claude-code/.claude/skills/swift-protocol-di-testing/SKILL.md

---
name: swift-protocol-di-testing
description: Protocol-based dependency injection for testable Swift code — mock file system, network, and external APIs using focused protocols and Swift Testing.
origin: ECC
---

# Swift Protocol-Based Dependency Injection for Testing

Patterns for making Swift code testable by abstracting external dependencies (file system, network, iCloud) behind small, focused protocols. Enables deterministic tests without I/O.

## When to Activate

- Writing Swift code that accesses file system, network, or external APIs
- Need to test error handling paths without triggering real failures
- Building modules that work across environments (app, test, SwiftUI preview)
- Designing testable architecture with Swift concurrency (actors, Sendable)

## Core Pattern

### 1. Define Small, Focused Protocols

Each protocol handles exactly one external concern.

```swift
// File system access
public protocol FileSystemProviding: Sendable {
    func containerURL(for purpose: Purpose) -> URL?
}

// File read/write operations
public protocol FileAccessorProviding: Sendable {
    func read(from url: URL) throws -> Data
    func write(_ data: Data, to url: URL) throws
    func fileExists(at url: URL) -> Bool
}

// Bookmark storage (e.g., for sandboxed apps)
public protocol BookmarkStorageProviding: Sendable {
    func saveBookmark(_ data: Data, for key: String) throws
    func loadBookmark(for key: String) throws -> Data?
}
```

### 2. Create Default (Production) Implementations

```swift
public struct DefaultFileSystemProvider: FileSystemProviding {
    public init() {}

    public func containerURL(for purpose: Purpose) -> URL? {
        FileManager.default.url(forUbiquityContainerIdentifier: nil)
    }
}

public struct DefaultFileAccessor: FileAccessorProviding {
    public init() {}

    public func read(from url: URL) throws -> Data {
        try Data(contentsOf: url)
    }

    public func write(_ data: Data, to url: URL) throws {
        try data.write(to: url, options: .atomic)
    }

    public func fileExists(at url: URL) -> Bool {
        FileManager.default.fileExists(atPath: url.path)
    }
}
```

### 3. Create Mock Implementations for Testing

```swift
public final class MockFileAccessor: FileAccessorProviding, @unchecked Sendable {
    public var files: [URL: Data] = [:]
    public var readError: Error?
    public var writeError: Error?

    public init() {}

    public func read(from url: URL) throws -> Data {
        if let error = readError { throw error }
        guard let data = files[url] else {
            throw CocoaError(.fileReadNoSuchFile)
        }
        return data
    }

    public func write(_ data: Data, to url: URL) throws {
        if let error = writeError { throw error }
        files[url] = data
    }

    public func fileExists(at url: URL) -> Bool {
        files[url] != nil
    }
}
```

### 4. Inject Dependencies with Default Parameters

Production code uses defaults; tests inject mocks.

```swift
public actor SyncManager {
    private let fileSystem: FileSystemProviding
    private let fileAccessor: FileAccessorProviding

    public init(
        fileSystem: FileSystemProviding = DefaultFileSystemProvider(),
        fileAccessor: FileAccessorProviding = DefaultFileAccessor()
    ) {
        self.fileSystem = fileSystem
        self.fileAccessor = fileAccessor
    }

    public func sync() async throws {
        guard let containerURL = fileSystem.containerURL(for: .sync) else {
            throw SyncError.containerNotAvailable
        }
        let data = try fileAccessor.read(
            from: containerURL.appendingPathComponent("data.json")
        )
        // Process data...
    }
}
```

