All you need to get started is just to add a dependency to MockK
library.
Approach | Instruction |
---|---|
testImplementation "io.mockk:mockk:${mockkVersion}" |
|
(Kotlin DSL) |
testImplementation("io.mockk:mockk:${mockkVersion}") |
<dependency> <groupId>io.mockk</groupId> <artifactId>mockk-jvm</artifactId> <version>${mockkVersion}</version> <scope>test</scope> </dependency> |
|
Unit |
testImplementation "io.mockk:mockk-android:${mockkVersion}" testImplementation "io.mockk:mockk-agent:${mockkVersion}" |
Instrumented |
androidTestImplementation "io.mockk:mockk-android:${mockkVersion}" androidTestImplementation "io.mockk:mockk-agent:${mockkVersion}" |
Simplest example. By default mocks are strict, so you need to provide some behaviour.
val car = mockk<Car>()
every { car.drive(Direction.NORTH) } returns Outcome.OK
car.drive(Direction.NORTH) // returns OK
verify { car.drive(Direction.NORTH) }
confirmVerified(car)
See the "Features" section below for more detailed examples.
- springmockk introduced in official Spring Boot Kotlin tutorial
- quarkus-mockk adds support for mocking beans in Quarkus. Documentation can be found here
From version 1.13.0 MockK supports Kotlin 1.4 and higher
- PowerMock needs a workaround to run together with MockK #79. (not sure after workaround if it is generally usable or not, please somebody report it)
- Inline functions cannot be mocked: see the discussion on this issue
- Spies,
mockkStatic
may not work on JDK 16+;InaccessibleObjectException
/IllegalAccessException
: read more here - Using a spy with a suspending function will give unexpected test results
Table of contents:
- auto-gen TOC: {:toc}
Check the series of articles "Mocking is not rocket science" at Kt. Academy describing MockK from the very basics of mocking up to description of all advanced features.
-
(Video) Use verify in MockK to validate function calls on mocked object
-
KotlinConf 2018 - Best Practices for Unit Testing in Kotlin by Philipp Hauer
-
kotlin-fullstack-sample uses MockK project covered with tests
-
Habrahabr article (RU)
- Documentation translation to Japanese
- Unraveling MockK's black magic / MockKの「黒魔術」を解明する (JP, but readable through chrome translator)
- 用 Kotlin + Mockito 寫單元測試會碰到什麼問題?
- MockK 功能介紹:mockk, every, Annotation, verify
- MockK 功能介紹:Relaxed Mocks, 再談 Verify, Capture
- 如何測試 Static Method, Singleton
You can use annotations to simplify the creation of mock objects:
class TrafficSystem {
lateinit var car1: Car
lateinit var car2: Car
lateinit var car3: Car
}
class CarTest {
@MockK
lateinit var car1: Car
@RelaxedMockK
lateinit var car2: Car
@MockK(relaxUnitFun = true)
lateinit var car3: Car
@SpyK
var car4 = Car()
@InjectMockKs
var trafficSystem = TrafficSystem()
@Before
fun setUp() = MockKAnnotations.init(this, relaxUnitFun = true) // turn relaxUnitFun on for all mocks
@Test
fun calculateAddsValues1() {
// ... use car1, car2, car3 and car4
}
}
Injection first tries to match properties by name, then by class or superclass.
Check the lookupType
parameter for customization.
Properties are injected even if private
is applied. Constructors for injection are selected from the biggest
number of arguments to lowest.
@InjectMockKs
by default injects only lateinit var
s or var
s that are not assigned.
To change this, use overrideValues = true
. This would assign the value even if it is already initialized somehow.
To inject val
s, use injectImmutable = true
. For a shorter notation use @OverrideMockKs
which does the same as
@InjectMockKs
by default, but turns these two flags on.
JUnit 4 exposes a rule-based API to allow for some automation following the test lifecycle. MockK includes a rule which uses this to set up and tear down your mocks without needing to manually call MockKAnnotations.init(this)
. Example:
class CarTest {
@get:Rule
val mockkRule = MockKRule(this)
@MockK
lateinit var car1: Car
@RelaxedMockK
lateinit var car2: Car
@Test
fun something() {
every { car1.drive() } just runs
every { car2.changeGear(any()) } returns true
// etc
}
}
In JUnit5 you can use MockKExtension
to initialize your mocks.
@ExtendWith(MockKExtension::class)
class CarTest {
@MockK
lateinit var car1: Car
@RelaxedMockK
lateinit var car2: Car
@MockK(relaxUnitFun = true)
lateinit var car3: Car
@SpyK
var car4 = Car()
@Test
fun calculateAddsValues1() {
// ... use car1, car2, car3 and car4
}
}
Additionally, it adds the possibility to use @MockK
and @RelaxedMockK
on test function parameters:
@Test
fun calculateAddsValues1(@MockK car1: Car, @RelaxedMockK car2: Car) {
// ... use car1 and car2
}
Finally, this extension will call unmockkAll
and clearAllMocks
in a @AfterAll
callback, ensuring your test environment is clean after
each test class execution.
You can disable this behavior by adding the @MockKExtension.KeepMocks
annotation to your class or globally by setting
the mockk.junit.extension.keepmocks=true
property.
