Configuring Kotlin Support
This page describes developing plugins using the Kotlin programming language.
Advantages of Developing a Plugin in Kotlin
Using Kotlin to write plugins for the IntelliJ Platform is very similar to writing plugins in Java. Existing plugin developers can get started by converting boilerplate Java classes to their Kotlin equivalents by using the J2K converter (part of Kotlin plugin), and developers can easily mix and match Kotlin classes with their existing Java code.
In addition to null safety and type-safe builders, the Kotlin language offers many convenient features for plugin development, which make plugins easier to read and simpler to maintain. Much like Kotlin for Android, the IntelliJ Platform makes extensive use of callbacks, which are easy to express as lambdas in Kotlin.
Likewise, it is easy to customize the behavior of internal classes in the IntelliJ Platform using extensions. For example, it is common practice to guard logging statements to avoid the cost of parameter construction, leading to the following ceremony when using the log:
We can achieve the same result more succinctly in Kotlin, by declaring the following extension method:
Now we can directly write:
to receive all the benefits of lightweight logging while reducing the code verbosity.
With practice, you will be able to recognize many idioms in the IntelliJ Platform that can be simplified with Kotlin.
UI Forms in Kotlin
The IntelliJ Platform provides the type safe DSL allowing to build UI forms in a declarative way.
Adding Kotlin Support
IntelliJ IDEA bundles the necessary Kotlin plugin, requiring no further configuration. For detailed instructions, please refer to the Kotlin documentation.
Kotlin Gradle Plugin
Adding Kotlin source files compilation support to the Gradle-based project requires adding and configuring the Kotlin JVM Gradle plugin.
See the build.gradle.kts from kotlin_demo sample plugin:
Kotlin Standard Library
Since Kotlin 1.4, a dependency on the standard library
stdlib is added automatically (API Docs). In most cases, it is not necessary to include it in the plugin distribution as the platform already bundles it.
To opt out, add this line in gradle.properties:
The presence of this Gradle property is checked by the Gradle IntelliJ Plugin with the verifyPluginConfiguration. If the property is not present, a warning will be reported during the plugin configuration verification, as it is a common problem when Kotlin stdlib gets bundled within the plugin archive. If it is expected to make Kotlin stdlib present in the final archive, explicitly specify it with
kotlin.stdlib.default.dependency = true.
If a plugin supports multiple platform versions, it must either target the lowest bundled
stdlib version or provide the specific version in plugin distribution.
IntelliJ Platform version
See Dependency on the standard library for more details.
Other Bundled Kotlin Libraries
Please see Third-Party Software and Licenses.
Plugins may use Kotlin classes (
class keyword) to implement declarations in the plugin configuration file. When registering an extension, the platform uses a dependency injection framework to instantiate these classes at runtime. For this reason, plugins must not use Kotlin objects (
object keyword) to implement any plugin.xml declarations. Managing the lifecycle of extensions is the platform responsibility and instantiating these classes as Kotlin singletons may cause issues.
Kotlin Code FAQ
Example Plugins Implemented in Kotlin
There are many open-source Kotlin plugins built on the IntelliJ Platform. For a readily available source of up-to-date examples of plugins implemented in Kotlin, developers may look to these projects for inspiration: