Files
workouts/Workouts/Views/WorkoutLogs/ExerciseView.swift
T
rzen 669ecf1259 Surface machine settings in the exercise library and refine machine rigs
Library detail screens now lead with the user's recorded machine settings
(per-split when they disagree, empty-state card for machine-based entries)
and append the weight progression chart. Starter seeds mark machine
exercises with an empty machineSettings list so the settings UI lights up
before first use. The figure rig gains a frontal body profile for face-on
machines, props that can ride mid joints (knees/elbows), and an
alternating four-frame Bird Dog loop.

Claude-Session: https://claude.ai/code/session_01LEoff8bXGBS83tK1c55Mf7
2026-07-06 18:35:15 -04:00

276 lines
9.8 KiB
Swift

//
// ExerciseView.swift
// Workouts
//
// Created by rzen on 7/18/25 at 5:44 PM.
//
// Copyright 2025 Rouslan Zenetl. All Rights Reserved.
//
import SwiftUI
import SwiftData
import Charts
struct ExerciseView: View {
@Environment(SyncEngine.self) private var sync
@Environment(AppServices.self) private var services
let workout: Workout
let logID: String
/// Working copy of the parent workout. Driving the UI from local state (not the
/// cache entity) lets `seedDoc` show a just-added log before the file→cache
/// round-trip catches up.
@State private var doc: WorkoutDocument
@State private var showingPlanEdit = false
@State private var showingNotesEdit = false
@State private var showingMachineSettings = false
/// `seedDoc` lets the caller hand over an in-memory document (e.g. the parent's
/// working copy right after adding an exercise) so the screen doesn't wait on
/// the file→cache round-trip to find the just-created log.
init(workout: Workout, logID: String, seedDoc: WorkoutDocument? = nil) {
self.workout = workout
self.logID = logID
_doc = State(initialValue: seedDoc ?? WorkoutDocument(from: workout))
}
/// The log being edited within the working doc.
private var log: WorkoutLogDocument? {
doc.logs.first { $0.id == logID }
}
var body: some View {
Group {
if let log {
// Deliberately NOT the half-and-half figure layout: this screen is
// dense with the plan, notes, settings, and the progression chart —
// the form guide lives in the run flow and the exercise library.
content(for: log)
} else {
// The just-added log hasn't reached the cache yet; refresh shortly.
ProgressView()
}
}
.navigationTitle(log?.exerciseName ?? "")
.sheet(isPresented: $showingPlanEdit) {
PlanEditView(workout: workout, logID: logID)
}
.sheet(isPresented: $showingNotesEdit) {
NotesEditView(workout: workout, logID: logID)
}
.sheet(isPresented: $showingMachineSettings) {
if let log {
MachineSettingsSheet(
exerciseName: log.exerciseName,
initialSettings: log.machineSettings ?? []
) { updated in
applyMachineSettings(updated)
}
}
}
.onAppear {
refreshDocIfNeeded()
// Take over this run: the watch parks and locks it while we're editing here.
services.watchBridge.setEditingWorkout(workout.id)
}
.onDisappear {
services.watchBridge.setEditingWorkout(nil)
}
// Reflect external changes (e.g. a set completed on the watch) live. Each edit
// rewrites the whole workout file, so the cache always holds the latest — pulling
// it in can't revert a newer local tap.
.onChange(of: workout.updatedAt) { _, _ in
absorbExternalUpdate()
}
}
/// Pull an externally-changed workout into the working copy so the plan and notes
/// update without leaving and re-entering the screen.
private func absorbExternalUpdate() {
doc = WorkoutDocument(from: workout)
}
@ViewBuilder
private func content(for log: WorkoutLogDocument) -> some View {
Form {
// MARK: - Plan Section (Read-only with Edit button)
Section {
PlanTilesView(log: log)
} header: {
HStack {
Text("Plan")
Spacer()
Button("Edit") {
showingPlanEdit = true
}
.font(.subheadline)
.textCase(.none)
}
}
// MARK: - Machine Settings — shown when the log carries settings, or for
// any exercise the authored library identifies as machine-based, so the