(Since v1.13.11)
Alternatively, since clearAllMocks
by default (currentThreadOnly=false
) is not thread-safe, if you need to run test in parallel you can add the
MockKExtension.RequireParallelTesting
annotation to your class or set the mockk.junit.extension.requireParallelTesting=true
property to disable calling it in the @AfterAll
callback.
If clearAllMocks
is explicitly called, you can supply clearAllMocks(currentThreadOnly = true)
so that it only clears mocks created within the same thread (since v1.13.12).
You can make sure that all stubbed methods are actually verified by also annotating your test class with @MockKExtension.ConfirmVerification
.
This will internally call confirmVerified
on all mocks after each test, to make sure there are no unnecessary stubbings.
Please note that this behavior may not work as expected when running tests in your IDE, as it is Gradle who takes care of handling the exception being thrown when these confirmVerified
calls fail.
You can make sure that all stubbed methods are useful - used at least once - by also annotating your test class with @MockKExtension.CheckUnnecessaryStub
.
This will internally call checkUnnecessaryStub
on all mocks after each test, to make sure there are no unnecessary stubbings.
Spies allow you to mix mocks and real objects.
val car = spyk(Car()) // or spyk<Car>() to call the default constructor
car.drive(Direction.NORTH) // returns whatever the real function of Car returns
verify { car.drive(Direction.NORTH) }
confirmVerified(car)
Note 1: the spy object is a copy of the passed object. Note 2: there is a known issue if using a spy with a suspending function: mockk#554
A relaxed mock
is the mock that returns some simple value for all functions.
This allows you to skip specifying behavior for each case, while still stubbing things you need.
For reference types, chained mocks are returned.
val car = mockk<Car>(relaxed = true)
car.drive(Direction.NORTH) // returns null
verify { car.drive(Direction.NORTH) }
confirmVerified(car)
Note: relaxed mocking is working badly with generic return types. A class cast exception is usually thrown in this case. Opt for stubbing manually in the case of a generic return type.
Workaround:
val func = mockk<() -> Car>(relaxed = true) // in this case invoke function has generic return type
// this line is workaround, without it the relaxed mock would throw a class cast exception on the next line
every { func() } returns Car() // or you can return mockk() for example
func()
Sometimes, you need to stub some functions, but still call the real method on others, or on specific arguments.
This is possible by passing callOriginal()
to answers
, which works for both relaxed and non-relaxed mocks.
class Adder {
fun addOne(num: Int) = num + 1
}
val adder = mockk<Adder>()
every { adder.addOne(any()) } returns -1
every { adder.addOne(3) } answers { callOriginal() }
assertEquals(-1, adder.addOne(2))
assertEquals(4, adder.addOne(3)) // original function is called
If you want Unit
-returning functions to be relaxed, you can use relaxUnitFun = true
as an argument to the mockk
function,
@MockK
annotation or MockKAnnotations.init
function.
Function:
mockk<ClassBeingMocked>(relaxUnitFun = true)
Annotation:
@MockK(relaxUnitFun = true)
lateinit var mock1: ClassBeingMocked
init {
MockKAnnotations.init(this)
}
MockKAnnotations.init:
@MockK
lateinit var mock2: ClassBeingMocked
init {
MockKAnnotations.init(this, relaxUnitFun = true)
}
Objects can be turned into mocks in the following way:
object ObjBeingMocked {
fun add(a: Int, b: Int) = a + b
}
mockkObject(ObjBeingMocked) // applies mocking to an Object
assertEquals(3, ObjBeingMocked.add(1, 2))
every { ObjBeingMocked.add(1, 2) } returns 55
assertEquals(55, ObjBeingMocked.add(1, 2))
To revert back, use unmockkObject
or unmockkAll
(more destructive: cancels object, static and constructor mocks)
@Before
fun beforeTests() {
mockkObject(ObjBeingMocked)
every { ObjBeingMocked.add(1,2) } returns 55
}
@Test
fun willUseMockBehaviour() {
assertEquals(55, ObjBeingMocked.add(1,2))
}
@After
fun afterTests() {
unmockkObject(ObjBeingMocked)
// or unmockkAll()
}
Despite the Kotlin language restrictions, you can create new instances of objects if required by testing logic:
val newObjectMock = mockk<ObjBeingMocked>()
Sometimes you need a mock of an arbitrary class. Use mockkClass
in those cases.
val car = mockkClass(Car::class)
every { car.drive(Direction.NORTH) } returns Outcome.OK
car.drive(Direction.NORTH) // returns OK
verify { car.drive(Direction.NORTH) }
Enums can be mocked using mockkObject
:
enum class Enumeration(val goodInt: Int) {
CONSTANT(35),
OTHER_CONSTANT(45);
}
mockkObject(Enumeration.CONSTANT)
every { Enumeration.CONSTANT.goodInt } returns 42
assertEquals(42, Enumeration.CONSTANT.goodInt)
Sometimes, especially in code you don't own, you need to mock newly created objects. For this purpose, the following constructs are provided:
class MockCls {
fun add(a: Int, b: Int) = a + b
}
mockkConstructor(MockCls::class)
every { anyConstructed<MockCls>().add(1, 2) } returns 4
assertEquals(4, MockCls().add(1, 2)) // note new object is created
verify { anyConstructed<MockCls>().add(1, 2) }
The basic idea is that just after the constructor of the mocked class is executed (any of them), objects become a constructed mock
.
