secondaryResolvedValue = secondaryResolvedValue
self.winningSourceId = winningSourceId
self.strategy = strategy
self.isManual = isManual
self.resolvedAt = resolvedAt
self.notes = notes
}
}
// MARK: - Merge Strategy
enum MergeStrategy: String, Codable, CaseIterable, Identifiable {
case exclusive = "exclusive"
case priority = "priority"
case higherWins = "higher_wins"
case lowerWins = "lower_wins"
case average = "average"
case coverage = "coverage"
case coverageThenHigher = "coverage_then_higher"
case manual = "manual"
case mostRecent = "most_recent"
var id: String { rawValue }
var displayName: String {
switch self {
case .exclusive: return "Exklusiv"
case .priority: return "Priorität"
case .higherWins: return "Höherer Wert"
case .lowerWins: return "Niedrigerer Wert"
case .average: return "Durchschnitt"
case .coverage: return "Abdeckung"
case .coverageThenHigher: return "Abdeckung + Höher"
case .manual: return "Manuell"
case .mostRecent: return "Neuester"
}
}
var description: String {
switch self {
case .exclusive:
return "Nur eine Quelle kann diesen Datentyp liefern"
case .priority:
return "Höchste Priorität gewinnt basierend auf Benutzereinstellungen"
case .higherWins:
return "Der grössere Wert wird verwendet (z.B. mehr Schritte = war aktiv)"
case .lowerWins:
return "Der kleinere Wert wird verwendet"
case .average:
return "Durchschnitt aller Quellen"
case .coverage:
return "Quelle mit Daten für dieses Zeitfenster"
case .coverageThenHigher:
return "Erst Abdeckung prüfen, dann höherer Wert bei Konflikt"
case .manual:
return "Benutzer entscheidet bei jedem Konflikt"
case .mostRecent:
return "Zuletzt erfasster Wert"
}
}
var icon: String {
switch self {
case .exclusive: return "1.circle.fill"
case .priority: return "list.number"
case .higherWins: return "arrow.up.circle.fill"
case .lowerWins: return "arrow.down.circle.fill"
case .average: return "divide.circle.fill"
case .coverage: return "square.fill.on.square.fill"
case .coverageThenHigher: return "square.stack.3d.up.fill"
case .manual: return "hand.raised.fill"
case .mostRecent: return "clock.arrow.circlepath"
}
}
}
// MARK: - Merge Rule
struct MergeRule: Identifiable, Codable {
let id: UUID
let dataType: HealthDataType
var strategy: MergeStrategy
var primarySourceId: String?
var fallbackSourceId: String?
var sourcePriorities: [String: Int]
var autoApply: Bool
var thresholdForManualReview: Double? // Percentage difference threshold
init(
id: UUID = UUID(),
dataType: HealthDataType,
strategy: MergeStrategy,
primarySourceId: String? = nil,
fallbackSourceId: String? = nil,
sourcePriorities: [String: Int] = [:],
autoApply: Bool = true,
thresholdForManualReview: Double? = nil
) {
self.id = id
self.dataType = dataType
self.strategy = strategy
self.primarySourceId = primarySourceId
self.fallbackSourceId = fallbackSourceId
self.sourcePriorities = sourcePriorities
self.autoApply = autoApply
self.thresholdForManualReview = thresholdForManualReview
}
static func defaultRule(for dataType: HealthDataType) -> MergeRule {
switch dataType {
case .bloodPressureSystolic, .bloodPressureDiastolic, .bloodOxygen,
.heartRate, .restingHeartRate, .heartRateVariability, .respiratoryRate:
return MergeRule(dataType: dataType, strategy: .exclusive)
case .floorsClimbed:
return MergeRule(dataType: dataType, strategy: .exclusive)
case .steps, .distance, .activeEnergy:
return MergeRule(dataType: dataType, strategy: .coverageThenHigher)
case .sleep:
return MergeRule(dataType: dataType, strategy: .priority)
}
}
}
// MARK: - Sync Record
struct SyncRecord: Identifiable, Codable {
let id: UUID
let dataType: HealthDataType
let timeWindow: TimeWindow
var readings: [SourceReading]
var mergedValue: Double?
var secondaryMergedValue: Double? // For blood pressure
var strategy: MergeStrategy
var status: SyncStatus
var hasConflict: Bool
var conflictId: UUID?
let createdAt: Date
var processedAt: Date?
enum SyncStatus: String, Codable {
case pending = "pending"
case processing = "processing"
case completed = "completed"
case failed = "failed"
case requiresManualReview = "requires_manual"
}
init(
id: UUID = UUID(),
dataType: HealthDataType,
timeWindow: TimeWindow,
readings: [SourceReading],
mergedValue: Double? = nil,
secondaryMergedValue: Double? = nil,
strategy: MergeStrategy = .priority,
status: SyncStatus = .pending,
hasConflict: Bool = false,
conflictId: UUID? = nil,
createdAt: Date = Date(),
processedAt: Date? = nil
) {
self.id = id
self.dataType = dataType
self.timeWindow = timeWindow
self.readings = readings
self.mergedValue = mergedValue
self.secondaryMergedValue = secondaryMergedValue
self.strategy = strategy
self.status = status
self.hasConflict = hasConflict
self.conflictId = conflictId
self.createdAt = createdAt
self.processedAt = processedAt
}
}
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import Foundation
import HealthKit
// MARK: - Health Data Type
enum HealthDataType: String, CaseIterable, Codable, Identifiable {
case steps = "steps"
case heartRate = "heart_rate"
case bloodPressureSystolic = "blood_pressure_systolic"
case bloodPressureDiastolic = "blood_pressure_diastolic"
case bloodOxygen = "blood_oxygen"
case sleep = "sleep"
case distance = "distance"
case floorsClimbed = "floors_climbed"
case activeEnergy = "active_energy"
case restingHeartRate = "resting_heart_rate"
case heartRateVariability = "hrv"
case respiratoryRate = "respiratory_rate"
var id: String { rawValue }
var displayName: String {
switch self {
case .steps: return "Schritte"
case .heartRate: return "Herzfrequenz"
case .bloodPressureSystolic: return "Blutdruck (Systolisch)"
case .bloodPressureDiastolic: return "Blutdruck (Diastolisch)"
case .bloodOxygen: return "Blutsauerstoff (SpO2)"
case .sleep: return "Schlaf"
case .distance: return "Distanz"
case .floorsClimbed: return "Stockwerke"
case .activeEnergy: return "Aktive Energie"
case .restingHeartRate: return "Ruhepuls"
case .heartRateVariability: return "HRV"
case .respiratoryRate: return "Atemfrequenz"
}
}
var icon: String {
switch self {
case .steps: return "figure.walk"
case .heartRate, .restingHeartRate: return "heart.fill"
case .bloodPressureSystolic, .bloodPressureDiastolic: return "drop.fill"
case .bloodOxygen: return "lungs.fill"
case .sleep: return "bed.double.fill"
case .distance: return "map.fill"
case .floorsClimbed: return "stairs"
case .activeEnergy: return "flame.fill"
case .heartRateVariability: return "waveform.path.ecg"
case .respiratoryRate: return "wind"
}
}
var unit: String {
switch self {
case .steps: return "Schritte"
case .heartRate, .restingHeartRate: return "bpm"
case .bloodPressureSystolic, .bloodPressureDiastolic: return "mmHg"
case .bloodOxygen: return "%"
case .sleep: return "h"
case .distance: return "km"
case .floorsClimbed: return "Stockwerke"
case .activeEnergy: return "kcal"
case .heartRateVariability: return "ms"
case .respiratoryRate: return "/min"
}
}
var hkQuantityType: HKQuantityType? {
switch self {
case .steps:
return HKQuantityType.quantityType(forIdentifier: .stepCount)
case .heartRate:
return HKQuantityType.quantityType(forIdentifier: .heartRate)
case .bloodPressureSystolic:
return HKQuantityType.quantityType(forIdentifier: .bloodPressureSystolic)
case .bloodPressureDiastolic:
return HKQuantityType.quantityType(forIdentifier: .bloodPressureDiastolic)
case .bloodOxygen:
return HKQuantityType.quantityType(forIdentifier: .oxygenSaturation)
case .distance:
return HKQuantityType.quantityType(forIdentifier: .distanceWalkingRunning)
case .floorsClimbed:
return HKQuantityType.quantityType(forIdentifier: .flightsClimbed)
case .activeEnergy:
return HKQuantityType.quantityType(forIdentifier: .activeEnergyBurned)
case .restingHeartRate:
return HKQuantityType.quantityType(forIdentifier: .restingHeartRate)
case .heartRateVariability:
return HKQuantityType.quantityType(forIdentifier: .heartRateVariabilitySDNN)
case .respiratoryRate:
return HKQuantityType.quantityType(forIdentifier: .respiratoryRate)
case .sleep:
return nil // Sleep uses category type
}
}
var hkCategoryType: HKCategoryType? {
switch self {
case .sleep:
return HKCategoryType.categoryType(forIdentifier: .sleepAnalysis)
default:
return nil
}
}
var hkUnit: HKUnit {
switch self {
case .steps, .floorsClimbed:
return .count()
case .heartRate, .restingHeartRate, .respiratoryRate:
return HKUnit.count().unitDivided(by: .minute())
case .bloodPressureSystolic, .bloodPressureDiastolic:
return .millimeterOfMercury()
case .bloodOxygen:
return .percent()
case .sleep:
return .hour()
case .distance:
return .meterUnit(with: .kilo)
case .activeEnergy:
return .kilocalorie()
case .heartRateVariability:
return .secondUnit(with: .milli)
}
}
/// Default primary source for this data type
var defaultPrimarySource: SourceCategory {
switch self {
case .floorsClimbed:
return .iPhone
case .steps, .heartRate, .bloodPressureSystolic, .bloodPressureDiastolic,
.bloodOxygen, .sleep, .distance, .activeEnergy, .restingHeartRate,
.heartRateVariability, .respiratoryRate:
return .watch
}
}
/// Whether this data type typically has only one source
var isExclusive: Bool {
switch self {
case .bloodPressureSystolic, .bloodPressureDiastolic, .bloodOxygen,
.heartRate, .restingHeartRate, .heartRateVariability, .respiratoryRate, .sleep:
return true
default:
return false
}
}
}
// MARK: - Source Category
enum SourceCategory: String, Codable, CaseIterable {
case iPhone = "iphone"
case watch = "watch"
case thirdPartyWatch = "third_party_watch"
case thirdPartyApp = "third_party_app"
case healthBridge = "health_bridge"
case unknown = "unknown"
var displayName: String {
switch self {
case .iPhone: return "iPhone"
case .watch: return "Apple Watch"
case .thirdPartyWatch: return "Drittanbieter-Watch"
case .thirdPartyApp: return "Drittanbieter-App"
case .healthBridge: return "HealthBridge"
case .unknown: return "Unbekannt"
}
}
var icon: String {
switch self {
case .iPhone: return "iphone"
case .watch: return "applewatch"
case .thirdPartyWatch: return "applewatch.side.right"
case .thirdPartyApp: return "app.badge"
case .healthBridge: return "arrow.triangle.2.circlepath"
case .unknown: return "questionmark.circle"
}
}
var priority: Int {
switch self {
case .healthBridge: return 100
case .watch: return 80
case .thirdPartyWatch: return 70
case .iPhone: return 50
case .thirdPartyApp: return 30
case .unknown: return 0
}
}
}
// MARK: - Data Quality
enum DataQuality: String, Codable {
case complete = "complete"
case partial = "partial"
case missing = "missing"
case invalid = "invalid"
var icon: String {
switch self {
case .complete: return "checkmark.circle.fill"
case .partial: return "circle.lefthalf.filled"
case .missing: return "circle.dashed"
case .invalid: return "xmark.circle.fill"
}
}
var color: String {
switch self {
case .complete: return "green"
case .partial: return "yellow"
case .missing: return "gray"
case .invalid: return "red"
}
}
}
// MARK: - Time Window
struct TimeWindow: Codable, Hashable, Identifiable {
let start: Date
let end: Date
var id: String { "\(start.timeIntervalSince1970)-\(end.timeIntervalSince1970)" }
var interval: DateInterval {
DateInterval(start: start, end: end)
}
var duration: TimeInterval {
end.timeIntervalSince(start)
}
var formattedRange: String {
let formatter = DateFormatter()
formatter.dateStyle = .none
formatter.timeStyle = .short
return "\(formatter.string(from: start)) - \(formatter.string(from: end))"
}
var formattedDate: String {
let formatter = DateFormatter()
formatter.dateStyle = .medium
formatter.timeStyle = .none
return formatter.string(from: start)
}
static func windows(for date: Date, intervalMinutes: Int = 15) -> [TimeWindow] {
let calendar = Calendar.current
let startOfDay = calendar.startOfDay(for: date)
let endOfDay = calendar.date(byAdding: .day, value: 1, to: startOfDay)!
var windows: [TimeWindow] = []
var current = startOfDay
while current < endOfDay {
let windowEnd = calendar.date(byAdding: .minute, value: intervalMinutes, to: current)!
windows.append(TimeWindow(start: current, end: min(windowEnd, endOfDay)))
current = windowEnd
}
return windows
}
static func hourlyWindows(for date: Date) -> [TimeWindow] {
windows(for: date, intervalMinutes: 60)
}
}
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import Foundation
import HealthKit
// MARK: - Health Source
struct HealthSource: Identifiable, Codable, Hashable {
let id: String
let bundleIdentifier: String
let name: String
let category: SourceCategory
var supportedDataTypes: Set<HealthDataType>
var lastActivityDate: Date?
var userPriorities: [HealthDataType: Int]
var isEnabled: Bool
init(
id: String = UUID().uuidString,
bundleIdentifier: String,
name: String,
category: SourceCategory,
supportedDataTypes: Set<HealthDataType> = [],
lastActivityDate: Date? = nil,
userPriorities: [HealthDataType: Int] = [:],
isEnabled: Bool = true
) {
self.id = id
self.bundleIdentifier = bundleIdentifier
self.name = name
self.category = category
self.supportedDataTypes = supportedDataTypes
self.lastActivityDate = lastActivityDate
self.userPriorities = userPriorities
self.isEnabled = isEnabled
}
var displayName: String {
if name.isEmpty {
return bundleIdentifier.components(separatedBy: ".").last ?? bundleIdentifier
}
return name
}
var isHealthBridge: Bool {
bundleIdentifier == HealthBridgeConstants.bundleIdentifier
}
func priority(for dataType: HealthDataType) -> Int {
userPriorities[dataType] ?? category.priority
}
static func from(hkSource: HKSource) -> HealthSource {
let category = classifySource(bundleId: hkSource.bundleIdentifier)
return HealthSource(
id: hkSource.bundleIdentifier,
bundleIdentifier: hkSource.bundleIdentifier,
name: hkSource.name,
category: category
)
}
private static func classifySource(bundleId: String) -> SourceCategory {
let lowercased = bundleId.lowercased()
if lowercased.contains("healthbridge") {
return .healthBridge
} else if lowercased.contains("apple.health") {
return .iPhone
} else if lowercased.contains("watch") || lowercased.contains("applewatch") {
return .watch
} else if lowercased.contains("huawei") || lowercased.contains("samsung") ||
lowercased.contains("fitbit") || lowercased.contains("garmin") ||
lowercased.contains("polar") || lowercased.contains("withings") {
return .thirdPartyWatch
} else {
return .thirdPartyApp
}
}
}
// MARK: - Source Reading
struct SourceReading: Identifiable, Codable {
let id: UUID
let sourceId: String
let sourceName: String
let sourceCategory: SourceCategory
let value: Double
let secondaryValue: Double? // For blood pressure (diastolic)
let timestamp: Date
let originalRecordId: String?
let quality: DataQuality
init(
id: UUID = UUID(),
sourceId: String,
sourceName: String,
sourceCategory: SourceCategory,
value: Double,
secondaryValue: Double? = nil,
timestamp: Date,
originalRecordId: String? = nil,
quality: DataQuality = .complete
) {
self.id = id
self.sourceId = sourceId
self.sourceName = sourceName
self.sourceCategory = sourceCategory
self.value = value
self.secondaryValue = secondaryValue
self.timestamp = timestamp
self.originalRecordId = originalRecordId
self.quality = quality
}
var formattedValue: String {
if value == floor(value) {
return String(format: "%.0f", value)
}
return String(format: "%.1f", value)
}
}
// MARK: - Source Health Status
struct SourceHealthStatus: Identifiable {
let id: String
let source: HealthSource
let lastSync: Date?
let recordCount: Int
let dataGaps: [TimeWindow]
let overallQuality: DataQuality
var syncStatus: SyncStatus {
guard let lastSync = lastSync else {
return .neverSynced
}
let hoursSinceSync = Date().timeIntervalSince(lastSync) / 3600
if hoursSinceSync < 1 {
return .recentlySynced
} else if hoursSinceSync < 24 {
return .syncedToday
} else if hoursSinceSync < 72 {
return .stale
} else {
return .veryStale
}
}
enum SyncStatus {
case recentlySynced
case syncedToday
case stale
case veryStale
case neverSynced
var icon: String {
switch self {
case .recentlySynced: return "checkmark.circle.fill"
case .syncedToday: return "checkmark.circle"
case .stale: return "exclamationmark.circle"
case .veryStale: return "exclamationmark.triangle"
case .neverSynced: return "xmark.circle"
}
}
var description: String {
switch self {
case .recentlySynced: return "Kürzlich synchronisiert"
case .syncedToday: return "Heute synchronisiert"
case .stale: return "Sync überfällig"
case .veryStale: return "Lange nicht synchronisiert"
case .neverSynced: return "Nie synchronisiert"
}
}
}
}
// MARK: - Constants
enum HealthBridgeConstants {
static let bundleIdentifier = "com.healthbridge.merged"
static let displayName = "HealthBridge"
static let defaultSyncInterval: TimeInterval = 15 * 60 // 15 minutes
static let conflictThreshold: TimeInterval = 60 // 1 minute overlap tolerance
}
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# HealthBridge
Intelligente Health-Daten-Synchronisation für iOS Eine "Single Source of Truth" für Gesundheitsdaten.
## Übersicht
HealthBridge liest alle Quellen aus Apple Health, erkennt Konflikte zwischen verschiedenen Geräten und Apps, merged intelligent basierend auf konfigurierbaren Regeln und schreibt bereinigte Daten zurück.
## Features
### Source Discovery
- Automatische Erkennung aller verbundenen Datenquellen
- Klassifizierung nach Gerätetyp (iPhone, Apple Watch, Drittanbieter-Watch, Apps)
- Übersicht über Fähigkeiten und unterstützte Datentypen pro Quelle
### Konflikt-Erkennung
- Automatische Erkennung von Datenkonflikten zwischen Quellen
- Zeitfenster-basierte Analyse (15-Minuten-Intervalle)
- Schweregrad-Klassifizierung (minor, moderate, significant, major)
### Merge-Strategien
- **Exclusive**: Nur eine Quelle möglich (z.B. Blutdruck, SpO2)
- **Priority**: Fixe Rangfolge basierend auf Benutzereinstellungen
- **Higher Wins**: Grösserer Wert gewinnt (ideal für Schritte)
- **Coverage**: Quelle mit Daten für Zeitfenster gewinnt
- **Coverage Then Higher**: Erst Abdeckung, dann höherer Wert
- **Average**: Durchschnitt aller Quellen
- **Manual**: Benutzer entscheidet bei jedem Konflikt
### UI-Komponenten
- **Dashboard**: Tagesübersicht aller Gesundheitsdaten mit Sync-Status
- **Konflikte**: Liste offener Konflikte mit One-Tap-Auflösung
- **Regeln**: Konfiguration der Merge-Strategien pro Datentyp
- **Quellen**: Übersicht aller erkannten Datenquellen
### Background Sync
- Automatische Synchronisierung im Hintergrund
- Konfigurierbares Intervall (15 Min bis 2 Stunden)
- Push-Benachrichtigungen bei neuen Konflikten
## Unterstützte Datentypen
| Datentyp | Primärquelle | Strategie |
|----------|--------------|-----------|
| Schritte | Watch | Coverage + Higher |
| Herzfrequenz | Watch | Exclusive |
| Blutdruck | Watch D2 | Exclusive |
| SpO2 | Watch | Exclusive |
| Schlaf | Watch | Priority |
| Distanz | Watch/iPhone | Coverage + Higher |
| Stockwerke | iPhone | Exclusive |
| Aktive Energie | Watch | Coverage + Higher |
## Architektur
```
┌─────────────────────────────────────────────────────────────────┐
│ Apple Health │
└─────────────────────────────────────────────────────────────────┘
┌─────────────────────────────────────────────────────────────────┐
│ HealthBridge App │
│ │
│ ┌─────────────┐ ┌─────────────┐ ┌─────────────┐ │
│ │ DataReader │→ │ MergeEngine │→ │ DataWriter │ │
│ └─────────────┘ └─────────────┘ └─────────────┘ │
│ ▲ ▲ │
│ ┌─────────────┐ ┌─────────────┐ │
│ │SourceManager│ │ RuleEngine │ │
│ └─────────────┘ └─────────────┘ │
│ │
│ ┌─────────────────────────────────────────────────────────┐ │
│ │ SyncCoordinator │ │
│ └─────────────────────────────────────────────────────────┘ │
└─────────────────────────────────────────────────────────────────┘
```
## Projektstruktur
```
HealthBridge/
├── App/
│ └── HealthBridgeApp.swift # App-Entry, Background Tasks
├── Models/
│ ├── HealthDataTypes.swift # Datentypen, TimeWindow
│ ├── Source.swift # HealthSource, SourceReading
│ └── Conflict.swift # Conflict, MergeStrategy, MergeRule
├── Services/
│ ├── HealthKitManager.swift # HealthKit-Integration
│ ├── SourceManager.swift # Source Discovery & Management
│ ├── DataReader.swift # Daten lesen, Konflikte erkennen
│ ├── RuleEngine.swift # Merge-Regeln verwalten & anwenden
│ ├── MergeEngine.swift # Konflikte analysieren & lösen
│ ├── DataWriter.swift # Daten zurückschreiben
│ └── SyncCoordinator.swift # Orchestrierung aller Services
├── Views/
│ ├── ContentView.swift # Tab-Navigation
│ ├── DashboardView.swift # Hauptübersicht
│ ├── ConflictsView.swift # Konflikt-Liste & Detail
│ ├── RulesView.swift # Regelwerk-Editor
│ ├── SourcesView.swift # Quellen-Übersicht
│ ├── SettingsView.swift # Einstellungen
│ └── Components/
│ └── HealthChart.swift # Diagramm-Komponenten
├── ViewModels/
│ └── DashboardViewModel.swift # Dashboard-Logik
├── Utils/
│ ├── Extensions.swift # Swift-Erweiterungen
│ └── NotificationManager.swift # Push-Benachrichtigungen
└── Resources/
├── Info.plist # App-Konfiguration
└── HealthBridge.entitlements # HealthKit-Berechtigungen
```
## Voraussetzungen
- iOS 16.0+
- Xcode 15.0+
- Apple Developer Account (für HealthKit-Entitlements)
- Physisches Gerät (HealthKit nicht im Simulator verfügbar)
## Installation
1. Projekt in Xcode öffnen
2. Team für Code Signing auswählen
3. HealthKit-Capability aktivieren
4. Auf physischem Gerät ausführen
## Berechtigungen
Die App benötigt folgende Berechtigungen:
- **HealthKit Read**: Lesen aller Gesundheitsdaten
- **HealthKit Write**: Schreiben gemergter Daten
- **Background App Refresh**: Für automatische Synchronisierung
- **Notifications**: Für Konflikt-Benachrichtigungen
## Lizenz
MIT License
@@ -0,0 +1,16 @@
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>com.apple.developer.healthkit</key>
<true/>
<key>com.apple.developer.healthkit.access</key>
<array>
<string>health-records</string>
</array>
<key>com.apple.developer.healthkit.background-delivery</key>
<true/>
<key>aps-environment</key>
<string>development</string>
</dict>
</plist>
+74
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@@ -0,0 +1,74 @@
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>CFBundleDevelopmentRegion</key>
<string>$(DEVELOPMENT_LANGUAGE)</string>
<key>CFBundleDisplayName</key>
<string>HealthBridge</string>
<key>CFBundleExecutable</key>
<string>$(EXECUTABLE_NAME)</string>
<key>CFBundleIdentifier</key>
<string>$(PRODUCT_BUNDLE_IDENTIFIER)</string>
<key>CFBundleInfoDictionaryVersion</key>
<string>6.0</string>
<key>CFBundleName</key>
<string>$(PRODUCT_NAME)</string>
<key>CFBundlePackageType</key>
<string>$(PRODUCT_BUNDLE_PACKAGE_TYPE)</string>
<key>CFBundleShortVersionString</key>
<string>1.0</string>
<key>CFBundleVersion</key>
<string>1</string>
<key>LSRequiresIPhoneOS</key>
<true/>
<key>UIApplicationSceneManifest</key>
<dict>
<key>UIApplicationSupportsMultipleScenes</key>
<false/>
</dict>
<key>UILaunchScreen</key>
<dict>
<key>UIColorName</key>
<string>LaunchScreenBackground</string>
<key>UIImageName</key>
<string>LaunchIcon</string>
</dict>
<key>UISupportedInterfaceOrientations</key>
<array>
<string>UIInterfaceOrientationPortrait</string>
<string>UIInterfaceOrientationLandscapeLeft</string>
<string>UIInterfaceOrientationLandscapeRight</string>
</array>
<key>UISupportedInterfaceOrientations~ipad</key>
<array>
<string>UIInterfaceOrientationPortrait</string>
<string>UIInterfaceOrientationPortraitUpsideDown</string>
<string>UIInterfaceOrientationLandscapeLeft</string>
<string>UIInterfaceOrientationLandscapeRight</string>
</array>
<key>UIRequiredDeviceCapabilities</key>
<array>
<string>armv7</string>
<string>healthkit</string>
</array>
<!-- HealthKit -->
<key>NSHealthShareUsageDescription</key>
<string>HealthBridge benötigt Zugriff auf Ihre Gesundheitsdaten, um diese zwischen verschiedenen Quellen zu synchronisieren und Konflikte zu lösen.</string>
<key>NSHealthUpdateUsageDescription</key>
<string>HealthBridge schreibt bereinigte Gesundheitsdaten zurück in Apple Health, um eine konsistente Datenbasis zu gewährleisten.</string>
<!-- Background Modes -->
<key>UIBackgroundModes</key>
<array>
<string>fetch</string>
<string>processing</string>
</array>
<key>BGTaskSchedulerPermittedIdentifiers</key>
<array>
<string>com.healthbridge.sync</string>
<string>com.healthbridge.cleanup</string>
</array>
</dict>
</plist>
+488
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@@ -0,0 +1,488 @@
import Foundation
import HealthKit
import Combine
// MARK: - Data Reader
@MainActor
class DataReader: ObservableObject {
static let shared = DataReader()
private let healthKitManager = HealthKitManager.shared
private let sourceManager = SourceManager.shared
@Published var isReading = false
@Published var lastReadDate: Date?
