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kotlin-testing
Kotlin testing patterns with Kotest, MockK, coroutine testing, property-based testing, and Kover coverage. Follows TDD methodology with idiomatic Kotlin practices.
affaan-m
Mar 15, 2026
affaan-m/everything-claude-code
SKILL.md
skills/kotlin-testing/SKILL.md
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Frontmatter
name: kotlin-testing
description: Kotlin testing patterns with Kotest, MockK, coroutine testing, property-based testing, and Kover coverage. Follows TDD methodology with idiomatic Kotlin practices.
origin: ECCKotlin Testing Patterns
Comprehensive Kotlin testing patterns for writing reliable, maintainable tests following TDD methodology with Kotest and MockK.
When to Use
- Writing new Kotlin functions or classes
- Adding test coverage to existing Kotlin code
- Implementing property-based tests
- Following TDD workflow in Kotlin projects
- Configuring Kover for code coverage
How It Works
- Identify target code — Find the function, class, or module to test
- Write a Kotest spec — Choose a spec style (StringSpec, FunSpec, BehaviorSpec) matching the test scope
- Mock dependencies — Use MockK to isolate the unit under test
- Run tests (RED) — Verify the test fails with the expected error
- Implement code (GREEN) — Write minimal code to pass the test
- Refactor — Improve the implementation while keeping tests green
- Check coverage — Run
./gradlew koverHtmlReportand verify 80%+ coverage
Examples
The following sections contain detailed, runnable examples for each testing pattern:
Quick Reference
- Kotest specs — StringSpec, FunSpec, BehaviorSpec, DescribeSpec examples in [Kotest Spec Styles](#kotest-spec-styles)
- Mocking — MockK setup, coroutine mocking, argument capture in [MockK](#mockk)
- TDD walkthrough — Full RED/GREEN/REFACTOR cycle with EmailValidator in [TDD Workflow for Kotlin](#tdd-workflow-for-kotlin)
- Coverage — Kover configuration and commands in [Kover Coverage](#kover-coverage)
- Ktor testing — testApplication setup in [Ktor testApplication Testing](#ktor-testapplication-testing)
TDD Workflow for Kotlin
The RED-GREEN-REFACTOR Cycle
RED -> Write a failing test first
GREEN -> Write minimal code to pass the test
REFACTOR -> Improve code while keeping tests green
REPEAT -> Continue with next requirementStep-by-Step TDD in Kotlin
// Step 1: Define the interface/signature
// EmailValidator.kt
package com.example.validator
fun validateEmail(email: String): Result<String> {
TODO("not implemented")
}
// Step 2: Write failing test (RED)
// EmailValidatorTest.kt
package com.example.validator
import io.kotest.core.spec.style.StringSpec
import io.kotest.matchers.result.shouldBeFailure
import io.kotest.matchers.result.shouldBeSuccess
class EmailValidatorTest : StringSpec({
"valid email returns success" {
validateEmail("user@example.com").shouldBeSuccess("user@example.com")
}
"empty email returns failure" {
validateEmail("").shouldBeFailure()
}
"email without @ returns failure" {
validateEmail("userexample.com").shouldBeFailure()
}
})
// Step 3: Run tests - verify FAIL
// $ ./gradlew test
// EmailValidatorTest > valid email returns success FAILED
// kotlin.NotImplementedError: An operation is not implemented
// Step 4: Implement minimal code (GREEN)
fun validateEmail(email: String): Result<String> {
if (email.isBlank()) return Result.failure(IllegalArgumentException("Email cannot be blank"))
if ('@' !in email) return Result.failure(IllegalArgumentException("Email must contain @"))
val regex = Regex("^[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\\.[A-Za-z]{2,}$")
if (!regex.matches(email)) return Result.failure(IllegalArgumentException("Invalid email format"))
return Result.success(email)
}
// Step 5: Run tests - verify PASS
// $ ./gradlew test
// EmailValidatorTest > valid email returns success PASSED
// EmailValidatorTest > empty email returns failure PASSED
// EmailValidatorTest > email without @ returns failure PASSED
// Step 6: Refactor if needed, verify tests still passKotest Spec Styles
StringSpec (Simplest)
class CalculatorTest : StringSpec({
"add two positive numbers" {
Calculator.add(2, 3) shouldBe 5
}
"add negative numbers" {
Calculator.add(-1, -2) shouldBe -3
}
"add zero" {
Calculator.add(0, 5) shouldBe 5
}
})FunSpec (JUnit-like)
class UserServiceTest : FunSpec({
val repository = mockk<UserRepository>()
val service = UserService(repository)
test("getUser returns user when found") {
val expected = User(id = "1", name = "Alice")
coEvery { repository.findById("1") } returns expected
val result = service.getUser("1")
result shouldBe expected
}
test("getUser throws when not found") {
coEvery { repository.findById("999") } returns null
