Who’s heard of this lovely and astounding programming language Kotlin, and wanted to try it out on the real backend project and couldn’t?

This is common. The team discusses that everyone really wants to go Kotlin, and they still decide to create that new codebase in Java. You and your fellow colleagues are afraid that this will go crazy wrong, right?

And you are right to have such a feeling, as you don’t have enough confidence yet to make the switch. What if the whole team is still learning this new technology, and there is an unexpected challenge that nobody can resolve for weeks?

Now, you’re probably quite a bit into this project, and your backend codebase is all in verbose Java, and you think: “No way I can try Kotlin now! Not until next one…”

Wrong.

There is no point in waiting until the next opportunity because of the high chances that it’ll turn out the same!

Now, what if I told you that you can still try out Kotlin together with your teammates in this codebase without any risks, and no strings attached?

Let me explain.

Mixing Java and Kotlin code

With Kotlin’s 100% bidirectional interoperability, it’s possible to mix Java and Kotlin code easily.

What this means, is that you can convert a single file from Java to Kotlin to get the feels of what it’ll look like. And everything will work just like before.

Now, what if I told you that such a conversion is one hotkey away?

Let me show an example. Imagine you had this simple service class in your Java backend application:



// QuizService.java package com.iwillteachyoukotlin.quizzy ; import org.springframework.stereotype.Service ; @Service public class QuizService { private final QuizRepository quizRepository ; public QuizService ( QuizRepository quizRepository ) { this . quizRepository = quizRepository ; } public Quiz create ( Quiz quiz ) { if ( quiz . id != null ) { throw new BadRequestException ( "id should be empty" ); } return quizRepository . save ( quiz ); } public Quiz getQuiz ( int quizId ) { return quizRepository . findById ( quizId ) . orElseThrow (() -> new NotFoundException ( "quiz not found" )); } }

Now, you can press CMD+ALT+SHIFT+K (or CTRL+ALT+SHIFT+K ), or you could use Convert Java File to Kotlin File action:

The result is the following code. Notice how both constructor and field definition has merged into a single declaration in Kotlin:



// QuizService.kt package com.iwillteachyoukotlin.quizzy import org.springframework.stereotype.Service @Service class QuizService ( private val quizRepository : QuizRepository ) { fun create ( quiz : Quiz ): Quiz { if ( quiz . id != null ) { throw BadRequestException ( "id should be empty" ) } return quizRepository . save ( quiz ) } fun getQuiz ( quizId : Int ): Quiz { return quizRepository . findById ( quizId ) . orElseThrow { NotFoundException ( "quiz not found" ) } } }

Note for Lombok users: Use Delombok on this file before converting to Kotlin.

Of course, you need to add Kotlin support to your build tool before you can even run this code:

Add Kotlin support to Gradle

(Note: refer to this guide if you’re using Maven)

Add a Gradle plugin appropriately:



plugins { id "org.jetbrains.kotlin.jvm" version "1.3.11" }

Note for Spring Boot users: You need to add this plugin, so that Kotlin classes will open automatically where needed, so that Spring Boot can use reflection on them: id "org.jetbrains.kotlin.plugin.spring" version "1.3.11" And if you’re using JPA/Hibernate entities, you’ll need this plugin: id "org.jetbrains.kotlin.plugin.jpa" version "1.3.11" This adds the default constructor for your entities.

Also, you’ll need to add a dependency on Kotlin standard library and reflection library:



dependencies { implementation "org.jetbrains.kotlin:kotlin-stdlib-jdk8" implementation "org.jetbrains.kotlin:kotlin-reflect" // … }

Now you have one Kotlin file among the sea of Java files. Java classes are calling this Kotlin code, and this Kotlin code is calling to Java code.

And it all perfectly works. And all tests pass!

Now, simple automatic conversion is ok and all, but it’s not enough to really leverage the power of Kotlin.

1. Use Elvis operator instead of most null checks

If you had any null check anywhere that returns or throws an exception, for example:



fun update ( quiz : Quiz ): Quiz { if ( quiz . id == null ) { throw BadRequestException ( "id should not be empty" ) } return quizRepository . save ( quiz ) }

These null checks that either throw or return are usually called guard if statements. In Kotlin these can be done more succinctly with "Elvis" operator ?: :



fun update ( quiz : Quiz ): Quiz { quiz . id ?: throw BadRequestException ( "id should not be empty" ) return quizRepository . save ( quiz ) }

2. Convert Optional s to nullable

Another example that can be simplified with Kotlin is the usage of Optional type:



fun getQuiz ( quizId : Int ): Quiz { return quizRepository . findById ( quizId ) . orElseThrow { NotFoundException ( "quiz not found" ) } }

Here we’re going to use another method of our repository that returns either a found object or null :



fun getQuiz ( quizId : Int ): Quiz { return quizRepository . findByIdOrNull ( quizId ) ?: throw NotFoundException ( "quiz not found" ) }

As you can see, here we use the Elvis operator, as well. Quite handy, isn’t it?