// section is discoverable before settings are first recorded.
if log.machineSettings != nil
|| ExerciseInfoLibrary.info(for: log.exerciseName)?.isMachineBased == true {
let settings = log.machineSettings ?? []
Section {
if settings.isEmpty {
Text("No settings recorded")
.foregroundColor(.secondary)
.italic()
} else {
ForEach(Array(settings.enumerated()), id: \.offset) { _, setting in
HStack(alignment: .firstTextBaseline) {
Text(setting.name)
.foregroundStyle(.secondary)
Spacer()
Text(setting.value)
.fontWeight(.semibold)
.monospacedDigit()
}
}
}
} header: {
HStack {
Text("Machine Settings")
Spacer()
Button("Edit") {
showingMachineSettings = true
}
.font(.subheadline)
.textCase(.none)
}
}
}
// MARK: - Notes Section (Read-only with Edit button)
Section {
if let notes = log.notes, !notes.isEmpty {
Text(notes)
.foregroundColor(.primary)
} else {
Text("No notes")
.foregroundColor(.secondary)
.italic()
}
} header: {
HStack {
Text("Notes")
Spacer()
Button("Edit") {
showingNotesEdit = true
}
.font(.subheadline)
.textCase(.none)
}
}
// MARK: - Progress Tracking Chart (weighted exercises only — a weight
// chart is meaningless for bodyweight/timed logs)
if LoadType(rawValue: log.loadType) == .weight {
Section(header: Text("Progress Tracking")) {
WeightProgressionChartView(exerciseName: log.exerciseName)
}
}
}
// Pull plan/notes edits made in the sheets back into the live doc.
.onChange(of: showingPlanEdit) { _, presenting in
if !presenting { refreshDocFromCache() }
}
.onChange(of: showingNotesEdit) { _, presenting in
if !presenting { refreshDocFromCache() }
}
}
/// Apply edited machine settings: update the log's plan-time snapshot (persisted
/// with the workout), then write the same settings back to the originating
/// split's exercise as the durable default — same sequencing as the workout
/// list's machine sheet.
private func applyMachineSettings(_ settings: [MachineSetting]) {
guard let i = doc.logs.firstIndex(where: { $0.id == logID }) else { return }
doc.logs[i].machineSettings = settings
doc.updatedAt = Date()
let snapshot = doc
let exerciseName = doc.logs[i].exerciseName
let splitID = doc.splitID
Task {
await sync.save(workout: snapshot)
await sync.writeBackMachineSettings(settings, exerciseName: exerciseName, splitID: splitID)
}
}
/// If the requested log isn't in the working doc yet (just-added race), pull a
/// fresh copy from the cache entity once it catches up.
private func refreshDocIfNeeded() {
guard log == nil else { return }
refreshDocFromCache()
}
/// Re-read the workout from the cache to absorb edits made by child sheets
/// (plan/notes).
private func refreshDocFromCache() {
doc = WorkoutDocument(from: workout)
}
}
// MARK: - Plan Tiles View
struct PlanTilesView: View {
let log: WorkoutLogDocument
@AppStorage("weightUnit") private var weightUnit: WeightUnit = .lb
var body: some View {
if LoadType(rawValue: log.loadType) == .duration {
// Duration layout: Sets | Duration
HStack(spacing: 0) {
PlanTile(label: "Sets", value: "\(log.sets)")
PlanTile(label: "Duration", value: formattedDuration)
}
} else {
// Weight layout: Sets | Reps | Weight
HStack(spacing: 0) {
PlanTile(label: "Sets", value: "\(log.sets)")
PlanTile(label: "Reps", value: "\(log.reps)")
PlanTile(label: "Weight", value: weightUnit.format(log.weight))
}
}
}
private var formattedDuration: String {
let mins = log.durationSeconds / 60
let secs = log.durationSeconds % 60
if mins > 0 && secs > 0 {
return "\(mins)m \(secs)s"
} else if mins > 0 {
return "\(mins) min"
} else if secs > 0 {
return "\(secs) sec"
} else {
return "0 sec"
}
}
}
struct PlanTile: View {
let label: String
let value: String
var body: some View {
VStack(spacing: 4) {
Text(label)
.font(.caption)
.foregroundColor(.secondary)
Text(value)
.font(.title2)
.fontWeight(.semibold)
.foregroundColor(.primary)
}
.frame(maxWidth: .infinity)
.padding(.vertical, 12)
.background(Color(.systemGray6))
.cornerRadius(8)
}
}