@Published var detectedConflicts: [Conflict] = []
@Published var readingProgress: Double = 0
private init() {}
// MARK: - Fetch Data by Type and Date Range
func fetchData(
for dataType: HealthDataType,
from startDate: Date,
to endDate: Date,
groupByWindow intervalMinutes: Int = 15
) async throws -> [TimeWindowData] {
isReading = true
defer { isReading = false }
let samples = try await healthKitManager.fetchSamples(
for: dataType,
from: startDate,
to: endDate
)
// Group samples by source
let groupedBySource = groupBySource(samples: samples, dataType: dataType)
// Create time windows
let windows = generateTimeWindows(from: startDate, to: endDate, intervalMinutes: intervalMinutes)
// Assign samples to windows
var windowDataList: [TimeWindowData] = []
for window in windows {
let windowData = createWindowData(
window: window,
dataType: dataType,
groupedBySource: groupedBySource
)
windowDataList.append(windowData)
}
lastReadDate = Date()
return windowDataList
}
private func groupBySource(samples: [HKSample], dataType: HealthDataType) -> [String: [HKSample]] {
var grouped: [String: [HKSample]] = [:]
for sample in samples {
let sourceId = sample.sourceRevision.source.bundleIdentifier
if grouped[sourceId] == nil {
grouped[sourceId] = []
}
grouped[sourceId]?.append(sample)
}
return grouped
}
private func generateTimeWindows(from start: Date, to end: Date, intervalMinutes: Int) -> [TimeWindow] {
var windows: [TimeWindow] = []
var current = start
while current < end {
let windowEnd = min(
Calendar.current.date(byAdding: .minute, value: intervalMinutes, to: current)!,
end
)
windows.append(TimeWindow(start: current, end: windowEnd))
current = windowEnd
}
return windows
}
private func createWindowData(
window: TimeWindow,
dataType: HealthDataType,
groupedBySource: [String: [HKSample]]
) -> TimeWindowData {
var readings: [SourceReading] = []
for (sourceId, samples) in groupedBySource {
let windowSamples = samples.filter { sample in
sample.startDate < window.end && sample.endDate > window.start
}
if !windowSamples.isEmpty {
let reading = createReading(
from: windowSamples,
sourceId: sourceId,
dataType: dataType,
window: window
)
readings.append(reading)
}
}
let hasConflict = detectConflict(in: readings, dataType: dataType)
return TimeWindowData(
timeWindow: window,
dataType: dataType,
readings: readings,
hasConflict: hasConflict
)
}
private func createReading(
from samples: [HKSample],
sourceId: String,
dataType: HealthDataType,
window: TimeWindow
) -> SourceReading {
let value: Double
var secondaryValue: Double? = nil
switch dataType {
case .steps, .floorsClimbed, .activeEnergy, .distance:
// Sum up values for cumulative types
value = samples.compactMap { sample -> Double? in
guard let quantitySample = sample as? HKQuantitySample else { return nil }
return quantitySample.quantity.doubleValue(for: dataType.hkUnit)
}.reduce(0, +)
case .heartRate, .restingHeartRate, .respiratoryRate, .heartRateVariability, .bloodOxygen:
// Average for rate-based types
let values = samples.compactMap { sample -> Double? in
guard let quantitySample = sample as? HKQuantitySample else { return nil }
return quantitySample.quantity.doubleValue(for: dataType.hkUnit)
}
value = values.isEmpty ? 0 : values.reduce(0, +) / Double(values.count)
case .bloodPressureSystolic, .bloodPressureDiastolic:
// For blood pressure, we need to handle correlations
let values = samples.compactMap { sample -> Double? in
guard let quantitySample = sample as? HKQuantitySample else { return nil }
return quantitySample.quantity.doubleValue(for: dataType.hkUnit)
}
value = values.isEmpty ? 0 : values.reduce(0, +) / Double(values.count)
case .sleep:
// Sum up sleep duration
value = samples.reduce(0) { acc, sample in
acc + sample.endDate.timeIntervalSince(sample.startDate) / 3600
}
}
let source = sourceManager.sources.first { $0.bundleIdentifier == sourceId }
let category = source?.category ?? sourceManager.classifySource(sourceId)
return SourceReading(
sourceId: sourceId,
sourceName: source?.name ?? sourceId,
sourceCategory: category,
value: value,
secondaryValue: secondaryValue,
timestamp: window.start,
originalRecordId: samples.first?.uuid.uuidString,
quality: samples.isEmpty ? .missing : .complete
)
}
// MARK: - Conflict Detection
private func detectConflict(in readings: [SourceReading], dataType: HealthDataType) -> Bool {
// No conflict if less than 2 readings
guard readings.count >= 2 else { return false }
// Filter out zero values (device wasn't tracking)
let nonZeroReadings = readings.filter { $0.value > 0 }
guard nonZeroReadings.count >= 2 else { return false }
// Check if values differ significantly
let values = nonZeroReadings.map { $0.value }
guard let minVal = values.min(), let maxVal = values.max() else { return false }
// Threshold varies by data type
let threshold = conflictThreshold(for: dataType)
if minVal == 0 {
return maxVal > threshold.absoluteThreshold
}
let percentDiff = (maxVal - minVal) / minVal * 100
return percentDiff > threshold.percentageThreshold
}
private func conflictThreshold(for dataType: HealthDataType) -> ConflictThreshold {
switch dataType {
case .steps:
return ConflictThreshold(percentageThreshold: 10, absoluteThreshold: 100)
case .distance:
return ConflictThreshold(percentageThreshold: 10, absoluteThreshold: 0.1) // 100m
case .heartRate:
return ConflictThreshold(percentageThreshold: 15, absoluteThreshold: 10)
case .bloodPressureSystolic, .bloodPressureDiastolic:
return ConflictThreshold(percentageThreshold: 5, absoluteThreshold: 5)
case .bloodOxygen:
return ConflictThreshold(percentageThreshold: 2, absoluteThreshold: 2)
case .floorsClimbed:
return ConflictThreshold(percentageThreshold: 20, absoluteThreshold: 2)
case .activeEnergy:
return ConflictThreshold(percentageThreshold: 15, absoluteThreshold: 50)
case .sleep:
return ConflictThreshold(percentageThreshold: 10, absoluteThreshold: 0.5) // 30 min
case .restingHeartRate:
return ConflictThreshold(percentageThreshold: 10, absoluteThreshold: 5)
case .heartRateVariability:
return ConflictThreshold(percentageThreshold: 20, absoluteThreshold: 10)
case .respiratoryRate:
return ConflictThreshold(percentageThreshold: 15, absoluteThreshold: 2)
}
}
// MARK: - Detect All Conflicts
func detectConflicts(
for date: Date,
dataTypes: [HealthDataType] = HealthDataType.allCases
) async throws -> [Conflict] {
let calendar = Calendar.current
let startOfDay = calendar.startOfDay(for: date)
let endOfDay = calendar.date(byAdding: .day, value: 1, to: startOfDay)!
var allConflicts: [Conflict] = []
for (index, dataType) in dataTypes.enumerated() {
readingProgress = Double(index) / Double(dataTypes.count)
do {
let windowData = try await fetchData(
for: dataType,
from: startOfDay,
to: endOfDay
)
let conflicts = windowData
.filter { $0.hasConflict }
.map { data in
Conflict(
dataType: dataType,
timeWindow: data.timeWindow,
readings: data.readings,
status: .pending
)
}
allConflicts.append(contentsOf: conflicts)
} catch {
print("Failed to detect conflicts for \(dataType): \(error)")
}
}
readingProgress = 1.0
detectedConflicts = allConflicts
return allConflicts
}
// MARK: - Data Gaps Detection
func detectGaps(
for dataType: HealthDataType,
from startDate: Date,
to endDate: Date,
expectedIntervalMinutes: Int = 15
) async throws -> [DataGap] {
let samples = try await healthKitManager.fetchSamples(
for: dataType,
from: startDate,
to: endDate
)
guard !samples.isEmpty else {
return [DataGap(
dataType: dataType,
timeWindow: TimeWindow(start: startDate, end: endDate),
expectedRecordCount: 0,
actualRecordCount: 0
)]
}
let sortedSamples = samples.sorted { $0.startDate < $1.startDate }
var gaps: [DataGap] = []
let expectedInterval = TimeInterval(expectedIntervalMinutes * 60)
// Check gap at start
if let firstSample = sortedSamples.first,
firstSample.startDate.timeIntervalSince(startDate) > expectedInterval * 2 {
gaps.append(DataGap(
dataType: dataType,
timeWindow: TimeWindow(start: startDate, end: firstSample.startDate),
expectedRecordCount: Int(firstSample.startDate.timeIntervalSince(startDate) / expectedInterval),
actualRecordCount: 0
))
}
// Check gaps between samples
for i in 0..<(sortedSamples.count - 1) {
let current = sortedSamples[i]
let next = sortedSamples[i + 1]
let gap = next.startDate.timeIntervalSince(current.endDate)
if gap > expectedInterval * 2 {
gaps.append(DataGap(
dataType: dataType,
timeWindow: TimeWindow(start: current.endDate, end: next.startDate),
expectedRecordCount: Int(gap / expectedInterval),
actualRecordCount: 0
))
}
}
// Check gap at end
if let lastSample = sortedSamples.last,
endDate.timeIntervalSince(lastSample.endDate) > expectedInterval * 2 {
gaps.append(DataGap(
dataType: dataType,
timeWindow: TimeWindow(start: lastSample.endDate, end: endDate),
expectedRecordCount: Int(endDate.timeIntervalSince(lastSample.endDate) / expectedInterval),
actualRecordCount: 0
))
}
return gaps
}
// MARK: - Aggregated Data
func fetchDailySummary(for date: Date) async throws -> DailySummary {
let calendar = Calendar.current
let startOfDay = calendar.startOfDay(for: date)
let endOfDay = calendar.date(byAdding: .day, value: 1, to: startOfDay)!
var summary = DailySummary(date: date)
for dataType in HealthDataType.allCases {
do {
let samples = try await healthKitManager.fetchSamples(
for: dataType,
from: startOfDay,
to: endOfDay
)
let value = aggregateValue(samples: samples, dataType: dataType)
summary.values[dataType] = value
// Check for conflicts
let windowData = try await fetchData(
for: dataType,
from: startOfDay,
to: endOfDay
)
let conflictCount = windowData.filter { $0.hasConflict }.count
summary.conflictCounts[dataType] = conflictCount
} catch {
print("Failed to fetch \(dataType) for summary: \(error)")
}
}
return summary
}
private func aggregateValue(samples: [HKSample], dataType: HealthDataType) -> Double {
switch dataType {
case .steps, .floorsClimbed, .activeEnergy, .distance:
return samples.compactMap { sample -> Double? in
guard let quantitySample = sample as? HKQuantitySample else { return nil }
return quantitySample.quantity.doubleValue(for: dataType.hkUnit)
}.reduce(0, +)
case .heartRate, .restingHeartRate, .respiratoryRate, .heartRateVariability,
.bloodOxygen, .bloodPressureSystolic, .bloodPressureDiastolic:
let values = samples.compactMap { sample -> Double? in
guard let quantitySample = sample as? HKQuantitySample else { return nil }
return quantitySample.quantity.doubleValue(for: dataType.hkUnit)
}
return values.isEmpty ? 0 : values.reduce(0, +) / Double(values.count)
case .sleep:
return samples.reduce(0) { acc, sample in
acc + sample.endDate.timeIntervalSince(sample.startDate) / 3600
}
}
}
}
// MARK: - Supporting Types
struct TimeWindowData: Identifiable {
let id = UUID()
let timeWindow: TimeWindow
let dataType: HealthDataType
let readings: [SourceReading]
let hasConflict: Bool
var primaryReading: SourceReading? {
readings.max { $0.sourceCategory.priority < $1.sourceCategory.priority }
}
var conflictSeverity: ConflictSeverity? {
guard hasConflict, readings.count >= 2 else { return nil }
let values = readings.map { $0.value }.filter { $0 > 0 }
guard let min = values.min(), let max = values.max(), min > 0 else { return nil }
let percentDiff = (max - min) / min * 100
if percentDiff < 5 { return .minor }
if percentDiff < 20 { return .moderate }
if percentDiff < 50 { return .significant }
return .major
}
}
struct ConflictThreshold {
let percentageThreshold: Double
let absoluteThreshold: Double
}
struct DataGap: Identifiable {
let id = UUID()
let dataType: HealthDataType
let timeWindow: TimeWindow
let expectedRecordCount: Int
let actualRecordCount: Int
var severity: GapSeverity {
let duration = timeWindow.duration
if duration < 3600 { return .minor } // < 1 hour
if duration < 4 * 3600 { return .moderate } // < 4 hours
if duration < 12 * 3600 { return .significant } // < 12 hours
return .major
}
enum GapSeverity {
case minor, moderate, significant, major
}
}
struct DailySummary {
let date: Date
var values: [HealthDataType: Double] = [:]
var conflictCounts: [HealthDataType: Int] = [:]
var lastUpdated = Date()
var totalConflicts: Int {
conflictCounts.values.reduce(0, +)
}
func formattedValue(for dataType: HealthDataType) -> String {
guard let value = values[dataType] else { return "" }
switch dataType {
case .steps, .floorsClimbed:
return String(format: "%.0f", value)
case .distance:
return String(format: "%.2f km", value)
case .heartRate, .restingHeartRate, .respiratoryRate:
return String(format: "%.0f %@", value, dataType.unit)
case .bloodPressureSystolic, .bloodPressureDiastolic:
return String(format: "%.0f mmHg", value)
case .bloodOxygen:
return String(format: "%.0f%%", value * 100)
case .activeEnergy:
return String(format: "%.0f kcal", value)
case .sleep:
let hours = Int(value)
let minutes = Int((value - Double(hours)) * 60)
return "\(hours)h \(minutes)min"
case .heartRateVariability:
return String(format: "%.0f ms", value)
}
}
}
+395
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import Foundation
import HealthKit
import Combine
// MARK: - Data Writer
@MainActor
class DataWriter: ObservableObject {
static let shared = DataWriter()
private let healthKitManager = HealthKitManager.shared
private let healthStore = HKHealthStore()
@Published var isWriting = false
@Published var writeProgress: Double = 0
@Published var lastWriteDate: Date?
@Published var writtenRecords: [WrittenRecord] = []
@Published var failedWrites: [FailedWrite] = []
private let processedRecordsKey = "healthbridge.processed.records"
private init() {
loadProcessedRecords()
}
// MARK: - Write Single Record
func writeRecord(_ mergedRecord: MergedRecord) async throws -> WrittenRecord {
isWriting = true
defer { isWriting = false }
// Check if already written
if isAlreadyWritten(mergedRecord) {
throw DataWriterError.duplicateRecord
}
let metadata = createMetadata(from: mergedRecord)
switch mergedRecord.dataType {
case .bloodPressureSystolic, .bloodPressureDiastolic:
// Blood pressure needs special handling
guard let diastolic = mergedRecord.secondaryValue else {
throw DataWriterError.missingSecondaryValue
}
try await writeBloodPressure(
systolic: mergedRecord.value,
diastolic: diastolic,
date: mergedRecord.timeWindow.start,
metadata: metadata
)
default:
try await writeSample(
dataType: mergedRecord.dataType,
value: mergedRecord.value,
date: mergedRecord.timeWindow.start,
metadata: metadata
)
}
let writtenRecord = WrittenRecord(
id: UUID(),
mergedRecordId: mergedRecord.id,
dataType: mergedRecord.dataType,
value: mergedRecord.value,
secondaryValue: mergedRecord.secondaryValue,
writtenAt: Date(),
timeWindow: mergedRecord.timeWindow
)
writtenRecords.append(writtenRecord)
markAsProcessed(mergedRecord)
lastWriteDate = Date()
return writtenRecord
}
// MARK: - Write Batch
func writeBatch(_ mergedRecords: [MergedRecord]) async -> BatchWriteResult {
isWriting = true
defer { isWriting = false }
var successful: [WrittenRecord] = []
var failed: [FailedWrite] = []
for (index, record) in mergedRecords.enumerated() {
writeProgress = Double(index) / Double(mergedRecords.count)
do {
let writtenRecord = try await writeRecord(record)
successful.append(writtenRecord)
} catch {
let failedWrite = FailedWrite(
mergedRecord: record,
error: error,
attemptedAt: Date()
)
failed.append(failedWrite)
failedWrites.append(failedWrite)
}
}
writeProgress = 1.0
return BatchWriteResult(
successful: successful,
failed: failed,
completedAt: Date()
)
}
// MARK: - Private Write Methods
private func writeSample(
dataType: HealthDataType,
value: Double,
date: Date,
metadata: [String: Any]
) async throws {
guard let quantityType = dataType.hkQuantityType else {
throw DataWriterError.unsupportedDataType
}
let quantity = HKQuantity(unit: dataType.hkUnit, doubleValue: value)
let sample = HKQuantitySample(
type: quantityType,
quantity: quantity,
start: date,
end: date,
metadata: metadata
)
try await healthStore.save(sample)
}
private func writeBloodPressure(
systolic: Double,
diastolic: Double,
date: Date,
metadata: [String: Any]
) async throws {
// Validate blood pressure values
let validation = BloodPressureHandler.shared.validate(
systolic: systolic,
diastolic: diastolic
)
if !validation.isValid {
throw DataWriterError.invalidValue(validation.issues.joined(separator: ", "))
}
guard let systolicType = HKQuantityType.quantityType(forIdentifier: .bloodPressureSystolic),
let diastolicType = HKQuantityType.quantityType(forIdentifier: .bloodPressureDiastolic),
let correlationType = HKCorrelationType.correlationType(forIdentifier: .bloodPressure) else {
throw DataWriterError.unsupportedDataType
}
let systolicQuantity = HKQuantity(unit: .millimeterOfMercury(), doubleValue: systolic)
let diastolicQuantity = HKQuantity(unit: .millimeterOfMercury(), doubleValue: diastolic)
let systolicSample = HKQuantitySample(
type: systolicType,
quantity: systolicQuantity,
start: date,
end: date,
metadata: metadata
)
let diastolicSample = HKQuantitySample(
type: diastolicType,
quantity: diastolicQuantity,
start: date,
end: date,
metadata: metadata
)
let correlation = HKCorrelation(
type: correlationType,
start: date,
end: date,
objects: [systolicSample, diastolicSample],
metadata: metadata
)
try await healthStore.save(correlation)
}
// MARK: - Metadata
private func createMetadata(from record: MergedRecord) -> [String: Any] {
var metadata: [String: Any] = [
HKMetadataKeyWasUserEntered: false,
"HealthBridgeSource": HealthBridgeConstants.bundleIdentifier,
"OriginalSourceId": record.originalSourceId,
"MergeStrategy": record.strategy.rawValue,
"MergedRecordId": record.id.uuidString,
"MergedAt": ISO8601DateFormatter().string(from: record.createdAt)
]
for (key, value) in record.metadata {
metadata["HB_\(key)"] = value
}
return metadata
}
// MARK: - Duplicate Prevention
private var processedRecordIds: Set<String> = []
private func loadProcessedRecords() {
if let data = UserDefaults.standard.data(forKey: processedRecordsKey),
let ids = try? JSONDecoder().decode(Set<String>.self, from: data) {
processedRecordIds = ids
}
}
private func saveProcessedRecords() {
if let data = try? JSONEncoder().encode(processedRecordIds) {
UserDefaults.standard.set(data, forKey: processedRecordsKey)
}
}
private func isAlreadyWritten(_ record: MergedRecord) -> Bool {
let identifier = createRecordIdentifier(record)
return processedRecordIds.contains(identifier)
}
private func markAsProcessed(_ record: MergedRecord) {
let identifier = createRecordIdentifier(record)
processedRecordIds.insert(identifier)
saveProcessedRecords()
// Cleanup old records (keep last 7 days)
cleanupOldRecords()
}
private func createRecordIdentifier(_ record: MergedRecord) -> String {
let components = [
record.dataType.rawValue,
String(record.timeWindow.start.timeIntervalSince1970),
String(record.value)
]
return components.joined(separator: "-")
}
private func cleanupOldRecords() {
// Keep only identifiers that contain recent timestamps
let sevenDaysAgo = Date().addingTimeInterval(-7 * 24 * 60 * 60)
let cutoffTimestamp = sevenDaysAgo.timeIntervalSince1970
processedRecordIds = processedRecordIds.filter { identifier in
guard let parts = identifier.split(separator: "-").dropFirst().first,
let timestamp = Double(parts) else {
return false
}
return timestamp > cutoffTimestamp
}
saveProcessedRecords()
}
// MARK: - Delete Records
func deleteHealthBridgeRecords(
for dataType: HealthDataType,
from startDate: Date,
to endDate: Date
) async throws -> Int {
guard let sampleType = dataType.hkQuantityType else {
throw DataWriterError.unsupportedDataType
}
let predicate = HKQuery.predicateForSamples(
withStart: startDate,
end: endDate,
options: .strictStartDate
)
return try await withCheckedThrowingContinuation { continuation in
let query = HKSampleQuery(
sampleType: sampleType,
predicate: predicate,
limit: HKObjectQueryNoLimit,
sortDescriptors: nil
) { [weak self] _, samplesOrNil, errorOrNil in
guard let self = self else {
continuation.resume(throwing: DataWriterError.unknownError)
return
}
if let error = errorOrNil {
continuation.resume(throwing: error)
return
}
guard let samples = samplesOrNil else {
continuation.resume(returning: 0)
return
}
// Filter to only HealthBridge records
let healthBridgeSamples = samples.filter { sample in
if let metadata = sample.metadata,
let source = metadata["HealthBridgeSource"] as? String {
return source == HealthBridgeConstants.bundleIdentifier
}
return false
}
guard !healthBridgeSamples.isEmpty else {
continuation.resume(returning: 0)
return
}
Task {
do {
try await self.healthStore.delete(healthBridgeSamples)
continuation.resume(returning: healthBridgeSamples.count)
} catch {
continuation.resume(throwing: error)
}
}
}
healthStore.execute(query)
}
}
}
// MARK: - Supporting Types
struct WrittenRecord: Identifiable, Codable {
let id: UUID
let mergedRecordId: UUID
let dataType: HealthDataType
let value: Double
let secondaryValue: Double?
let writtenAt: Date
let timeWindow: TimeWindow
}
struct FailedWrite: Identifiable {
let id = UUID()
let mergedRecord: MergedRecord
let error: Error
let attemptedAt: Date
var errorMessage: String {
error.localizedDescription
}
}
struct BatchWriteResult {
let successful: [WrittenRecord]
let failed: [FailedWrite]
let completedAt: Date
var successCount: Int { successful.count }
var failureCount: Int { failed.count }
var totalCount: Int { successCount + failureCount }
var successRate: Double {
guard totalCount > 0 else { return 1.0 }
return Double(successCount) / Double(totalCount)
}
}
// MARK: - Errors
enum DataWriterError: LocalizedError {
case unsupportedDataType
case duplicateRecord
case missingSecondaryValue
case invalidValue(String)
case writeFailed(String)
case unknownError
var errorDescription: String? {
switch self {
case .unsupportedDataType:
return "Dieser Datentyp wird nicht unterstützt"
case .duplicateRecord:
return "Dieser Datensatz wurde bereits geschrieben"
case .missingSecondaryValue:
return "Fehlender sekundärer Wert (z.B. diastolischer Blutdruck)"
case .invalidValue(let message):
return "Ungültiger Wert: \(message)"
case .writeFailed(let message):
return "Schreiben fehlgeschlagen: \(message)"
case .unknownError:
return "Unbekannter Fehler"
}
}
}
@@ -0,0 +1,391 @@
import Foundation
import HealthKit
import Combine
// MARK: - HealthKit Manager
@MainActor
class HealthKitManager: ObservableObject {
static let shared = HealthKitManager()
private let healthStore = HKHealthStore()
@Published var isAuthorized = false
@Published var authorizationStatus: [HealthDataType: HKAuthorizationStatus] = [:]
@Published var discoveredSources: [HealthSource] = []
@Published var sourceHealthStatus: [String: SourceHealthStatus] = [:]
@Published var lastError: Error?
private init() {}
// MARK: - Authorization
var allQuantityTypes: Set<HKQuantityType> {
var types = Set<HKQuantityType>()
for dataType in HealthDataType.allCases {
if let quantityType = dataType.hkQuantityType {
types.insert(quantityType)
}
}
return types
}
var allCategoryTypes: Set<HKCategoryType> {
var types = Set<HKCategoryType>()
for dataType in HealthDataType.allCases {
if let categoryType = dataType.hkCategoryType {
types.insert(categoryType)
}
}
return types
}
var allSampleTypes: Set<HKSampleType> {
var types = Set<HKSampleType>()
allQuantityTypes.forEach { types.insert($0) }
allCategoryTypes.forEach { types.insert($0) }
return types
}
func requestAuthorization() async throws {
guard HKHealthStore.isHealthDataAvailable() else {
throw HealthKitError.healthDataNotAvailable
}
let typesToRead = allSampleTypes
let typesToWrite = allQuantityTypes
try await healthStore.requestAuthorization(toShare: typesToWrite, read: typesToRead)
isAuthorized = true
await updateAuthorizationStatus()
await discoverSources()
}
func updateAuthorizationStatus() async {
for dataType in HealthDataType.allCases {
if let quantityType = dataType.hkQuantityType {
let status = healthStore.authorizationStatus(for: quantityType)
authorizationStatus[dataType] = status
} else if let categoryType = dataType.hkCategoryType {
let status = healthStore.authorizationStatus(for: categoryType)
authorizationStatus[dataType] = status
}
}
}
// MARK: - Source Discovery
func discoverSources() async {
var allSources: [String: HealthSource] = [:]
for dataType in HealthDataType.allCases {
guard let sampleType = dataType.hkQuantityType ?? dataType.hkCategoryType else {
continue
}
do {
let sources = try await fetchSources(for: sampleType)
for source in sources {
if var existingSource = allSources[source.bundleIdentifier] {
existingSource.supportedDataTypes.insert(dataType)
allSources[source.bundleIdentifier] = existingSource
} else {
var newSource = source
newSource.supportedDataTypes.insert(dataType)
allSources[source.bundleIdentifier] = newSource
}
}
} catch {
print("Failed to fetch sources for \(dataType): \(error)")
}
}
discoveredSources = Array(allSources.values).sorted { $0.category.priority > $1.category.priority }
// Update source health status
for source in discoveredSources {
await updateSourceHealth(source)
}
}
private func fetchSources(for sampleType: HKSampleType) async throws -> [HealthSource] {
let query = HKSourceQuery(sampleType: sampleType, samplePredicate: nil) { _, sourcesOrNil, errorOrNil in
// Handled via continuation
}
return try await withCheckedThrowingContinuation { continuation in
let query = HKSourceQuery(sampleType: sampleType, samplePredicate: nil) { _, sourcesOrNil, errorOrNil in
if let error = errorOrNil {
continuation.resume(throwing: error)
return
}
guard let sources = sourcesOrNil else {
continuation.resume(returning: [])
return
}
let healthSources = sources.map { HealthSource.from(hkSource: $0) }
continuation.resume(returning: healthSources)
}
healthStore.execute(query)
}
}
private func updateSourceHealth(_ source: HealthSource) async {
var recordCount = 0
var lastActivity: Date?
