| name | kotlin-patterns |
| description | Idiomatic Kotlin patterns, best practices, and conventions for building robust, efficient, and maintainable Kotlin applications with coroutines, null safety, and DSL builders. |
| origin | ECC |
| metadata | {"summary":"Kotlin 관용 패턴·컨벤션 가이드","routing":{"visibility":"contextual","risk_level":"low","task_types":["code_change","refactor"],"triggers":[{"kind":"keyword","values":["kotlin"]}],"keywords":{"ko":["코틀린"],"en":["kotlin"]}}} |
Kotlin Development Patterns
Idiomatic Kotlin patterns and best practices for building robust, efficient, and maintainable applications.
When to Use
- Writing new Kotlin code
- Reviewing Kotlin code
- Refactoring existing Kotlin code
- Designing Kotlin modules or libraries
- Configuring Gradle Kotlin DSL builds
How It Works
This skill enforces idiomatic Kotlin conventions across seven key areas: null safety using the type system and safe-call operators, immutability via val and copy() on data classes, sealed classes and interfaces for exhaustive type hierarchies, structured concurrency with coroutines and Flow, extension functions for adding behaviour without inheritance, type-safe DSL builders using @DslMarker and lambda receivers, and Gradle Kotlin DSL for build configuration.
Examples
Null safety with Elvis operator:
fun getUserEmail(userId: String): String {
val user = userRepository.findById(userId)
return user?.email ?: "unknown@example.com"
}
Sealed class for exhaustive results:
sealed class Result<out T> {
data class Success<T>(val data: T) : Result<T>()
data class Failure(val error: AppError) : Result<Nothing>()
data object Loading : Result<Nothing>()
}
Structured concurrency with async/await:
suspend fun fetchUserWithPosts(userId: String): UserProfile =
coroutineScope {
val user = async { userService.getUser(userId) }
val posts = async { postService.getUserPosts(userId) }
UserProfile(user = user.await(), posts = posts.await())
}
Core Principles
1. Null Safety
Kotlin's type system distinguishes nullable and non-nullable types. Leverage it fully.
fun getUser(id: String): User {
return userRepository.findById(id)
?: throw UserNotFoundException("User $id not found")
}
fun getUserEmail(userId: String): String {
val user = userRepository.findById(userId)
return user?.email ?: "unknown@example.com"
}
fun getUserEmail(userId: String): String {
val user = userRepository.findById(userId)
return user!!.email
}
2. Immutability by Default
Prefer val over var, immutable collections over mutable ones.
data class User(
val id: String,
val name: String,
val email: String,
)
fun updateEmail(user: User, newEmail: String): User =
user.copy(email = newEmail)
val users: List<User> = listOf(user1, user2)
val filtered = users.filter { it.email.isNotBlank() }
var currentUser: User? = null
val mutableUsers = mutableListOf<User>()
3. Expression Bodies and Single-Expression Functions
Use expression bodies for concise, readable functions.
fun isAdult(age: Int): Boolean = age >= 18
fun formatFullName(first: String, last: String): String =
"$first $last".trim()
fun User.displayName(): String =
name.ifBlank { email.substringBefore('@') }
fun statusMessage(code: Int): String = when (code) {
200 -> "OK"
404 -> "Not Found"
500 -> "Internal Server Error"
else -> "Unknown status: $code"
}
fun isAdult(age: Int): Boolean {
return age >= 18
}
4. Data Classes for Value Objects
Use data classes for types that primarily hold data.
