# Module kotlinx-coroutines-test Test utilities for `kotlinx.coroutines`. ## Overview This package provides utilities for efficiently testing coroutines. | Name | Description | | ---- | ----------- | | [runTest] | Runs the test code, automatically skipping delays and handling uncaught exceptions. | | [TestCoroutineScheduler] | The shared source of virtual time, used for controlling execution order and skipping delays. | | [TestScope] | A [CoroutineScope] that integrates with [runTest], providing access to [TestCoroutineScheduler]. | | [TestDispatcher] | A [CoroutineDispatcher] whose delays are controlled by a [TestCoroutineScheduler]. | | [Dispatchers.setMain] | Mocks the main dispatcher using the provided one. If mocked with a [TestDispatcher], its [TestCoroutineScheduler] is used everywhere by default. | Provided [TestDispatcher] implementations: | Name | Description | | ---- | ----------- | | [StandardTestDispatcher] | A simple dispatcher with no special behavior other than being linked to a [TestCoroutineScheduler]. | | [UnconfinedTestDispatcher] | A dispatcher that behaves like [Dispatchers.Unconfined]. | ## Using in your project Add `kotlinx-coroutines-test` to your project test dependencies: ``` dependencies { testImplementation 'org.jetbrains.kotlinx:kotlinx-coroutines-test:1.6.4' } ``` **Do not** depend on this project in your main sources, all utilities here are intended and designed to be used only from tests. ## Dispatchers.Main Delegation `Dispatchers.setMain` will override the `Main` dispatcher in test scenarios. This is helpful when one wants to execute a test in situations where the platform `Main` dispatcher is not available, or to replace `Dispatchers.Main` with a testing dispatcher. On the JVM, the [`ServiceLoader`](https://docs.oracle.com/javase/8/docs/api/java/util/ServiceLoader.html) mechanism is responsible for overwriting [Dispatchers.Main] with a testable implementation, which by default will delegate its calls to the real `Main` dispatcher, if any. The `Main` implementation can be overridden using [Dispatchers.setMain][setMain] method with any [CoroutineDispatcher] implementation, e.g.: ```kotlin class SomeTest { private val mainThreadSurrogate = newSingleThreadContext("UI thread") @Before fun setUp() { Dispatchers.setMain(mainThreadSurrogate) } @After fun tearDown() { Dispatchers.resetMain() // reset the main dispatcher to the original Main dispatcher mainThreadSurrogate.close() } @Test fun testSomeUI() = runBlocking { launch(Dispatchers.Main) { // Will be launched in the mainThreadSurrogate dispatcher // ... } } } ``` Calling `setMain` or `resetMain` immediately changes the `Main` dispatcher globally. If `Main` is overridden with a [TestDispatcher], then its [TestCoroutineScheduler] is used when new [TestDispatcher] or [TestScope] instances are created without [TestCoroutineScheduler] being passed as an argument. ## runTest [runTest] is the way to test code that involves coroutines. `suspend` functions can be called inside it. **IMPORTANT: in order to work with on Kotlin/JS, the result of `runTest` must be immediately `return`-ed from each test.** The typical invocation of [runTest] thus looks like this: ```kotlin @Test fun testFoo() = runTest { // code under test } ``` In more advanced scenarios, it's possible instead to use the following form: ```kotlin @Test fun testFoo(): TestResult { // initialize some test state return runTest { // code under test } } ``` [runTest] is similar to running the code with `runBlocking` on Kotlin/JVM and Kotlin/Native, or launching a new promise on Kotlin/JS. The main differences are the following: * **The calls to `delay` are automatically skipped**, preserving the relative execution order of the tasks. This way, it's possible to make tests finish more-or-less immediately. * **Controlling the virtual time**: in case just skipping delays is not sufficient, it's possible to more carefully guide the execution, advancing the virtual time by a duration, draining the queue of the awaiting tasks, or running the tasks scheduled at the present moment. * **Handling uncaught exceptions** spawned in the child coroutines by throwing them at the end of the test. * **Waiting for asynchronous callbacks**. Sometimes, especially when working with third-party code, it's impossible to mock all the dispatchers in use. [runTest] will handle the situations where some code runs in dispatchers not integrated with the test module. ## Delay-skipping To test regular suspend functions, which may have a delay, just run them inside the [runTest] block. ```kotlin @Test fun testFoo() = runTest { // a coroutine with an extra test control val actual = foo() // ... } suspend fun foo() { delay(1_000) // when run in `runTest`, will finish immediately instead of delaying // ... } ``` ## `launch` and `async` The coroutine dispatcher used for tests