for dataType in source.supportedDataTypes {
if let quantityType = dataType.hkQuantityType {
let predicate = HKQuery.predicateForObjects(from: HKSource(bundleIdentifier: source.bundleIdentifier, name: source.name) )
// Simplified: just get count
if let count = try? await fetchRecordCount(for: quantityType, source: source) {
recordCount += count
}
if let date = try? await fetchLastActivityDate(for: quantityType, source: source) {
if lastActivity == nil || date > lastActivity! {
lastActivity = date
}
}
}
}
let status = SourceHealthStatus(
id: source.id,
source: source,
lastSync: lastActivity,
recordCount: recordCount,
dataGaps: [], // TODO: Implement gap detection
overallQuality: recordCount > 0 ? .complete : .missing
)
sourceHealthStatus[source.id] = status
}
private func fetchRecordCount(for sampleType: HKSampleType, source: HealthSource) async throws -> Int {
let calendar = Calendar.current
let now = Date()
let startOfDay = calendar.startOfDay(for: now)
let predicate = HKQuery.predicateForSamples(withStart: startOfDay, end: now, options: .strictStartDate)
return try await withCheckedThrowingContinuation { continuation in
let query = HKSampleQuery(
sampleType: sampleType,
predicate: predicate,
limit: HKObjectQueryNoLimit,
sortDescriptors: nil
) { _, samplesOrNil, errorOrNil in
if let error = errorOrNil {
continuation.resume(throwing: error)
return
}
let samples = samplesOrNil ?? []
let matchingSamples = samples.filter { $0.sourceRevision.source.bundleIdentifier == source.bundleIdentifier }
continuation.resume(returning: matchingSamples.count)
}
self.healthStore.execute(query)
}
}
private func fetchLastActivityDate(for sampleType: HKSampleType, source: HealthSource) async throws -> Date? {
let sortDescriptor = NSSortDescriptor(key: HKSampleSortIdentifierEndDate, ascending: false)
return try await withCheckedThrowingContinuation { continuation in
let query = HKSampleQuery(
sampleType: sampleType,
predicate: nil,
limit: 1,
sortDescriptors: [sortDescriptor]
) { _, samplesOrNil, errorOrNil in
if let error = errorOrNil {
continuation.resume(throwing: error)
return
}
let matchingSample = samplesOrNil?.first { $0.sourceRevision.source.bundleIdentifier == source.bundleIdentifier }
continuation.resume(returning: matchingSample?.endDate)
}
self.healthStore.execute(query)
}
}
// MARK: - Source Classification
func classifySource(_ source: HKSource) -> SourceCategory {
let bundleId = source.bundleIdentifier.lowercased()
if bundleId.contains("healthbridge") {
return .healthBridge
} else if bundleId.contains("apple.health") && !bundleId.contains("watch") {
return .iPhone
} else if bundleId.contains("apple") && bundleId.contains("watch") {
return .watch
} else if bundleId.contains("huawei") {
return .thirdPartyWatch
} else if bundleId.contains("samsung") || bundleId.contains("galaxy") {
return .thirdPartyWatch
} else if bundleId.contains("fitbit") {
return .thirdPartyWatch
} else if bundleId.contains("garmin") {
return .thirdPartyWatch
} else if bundleId.contains("polar") {
return .thirdPartyWatch
} else if bundleId.contains("withings") {
return .thirdPartyWatch
} else {
return .thirdPartyApp
}
}
func getSourceCapabilities(_ source: HealthSource) -> Set<HealthDataType> {
return source.supportedDataTypes
}
// MARK: - Data Fetching (Basic)
func fetchSamples(
for dataType: HealthDataType,
from startDate: Date,
to endDate: Date
) async throws -> [HKSample] {
guard let sampleType = dataType.hkQuantityType ?? dataType.hkCategoryType else {
throw HealthKitError.unsupportedDataType
}
let predicate = HKQuery.predicateForSamples(
withStart: startDate,
end: endDate,
options: .strictStartDate
)
return try await withCheckedThrowingContinuation { continuation in
let query = HKSampleQuery(
sampleType: sampleType,
predicate: predicate,
limit: HKObjectQueryNoLimit,
sortDescriptors: [NSSortDescriptor(key: HKSampleSortIdentifierStartDate, ascending: true)]
) { _, samplesOrNil, errorOrNil in
if let error = errorOrNil {
continuation.resume(throwing: error)
return
}
continuation.resume(returning: samplesOrNil ?? [])
}
self.healthStore.execute(query)
}
}
// MARK: - Data Writing
func writeSample(
dataType: HealthDataType,
value: Double,
secondaryValue: Double? = nil,
date: Date,
metadata: [String: Any]? = nil
) async throws {
guard let quantityType = dataType.hkQuantityType else {
throw HealthKitError.unsupportedDataType
}
let quantity = HKQuantity(unit: dataType.hkUnit, doubleValue: value)
let sample = HKQuantitySample(
type: quantityType,
quantity: quantity,
start: date,
end: date,
metadata: metadata
)
try await healthStore.save(sample)
}
func writeBloodPressure(
systolic: Double,
diastolic: Double,
date: Date,
metadata: [String: Any]? = nil
) async throws {
guard let systolicType = HKQuantityType.quantityType(forIdentifier: .bloodPressureSystolic),
let diastolicType = HKQuantityType.quantityType(forIdentifier: .bloodPressureDiastolic) else {
throw HealthKitError.unsupportedDataType
}
let systolicQuantity = HKQuantity(unit: .millimeterOfMercury(), doubleValue: systolic)
let diastolicQuantity = HKQuantity(unit: .millimeterOfMercury(), doubleValue: diastolic)
let systolicSample = HKQuantitySample(
type: systolicType,
quantity: systolicQuantity,
start: date,
end: date,
metadata: metadata
)
let diastolicSample = HKQuantitySample(
type: diastolicType,
quantity: diastolicQuantity,
start: date,
end: date,
metadata: metadata
)
// Create correlation for blood pressure
guard let correlationType = HKCorrelationType.correlationType(forIdentifier: .bloodPressure) else {
throw HealthKitError.unsupportedDataType
}
let correlation = HKCorrelation(
type: correlationType,
start: date,
end: date,
objects: [systolicSample, diastolicSample],
metadata: metadata
)
try await healthStore.save(correlation)
}
}
// MARK: - HealthKit Errors
enum HealthKitError: LocalizedError {
case healthDataNotAvailable
case authorizationDenied
case unsupportedDataType
case noDataFound
case writeFailed(Error)
case queryFailed(Error)
var errorDescription: String? {
switch self {
case .healthDataNotAvailable:
return "Health-Daten sind auf diesem Gerät nicht verfügbar"
case .authorizationDenied:
return "Zugriff auf Health-Daten wurde verweigert"
case .unsupportedDataType:
return "Dieser Datentyp wird nicht unterstützt"
case .noDataFound:
return "Keine Daten gefunden"
case .writeFailed(let error):
return "Schreiben fehlgeschlagen: \(error.localizedDescription)"
case .queryFailed(let error):
return "Abfrage fehlgeschlagen: \(error.localizedDescription)"
}
}
}
// MARK: - HKSource Extension
extension HKSource {
convenience init(bundleIdentifier: String, name: String) {
// Note: This is a workaround since HKSource doesn't have a public initializer
// In production, sources come from HealthKit queries
fatalError("HKSource cannot be initialized directly - use source from HKSample")
}
}
+287
View File
@@ -0,0 +1,287 @@
import Foundation
import Combine
// MARK: - Merge Engine
@MainActor
class MergeEngine: ObservableObject {
static let shared = MergeEngine()
private let ruleEngine = RuleEngine.shared
private let dataReader = DataReader.shared
@Published var pendingMerges: [MergeOperation] = []
@Published var completedMerges: [MergeOperation] = []
@Published var isMerging = false
@Published var mergeProgress: Double = 0
private init() {}
// MARK: - Analyze Window
func analyze(windowData: TimeWindowData) -> WindowAnalysis {
let readings = windowData.readings
let dataType = windowData.dataType
// No analysis needed for single reading
if readings.count <= 1 {
return WindowAnalysis(
windowData: windowData,
hasConflict: false,
conflictSeverity: nil,
recommendedReading: readings.first,
alternativeReadings: [],
confidence: .high,
analysisNotes: readings.isEmpty ? "Keine Daten" : "Einzelne Quelle"
)
}
// Apply rule to get recommendation
let result = ruleEngine.applyRule(to: readings, dataType: dataType)
// Calculate conflict severity
let values = readings.map { $0.value }.filter { $0 > 0 }
var severity: ConflictSeverity? = nil
if values.count >= 2, let min = values.min(), let max = values.max(), min > 0 {
let percentDiff = (max - min) / min * 100
if percentDiff >= 5 {
if percentDiff < 10 { severity = .minor }
else if percentDiff < 25 { severity = .moderate }
else if percentDiff < 50 { severity = .significant }
else { severity = .major }
}
}
let alternativeReadings = readings.filter { $0.id != result.selectedReading?.id }
return WindowAnalysis(
windowData: windowData,
hasConflict: windowData.hasConflict,
conflictSeverity: severity,
recommendedReading: result.selectedReading,
alternativeReadings: alternativeReadings,
confidence: result.confidence,
analysisNotes: result.reason
)
}
// MARK: - Resolve Conflict
func resolveConflict(_ conflict: Conflict, using result: RuleApplicationResult) -> ConflictResolution? {
guard let selectedReading = result.selectedReading else {
return nil
}
return ConflictResolution(
resolvedValue: selectedReading.value,
secondaryResolvedValue: selectedReading.secondaryValue,
winningSourceId: selectedReading.sourceId,
strategy: result.strategy,
isManual: result.strategy == .manual
)
}
func resolveConflictManually(
_ conflict: Conflict,
selectedReadingId: UUID
) -> ConflictResolution? {
guard let selectedReading = conflict.readings.first(where: { $0.id == selectedReadingId }) else {
return nil
}
return ConflictResolution(
resolvedValue: selectedReading.value,
secondaryResolvedValue: selectedReading.secondaryValue,
winningSourceId: selectedReading.sourceId,
strategy: .manual,
isManual: true
)
}
// MARK: - Create Merged Record
func createMergedRecord(from conflict: Conflict, resolution: ConflictResolution) -> MergedRecord {
return MergedRecord(
id: UUID(),
dataType: conflict.dataType,
timeWindow: conflict.timeWindow,
value: resolution.resolvedValue,
secondaryValue: resolution.secondaryResolvedValue,
originalSourceId: resolution.winningSourceId,
strategy: resolution.strategy,
createdAt: Date(),
metadata: [
"conflictId": conflict.id.uuidString,
"originalSourceCount": String(conflict.readings.count),
"isManualResolution": String(resolution.isManual)
]
)
}
// MARK: - Batch Processing
func processConflicts(_ conflicts: [Conflict]) async -> [MergeOperation] {
isMerging = true
defer { isMerging = false }
var operations: [MergeOperation] = []
for (index, conflict) in conflicts.enumerated() {
mergeProgress = Double(index) / Double(conflicts.count)
let result = ruleEngine.applyRule(to: conflict.readings, dataType: conflict.dataType)
if result.confidence == .requiresManual ||
ruleEngine.shouldRequestManualReview(readings: conflict.readings, dataType: conflict.dataType) {
// Add to pending for manual review
let operation = MergeOperation(
conflict: conflict,
status: .pendingManualReview,
result: result
)
pendingMerges.append(operation)
operations.append(operation)
} else if let resolution = resolveConflict(conflict, using: result) {
// Auto-resolve
let mergedRecord = createMergedRecord(from: conflict, resolution: resolution)
let operation = MergeOperation(
conflict: conflict,
status: .resolved,
result: result,
resolution: resolution,
mergedRecord: mergedRecord
)
completedMerges.append(operation)
operations.append(operation)
}
}
mergeProgress = 1.0
return operations
}
// MARK: - Daily Merge
func performDailyMerge(for date: Date) async throws -> DailyMergeReport {
let calendar = Calendar.current
let startOfDay = calendar.startOfDay(for: date)
let endOfDay = calendar.date(byAdding: .day, value: 1, to: startOfDay)!
var report = DailyMergeReport(date: date)
for dataType in HealthDataType.allCases {
do {
let windowData = try await dataReader.fetchData(
for: dataType,
from: startOfDay,
to: endOfDay
)
let conflictWindows = windowData.filter { $0.hasConflict }
report.totalConflicts += conflictWindows.count
for window in conflictWindows {
let analysis = analyze(windowData: window)
if analysis.confidence == .requiresManual {
report.pendingManualReview += 1
} else {
report.autoResolved += 1
}
report.analysesByType[dataType, default: []].append(analysis)
}
} catch {
report.errors.append("Fehler bei \(dataType.displayName): \(error.localizedDescription)")
}
}
return report
}
}
// MARK: - Supporting Types
struct WindowAnalysis {
let windowData: TimeWindowData
let hasConflict: Bool
let conflictSeverity: ConflictSeverity?
let recommendedReading: SourceReading?
let alternativeReadings: [SourceReading]
let confidence: RuleConfidence
let analysisNotes: String
var recommendedValue: Double? {
recommendedReading?.value
}
var valueDifference: Double? {
guard let recommended = recommendedReading?.value,
let alternative = alternativeReadings.first?.value else {
return nil
}
return abs(recommended - alternative)
}
}
struct MergeOperation: Identifiable {
let id = UUID()
let conflict: Conflict
var status: MergeStatus
let result: RuleApplicationResult
var resolution: ConflictResolution?
var mergedRecord: MergedRecord?
let createdAt = Date()
var processedAt: Date?
enum MergeStatus {
case pending
case pendingManualReview
case resolved
case written
case failed
}
}
struct MergedRecord: Identifiable, Codable {
let id: UUID
let dataType: HealthDataType
let timeWindow: TimeWindow
let value: Double
let secondaryValue: Double?
let originalSourceId: String
let strategy: MergeStrategy
let createdAt: Date
var writtenAt: Date?
var healthKitRecordId: String?
var metadata: [String: String]
var formattedValue: String {
if value == floor(value) {
return String(format: "%.0f", value)
}
return String(format: "%.1f", value)
}
}
struct DailyMergeReport {
let date: Date
var totalConflicts = 0
var autoResolved = 0
var pendingManualReview = 0
var analysesByType: [HealthDataType: [WindowAnalysis]] = [:]
var errors: [String] = []
let generatedAt = Date()
var successRate: Double {
guard totalConflicts > 0 else { return 1.0 }
return Double(autoResolved) / Double(totalConflicts)
}
var summary: String {
if totalConflicts == 0 {
return "Keine Konflikte gefunden"
}
return "\(autoResolved)/\(totalConflicts) automatisch gelöst, \(pendingManualReview) zur Prüfung"
}
}
+571
View File
@@ -0,0 +1,571 @@
import Foundation
import Combine
// MARK: - Rule Engine
@MainActor
class RuleEngine: ObservableObject {
static let shared = RuleEngine()
@Published var rules: [HealthDataType: MergeRule] = [:]
@Published var isLoaded = false
private let storage = RuleStorageManager()
private let sourceManager = SourceManager.shared
private init() {
loadRules()
}
// MARK: - Rule Loading
func loadRules() {
let savedRules = storage.loadRules()
if savedRules.isEmpty {
// Initialize with defaults
for dataType in HealthDataType.allCases {
rules[dataType] = MergeRule.defaultRule(for: dataType)
}
saveRules()
} else {
rules = savedRules
}
isLoaded = true
}
func saveRules() {
storage.saveRules(rules)
}
// MARK: - Rule Access
func getRule(for dataType: HealthDataType) -> MergeRule {
return rules[dataType] ?? MergeRule.defaultRule(for: dataType)
}
func setRule(_ rule: MergeRule, for dataType: HealthDataType) {
rules[dataType] = rule
saveRules()
}
func resetToDefault(for dataType: HealthDataType) {
rules[dataType] = MergeRule.defaultRule(for: dataType)
saveRules()
}
func resetAllToDefaults() {
for dataType in HealthDataType.allCases {
rules[dataType] = MergeRule.defaultRule(for: dataType)
}
saveRules()
}
// MARK: - Rule Application
func applyRule(
to readings: [SourceReading],
dataType: HealthDataType
) -> RuleApplicationResult {
let rule = getRule(for: dataType)
// Filter out empty/zero readings for most strategies
let validReadings = readings.filter { $0.value > 0 || $0.quality == .complete }
guard !validReadings.isEmpty else {
return RuleApplicationResult(
selectedReading: nil,
strategy: rule.strategy,
confidence: .low,
reason: "Keine gültigen Werte vorhanden"
)
}
// If only one valid reading, no conflict
if validReadings.count == 1 {
return RuleApplicationResult(
selectedReading: validReadings[0],
strategy: rule.strategy,
confidence: .high,
reason: "Nur eine Quelle verfügbar"
)
}
// Apply strategy
switch rule.strategy {
case .exclusive:
return applyExclusiveStrategy(readings: validReadings, rule: rule)
case .priority:
return applyPriorityStrategy(readings: validReadings, rule: rule, dataType: dataType)
case .higherWins:
return applyHigherWinsStrategy(readings: validReadings, rule: rule)
case .lowerWins:
return applyLowerWinsStrategy(readings: validReadings, rule: rule)
case .average:
return applyAverageStrategy(readings: validReadings, rule: rule)
case .coverage:
return applyCoverageStrategy(readings: validReadings, rule: rule)
case .coverageThenHigher:
return applyCoverageThenHigherStrategy(readings: validReadings, rule: rule)
case .mostRecent:
return applyMostRecentStrategy(readings: validReadings, rule: rule)
case .manual:
return RuleApplicationResult(
selectedReading: nil,
strategy: .manual,
confidence: .requiresManual,
reason: "Manuelle Entscheidung erforderlich"
)
}
}
// MARK: - Strategy Implementations
private func applyExclusiveStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
// If primary source is specified, use it
if let primaryId = rule.primarySourceId,
let reading = readings.first(where: { $0.sourceId == primaryId }) {
return RuleApplicationResult(
selectedReading: reading,
strategy: .exclusive,
confidence: .high,
reason: "Exklusive Quelle: \(reading.sourceName)"
)
}
// Otherwise use highest priority source
let sorted = readings.sorted { $0.sourceCategory.priority > $1.sourceCategory.priority }
if let first = sorted.first {
return RuleApplicationResult(
selectedReading: first,
strategy: .exclusive,
confidence: .high,
reason: "Höchste Priorität: \(first.sourceName)"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .exclusive,
confidence: .low,
reason: "Keine geeignete Quelle gefunden"
)
}
private func applyPriorityStrategy(
readings: [SourceReading],
rule: MergeRule,
dataType: HealthDataType
) -> RuleApplicationResult {
// Sort by user-defined priority, then by category priority
let sorted = readings.sorted { r1, r2 in
let p1 = rule.sourcePriorities[r1.sourceId] ?? r1.sourceCategory.priority
let p2 = rule.sourcePriorities[r2.sourceId] ?? r2.sourceCategory.priority
return p1 > p2
}
if let first = sorted.first {
return RuleApplicationResult(
selectedReading: first,
strategy: .priority,
confidence: .high,
reason: "Höchste Priorität: \(first.sourceName)"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .priority,
confidence: .low,
reason: "Keine Quelle mit Priorität gefunden"
)
}
private func applyHigherWinsStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
let sorted = readings.sorted { $0.value > $1.value }
if let highest = sorted.first {
// Check if there's a significant difference
let values = readings.map { $0.value }
let spread = (values.max() ?? 0) - (values.min() ?? 0)
let avgValue = values.reduce(0, +) / Double(values.count)
let spreadPercent = avgValue > 0 ? (spread / avgValue) * 100 : 0
let confidence: RuleConfidence = spreadPercent < 10 ? .high : .medium
return RuleApplicationResult(
selectedReading: highest,
strategy: .higherWins,
confidence: confidence,
reason: "Höchster Wert: \(highest.formattedValue) von \(highest.sourceName)"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .higherWins,
confidence: .low,
reason: "Keine Werte zum Vergleich"
)
}
private func applyLowerWinsStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
let sorted = readings.sorted { $0.value < $1.value }
if let lowest = sorted.first {
return RuleApplicationResult(
selectedReading: lowest,
strategy: .lowerWins,
confidence: .medium,
reason: "Niedrigster Wert: \(lowest.formattedValue) von \(lowest.sourceName)"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .lowerWins,
confidence: .low,
reason: "Keine Werte zum Vergleich"
)
}
private func applyAverageStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
let values = readings.map { $0.value }
let average = values.reduce(0, +) / Double(values.count)
// Create a synthetic reading for the average
let syntheticReading = SourceReading(
sourceId: HealthBridgeConstants.bundleIdentifier,
sourceName: "Durchschnitt",
sourceCategory: .healthBridge,
value: average,
timestamp: readings.first?.timestamp ?? Date(),
quality: .complete
)
return RuleApplicationResult(
selectedReading: syntheticReading,
strategy: .average,
confidence: .medium,
reason: "Durchschnitt aus \(readings.count) Quellen"
)
}
private func applyCoverageStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
// Prefer readings with complete quality
let completeReadings = readings.filter { $0.quality == .complete }
if completeReadings.count == 1 {
return RuleApplicationResult(
selectedReading: completeReadings[0],
strategy: .coverage,
confidence: .high,
reason: "Einzige Quelle mit vollständigen Daten: \(completeReadings[0].sourceName)"
)
}
// If multiple complete readings, fall back to priority
if !completeReadings.isEmpty {
let sorted = completeReadings.sorted { $0.sourceCategory.priority > $1.sourceCategory.priority }
if let first = sorted.first {
return RuleApplicationResult(
selectedReading: first,
strategy: .coverage,
confidence: .medium,
reason: "Mehrere Quellen verfügbar, gewählt: \(first.sourceName)"
)
}
}
// No complete readings, use any reading with highest priority
let sorted = readings.sorted { $0.sourceCategory.priority > $1.sourceCategory.priority }
if let first = sorted.first {
return RuleApplicationResult(
selectedReading: first,
strategy: .coverage,
confidence: .low,
reason: "Keine vollständigen Daten, gewählt: \(first.sourceName)"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .coverage,
confidence: .low,
reason: "Keine Quelle mit Daten gefunden"
)
}
private func applyCoverageThenHigherStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
// First check if one source has data and others don't (coverage)
let nonZeroReadings = readings.filter { $0.value > 0 }
let zeroReadings = readings.filter { $0.value == 0 }
// If only one source has data, it wins on coverage
if nonZeroReadings.count == 1 && !zeroReadings.isEmpty {
return RuleApplicationResult(
selectedReading: nonZeroReadings[0],
strategy: .coverageThenHigher,
confidence: .high,
reason: "Einzige Quelle mit Daten: \(nonZeroReadings[0].sourceName)"
)
}
// Multiple sources have data, use higher wins
if nonZeroReadings.count > 1 {
let sorted = nonZeroReadings.sorted { $0.value > $1.value }
if let highest = sorted.first {
return RuleApplicationResult(
selectedReading: highest,
strategy: .coverageThenHigher,
confidence: .medium,
reason: "Höherer Wert bei Konflikt: \(highest.formattedValue) von \(highest.sourceName)"
)
}
}
// Fallback
if let first = readings.first {
return RuleApplicationResult(
selectedReading: first,
strategy: .coverageThenHigher,
confidence: .low,
reason: "Fallback auf erste Quelle"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .coverageThenHigher,
confidence: .low,
reason: "Keine Daten verfügbar"
)
}
private func applyMostRecentStrategy(
readings: [SourceReading],
rule: MergeRule
) -> RuleApplicationResult {
let sorted = readings.sorted { $0.timestamp > $1.timestamp }
if let mostRecent = sorted.first {
return RuleApplicationResult(
selectedReading: mostRecent,
strategy: .mostRecent,
confidence: .high,
reason: "Neuester Wert von \(mostRecent.sourceName)"
)
}
return RuleApplicationResult(
selectedReading: nil,
strategy: .mostRecent,
confidence: .low,
reason: "Keine Zeitstempel verfügbar"
)
}
// MARK: - Threshold Check
func shouldRequestManualReview(
readings: [SourceReading],
dataType: HealthDataType
) -> Bool {
let rule = getRule(for: dataType)
guard let threshold = rule.thresholdForManualReview else {
return rule.strategy == .manual
}
let values = readings.map { $0.value }.filter { $0 > 0 }
guard values.count >= 2,
let min = values.min(),
let max = values.max(),
min > 0 else {
return false
}
let percentDiff = (max - min) / min * 100
return percentDiff > threshold
}
}
// MARK: - Rule Application Result
struct RuleApplicationResult {
let selectedReading: SourceReading?
let strategy: MergeStrategy
let confidence: RuleConfidence
let reason: String
var resolvedValue: Double? {
selectedReading?.value
}
var winningSourceId: String? {
selectedReading?.sourceId
}
}
enum RuleConfidence: String, Codable {
case high = "high"
case medium = "medium"
case low = "low"
case requiresManual = "requires_manual"
var displayName: String {
switch self {
case .high: return "Hohe Sicherheit"
case .medium: return "Mittlere Sicherheit"
case .low: return "Geringe Sicherheit"
case .requiresManual: return "Manuelle Prüfung"
}
}
var icon: String {
switch self {
case .high: return "checkmark.seal.fill"
case .medium: return "checkmark.seal"
case .low: return "questionmark.circle"
case .requiresManual: return "hand.raised.fill"
}
}
}
// MARK: - Rule Storage Manager
class RuleStorageManager {
private let userDefaults = UserDefaults.standard
private let rulesKey = "healthbridge.merge.rules"
func saveRules(_ rules: [HealthDataType: MergeRule]) {
do {
let data = try JSONEncoder().encode(rules)
userDefaults.set(data, forKey: rulesKey)
} catch {
print("Failed to save rules: \(error)")
}
}
func loadRules() -> [HealthDataType: MergeRule] {
guard let data = userDefaults.data(forKey: rulesKey) else {
return [:]
}
do {
return try JSONDecoder().decode([HealthDataType: MergeRule].self, from: data)
} catch {
print("Failed to load rules: \(error)")
return [:]
}
}
}
// MARK: - Blood Pressure Handler
class BloodPressureHandler {
static let shared = BloodPressureHandler()
struct ValidationResult {
let isValid: Bool
let issues: [String]
}
func validate(systolic: Double, diastolic: Double) -> ValidationResult {
var issues: [String] = []
// Range validation
if systolic < 70 || systolic > 200 {
issues.append("Systolischer Wert ausserhalb des Normalbereichs (70-200 mmHg)")
}
if diastolic < 40 || diastolic > 130 {
issues.append("Diastolischer Wert ausserhalb des Normalbereichs (40-130 mmHg)")
}
// Plausibility check
if diastolic >= systolic {
issues.append("Diastolischer Wert muss kleiner als systolischer Wert sein")
}
if systolic - diastolic < 20 {
issues.append("Pulsdruck zu gering (< 20 mmHg)")
}
if systolic - diastolic > 100 {
issues.append("Pulsdruck zu hoch (> 100 mmHg)")
}
return ValidationResult(isValid: issues.isEmpty, issues: issues)
}
func classifyBloodPressure(systolic: Double, diastolic: Double) -> BloodPressureClassification {
if systolic < 120 && diastolic < 80 {
return .normal
} else if systolic < 130 && diastolic < 80 {
return .elevated
} else if systolic < 140 || diastolic < 90 {
return .hypertensionStage1
} else if systolic < 180 || diastolic < 120 {
return .hypertensionStage2
} else {
return .hypertensiveCrisis
}
}
enum BloodPressureClassification: String {
case normal = "Normal"
case elevated = "Erhöht"
case hypertensionStage1 = "Bluthochdruck Stufe 1"
case hypertensionStage2 = "Bluthochdruck Stufe 2"
case hypertensiveCrisis = "Hypertensive Krise"
var color: String {
switch self {
case .normal: return "green"
case .elevated: return "yellow"
case .hypertensionStage1: return "orange"
case .hypertensionStage2: return "red"
case .hypertensiveCrisis: return "purple"
}
}
var recommendation: String {
switch self {
case .normal:
return "Weiter so! Regelmässige Kontrolle empfohlen."
case .elevated:
return "Lebensstiländerungen empfohlen. Mehr Bewegung, weniger Salz."
case .hypertensionStage1:
return "Arztbesuch empfohlen. Möglicherweise Medikation erforderlich."
case .hypertensionStage2:
return "Zeitnaher Arztbesuch erforderlich. Medikation wahrscheinlich notwendig."
case .hypertensiveCrisis:
return "SOFORT medizinische Hilfe aufsuchen!"