3. Make JUnit test names more readable

Let’s imagine that the application above had this test in its integration test suite:



@Test public void failsToCreate_whenIdIsProvided () throws Exception { // ARRANGE final Quiz quiz = new Quiz ( 42 , "title" , "description" , "cta" , "https://example.org/image.png" ); // ACT final ResultActions actions = mockMvc . perform ( post ( "/quizzes" ) . contentType ( APPLICATION_JSON_UTF8 ) . content ( objectMapper . writeValueAsString ( quiz ))); // ASSERT actions . andExpect ( status (). isBadRequest ()) . andExpect ( jsonPath ( "$.message" , equalTo ( "id should be empty" ))); }

Now, after automatic conversion to Kotlin it’ll look something like this:



@Test @Throws ( Exception :: class ) fun failsToCreate_whenIdIsProvided () { // ARRANGE val quiz = Quiz ( 42 , "title" , "description" , "cta" , "https://example.org/image.png" ) // ACT val actions = mockMvc !! . perform ( post ( "/quizzes" ) . contentType ( APPLICATION_JSON_UTF8 ) . content ( objectMapper !! . writeValueAsString ( quiz ))) // ASSERT actions . andExpect ( status (). isBadRequest ) . andExpect ( jsonPath ( "$.message" , equalTo ( "id should be empty" ))) }

First, we can throw away this @Throws annotation immediately. It’s mostly useless in Kotlin.

And now, we can use actual human-readable sentences in the method names using backticks:



@Test fun `create quiz - fails to create when id is provided` () { // … }

My general structure is: "{method name or use case name} - {expected outcome} when {condition}."

4. Use lateinit instead of nullable

In cases, when something is being provided later (like dependency injection, or initialized in the set-up section of the test suite), you should use lateinit instead. It’s much cleaner.

Look, this code is a result of automatic conversion:



@SpringBootTest @RunWith ( SpringRunner :: class ) class QuizzesIntegrationTest { @Autowired private val context : WebApplicationContext ? = null @Autowired private val objectMapper : ObjectMapper ? = null private var mockMvc : MockMvc ? = null private var quizId : Int = 0 @Before fun setUp () { mockMvc = MockMvcBuilders . webAppContextSetup ( context !! ) . build () } // … }

All these fields are initialized later, AND before the first usage, so we can tell the compiler about that:



@Autowired private lateinit var context : WebApplicationContext @Autowired private lateinit var objectMapper : ObjectMapper private lateinit var mockMvc : MockMvc private var quizId : Int = 0

Now, the problem is that all these nullable values were unsafely unwrapped everywhere in the test suite with !! operator:

Of course, we can fix them all manually, but these are things that tools should fix for us.

And they do, look:

It still would be annoying to go through each occurrence though. So we should just apply code cleanups to the whole file:

5. Use named arguments for readability

Now, you see this snippet of code:



// ARRANGE val quiz = Quiz ( 42 , "title" , "description" , "cta" , "https://example.org/image.png" )

We can make this code much more descriptive if we were to use named arguments, like so:

Now, you’ll get this cute little readable snippet of code. Also, you can re-order the arguments when you pass them as you wish, and as it makes more sense.



// ARRANGE val quiz = Quiz ( id = 42 , title = "title" , description = "description" , ctaText = "cta" , imageUrl = "https://example.org/image.png" )

Unfortunately, to make this feature work, the class Quiz can’t be a Java class, it has to be in Kotlin, so we’ll have to convert the entity below to Kotlin:



@Entity ( name = "quizzes" ) @Data @RequiredArgsConstructor @AllArgsConstructor @JsonIgnoreProperties ({ "hibernateLazyInitializer" }) public class Quiz { @Id @GeneratedValue public Integer id = null ; public final String title ; public final String description ; public final String ctaText ; public final String imageUrl ; Quiz () { title = "" ; description = "" ; ctaText = "" ; imageUrl = "" ; } }

This is a result of full (auto + manual) conversion:



@Entity ( name = "quizzes" ) @JsonIgnoreProperties ( "hibernateLazyInitializer" ) data class Quiz ( @Id @GeneratedValue var id : Int ? = null , val title : String , val description : String , val ctaText : String , val imageUrl : String )

As you can see we’re getting rid of all the Lombok stuff and using a data class now because it can do most of the things, you would need from the entity.

6+. There is so much more you can improve!

If you want to learn more about how good Kotlin code will look like, I highly recommend to go through the Kotlin Koans.

You can do that right in your browser, or in your IDE if you wish.

Now, remember, at the beginning of this post, I’ve promised the "Without Risk" part, didn’t I?

Trying out without any risks whatsoever

Now, if I decided not to make the switch to Kotlin yet (because I still need to convince my colleagues, for example), I can use Local History feature of my IDE to go back in time to when I started playing with Kotlin:

To open that tool in IntelliJ, you can use the contextual menu on the whole project in the project structure tool. There is an option Local History > Show History there:

When you’ve found the place where you started playing with Kotlin, you can revert to the first Kotlin-related change, for example:

Now, there is not a single Kotlin file, and all the tests are passing. This is a handy feature in general if you screwed something up, and haven’t made a commit in Git in a while.

Did that spike your curiosity about Kotlin? I have written a 4-part (350-pages total) “Ultimate Tutorial: Getting Started With Kotlin” (+ more to come), and you can get it as a free bonus by becoming a member of my monthly newsletter. On top of just Kotlin, it is full of goodies like TDD, Clean Code, Software Architecture, Business Impacts, 5 WHYs, Acceptance Criteria, Personas, and more. —Sign up here and start learning how to build full-fledged Kotlin applications!

Thank you and ask for you!

Thank you so much for reading this article! I hope you enjoyed it. Please, tell me what you think about this in the comments!

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You are welcome to read my blog about Kotlin, and my blog about TDD and best software engineering practices.

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Originally published on iwillteachyoukotlin blog.