shouldThrow<UserNotFoundException> {
service.getUser("999")
}
}
})BehaviorSpec (BDD Style)
class OrderServiceTest : BehaviorSpec({
val repository = mockk<OrderRepository>()
val paymentService = mockk<PaymentService>()
val service = OrderService(repository, paymentService)
Given("a valid order request") {
val request = CreateOrderRequest(
userId = "user-1",
items = listOf(OrderItem("product-1", quantity = 2)),
)
When("the order is placed") {
coEvery { paymentService.charge(any()) } returns PaymentResult.Success
coEvery { repository.save(any()) } answers { firstArg() }
val result = service.placeOrder(request)
Then("it should return a confirmed order") {
result.status shouldBe OrderStatus.CONFIRMED
}
Then("it should charge payment") {
coVerify(exactly = 1) { paymentService.charge(any()) }
}
}
When("payment fails") {
coEvery { paymentService.charge(any()) } returns PaymentResult.Declined
Then("it should throw PaymentException") {
shouldThrow<PaymentException> {
service.placeOrder(request)
}
}
}
}
})DescribeSpec (RSpec Style)
class UserValidatorTest : DescribeSpec({
describe("validateUser") {
val validator = UserValidator()
context("with valid input") {
it("accepts a normal user") {
val user = CreateUserRequest("Alice", "alice@example.com")
validator.validate(user).shouldBeValid()
}
}
context("with invalid name") {
it("rejects blank name") {
val user = CreateUserRequest("", "alice@example.com")
validator.validate(user).shouldBeInvalid()
}
it("rejects name exceeding max length") {
val user = CreateUserRequest("A".repeat(256), "alice@example.com")
validator.validate(user).shouldBeInvalid()
}
}
}
})Kotest Matchers
Core Matchers
import io.kotest.matchers.shouldBe
import io.kotest.matchers.shouldNotBe
import io.kotest.matchers.string.*
import io.kotest.matchers.collections.*
import io.kotest.matchers.nulls.*
// Equality
result shouldBe expected
result shouldNotBe unexpected
// Strings
name shouldStartWith "Al"
name shouldEndWith "ice"
name shouldContain "lic"
name shouldMatch Regex("[A-Z][a-z]+")
name.shouldBeBlank()
// Collections
list shouldContain "item"
list shouldHaveSize 3
list.shouldBeSorted()
list.shouldContainAll("a", "b", "c")
list.shouldBeEmpty()
// Nulls
result.shouldNotBeNull()
result.shouldBeNull()
// Types
result.shouldBeInstanceOf<User>()
// Numbers
count shouldBeGreaterThan 0
price shouldBeInRange 1.0..100.0
// Exceptions
shouldThrow<IllegalArgumentException> {
validateAge(-1)
}.message shouldBe "Age must be positive"
shouldNotThrow<Exception> {
validateAge(25)
}Custom Matchers
fun beActiveUser() = object : Matcher<User> {
override fun test(value: User) = MatcherResult(
value.isActive && value.lastLogin != null,
{ "User ${value.id} should be active with a last login" },
{ "User ${value.id} should not be active" },
)
}
// Usage
user should beActiveUser()MockK
Basic Mocking
class UserServiceTest : FunSpec({
val repository = mockk<UserRepository>()
val logger = mockk<Logger>(relaxed = true) // Relaxed: returns defaults
val service = UserService(repository, logger)
beforeTest {
clearMocks(repository, logger)
}
test("findUser delegates to repository") {
val expected = User(id = "1", name = "Alice")
every { repository.findById("1") } returns expected
val result = service.findUser("1")
result shouldBe expected
verify(exactly = 1) { repository.findById("1") }
}
test("findUser returns null for unknown id") {
every { repository.findById(any()) } returns null
val result = service.findUser("unknown")
result.shouldBeNull()
}
})Coroutine Mocking
class AsyncUserServiceTest : FunSpec({
val repository = mockk<UserRepository>()
val service = UserService(repository)
test("getUser suspending function") {
coEvery { repository.findById("1") } returns User(id = "1", name = "Alice")
val result = service.getUser("1")
result.name shouldBe "Alice"
coVerify { repository.findById("1") }
}
test("getUser with delay") {
coEvery { repository.findById("1") } coAnswers {
delay(100) // Simulate async work
User(id = "1", name = "Alice")
}
val result = service.getUser("1")
result.name shouldBe "Alice"
}
})Argument Capture
test("save captures the user argument") {
val slot = slot<User>()
coEvery { repository.save(capture(slot)) } returns Unit
service.createUser(CreateUserRequest("Alice", "alice@example.com"))
slot.captured.name shouldBe "Alice"
slot.captured.email shouldBe "alice@example.com"
slot.captured.id.shouldNotBeNull()
}Spy and Partial Mocking
test("spy on real object") {
val realService = UserService(repository)
val spy = spyk(realService)
every { spy.generateId() } returns "fixed-id"
spy.createUser(request)
verify { spy.generateId() } // Overridden
// Other methods use real implementation
}Coroutine Testing
runTest for Suspend Functions
import kotlinx.coroutines.test.runTest