}
}
}
}
+409
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import Foundation
import HealthKit
import Combine
// MARK: - Source Manager
@MainActor
class SourceManager: ObservableObject {
static let shared = SourceManager()
@Published var sources: [HealthSource] = []
@Published var sourceProfiles: [String: SourceProfile] = [:]
@Published var isDiscovering = false
private let healthKitManager = HealthKitManager.shared
private let storage = SourceStorageManager()
private init() {}
// MARK: - Source Discovery
func discoverSources() async {
isDiscovering = true
defer { isDiscovering = false }
await healthKitManager.discoverSources()
sources = healthKitManager.discoveredSources
// Load saved source profiles and merge with discovered sources
let savedProfiles = storage.loadSourceProfiles()
for source in sources {
if let savedProfile = savedProfiles[source.bundleIdentifier] {
sourceProfiles[source.bundleIdentifier] = savedProfile
} else {
sourceProfiles[source.bundleIdentifier] = SourceProfile(source: source)
}
}
}
// MARK: - Source Classification
func classifySource(_ bundleIdentifier: String) -> SourceCategory {
let lowercased = bundleIdentifier.lowercased()
// HealthBridge
if lowercased.contains("healthbridge") {
return .healthBridge
}
// Apple Devices
if lowercased.contains("com.apple") {
if lowercased.contains("watch") || lowercased.contains("nano") {
return .watch
}
if lowercased.contains("health") {
return .iPhone
}
}
// Known Watch Brands
let watchBrands = ["huawei", "samsung", "galaxy", "fitbit", "garmin", "polar",
"withings", "amazfit", "xiaomi", "honor", "oppo", "suunto",
"coros", "whoop", "oura"]
for brand in watchBrands {
if lowercased.contains(brand) {
return .thirdPartyWatch
}
}
// Known Health Apps
let healthApps = ["strava", "nike", "adidas", "runtastic", "runkeeper",
"mapmyrun", "endomondo", "myfitnesspal", "flo", "clue"]
for app in healthApps {
if lowercased.contains(app) {
return .thirdPartyApp
}
}
return .unknown
}
// MARK: - Source Capabilities
func getSourceCapabilities(_ source: HealthSource) -> SourceCapabilities {
let category = source.category
switch category {
case .iPhone:
return SourceCapabilities(
canMeasureSteps: true,
canMeasureDistance: true,
canMeasureFloors: true,
canMeasureHeartRate: false,
canMeasureBloodPressure: false,
canMeasureBloodOxygen: false,
canMeasureSleep: false,
canMeasureWorkouts: true,
hasGPS: true,
hasBarometer: true,
hasAccelerometer: true
)
case .watch:
return SourceCapabilities(
canMeasureSteps: true,
canMeasureDistance: true,
canMeasureFloors: false,
canMeasureHeartRate: true,
canMeasureBloodPressure: false,
canMeasureBloodOxygen: true,
canMeasureSleep: true,
canMeasureWorkouts: true,
hasGPS: true,
hasBarometer: false,
hasAccelerometer: true
)
case .thirdPartyWatch:
// Check for specific features based on name
let name = source.name.lowercased()
let isHuaweiD2 = name.contains("huawei") && (name.contains("d2") || name.contains("watch d"))
return SourceCapabilities(
canMeasureSteps: true,
canMeasureDistance: true,
canMeasureFloors: false,
canMeasureHeartRate: true,
canMeasureBloodPressure: isHuaweiD2, // Huawei Watch D2 has BP sensor
canMeasureBloodOxygen: true,
canMeasureSleep: true,
canMeasureWorkouts: true,
hasGPS: true,
hasBarometer: false,
hasAccelerometer: true
)
case .thirdPartyApp:
return SourceCapabilities(
canMeasureSteps: true,
canMeasureDistance: true,
canMeasureFloors: false,
canMeasureHeartRate: false,
canMeasureBloodPressure: false,
canMeasureBloodOxygen: false,
canMeasureSleep: false,
canMeasureWorkouts: true,
hasGPS: true,
hasBarometer: false,
hasAccelerometer: false
)
case .healthBridge, .unknown:
return SourceCapabilities.empty
}
}
// MARK: - Source Health
func getSourceHealth(_ source: HealthSource) async -> SourceHealthReport {
var dataGaps: [HealthDataType: [TimeWindow]] = [:]
var lastActivityByType: [HealthDataType: Date] = [:]
var recordCountByType: [HealthDataType: Int] = [:]
let calendar = Calendar.current
let now = Date()
let yesterday = calendar.date(byAdding: .day, value: -1, to: now)!
for dataType in source.supportedDataTypes {
do {
let samples = try await healthKitManager.fetchSamples(
for: dataType,
from: yesterday,
to: now
)
let matchingSamples = samples.filter {
$0.sourceRevision.source.bundleIdentifier == source.bundleIdentifier
}
recordCountByType[dataType] = matchingSamples.count
if let lastSample = matchingSamples.last {
lastActivityByType[dataType] = lastSample.endDate
}
// Detect gaps
let gaps = detectDataGaps(
in: matchingSamples,
from: yesterday,
to: now,
expectedInterval: 15 * 60 // 15 minutes
)
if !gaps.isEmpty {
dataGaps[dataType] = gaps
}
} catch {
print("Error checking health for \(dataType): \(error)")
}
}
let overallQuality: DataQuality
if recordCountByType.values.reduce(0, +) == 0 {
overallQuality = .missing
} else if dataGaps.isEmpty {
overallQuality = .complete
} else {
overallQuality = .partial
}
return SourceHealthReport(
source: source,
lastActivityByType: lastActivityByType,
recordCountByType: recordCountByType,
dataGaps: dataGaps,
overallQuality: overallQuality,
checkedAt: Date()
)
}
private func detectDataGaps(
in samples: [HKSample],
from start: Date,
to end: Date,
expectedInterval: TimeInterval
) -> [TimeWindow] {
guard !samples.isEmpty else {
return [TimeWindow(start: start, end: end)]
}
var gaps: [TimeWindow] = []
let sortedSamples = samples.sorted { $0.startDate < $1.startDate }
// Check gap at beginning
if let firstSample = sortedSamples.first,
firstSample.startDate.timeIntervalSince(start) > expectedInterval * 2 {
gaps.append(TimeWindow(start: start, end: firstSample.startDate))
}
// Check gaps between samples
for i in 0..<(sortedSamples.count - 1) {
let currentEnd = sortedSamples[i].endDate
let nextStart = sortedSamples[i + 1].startDate
let gap = nextStart.timeIntervalSince(currentEnd)
if gap > expectedInterval * 2 {
gaps.append(TimeWindow(start: currentEnd, end: nextStart))
}
}
// Check gap at end
if let lastSample = sortedSamples.last,
end.timeIntervalSince(lastSample.endDate) > expectedInterval * 2 {
gaps.append(TimeWindow(start: lastSample.endDate, end: end))
}
return gaps
}
// MARK: - Priority Management
func setPriority(_ priority: Int, for source: HealthSource, dataType: HealthDataType) {
guard var profile = sourceProfiles[source.bundleIdentifier] else { return }
profile.priorities[dataType] = priority
sourceProfiles[source.bundleIdentifier] = profile
storage.saveSourceProfiles(sourceProfiles)
}
func getPriority(for source: HealthSource, dataType: HealthDataType) -> Int {
if let profile = sourceProfiles[source.bundleIdentifier],
let priority = profile.priorities[dataType] {
return priority
}
return source.category.priority
}
func getSourcesByPriority(for dataType: HealthDataType) -> [HealthSource] {
return sources
.filter { $0.supportedDataTypes.contains(dataType) }
.sorted { getPriority(for: $0, dataType: dataType) > getPriority(for: $1, dataType: dataType) }
}
// MARK: - Source Enable/Disable
func setEnabled(_ enabled: Bool, for source: HealthSource) {
guard var profile = sourceProfiles[source.bundleIdentifier] else { return }
profile.isEnabled = enabled
sourceProfiles[source.bundleIdentifier] = profile
storage.saveSourceProfiles(sourceProfiles)
}
func isEnabled(_ source: HealthSource) -> Bool {
return sourceProfiles[source.bundleIdentifier]?.isEnabled ?? true
}
}
// MARK: - Source Profile
struct SourceProfile: Codable {
let bundleIdentifier: String
var priorities: [HealthDataType: Int]
var isEnabled: Bool
var customName: String?
var notes: String?
let addedAt: Date
init(source: HealthSource) {
self.bundleIdentifier = source.bundleIdentifier
self.priorities = [:]
self.isEnabled = true
self.customName = nil
self.notes = nil
self.addedAt = Date()
}
}
// MARK: - Source Capabilities
struct SourceCapabilities {
let canMeasureSteps: Bool
let canMeasureDistance: Bool
let canMeasureFloors: Bool
let canMeasureHeartRate: Bool
let canMeasureBloodPressure: Bool
let canMeasureBloodOxygen: Bool
let canMeasureSleep: Bool
let canMeasureWorkouts: Bool
let hasGPS: Bool
let hasBarometer: Bool
let hasAccelerometer: Bool
static let empty = SourceCapabilities(
canMeasureSteps: false,
canMeasureDistance: false,
canMeasureFloors: false,
canMeasureHeartRate: false,
canMeasureBloodPressure: false,
canMeasureBloodOxygen: false,
canMeasureSleep: false,
canMeasureWorkouts: false,
hasGPS: false,
hasBarometer: false,
hasAccelerometer: false
)
var supportedDataTypes: Set<HealthDataType> {
var types = Set<HealthDataType>()
if canMeasureSteps { types.insert(.steps) }
if canMeasureDistance { types.insert(.distance) }
if canMeasureFloors { types.insert(.floorsClimbed) }
if canMeasureHeartRate {
types.insert(.heartRate)
types.insert(.restingHeartRate)
}
if canMeasureBloodPressure {
types.insert(.bloodPressureSystolic)
types.insert(.bloodPressureDiastolic)
}
if canMeasureBloodOxygen { types.insert(.bloodOxygen) }
if canMeasureSleep { types.insert(.sleep) }
return types
}
}
// MARK: - Source Health Report
struct SourceHealthReport {
let source: HealthSource
let lastActivityByType: [HealthDataType: Date]
let recordCountByType: [HealthDataType: Int]
let dataGaps: [HealthDataType: [TimeWindow]]
let overallQuality: DataQuality
let checkedAt: Date
var lastOverallActivity: Date? {
lastActivityByType.values.max()
}
var totalRecordCount: Int {
recordCountByType.values.reduce(0, +)
}
var hasSignificantGaps: Bool {
dataGaps.values.flatMap { $0 }.contains { $0.duration > 3600 } // > 1 hour gap
}
}
// MARK: - Source Storage Manager
class SourceStorageManager {
private let userDefaults = UserDefaults.standard
private let profilesKey = "healthbridge.source.profiles"
func saveSourceProfiles(_ profiles: [String: SourceProfile]) {
do {
let data = try JSONEncoder().encode(profiles)
userDefaults.set(data, forKey: profilesKey)
} catch {
print("Failed to save source profiles: \(error)")
}
}
func loadSourceProfiles() -> [String: SourceProfile] {
guard let data = userDefaults.data(forKey: profilesKey) else {
return [:]
}
do {
return try JSONDecoder().decode([String: SourceProfile].self, from: data)
} catch {
print("Failed to load source profiles: \(error)")
return [:]
}
}
}
+301
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import Foundation
import Combine
import UserNotifications
// MARK: - Sync Coordinator
@MainActor
class SyncCoordinator: ObservableObject {
static let shared = SyncCoordinator()
private let healthKitManager = HealthKitManager.shared
private let sourceManager = SourceManager.shared
private let dataReader = DataReader.shared
private let ruleEngine = RuleEngine.shared
private let mergeEngine = MergeEngine.shared
private let dataWriter = DataWriter.shared
@Published var isSyncing = false
@Published var syncProgress: Double = 0
@Published var lastSyncDate: Date?
@Published var lastSyncResult: SyncResult?
@Published var pendingConflicts: [Conflict] = []
@Published var syncHistory: [SyncResult] = []
private let syncHistoryKey = "healthbridge.sync.history"
private let maxHistoryItems = 50
private init() {
loadSyncHistory()
}
// MARK: - Main Sync
func performSync(
for date: Date = Date(),
dataTypes: [HealthDataType] = HealthDataType.allCases
) async throws {
guard !isSyncing else { return }
isSyncing = true
syncProgress = 0
defer { isSyncing = false }
let startTime = Date()
var result = SyncResult(startedAt: startTime)
do {
// Step 1: Refresh sources (10%)
syncProgress = 0.05
await sourceManager.discoverSources()
syncProgress = 0.1
// Step 2: Detect conflicts (40%)
let conflicts = try await dataReader.detectConflicts(for: date, dataTypes: dataTypes)
result.totalConflicts = conflicts.count
syncProgress = 0.4
// Step 3: Process conflicts with merge engine (70%)
let operations = await mergeEngine.processConflicts(conflicts)
syncProgress = 0.7
let autoResolved = operations.filter { $0.status == .resolved }
let pendingManual = operations.filter { $0.status == .pendingManualReview }
result.autoResolved = autoResolved.count
result.pendingManualReview = pendingManual.count
// Update pending conflicts
pendingConflicts = pendingManual.map { $0.conflict }
// Step 4: Write resolved records (90%)
let recordsToWrite = autoResolved.compactMap { $0.mergedRecord }
if !recordsToWrite.isEmpty {
let writeResult = await dataWriter.writeBatch(recordsToWrite)
result.writtenRecords = writeResult.successCount
result.writeErrors = writeResult.failureCount
}
syncProgress = 0.9
// Step 5: Finalize (100%)
result.completedAt = Date()
result.status = .success
syncProgress = 1.0
} catch {
result.status = .failed
result.error = error.localizedDescription
result.completedAt = Date()
throw error
}
lastSyncDate = Date()
lastSyncResult = result
addToHistory(result)
// Send notification if there are pending conflicts
if result.pendingManualReview > 0 {
await sendConflictNotification(count: result.pendingManualReview)
}
}
// MARK: - Quick Sync
func performQuickSync() async throws {
try await performSync(
for: Date(),
dataTypes: [.steps, .heartRate, .activeEnergy]
)
}
// MARK: - Sync Specific Data Type
func syncDataType(_ dataType: HealthDataType, for date: Date = Date()) async throws {
try await performSync(for: date, dataTypes: [dataType])
}
// MARK: - Manual Conflict Resolution
func resolveConflict(_ conflict: Conflict, selectedReadingId: UUID) async throws {
guard let resolution = mergeEngine.resolveConflictManually(conflict, selectedReadingId: selectedReadingId) else {
throw SyncError.resolutionFailed
}
var resolvedConflict = conflict
resolvedConflict.status = .resolved
resolvedConflict.resolution = resolution
resolvedConflict.resolvedAt = Date()
let mergedRecord = mergeEngine.createMergedRecord(from: resolvedConflict, resolution: resolution)
// Write the record
_ = try await dataWriter.writeRecord(mergedRecord)
// Remove from pending
pendingConflicts.removeAll { $0.id == conflict.id }
}
func ignoreConflict(_ conflict: Conflict) {
pendingConflicts.removeAll { $0.id == conflict.id }
}
// MARK: - Sync History
private func loadSyncHistory() {
guard let data = UserDefaults.standard.data(forKey: syncHistoryKey),
let history = try? JSONDecoder().decode([SyncResult].self, from: data) else {
return
}
syncHistory = history
}
private func addToHistory(_ result: SyncResult) {
syncHistory.insert(result, at: 0)
if syncHistory.count > maxHistoryItems {
syncHistory = Array(syncHistory.prefix(maxHistoryItems))
}
saveSyncHistory()
}
private func saveSyncHistory() {
guard let data = try? JSONEncoder().encode(syncHistory) else { return }
UserDefaults.standard.set(data, forKey: syncHistoryKey)
}
func clearHistory() {
syncHistory.removeAll()
UserDefaults.standard.removeObject(forKey: syncHistoryKey)
}
// MARK: - Notifications
private func sendConflictNotification(count: Int) async {
let center = UNUserNotificationCenter.current()
let settings = await center.notificationSettings()
guard settings.authorizationStatus == .authorized else { return }
let content = UNMutableNotificationContent()
content.title = "HealthBridge"
content.body = count == 1
? "1 Konflikt erfordert Ihre Aufmerksamkeit"
: "\(count) Konflikte erfordern Ihre Aufmerksamkeit"
content.sound = .default
content.badge = NSNumber(value: count)
let request = UNNotificationRequest(
identifier: "healthbridge.conflicts",
content: content,
trigger: nil
)
try? await center.add(request)
}
func requestNotificationPermission() async -> Bool {
let center = UNUserNotificationCenter.current()
do {
return try await center.requestAuthorization(options: [.alert, .sound, .badge])
} catch {
return false
}
}
// MARK: - Statistics
var todayStats: TodayStats {
let today = Calendar.current.startOfDay(for: Date())
let todaySyncs = syncHistory.filter {
Calendar.current.isDate($0.startedAt, inSameDayAs: today)
}
return TodayStats(
syncCount: todaySyncs.count,
totalConflicts: todaySyncs.reduce(0) { $0 + $1.totalConflicts },
autoResolved: todaySyncs.reduce(0) { $0 + $1.autoResolved },
pendingManual: pendingConflicts.count,
lastSync: lastSyncDate
)
}
}
// MARK: - Supporting Types
struct SyncResult: Identifiable, Codable {
let id = UUID()
let startedAt: Date
var completedAt: Date?
var status: SyncStatus = .inProgress
var totalConflicts = 0
var autoResolved = 0
var pendingManualReview = 0
var writtenRecords = 0
var writeErrors = 0
var error: String?
enum SyncStatus: String, Codable {
case inProgress = "in_progress"
case success = "success"
case partialSuccess = "partial_success"
case failed = "failed"
}
var duration: TimeInterval? {
guard let completed = completedAt else { return nil }
return completed.timeIntervalSince(startedAt)
}
var formattedDuration: String {
guard let duration = duration else { return "" }
if duration < 1 {
return "< 1s"
}
return String(format: "%.1fs", duration)
}
var successRate: Double {
guard totalConflicts > 0 else { return 1.0 }
return Double(autoResolved) / Double(totalConflicts)
}
}
struct TodayStats {
let syncCount: Int
let totalConflicts: Int
let autoResolved: Int
let pendingManual: Int
let lastSync: Date?
var resolutionRate: Double {
guard totalConflicts > 0 else { return 1.0 }
return Double(autoResolved) / Double(totalConflicts)
}
var formattedLastSync: String {
guard let date = lastSync else { return "Nie" }
let formatter = RelativeDateTimeFormatter()
formatter.unitsStyle = .abbreviated
return formatter.localizedString(for: date, relativeTo: Date())
}
}
enum SyncError: LocalizedError {
case notAuthorized
case syncInProgress
case resolutionFailed
case writeFailed
var errorDescription: String? {
switch self {
case .notAuthorized:
return "Keine Berechtigung für HealthKit"
case .syncInProgress:
return "Synchronisierung läuft bereits"
case .resolutionFailed:
return "Konfliktauflösung fehlgeschlagen"
case .writeFailed:
return "Schreiben der Daten fehlgeschlagen"
}
}
}
+153
View File
@@ -0,0 +1,153 @@
import Foundation
import SwiftUI
// MARK: - Date Extensions
extension Date {
var startOfDay: Date {
Calendar.current.startOfDay(for: self)
}
var endOfDay: Date {
Calendar.current.date(byAdding: .day, value: 1, to: startOfDay)!.addingTimeInterval(-1)
}
var isToday: Bool {
Calendar.current.isDateInToday(self)
}
var isYesterday: Bool {
Calendar.current.isDateInYesterday(self)
}
func formatted(style: DateFormatter.Style) -> String {
let formatter = DateFormatter()
formatter.dateStyle = style
formatter.timeStyle = .none
return formatter.string(from: self)
}
func formattedTime() -> String {
let formatter = DateFormatter()
formatter.dateStyle = .none
formatter.timeStyle = .short
return formatter.string(from: self)
}
func formattedRelative() -> String {
let formatter = RelativeDateTimeFormatter()
formatter.unitsStyle = .abbreviated
return formatter.localizedString(for: self, relativeTo: Date())
}
func adding(days: Int) -> Date {
Calendar.current.date(byAdding: .day, value: days, to: self)!
}
func adding(hours: Int) -> Date {
Calendar.current.date(byAdding: .hour, value: hours, to: self)!
}
func adding(minutes: Int) -> Date {
Calendar.current.date(byAdding: .minute, value: minutes, to: self)!
}
}
// MARK: - Double Extensions
extension Double {
func formatted(decimals: Int = 1) -> String {
String(format: "%.\(decimals)f", self)
}
var formattedAsInteger: String {
String(format: "%.0f", self)
}
var formattedAsPercentage: String {
String(format: "%.1f%%", self * 100)
}
}
// MARK: - Array Extensions
extension Array {
func chunked(into size: Int) -> [[Element]] {
stride(from: 0, to: count, by: size).map {
Array(self[$0..<Swift.min($0 + size, count)])
}
}
}
// MARK: - Color Extensions
extension Color {
static let healthBridgePrimary = Color.blue
static let healthBridgeSecondary = Color.cyan
static let healthBridgeAccent = Color.orange
static func forSeverity(_ severity: ConflictSeverity) -> Color {
switch severity {
case .minor: return .green
case .moderate: return .yellow
case .significant: return .orange
case .major: return .red
}
}
static func forQuality(_ quality: DataQuality) -> Color {
switch quality {
case .complete: return .green
case .partial: return .yellow
case .missing: return .gray
case .invalid: return .red
}
}
}
// MARK: - View Extensions
extension View {
func cardStyle() -> some View {
self
.padding()
.background(Color(.systemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
.shadow(color: .black.opacity(0.05), radius: 4, y: 2)
}
func sectionHeader(_ title: String) -> some View {
VStack(alignment: .leading, spacing: 8) {
Text(title)
.font(.headline)
.foregroundStyle(.primary)
self
}
}
}
// MARK: - Binding Extensions
extension Binding {
func onChange(_ handler: @escaping (Value) -> Void) -> Binding<Value> {
Binding(
get: { self.wrappedValue },
set: { newValue in
self.wrappedValue = newValue
handler(newValue)
}
)
}
}
// MARK: - Optional Extensions
extension Optional where Wrapped == String {
var orEmpty: String {
self ?? ""
}
var isNilOrEmpty: Bool {
self?.isEmpty ?? true
}
}
// MARK: - Collection Extensions
extension Collection {
var isNotEmpty: Bool {
!isEmpty
}
}
@@ -0,0 +1,185 @@
import Foundation
import UserNotifications
@MainActor
class NotificationManager: ObservableObject {
static let shared = NotificationManager()
@Published var isAuthorized = false
@Published var pendingNotifications: [String] = []
private let center = UNUserNotificationCenter.current()
private init() {
Task {
await checkAuthorization()
}
}
// MARK: - Authorization
func requestAuthorization() async -> Bool {
do {
let granted = try await center.requestAuthorization(options: [.alert, .sound, .badge])
isAuthorized = granted
return granted
} catch {
print("Notification authorization failed: \(error)")
return false
}
}
func checkAuthorization() async {
let settings = await center.notificationSettings()
isAuthorized = settings.authorizationStatus == .authorized
}
// MARK: - Conflict Notifications
func sendConflictNotification(count: Int) async {
guard isAuthorized else { return }
let content = UNMutableNotificationContent()
content.title = "HealthBridge"
if count == 1 {
content.body = "1 neuer Konflikt erfordert Ihre Aufmerksamkeit"
} else {
content.body = "\(count) neue Konflikte erfordern Ihre Aufmerksamkeit"
}
content.sound = .default
content.badge = NSNumber(value: count)
content.categoryIdentifier = "CONFLICT"
let request = UNNotificationRequest(
identifier: "healthbridge.conflict.\(Date().timeIntervalSince1970)",
content: content,
trigger: nil
)
do {
try await center.add(request)
} catch {
print("Failed to send notification: \(error)")
}
}
// MARK: - Sync Notifications
func sendSyncCompleteNotification(
conflictsResolved: Int,
pendingConflicts: Int
) async {
guard isAuthorized else { return }
let content = UNMutableNotificationContent()
content.title = "Sync abgeschlossen"
if pendingConflicts > 0 {
content.body = "\(conflictsResolved) Konflikte gelöst, \(pendingConflicts) offen"
} else {
content.body = "Alle \(conflictsResolved) Konflikte wurden gelöst"
}
content.sound = .default
content.categoryIdentifier = "SYNC_COMPLETE"
let request = UNNotificationRequest(
identifier: "healthbridge.sync.\(Date().timeIntervalSince1970)",
content: content,
trigger: nil
)
do {
try await center.add(request)
} catch {
print("Failed to send notification: \(error)")
}
}
// MARK: - Scheduled Notifications
func scheduleReminder(at hour: Int, minute: Int) async {
guard isAuthorized else { return }
let content = UNMutableNotificationContent()
content.title = "HealthBridge Erinnerung"
content.body = "Vergessen Sie nicht, Ihre Gesundheitsdaten zu synchronisieren"
content.sound = .default
var dateComponents = DateComponents()
dateComponents.hour = hour
dateComponents.minute = minute
let trigger = UNCalendarNotificationTrigger(dateMatching: dateComponents, repeats: true)
let request = UNNotificationRequest(
identifier: "healthbridge.reminder.daily",
content: content,
trigger: trigger
)
do {
try await center.add(request)
} catch {
print("Failed to schedule reminder: \(error)")
}
}
func cancelReminder() {
center.removePendingNotificationRequests(withIdentifiers: ["healthbridge.reminder.daily"])
}
// MARK: - Badge Management
func clearBadge() async {
do {
try await center.setBadgeCount(0)
} catch {
print("Failed to clear badge: \(error)")
}
}
func updateBadge(count: Int) async {
do {
try await center.setBadgeCount(count)
} catch {
print("Failed to update badge: \(error)")
}
}
// MARK: - Notification Categories
func registerCategories() {
// Conflict category with actions
let resolveAction = UNNotificationAction(
identifier: "RESOLVE_AUTO",
title: "Automatisch lösen",
options: []
)
let viewAction = UNNotificationAction(
identifier: "VIEW_CONFLICTS",
title: "Anzeigen",
options: [.foreground]
)
let conflictCategory = UNNotificationCategory(
identifier: "CONFLICT",
actions: [resolveAction, viewAction],
intentIdentifiers: [],
options: []
)
// Sync complete category
let syncCategory = UNNotificationCategory(
identifier: "SYNC_COMPLETE",
actions: [viewAction],
intentIdentifiers: [],
options: []
)
center.setNotificationCategories([conflictCategory, syncCategory])
}
}
@@ -0,0 +1,103 @@
import Foundation
import Combine
@MainActor
class DashboardViewModel: ObservableObject {
private let syncCoordinator = SyncCoordinator.shared
private let dataReader = DataReader.shared
private let sourceManager = SourceManager.shared
@Published var dailySummary: DailySummary?
