swift-testing

📁 johnrogers/claude-swift-engineering 📅 Jan 23, 2026

总安装量

周安装量

#4189

全站排名

安装命令

npx skills add https://github.com/johnrogers/claude-swift-engineering --skill swift-testing

Agent 安装分布

codex 37

claude-code 35

opencode 33

github-copilot 29

cursor 25

Skill 文档

Swift Testing Framework

Modern testing with Swift Testing framework. No XCTest.

Overview

Swift Testing replaces XCTest with a modern macro-based approach that’s more concise, has better async support, and runs tests in parallel by default. The core principle: if you learned XCTest, unlearn itâSwift Testing works differently.

References

Core Concepts

Assertions

Macro	Use Case
`#expect(expression)`	Soft check â continues on failure. Use for most assertions.
`#require(expression)`	Hard check â stops test on failure. Use for preconditions only.

Optional Unwrapping

let user = try #require(await fetchUser(id: "123"))
#expect(user.id == "123")

Test Structure

import Testing
@testable import YourModule

@Suite
struct FeatureTests {
    let sut: FeatureType
    
    init() throws {
        sut = FeatureType()
    }
    
    @Test("Description of behavior")
    func testBehavior() {
        #expect(sut.someProperty == expected)
    }
}

Assertion Conversions

XCTest	Swift Testing
`XCTAssert(expr)`	`#expect(expr)`
`XCTAssertEqual(a, b)`	`#expect(a == b)`
`XCTAssertNil(a)`	`#expect(a == nil)`
`XCTAssertNotNil(a)`	`#expect(a != nil)`
`try XCTUnwrap(a)`	`try #require(a)`
`XCTAssertThrowsError`	`#expect(throws: ErrorType.self) { }`
`XCTAssertNoThrow`	`#expect(throws: Never.self) { }`

Error Testing

#expect(throws: (any Error).self) { try riskyOperation() }
#expect(throws: NetworkError.self) { try fetch() }
#expect(throws: NetworkError.timeout) { try fetch() }
#expect(throws: Never.self) { try safeOperation() }

Parameterized Tests

@Test("Validates inputs", arguments: zip(
    ["a", "b", "c"],
    [1, 2, 3]
))
func testInputs(input: String, expected: Int) {
    #expect(process(input) == expected)
}

Warning: Multiple collections WITHOUT zip creates Cartesian product.

Async Testing

@Test func testAsync() async throws {
    let result = try await fetchData()
    #expect(!result.isEmpty)
}

Confirmations

@Test func testCallback() async {
    await confirmation("callback received") { confirm in
        let sut = SomeType { confirm() }
        sut.triggerCallback()
    }
}

Common Pitfalls

Overusing #require â Use #expect for most checks
Forgetting state isolation â Each test gets a NEW instance
Accidental Cartesian product â Always use zip for paired inputs
Not using .serialized â Apply for thread-unsafe legacy tests

Common Mistakes

Overusing #require â #require is for preconditions only. Using it for normal assertions means the test stops at first failure instead of reporting all failures. Use #expect for assertions, #require only when subsequent assertions depend on the value.
Cartesian product bugs â @Test(arguments: [a, b], [c, d]) creates 4 combinations, not 2. Always use zip to pair arguments correctly: arguments: zip([a, b], [c, d]).
Forgetting state isolation â Swift Testing creates a new test instance per test method. BUT shared state between tests (static variables, singletons) still leak. Use dependency injection or clean up singletons between tests.
Parallel test conflicts â Swift Testing runs tests in parallel by default. Tests touching shared files, databases, or singletons will interfere. Use .serialized or isolation strategies.
Not using async naturally â Wrapping async operations in Task { } defeats the purpose. Use async/await directly in test function signature: @Test func testAsync() async throws { }.
Confirmation misuse â confirmation is for verifying callbacks were called. Using it for assertions is wrong. Use #expect for assertions, confirmation for callback counts.

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