data class CreateUserRequest(
val name: String,
val email: String,
val role: Role = Role.USER,
)
@JvmInline
value class UserId(val value: String) {
init {
require(value.isNotBlank()) { "UserId cannot be blank" }
}
}
@JvmInline
value class Email(val value: String) {
init {
require('@' in value) { "Invalid email: $value" }
}
}
fun getUser(id: UserId): User = userRepository.findById(id)
Sealed Classes and Interfaces
Modeling Restricted Hierarchies
sealed class Result<out T> {
data class Success<T>(val data: T) : Result<T>()
data class Failure(val error: AppError) : Result<Nothing>()
data object Loading : Result<Nothing>()
}
fun <T> Result<T>.getOrNull(): T? = when (this) {
is Result.Success -> data
is Result.Failure -> null
is Result.Loading -> null
}
fun <T> Result<T>.getOrThrow(): T = when (this) {
is Result.Success -> data
is Result.Failure -> throw error.toException()
is Result.Loading -> throw IllegalStateException("Still loading")
}
Sealed Interfaces for API Responses
sealed interface ApiError {
val message: String
data class NotFound(override val message: String) : ApiError
data class Unauthorized(override val message: String) : ApiError
data class Validation(
override val message: String,
val field: String,
) : ApiError
data class Internal(
override val message: String,
val cause: Throwable? = null,
) : ApiError
}
fun ApiError.toStatusCode(): Int = when (this) {
is ApiError.NotFound -> 404
is ApiError.Unauthorized -> 401
is ApiError.Validation -> 422
is ApiError.Internal -> 500
}
Scope Functions
When to Use Each
val length: Int? = name?.let { it.trim().length }
val user = User().apply {
name = "Alice"
email = "alice@example.com"
}
val user = createUser(request).also { logger.info("Created user: ${it.id}") }
val result = connection.run {
prepareStatement(sql)
executeQuery()
}
val csv = with(StringBuilder()) {
appendLine("name,email")
users.forEach { appendLine("${it.name},${it.email}") }
toString()
}
Anti-Patterns
user?.let { u ->
u.address?.let { addr ->
addr.city?.let { city ->
println(city)
}
}
}
val city = user?.address?.city
city?.let { println(it) }
Extension Functions
Adding Functionality Without Inheritance
fun String.toSlug(): String =
lowercase()
.replace(Regex("[^a-z0-9\\s-]"), "")
.replace(Regex("\\s+"), "-")
.trim('-')
fun Instant.toLocalDate(zone: ZoneId = ZoneId.systemDefault()): LocalDate =
atZone(zone).toLocalDate()
fun <T> List<T>.second(): T = this[1]
fun <T> List<T>.secondOrNull(): T? = getOrNull(1)
class UserService {
private fun User.isActive(): Boolean =
status == Status.ACTIVE && lastLogin.isAfter(Instant.now().minus(30, ChronoUnit.DAYS))
fun getActiveUsers(): List<User> = userRepository.findAll().filter { it.isActive() }
}
Coroutines
Structured Concurrency
suspend fun fetchUserWithPosts(userId: String): UserProfile =
coroutineScope {
val userDeferred = async { userService.getUser(userId) }
val postsDeferred = async { postService.getUserPosts(userId) }
UserProfile(
user = userDeferred.await(),
posts = postsDeferred.await(),
)
}
suspend fun fetchDashboard(userId: String): Dashboard =
supervisorScope {
val user = async { userService.getUser(userId) }
val notifications = async { notificationService.getRecent(userId) }
val recommendations = async { recommendationService.getFor(userId) }
Dashboard(
user = user.await(),
notifications = try {
notifications.await()
} catch (e: CancellationException) {
throw e
} catch (e: Exception) {
emptyList()
},
recommendations = try {
recommendations.await()
} catch (e: CancellationException) {
throw e
} catch (e: Exception) {
emptyList()
},
)
}
Flow for Reactive Streams
fun observeUsers(): Flow<List<User>> = flow {
while (currentCoroutineContext().isActive) {