Mocking behavior of such a mock is connected to the special prototype mock
denoted by anyConstructed<MockCls>()
.
There is one instance per class of such a prototype mock
. Call recording also happens to the prototype mock
.
If no behavior for the function is specified, then the original function is executed.
In case a class has more than one constructor, each can be mocked separately:
class MockCls(private val a: Int = 0) {
constructor(x: String) : this(x.toInt())
fun add(b: Int) = a + b
}
mockkConstructor(MockCls::class)
every { constructedWith<MockCls>().add(1) } returns 2
every {
constructedWith<MockCls>(OfTypeMatcher<String>(String::class)).add(2) // Mocks the constructor which takes a String
} returns 3
every {
constructedWith<MockCls>(EqMatcher(4)).add(any()) // Mocks the constructor which takes an Int
} returns 4
assertEquals(2, MockCls().add(1))
assertEquals(3, MockCls("2").add(2))
assertEquals(4, MockCls(4).add(7))
verify {
constructedWith<MockCls>().add(1)
constructedWith<MockCls>("2").add(2)
constructedWith<MockCls>(EqMatcher(4)).add(7)
}
Note that in this case, a prototype mock
is created for every set of argument matchers passed to constructedWith
.
You can mix both regular arguments and matchers:
val car = mockk<Car>()
every {
car.recordTelemetry(
speed = more(50),
direction = Direction.NORTH, // here eq() is used
lat = any(),
long = any()
)
} returns Outcome.RECORDED
car.recordTelemetry(60, Direction.NORTH, 51.1377382, 17.0257142)
verify { car.recordTelemetry(60, Direction.NORTH, 51.1377382, 17.0257142) }
confirmVerified(car)
You can stub chains of calls:
val car = mockk<Car>()
every { car.door(DoorType.FRONT_LEFT).windowState() } returns WindowState.UP
car.door(DoorType.FRONT_LEFT) // returns chained mock for Door
car.door(DoorType.FRONT_LEFT).windowState() // returns WindowState.UP
verify { car.door(DoorType.FRONT_LEFT).windowState() }
confirmVerified(car)
Note: if the function's return type is generic then the information about the actual type is gone.
To make chained calls work, additional information is required.
Most of the time the framework will catch the cast exception and do autohinting
.
In the case it is explicitly required, use hint
before making the next call.
every { obj.op2(1, 2).hint(Int::class).op1(3, 4) } returns 5
From version 1.9.1 mocks may be chained into hierarchies:
interface AddressBook {
val contacts: List<Contact>
}
interface Contact {
val name: String
val telephone: String
val address: Address
}
interface Address {
val city: String
val zip: String
}
val addressBook = mockk<AddressBook> {
every { contacts } returns listOf(
mockk {
every { name } returns "John"
every { telephone } returns "123-456-789"
every { address.city } returns "New-York"
every { address.zip } returns "123-45"
},
mockk {
every { name } returns "Alex"
every { telephone } returns "789-456-123"
every { address } returns mockk {
every { city } returns "Wroclaw"
every { zip } returns "543-21"
}
}
)
}
You can capture an argument to a CapturingSlot
or MutableList
.
CapturingSlot
is usually created via factory method slot<T : Any?>()
and is possible to capture nullable and non nullable types.
MutableList
is intended for capturing multiple values during testing.
enum class Direction { NORTH, SOUTH }
enum class RecordingOutcome { RECORDED }
enum class RoadType { HIGHWAY }
class Car {
fun recordTelemetry(speed: Double, direction: Direction, roadType: RoadType?): RecordingOutcome {
TODO("not implement for showcase")
}
}
val car = mockk<Car>()
// allow to capture parameter with non nullable type `Double`
val speedSlot = slot<Double>()
// allow to capture parameter with nullable type `RoadType`
val roadTypeSlot = slot<RoadType?>()
val list = mutableListOf<Double>()
every {
car.recordTelemetry(
speed = capture(speedSlot), // makes mock match calls with any value for `speed` and record it in a slot
direction = Direction.NORTH, // makes mock and capturing only match calls with specific `direction`. Use `any()` to match calls with any `direction`
roadType = captureNullable(roadTypeSlot), // makes mock match calls with any value for `roadType` and record it in a slot
)
} answers {
println("Speed: ${speedSlot.captured}, roadType: ${roadTypeSlot.captured}")
RecordingOutcome.RECORDED
}
every {
car.recordTelemetry(
speed = capture(list),
direction = Direction.SOUTH,
roadType = captureNullable(roadTypeSlot),
)
} answers {
println("Speed: ${list}, roadType: ${roadTypeSlot.captured}")
RecordingOutcome.RECORDED
}
car.recordTelemetry(speed = 15.0, direction = Direction.NORTH, null) // prints Speed: 15.0, roadType: null