class CoroutineServiceTest : FunSpec({
test("concurrent fetches complete together") {
runTest {
val service = DataService(testScope = this)
val result = service.fetchAllData()
result.users.shouldNotBeEmpty()
result.products.shouldNotBeEmpty()
}
}
test("timeout after delay") {
runTest {
val service = SlowService()
shouldThrow<TimeoutCancellationException> {
withTimeout(100) {
service.slowOperation() // Takes > 100ms
}
}
}
}
})Testing Flows
import io.kotest.matchers.collections.shouldContainInOrder
import kotlinx.coroutines.flow.MutableSharedFlow
import kotlinx.coroutines.flow.toList
import kotlinx.coroutines.launch
import kotlinx.coroutines.test.advanceTimeBy
import kotlinx.coroutines.test.runTest
class FlowServiceTest : FunSpec({
test("observeUsers emits updates") {
runTest {
val service = UserFlowService()
val emissions = service.observeUsers()
.take(3)
.toList()
emissions shouldHaveSize 3
emissions.last().shouldNotBeEmpty()
}
}
test("searchUsers debounces input") {
runTest {
val service = SearchService()
val queries = MutableSharedFlow<String>()
val results = mutableListOf<List<User>>()
val job = launch {
service.searchUsers(queries).collect { results.add(it) }
}
queries.emit("a")
queries.emit("ab")
queries.emit("abc") // Only this should trigger search
advanceTimeBy(500)
results shouldHaveSize 1
job.cancel()
}
}
})TestDispatcher
import kotlinx.coroutines.test.StandardTestDispatcher
import kotlinx.coroutines.test.advanceUntilIdle
class DispatcherTest : FunSpec({
test("uses test dispatcher for controlled execution") {
val dispatcher = StandardTestDispatcher()
runTest(dispatcher) {
var completed = false
launch {
delay(1000)
completed = true
}
completed shouldBe false
advanceTimeBy(1000)
completed shouldBe true
}
}
})Property-Based Testing
Kotest Property Testing
import io.kotest.core.spec.style.FunSpec
import io.kotest.property.Arb
import io.kotest.property.arbitrary.*
import io.kotest.property.forAll
import io.kotest.property.checkAll
import kotlinx.serialization.json.Json
import kotlinx.serialization.encodeToString
import kotlinx.serialization.decodeFromString
// Note: The serialization roundtrip test below requires the User data class
// to be annotated with @Serializable (from kotlinx.serialization).
class PropertyTest : FunSpec({
test("string reverse is involutory") {
forAll<String> { s ->
s.reversed().reversed() == s
}
}
test("list sort is idempotent") {
forAll(Arb.list(Arb.int())) { list ->
list.sorted() == list.sorted().sorted()
}
}
test("serialization roundtrip preserves data") {
checkAll(Arb.bind(Arb.string(1..50), Arb.string(5..100)) { name, email ->
User(name = name, email = "$email@test.com")
}) { user ->
val json = Json.encodeToString(user)
val decoded = Json.decodeFromString<User>(json)
decoded shouldBe user
}
}
})Custom Generators
val userArb: Arb<User> = Arb.bind(
Arb.string(minSize = 1, maxSize = 50),
Arb.email(),
Arb.enum<Role>(),
) { name, email, role ->
User(
id = UserId(UUID.randomUUID().toString()),
name = name,
email = Email(email),
role = role,
)
}
val moneyArb: Arb<Money> = Arb.bind(
Arb.long(1L..1_000_000L),
Arb.enum<Currency>(),
) { amount, currency ->
Money(amount, currency)
}Data-Driven Testing
withData in Kotest
class ParserTest : FunSpec({
context("parsing valid dates") {
withData(
"2026-01-15" to LocalDate(2026, 1, 15),
"2026-12-31" to LocalDate(2026, 12, 31),
"2000-01-01" to LocalDate(2000, 1, 1),
) { (input, expected) ->
parseDate(input) shouldBe expected
}
}
context("rejecting invalid dates") {
withData(
nameFn = { "rejects '$it'" },
"not-a-date",
"2026-13-01",
"2026-00-15",
"",
) { input ->
shouldThrow<DateParseException> {
parseDate(input)
}
}
}
})Test Lifecycle and Fixtures
BeforeTest / AfterTest
class DatabaseTest : FunSpec({
lateinit var db: Database
beforeSpec {
db = Database.connect("jdbc:h2:mem:test;DB_CLOSE_DELAY=-1")
transaction(db) {
SchemaUtils.create(UsersTable)
}
}
afterSpec {
transaction(db) {
SchemaUtils.drop(UsersTable)
}
}
beforeTest {
transaction(db) {
UsersTable.deleteAll()
}
}
test("insert and retrieve user") {
transaction(db) {
UsersTable.insert {
it[name] = "Alice"
it[email] = "alice@example.com"
}
}
val users = transaction(db) {
UsersTable.selectAll().map { it[UsersTable.name] }
}
users shouldContain "Alice"
}
})Kotest Extensions
// Reusable test extension
class DatabaseExtension : BeforeSpecListener, AfterSpecListener {
lateinit var db: Database
override suspend fun beforeSpec(spec: Spec) {
db = Database.connect("jdbc:h2:mem:test;DB_CLOSE_DELAY=-1")
}
override suspend fun afterSpec(spec: Spec) {
// cleanup
}
}
class UserRepositoryTest : FunSpec({
val dbExt = DatabaseExtension()
register(dbExt)
test("save and find user") {
val repo = UserRepository(dbExt.db)
// ...