@Published var isLoading = false
@Published var selectedDate = Date()
@Published var errorMessage: String?
private var cancellables = Set<AnyCancellable>()
init() {
setupBindings()
}
private func setupBindings() {
$selectedDate
.debounce(for: .milliseconds(300), scheduler: DispatchQueue.main)
.sink { [weak self] date in
Task {
await self?.loadData(for: date)
}
}
.store(in: &cancellables)
}
func loadData(for date: Date = Date()) async {
isLoading = true
errorMessage = nil
do {
dailySummary = try await dataReader.fetchDailySummary(for: date)
} catch {
errorMessage = error.localizedDescription
}
isLoading = false
}
func performSync() async {
do {
try await syncCoordinator.performSync(for: selectedDate)
await loadData(for: selectedDate)
} catch {
errorMessage = "Sync fehlgeschlagen: \(error.localizedDescription)"
}
}
func refresh() async {
await sourceManager.discoverSources()
await loadData(for: selectedDate)
}
var syncStatus: SyncStatus {
if syncCoordinator.isSyncing {
return .syncing
} else if let lastSync = syncCoordinator.lastSyncDate {
let hoursSinceSync = Date().timeIntervalSince(lastSync) / 3600
if hoursSinceSync < 1 {
return .synced
} else if hoursSinceSync < 24 {
return .stale
} else {
return .veryStale
}
} else {
return .neverSynced
}
}
enum SyncStatus {
case syncing
case synced
case stale
case veryStale
case neverSynced
var description: String {
switch self {
case .syncing: return "Synchronisiere..."
case .synced: return "Synchronisiert"
case .stale: return "Sync empfohlen"
case .veryStale: return "Sync überfällig"
case .neverSynced: return "Nie synchronisiert"
}
}
var icon: String {
switch self {
case .syncing: return "arrow.triangle.2.circlepath"
case .synced: return "checkmark.circle.fill"
case .stale: return "exclamationmark.circle"
case .veryStale: return "exclamationmark.triangle"
case .neverSynced: return "xmark.circle"
}
}
}
}
@@ -0,0 +1,241 @@
import SwiftUI
import Charts
struct HealthChart: View {
let dataType: HealthDataType
let data: [ChartDataPoint]
let showConflicts: Bool
var body: some View {
VStack(alignment: .leading, spacing: 8) {
HStack {
Image(systemName: dataType.icon)
.foregroundStyle(.blue)
Text(dataType.displayName)
.font(.headline)
Spacer()
if let latest = data.last {
Text(latest.formattedValue)
.font(.title3)
.fontWeight(.semibold)
Text(dataType.unit)
.font(.caption)
.foregroundStyle(.secondary)
}
}
if #available(iOS 16.0, *) {
Chart(data) { point in
LineMark(
x: .value("Zeit", point.date),
y: .value("Wert", point.value)
)
.foregroundStyle(.blue)
PointMark(
x: .value("Zeit", point.date),
y: .value("Wert", point.value)
)
.foregroundStyle(point.hasConflict && showConflicts ? .orange : .blue)
.symbolSize(point.hasConflict && showConflicts ? 100 : 50)
}
.frame(height: 150)
.chartXAxis {
AxisMarks(values: .stride(by: .hour, count: 4)) { value in
AxisValueLabel(format: .dateTime.hour())
}
}
.chartYAxis {
AxisMarks(position: .leading)
}
} else {
// Fallback for iOS 15
simpleChart
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
private var simpleChart: some View {
GeometryReader { geometry in
let maxValue = data.map { $0.value }.max() ?? 1
let minValue = data.map { $0.value }.min() ?? 0
let range = maxValue - minValue
Path { path in
guard !data.isEmpty else { return }
let xStep = geometry.size.width / CGFloat(max(1, data.count - 1))
for (index, point) in data.enumerated() {
let x = CGFloat(index) * xStep
let normalizedY = range > 0 ? (point.value - minValue) / range : 0.5
let y = geometry.size.height * (1 - normalizedY)
if index == 0 {
path.move(to: CGPoint(x: x, y: y))
} else {
path.addLine(to: CGPoint(x: x, y: y))
}
}
}
.stroke(Color.blue, lineWidth: 2)
}
.frame(height: 150)
}
}
struct ChartDataPoint: Identifiable {
let id = UUID()
let date: Date
let value: Double
let hasConflict: Bool
let sourceId: String?
var formattedValue: String {
if value == floor(value) {
return String(format: "%.0f", value)
}
return String(format: "%.1f", value)
}
}
// MARK: - Blood Pressure Chart
struct BloodPressureChart: View {
let data: [BloodPressurePoint]
var body: some View {
VStack(alignment: .leading, spacing: 8) {
HStack {
Image(systemName: "drop.fill")
.foregroundStyle(.red)
Text("Blutdruck")
.font(.headline)
Spacer()
if let latest = data.last {
Text("\(Int(latest.systolic))/\(Int(latest.diastolic))")
.font(.title3)
.fontWeight(.semibold)
Text("mmHg")
.font(.caption)
.foregroundStyle(.secondary)
}
}
if #available(iOS 16.0, *) {
Chart(data) { point in
// Systolic
LineMark(
x: .value("Zeit", point.date),
y: .value("Systolisch", point.systolic)
)
.foregroundStyle(.red)
// Diastolic
LineMark(
x: .value("Zeit", point.date),
y: .value("Diastolisch", point.diastolic)
)
.foregroundStyle(.blue)
}
.frame(height: 150)
.chartYScale(domain: 40...180)
.chartLegend(position: .bottom)
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
}
struct BloodPressurePoint: Identifiable {
let id = UUID()
let date: Date
let systolic: Double
let diastolic: Double
let classification: BloodPressureHandler.BloodPressureClassification
}
// MARK: - Summary Ring
struct SummaryRing: View {
let progress: Double
let color: Color
let icon: String
let value: String
let label: String
var body: some View {
VStack(spacing: 4) {
ZStack {
Circle()
.stroke(color.opacity(0.2), lineWidth: 8)
Circle()
.trim(from: 0, to: min(progress, 1.0))
.stroke(color, style: StrokeStyle(lineWidth: 8, lineCap: .round))
.rotationEffect(.degrees(-90))
VStack(spacing: 2) {
Image(systemName: icon)
.font(.caption)
.foregroundStyle(color)
Text(value)
.font(.caption2)
.fontWeight(.semibold)
}
}
.frame(width: 60, height: 60)
Text(label)
.font(.caption2)
.foregroundStyle(.secondary)
}
}
}
#Preview {
VStack(spacing: 20) {
HealthChart(
dataType: .steps,
data: (0..<24).map { hour in
ChartDataPoint(
date: Calendar.current.date(byAdding: .hour, value: hour, to: Calendar.current.startOfDay(for: Date()))!,
value: Double.random(in: 0...1000),
hasConflict: hour % 5 == 0,
sourceId: nil
)
},
showConflicts: true
)
HStack(spacing: 20) {
SummaryRing(
progress: 0.75,
color: .blue,
icon: "figure.walk",
value: "7.5k",
label: "Schritte"
)
SummaryRing(
progress: 0.5,
color: .red,
icon: "heart.fill",
value: "72",
label: "Puls"
)
SummaryRing(
progress: 1.0,
color: .green,
icon: "checkmark.circle",
value: "100%",
label: "Synced"
)
}
}
.padding()
}
+348
View File
@@ -0,0 +1,348 @@
import SwiftUI
struct ConflictsView: View {
@EnvironmentObject var syncCoordinator: SyncCoordinator
@State private var selectedConflict: Conflict?
@State private var showingDetail = false
var body: some View {
NavigationStack {
Group {
if syncCoordinator.pendingConflicts.isEmpty {
emptyState
} else {
conflictsList
}
}
.navigationTitle("Konflikte")
.toolbar {
ToolbarItem(placement: .topBarTrailing) {
Menu {
Button("Alle automatisch lösen") {
Task { await resolveAllAuto() }
}
Button("Alle ignorieren", role: .destructive) {
ignoreAll()
}
} label: {
Image(systemName: "ellipsis.circle")
}
.disabled(syncCoordinator.pendingConflicts.isEmpty)
}
}
.sheet(item: $selectedConflict) { conflict in
ConflictDetailView(conflict: conflict) { selectedReadingId in
Task {
await resolveConflict(conflict, selectedReadingId: selectedReadingId)
}
}
}
}
}
// MARK: - Empty State
private var emptyState: some View {
VStack(spacing: 16) {
Image(systemName: "checkmark.circle.fill")
.font(.system(size: 64))
.foregroundStyle(.green)
Text("Keine Konflikte")
.font(.title2)
.fontWeight(.semibold)
Text("Alle Ihre Gesundheitsdaten sind synchronisiert")
.font(.subheadline)
.foregroundStyle(.secondary)
.multilineTextAlignment(.center)
}
.padding()
}
// MARK: - Conflicts List
private var conflictsList: some View {
List {
ForEach(groupedConflicts.keys.sorted(by: { $0.displayName < $1.displayName }), id: \.self) { dataType in
Section(dataType.displayName) {
ForEach(groupedConflicts[dataType] ?? []) { conflict in
ConflictRow(conflict: conflict)
.contentShape(Rectangle())
.onTapGesture {
selectedConflict = conflict
}
}
}
}
}
.listStyle(.insetGrouped)
}
private var groupedConflicts: [HealthDataType: [Conflict]] {
Dictionary(grouping: syncCoordinator.pendingConflicts, by: { $0.dataType })
}
// MARK: - Actions
private func resolveConflict(_ conflict: Conflict, selectedReadingId: UUID) async {
do {
try await syncCoordinator.resolveConflict(conflict, selectedReadingId: selectedReadingId)
selectedConflict = nil
} catch {
print("Failed to resolve conflict: \(error)")
}
}
private func resolveAllAuto() async {
for conflict in syncCoordinator.pendingConflicts {
if let primaryReading = conflict.primarySourceReading {
try? await syncCoordinator.resolveConflict(conflict, selectedReadingId: primaryReading.id)
}
}
}
private func ignoreAll() {
for conflict in syncCoordinator.pendingConflicts {
syncCoordinator.ignoreConflict(conflict)
}
}
}
// MARK: - Conflict Row
struct ConflictRow: View {
let conflict: Conflict
var body: some View {
VStack(alignment: .leading, spacing: 8) {
HStack {
Image(systemName: conflict.dataType.icon)
.foregroundStyle(.blue)
Text(conflict.timeWindow.formattedRange)
.font(.headline)
Spacer()
severityBadge
}
HStack(spacing: 16) {
ForEach(conflict.readings.prefix(3)) { reading in
VStack(alignment: .leading, spacing: 2) {
Text(reading.sourceName)
.font(.caption)
.foregroundStyle(.secondary)
Text(reading.formattedValue)
.font(.subheadline)
.fontWeight(.medium)
}
}
}
if conflict.readings.count > 3 {
Text("+\(conflict.readings.count - 3) weitere")
.font(.caption)
.foregroundStyle(.secondary)
}
}
.padding(.vertical, 4)
}
private var severityBadge: some View {
Text(conflict.severity.displayName)
.font(.caption2)
.padding(.horizontal, 8)
.padding(.vertical, 4)
.background(severityColor.opacity(0.2))
.foregroundStyle(severityColor)
.clipShape(Capsule())
}
private var severityColor: Color {
switch conflict.severity {
case .minor: return .green
case .moderate: return .yellow
case .significant: return .orange
case .major: return .red
}
}
}
// MARK: - Conflict Detail View
struct ConflictDetailView: View {
let conflict: Conflict
let onResolve: (UUID) -> Void
@Environment(\.dismiss) private var dismiss
@State private var selectedReadingId: UUID?
var body: some View {
NavigationStack {
ScrollView {
VStack(spacing: 20) {
// Header
headerSection
// Readings
readingsSection
// Difference Info
differenceSection
Spacer()
}
.padding()
}
.navigationTitle("Konflikt lösen")
.navigationBarTitleDisplayMode(.inline)
.toolbar {
ToolbarItem(placement: .cancellationAction) {
Button("Abbrechen") {
dismiss()
}
}
ToolbarItem(placement: .confirmationAction) {
Button("Auswählen") {
if let id = selectedReadingId {
onResolve(id)
}
}
.disabled(selectedReadingId == nil)
}
}
}
}
// MARK: - Header
private var headerSection: some View {
VStack(spacing: 8) {
Image(systemName: conflict.dataType.icon)
.font(.largeTitle)
.foregroundStyle(.blue)
Text(conflict.dataType.displayName)
.font(.title2)
.fontWeight(.semibold)
Text(conflict.timeWindow.formattedDate)
.font(.subheadline)
.foregroundStyle(.secondary)
Text(conflict.timeWindow.formattedRange)
.font(.subheadline)
.foregroundStyle(.secondary)
}
.padding()
}
// MARK: - Readings
private var readingsSection: some View {
VStack(alignment: .leading, spacing: 12) {
Text("Quellen")
.font(.headline)
ForEach(conflict.readings) { reading in
ReadingCard(
reading: reading,
isSelected: selectedReadingId == reading.id,
dataType: conflict.dataType
)
.onTapGesture {
selectedReadingId = reading.id
}
}
}
}
// MARK: - Difference
private var differenceSection: some View {
VStack(alignment: .leading, spacing: 8) {
Text("Analyse")
.font(.headline)
HStack {
VStack(alignment: .leading) {
Text("Differenz")
.font(.caption)
.foregroundStyle(.secondary)
Text(String(format: "%.1f %@", conflict.valueDifference, conflict.dataType.unit))
.font(.title3)
.fontWeight(.medium)
}
Spacer()
VStack(alignment: .trailing) {
Text("Prozentual")
.font(.caption)
.foregroundStyle(.secondary)
Text(String(format: "%.1f%%", conflict.percentageDifference))
.font(.title3)
.fontWeight(.medium)
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
}
}
// MARK: - Reading Card
struct ReadingCard: View {
let reading: SourceReading
let isSelected: Bool
let dataType: HealthDataType
var body: some View {
HStack {
VStack(alignment: .leading, spacing: 4) {
HStack {
Image(systemName: reading.sourceCategory.icon)
.foregroundStyle(.blue)
Text(reading.sourceName)
.font(.headline)
}
Text(reading.sourceCategory.displayName)
.font(.caption)
.foregroundStyle(.secondary)
}
Spacer()
VStack(alignment: .trailing, spacing: 4) {
Text(reading.formattedValue)
.font(.title2)
.fontWeight(.semibold)
Text(dataType.unit)
.font(.caption)
.foregroundStyle(.secondary)
}
Image(systemName: isSelected ? "checkmark.circle.fill" : "circle")
.font(.title2)
.foregroundStyle(isSelected ? .blue : .secondary)
}
.padding()
.background(isSelected ? Color.blue.opacity(0.1) : Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
.overlay(
RoundedRectangle(cornerRadius: 12)
.stroke(isSelected ? Color.blue : Color.clear, lineWidth: 2)
)
}
}
#Preview {
ConflictsView()
.environmentObject(SyncCoordinator.shared)
}
+42
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import SwiftUI
struct ContentView: View {
@EnvironmentObject var appState: AppState
@EnvironmentObject var syncCoordinator: SyncCoordinator
var body: some View {
TabView(selection: $appState.selectedTab) {
DashboardView()
.tabItem {
Label("Dashboard", systemImage: "chart.bar.fill")
}
.tag(AppState.Tab.dashboard)
ConflictsView()
.tabItem {
Label("Konflikte", systemImage: "arrow.triangle.2.circlepath")
}
.tag(AppState.Tab.conflicts)
.badge(syncCoordinator.pendingConflicts.count)
RulesView()
.tabItem {
Label("Regeln", systemImage: "slider.horizontal.3")
}
.tag(AppState.Tab.rules)
SourcesView()
.tabItem {
Label("Quellen", systemImage: "antenna.radiowaves.left.and.right")
}
.tag(AppState.Tab.sources)
}
.tint(.blue)
}
}
#Preview {
ContentView()
.environmentObject(AppState())
.environmentObject(SyncCoordinator.shared)
}
+379
View File
@@ -0,0 +1,379 @@
import SwiftUI
struct DashboardView: View {
@EnvironmentObject var appState: AppState
@EnvironmentObject var syncCoordinator: SyncCoordinator
@StateObject private var dataReader = DataReader.shared
@State private var dailySummary: DailySummary?
@State private var isLoading = false
@State private var selectedDate = Date()
var body: some View {
NavigationStack {
ScrollView {
VStack(spacing: 20) {
// Sync Status Card
syncStatusCard
// Date Picker
datePicker
// Health Metrics
if let summary = dailySummary {
healthMetricsGrid(summary: summary)
} else if isLoading {
loadingView
} else {
emptyStateView
}
// Pending Conflicts Alert
if !syncCoordinator.pendingConflicts.isEmpty {
pendingConflictsCard
}
// Recent Sync History
recentSyncHistory
}
.padding()
}
.navigationTitle("HealthBridge")
.toolbar {
ToolbarItem(placement: .topBarTrailing) {
Button {
Task { await performSync() }
} label: {
if syncCoordinator.isSyncing {
ProgressView()
.scaleEffect(0.8)
} else {
Image(systemName: "arrow.clockwise")
}
}
.disabled(syncCoordinator.isSyncing)
}
}
.refreshable {
await loadData()
}
.task {
await loadData()
}
.onChange(of: selectedDate) {
Task { await loadData() }
}
}
}
// MARK: - Sync Status Card
private var syncStatusCard: some View {
VStack(spacing: 12) {
HStack {
VStack(alignment: .leading, spacing: 4) {
Text("Heute")
.font(.headline)
Text(syncCoordinator.todayStats.formattedLastSync)
.font(.caption)
.foregroundStyle(.secondary)
}
Spacer()
if syncCoordinator.isSyncing {
VStack(alignment: .trailing) {
ProgressView(value: syncCoordinator.syncProgress)
.frame(width: 60)
Text("Synchronisiere...")
.font(.caption2)
.foregroundStyle(.secondary)
}
} else {
Image(systemName: "checkmark.circle.fill")
.font(.title2)
.foregroundStyle(.green)
}
}
Divider()
HStack(spacing: 20) {
StatItem(
value: "\(syncCoordinator.todayStats.syncCount)",
label: "Syncs",
icon: "arrow.triangle.2.circlepath"
)
StatItem(
value: "\(syncCoordinator.todayStats.totalConflicts)",
label: "Konflikte",
icon: "exclamationmark.triangle"
)
StatItem(
value: "\(Int(syncCoordinator.todayStats.resolutionRate * 100))%",
label: "Gelöst",
icon: "checkmark.circle"
)
}
}
.padding()
.background(Color(.systemBackground))
.clipShape(RoundedRectangle(cornerRadius: 16))
.shadow(color: .black.opacity(0.05), radius: 8, y: 4)
}
// MARK: - Date Picker
private var datePicker: some View {
DatePicker(
"Datum",
selection: $selectedDate,
in: ...Date(),
displayedComponents: .date
)
.datePickerStyle(.compact)
.padding(.horizontal)
}
// MARK: - Health Metrics Grid
private func healthMetricsGrid(summary: DailySummary) -> some View {
LazyVGrid(columns: [
GridItem(.flexible()),
GridItem(.flexible())
], spacing: 16) {
ForEach(HealthDataType.allCases) { dataType in
if let value = summary.values[dataType], value > 0 {
HealthMetricCard(
dataType: dataType,
value: summary.formattedValue(for: dataType),
conflictCount: summary.conflictCounts[dataType] ?? 0
)
}
}
}
}
// MARK: - Pending Conflicts Card
private var pendingConflictsCard: some View {
Button {
appState.selectedTab = .conflicts
} label: {
HStack {
Image(systemName: "exclamationmark.triangle.fill")
.foregroundStyle(.orange)
VStack(alignment: .leading) {
Text("\(syncCoordinator.pendingConflicts.count) Konflikte zu prüfen")
.font(.headline)
Text("Tippen zum Anzeigen")
.font(.caption)
.foregroundStyle(.secondary)
}
Spacer()
Image(systemName: "chevron.right")
.foregroundStyle(.secondary)
}
.padding()
.background(Color.orange.opacity(0.1))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
.buttonStyle(.plain)
}
// MARK: - Recent Sync History
private var recentSyncHistory: some View {
VStack(alignment: .leading, spacing: 12) {
Text("Letzte Synchronisierungen")
.font(.headline)
ForEach(syncCoordinator.syncHistory.prefix(5)) { result in
SyncHistoryRow(result: result)
}
if syncCoordinator.syncHistory.isEmpty {
Text("Keine Synchronisierungen")
.font(.subheadline)
.foregroundStyle(.secondary)
.frame(maxWidth: .infinity)
.padding()
}
}
.padding()
.background(Color(.systemBackground))
.clipShape(RoundedRectangle(cornerRadius: 16))
.shadow(color: .black.opacity(0.05), radius: 8, y: 4)
}
// MARK: - Loading & Empty States
private var loadingView: some View {
VStack(spacing: 12) {
ProgressView()
Text("Lade Daten...")
.font(.subheadline)
.foregroundStyle(.secondary)
}
.frame(maxWidth: .infinity)
.padding(.vertical, 40)
}
private var emptyStateView: some View {
VStack(spacing: 12) {
Image(systemName: "heart.text.square")
.font(.system(size: 48))
.foregroundStyle(.secondary)
Text("Keine Daten verfügbar")
.font(.headline)
Text("Synchronisieren Sie, um Daten zu laden")
.font(.subheadline)
.foregroundStyle(.secondary)
}
.frame(maxWidth: .infinity)
.padding(.vertical, 40)
}
// MARK: - Actions
private func loadData() async {
isLoading = true
defer { isLoading = false }
do {
dailySummary = try await dataReader.fetchDailySummary(for: selectedDate)
} catch {
print("Failed to load data: \(error)")
}
}
private func performSync() async {
do {
try await syncCoordinator.performSync(for: selectedDate)
await loadData()
} catch {
print("Sync failed: \(error)")
}
}
}
// MARK: - Supporting Views
struct StatItem: View {
let value: String
let label: String
let icon: String
var body: some View {
VStack(spacing: 4) {
Image(systemName: icon)
.font(.caption)
.foregroundStyle(.secondary)
Text(value)
.font(.title3)
.fontWeight(.semibold)
Text(label)
.font(.caption2)
.foregroundStyle(.secondary)
}
.frame(maxWidth: .infinity)
}
}
struct HealthMetricCard: View {
let dataType: HealthDataType
let value: String
let conflictCount: Int
var body: some View {
VStack(alignment: .leading, spacing: 8) {
HStack {
Image(systemName: dataType.icon)
.foregroundStyle(.blue)
Spacer()
if conflictCount > 0 {
Text("\(conflictCount)")
.font(.caption2)
.padding(.horizontal, 6)
.padding(.vertical, 2)
.background(Color.orange.opacity(0.2))
.clipShape(Capsule())
}
}
Text(value)
.font(.title2)
.fontWeight(.semibold)
Text(dataType.displayName)
.font(.caption)
.foregroundStyle(.secondary)
}
.padding()
.background(Color(.systemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
.shadow(color: .black.opacity(0.05), radius: 4, y: 2)
}
}
struct SyncHistoryRow: View {
let result: SyncResult
var body: some View {
HStack {
Image(systemName: statusIcon)
.foregroundStyle(statusColor)
VStack(alignment: .leading, spacing: 2) {
Text(formattedDate)
.font(.subheadline)
Text("\(result.autoResolved)/\(result.totalConflicts) gelöst")
.font(.caption)
.foregroundStyle(.secondary)
}
Spacer()
Text(result.formattedDuration)
.font(.caption)
.foregroundStyle(.secondary)
}
.padding(.vertical, 4)
}
private var statusIcon: String {
switch result.status {
case .success: return "checkmark.circle.fill"
case .partialSuccess: return "exclamationmark.circle.fill"
case .failed: return "xmark.circle.fill"
case .inProgress: return "arrow.clockwise"
}
}
private var statusColor: Color {
switch result.status {
case .success: return .green
case .partialSuccess: return .orange
case .failed: return .red
case .inProgress: return .blue
}
}
private var formattedDate: String {
let formatter = DateFormatter()
formatter.dateStyle = .short
formatter.timeStyle = .short
return formatter.string(from: result.startedAt)
}
}
#Preview {
DashboardView()
.environmentObject(AppState())
.environmentObject(SyncCoordinator.shared)
}
+252
View File
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import SwiftUI
struct RulesView: View {
@StateObject private var ruleEngine = RuleEngine.shared
@StateObject private var sourceManager = SourceManager.shared
@State private var selectedDataType: HealthDataType?
@State private var showingResetConfirmation = false
var body: some View {
NavigationStack {
List {
Section {
Text("Regeln bestimmen, wie Konflikte zwischen verschiedenen Datenquellen automatisch gelöst werden.")
.font(.caption)
.foregroundStyle(.secondary)
}
ForEach(HealthDataType.allCases) { dataType in
RuleRow(
dataType: dataType,
rule: ruleEngine.getRule(for: dataType)
)
.contentShape(Rectangle())
.onTapGesture {
selectedDataType = dataType
}
}
}
.listStyle(.insetGrouped)
.navigationTitle("Regeln")
.toolbar {
ToolbarItem(placement: .topBarTrailing) {
Menu {
Button("Alle zurücksetzen", role: .destructive) {
showingResetConfirmation = true
}
} label: {
Image(systemName: "ellipsis.circle")
}
}
}
.sheet(item: $selectedDataType) { dataType in
RuleEditorView(dataType: dataType)
}
.confirmationDialog(
"Alle Regeln zurücksetzen?",
isPresented: $showingResetConfirmation,
titleVisibility: .visible
) {
Button("Zurücksetzen", role: .destructive) {
ruleEngine.resetAllToDefaults()
}
Button("Abbrechen", role: .cancel) {}
} message: {
Text("Alle Regeln werden auf die Standardwerte zurückgesetzt.")
}
}
}
}
// MARK: - Rule Row
struct RuleRow: View {
let dataType: HealthDataType
let rule: MergeRule
var body: some View {
HStack {
Image(systemName: dataType.icon)
.foregroundStyle(.blue)
.frame(width: 30)
VStack(alignment: .leading, spacing: 4) {
Text(dataType.displayName)
.font(.headline)
HStack(spacing: 8) {
Image(systemName: rule.strategy.icon)
.font(.caption)
Text(rule.strategy.displayName)
.font(.caption)
}
.foregroundStyle(.secondary)
}
Spacer()
if !rule.autoApply {
Image(systemName: "hand.raised.fill")
.foregroundStyle(.orange)
.font(.caption)
}
Image(systemName: "chevron.right")
.font(.caption)
.foregroundStyle(.secondary)
}
.padding(.vertical, 4)
}
}
// MARK: - Rule Editor View
struct RuleEditorView: View {
let dataType: HealthDataType
@Environment(\.dismiss) private var dismiss
@StateObject private var ruleEngine = RuleEngine.shared
@StateObject private var sourceManager = SourceManager.shared
@State private var selectedStrategy: MergeStrategy
@State private var autoApply: Bool
@State private var primarySourceId: String?
@State private var thresholdForManualReview: Double?
@State private var useThreshold: Bool
init(dataType: HealthDataType) {
self.dataType = dataType
let rule = RuleEngine.shared.getRule(for: dataType)
_selectedStrategy = State(initialValue: rule.strategy)
_autoApply = State(initialValue: rule.autoApply)
_primarySourceId = State(initialValue: rule.primarySourceId)
_thresholdForManualReview = State(initialValue: rule.thresholdForManualReview)
_useThreshold = State(initialValue: rule.thresholdForManualReview != nil)
}
var body: some View {
NavigationStack {
Form {
// Data Type Info
Section {
HStack {
Image(systemName: dataType.icon)
.font(.title2)
.foregroundStyle(.blue)
VStack(alignment: .leading) {
Text(dataType.displayName)
.font(.headline)
Text(dataType.unit)
.font(.caption)
.foregroundStyle(.secondary)
}
}
}
// Strategy Selection
Section("Strategie") {
Picker("Merge-Strategie", selection: $selectedStrategy) {
ForEach(MergeStrategy.allCases) { strategy in
Label(strategy.displayName, systemImage: strategy.icon)
.tag(strategy)
}
}
.pickerStyle(.navigationLink)
Text(selectedStrategy.description)
.font(.caption)
.foregroundStyle(.secondary)
}
// Primary Source (for exclusive/priority)
if selectedStrategy == .exclusive || selectedStrategy == .priority {
Section("Primäre Quelle") {
let sources = sourceManager.sources.filter {
$0.supportedDataTypes.contains(dataType)
}
if sources.isEmpty {
Text("Keine Quellen für diesen Datentyp")
.foregroundStyle(.secondary)
} else {
Picker("Quelle", selection: $primarySourceId) {
Text("Automatisch").tag(nil as String?)
