claude-code/.claude/skills/swift-actor-persistence/SKILL.md

---
name: swift-actor-persistence
description: Thread-safe data persistence in Swift using actors — in-memory cache with file-backed storage, eliminating data races by design.
origin: ECC
---

# Swift Actors for Thread-Safe Persistence

Patterns for building thread-safe data persistence layers using Swift actors. Combines in-memory caching with file-backed storage, leveraging the actor model to eliminate data races at compile time.

## When to Activate

- Building a data persistence layer in Swift 5.5+
- Need thread-safe access to shared mutable state
- Want to eliminate manual synchronization (locks, DispatchQueues)
- Building offline-first apps with local storage

## Core Pattern

### Actor-Based Repository

The actor model guarantees serialized access — no data races, enforced by the compiler.

```swift
public actor LocalRepository<T: Codable & Identifiable> where T.ID == String {
    private var cache: [String: T] = [:]
    private let fileURL: URL

    public init(directory: URL = .documentsDirectory, filename: String = "data.json") {
        self.fileURL = directory.appendingPathComponent(filename)
        // Synchronous load during init (actor isolation not yet active)
        self.cache = Self.loadSynchronously(from: fileURL)
    }

    // MARK: - Public API

    public func save(_ item: T) throws {
        cache[item.id] = item
        try persistToFile()
    }

    public func delete(_ id: String) throws {
        cache[id] = nil
        try persistToFile()
    }

    public func find(by id: String) -> T? {
        cache[id]
    }

    public func loadAll() -> [T] {
        Array(cache.values)
    }

    // MARK: - Private

    private func persistToFile() throws {
        let data = try JSONEncoder().encode(Array(cache.values))
        try data.write(to: fileURL, options: .atomic)
    }

    private static func loadSynchronously(from url: URL) -> [String: T] {
        guard let data = try? Data(contentsOf: url),
              let items = try? JSONDecoder().decode([T].self, from: data) else {
            return [:]
        }
        return Dictionary(uniqueKeysWithValues: items.map { ($0.id, $0) })
    }
}
```

### Usage

All calls are automatically async due to actor isolation:

```swift
let repository = LocalRepository<Question>()

// Read — fast O(1) lookup from in-memory cache
let question = await repository.find(by: "q-001")
let allQuestions = await repository.loadAll()

// Write — updates cache and persists to file atomically
try await repository.save(newQuestion)
try await repository.delete("q-001")
```

### Combining with @Observable ViewModel

```swift
@Observable
final class QuestionListViewModel {
    private(set) var questions: [Question] = []
    private let repository: LocalRepository<Question>

    init(repository: LocalRepository<Question> = LocalRepository()) {
        self.repository = repository
    }

    func load() async {
        questions = await repository.loadAll()
    }

    func add(_ question: Question) async throws {
        try await repository.save(question)
        questions = await repository.loadAll()
    }
}
```

## Key Design Decisions

| Decision | Rationale |
|----------|-----------|
| Actor (not class + lock) | Compiler-enforced thread safety, no manual synchronization |
| In-memory cache + file persistence | Fast reads from cache, durable writes to disk |
| Synchronous init loading | Avoids async initialization complexity |
| Dictionary keyed by ID | O(1) lookups by identifier |
| Generic over `Codable & Identifiable` | Reusable across any model type |
| Atomic file writes (`.atomic`) | Prevents partial writes on crash |

## Best Practices

- **Use `Sendable` types** for all data crossing actor boundaries
- **Keep the actor's public API minimal** — only expose domain operations, not persistence details
- **Use `.atomic` writes** to prevent data corruption if the app crashes mid-write
- **Load synchronously in `init`** — async initializers add complexity with minimal benefit for local files
- **Combine with `@Observable`** ViewModels for reactive UI updates

## Anti-Patterns to Avoid

- Using `DispatchQueue` or `NSLock` instead of actors for new Swift concurrency code
- Exposing the internal cache dictionary to external callers
- Making the file URL configurable without validation
- Forgetting that all actor method calls are `await` — callers must handle async context
- Using `nonisolated` to bypass actor isolation (defeats the purpose)

## When to Use

- Local data storage in iOS/macOS apps (user data, settings, cached content)
- Offline-first architectures that sync to a server later
- Any shared mutable state that multiple parts of the app access concurrently
- Replacing legacy `DispatchQueue`-based thread safety with modern Swift concurrency
chinese 2026-02-27 13:44:09 +00:00			`---`
			`name: swift-actor-persistence`
			`description: Thread-safe data persistence in Swift using actors — in-memory cache with file-backed storage, eliminating data races by design.`
			`origin: ECC`
			`---`