}
})Kover Coverage
Gradle Configuration
// build.gradle.kts
plugins {
id("org.jetbrains.kotlinx.kover") version "0.9.7"
}
kover {
reports {
total {
html { onCheck = true }
xml { onCheck = true }
}
filters {
excludes {
classes("*.generated.*", "*.config.*")
}
}
verify {
rule {
minBound(80) // Fail build below 80% coverage
}
}
}
}Coverage Commands
# Run tests with coverage
./gradlew koverHtmlReport
# Verify coverage thresholds
./gradlew koverVerify
# XML report for CI
./gradlew koverXmlReport
# View HTML report (use the command for your OS)
# macOS: open build/reports/kover/html/index.html
# Linux: xdg-open build/reports/kover/html/index.html
# Windows: start build/reports/kover/html/index.htmlCoverage Targets
| Code Type | Target |
|---|---|
| Critical business logic | 100% |
| Public APIs | 90%+ |
| General code | 80%+ |
| Generated / config code | Exclude |
Ktor testApplication Testing
class ApiRoutesTest : FunSpec({
test("GET /users returns list") {
testApplication {
application {
configureRouting()
configureSerialization()
}
val response = client.get("/users")
response.status shouldBe HttpStatusCode.OK
val users = response.body<List<UserResponse>>()
users.shouldNotBeEmpty()
}
}
test("POST /users creates user") {
testApplication {
application {
configureRouting()
configureSerialization()
}
val response = client.post("/users") {
contentType(ContentType.Application.Json)
setBody(CreateUserRequest("Alice", "alice@example.com"))
}
response.status shouldBe HttpStatusCode.Created
}
}
})Testing Commands
# Run all tests
./gradlew test
# Run specific test class
./gradlew test --tests "com.example.UserServiceTest"
# Run specific test
./gradlew test --tests "com.example.UserServiceTest.getUser returns user when found"
# Run with verbose output
./gradlew test --info
# Run with coverage
./gradlew koverHtmlReport
# Run detekt (static analysis)
./gradlew detekt
# Run ktlint (formatting check)
./gradlew ktlintCheck
# Continuous testing
./gradlew test --continuousBest Practices
DO:
- Write tests FIRST (TDD)
- Use Kotest's spec styles consistently across the project
- Use MockK's
coEvery/coVerifyfor suspend functions - Use
runTestfor coroutine testing - Test behavior, not implementation
- Use property-based testing for pure functions
- Use
data classtest fixtures for clarity
DON'T:
- Mix testing frameworks (pick Kotest and stick with it)
- Mock data classes (use real instances)
- Use
Thread.sleep()in coroutine tests (useadvanceTimeBy) - Skip the RED phase in TDD
- Test private functions directly
- Ignore flaky tests
Integration with CI/CD
# GitHub Actions example
test:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- uses: actions/setup-java@v4
with:
distribution: 'temurin'
java-version: '21'
- name: Run tests with coverage
run: ./gradlew test koverXmlReport
- name: Verify coverage
run: ./gradlew koverVerify
- name: Upload coverage
uses: codecov/codecov-action@v5
with:
files: build/reports/kover/report.xml
token: ${{ secrets.CODECOV_TOKEN }}Remember: Tests are documentation. They show how your Kotlin code is meant to be used. Use Kotest's expressive matchers to make tests readable and MockK for clean mocking of dependencies.