is single-threaded, meaning that the child coroutines of the [runTest] block will run on the thread that started the test, and will never run in parallel. If several coroutines are waiting to be executed next, the one scheduled after the smallest delay will be chosen. The virtual time will automatically advance to the point of its resumption. ```kotlin @Test fun testWithMultipleDelays() = runTest { launch { delay(1_000) println("1. $currentTime") // 1000 delay(200) println("2. $currentTime") // 1200 delay(2_000) println("4. $currentTime") // 3200 } val deferred = async { delay(3_000) println("3. $currentTime") // 3000 delay(500) println("5. $currentTime") // 3500 } deferred.await() } ``` ## Controlling the virtual time Inside [runTest], the following operations are supported: * `currentTime` gets the current virtual time. * `runCurrent()` runs the tasks that are scheduled at this point of virtual time. * `advanceUntilIdle()` runs all enqueued tasks until there are no more. * `advanceTimeBy(timeDelta)` runs the enqueued tasks until the current virtual time advances by `timeDelta`. ```kotlin @Test fun testFoo() = runTest { launch { println(1) // executes during runCurrent() delay(1_000) // suspends until time is advanced by at least 1_000 println(2) // executes during advanceTimeBy(2_000) delay(500) // suspends until the time is advanced by another 500 ms println(3) // also executes during advanceTimeBy(2_000) delay(5_000) // will suspend by another 4_500 ms println(4) // executes during advanceUntilIdle() } // the child coroutine has not run yet runCurrent() // the child coroutine has called println(1), and is suspended on delay(1_000) advanceTimeBy(2_000) // progress time, this will cause two calls to `delay` to resume // the child coroutine has called println(2) and println(3) and suspends for another 4_500 virtual milliseconds advanceUntilIdle() // will run the child coroutine to completion assertEquals(6500, currentTime) // the child coroutine finished at virtual time of 6_500 milliseconds } ``` ## Using multiple test dispatchers The virtual time is controlled by an entity called the [TestCoroutineScheduler], which behaves as the shared source of virtual time. Several dispatchers can be created that use the same [TestCoroutineScheduler], in which case they will share their knowledge of the virtual time. To access the scheduler used for this test, use the [TestScope.testScheduler] property. ```kotlin @Test fun testWithMultipleDispatchers() = runTest { val scheduler = testScheduler // the scheduler used for this test val dispatcher1 = StandardTestDispatcher(scheduler, name = "IO dispatcher") val dispatcher2 = StandardTestDispatcher(scheduler, name = "Background dispatcher") launch(dispatcher1) { delay(1_000) println("1. $currentTime") // 1000 delay(200) println("2. $currentTime") // 1200 delay(2_000) println("4. $currentTime") // 3200 } val deferred = async(dispatcher2) { delay(3_000) println("3. $currentTime") // 3000 delay(500) println("5. $currentTime") // 3500 } deferred.await() } ``` **Note: if [Dispatchers.Main] is replaced by a [TestDispatcher], [runTest] will automatically use its scheduler. This is done so that there is no need to go through the ceremony of passing the correct scheduler to [runTest].** ## Accessing the test coroutine scope Structured concurrency ties coroutines to scopes in which they are launched. [TestScope] is a special coroutine scope designed for testing coroutines, and a new one is automatically created for [runTest] and used as the receiver for the test body. However, it can be convenient to access a `CoroutineScope` before the test has started, for example, to perform mocking of some parts of the system in `@BeforeTest` via dependency injection. In these cases, it is possible to manually create [TestScope], the scope for the test coroutines, in advance, before the test begins. [TestScope] on its own does not automatically run the code launched in it. In addition, it is stateful in order to keep track of executing coroutines and uncaught exceptions. Therefore, it is important to ensure that [TestScope.runTest] is called eventually. ```kotlin val scope = TestScope() @BeforeTest fun setUp() { Dispatchers.setMain(StandardTestDispatcher(scope.testScheduler)) TestSubject.setScope(scope) } @AfterTest fun tearDown() { Dispatchers.resetMain() TestSubject.resetScope() } @Test fun testSubject() = scope.runTest { // the receiver here is `testScope` } ``` ## Eagerly entering `launch` and `async` blocks Some tests only test functionality and don't particularly care about the precise order in which coroutines are dispatched. In these cases, it can be cumbersome to always call [runCurrent] or [yield] to observe the effects of the coroutines after they are launched. If [runTest] executes with an [UnconfinedTestDispatcher], the child coroutines launched