ForEach(sources) { source in
Text(source.displayName).tag(source.bundleIdentifier as String?)
}
}
}
}
}
// Auto Apply
Section("Automatisierung") {
Toggle("Automatisch anwenden", isOn: $autoApply)
if autoApply {
Toggle("Schwellenwert für manuelle Prüfung", isOn: $useThreshold)
if useThreshold {
VStack(alignment: .leading) {
Text("Bei Differenz über \(Int(thresholdForManualReview ?? 20))% nachfragen")
.font(.caption)
.foregroundStyle(.secondary)
Slider(
value: Binding(
get: { thresholdForManualReview ?? 20 },
set: { thresholdForManualReview = $0 }
),
in: 5...50,
step: 5
)
}
}
}
}
// Reset
Section {
Button("Auf Standard zurücksetzen", role: .destructive) {
let defaultRule = MergeRule.defaultRule(for: dataType)
selectedStrategy = defaultRule.strategy
autoApply = defaultRule.autoApply
primarySourceId = defaultRule.primarySourceId
thresholdForManualReview = defaultRule.thresholdForManualReview
useThreshold = defaultRule.thresholdForManualReview != nil
}
}
}
.navigationTitle("Regel bearbeiten")
.navigationBarTitleDisplayMode(.inline)
.toolbar {
ToolbarItem(placement: .cancellationAction) {
Button("Abbrechen") {
dismiss()
}
}
ToolbarItem(placement: .confirmationAction) {
Button("Speichern") {
saveRule()
dismiss()
}
}
}
}
}
private func saveRule() {
let rule = MergeRule(
dataType: dataType,
strategy: selectedStrategy,
primarySourceId: primarySourceId,
autoApply: autoApply,
thresholdForManualReview: useThreshold ? thresholdForManualReview : nil
)
ruleEngine.setRule(rule, for: dataType)
}
}
#Preview {
RulesView()
}
+218
View File
@@ -0,0 +1,218 @@
import SwiftUI
struct SettingsView: View {
@AppStorage("backgroundSyncEnabled") private var backgroundSyncEnabled = true
@AppStorage("syncIntervalMinutes") private var syncIntervalMinutes = 15
@AppStorage("notificationsEnabled") private var notificationsEnabled = true
@AppStorage("notifyOnConflict") private var notifyOnConflict = true
@AppStorage("notifyOnSyncComplete") private var notifyOnSyncComplete = false
@AppStorage("autoResolveMinorConflicts") private var autoResolveMinorConflicts = true
@StateObject private var syncCoordinator = SyncCoordinator.shared
@StateObject private var healthKitManager = HealthKitManager.shared
@State private var showingClearDataConfirmation = false
@State private var showingExportSheet = false
var body: some View {
NavigationStack {
Form {
// Sync Settings
Section("Synchronisierung") {
Toggle("Hintergrund-Sync", isOn: $backgroundSyncEnabled)
if backgroundSyncEnabled {
Picker("Intervall", selection: $syncIntervalMinutes) {
Text("15 Minuten").tag(15)
Text("30 Minuten").tag(30)
Text("1 Stunde").tag(60)
Text("2 Stunden").tag(120)
}
}
Toggle("Kleine Konflikte automatisch lösen", isOn: $autoResolveMinorConflicts)
}
// Notification Settings
Section("Benachrichtigungen") {
Toggle("Benachrichtigungen aktivieren", isOn: $notificationsEnabled)
if notificationsEnabled {
Toggle("Bei neuen Konflikten", isOn: $notifyOnConflict)
Toggle("Nach Synchronisierung", isOn: $notifyOnSyncComplete)
}
}
// Health Status
Section("HealthKit Status") {
HStack {
Text("Autorisierung")
Spacer()
if healthKitManager.isAuthorized {
Label("Erteilt", systemImage: "checkmark.circle.fill")
.foregroundStyle(.green)
} else {
Label("Ausstehend", systemImage: "exclamationmark.circle")
.foregroundStyle(.orange)
}
}
if !healthKitManager.isAuthorized {
Button("HealthKit-Zugriff anfordern") {
Task {
try? await healthKitManager.requestAuthorization()
}
}
}
}
// Statistics
Section("Statistiken") {
StatRow(label: "Syncs heute", value: "\(syncCoordinator.todayStats.syncCount)")
StatRow(label: "Konflikte heute", value: "\(syncCoordinator.todayStats.totalConflicts)")
StatRow(label: "Automatisch gelöst", value: "\(syncCoordinator.todayStats.autoResolved)")
StatRow(label: "Auflösungsrate", value: "\(Int(syncCoordinator.todayStats.resolutionRate * 100))%")
}
// Data Management
Section("Daten") {
Button("Sync-Verlauf exportieren") {
showingExportSheet = true
}
Button("Sync-Verlauf löschen", role: .destructive) {
showingClearDataConfirmation = true
}
}
// About
Section("Info") {
HStack {
Text("Version")
Spacer()
Text("1.0.0")
.foregroundStyle(.secondary)
}
Link(destination: URL(string: "https://apple.com/health")!) {
HStack {
Text("Apple Health")
Spacer()
Image(systemName: "arrow.up.right.square")
.foregroundStyle(.secondary)
}
}
}
}
.navigationTitle("Einstellungen")
.confirmationDialog(
"Sync-Verlauf löschen?",
isPresented: $showingClearDataConfirmation,
titleVisibility: .visible
) {
Button("Löschen", role: .destructive) {
syncCoordinator.clearHistory()
}
Button("Abbrechen", role: .cancel) {}
} message: {
Text("Der gesamte Sync-Verlauf wird gelöscht. Dies kann nicht rückgängig gemacht werden.")
}
.sheet(isPresented: $showingExportSheet) {
ExportView()
}
}
}
}
// MARK: - Stat Row
struct StatRow: View {
let label: String
let value: String
var body: some View {
HStack {
Text(label)
Spacer()
Text(value)
.foregroundStyle(.secondary)
}
}
}
// MARK: - Export View
struct ExportView: View {
@Environment(\.dismiss) private var dismiss
@StateObject private var syncCoordinator = SyncCoordinator.shared
@State private var exportFormat: ExportFormat = .json
@State private var isExporting = false
enum ExportFormat: String, CaseIterable {
case json = "JSON"
case csv = "CSV"
}
var body: some View {
NavigationStack {
VStack(spacing: 20) {
Image(systemName: "square.and.arrow.up")
.font(.system(size: 48))
.foregroundStyle(.blue)
Text("Daten exportieren")
.font(.title2)
.fontWeight(.semibold)
Picker("Format", selection: $exportFormat) {
ForEach(ExportFormat.allCases, id: \.self) { format in
Text(format.rawValue).tag(format)
}
}
.pickerStyle(.segmented)
.padding(.horizontal)
Text("\(syncCoordinator.syncHistory.count) Sync-Einträge")
.font(.subheadline)
.foregroundStyle(.secondary)
Spacer()
Button {
exportData()
} label: {
Label("Exportieren", systemImage: "square.and.arrow.up")
.frame(maxWidth: .infinity)
}
.buttonStyle(.borderedProminent)
.padding()
.disabled(isExporting || syncCoordinator.syncHistory.isEmpty)
}
.padding()
.navigationTitle("Export")
.navigationBarTitleDisplayMode(.inline)
.toolbar {
ToolbarItem(placement: .cancellationAction) {
Button("Abbrechen") {
dismiss()
}
}
}
}
}
private func exportData() {
isExporting = true
// In a real app, this would create and share a file
DispatchQueue.main.asyncAfter(deadline: .now() + 1) {
isExporting = false
dismiss()
}
}
}
#Preview {
SettingsView()
}
+407
View File
@@ -0,0 +1,407 @@
import SwiftUI
struct SourcesView: View {
@StateObject private var sourceManager = SourceManager.shared
@State private var selectedSource: HealthSource?
@State private var isRefreshing = false
var body: some View {
NavigationStack {
Group {
if sourceManager.sources.isEmpty && !sourceManager.isDiscovering {
emptyState
} else {
sourcesList
}
}
.navigationTitle("Quellen")
.toolbar {
ToolbarItem(placement: .topBarTrailing) {
Button {
Task { await refreshSources() }
} label: {
if isRefreshing {
ProgressView()
.scaleEffect(0.8)
} else {
Image(systemName: "arrow.clockwise")
}
}
.disabled(isRefreshing)
}
}
.sheet(item: $selectedSource) { source in
SourceDetailView(source: source)
}
.task {
if sourceManager.sources.isEmpty {
await refreshSources()
}
}
}
}
// MARK: - Empty State
private var emptyState: some View {
VStack(spacing: 16) {
Image(systemName: "antenna.radiowaves.left.and.right")
.font(.system(size: 64))
.foregroundStyle(.secondary)
Text("Keine Quellen gefunden")
.font(.title2)
.fontWeight(.semibold)
Text("Verbinden Sie Geräte mit Apple Health")
.font(.subheadline)
.foregroundStyle(.secondary)
.multilineTextAlignment(.center)
Button {
Task { await refreshSources() }
} label: {
Label("Aktualisieren", systemImage: "arrow.clockwise")
}
.buttonStyle(.bordered)
}
.padding()
}
// MARK: - Sources List
private var sourcesList: some View {
List {
ForEach(groupedSources.keys.sorted(by: { $0.priority > $1.priority }), id: \.self) { category in
Section(category.displayName) {
ForEach(groupedSources[category] ?? []) { source in
SourceRow(source: source)
.contentShape(Rectangle())
.onTapGesture {
selectedSource = source
}
}
}
}
}
.listStyle(.insetGrouped)
.refreshable {
await refreshSources()
}
}
private var groupedSources: [SourceCategory: [HealthSource]] {
Dictionary(grouping: sourceManager.sources, by: { $0.category })
}
private func refreshSources() async {
isRefreshing = true
defer { isRefreshing = false }
await sourceManager.discoverSources()
}
}
// MARK: - Source Row
struct SourceRow: View {
let source: HealthSource
@StateObject private var sourceManager = SourceManager.shared
var body: some View {
HStack {
Image(systemName: source.category.icon)
.font(.title2)
.foregroundStyle(.blue)
.frame(width: 40)
VStack(alignment: .leading, spacing: 4) {
Text(source.displayName)
.font(.headline)
Text("\(source.supportedDataTypes.count) Datentypen")
.font(.caption)
.foregroundStyle(.secondary)
}
Spacer()
if let status = sourceManager.sourceHealthStatus[source.id] {
Image(systemName: status.syncStatus.icon)
.foregroundStyle(statusColor(for: status.syncStatus))
}
Image(systemName: "chevron.right")
.font(.caption)
.foregroundStyle(.secondary)
}
.padding(.vertical, 4)
}
private func statusColor(for status: SourceHealthStatus.SyncStatus) -> Color {
switch status {
case .recentlySynced: return .green
case .syncedToday: return .blue
case .stale: return .orange
case .veryStale, .neverSynced: return .red
}
}
}
// MARK: - Source Detail View
struct SourceDetailView: View {
let source: HealthSource
@Environment(\.dismiss) private var dismiss
@StateObject private var sourceManager = SourceManager.shared
@State private var healthReport: SourceHealthReport?
@State private var isLoading = false
var body: some View {
NavigationStack {
ScrollView {
VStack(spacing: 20) {
// Header
headerSection
// Capabilities
capabilitiesSection
// Data Types
dataTypesSection
// Health Report
if let report = healthReport {
healthReportSection(report)
}
// Priority Settings
prioritySection
}
.padding()
}
.navigationTitle(source.displayName)
.navigationBarTitleDisplayMode(.inline)
.toolbar {
ToolbarItem(placement: .confirmationAction) {
Button("Fertig") {
dismiss()
}
}
}
.task {
await loadHealthReport()
}
}
}
// MARK: - Header
private var headerSection: some View {
VStack(spacing: 12) {
Image(systemName: source.category.icon)
.font(.system(size: 48))
.foregroundStyle(.blue)
Text(source.displayName)
.font(.title2)
.fontWeight(.semibold)
Text(source.category.displayName)
.font(.subheadline)
.foregroundStyle(.secondary)
Text(source.bundleIdentifier)
.font(.caption)
.foregroundStyle(.secondary)
.textSelection(.enabled)
}
.padding()
}
// MARK: - Capabilities
private var capabilitiesSection: some View {
let capabilities = sourceManager.getSourceCapabilities(source)
return VStack(alignment: .leading, spacing: 12) {
Text("Fähigkeiten")
.font(.headline)
LazyVGrid(columns: [GridItem(.adaptive(minimum: 100))], spacing: 8) {
CapabilityBadge(name: "Schritte", available: capabilities.canMeasureSteps)
CapabilityBadge(name: "Herzfrequenz", available: capabilities.canMeasureHeartRate)
CapabilityBadge(name: "Blutdruck", available: capabilities.canMeasureBloodPressure)
CapabilityBadge(name: "SpO2", available: capabilities.canMeasureBloodOxygen)
CapabilityBadge(name: "Schlaf", available: capabilities.canMeasureSleep)
CapabilityBadge(name: "GPS", available: capabilities.hasGPS)
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
// MARK: - Data Types
private var dataTypesSection: some View {
VStack(alignment: .leading, spacing: 12) {
Text("Unterstützte Datentypen")
.font(.headline)
ForEach(Array(source.supportedDataTypes).sorted(by: { $0.displayName < $1.displayName }), id: \.self) { dataType in
HStack {
Image(systemName: dataType.icon)
.foregroundStyle(.blue)
.frame(width: 24)
Text(dataType.displayName)
Spacer()
Text(dataType.unit)
.font(.caption)
.foregroundStyle(.secondary)
}
.padding(.vertical, 4)
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
// MARK: - Health Report
private func healthReportSection(_ report: SourceHealthReport) -> some View {
VStack(alignment: .leading, spacing: 12) {
Text("Zustand")
.font(.headline)
HStack {
VStack(alignment: .leading) {
Text("Datensätze (24h)")
.font(.caption)
.foregroundStyle(.secondary)
Text("\(report.totalRecordCount)")
.font(.title3)
.fontWeight(.medium)
}
Spacer()
VStack(alignment: .trailing) {
Text("Qualität")
.font(.caption)
.foregroundStyle(.secondary)
Image(systemName: report.overallQuality.icon)
.font(.title3)
.foregroundStyle(qualityColor(report.overallQuality))
}
}
if let lastActivity = report.lastOverallActivity {
HStack {
Text("Letzte Aktivität")
.font(.caption)
.foregroundStyle(.secondary)
Spacer()
Text(formattedDate(lastActivity))
.font(.subheadline)
}
}
if report.hasSignificantGaps {
HStack {
Image(systemName: "exclamationmark.triangle.fill")
.foregroundStyle(.orange)
Text("Datenlücken erkannt")
.font(.subheadline)
}
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
// MARK: - Priority Section
private var prioritySection: some View {
VStack(alignment: .leading, spacing: 12) {
Text("Priorität")
.font(.headline)
Text("Höhere Priorität bedeutet, dass Daten dieser Quelle bevorzugt werden")
.font(.caption)
.foregroundStyle(.secondary)
ForEach(Array(source.supportedDataTypes).sorted(by: { $0.displayName < $1.displayName }), id: \.self) { dataType in
HStack {
Text(dataType.displayName)
Spacer()
Stepper(
"\(sourceManager.getPriority(for: source, dataType: dataType))",
value: Binding(
get: { sourceManager.getPriority(for: source, dataType: dataType) },
set: { sourceManager.setPriority($0, for: source, dataType: dataType) }
),
in: 0...100,
step: 10
)
.frame(width: 150)
}
.padding(.vertical, 4)
}
}
.padding()
.background(Color(.secondarySystemBackground))
.clipShape(RoundedRectangle(cornerRadius: 12))
}
// MARK: - Helpers
private func loadHealthReport() async {
isLoading = true
defer { isLoading = false }
healthReport = await sourceManager.getSourceHealth(source)
}
private func qualityColor(_ quality: DataQuality) -> Color {
switch quality {
case .complete: return .green
case .partial: return .yellow
case .missing: return .gray
case .invalid: return .red
}
}
private func formattedDate(_ date: Date) -> String {
let formatter = RelativeDateTimeFormatter()
formatter.unitsStyle = .abbreviated
return formatter.localizedString(for: date, relativeTo: Date())
}
}
// MARK: - Capability Badge
struct CapabilityBadge: View {
let name: String
let available: Bool
var body: some View {
HStack(spacing: 4) {
Image(systemName: available ? "checkmark.circle.fill" : "xmark.circle")
.foregroundStyle(available ? .green : .secondary)
Text(name)
.font(.caption)
.foregroundStyle(available ? .primary : .secondary)
}
.padding(.horizontal, 8)
.padding(.vertical, 4)
.background(available ? Color.green.opacity(0.1) : Color.gray.opacity(0.1))
.clipShape(Capsule())
}
}
#Preview {
SourcesView()
}
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__pycache__/
*.pyc
*.pyo
.dctp_backups/
.dctp_settings.json
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# DCTP - Delta Code Transfer Protocol
Du generierst Code im DCTP-Format fuer effiziente Uebertragung.
## Regeln
1. **Zeilennummern am Ende jeder Zeile** im passenden Kommentar-Format
2. **Immer mit ###FILE: beginnen** bei jedem Codeblock
3. **Bei Korrekturen NUR die geaenderten Zeilen senden**, nie den ganzen File
## Zeilennummern-Format
- Python/Shell: `code #Z1`
- JavaScript/Java/C/C++: `code //Z1`
- HTML: `code <!--Z1-->`
- CSS: `code /*Z1*/`
- SQL: `code --Z1`
## Befehle
| Befehl | Syntax | Beschreibung |
|--------|--------|--------------|
| `###FILE:` | `###FILE:pfad/datei.ext` | Datei angeben |
| `###NEW` | | Neue Datei, kompletter Inhalt folgt |
| `###DELETE:` | `###DELETE:Z5-Z12` | Zeilen 5-12 loeschen |
| `###INSERT_AFTER:` | `###INSERT_AFTER:Z5` | Nach Zeile 5 einfuegen |
| `###REPLACE:` | `###REPLACE:Z5-Z8` | Zeilen 5-8 ersetzen |
| `###END` | | Ende des Blocks |
| `###RENUMBER` | | Zeilennummern neu berechnen |
| `###CHECKSUM:` | `###CHECKSUM:a3f2b8c1` | Optional: Hash zur Validierung |
## Beispiel: Neue Datei
```
###FILE:src/calculator.py
###NEW
def add(a, b): #Z1
return a + b #Z2
#Z3
def multiply(a, b): #Z4
return a * b #Z5
###END
```
## Beispiel: Korrektur (REPLACE)
```
###FILE:src/calculator.py
###REPLACE:Z4-Z5
def multiply(a, b): #Z4
"""Multipliziert zwei Zahlen.""" #Z5
return a * b #Z6
###END
###RENUMBER
```
## Beispiel: Zeilen einfuegen
```
###FILE:src/calculator.py
###INSERT_AFTER:Z2
#Z3
def subtract(a, b): #Z4
return a - b #Z5
###END
###RENUMBER
```
## Beispiel: Zeilen loeschen
```
###FILE:src/calculator.py
###DELETE:Z10-Z15
###RENUMBER
```
## Beispiel: Mehrere Dateien
```
###FILE:src/models/user.py
###NEW
class User: #Z1
def __init__(self, name: str): #Z2
self.name = name #Z3
###END
###FILE:src/models/order.py
###NEW
from .user import User #Z1
#Z2
class Order: #Z3
def __init__(self, user: User): #Z4
self.user = user #Z5
###END
```
## Wichtig
- Bei Korrekturen: NUR Delta senden, nie kompletten File
- Nach INSERT/DELETE/REPLACE immer ###RENUMBER
- Leerzeilen auch nummerieren
- Zeilennummern werden beim Schreiben automatisch entfernt
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# DCTP - Delta Code Transfer Protocol
Ein Tool um KI-generierten Code effizient in lokale Dateien zu uebertragen. Statt bei jeder Korrektur den kompletten Code neu zu senden, werden nur Aenderungen (Deltas) uebertragen.
## Das Problem
Claude generiert 500 Zeilen Code. Eine kleine Korrektur = nochmal 500 Zeilen. Verschwendung.
## Die Loesung
Zeilennummerierter Code + Steueranweisungen fuer gezielte Aenderungen.
## Installation
```bash
# Requirements installieren
pip install -r requirements.txt
# GUI starten
python dctp_gui.py
```
## Schnellstart
### 1. Projektverzeichnis waehlen
Klicke auf "Waehlen" und waehle dein Projektverzeichnis.
### 2. KI-Output einfuegen
Kopiere den DCTP-formatierten Output aus deinem Claude-Chat in das Input-Feld.
### 3. Analysieren
Klicke "Analysieren" um eine Vorschau der Operationen zu sehen.
### 4. Ausfuehren
Klicke "Ausfuehren" um die Aenderungen auf deine Dateien anzuwenden.
## DCTP-Format
### Neue Datei erstellen
```
###FILE:src/calculator.py
###NEW
def add(a, b): #Z1
return a + b #Z2
###END
```
### Zeilen ersetzen
```
###FILE:src/calculator.py
###REPLACE:Z1-Z2
def add(a: int, b: int) -> int: #Z1
"""Addiert zwei Zahlen.""" #Z2
return a + b #Z3
###END
###RENUMBER
```
### Zeilen einfuegen
```
###FILE:src/calculator.py
###INSERT_AFTER:Z2
#Z3
def subtract(a, b): #Z4
return a - b #Z5
###END
###RENUMBER
```
### Zeilen loeschen
```
###FILE:src/calculator.py
###DELETE:Z10-Z15
###RENUMBER
```
## Zeilennummern-Format
Die Zeilennummern werden automatisch entsprechend der Programmiersprache formatiert:
| Sprache | Format | Beispiel |
|---------|--------|----------|
| Python | `#Z1` | `code #Z1` |
| JavaScript | `//Z1` | `code //Z1` |
| HTML | `<!--Z1-->` | `code <!--Z1-->` |
| CSS | `/*Z1*/` | `code /*Z1*/` |
| SQL | `--Z1` | `code --Z1` |
## Befehle
| Befehl | Beschreibung |
|--------|--------------|
| `###FILE:pfad` | Zieldatei angeben |
| `###NEW` | Neue Datei erstellen |
| `###DELETE:Z5-Z12` | Zeilen loeschen |
| `###INSERT_AFTER:Z5` | Nach Zeile einfuegen |
| `###REPLACE:Z5-Z8` | Zeilen ersetzen |
| `###END` | Block beenden |
| `###RENUMBER` | Zeilennummern aktualisieren |
| `###CHECKSUM:hash` | Datei-Hash validieren |
## Features
- **Vorschau**: Zeigt was passieren wird, bevor es ausgefuehrt wird
- **Diff-Ansicht**: Zeigt Aenderungen farbig markiert (alt vs neu)
- **Undo**: Stellt den letzten Zustand wieder her
- **Backup**: Automatische Backups vor jeder Aenderung
- **Multi-File**: Mehrere Dateien in einem Durchgang bearbeiten
- **Checksum**: Optionale Validierung gegen externe Aenderungen
## Einstellungen
- **Projektpfad**: Standard-Projektverzeichnis
- **Backup-Verzeichnis**: Wo Backups gespeichert werden
- **Auto-Renumber**: Zeilennummern automatisch aktualisieren
- **Checksum-Validierung**: Externe Aenderungen erkennen
- **Theme**: Hell oder dunkel
## Claude-Integration
Kopiere den Inhalt von `CLAUDE.md` in deine Claude-Chats (als Custom Instructions oder am Anfang des Gespraechs), damit Claude im DCTP-Format antwortet.
## Architektur
```
dctp/
├── dctp_gui.py # Hauptfenster (CustomTkinter)
├── dctp_parser.py # Core-Logik: parse Steueranweisungen
├── dctp_executor.py # Fuehrt Operationen aus
├── dctp_backup.py # Undo/Backup-Verwaltung
├── dctp_diff.py # Diff-Berechnung fuer Vorschau
├── requirements.txt # Dependencies
├── CLAUDE.md # Anweisung fuer KI
└── README.md # Diese Datei
```
## Lizenz
MIT License
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"""
DCTP Backup Manager - Handles backup and undo functionality.
Creates timestamped backups before operations and supports
restoring files to their previous state.
"""
import json
import os
import shutil
from dataclasses import dataclass, asdict
from datetime import datetime
from pathlib import Path
from typing import Optional
@dataclass
class FileBackup:
"""Represents a single file backup."""
original: str
backup: str
existed: bool # Whether the file existed before (for new file handling)
@dataclass
class BackupSession:
"""Represents a backup session (one execution run)."""
timestamp: str
files: list[FileBackup]
@dataclass
class BackupInfo:
"""Info about a backup for display purposes."""
timestamp: str
file_count: int
files: list[str]
class BackupManager:
"""Manages file backups for undo functionality."""
BACKUP_DIR_NAME = ".dctp_backups"
MANIFEST_FILE = "manifest.json"
MAX_SESSIONS = 50 # Keep last 50 sessions
def __init__(self, project_path: str):
"""
Initialize backup manager.
Args:
project_path: Base project directory
"""
self.project_path = Path(project_path)
self.backup_dir = self.project_path / self.BACKUP_DIR_NAME
self.manifest_path = self.backup_dir / self.MANIFEST_FILE
self._current_session: Optional[BackupSession] = None
self._ensure_backup_dir()
def _ensure_backup_dir(self) -> None:
"""Create backup directory if it doesn't exist."""
self.backup_dir.mkdir(parents=True, exist_ok=True)
# Create .gitignore in backup dir
gitignore_path = self.backup_dir / ".gitignore"
if not gitignore_path.exists():
gitignore_path.write_text("*\n")
def _load_manifest(self) -> dict:
"""Load the manifest file."""
if self.manifest_path.exists():
try:
return json.loads(self.manifest_path.read_text())
except (json.JSONDecodeError, IOError):
return {"sessions": []}
return {"sessions": []}
def _save_manifest(self, manifest: dict) -> None:
"""Save the manifest file."""
self.manifest_path.write_text(json.dumps(manifest, indent=2))
def start_session(self) -> None:
"""Start a new backup session."""
timestamp = datetime.now().strftime("%Y-%m-%dT%H:%M:%S")
self._current_session = BackupSession(timestamp=timestamp, files=[])
def backup(self, file_path: str) -> Optional[str]:
"""
Create a backup of a file.