### 5. Write Tests with Swift Testing

```swift
import Testing

@Test("Sync manager handles missing container")
func testMissingContainer() async {
    let mockFileSystem = MockFileSystemProvider(containerURL: nil)
    let manager = SyncManager(fileSystem: mockFileSystem)

    await #expect(throws: SyncError.containerNotAvailable) {
        try await manager.sync()
    }
}

@Test("Sync manager reads data correctly")
func testReadData() async throws {
    let mockFileAccessor = MockFileAccessor()
    mockFileAccessor.files[testURL] = testData

    let manager = SyncManager(fileAccessor: mockFileAccessor)
    let result = try await manager.loadData()

    #expect(result == expectedData)
}

@Test("Sync manager handles read errors gracefully")
func testReadError() async {
    let mockFileAccessor = MockFileAccessor()
    mockFileAccessor.readError = CocoaError(.fileReadCorruptFile)

    let manager = SyncManager(fileAccessor: mockFileAccessor)

    await #expect(throws: SyncError.self) {
        try await manager.sync()
    }
}
```

## Best Practices

- **Single Responsibility**: Each protocol should handle one concern — don't create "god protocols" with many methods
- **Sendable conformance**: Required when protocols are used across actor boundaries
- **Default parameters**: Let production code use real implementations by default; only tests need to specify mocks
- **Error simulation**: Design mocks with configurable error properties for testing failure paths
- **Only mock boundaries**: Mock external dependencies (file system, network, APIs), not internal types

## Anti-Patterns to Avoid

- Creating a single large protocol that covers all external access
- Mocking internal types that have no external dependencies
- Using `#if DEBUG` conditionals instead of proper dependency injection
- Forgetting `Sendable` conformance when used with actors
- Over-engineering: if a type has no external dependencies, it doesn't need a protocol

## When to Use

- Any Swift code that touches file system, network, or external APIs
- Testing error handling paths that are hard to trigger in real environments
- Building modules that need to work in app, test, and SwiftUI preview contexts
- Apps using Swift concurrency (actors, structured concurrency) that need testable architecture
chinese 2026-02-27 13:44:09 +00:00			`---`
			`name: swift-protocol-di-testing`
			`description: Protocol-based dependency injection for testable Swift code — mock file system, network, and external APIs using focused protocols and Swift Testing.`
			`origin: ECC`
			`---`

			`# Swift Protocol-Based Dependency Injection for Testing`

			`Patterns for making Swift code testable by abstracting external dependencies (file system, network, iCloud) behind small, focused protocols. Enables deterministic tests without I/O.`

			`## When to Activate`

			`- Writing Swift code that accesses file system, network, or external APIs`
			`- Need to test error handling paths without triggering real failures`
			`- Building modules that work across environments (app, test, SwiftUI preview)`
			`- Designing testable architecture with Swift concurrency (actors, Sendable)`

			`## Core Pattern`

			`### 1. Define Small, Focused Protocols`

			`Each protocol handles exactly one external concern.`

			```swift
			`// File system access`
			`public protocol FileSystemProviding: Sendable {`
			`func containerURL(for purpose: Purpose) -> URL?`
			`}`

			`// File read/write operations`
			`public protocol FileAccessorProviding: Sendable {`
			`func read(from url: URL) throws -> Data`
			`func write(_ data: Data, to url: URL) throws`
			`func fileExists(at url: URL) -> Bool`
			`}`

			`// Bookmark storage (e.g., for sandboxed apps)`
			`public protocol BookmarkStorageProviding: Sendable {`
			`func saveBookmark(_ data: Data, for key: String) throws`
			`func loadBookmark(for key: String) throws -> Data?`
			`}`
			```

			`### 2. Create Default (Production) Implementations`

			```swift
			`public struct DefaultFileSystemProvider: FileSystemProviding {`
			`public init() {}`

			`public func containerURL(for purpose: Purpose) -> URL? {`
			`FileManager.default.url(forUbiquityContainerIdentifier: nil)`
			`}`
			`}`

			`public struct DefaultFileAccessor: FileAccessorProviding {`
			`public init() {}`

			`public func read(from url: URL) throws -> Data {`
			`try Data(contentsOf: url)`
			`}`

			`public func write(_ data: Data, to url: URL) throws {`
			`try data.write(to: url, options: .atomic)`
			`}`

			`public func fileExists(at url: URL) -> Bool {`
			`FileManager.default.fileExists(atPath: url.path)`
			`}`
			`}`
			```