at the top level are entered *eagerly*, that is, they don't go through a dispatch until the first suspension. ```kotlin @Test fun testEagerlyEnteringChildCoroutines() = runTest(UnconfinedTestDispatcher()) { var entered = false val deferred = CompletableDeferred() var completed = false launch { entered = true deferred.await() completed = true } assertTrue(entered) // `entered = true` already executed. assertFalse(completed) // however, the child coroutine then suspended, so it is enqueued. deferred.complete(Unit) // resume the coroutine. assertTrue(completed) // now the child coroutine is immediately completed. } ``` If this behavior is desirable, but some parts of the test still require accurate dispatching, for example, to ensure that the code executes on the correct thread, then simply `launch` a new coroutine with the [StandardTestDispatcher]. ```kotlin @Test fun testEagerlyEnteringSomeChildCoroutines() = runTest(UnconfinedTestDispatcher()) { var entered1 = false launch { entered1 = true } assertTrue(entered1) // `entered1 = true` already executed var entered2 = false launch(StandardTestDispatcher(testScheduler)) { // this block and every coroutine launched inside it will explicitly go through the needed dispatches entered2 = true } assertFalse(entered2) runCurrent() // need to explicitly run the dispatched continuation assertTrue(entered2) } ``` ### Using `withTimeout` inside `runTest` Timeouts are also susceptible to time control, so the code below will immediately finish. ```kotlin @Test fun testFooWithTimeout() = runTest { assertFailsWith { withTimeout(1_000) { delay(999) delay(2) println("this won't be reached") } } } ``` ## Virtual time support with other dispatchers Calls to `withContext(Dispatchers.IO)`, `withContext(Dispatchers.Default)` ,and `withContext(Dispatchers.Main)` are common in coroutines-based code bases. Unfortunately, just executing code in a test will not lead to these dispatchers using the virtual time source, so delays will not be skipped in them. ```kotlin suspend fun veryExpensiveFunction() = withContext(Dispatchers.Default) { delay(1_000) 1 } fun testExpensiveFunction() = runTest { val result = veryExpensiveFunction() // will take a whole real-time second to execute // the virtual time at this point is still 0 } ``` Tests should, when possible, replace these dispatchers with a [TestDispatcher] if the `withContext` calls `delay` in the function under test. For example, `veryExpensiveFunction` above should allow mocking with a [TestDispatcher] using either dependency injection, a service locator, or a default parameter, if it is to be used with virtual time. ### Status of the API This API is experimental and it is may change before migrating out of experimental (while it is marked as [`@ExperimentalCoroutinesApi`][ExperimentalCoroutinesApi]). Changes during experimental may have deprecation applied when possible, but it is not advised to use the API in stable code before it leaves experimental due to possible breaking changes. If you have any suggestions for improvements to this experimental API please share them on the [issue tracker](https://github.com/Kotlin/kotlinx.coroutines/issues). [CoroutineScope]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-coroutine-scope/index.html [CoroutineDispatcher]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-coroutine-dispatcher/index.html [Dispatchers.Unconfined]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-dispatchers/-unconfined.html [Dispatchers.Main]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-dispatchers/-main.html [yield]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/yield.html [ExperimentalCoroutinesApi]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-experimental-coroutines-api/index.html [runTest]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/run-test.html [TestCoroutineScheduler]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/-test-coroutine-scheduler/index.html [TestScope]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/-test-scope/index.html [TestDispatcher]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/-test-dispatcher/index.html [Dispatchers.setMain]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/set-main.html [StandardTestDispatcher]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/-standard-test-dispatcher.html [UnconfinedTestDispatcher]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/-unconfined-test-dispatcher.html [setMain]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/set-main.html [TestScope.testScheduler]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/-test-scope/test-scheduler.html [TestScope.runTest]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/run-test.html [runCurrent]: https://kotlinlang.org/api/kotlinx.coroutines/kotlinx-coroutines-test/kotlinx.coroutines.test/run-current.html