car.recordTelemetry(speed = 16.0, direction = Direction.SOUTH, RoadType.HIGHWAY) // prints Speed: [16.0], roadType: HIGHWAY
verifyOrder {
car.recordTelemetry(speed = or(15.0, 16.0), direction = any(), roadType = null)
car.recordTelemetry(speed = 16.0, direction = any(), roadType = RoadType.HIGHWAY)
}
confirmVerified(car)
You can check the call count with the atLeast
, atMost
or exactly
parameters:
val car = mockk<Car>(relaxed = true)
car.accelerate(fromSpeed = 10, toSpeed = 20)
car.accelerate(fromSpeed = 10, toSpeed = 30)
car.accelerate(fromSpeed = 20, toSpeed = 30)
// all pass
verify(atLeast = 3) { car.accelerate(allAny()) }
verify(atMost = 2) { car.accelerate(fromSpeed = 10, toSpeed = or(20, 30)) }
verify(exactly = 1) { car.accelerate(fromSpeed = 10, toSpeed = 20) }
verify(exactly = 0) { car.accelerate(fromSpeed = 30, toSpeed = 10) } // means no calls were performed
confirmVerified(car)
Or you can use verifyCount
:
val car = mockk<Car>(relaxed = true)
car.accelerate(fromSpeed = 10, toSpeed = 20)
car.accelerate(fromSpeed = 10, toSpeed = 30)
car.accelerate(fromSpeed = 20, toSpeed = 30)
// all pass
verifyCount {
(3..5) * { car.accelerate(allAny(), allAny()) } // same as verify(atLeast = 3, atMost = 5) { car.accelerate(allAny(), allAny()) }
1 * { car.accelerate(fromSpeed = 10, toSpeed = 20) } // same as verify(exactly = 1) { car.accelerate(fromSpeed = 10, toSpeed = 20) }
0 * { car.accelerate(fromSpeed = 30, toSpeed = 10) } // same as verify(exactly = 0) { car.accelerate(fromSpeed = 30, toSpeed = 10) }
}
confirmVerified(car)
verifyAll
verifies that all calls happened without checking their order.verifySequence
verifies that the calls happened in a specified sequence.verifyOrder
verifies that calls happened in a specific order.wasNot Called
verifies that the mock (or the list of mocks) was not called at all.
class MockedClass {
fun sum(a: Int, b: Int) = a + b
}
val obj = mockk<MockedClass>()
val slot = slot<Int>()
every {
obj.sum(any(), capture(slot))
} answers {
1 + firstArg<Int>() + slot.captured
}
obj.sum(1, 2) // returns 4
obj.sum(1, 3) // returns 5
obj.sum(2, 2) // returns 5
verifyAll {
obj.sum(1, 3)
obj.sum(1, 2)
obj.sum(2, 2)
}
verifySequence {
obj.sum(1, 2)
obj.sum(1, 3)
obj.sum(2, 2)
}
verifyOrder {
obj.sum(1, 2)
obj.sum(2, 2)
}
val obj2 = mockk<MockedClass>()
val obj3 = mockk<MockedClass>()
verify {
listOf(obj2, obj3) wasNot Called
}
confirmVerified(obj)
To double-check that all calls were verified by verify...
constructs, you can use confirmVerified
:
confirmVerified(mock1, mock2)
It doesn't make much sense to use it for verifySequence
and verifyAll
, as these verification methods already exhaustively cover all calls with verification.
It will throw an exception if there are some calls left without verification.
Some calls can be excluded from this confirmation, check the next section for more details.
val car = mockk<Car>()
every { car.drive(Direction.NORTH) } returns Outcome.OK
every { car.drive(Direction.SOUTH) } returns Outcome.OK
car.drive(Direction.NORTH) // returns OK
car.drive(Direction.SOUTH) // returns OK
verify {
car.drive(Direction.SOUTH)
car.drive(Direction.NORTH)
}
confirmVerified(car) // makes sure all calls were covered with verification
Because clean & maintainable test code requires zero unnecessary code, you can ensure that there is no unnecessary stubs.
checkUnnecessaryStub(mock1, mock2)
It will throw an exception if there are some declared calls on the mocks that are not used by the tested code. This can happen if you have declared some really unnecessary stubs or if the tested code doesn't call an expected one.
To exclude unimportant calls from being recorded, you can use excludeRecords
:
excludeRecords { mock.operation(any(), 5) }
All matching calls will be excluded from recording. This may be useful if you are using exhaustive verification: verifyAll
, verifySequence
or confirmVerified
.
val car = mockk<Car>()
every { car.drive(Direction.NORTH) } returns Outcome.OK
every { car.drive(Direction.SOUTH) } returns Outcome.OK
excludeRecords { car.drive(Direction.SOUTH) }
car.drive(Direction.NORTH) // returns OK
car.drive(Direction.SOUTH) // returns OK
verify {
car.drive(Direction.NORTH)
}
confirmVerified(car) // car.drive(Direction.SOUTH) was excluded, so confirmation is fine with only car.drive(Direction.NORTH)
To verify concurrent operations, you can use timeout = xxx
:
mockk<MockCls> {
every { sum(1, 2) } returns 4
Thread {
Thread.sleep(2000)
sum(1, 2)
}.start()
verify(timeout = 3000) { sum(1, 2) }
}
This will wait until one of two following states: either verification is passed or the timeout is reached.