Args:
file_path: Path to the file (relative to project or absolute)
Returns:
Backup filename if successful, None if file doesn't exist
"""
if self._current_session is None:
self.start_session()
# Normalize path
if os.path.isabs(file_path):
full_path = Path(file_path)
rel_path = full_path.relative_to(self.project_path)
else:
rel_path = Path(file_path)
full_path = self.project_path / rel_path
# Check if file exists
existed = full_path.exists()
if existed:
# Generate backup filename
timestamp = datetime.now().strftime("%Y-%m-%d_%H%M%S")
safe_name = str(rel_path).replace(os.sep, "_").replace("/", "_")
backup_name = f"{timestamp}_{safe_name}"
# Copy file to backup
backup_path = self.backup_dir / backup_name
shutil.copy2(full_path, backup_path)
else:
backup_name = ""
# Add to current session
self._current_session.files.append(FileBackup(
original=str(rel_path),
backup=backup_name,
existed=existed
))
return backup_name if existed else None
def end_session(self) -> None:
"""End the current backup session and save to manifest."""
if self._current_session is None or len(self._current_session.files) == 0:
self._current_session = None
return
manifest = self._load_manifest()
# Convert to dict for JSON storage
session_dict = {
"timestamp": self._current_session.timestamp,
"files": [asdict(f) for f in self._current_session.files]
}
manifest["sessions"].append(session_dict)
# Limit number of sessions
if len(manifest["sessions"]) > self.MAX_SESSIONS:
# Remove old sessions and their backup files
old_sessions = manifest["sessions"][:-self.MAX_SESSIONS]
for session in old_sessions:
for file_info in session["files"]:
backup_file = self.backup_dir / file_info["backup"]
if backup_file.exists():
backup_file.unlink()
manifest["sessions"] = manifest["sessions"][-self.MAX_SESSIONS:]
self._save_manifest(manifest)
self._current_session = None
def restore_last(self) -> tuple[bool, list[str]]:
"""
Restore files from the last backup session.
Returns:
Tuple of (success, list of restored files)
"""
manifest = self._load_manifest()
if not manifest["sessions"]:
return False, []
# Get last session
last_session = manifest["sessions"].pop()
restored_files = []
for file_info in last_session["files"]:
original_path = self.project_path / file_info["original"]
if file_info["existed"]:
# Restore from backup
backup_path = self.backup_dir / file_info["backup"]
if backup_path.exists():
# Ensure parent directory exists
original_path.parent.mkdir(parents=True, exist_ok=True)
shutil.copy2(backup_path, original_path)
backup_path.unlink() # Remove backup file
restored_files.append(file_info["original"])
else:
# File was newly created, delete it
if original_path.exists():
original_path.unlink()
restored_files.append(f"{file_info['original']} (deleted)")
self._save_manifest(manifest)
return True, restored_files
def list_backups(self) -> list[BackupInfo]:
"""
List all backup sessions.
Returns:
List of BackupInfo objects, newest first
"""
manifest = self._load_manifest()
backups = []
for session in reversed(manifest["sessions"]):
files = [f["original"] for f in session["files"]]
backups.append(BackupInfo(
timestamp=session["timestamp"],
file_count=len(files),
files=files
))
return backups
def get_file_backup_path(self, file_path: str) -> Optional[Path]:
"""
Get the backup path for a file from the most recent session.
Args:
file_path: Original file path (relative to project)
Returns:
Path to backup file if found, None otherwise
"""
manifest = self._load_manifest()
if not manifest["sessions"]:
return None
# Search from newest to oldest
for session in reversed(manifest["sessions"]):
for file_info in session["files"]:
if file_info["original"] == file_path and file_info["existed"]:
backup_path = self.backup_dir / file_info["backup"]
if backup_path.exists():
return backup_path
return None
def clear_all_backups(self) -> int:
"""
Clear all backups.
Returns:
Number of backup files deleted
"""
count = 0
if self.backup_dir.exists():
for item in self.backup_dir.iterdir():
if item.name != ".gitignore":
if item.is_file():
item.unlink()
count += 1
elif item.is_dir():
shutil.rmtree(item)
count += 1
# Reset manifest
self._save_manifest({"sessions": []})
return count
def main():
"""Test the backup manager."""
import tempfile
# Create a temporary project directory
with tempfile.TemporaryDirectory() as tmpdir:
# Create some test files
test_file = Path(tmpdir) / "test.py"
test_file.write_text("print('hello')\n")
# Initialize backup manager
manager = BackupManager(tmpdir)
# Start a session and backup the file
manager.start_session()
backup_name = manager.backup("test.py")
print(f"Created backup: {backup_name}")
# Modify the file
test_file.write_text("print('modified')\n")
print(f"File content after modification: {test_file.read_text()}")
# End session
manager.end_session()
# List backups
backups = manager.list_backups()
print(f"Backup sessions: {len(backups)}")
for b in backups:
print(f" {b.timestamp}: {b.file_count} files")
# Restore
success, restored = manager.restore_last()
print(f"Restore successful: {success}")
print(f"Restored files: {restored}")
print(f"File content after restore: {test_file.read_text()}")
if __name__ == "__main__":
main()
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"""
DCTP Diff Generator - Generates diffs for preview display.
Compares old and new content and produces colored diff output
for the GUI preview.
"""
import difflib
from dataclasses import dataclass
from enum import Enum
from typing import Optional
class DiffType(Enum):
UNCHANGED = "unchanged"
ADDED = "added"
REMOVED = "removed"
CONTEXT = "context"
@dataclass
class DiffLine:
"""Represents a single line in a diff."""
type: DiffType
line_number_old: Optional[int] # Line number in old file
line_number_new: Optional[int] # Line number in new file
content: str
@property
def prefix(self) -> str:
"""Get the diff prefix character."""
if self.type == DiffType.ADDED:
return "+"
elif self.type == DiffType.REMOVED:
return "-"
else:
return " "
def __str__(self) -> str:
old_num = str(self.line_number_old) if self.line_number_old else ""
new_num = str(self.line_number_new) if self.line_number_new else ""
return f"{old_num:>4} {new_num:>4} {self.prefix} {self.content}"
@dataclass
class DiffBlock:
"""A block of related diff lines."""
start_old: int
end_old: int
start_new: int
end_new: int
lines: list[DiffLine]
@property
def header(self) -> str:
"""Generate a unified diff style header."""
return f"@@ -{self.start_old},{self.end_old - self.start_old + 1} +{self.start_new},{self.end_new - self.start_new + 1} @@"
@dataclass
class FileDiff:
"""Complete diff for a file."""
filename: str
old_content: list[str]
new_content: list[str]
blocks: list[DiffBlock]
lines: list[DiffLine]
@property
def has_changes(self) -> bool:
return any(line.type in (DiffType.ADDED, DiffType.REMOVED) for line in self.lines)
@property
def additions(self) -> int:
return sum(1 for line in self.lines if line.type == DiffType.ADDED)
@property
def deletions(self) -> int:
return sum(1 for line in self.lines if line.type == DiffType.REMOVED)
class DiffGenerator:
"""Generates diffs between old and new content."""
def __init__(self, context_lines: int = 3):
"""
Initialize diff generator.
Args:
context_lines: Number of context lines around changes
"""
self.context_lines = context_lines
def generate(
self,
old_lines: list[str],
new_lines: list[str],
filename: str = ""
) -> FileDiff:
"""
Generate a diff between old and new content.
Args:
old_lines: Original content lines
new_lines: New content lines
filename: Optional filename for display
Returns:
FileDiff object with all diff information
"""
diff_lines: list[DiffLine] = []
# Use difflib to compute differences
matcher = difflib.SequenceMatcher(None, old_lines, new_lines)
old_line_num = 1
new_line_num = 1
for tag, i1, i2, j1, j2 in matcher.get_opcodes():
if tag == 'equal':
for idx in range(i2 - i1):
diff_lines.append(DiffLine(
type=DiffType.UNCHANGED,
line_number_old=old_line_num,
line_number_new=new_line_num,
content=old_lines[i1 + idx]
))
old_line_num += 1
new_line_num += 1
elif tag == 'replace':
# Show removed lines first, then added
for idx in range(i2 - i1):
diff_lines.append(DiffLine(
type=DiffType.REMOVED,
line_number_old=old_line_num,
line_number_new=None,
content=old_lines[i1 + idx]
))
old_line_num += 1
for idx in range(j2 - j1):
diff_lines.append(DiffLine(
type=DiffType.ADDED,
line_number_old=None,
line_number_new=new_line_num,
content=new_lines[j1 + idx]
))
new_line_num += 1
elif tag == 'delete':
for idx in range(i2 - i1):
diff_lines.append(DiffLine(
type=DiffType.REMOVED,
line_number_old=old_line_num,
line_number_new=None,
content=old_lines[i1 + idx]
))
old_line_num += 1
elif tag == 'insert':
for idx in range(j2 - j1):
diff_lines.append(DiffLine(
type=DiffType.ADDED,
line_number_old=None,
line_number_new=new_line_num,
content=new_lines[j1 + idx]
))
new_line_num += 1
# Generate blocks with context
blocks = self._generate_blocks(diff_lines)
return FileDiff(
filename=filename,
old_content=old_lines,
new_content=new_lines,
blocks=blocks,
lines=diff_lines
)
def _generate_blocks(self, diff_lines: list[DiffLine]) -> list[DiffBlock]:
"""Generate diff blocks with context."""
if not diff_lines:
return []
blocks: list[DiffBlock] = []
current_block_lines: list[DiffLine] = []
in_change = False
unchanged_count = 0
for line in diff_lines:
is_change = line.type in (DiffType.ADDED, DiffType.REMOVED)
if is_change:
if not in_change:
# Starting a new change block, include context
in_change = True
unchanged_count = 0
current_block_lines.append(line)
else: # Unchanged line
if in_change:
unchanged_count += 1
if unchanged_count <= self.context_lines:
current_block_lines.append(line)
else:
# End current block and start fresh
if current_block_lines:
blocks.append(self._create_block(current_block_lines))
current_block_lines = []
in_change = False
unchanged_count = 0
else:
# Keep track of potential context lines
current_block_lines.append(line)
if len(current_block_lines) > self.context_lines:
current_block_lines.pop(0)
# Don't forget the last block
if current_block_lines and any(
l.type in (DiffType.ADDED, DiffType.REMOVED) for l in current_block_lines
):
blocks.append(self._create_block(current_block_lines))
return blocks
def _create_block(self, lines: list[DiffLine]) -> DiffBlock:
"""Create a DiffBlock from a list of lines."""
old_nums = [l.line_number_old for l in lines if l.line_number_old is not None]
new_nums = [l.line_number_new for l in lines if l.line_number_new is not None]
return DiffBlock(
start_old=min(old_nums) if old_nums else 0,
end_old=max(old_nums) if old_nums else 0,
start_new=min(new_nums) if new_nums else 0,
end_new=max(new_nums) if new_nums else 0,
lines=lines
)
def generate_unified_diff(
self,
old_lines: list[str],
new_lines: list[str],
old_filename: str = "a/file",
new_filename: str = "b/file"
) -> str:
"""
Generate a unified diff string.
Args:
old_lines: Original content lines
new_lines: New content lines
old_filename: Label for old file
new_filename: Label for new file
Returns:
Unified diff as string
"""
diff = difflib.unified_diff(
old_lines,
new_lines,
fromfile=old_filename,
tofile=new_filename,
lineterm=""
)
return "\n".join(diff)
def generate_side_by_side(
self,
old_lines: list[str],
new_lines: list[str],
width: int = 80
) -> list[tuple[str, str, str]]:
"""
Generate a side-by-side diff representation.
Args:
old_lines: Original content lines
new_lines: New content lines
width: Width for each column
Returns:
List of tuples (left_line, marker, right_line)
"""
result = []
half_width = (width - 3) // 2
matcher = difflib.SequenceMatcher(None, old_lines, new_lines)
for tag, i1, i2, j1, j2 in matcher.get_opcodes():
if tag == 'equal':
for idx in range(i2 - i1):
line = old_lines[i1 + idx][:half_width]
result.append((line, " ", line))
elif tag == 'replace':
max_len = max(i2 - i1, j2 - j1)
for idx in range(max_len):
old_line = old_lines[i1 + idx][:half_width] if idx < i2 - i1 else ""
new_line = new_lines[j1 + idx][:half_width] if idx < j2 - j1 else ""
result.append((old_line, "|", new_line))
elif tag == 'delete':
for idx in range(i2 - i1):
old_line = old_lines[i1 + idx][:half_width]
result.append((old_line, "<", ""))
elif tag == 'insert':
for idx in range(j2 - j1):
new_line = new_lines[j1 + idx][:half_width]
result.append(("", ">", new_line))
return result
def format_diff_for_display(diff: FileDiff, use_colors: bool = True) -> str:
"""
Format a FileDiff for terminal/GUI display.
Args:
diff: The FileDiff to format
use_colors: Whether to use ANSI colors
Returns:
Formatted string
"""
lines = []
if diff.filename:
lines.append(f"--- {diff.filename}")
lines.append(f"+++ {diff.filename}")
for line in diff.lines:
if use_colors:
if line.type == DiffType.ADDED:
prefix = "\033[32m+" # Green
suffix = "\033[0m"
elif line.type == DiffType.REMOVED:
prefix = "\033[31m-" # Red
suffix = "\033[0m"
else:
prefix = " "
suffix = ""
else:
prefix = line.prefix
suffix = ""
lines.append(f"{prefix} {line.content}{suffix}")
return "\n".join(lines)
def main():
"""Test the diff generator."""
old_content = [
"def calculate_tax(amount):",
" rate = 0.19",
" if amount > 1000:",
" rate = 0.25",
" return amount * rate",
]
new_content = [
"def calculate_tax(amount):",
" rate = 0.19",
" if amount > 10000:",
" rate = 0.22",
" elif amount > 1000:",
" rate = 0.19",
" return amount * rate",
]
generator = DiffGenerator()
diff = generator.generate(old_content, new_content, "calculator.py")
print(f"File: {diff.filename}")
print(f"Additions: {diff.additions}, Deletions: {diff.deletions}")
print()
print("Diff output:")
print(format_diff_for_display(diff))
if __name__ == "__main__":
main()
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"""
DCTP Executor - Executes DCTP operations on files.
Handles CREATE, DELETE, INSERT_AFTER, REPLACE, and RENUMBER operations
with backup support and checksum validation.
"""
import hashlib
import os
import re
from dataclasses import dataclass
from enum import Enum
from pathlib import Path
from typing import Optional
from dctp_parser import DCTPParser, Operation, OperationType
from dctp_backup import BackupManager
from dctp_diff import DiffGenerator, FileDiff
class ResultStatus(Enum):
SUCCESS = "success"
WARNING = "warning"
ERROR = "error"
SKIPPED = "skipped"
@dataclass
class ExecutionResult:
"""Result of executing a single operation."""
status: ResultStatus
operation: Operation
message: str
diff: Optional[FileDiff] = None
def __str__(self) -> str:
status_symbols = {
ResultStatus.SUCCESS: "",
ResultStatus.WARNING: "⚠️",
ResultStatus.ERROR: "",
ResultStatus.SKIPPED: "⏭️",
}
return f"{status_symbols[self.status]} {self.message}"
@dataclass
class PreviewResult:
"""Result of previewing operations before execution."""
operation: Operation
description: str
diff: Optional[FileDiff] = None
warnings: list[str] = None
def __post_init__(self):
if self.warnings is None:
self.warnings = []
class DCTPExecutor:
"""Executes DCTP operations on files."""
# Line number patterns (same as parser)
LINE_NUMBER_PATTERNS = [
re.compile(r'\s*#Z(\d+)\s*$'),
re.compile(r'\s*//Z(\d+)\s*$'),
re.compile(r'\s*<!--Z(\d+)-->\s*$'),
re.compile(r'\s*/\*Z(\d+)\*/\s*$'),
re.compile(r'\s*--Z(\d+)\s*$'),
]
def __init__(
self,
project_path: str,
backup_manager: Optional[BackupManager] = None,
auto_renumber: bool = True,
validate_checksums: bool = True
):
"""
Initialize the executor.
Args:
project_path: Base project directory
backup_manager: Optional backup manager for undo support
auto_renumber: Automatically renumber after operations
validate_checksums: Validate checksums before operations
"""
self.project_path = Path(project_path)
self.backup_manager = backup_manager or BackupManager(project_path)
self.auto_renumber = auto_renumber
self.validate_checksums = validate_checksums
self.diff_generator = DiffGenerator()
self.parser = DCTPParser()
def preview(self, operations: list[Operation]) -> list[PreviewResult]:
"""
Preview operations without executing them.
Args:
operations: List of operations to preview
Returns:
List of preview results
"""
previews = []
for op in operations:
preview = self._preview_operation(op)
previews.append(preview)
return previews
def _preview_operation(self, op: Operation) -> PreviewResult:
"""Generate preview for a single operation."""
file_path = self.project_path / op.file
warnings = []
if op.type == OperationType.NEW:
if file_path.exists():
warnings.append(f"File already exists and will be overwritten")
return PreviewResult(
operation=op,
description=f"CREATE {op.file} ({len(op.content)} lines)",
warnings=warnings
)
elif op.type == OperationType.DELETE:
if not file_path.exists():
warnings.append(f"File does not exist")
return PreviewResult(
operation=op,
description=f"DELETE {op.file} Z{op.start_line}-Z{op.end_line} (file not found)",
warnings=warnings
)
old_lines = self._read_file_lines(file_path)
if op.end_line > len(old_lines):
warnings.append(f"Line range exceeds file length ({len(old_lines)} lines)")
new_lines = old_lines.copy()
start_idx = op.start_line - 1
end_idx = min(op.end_line, len(old_lines))
del new_lines[start_idx:end_idx]
diff = self.diff_generator.generate(old_lines, new_lines, op.file)
return PreviewResult(
operation=op,
description=f"DELETE {op.file} Z{op.start_line}-Z{op.end_line}",
diff=diff,
warnings=warnings
)
elif op.type == OperationType.INSERT_AFTER:
if not file_path.exists():
warnings.append(f"File does not exist")
return PreviewResult(
operation=op,
description=f"INSERT_AFTER {op.file} Z{op.start_line} (file not found)",
warnings=warnings
)
old_lines = self._read_file_lines(file_path)
if op.start_line > len(old_lines):
warnings.append(f"Line {op.start_line} exceeds file length ({len(old_lines)} lines)")
new_lines = old_lines.copy()
insert_idx = min(op.start_line, len(old_lines))
for i, line in enumerate(op.content):
new_lines.insert(insert_idx + i, line)
diff = self.diff_generator.generate(old_lines, new_lines, op.file)
return PreviewResult(
operation=op,
description=f"INSERT_AFTER {op.file} Z{op.start_line} ({len(op.content)} lines)",
diff=diff,
warnings=warnings
)
elif op.type == OperationType.REPLACE:
if not file_path.exists():
warnings.append(f"File does not exist")
return PreviewResult(
operation=op,
description=f"REPLACE {op.file} Z{op.start_line}-Z{op.end_line} (file not found)",
warnings=warnings
)
old_lines = self._read_file_lines(file_path)
if op.end_line > len(old_lines):
warnings.append(f"Line range exceeds file length ({len(old_lines)} lines)")
new_lines = old_lines.copy()
start_idx = op.start_line - 1
end_idx = min(op.end_line, len(old_lines))
new_lines[start_idx:end_idx] = op.content
diff = self.diff_generator.generate(old_lines, new_lines, op.file)
return PreviewResult(
operation=op,
description=f"REPLACE {op.file} Z{op.start_line}-Z{op.end_line} ({len(op.content)} lines)",
diff=diff,
warnings=warnings
)
elif op.type == OperationType.RENUMBER:
return PreviewResult(
operation=op,
description=f"RENUMBER {op.file}",
warnings=warnings
)
return PreviewResult(
operation=op,
description=f"UNKNOWN {op.type}",
warnings=["Unknown operation type"]
)
def execute(
self,
operations: list[Operation],
skip_checksum_mismatch: bool = False
) -> list[ExecutionResult]:
"""
Execute a list of operations.
Args:
operations: List of operations to execute
skip_checksum_mismatch: Continue even if checksums don't match
Returns:
List of execution results
"""
results = []
# Start backup session
self.backup_manager.start_session()
try:
for op in operations:
result = self._execute_operation(op, skip_checksum_mismatch)
results.append(result)
# Stop on error
if result.status == ResultStatus.ERROR:
break
finally:
# End backup session
self.backup_manager.end_session()
return results
def _execute_operation(
self,
op: Operation,
skip_checksum_mismatch: bool = False
) -> ExecutionResult:
"""Execute a single operation."""
file_path = self.project_path / op.file
try:
if op.type == OperationType.NEW:
return self._execute_new(op, file_path)
elif op.type == OperationType.DELETE:
return self._execute_delete(op, file_path, skip_checksum_mismatch)
elif op.type == OperationType.INSERT_AFTER:
return self._execute_insert_after(op, file_path, skip_checksum_mismatch)
elif op.type == OperationType.REPLACE:
return self._execute_replace(op, file_path, skip_checksum_mismatch)
elif op.type == OperationType.RENUMBER:
return self._execute_renumber(op, file_path)
else:
return ExecutionResult(
status=ResultStatus.ERROR,
operation=op,
message=f"Unknown operation type: {op.type}"
)
except PermissionError:
return ExecutionResult(
status=ResultStatus.ERROR,
operation=op,
message=f"Permission denied: {file_path}"
)
except Exception as e:
return ExecutionResult(
status=ResultStatus.ERROR,
operation=op,
message=f"Error: {str(e)}"
)
def _execute_new(self, op: Operation, file_path: Path) -> ExecutionResult:
"""Execute a NEW operation (create file)."""
# Backup if file exists
if file_path.exists():
self.backup_manager.backup(str(op.file))
# Create parent directories
file_path.parent.mkdir(parents=True, exist_ok=True)
# Write content
content = "\n".join(op.content)
if op.content and not content.endswith("\n"):
content += "\n"
file_path.write_text(content)
return ExecutionResult(
status=ResultStatus.SUCCESS,
operation=op,
message=f"CREATE {op.file} ({len(op.content)} lines)"
)
def _execute_delete(
self,
op: Operation,
file_path: Path,
skip_checksum_mismatch: bool
) -> ExecutionResult:
"""Execute a DELETE operation."""
if not file_path.exists():
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"File not found: {op.file}"
)
# Validate checksum if provided
if op.checksum and self.validate_checksums:
if not self._validate_checksum(file_path, op.checksum):
if not skip_checksum_mismatch:
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"Checksum mismatch for {op.file} - file was modified externally"
)
# Backup file
self.backup_manager.backup(str(op.file))
# Read file and delete lines
lines = self._read_file_lines(file_path)
old_lines = lines.copy()
if op.end_line > len(lines):
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"Line range Z{op.start_line}-Z{op.end_line} exceeds file length ({len(lines)} lines)"
)
start_idx = op.start_line - 1
end_idx = op.end_line
del lines[start_idx:end_idx]
# Write back
self._write_file_lines(file_path, lines)
diff = self.diff_generator.generate(old_lines, lines, op.file)
return ExecutionResult(
status=ResultStatus.SUCCESS,
operation=op,
message=f"DELETE {op.file} Z{op.start_line}-Z{op.end_line}",
diff=diff
)
def _execute_insert_after(
self,
op: Operation,
file_path: Path,
skip_checksum_mismatch: bool
) -> ExecutionResult:
"""Execute an INSERT_AFTER operation."""
if not file_path.exists():
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"File not found: {op.file}"
)
# Validate checksum if provided
if op.checksum and self.validate_checksums:
if not self._validate_checksum(file_path, op.checksum):
if not skip_checksum_mismatch:
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"Checksum mismatch for {op.file} - file was modified externally"
)
# Backup file
self.backup_manager.backup(str(op.file))
# Read file and insert lines
lines = self._read_file_lines(file_path)
old_lines = lines.copy()
if op.start_line > len(lines):
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"Line Z{op.start_line} exceeds file length ({len(lines)} lines)"
)
insert_idx = op.start_line
for i, line in enumerate(op.content):
lines.insert(insert_idx + i, line)
# Write back
self._write_file_lines(file_path, lines)
diff = self.diff_generator.generate(old_lines, lines, op.file)
return ExecutionResult(
status=ResultStatus.SUCCESS,
operation=op,
message=f"INSERT_AFTER {op.file} Z{op.start_line} ({len(op.content)} lines)",
diff=diff
)
def _execute_replace(
self,
op: Operation,
file_path: Path,
skip_checksum_mismatch: bool
) -> ExecutionResult:
"""Execute a REPLACE operation."""
if not file_path.exists():
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"File not found: {op.file}"
)
# Validate checksum if provided
if op.checksum and self.validate_checksums:
if not self._validate_checksum(file_path, op.checksum):
if not skip_checksum_mismatch:
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"Checksum mismatch for {op.file} - file was modified externally"
)
# Backup file
self.backup_manager.backup(str(op.file))
# Read file and replace lines
lines = self._read_file_lines(file_path)
old_lines = lines.copy()
if op.end_line > len(lines):
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"Line range Z{op.start_line}-Z{op.end_line} exceeds file length ({len(lines)} lines)"
)
start_idx = op.start_line - 1
end_idx = op.end_line
lines[start_idx:end_idx] = op.content
# Write back
self._write_file_lines(file_path, lines)
diff = self.diff_generator.generate(old_lines, lines, op.file)
return ExecutionResult(
status=ResultStatus.SUCCESS,
operation=op,
message=f"REPLACE {op.file} Z{op.start_line}-Z{op.end_line} ({len(op.content)} lines)",
diff=diff
)
def _execute_renumber(self, op: Operation, file_path: Path) -> ExecutionResult:
"""Execute a RENUMBER operation."""
if not file_path.exists():
return ExecutionResult(
status=ResultStatus.WARNING,
operation=op,
message=f"File not found: {op.file}"
)
# No backup needed for renumber (just updates line numbers)
lines = self._read_file_lines(file_path)
renumbered_lines = []
for i, line in enumerate(lines, 1):
# Remove existing line number
clean_line = self._remove_line_number(line)
# Add new line number
suffix = self.parser.get_line_number_suffix(op.file, i)
renumbered_lines.append(clean_line + suffix)
self._write_file_lines(file_path, renumbered_lines)
return ExecutionResult(
status=ResultStatus.SUCCESS,
operation=op,
message=f"RENUMBER {op.file} ({len(lines)} lines)"
)
def _read_file_lines(self, file_path: Path) -> list[str]:
"""Read file and return lines without trailing newlines."""
content = file_path.read_text()
lines = content.split('\n')
# Remove trailing empty line if file ends with newline
if lines and lines[-1] == '':
lines = lines[:-1]
return lines
def _write_file_lines(self, file_path: Path, lines: list[str]) -> None:
"""Write lines to file with trailing newline."""
content = '\n'.join(lines)
if lines and not content.endswith('\n'):
content += '\n'
file_path.write_text(content)
def _remove_line_number(self, line: str) -> str:
"""Remove line number marker from end of line."""
for pattern in self.LINE_NUMBER_PATTERNS:
match = pattern.search(line)
if match:
return line[:match.start()]
return line
def _validate_checksum(self, file_path: Path, expected: str) -> bool:
"""Validate file checksum."""
content = file_path.read_bytes()
actual = hashlib.md5(content).hexdigest()[:8]
return actual.lower() == expected.lower()
@staticmethod
def calculate_checksum(file_path: Path) -> str:
"""Calculate checksum for a file."""
content = file_path.read_bytes()
return hashlib.md5(content).hexdigest()[:8]
def main():
"""Test the executor."""
import tempfile
test_input = """###FILE:calculator.py
###NEW
def add(a, b): #Z1
return a + b #Z2
#Z3
def multiply(a, b): #Z4
return a * b #Z5
###END
"""
with tempfile.TemporaryDirectory() as tmpdir:
parser = DCTPParser()
result = parser.parse(test_input)
print("Parsed operations:")
for op in result.operations:
print(f" {op}")
executor = DCTPExecutor(tmpdir)
# Preview
print("\nPreviews:")
previews = executor.preview(result.operations)
for preview in previews:
print(f" {preview.description}")
if preview.warnings:
for w in preview.warnings:
print(f" ⚠️ {w}")
# Execute
print("\nExecution:")
exec_results = executor.execute(result.operations)
for r in exec_results:
print(f" {r}")
# Verify file was created
file_path = Path(tmpdir) / "calculator.py"
if file_path.exists():
print(f"\nFile content:\n{file_path.read_text()}")
if __name__ == "__main__":
main()
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#!/usr/bin/env python3
"""
DCTP GUI - Delta Code Transfer Protocol graphical user interface.
