Kotlin/Library Package Maintainer Guide

This page contains useful information for any maintainers of the Kotlin packages' ebuilds.

Kotlin library build process overview
The upstream project uses Gradle as the build system, which handles the building process of the Kotlin libraries automatically. However, as of July 2021, Gradle is not integrated with Portage, and there is not an eclass that can be used to build and package artifacts for a Gradle project easily. Invoking Gradle directly in an ebuild seems to be a feasible solution, but Gradle downloads project dependencies from the Internet on its own, requiring  to be disabled in Portage's FEATURES and preventing any dependencies installed by Portage to be reused, so it is against the best practices.

Instead of relying on Gradle to automatically perform the build steps, the Kotlin library ebuilds directly call the Kotlin compiler and with equivalent compiler options, arguments and list of sources Gradle would use when the upstream project is being built by it. The sequence in which the modules are built and the order of compiler invocations are the same as the upstream project too. Those details about the build process are found through reverse engineering efforts, which will be described in this page below.

A Kotlin library component that is intended to be used with JVM may contain Java sources in addition to Kotlin sources. When such a component is being built, the Kotlin sources will be compiled first, and files will be generated. Then, any Java sources will be compiled by with those  files in the classpath. The files and the class files compiled from Java sources are all the contents in the JAR for the component in most cases. A few components may also have resource files that need to be included in the JAR as well.

Eclasses
The following eclasses are provided to facilitate creation of ebuilds for Kotlin libraries:


 * : The eclass for general Kotlin packages with Kotlin sources to compile, with support for compiling additional Java sources, JAR generation, source archive creation, JUnit 4 tests, installing pre-built binary JAR, and checks based on and .  This eclass is mainly designed for building sources in the main Kotlin programming language project; it might be possible to use it to build other Kotlin projects such as kotlinx libraries and third-party Kotlin libraries, but this has not been tested yet.
 * : An eclass based on for building modules under the directory in the upstream project's source tree.  The directory consists of reflection.jvm, which is the major part of kotlin-reflect, and various other modules which are both required by reflection.jvm during build time and parts of kotlin-reflect.  The modules correspond to the   subprojects in the main Gradle project.  This is a specialized eclass which is not intended to be used by a general Kotlin package's ebuild.

Obtaining compiler options used by Gradle
To build the Kotlin library packages properly and correctly, it is necessary to know how Gradle would compile them. Gradle will print the compiler options it uses to the output when its  option is enabled. As a side effect, this will make the output very verbose, so saving the output to a file might make searching in it easier. For example, the following command runs Gradle task  and copies the output to both standard output and, overwriting any existing contents in the file should it already exist:

Whenever Gradle invokes the Kotlin compiler, it prints the Kotlin compiler class, compiler classpath and compiler arguments to the debug output. These messages can be searched by querying occurrences of string, such as:

Gradle also prints the arguments it uses for. These arguments can be found by searching for occurrences of string, like:

For a few modules, Gradle may also call a command to start an external process directly. For example, it calls the command directly to build the   subproject. Such commands can be captured by searching for string  in the debug log:

Kotlin compiler classes and wrappers
The standalone version of the Kotlin compiler packaged and distributed by the upstream contains the following components for the compiler proper:


 * , the main compiler module
 * Various compiler wrapper executables
 * Other libraries used by the compiler

A compiler wrapper may set the KOTLIN_COMPILER environment variable to the name of the compiler class to be used, and the environment variable will be read by , the main Kotlin compiler wrapper.

Here is a list of classes in that are used when Gradle builds the Kotlin libraries:


 * org.jetbrains.kotlin.cli.jvm.K2JVMCompiler: Takes Kotlin sources as input, and produces Java class files as output. This is the default compiler class if KOTLIN_COMPILER is unset, and it is also the compiler class used in building all the JVM libraries.
 * org.jetbrains.kotlin.cli.js.K2JSCompiler: Takes Kotlin sources as input, and produces JavaScript files as output. This is the compiler class for.
 * org.jetbrains.kotlin.cli.js.internal.JSStdlibLinker: Processes JavaScript sources. Only used in building kotlin-stdlib-js.
 * org.jetbrains.kotlin.serialization.builtins.RunKt: The built-in serializer, which takes Kotlin sources as input and produces files as output.  Only used in building.

