A powerful tool for Swift that simplifies and automates the process of creating spies
for testing. Using the @Spyable
annotation on a protocol, the macro generates
a spy class that implements the same interface as the protocol and keeps track of
interactions with its methods and properties.
A "spy" is a specific type of test double that not only replaces a real component, but also records all interactions for later inspection. It's particularly useful in behavior verification, where the interaction between objects, rather than the state, is the subject of the test.
The Spyable macro is designed to simplify and enhance the usage of spies in Swift testing. Traditionally, developers would need to manually create spies for each protocol in their codebase — a tedious and error-prone task. The Spyable macro revolutionizes this process by automatically generating these spies.
When a protocol is annotated with @Spyable
, the macro generates a corresponding spy class that
implement this protocol. This spy class is capable of tracking all interactions with its methods
and properties. It records method invocations, their arguments, and returned values, providing
a comprehensive log of interactions that occurred during the test. This data can then be used
to make precise assertions about the behavior of the system under test.
TL;DR
The Spyable macro provides the following functionality:
- Automatic Spy Generation: No need to manually create spy classes for each protocol.
Just annotate the protocol with
@Spyable
, and let the macro do the rest. - Interaction Tracking: The generated spy records method calls, arguments, and return values, making it easy to verify behavior in your tests.
- Swift Syntax: The macro uses Swift syntax, providing a seamless and familiar experience for Swift developers.
To get started, import Spyable: import Spyable
, annotate your protocol with @Spyable
:
@Spyable
protocol ServiceProtocol {
var name: String { get }
func fetchConfig(arg: UInt8) async throws -> [String: String]
}
This will generate a spy class named ServiceProtocolSpy
that implements ServiceProtocol
.
The generated class includes properties and methods for tracking the number of method calls,
the arguments passed, and whether the method was called.
class ServiceProtocolSpy: ServiceProtocol {
var name: String {
get { underlyingName }
set { underlyingName = newValue }
}
var underlyingName: (String)!
var fetchConfigArgCallsCount = 0
var fetchConfigArgCalled: Bool {
return fetchConfigArgCallsCount > 0
}
var fetchConfigArgReceivedArg: UInt8?
var fetchConfigArgReceivedInvocations: [UInt8] = []
var fetchConfigArgReturnValue: [String: String]!
var fetchConfigArgClosure: ((UInt8) async throws -> [String: String])?
func fetchConfig(arg: UInt8) async throws -> [String: String] {
fetchConfigArgCallsCount += 1
fetchConfigArgReceivedArg = (arg)
fetchConfigArgReceivedInvocations.append((arg))
if fetchConfigArgClosure != nil {
return try await fetchConfigArgClosure!(arg)
} else {
return fetchConfigArgReturnValue
}
}
}
Then, in your tests, you can use the spy to verify that your code is interacting
with the service
dependency of type ServiceProtocol
correctly:
func testFetchConfig() async throws {
let serviceSpy = ServiceProtocolSpy()
let sut = ViewModel(service: serviceSpy)
serviceSpy.fetchConfigArgReturnValue = ["key": "value"]
try await sut.fetchConfig()
XCTAssertEqual(serviceSpy.fetchConfigArgCallsCount, 1)
XCTAssertEqual(serviceSpy.fetchConfigArgReceivedInvocations, [1])
try await sut.saveConfig()
XCTAssertEqual(serviceSpy.fetchConfigArgCallsCount, 2)
XCTAssertEqual(serviceSpy.fetchConfigArgReceivedInvocations, [1, 1])
}
This repo comes with an example of how to use Spyable. You can find it here.
Soon.
Warning: Xcode beta 15.x command line tools are required.
For Xcode project
If you are using Xcode beta 15.x command line tools, you can add swift-spyable macro to your project as a package.
https://github.com/Matejkob/swift-spyable
For Swift Package Manager
In Package.swift
add:
dependencies: [
.package(url: "https://github.com/Matejkob/swift-spyable", from: "0.1.0")
]
and then add the product to any target that needs access to the macro:
.product(name: "Spyable", package: "swift-spyable"),
This library is released under the MIT license. See LICENSE for details.