A CustomTkinter-based GUI for managing AI-generated code transfers
using delta operations for efficient updates.
"""
import os
import sys
from datetime import datetime
from pathlib import Path
from tkinter import filedialog, messagebox
from typing import Optional
import json
import customtkinter as ctk
from dctp_parser import DCTPParser, ParseResult, Operation, OperationType
from dctp_executor import DCTPExecutor, ExecutionResult, PreviewResult, ResultStatus
from dctp_backup import BackupManager
from dctp_diff import DiffType
class SettingsDialog(ctk.CTkToplevel):
"""Settings dialog window."""
def __init__(self, parent, settings: dict):
super().__init__(parent)
self.title("Einstellungen")
self.geometry("500x400")
self.resizable(False, False)
self.settings = settings.copy()
self.result = None
# Make modal
self.transient(parent)
self.grab_set()
self._create_widgets()
# Center on parent
self.update_idletasks()
x = parent.winfo_x() + (parent.winfo_width() - self.winfo_width()) // 2
y = parent.winfo_y() + (parent.winfo_height() - self.winfo_height()) // 2
self.geometry(f"+{x}+{y}")
def _create_widgets(self):
# Main frame
main_frame = ctk.CTkFrame(self)
main_frame.pack(fill="both", expand=True, padx=20, pady=20)
# Project path
ctk.CTkLabel(main_frame, text="Standard-Projektpfad:").pack(anchor="w", pady=(0, 5))
path_frame = ctk.CTkFrame(main_frame)
path_frame.pack(fill="x", pady=(0, 15))
self.path_entry = ctk.CTkEntry(path_frame, width=350)
self.path_entry.pack(side="left", fill="x", expand=True, padx=(0, 10))
self.path_entry.insert(0, self.settings.get("project_path", ""))
ctk.CTkButton(
path_frame,
text="...",
width=40,
command=self._browse_path
).pack(side="right")
# Backup directory
ctk.CTkLabel(main_frame, text="Backup-Verzeichnis:").pack(anchor="w", pady=(0, 5))
backup_frame = ctk.CTkFrame(main_frame)
backup_frame.pack(fill="x", pady=(0, 15))
self.backup_entry = ctk.CTkEntry(backup_frame, width=350)
self.backup_entry.pack(side="left", fill="x", expand=True, padx=(0, 10))
self.backup_entry.insert(0, self.settings.get("backup_dir", ".dctp_backups"))
ctk.CTkButton(
backup_frame,
text="...",
width=40,
command=self._browse_backup
).pack(side="right")
# Options
options_frame = ctk.CTkFrame(main_frame)
options_frame.pack(fill="x", pady=15)
self.auto_renumber_var = ctk.BooleanVar(
value=self.settings.get("auto_renumber", True)
)
ctk.CTkCheckBox(
options_frame,
text="Auto-Renumber nach Operationen",
variable=self.auto_renumber_var
).pack(anchor="w", pady=5)
self.validate_checksum_var = ctk.BooleanVar(
value=self.settings.get("validate_checksum", True)
)
ctk.CTkCheckBox(
options_frame,
text="Checksum-Validierung aktiviert",
variable=self.validate_checksum_var
).pack(anchor="w", pady=5)
# Theme
ctk.CTkLabel(main_frame, text="Theme:").pack(anchor="w", pady=(15, 5))
self.theme_var = ctk.StringVar(value=self.settings.get("theme", "dark"))
theme_frame = ctk.CTkFrame(main_frame)
theme_frame.pack(fill="x", pady=(0, 15))
ctk.CTkRadioButton(
theme_frame,
text="Dunkel",
variable=self.theme_var,
value="dark"
).pack(side="left", padx=(0, 20))
ctk.CTkRadioButton(
theme_frame,
text="Hell",
variable=self.theme_var,
value="light"
).pack(side="left")
# Buttons
button_frame = ctk.CTkFrame(main_frame)
button_frame.pack(fill="x", pady=(20, 0))
ctk.CTkButton(
button_frame,
text="Abbrechen",
command=self._cancel
).pack(side="right", padx=(10, 0))
ctk.CTkButton(
button_frame,
text="Speichern",
command=self._save
).pack(side="right")
def _browse_path(self):
path = filedialog.askdirectory(
initialdir=self.path_entry.get() or os.path.expanduser("~")
)
if path:
self.path_entry.delete(0, "end")
self.path_entry.insert(0, path)
def _browse_backup(self):
path = filedialog.askdirectory(
initialdir=os.path.expanduser("~")
)
if path:
self.backup_entry.delete(0, "end")
self.backup_entry.insert(0, path)
def _save(self):
self.result = {
"project_path": self.path_entry.get(),
"backup_dir": self.backup_entry.get(),
"auto_renumber": self.auto_renumber_var.get(),
"validate_checksum": self.validate_checksum_var.get(),
"theme": self.theme_var.get()
}
self.destroy()
def _cancel(self):
self.result = None
self.destroy()
class DCTPApp(ctk.CTk):
"""Main DCTP application window."""
SETTINGS_FILE = ".dctp_settings.json"
def __init__(self):
super().__init__()
self.title("DCTP - Delta Code Transfer")
self.geometry("1200x900")
self.minsize(800, 600)
# Initialize components
self.parser = DCTPParser()
self.executor: Optional[DCTPExecutor] = None
self.backup_manager: Optional[BackupManager] = None
self.current_operations: list[Operation] = []
self.current_previews: list[PreviewResult] = []
# Load settings
self.settings = self._load_settings()
ctk.set_appearance_mode(self.settings.get("theme", "dark"))
# Create UI
self._create_widgets()
# Initialize project if path is set
if self.settings.get("project_path"):
self._init_project(self.settings["project_path"])
self._log("Bereit")
def _load_settings(self) -> dict:
"""Load settings from file."""
settings_path = Path.home() / self.SETTINGS_FILE
if settings_path.exists():
try:
return json.loads(settings_path.read_text())
except (json.JSONDecodeError, IOError):
pass
return {
"project_path": "",
"backup_dir": ".dctp_backups",
"auto_renumber": True,
"validate_checksum": True,
"theme": "dark"
}
def _save_settings(self):
"""Save settings to file."""
settings_path = Path.home() / self.SETTINGS_FILE
settings_path.write_text(json.dumps(self.settings, indent=2))
def _create_widgets(self):
"""Create all UI widgets."""
# Top bar - project selection
top_frame = ctk.CTkFrame(self)
top_frame.pack(fill="x", padx=10, pady=10)
ctk.CTkLabel(top_frame, text="Projekt:").pack(side="left", padx=(0, 10))
self.project_entry = ctk.CTkEntry(top_frame, width=400)
self.project_entry.pack(side="left", fill="x", expand=True, padx=(0, 10))
self.project_entry.insert(0, self.settings.get("project_path", ""))
ctk.CTkButton(
top_frame,
text="Waehlen",
width=100,
command=self._browse_project
).pack(side="left", padx=(0, 10))
ctk.CTkButton(
top_frame,
text="Einstellungen",
width=100,
command=self._open_settings
).pack(side="left")
# Main content area with paned layout
content_frame = ctk.CTkFrame(self)
content_frame.pack(fill="both", expand=True, padx=10, pady=(0, 10))
# Left side - Input and preview
left_frame = ctk.CTkFrame(content_frame)
left_frame.pack(side="left", fill="both", expand=True, padx=(0, 5))
# Input area
input_label_frame = ctk.CTkFrame(left_frame)
input_label_frame.pack(fill="x", pady=(5, 5), padx=5)
ctk.CTkLabel(
input_label_frame,
text="Input (KI-Output hier einfuegen)",
font=ctk.CTkFont(weight="bold")
).pack(side="left")
self.input_text = ctk.CTkTextbox(
left_frame,
height=250,
font=ctk.CTkFont(family="Consolas", size=12)
)
self.input_text.pack(fill="both", expand=True, padx=5, pady=(0, 10))
# Buttons
button_frame = ctk.CTkFrame(left_frame)
button_frame.pack(fill="x", padx=5, pady=(0, 10))
self.analyze_btn = ctk.CTkButton(
button_frame,
text="Analysieren",
command=self._analyze,
width=120
)
self.analyze_btn.pack(side="left", padx=(0, 10))
self.execute_btn = ctk.CTkButton(
button_frame,
text="Ausfuehren",
command=self._execute,
width=120,
state="disabled"
)
self.execute_btn.pack(side="left", padx=(0, 10))
self.undo_btn = ctk.CTkButton(
button_frame,
text="Undo",
command=self._undo,
width=80
)
self.undo_btn.pack(side="left", padx=(0, 10))
ctk.CTkButton(
button_frame,
text="Clear",
command=self._clear,
width=80
).pack(side="left")
# Preview operations
preview_label_frame = ctk.CTkFrame(left_frame)
preview_label_frame.pack(fill="x", pady=(5, 5), padx=5)
ctk.CTkLabel(
preview_label_frame,
text="Vorschau Operationen",
font=ctk.CTkFont(weight="bold")
).pack(side="left")
self.preview_text = ctk.CTkTextbox(
left_frame,
height=150,
font=ctk.CTkFont(family="Consolas", size=11)
)
self.preview_text.pack(fill="both", expand=True, padx=5, pady=(0, 10))
self.preview_text.configure(state="disabled")
# Right side - Diff and file tree
right_frame = ctk.CTkFrame(content_frame)
right_frame.pack(side="right", fill="both", expand=True, padx=(5, 0))
# Diff view
diff_label_frame = ctk.CTkFrame(right_frame)
diff_label_frame.pack(fill="x", pady=(5, 5), padx=5)
ctk.CTkLabel(
diff_label_frame,
text="Diff-Ansicht",
font=ctk.CTkFont(weight="bold")
).pack(side="left")
self.diff_text = ctk.CTkTextbox(
right_frame,
height=300,
font=ctk.CTkFont(family="Consolas", size=11)
)
self.diff_text.pack(fill="both", expand=True, padx=5, pady=(0, 10))
self.diff_text.configure(state="disabled")
# File tree
tree_label_frame = ctk.CTkFrame(right_frame)
tree_label_frame.pack(fill="x", pady=(5, 5), padx=5)
ctk.CTkLabel(
tree_label_frame,
text="Projektdateien",
font=ctk.CTkFont(weight="bold")
).pack(side="left")
ctk.CTkButton(
tree_label_frame,
text="Aktualisieren",
width=80,
command=self._refresh_file_tree
).pack(side="right")
self.tree_text = ctk.CTkTextbox(
right_frame,
height=150,
font=ctk.CTkFont(family="Consolas", size=11)
)
self.tree_text.pack(fill="both", expand=True, padx=5, pady=(0, 10))
self.tree_text.configure(state="disabled")
# Bottom - Log
log_label_frame = ctk.CTkFrame(self)
log_label_frame.pack(fill="x", padx=10, pady=(0, 5))
ctk.CTkLabel(
log_label_frame,
text="Log",
font=ctk.CTkFont(weight="bold")
).pack(side="left")
self.log_text = ctk.CTkTextbox(
self,
height=120,
font=ctk.CTkFont(family="Consolas", size=10)
)
self.log_text.pack(fill="x", padx=10, pady=(0, 10))
self.log_text.configure(state="disabled")
def _log(self, message: str, level: str = "info"):
"""Add a message to the log."""
timestamp = datetime.now().strftime("%H:%M:%S")
prefix = ""
if level == "error":
prefix = "ERROR "
elif level == "warning":
prefix = "WARN "
self.log_text.configure(state="normal")
self.log_text.insert("end", f"{timestamp} {prefix}{message}\n")
self.log_text.see("end")
self.log_text.configure(state="disabled")
def _init_project(self, path: str):
"""Initialize project with given path."""
if not os.path.isdir(path):
self._log(f"Verzeichnis existiert nicht: {path}", "error")
return False
self.backup_manager = BackupManager(path)
self.executor = DCTPExecutor(
path,
self.backup_manager,
auto_renumber=self.settings.get("auto_renumber", True),
validate_checksums=self.settings.get("validate_checksum", True)
)
self.settings["project_path"] = path
self._save_settings()
self._log(f"Projekt geladen: {path}")
self._refresh_file_tree()
return True
def _browse_project(self):
"""Open directory browser for project selection."""
initial_dir = self.project_entry.get() or os.path.expanduser("~")
path = filedialog.askdirectory(initialdir=initial_dir)
if path:
self.project_entry.delete(0, "end")
self.project_entry.insert(0, path)
self._init_project(path)
def _open_settings(self):
"""Open settings dialog."""
dialog = SettingsDialog(self, self.settings)
self.wait_window(dialog)
if dialog.result:
old_theme = self.settings.get("theme")
self.settings.update(dialog.result)
self._save_settings()
# Apply theme change
if dialog.result.get("theme") != old_theme:
ctk.set_appearance_mode(dialog.result["theme"])
# Reinitialize project with new settings
if self.settings.get("project_path"):
self._init_project(self.settings["project_path"])
self._log("Einstellungen gespeichert")
def _analyze(self):
"""Analyze input and show preview."""
# Ensure project is initialized
project_path = self.project_entry.get()
if not project_path:
messagebox.showerror("Fehler", "Bitte waehle ein Projektverzeichnis")
return
if not self.executor or self.settings.get("project_path") != project_path:
if not self._init_project(project_path):
return
# Get input
input_text = self.input_text.get("1.0", "end-1c")
if not input_text.strip():
self._log("Kein Input vorhanden", "warning")
return
# Parse
self._log("Analysiere...")
result = self.parser.parse(input_text)
# Handle errors
if result.has_errors:
self._log(f"{len(result.errors)} Parse-Fehler gefunden", "error")
for error in result.errors:
self._log(f" Zeile {error.line_number}: {error.message}", "error")
return
if not result.operations:
self._log("Keine Operationen gefunden", "warning")
return
self.current_operations = result.operations
self._log(f"{len(result.operations)} Operationen gefunden")
# Generate previews
self.current_previews = self.executor.preview(result.operations)
# Display previews
self._display_previews()
# Enable execute button
self.execute_btn.configure(state="normal")
def _display_previews(self):
"""Display operation previews."""
self.preview_text.configure(state="normal")
self.preview_text.delete("1.0", "end")
self.diff_text.configure(state="normal")
self.diff_text.delete("1.0", "end")
for preview in self.current_previews:
# Add to preview list
self.preview_text.insert("end", f"{preview.description}\n")
for warning in preview.warnings:
self.preview_text.insert("end", f" WARNING {warning}\n")
# Add diff if available
if preview.diff and preview.diff.has_changes:
self.diff_text.insert("end", f"--- {preview.diff.filename} ---\n")
for line in preview.diff.lines:
if line.type == DiffType.ADDED:
self.diff_text.insert("end", f"+ {line.content}\n")
elif line.type == DiffType.REMOVED:
self.diff_text.insert("end", f"- {line.content}\n")
elif line.type == DiffType.UNCHANGED:
self.diff_text.insert("end", f" {line.content}\n")
self.diff_text.insert("end", "\n")
self.preview_text.configure(state="disabled")
self.diff_text.configure(state="disabled")
def _execute(self):
"""Execute the analyzed operations."""
if not self.current_operations:
self._log("Keine Operationen zum Ausfuehren", "warning")
return
if not self.executor:
self._log("Kein Projekt initialisiert", "error")
return
# Confirm
count = len(self.current_operations)
if not messagebox.askyesno(
"Bestaetigen",
f"{count} Operationen ausfuehren?"
):
return
self._log(f"Fuehre {count} Operationen aus...")
# Execute
results = self.executor.execute(self.current_operations)
# Log results
success_count = 0
for result in results:
if result.status == ResultStatus.SUCCESS:
self._log(f"OK {result.message}")
success_count += 1
elif result.status == ResultStatus.WARNING:
self._log(f"WARN {result.message}", "warning")
elif result.status == ResultStatus.ERROR:
self._log(f"ERROR {result.message}", "error")
self._log(f"Abgeschlossen: {success_count}/{count} erfolgreich")
# Clear current operations
self.current_operations = []
self.current_previews = []
self.execute_btn.configure(state="disabled")
# Refresh file tree
self._refresh_file_tree()
def _undo(self):
"""Undo last operation."""
if not self.backup_manager:
self._log("Kein Projekt initialisiert", "error")
return
success, restored = self.backup_manager.restore_last()
if success:
self._log(f"Undo erfolgreich: {len(restored)} Dateien wiederhergestellt")
for f in restored:
self._log(f" -> {f}")
self._refresh_file_tree()
else:
self._log("Kein Backup zum Wiederherstellen", "warning")
def _clear(self):
"""Clear input and preview areas."""
self.input_text.delete("1.0", "end")
self.preview_text.configure(state="normal")
self.preview_text.delete("1.0", "end")
self.preview_text.configure(state="disabled")
self.diff_text.configure(state="normal")
self.diff_text.delete("1.0", "end")
self.diff_text.configure(state="disabled")
self.current_operations = []
self.current_previews = []
self.execute_btn.configure(state="disabled")
self._log("Eingabe geloescht")
def _refresh_file_tree(self):
"""Refresh the file tree display."""
self.tree_text.configure(state="normal")
self.tree_text.delete("1.0", "end")
project_path = self.project_entry.get()
if not project_path or not os.path.isdir(project_path):
self.tree_text.insert("end", "(Kein Projekt geladen)")
self.tree_text.configure(state="disabled")
return
# Build simple tree
try:
self._add_tree_items(Path(project_path), 0)
except Exception as e:
self.tree_text.insert("end", f"Fehler: {e}")
self.tree_text.configure(state="disabled")
def _add_tree_items(self, path: Path, level: int, max_items: int = 100):
"""Recursively add items to tree display."""
if level > 5: # Limit depth
return
indent = " " * level
try:
items = sorted(path.iterdir(), key=lambda x: (not x.is_dir(), x.name.lower()))
count = 0
for item in items:
if count >= max_items:
self.tree_text.insert("end", f"{indent} ... (mehr Dateien)\n")
break
# Skip hidden files and backup directory
if item.name.startswith('.'):
continue
if item.is_dir():
self.tree_text.insert("end", f"{indent}DIR {item.name}/\n")
self._add_tree_items(item, level + 1, max_items=20)
else:
self.tree_text.insert("end", f"{indent}FILE {item.name}\n")
count += 1
except PermissionError:
self.tree_text.insert("end", f"{indent} (Zugriff verweigert)\n")
def main():
"""Main entry point."""
app = DCTPApp()
app.mainloop()
if __name__ == "__main__":
main()
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"""
DCTP Parser - Parses DCTP control commands and code blocks.
Handles line-numbered code with language-specific comment formats:
- Python/Shell: #Z1
- JavaScript/Java/C/C++: //Z1
- HTML: <!--Z1-->
- CSS: /*Z1*/
- SQL: --Z1
"""
import re
from dataclasses import dataclass, field
from typing import Optional
from enum import Enum
class OperationType(Enum):
NEW = "NEW"
DELETE = "DELETE"
INSERT_AFTER = "INSERT_AFTER"
REPLACE = "REPLACE"
RENUMBER = "RENUMBER"
@dataclass
class Operation:
"""Represents a single DCTP operation."""
type: OperationType
file: str
start_line: Optional[int] = None
end_line: Optional[int] = None
content: list[str] = field(default_factory=list)
checksum: Optional[str] = None
raw_content: list[str] = field(default_factory=list) # Content with line numbers
def __str__(self) -> str:
if self.type == OperationType.NEW:
return f"CREATE {self.file} ({len(self.content)} lines)"
elif self.type == OperationType.DELETE:
return f"DELETE {self.file} Z{self.start_line}-Z{self.end_line}"
elif self.type == OperationType.INSERT_AFTER:
return f"INSERT_AFTER {self.file} Z{self.start_line} ({len(self.content)} lines)"
elif self.type == OperationType.REPLACE:
return f"REPLACE {self.file} Z{self.start_line}-Z{self.end_line} ({len(self.content)} lines)"
elif self.type == OperationType.RENUMBER:
return f"RENUMBER {self.file}"
return f"{self.type.value} {self.file}"
@dataclass
class ParseError:
"""Represents a parsing error."""
line_number: int
line_content: str
message: str
@dataclass
class ParseResult:
"""Result of parsing DCTP input."""
operations: list[Operation]
errors: list[ParseError]
@property
def has_errors(self) -> bool:
return len(self.errors) > 0
class DCTPParser:
"""Parser for DCTP (Delta Code Transfer Protocol) format."""
# Regex patterns for line number markers in different languages
LINE_NUMBER_PATTERNS = [
re.compile(r'\s*#Z(\d+)\s*$'), # Python, Shell
re.compile(r'\s*//Z(\d+)\s*$'), # JavaScript, Java, C, C++
re.compile(r'\s*<!--Z(\d+)-->\s*$'), # HTML
re.compile(r'\s*/\*Z(\d+)\*/\s*$'), # CSS
re.compile(r'\s*--Z(\d+)\s*$'), # SQL
]
# Control command patterns
FILE_PATTERN = re.compile(r'^###FILE:(.+)$')
NEW_PATTERN = re.compile(r'^###NEW\s*$')
DELETE_PATTERN = re.compile(r'^###DELETE:Z(\d+)(?:-Z(\d+))?\s*$')
INSERT_AFTER_PATTERN = re.compile(r'^###INSERT_AFTER:Z(\d+)\s*$')
REPLACE_PATTERN = re.compile(r'^###REPLACE:Z(\d+)(?:-Z(\d+))?\s*$')
END_PATTERN = re.compile(r'^###END\s*$')
RENUMBER_PATTERN = re.compile(r'^###RENUMBER\s*$')
CHECKSUM_PATTERN = re.compile(r'^###CHECKSUM:([a-fA-F0-9]+)\s*$')
def parse(self, text: str) -> ParseResult:
"""
Parse DCTP formatted text into a list of operations.
Args:
text: The DCTP formatted input text
Returns:
ParseResult containing operations and any errors
"""
operations: list[Operation] = []
errors: list[ParseError] = []
current_file: Optional[str] = None
current_op: Optional[Operation] = None
buffer: list[str] = []
raw_buffer: list[str] = []
lines = text.split('\n')
for line_num, line in enumerate(lines, 1):
# Skip empty lines outside of content blocks
if not line.strip() and current_op is None:
continue
# Check for FILE command
file_match = self.FILE_PATTERN.match(line)
if file_match:
current_file = file_match.group(1).strip()
continue
# Check for NEW command
if self.NEW_PATTERN.match(line):
if current_file is None:
errors.append(ParseError(line_num, line, "###NEW without ###FILE"))
continue
current_op = Operation(type=OperationType.NEW, file=current_file)
buffer = []
raw_buffer = []
continue
# Check for DELETE command
delete_match = self.DELETE_PATTERN.match(line)
if delete_match:
if current_file is None:
errors.append(ParseError(line_num, line, "###DELETE without ###FILE"))
continue
start = int(delete_match.group(1))
end = int(delete_match.group(2)) if delete_match.group(2) else start
operations.append(Operation(
type=OperationType.DELETE,
file=current_file,
start_line=start,
end_line=end
))
continue
# Check for INSERT_AFTER command
insert_match = self.INSERT_AFTER_PATTERN.match(line)
if insert_match:
if current_file is None:
errors.append(ParseError(line_num, line, "###INSERT_AFTER without ###FILE"))
continue
current_op = Operation(
type=OperationType.INSERT_AFTER,
file=current_file,
start_line=int(insert_match.group(1))
)
buffer = []
raw_buffer = []
continue
# Check for REPLACE command
replace_match = self.REPLACE_PATTERN.match(line)
if replace_match:
if current_file is None:
errors.append(ParseError(line_num, line, "###REPLACE without ###FILE"))
continue
start = int(replace_match.group(1))
end = int(replace_match.group(2)) if replace_match.group(2) else start
current_op = Operation(
type=OperationType.REPLACE,
file=current_file,
start_line=start,
end_line=end
)
buffer = []
raw_buffer = []
continue
# Check for END command
if self.END_PATTERN.match(line):
if current_op:
current_op.content = buffer.copy()
current_op.raw_content = raw_buffer.copy()
operations.append(current_op)
current_op = None
buffer = []
raw_buffer = []
continue
# Check for RENUMBER command
if self.RENUMBER_PATTERN.match(line):
if current_file is None:
errors.append(ParseError(line_num, line, "###RENUMBER without ###FILE"))
continue
operations.append(Operation(type=OperationType.RENUMBER, file=current_file))
continue
# Check for CHECKSUM command
checksum_match = self.CHECKSUM_PATTERN.match(line)
if checksum_match:
if current_op:
current_op.checksum = checksum_match.group(1)
continue
# Regular code line - add to buffer if we're in an operation
if current_op is not None:
raw_buffer.append(line)
clean_line = self._remove_line_number(line)
buffer.append(clean_line)
# Handle unclosed operation
if current_op is not None:
errors.append(ParseError(
len(lines),
"",
f"Unclosed operation: {current_op.type.value} for {current_op.file}"
))
return ParseResult(operations=operations, errors=errors)
def _remove_line_number(self, line: str) -> str:
"""Remove line number marker from end of line."""
for pattern in self.LINE_NUMBER_PATTERNS:
match = pattern.search(line)
if match:
return line[:match.start()]
return line
def extract_line_number(self, line: str) -> Optional[int]:
"""Extract line number from a code line."""
for pattern in self.LINE_NUMBER_PATTERNS:
match = pattern.search(line)
if match:
return int(match.group(1))
return None
@staticmethod
def get_line_number_suffix(filename: str, line_num: int) -> str:
"""Get the appropriate line number suffix for a file type."""
ext = filename.rsplit('.', 1)[-1].lower() if '.' in filename else ''
if ext in ('py', 'sh', 'bash', 'zsh', 'yaml', 'yml', 'toml', 'ini', 'conf', 'rb', 'pl'):
return f" #Z{line_num}"
elif ext in ('js', 'ts', 'jsx', 'tsx', 'java', 'c', 'cpp', 'h', 'hpp', 'cs', 'go', 'rs', 'swift', 'kt', 'scala'):
return f" //Z{line_num}"
elif ext in ('html', 'htm', 'xml', 'svg'):
return f" <!--Z{line_num}-->"
elif ext in ('css', 'scss', 'sass', 'less'):
return f" /*Z{line_num}*/"
elif ext in ('sql',):
return f" --Z{line_num}"
else:
# Default to Python style
return f" #Z{line_num}"
def main():
"""Test the parser with example input."""
test_input = """###FILE:src/calculator.py
###NEW
def add(a, b): #Z1
return a + b #Z2
#Z3
def multiply(a, b): #Z4
return a * b #Z5
###END
###FILE:src/calculator.py
###REPLACE:Z4-Z5
def multiply(a, b): #Z4
\"\"\"Multipliziert zwei Zahlen.\"\"\" #Z5
return a * b #Z6
###END
###RENUMBER
###FILE:src/calculator.py
###INSERT_AFTER:Z2
#Z3
def subtract(a, b): #Z4
return a - b #Z5
###END
###RENUMBER
###FILE:src/calculator.py
###DELETE:Z10-Z15
###RENUMBER
"""
parser = DCTPParser()
result = parser.parse(test_input)
print("Operations found:")
for op in result.operations:
print(f" {op}")
if result.has_errors:
print("\nErrors:")
for error in result.errors:
print(f" Line {error.line_number}: {error.message}")
print(f" {error.line_content}")
if __name__ == "__main__":
main()
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customtkinter>=5.2.0