If a function returns Unit
, you can use the justRun
construct:
class MockedClass {
fun sum(a: Int, b: Int): Unit {
println(a + b)
}
}
val obj = mockk<MockedClass>()
justRun { obj.sum(any(), 3) }
obj.sum(1, 1)
obj.sum(1, 2)
obj.sum(1, 3)
verify {
obj.sum(1, 1)
obj.sum(1, 2)
obj.sum(1, 3)
}
Other ways to write justRun { obj.sum(any(), 3) }
:
every { obj.sum(any(), 3) } just Runs
every { obj.sum(any(), 3) } returns Unit
every { obj.sum(any(), 3) } answers { Unit }
To mock coroutines you need to add another dependency to the support library.
Gradle |
---|
testImplementation "org.jetbrains.kotlinx:kotlinx-coroutines-core:x.x" |
Maven |
---|
<dependency> <groupId>org.jetbrains.kotlinx</groupId> <artifactId>kotlinx-coroutines-core</artifactId> <version>x.x</version> <scope>test</scope> </dependency> |
Then you can use coEvery
, coVerify
, coMatch
, coAssert
, coRun
, coAnswers
or coInvoke
to mock suspend functions.
val car = mockk<Car>()
coEvery { car.drive(Direction.NORTH) } returns Outcome.OK
car.drive(Direction.NORTH) // returns OK
coVerify { car.drive(Direction.NORTH) }
And to simulate a never returning suspend
function, you can use coJustAwait
:
runTest {
val car = mockk<Car>()
coJustAwait { car.drive(any()) } // car.drive(...) will never return
val job = launch(UnconfinedTestDispatcher()) {
car.drive(Direction.NORTH)
}
coVerify { car.drive(Direction.NORTH) }
job.cancelAndJoin() // Don't forget to cancel the job
}
Note: there is a known issue if using a spy with a suspending function: mockk#554
Kotlin lets you declare functions that don’t belong to any class or object, called top-level functions. These calls are translated to static methods in jvm
environments, and a special Java class is generated to hold the functions. These top-level functions can be mocked using mockkStatic
. You just need to import the function and pass a reference as the argument:
import com.cars.buildCar
val testCar = Car()
mockkStatic(::buildCar)
every { buildCar() } returns testCar
assertEquals(testCar, buildCar())
verify { buildCar() }
Mocking a function will clear any existing mocks of other functions declared in the same file, equivalent to calling clearStaticMockk
on the generated enclosing class.
There are three types of extension function in Kotlin:
- class-wide
- object-wide
- module-wide
For an object or a class, you can mock extension functions just by creating a regular mockk
:
data class Obj(val value: Int)
class Ext {
fun Obj.extensionFunc() = value + 5
}
with(mockk<Ext>()) {
every {
Obj(5).extensionFunc()
} returns 11
assertEquals(11, Obj(5).extensionFunc())
verify {
Obj(5).extensionFunc()
}
}
To mock module-wide extension functions you need to
build mockkStatic(...)
with the module's class name as an argument.
For example "pkg.FileKt" for module File.kt
in the pkg
package.
data class Obj(val value: Int)
// declared in File.kt ("pkg" package)
fun Obj.extensionFunc() = value + 5
mockkStatic("pkg.FileKt")
every {
Obj(5).extensionFunc()
} returns 11
assertEquals(11, Obj(5).extensionFunc())
verify {
Obj(5).extensionFunc()
}
In jvm
environments you can replace the class name with a function reference:
mockkStatic(Obj::extensionFunc)
Note that this will mock the whole pkg.FileKt
class, and not just extensionFunc
.
This syntax also applies for extension properties:
val Obj.squareValue get() = value * value
mockkStatic(Obj::squareValue)
If @JvmName
is used, specify it as a class name.
KHttp.kt:
@file:JvmName("KHttp")
package khttp
// ... KHttp code
Testing code:
mockkStatic("khttp.KHttp")
Sometimes you need to know a little bit more to mock an extension function.
For example the extension function File.endsWith()
has a totally unpredictable classname
:
mockkStatic("kotlin.io.FilesKt__UtilsKt")
every { File("abc").endsWith(any<String>()) } returns true
println(File("abc").endsWith("abc"))
This is standard Kotlin behaviour that may be unpredictable.
Use Tools -> Kotlin -> Show Kotlin Bytecode
or check .class
files in JAR archive to detect such names.
From version 1.9.1, more extended vararg handling is possible:
interface ClsWithManyMany {
fun manyMany(vararg x: Any): Int
}
val obj = mockk<ClsWithManyMany>()
every { obj.manyMany(5, 6, *varargAll { it == 7 }) } returns 3
println(obj.manyMany(5, 6, 7)) // 3
println(obj.manyMany(5, 6, 7, 7)) // 3
println(obj.manyMany(5, 6, 7, 7, 7)) // 3
every { obj.manyMany(5, 6, *anyVararg(), 7) } returns 4
println(obj.manyMany(5, 6, 1, 7)) // 4
println(obj.manyMany(5, 6, 2, 3, 7)) // 4
println(obj.manyMany(5, 6, 4, 5, 6, 7)) // 4
every { obj.manyMany(5, 6, *varargAny { nArgs > 5 }, 7) } returns 5
println(obj.manyMany(5, 6, 4, 5, 6, 7)) // 5
println(obj.manyMany(5, 6, 4, 5, 6, 7, 7)) // 5
every {
obj.manyMany(5, 6, *varargAny {
if (position < 3) it == 3 else it == 4
}, 7)
} returns 6
println(obj.manyMany(5, 6, 3, 4, 7)) // 6
println(obj.manyMany(5, 6, 3, 4, 4, 7)) // 6
IF you need to mock private functions, you can do it via a dynamic call.