val users = userRepository.findAll()
emit(users)
delay(5.seconds)
}
}.catch { e ->
logger.error("Error observing users", e)
emit(emptyList())
}
fun searchUsers(query: Flow<String>): Flow<List<User>> =
query
.debounce(300.milliseconds)
.distinctUntilChanged()
.filter { it.length >= 2 }
.mapLatest { q -> userRepository.search(q) }
.catch { emit(emptyList()) }
Cancellation and Cleanup
suspend fun processItems(items: List<Item>) {
items.forEach { item ->
ensureActive()
processItem(item)
}
}
suspend fun acquireAndProcess() {
val resource = acquireResource()
try {
resource.process()
} finally {
withContext(NonCancellable) {
resource.release()
}
}
}
Delegation
Property Delegation
val expensiveData: List<User> by lazy {
userRepository.findAll()
}
var name: String by Delegates.observable("initial") { _, old, new ->
logger.info("Name changed from '$old' to '$new'")
}
class Config(private val map: Map<String, Any?>) {
val host: String by map
val port: Int by map
val debug: Boolean by map
}
val config = Config(mapOf("host" to "localhost", "port" to 8080, "debug" to true))
Interface Delegation
class LoggingUserRepository(
private val delegate: UserRepository,
private val logger: Logger,
) : UserRepository by delegate {
override suspend fun findById(id: String): User? {
logger.info("Finding user by id: $id")
return delegate.findById(id).also {
logger.info("Found user: ${it?.name ?: "null"}")
}
}
}
DSL Builders
Type-Safe Builders
@DslMarker
annotation class HtmlDsl
@HtmlDsl
class HTML {
private val children = mutableListOf<Element>()
fun head(init: Head.() -> Unit) {
children += Head().apply(init)
}
fun body(init: Body.() -> Unit) {
children += Body().apply(init)
}
override fun toString(): String = children.joinToString("\n")
}
fun html(init: HTML.() -> Unit): HTML = HTML().apply(init)
val page = html {
head { title("My Page") }
body {
h1("Welcome")
p("Hello, World!")
}
}
Configuration DSL
data class ServerConfig(
val host: String = "0.0.0.0",
val port: Int = 8080,
val ssl: SslConfig? = null,
val database: DatabaseConfig? = null,
)
data class SslConfig(val certPath: String, val keyPath: String)
data class DatabaseConfig(val url: String, val maxPoolSize: Int = 10)
class ServerConfigBuilder {
var host: String = "0.0.0.0"
var port: Int = 8080
private var ssl: SslConfig? = null
private var database: DatabaseConfig? = null
fun ssl(certPath: String, keyPath: String) {
ssl = SslConfig(certPath, keyPath)
}
fun database(url: String, maxPoolSize: Int = 10) {
database = DatabaseConfig(url, maxPoolSize)
}
fun build(): ServerConfig = ServerConfig(host, port, ssl, database)
}
fun serverConfig(init: ServerConfigBuilder.() -> Unit): ServerConfig =
ServerConfigBuilder().apply(init).build()
val config = serverConfig {
host = "0.0.0.0"
port = 443
ssl("/certs/cert.pem", "/certs/key.pem")
database("jdbc:postgresql://localhost:5432/mydb", maxPoolSize = 20)
}
Sequences for Lazy Evaluation
val result = users.asSequence()
.filter { it.isActive }
.map { it.email }
.filter { it.endsWith("@company.com") }
.take(10)
.toList()
val fibonacci: Sequence<Long> = sequence {
var a = 0L
var b = 1L
while (true) {
yield(a)
val next = a + b
a = b
b = next
}
}
val first20 = fibonacci.take(20).toList()
Gradle Kotlin DSL
build.gradle.kts Configuration
plugins {
kotlin("jvm") version "2.3.10"
kotlin("plugin.serialization") version "2.3.10"
id("io.ktor.plugin") version "3.4.0"
id("org.jetbrains.kotlinx.kover") version "0.9.7"
id("io.gitlab.arturbosch.detekt") version "1.23.8"
}
group = "com.example"
version = "1.0.0"
kotlin {
jvmToolchain(21)
}
dependencies {
implementation("io.ktor:ktor-server-core:3.4.0")
implementation("io.ktor:ktor-server-netty:3.4.0")
