Files
workouts/Workouts Watch AppTests/WatchCacheApplierTests.swift
T
rzen 6e440317c4 Restructure into a three-tab app with Progress, goals, and Meditation
The UX redesign's first landing (spec in UX-REDESIGN.md): ContentView
becomes a Today / Progress / Settings TabView, "Routine" replaces
"Split" in every user-facing string and view name (code-level types
keep their names), and workout starting moves to shared
WorkoutStarter / StartedWorkoutNavigator plumbing.

- New Progress tab: weekly goal streaks, workout trends, per-exercise
  weight progression, achievements, and the full history list
  (WorkoutLogsView -> WorkoutHistoryView).
- Goals: stable categories workouts roll up to, managed from Settings.
- New Meditation exercise + starter routine; timed sits record to
  Apple Health as Mind & Body sessions.

Claude-Session: https://claude.ai/code/session_012qw2itfzKyEJ1HpsFt8Ex4
2026-07-11 07:53:01 -04:00

188 lines
8.8 KiB
Swift

import Foundation
import SwiftData
import Testing
@testable import Workouts_Watch_App
/// Locks the phone→watch state apply/prune contract — the pure `WatchCacheApplier` seam the
/// `WatchConnectivityBridge` delegates its cache mutation to. The bridge wraps `WCSession`, so
/// this session-free seam is the testable surface for the three behaviors that matter:
/// 1. An authoritative push upserts the routines/workouts the phone sent.
/// 2. An authoritative **empty** push prunes stale rows the phone no longer has (the
/// recently-fixed case — otherwise a deleted routine / aged-out run is orphaned forever).
/// 3. A `nil` set (the phone's payload failed to decode — a build/schema mismatch) is a
/// decode failure, not an empty set: it must skip entirely and NOT prune real rows.
///
/// These are all membership/presence assertions (which ids survive) — deliberately orthogonal to
/// any updatedAt/version ordering, which this suite does not exercise.
@MainActor
struct WatchCacheApplierTests {
private static let ts = Date(timeIntervalSince1970: 1_700_000_000)
private func makeContext() throws -> ModelContext {
let schema = Schema([Routine.self, Exercise.self, Workout.self, WorkoutLog.self])
// cloudKitDatabase: .none matches WorkoutsModelContainer (the watch's read-through cache).
let config = ModelConfiguration(schema: schema, isStoredInMemoryOnly: true, cloudKitDatabase: .none)
return ModelContext(try ModelContainer(for: schema, configurations: [config]))
}
private func routine(id: String, name: String) -> RoutineDocument {
RoutineDocument(
schemaVersion: RoutineDocument.currentSchemaVersion, id: id, name: name, color: "blue",
systemImage: "dumbbell.fill", order: 0, createdAt: Self.ts, updatedAt: Self.ts,
exercises: [ExerciseDocument(id: "EX-\(id)", name: "Bench Press", order: 0, sets: 4,
reps: 10, weight: 135, loadType: LoadType.weight.rawValue,
durationSeconds: 0, machineSettings: nil)],
activityType: nil
)
}
private func workout(id: String, name: String = "Push") -> WorkoutDocument {
WorkoutDocument(
schemaVersion: WorkoutDocument.currentSchemaVersion, id: id, routineID: "S", routineName: name,
start: Self.ts, end: nil, status: WorkoutStatus.inProgress.rawValue,
createdAt: Self.ts, updatedAt: Self.ts,
logs: [WorkoutLogDocument(id: "L-\(id)", exerciseName: "Bench Press", order: 0, sets: 4,
reps: 10, weight: 135, loadType: LoadType.weight.rawValue,
durationSeconds: 0, currentStateIndex: 0,
status: WorkoutStatus.notStarted.rawValue, notes: nil, date: Self.ts)],
metrics: nil
)
}
private func routineIDs(in ctx: ModelContext) -> Set<String> {
Set((try? ctx.fetch(FetchDescriptor<Routine>()))?.map(\.id) ?? [])
}
private func workoutIDs(in ctx: ModelContext) -> Set<String> {
Set((try? ctx.fetch(FetchDescriptor<Workout>()))?.map(\.id) ?? [])
}
// MARK: - Authoritative upsert
@Test func authoritativePushUpsertsRoutinesAndWorkouts() throws {
let ctx = try makeContext()
WatchCacheApplier.apply(
routines: [routine(id: "SP1", name: "Upper"), routine(id: "SP2", name: "Lower")],
workouts: [workout(id: "01WKA"), workout(id: "01WKB")],
into: ctx
)
#expect(routineIDs(in: ctx) == ["SP1", "SP2"])
#expect(workoutIDs(in: ctx) == ["01WKA", "01WKB"])
}
@Test func reUpsertSameIDUpdatesInPlaceWithoutDuplicating() throws {
let ctx = try makeContext()