class Car {
fun drive() = accelerate()
private fun accelerate() = "going faster"
}
val mock = spyk<Car>(recordPrivateCalls = true)
every { mock["accelerate"]() } returns "going not so fast"
assertEquals("going not so fast", mock.drive())
verifySequence {
mock.drive()
mock["accelerate"]()
}
If you want to verify private calls, you should create a spyk
with recordPrivateCalls = true
Additionally, a more verbose syntax allows you to get and set properties, combined with the same dynamic calls:
val mock = spyk(Team(), recordPrivateCalls = true)
every { mock getProperty "speed" } returns 33
every { mock setProperty "acceleration" value less(5) } just runs
justRun { mock invokeNoArgs "privateMethod" }
every { mock invoke "openDoor" withArguments listOf("left", "rear") } returns "OK"
verify { mock getProperty "speed" }
verify { mock setProperty "acceleration" value less(5) }
verify { mock invoke "openDoor" withArguments listOf("left", "rear") }
You can access the backing fields via fieldValue
and use value
for the value being set.
Note: in the examples below, we use propertyType
to specify the type of the fieldValue
.
This is needed because it is possible to capture the type automatically for the getter.
Use nullablePropertyType
to specify a nullable type.
val mock = spyk(MockCls(), recordPrivateCalls = true)
every { mock.property } answers { fieldValue + 6 }
every { mock.property = any() } propertyType Int::class answers { fieldValue += value }
every { mock getProperty "property" } propertyType Int::class answers { fieldValue + 6 }
every { mock setProperty "property" value any<Int>() } propertyType Int::class answers { fieldValue += value }
every {
mock.property = any()
} propertyType Int::class answers {
fieldValue = value + 1
} andThen {
fieldValue = value - 1
}
Adding additional behaviours via interfaces and stubbing them:
val spy = spyk(System.out, moreInterfaces = arrayOf(Runnable::class))
spy.println(555)
every {
(spy as Runnable).run()
} answers {
(self as PrintStream).println("Run! Run! Run!")
}
val thread = Thread(spy as Runnable)
thread.start()
thread.join()
Nothing special here. If you have a function returning Nothing
:
fun quit(status: Int): Nothing {
exitProcess(status)
}
Then you can for example throw an exception as behaviour:
every { quit(1) } throws Exception("this is a test")
- clear - deletes the internal state of objects associated with a mock, resulting in an empty object
- unmock - re-assigns transformation of classes back to original state prior to mock
A Scoped mock is a mock that automatically unmocks itself after the code block passed as a parameter has been executed.
You can use the mockkObject
, mockkStatic
and mockkConstructor
functions.
object ObjBeingMocked {
fun add(a: Int, b: Int) = a + b
}
// ObjBeingMocked will be unmocked after this scope
mockkObject(ObjBeingMocked) {
assertEquals(3, ObjBeingMocked.add(1, 2))
every { ObjBeingMocked.add(1, 2) } returns 55
assertEquals(55, ObjBeingMocked.add(1, 2))
}
A very simple way to create new matchers is by attaching a function
to MockKMatcherScope
or MockKVerificationScope
and using the match
function:
fun MockKMatcherScope.seqEq(seq: Sequence<String>) = match<Sequence<String>> {
it.toList() == seq.toList()
}
It's also possible to create more advanced matchers by implementing the Matcher
interface.
Example of a custom matcher that compares list without order:
@Test
fun test() {
class MockCls {
fun op(a: List<Int>) = a.reversed()
}
val mock = mockk<MockCls>()
every { mock.op(any()) } returns listOf(5, 6, 9)
println(mock.op(listOf(1, 2, 3)))
verify { mock.op(matchListWithoutOrder(3, 2, 1)) }
}
data class ListWithoutOrderMatcher<T>(
val expectedList: List<T>,
val refEq: Boolean
) : Matcher<List<T>> {
val map = buildCountsMap(expectedList, refEq)
override fun match(arg: List<T>?): Boolean {
if (arg == null) return false
return buildCountsMap(arg, refEq) == map
}
private fun buildCountsMap(list: List<T>, ref: Boolean): Map<Any?, Int> {
val map = mutableMapOf<Any?, Int>()
for (item in list) {
val key = when {
item == null -> nullKey
refEq -> InternalPlatform.ref(item)
else -> item
}
map.compute(key, { _, value -> (value ?: 0) + 1 })
}
return map
}
override fun toString() = "matchListWithoutOrder($expectedList)"
@Suppress("UNCHECKED_CAST")
override fun substitute(map: Map<Any, Any>): Matcher<List<T>> {
return copy(expectedList = expectedList.map { map.getOrDefault(it as Any?, it) } as List<T>)
}
companion object {
val nullKey = Any()
}
}
inline fun <reified T : List<E>, E : Any> MockKMatcherScope.matchListWithoutOrder(
vararg items: E,
refEq: Boolean = true
): T = match(ListWithoutOrderMatcher(listOf(*items), refEq))
Example using reflection to mock all methods on a builder-style object
val builderFunctions = MyBuilder::class.memberFunctions.filter { it.returnType.classifier == MyBuilder::class }
val builderMock = mockk<MyBuilder> {
builderFunctions.forEach { func ->
every {
val params = listOf<Any?>(builderMock) + func.parameters.drop(1).map { any(it.type.classifier as KClass<Any>) }
func.call(*params.toTypedArray())
} answers {
this@mockk
}
}
}
To adjust parameters globally, there are a few settings you can specify in a resource file.