implementation("io.ktor:ktor-server-content-negotiation:3.4.0")
implementation("io.ktor:ktor-serialization-kotlinx-json:3.4.0")
implementation("org.jetbrains.exposed:exposed-core:1.0.0")
implementation("org.jetbrains.exposed:exposed-dao:1.0.0")
implementation("org.jetbrains.exposed:exposed-jdbc:1.0.0")
implementation("org.jetbrains.exposed:exposed-kotlin-datetime:1.0.0")
implementation("io.insert-koin:koin-ktor:4.2.0")
implementation("org.jetbrains.kotlinx:kotlinx-coroutines-core:1.10.2")
testImplementation("io.kotest:kotest-runner-junit5:6.1.4")
testImplementation("io.kotest:kotest-assertions-core:6.1.4")
testImplementation("io.kotest:kotest-property:6.1.4")
testImplementation("io.mockk:mockk:1.14.9")
testImplementation("io.ktor:ktor-server-test-host:3.4.0")
testImplementation("org.jetbrains.kotlinx:kotlinx-coroutines-test:1.10.2")
}
tasks.withType<Test> {
useJUnitPlatform()
}
detekt {
config.setFrom(files("config/detekt/detekt.yml"))
buildUponDefaultConfig = true
}
Error Handling Patterns
Result Type for Domain Operations
suspend fun createUser(request: CreateUserRequest): Result<User> = runCatching {
require(request.name.isNotBlank()) { "Name cannot be blank" }
require('@' in request.email) { "Invalid email format" }
val user = User(
id = UserId(UUID.randomUUID().toString()),
name = request.name,
email = Email(request.email),
)
userRepository.save(user)
user
}
val displayName = createUser(request)
.map { it.name }
.getOrElse { "Unknown" }
require, check, error
fun withdraw(account: Account, amount: Money): Account {
require(amount.value > 0) { "Amount must be positive: $amount" }
check(account.balance >= amount) { "Insufficient balance: ${account.balance} < $amount" }
return account.copy(balance = account.balance - amount)
}
Collection Operations
Idiomatic Collection Processing
val activeAdminEmails: List<String> = users
.filter { it.role == Role.ADMIN && it.isActive }
.sortedBy { it.name }
.map { it.email }
val usersByRole: Map<Role, List<User>> = users.groupBy { it.role }
val oldestByRole: Map<Role, User?> = users.groupBy { it.role }
.mapValues { (_, users) -> users.minByOrNull { it.createdAt } }
val usersById: Map<UserId, User> = users.associateBy { it.id }
val (active, inactive) = users.partition { it.isActive }
Quick Reference: Kotlin Idioms
| Idiom | Description |
|---|
val over var | Prefer immutable variables |
data class | For value objects with equals/hashCode/copy |
sealed class/interface | For restricted type hierarchies |
value class | For type-safe wrappers with zero overhead |
Expression when | Exhaustive pattern matching |
Safe call ?. | Null-safe member access |
Elvis ?: | Default value for nullables |
let/apply/also/run/with | Scope functions for clean code |
| Extension functions | Add behavior without inheritance |
copy() | Immutable updates on data classes |
require/check | Precondition assertions |
Coroutine async/await | Structured concurrent execution |
Flow | Cold reactive streams |
sequence | Lazy evaluation |
Delegation by | Reuse implementation without inheritance |
Anti-Patterns to Avoid
val name = user!!.name
fun getLength(s: String) = s.length
fun getLength(s: String?) = s?.length ?: 0
data class MutableUser(var name: String, var email: String)
try {
val user = findUser(id)
} catch (e: NotFoundException) {
}
val user: User? = findUserOrNull(id)
GlobalScope.launch { }
coroutineScope {
launch { }
}
user?.let { u ->
u.address?.let { a ->
a.city?.let { c -> process(c) }
}
}
user?.address?.city?.let { process(it) }
Remember: Kotlin code should be concise but readable. Leverage the type system for safety, prefer immutability, and use coroutines for concurrency. When in doubt, let the compiler help you.