WatchCacheApplier.apply(routines: [routine(id: "SP1", name: "Original")], workouts: [], into: ctx)
WatchCacheApplier.apply(routines: [routine(id: "SP1", name: "Renamed")], workouts: [], into: ctx)
let routines = try ctx.fetch(FetchDescriptor<Routine>())
#expect(routines.count == 1)
#expect(routines.first?.name == "Renamed")
}
// MARK: - Authoritative empty prunes stale rows (the recently-fixed case)
@Test func authoritativeEmptyPushPrunesAllStaleRows() throws {
let ctx = try makeContext()
// Seed the cache as if the phone had previously pushed real state.
WatchCacheApplier.apply(
routines: [routine(id: "SP1", name: "Upper")],
workouts: [workout(id: "01WKA")],
into: ctx
)
#expect(routineIDs(in: ctx) == ["SP1"])
#expect(workoutIDs(in: ctx) == ["01WKA"])
// The user deleted everything on the phone (or all runs aged out): an authoritative
// EMPTY push must clear the now-stale rows rather than orphan them forever.
WatchCacheApplier.apply(routines: [], workouts: [], into: ctx)
#expect(routineIDs(in: ctx).isEmpty)
#expect(workoutIDs(in: ctx).isEmpty)
}
@Test func partialPushPrunesOnlyRowsThePhoneNoLongerSends() throws {
let ctx = try makeContext()
WatchCacheApplier.apply(
routines: [routine(id: "SP1", name: "Keep"), routine(id: "SP2", name: "Drop")],
workouts: [workout(id: "01WKKEEP"), workout(id: "01WKDROP")],
into: ctx
)
// The phone now sends only the survivors — the omitted ones are pruned.
WatchCacheApplier.apply(
routines: [routine(id: "SP1", name: "Keep")],
workouts: [workout(id: "01WKKEEP")],
into: ctx
)
#expect(routineIDs(in: ctx) == ["SP1"])
#expect(workoutIDs(in: ctx) == ["01WKKEEP"])
}
@Test func authoritativeEmptyPushOnEmptyCacheIsANoOp() throws {
let ctx = try makeContext()
WatchCacheApplier.apply(routines: [], workouts: [], into: ctx)
#expect(routineIDs(in: ctx).isEmpty)
#expect(workoutIDs(in: ctx).isEmpty)
}
// MARK: - nil-decode guard: a decode failure must NOT prune
@Test func nilRoutinesSkipsEntirelyAndDoesNotPrune() throws {
let ctx = try makeContext()
WatchCacheApplier.apply(routines: [routine(id: "SP1", name: "Upper")],
workouts: [workout(id: "01WKA")], into: ctx)
// A corrupt/absent routines payload decodes to nil (build mismatch). Skip — the existing
// rows must survive, never pruned against a bogus set.
let applied = WatchCacheApplier.apply(routines: nil, workouts: [], into: ctx)
#expect(applied == false)
#expect(routineIDs(in: ctx) == ["SP1"])
#expect(workoutIDs(in: ctx) == ["01WKA"])
}
@Test func nilWorkoutsSkipsEntirelyAndDoesNotPrune() throws {
let ctx = try makeContext()
WatchCacheApplier.apply(routines: [routine(id: "SP1", name: "Upper")],
workouts: [workout(id: "01WKA")], into: ctx)
let applied = WatchCacheApplier.apply(routines: [], workouts: nil, into: ctx)
#expect(applied == false)
#expect(routineIDs(in: ctx) == ["SP1"])
#expect(workoutIDs(in: ctx) == ["01WKA"])
}
// MARK: - New-field fidelity through the watch cache
/// A pushed workout carrying the v4 log fields — fractional weight, recorded
/// `setEntries`, per-log `updatedAt` — survives apply → cache entity → document
/// intact, so the watch's echo back to the phone can't strip actuals.
@Test func applyRoundTripsSetEntriesAndPerLogUpdatedAt() throws {
let ctx = try makeContext()
var doc = workout(id: "01WKENTRIES")
doc.logs[0].weight = 42.5
doc.logs[0].status = WorkoutStatus.completed.rawValue
doc.logs[0].setEntries = [
SetEntry(reps: 10, weight: 42.5, completedAt: Self.ts),
SetEntry(reps: 8, weight: 45, completedAt: Self.ts),
]
doc.logs[0].updatedAt = Self.ts
WatchCacheApplier.apply(routines: [], workouts: [doc], into: ctx)
let entity = try #require(CacheMapper.fetchWorkout(id: "01WKENTRIES", in: ctx))
let rebuilt = WorkoutDocument(from: entity)
#expect(rebuilt.logs[0].weight == 42.5)
#expect(rebuilt.logs[0].setEntries == doc.logs[0].setEntries)
#expect(rebuilt.logs[0].updatedAt == Self.ts)
}
@Test func optionalOverloadReturnsTrueWhenBothSetsDecode() throws {
let ctx = try makeContext()
// Typed optionals to disambiguate onto the nil-aware overload (an authoritative,
// successfully-decoded — if empty — push), whose Bool return is the applied/skip signal.
let routines: [RoutineDocument]? = []
let workouts: [WorkoutDocument]? = []
let applied = WatchCacheApplier.apply(routines: routines, workouts: workouts, into: ctx)
#expect(applied == true)
}
}