How to use:
- Create a
io/mockk/settings.properties
file insrc/main/resources
. - Put any of the following options:
relaxed=true|false
relaxUnitFun=true|false
recordPrivateCalls=true|false
stackTracesOnVerify=true|false
stackTracesAlignment=left|center
stackTracesAlignment
determines whether to align the stack traces to the center (default),
or to the left (more consistent with usual JVM stackTraces).
Here are a few tables to help you master the DSL.
Function | Description |
---|---|
mockk<T>(...) |
builds a regular mock |
spyk<T>() |
builds a spy using the default constructor |
spyk(obj) |
builds a spy by copying from obj |
slot |
creates a capturing slot |
every |
starts a stubbing block |
coEvery |
starts a stubbing block for coroutines |
verify |
starts a verification block |
coVerify |
starts a verification block for coroutines |
verifyAll |
starts a verification block that should include all calls |
coVerifyAll |
starts a verification block that should include all calls for coroutines |
verifyOrder |
starts a verification block that checks the order |
coVerifyOrder |
starts a verification block that checks the order for coroutines |
verifySequence |
starts a verification block that checks whether all calls were made in a specified sequence |
coVerifySequence |
starts a verification block that checks whether all calls were made in a specified sequence for coroutines |
excludeRecords |
exclude some calls from being recorded |
confirmVerified |
confirms that all recorded calls were verified |
checkUnnecessaryStub |
confirms that all recorded calls are used at least once |
clearMocks |
clears specified mocks |
registerInstanceFactory |
allows you to redefine the way of instantiation for certain object |
mockkClass |
builds a regular mock by passing the class as parameter |
mockkObject |
turns an object into an object mock, or clears it if was already transformed |
unmockkObject |
turns an object mock back into a regular object |
mockkStatic |
makes a static mock out of a class, or clears it if it was already transformed |
unmockkStatic |
turns a static mock back into a regular class |
clearStaticMockk |
clears a static mock |
mockkConstructor |
makes a constructor mock out of a class, or clears it if it was already transformed |
unmockkConstructor |
turns a constructor mock back into a regular class |
clearConstructorMockk |
clears the constructor mock |
unmockkAll |
unmocks object, static and constructor mocks |
clearAllMocks |
clears regular, object, static and constructor mocks |
By default, simple arguments are matched using eq()
Matcher | Description |
---|---|
any() |
matches any argument |
any(Class) |
matches any argument of the give Class (for reflective mocking) |
allAny() |
special matcher that uses any() instead of eq() for matchers that are provided as simple arguments |
isNull() |
checks if the value is null |
isNull(inverse=true) |
checks if the value is not null |
ofType(type) |
checks if the value belongs to the type |
match { it.startsWith("string") } |
matches via the passed predicate |
coMatch { it.startsWith("string") } |
matches via the passed coroutine predicate |
matchNullable { it?.startsWith("string") } |
matches nullable value via the passed predicate |
coMatchNullable { it?.startsWith("string") } |
matches nullable value via the passed coroutine predicate |
eq(value) |
matches if the value is equal to the provided value via the deepEquals function |
eq(value, inverse=true) |
matches if the value is not equal to the provided value via the deepEquals function |
neq(value) |
matches if the value is not equal to the provided value via the deepEquals function |
refEq(value) |
matches if the value is equal to the provided value via reference comparison |
refEq(value, inverse=true) |
matches if the value is not equal to the provided value via reference comparison |
nrefEq(value) |
matches if the value is not equal to the provided value via reference comparison |
cmpEq(value) |
matches if the value is equal to the provided value via the compareTo function |
less(value) |
matches if the value is less than the provided value via the compareTo function |
more(value) |
matches if the value is more than the provided value via the compareTo function |
less(value, andEquals=true) |
matches if the value is less than or equal to the provided value via the compareTo function |
more(value, andEquals=true) |
matches if the value is more than or equal to the provided value via the compareTo function |
range(from, to, fromInclusive=true, toInclusive=true) |
matches if the value is in range via the compareTo function |
and(left, right) |
combines two matchers via a logical and |
or(left, right) |
combines two matchers via a logical or |
not(matcher) |
negates the matcher |
capture(slot) |
captures a Non Nullable value to a CapturingSlot |
captureNullable(slot) |
captures a Nullable value to a CapturingSlot |
capture(mutableList) |
captures a value to a list |
captureNullable(mutableList) |
captures a value to a list together with null values |
captureLambda() |
captures a lambda |
captureCoroutine() |
captures a coroutine |
invoke(...) |
calls a matched argument |
coInvoke(...) |
calls a matched argument for a coroutine |
hint(cls) |
hints the next return type in case it's gotten erased |
anyVararg() |
matches any elements in a vararg |
varargAny(matcher) |
matches if any element matches the matcher |
varargAll(matcher) |
matches if all elements match the matcher |
any...Vararg() |
matches any elements in vararg (specific to primitive type) |
varargAny...(matcher) |