			`# Swift Actors for Thread-Safe Persistence`

			`Patterns for building thread-safe data persistence layers using Swift actors. Combines in-memory caching with file-backed storage, leveraging the actor model to eliminate data races at compile time.`

			`## When to Activate`

			`- Building a data persistence layer in Swift 5.5+`
			`- Need thread-safe access to shared mutable state`
			`- Want to eliminate manual synchronization (locks, DispatchQueues)`
			`- Building offline-first apps with local storage`

			`## Core Pattern`

			`### Actor-Based Repository`

			`The actor model guarantees serialized access — no data races, enforced by the compiler.`

			```swift
			`public actor LocalRepository<T: Codable & Identifiable> where T.ID == String {`
			`private var cache: [String: T] = [:]`
			`private let fileURL: URL`

			`public init(directory: URL = .documentsDirectory, filename: String = "data.json") {`
			`self.fileURL = directory.appendingPathComponent(filename)`
			`// Synchronous load during init (actor isolation not yet active)`
			`self.cache = Self.loadSynchronously(from: fileURL)`
			`}`

			`// MARK: - Public API`

			`public func save(_ item: T) throws {`
			`cache[item.id] = item`
			`try persistToFile()`
			`}`

			`public func delete(_ id: String) throws {`
			`cache[id] = nil`
			`try persistToFile()`
			`}`

			`public func find(by id: String) -> T? {`
			`cache[id]`
			`}`

			`public func loadAll() -> [T] {`
			`Array(cache.values)`
			`}`

			`// MARK: - Private`

			`private func persistToFile() throws {`
			`let data = try JSONEncoder().encode(Array(cache.values))`
			`try data.write(to: fileURL, options: .atomic)`
			`}`

			`private static func loadSynchronously(from url: URL) -> [String: T] {`
			`guard let data = try? Data(contentsOf: url),`
			`let items = try? JSONDecoder().decode([T].self, from: data) else {`
			`return [:]`
			`}`
			`return Dictionary(uniqueKeysWithValues: items.map { ($0.id, $0) })`
			`}`
			`}`
			```

			`### Usage`

			`All calls are automatically async due to actor isolation:`

			```swift
			`let repository = LocalRepository<Question>()`

			`// Read — fast O(1) lookup from in-memory cache`
			`let question = await repository.find(by: "q-001")`
			`let allQuestions = await repository.loadAll()`

			`// Write — updates cache and persists to file atomically`
			`try await repository.save(newQuestion)`
			`try await repository.delete("q-001")`
			```

			`### Combining with @Observable ViewModel`

			```swift
			`@Observable`
			`final class QuestionListViewModel {`
			`private(set) var questions: [Question] = []`
			`private let repository: LocalRepository<Question>`

			`init(repository: LocalRepository<Question> = LocalRepository()) {`
			`self.repository = repository`
			`}`

			`func load() async {`
			`questions = await repository.loadAll()`
			`}`

			`func add(_ question: Question) async throws {`
			`try await repository.save(question)`
			`questions = await repository.loadAll()`
			`}`
			`}`
			```

			`## Key Design Decisions`

			`\| Decision \| Rationale \|`
			`\|----------\|-----------\|`
			`\| Actor (not class + lock) \| Compiler-enforced thread safety, no manual synchronization \|`
			`\| In-memory cache + file persistence \| Fast reads from cache, durable writes to disk \|`
			`\| Synchronous init loading \| Avoids async initialization complexity \|`
			`\| Dictionary keyed by ID \| O(1) lookups by identifier \|`
			\| Generic over `Codable & Identifiable` \| Reusable across any model type \|
			\| Atomic file writes (`.atomic`) \| Prevents partial writes on crash \|

			`## Best Practices`

			- Use `Sendable` types for all data crossing actor boundaries
			`- Keep the actor's public API minimal — only expose domain operations, not persistence details`
			- Use `.atomic` writes to prevent data corruption if the app crashes mid-write
			- Load synchronously in `init` — async initializers add complexity with minimal benefit for local files
			- Combine with `@Observable` ViewModels for reactive UI updates

			`## Anti-Patterns to Avoid`

			- Using `DispatchQueue` or `NSLock` instead of actors for new Swift concurrency code
			`- Exposing the internal cache dictionary to external callers`
			`- Making the file URL configurable without validation`
			- Forgetting that all actor method calls are `await` — callers must handle async context
			- Using `nonisolated` to bypass actor isolation (defeats the purpose)

			`## When to Use`

			`- Local data storage in iOS/macOS apps (user data, settings, cached content)`
			`- Offline-first architectures that sync to a server later`
			`- Any shared mutable state that multiple parts of the app access concurrently`
			- Replacing legacy `DispatchQueue`-based thread safety with modern Swift concurrency