Compiler class used in kotlin-libs.eclass
does not have a variable for setting KOTLIN_COMPILER before is invoked, so the default compiler class for, which is org.jetbrains.kotlin.cli.jvm.K2JVMCompiler, will be used. However, ebuilds using can still specify a different compiler class by directly setting the KOTLIN_COMPILER environment variable before the eclass's   is called. For example, the following code changes the Kotlin compiler class used by to org.jetbrains.kotlin.cli.js.K2JSCompiler:

This method only works for compiler classes that comply with the common Kotlin compiler options because the  function of  sets some of the options in the arguments to. Some compiler classes listed above are known to be incompatible with those options, and this method does not work on them:


 * org.jetbrains.kotlin.cli.js.internal.JSStdlibLinker
 * org.jetbrains.kotlin.serialization.builtins.RunKt

When Gradle uses one of these compiler classes, it would run these classes directly with like. More details can be found in the following sections.

To see if a compiler class complies with the common Kotlin compiler options, try to set KOTLIN_COMPILER to that class and run, then see what options the compiler class accepts. If no common compiler option is shown at all in the help message or an exception is even thrown, then the compiler class is likely to not comply with the common compiler options.

{{Cmd|KOTLIN_COMPILER{{=}}org.jetbrains.kotlin.cli.js.K2JSCompiler kotlinc -help|collapse-output=true|output= Usage: kotlinc-js,   and   phase functions work similarly as {{Path|java-pkg-simple.eclass}} too. also has some additional variables for controlling how Kotlin sources are compiled, tested and installed.

Allow pre-built binary JAR to be used
The upstream hosts pre-built binary JAR artifacts for many libraries on Maven Central. To allow the pre-built JAR to be installed for an ebuild, specify the URI to the JAR in KOTLIN_LIBS_BINJAR_SRC_URI before inheriting kotlin-libs, and set JAVA_BINJAR_FILENAME to the base name of the JAR anywhere in the ebuild.

Specifying a non-empty value for KOTLIN_LIBS_BINJAR_SRC_URI has the following effects:


 * A  USE flag will be automatically added for the ebuild.  When this USE flag is enabled, the package will not be compiled and installed from source; the pre-built JAR pointed by KOTLIN_LIBS_BINJAR_SRC_URI will be installed instead.


 * If the  USE flag is disabled, then during , the JAR created by the ebuild will be compared with the pre-built JAR pointed by KOTLIN_LIBS_BINJAR_SRC_URI for non-trivial difference in JAR contents and incompatibility in API.  This is equivalent to specifying   for.


 * Another variable, KOTLIN_LIBS_SRCJAR_SRC_URI, will be recognized by . If KOTLIN_LIBS_SRCJAR_SRC_URI has a non-empty value that is set before kotlin-libs is inherited, then the   USE flag can be set when the   USE flag is enabled.  With  , the ebuild will pull the file pointed by KOTLIN_LIBS_SRCJAR_SRC_URI and install it as the source archive for the package at.
 * If KOTLIN_LIBS_SRCJAR_SRC_URI has a non-empty value, then another variable, KOTLIN_LIBS_SRCJAR_FILENAME, must be set to the base name of the file pointed by KOTLIN_LIBS_SRCJAR_SRC_URI.

Dependencies
A Kotlin package can have both build dependencies and runtime dependencies on other Java or Kotlin packages. Build dependencies are to be added to DEPEND. Runtime dependencies that should present in the classpath when the package is being used should go into both RDEPEND and CP_DEPEND. CP_DEPEND is used by to generate a runtime classpath for the package accordingly.