matches if any element matches the matcher (specific to the primitive type) |
varargAll...(matcher) |
matches if all elements match the matcher (specific to the primitive type) |
A few special matchers available in verification mode only:
Matcher | Description |
---|---|
withArg { code } |
matches any value and allows to execute some code |
withNullableArg { code } |
matches any nullable value and allows to execute some code |
coWithArg { code } |
matches any value and allows to execute some coroutine code |
coWithNullableArg { code } |
matches any nullable value and allows to execute some coroutine code |
Validator | Description |
---|---|
verify { mock.call() } |
Do unordered verification that a call was performed |
verify(inverse=true) { mock.call() } |
Do unordered verification that a call was not performed |
verify(atLeast=n) { mock.call() } |
Do unordered verification that a call was performed at least n times |
verify(atMost=n) { mock.call() } |
Do unordered verification that a call was performed at most n times |
verify(exactly=n) { mock.call() } |
Do unordered verification that a call was performed exactly n times |
verifyAll { mock.call1(); mock.call2() } |
Do unordered verification that only the specified calls were executed for the mentioned mocks |
verifyOrder { mock.call1(); mock.call2() } |
Do verification that the sequence of calls went one after another |
verifySequence { mock.call1(); mock.call2() } |
Do verification that only the specified sequence of calls were executed for the mentioned mocks |
verify { mock wasNot Called } |
Do verification that a mock was not called |
verify { listOf(mock1, mock2) wasNot Called } |
Do verification that a list of mocks were not called |
An Answer can be followed up by one or more additional answers.
Answer | Description |
---|---|
returns value |
specify that the matched call returns a specified value |
returnsMany list |
specify that the matched call returns a value from the list, with subsequent calls returning the next element |
returnsArgument(n) |
specify that the matched call returns the nth argument of that call |
throws ex |
specify that the matched call throws an exception |
throwsMany list |
specify that the matched call throws an exception from the list, with subsequent calls throwing the next exception |
answers { code } |
specify that the matched call answers with a code block scoped with answer scope |
coAnswers { code } |
specify that the matched call answers with a coroutine code block with answer scope |
answers answerObj |
specify that the matched call answers with an Answer object |
answers { nothing } |
specify that the matched call answers null |
just Runs |
specify that the matched call is returning Unit (returns null) |
just Awaits |
specify that the matched call never returns (available since v1.13.3) |
propertyType Class |
specify the type of the backing field accessor |
nullablePropertyType Class |
specify the type of the backing field accessor as a nullable type |
A next answer is returned on each consequent call and the last value is persisted.
So this is similar to the returnsMany
semantics.
Additional answer | Description |
---|---|
andThen value |
specify that the matched call returns one specified value |
andThenMany list |
specify that the matched call returns a value from the list, with subsequent calls returning the next element |
andThenThrows ex |
specify that the matched call throws an exception |
andThenThrowsMany ex |
specify that the matched call throws an exception from the list, with subsequent calls throwing the next exception |
andThen { code } |
specify that the matched call answers with a code block scoped with answer scope |
coAndThen { code } |
specify that the matched call answers with a coroutine code block with answer scope |
andThenAnswer answerObj |
specify that the matched call answers with an Answer object |
andThen { nothing } |
specify that the matched call answers null |
andThenJust Runs |
specify that the matched call is returning Unit (available since v1.12.2) |
andThenJust Awaits |
specify that the matched call is never returning (available since v1.13.3) |
Parameter | Description |
---|---|
call |
a call object that consists of an invocation and a matcher |
invocation |
contains information regarding the actual function invoked |
matcher |
contains information regarding the matcher used to match the invocation |
self |
reference to the object invocation made |
method |
reference to the function invocation made |
args |
reference to the invocation arguments |
nArgs |
number of invocation arguments |
arg(n) |
nth argument |
firstArg() |
first argument |
secondArg() |
second argument |
thirdArg() |
third argument |
lastArg() |
last argument |
captured() |
the last element in the list for convenience when capturing to a list |
lambda<...>().invoke() |
call the captured lambda |
coroutine<...>().coInvoke() |
call the captured coroutine |
nothing |
null value for returning nothing as an answer |
fieldValue |
accessor to the property backing field |
fieldValueAny |
accessor to the property backing field with Any? type |
value |
value being set, cast to the same type as the property backing field |
valueAny |
value being set, with Any? type |
callOriginal |
calls the original function |
Parameter | Description |
---|---|
position |
the position of an argument in a vararg array |
nArgs |
overall count of arguments in a vararg array |
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To report bugs, please use the GitHub project.
- Project Page: https://github.com/mockk/mockk
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