			`### 3. Create Mock Implementations for Testing`

			```swift
			`public final class MockFileAccessor: FileAccessorProviding, @unchecked Sendable {`
			`public var files: [URL: Data] = [:]`
			`public var readError: Error?`
			`public var writeError: Error?`

			`public init() {}`

			`public func read(from url: URL) throws -> Data {`
			`if let error = readError { throw error }`
			`guard let data = files[url] else {`
			`throw CocoaError(.fileReadNoSuchFile)`
			`}`
			`return data`
			`}`

			`public func write(_ data: Data, to url: URL) throws {`
			`if let error = writeError { throw error }`
			`files[url] = data`
			`}`

			`public func fileExists(at url: URL) -> Bool {`
			`files[url] != nil`
			`}`
			`}`
			```

			`### 4. Inject Dependencies with Default Parameters`

			`Production code uses defaults; tests inject mocks.`

			```swift
			`public actor SyncManager {`
			`private let fileSystem: FileSystemProviding`
			`private let fileAccessor: FileAccessorProviding`

			`public init(`
			`fileSystem: FileSystemProviding = DefaultFileSystemProvider(),`
			`fileAccessor: FileAccessorProviding = DefaultFileAccessor()`
			`) {`
			`self.fileSystem = fileSystem`
			`self.fileAccessor = fileAccessor`
			`}`

			`public func sync() async throws {`
			`guard let containerURL = fileSystem.containerURL(for: .sync) else {`
			`throw SyncError.containerNotAvailable`
			`}`
			`let data = try fileAccessor.read(`
			`from: containerURL.appendingPathComponent("data.json")`
			`)`
			`// Process data...`
			`}`
			`}`
			```

			`### 5. Write Tests with Swift Testing`

			```swift
			`import Testing`

			`@Test("Sync manager handles missing container")`
			`func testMissingContainer() async {`
			`let mockFileSystem = MockFileSystemProvider(containerURL: nil)`
			`let manager = SyncManager(fileSystem: mockFileSystem)`

			`await #expect(throws: SyncError.containerNotAvailable) {`
			`try await manager.sync()`
			`}`
			`}`

			`@Test("Sync manager reads data correctly")`
			`func testReadData() async throws {`
			`let mockFileAccessor = MockFileAccessor()`
			`mockFileAccessor.files[testURL] = testData`

			`let manager = SyncManager(fileAccessor: mockFileAccessor)`
			`let result = try await manager.loadData()`

			`#expect(result == expectedData)`
			`}`

			`@Test("Sync manager handles read errors gracefully")`
			`func testReadError() async {`
			`let mockFileAccessor = MockFileAccessor()`
			`mockFileAccessor.readError = CocoaError(.fileReadCorruptFile)`

			`let manager = SyncManager(fileAccessor: mockFileAccessor)`

			`await #expect(throws: SyncError.self) {`
			`try await manager.sync()`
			`}`
			`}`
			```

			`## Best Practices`

			`- Single Responsibility: Each protocol should handle one concern — don't create "god protocols" with many methods`
			`- Sendable conformance: Required when protocols are used across actor boundaries`
			`- Default parameters: Let production code use real implementations by default; only tests need to specify mocks`
			`- Error simulation: Design mocks with configurable error properties for testing failure paths`
			`- Only mock boundaries: Mock external dependencies (file system, network, APIs), not internal types`

			`## Anti-Patterns to Avoid`

			`- Creating a single large protocol that covers all external access`
			`- Mocking internal types that have no external dependencies`
			- Using `#if DEBUG` conditionals instead of proper dependency injection
			- Forgetting `Sendable` conformance when used with actors
			`- Over-engineering: if a type has no external dependencies, it doesn't need a protocol`

			`## When to Use`

			`- Any Swift code that touches file system, network, or external APIs`
			`- Testing error handling paths that are hard to trigger in real environments`
			`- Building modules that need to work in app, test, and SwiftUI preview contexts`
			`- Apps using Swift concurrency (actors, structured concurrency) that need testable architecture`