mirror of https://github.com/affaan-m/everything-claude-code.git synced 2026-06-10 02:03:14 +08:00

Files

Vu Thanh Tai 4ad5756899 feat: expand Kiro adapter to full language coverage (#2101 )

* feat: expand Kiro adapter to full language coverage

- Add 17 new agents (typescript, rust, kotlin, java, cpp, django, swift,
  fsharp, pytorch, mle, performance-optimizer) in both .md and .json formats
- Add 25 new skills (rust, kotlin, java/spring, django, fastapi, nestjs,
  react, nextjs, cpp, swift, mle/pytorch, deep-research, strategic-compact,
  autonomous-loops, content-hash-cache-pattern)
- Add 6 new language-specific steering files (rust, kotlin, java, cpp, php, ruby)
- Add 3 new hooks (rust-check-on-edit, python-lint-on-edit, security-check-on-create)
- Update README with expanded component inventory and documentation
- Fix install.sh line endings for macOS compatibility

Total Kiro components: 33 agents, 43 skills, 22 steering files, 13 hooks

* fix: resolve P1/P2 violations in Kiro agents, skills, and steering

- java-patterns.md: remove reference to non-existent quarkus-patterns skill
- kotlin-patterns.md: fix insecure BuildConfig recommendation for secrets
- swift-actor-persistence: fix Swift version claim (5.9+) and Dictionary crash
- java-reviewer.md: add recursive framework detection + robust diff chain
- kotlin-reviewer.md: replace unreliable diff detection with fallback chain
- rust-reviewer.md: add diff fallback + make CI gating mandatory
- jpa-patterns: add DISTINCT to fetch-join query to prevent duplicates
- django-reviewer.md: add migration safety check, narrow save() rule,
  fix pytest-django behavior description

* fix: resolve remaining violations in Kiro agents, skills, and docs

Agents:
- java-build-resolver.md: remove quarkus-patterns ref, fix 'Initialise' spelling
- java-reviewer.json: remove quarkus-patterns ref from prompt
- mle-reviewer.md, cpp-build-resolver.md, java-build-resolver.md,
  performance-optimizer.md: fix allowedTools 'read' -> 'fs_read'

Hooks:
- rust-check-on-edit: fix description to match askAgent behavior

Skills:
- content-hash-cache-pattern: hyphenate 'Content-Hash-Based'
- cpp-testing: hyphenate 'real-time'
- django-security: use placeholder secrets, fix CSRF_COOKIE_HTTPONLY=False
- nestjs-patterns: add Logger to HttpExceptionFilter for non-Http errors
- react-patterns: add React 19 compatibility note for useActionState
- rust-patterns: remove edition-specific 'Rust 2024+' reference
- springboot-patterns: cap exponential backoff, recommend Resilience4j
- springboot-security: fix invalid @Query SQL injection example
- swift-protocol-di-testing: add thread-safety doc comment to mock

Docs:
- README.md: fix Project Structure counts (33/43/22/13)

* fix: sync README tree with counts, restore local diff in kotlin-reviewer, correct django FK index guidance

- README.md: Project Structure tree now lists all 33 agents, 43 skills,
  22 steering files, and 13 hooks (was showing old subset)
- kotlin-reviewer.md: restore git diff --staged / git diff for local
  pre-commit review before falling back to HEAD~1
- django-reviewer.md: clarify that ForeignKey fields are indexed by
  default; only flag missing db_index on non-FK filter columns

2026-06-07 13:26:37 +08:00

4.7 KiB

Raw Blame History

name, description, origin

name	description	origin
swift-actor-persistence	Thread-safe data persistence in Swift using actors — in-memory cache with file-backed storage, eliminating data races by design.	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 5.9+ (iOS 17+, macOS 14+)
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.

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(items.map { ($0.id, $0) }, uniquingKeysWith: { _, latest in latest })
    }
}

Usage

All calls are automatically async due to actor isolation:

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

@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

4.7 KiB Raw Blame History