Building Scala CLI requires JVM 17 to work properly.
In theory, our build is able to download and install for its own needs JVM 17 on some OSes however it may not work in Intellij / Metals out of the box.
The Scala CLI sources ship with Mill launchers, so that Mill itself doesn't need to be installed on your system.
./mill -i scala …arguments…
This command runs the unit tests from the build-module
module.
./mill 'build-module.test'
If you want to run unit tests for another module, set module_name
to the name of the module from which you want to run
the unit tests:
./mill 'module_name.test'
To can filter unit test suites:
./mill 'build-module.test' 'scala.build.tests.BuildTestsScalac.*'
./mill 'build-module.test' 'scala.build.tests.BuildTestsScalac.simple'
./mill integration.test.jvm
Filter test suites with
./mill integration.test.jvm 'scala.cli.integration.RunTestsDefault.*'
./mill integration.test.jvm 'scala.cli.integration.RunTestsDefault.Multiple scripts'
You can pass the --debug
option to debug Scala CLI when running integration tests. Note that this allows to debug the
Scala CLI launcher (the app) and not the integration test code itself. The debugger is being run in the attach
mode.
./mill integration.test.jvm 'scala.cli.integration.RunTestsDefault.*' --debug
The debug option uses 5005 port by default. It is possible to change it as follows:
./mill integration.test.jvm 'scala.cli.integration.RunTestsDefault.*' --debug:5006
(generating the launcher can take several minutes)
./mill integration.test.native
./mill integration.test.native 'scala.cli.integration.RunTestsDefault.*'
Build native packagers:
deb
for linuxmsi
for windowsdmg
andpkg
for macOS
(generating native packager for specified format)
./mill -i scala package ..arguments... --deb --output 'path.deb'
./mill -i scala package ..arguments... --dmg --output 'path.dmg'
./mill -i scala package ..arguments... --pkg --output 'path.pkg'
The Scala CLI repository should work when imported automatically from Mill to IDEA IntelliJ and Metals. Please raise an issue if you run into any problems.
When working with IntelliJ make sure that the project's Java is set correctly.
To confirm, check under File -> Project Structure
that:
- in
Project Settings/Project
SDK
andLanguage level
is set to 17 - in
Project Settings/Modules
all the modules haveLanguage level
set to 17 - in
Platform Settings/SDKs
only Java 17 is visible
Otherwise, some IDE features may not work correctly, i.e. the debugger might crash upon connection.
./mill -i show cli.nativeImage
This prints the path to the generated native image.
The file named scala
at the root of the project should also
be a link to it. (Note that the link is committed and is always there,
whether the files it points at exists or not.)
./mill -i show cli.launcher
This prints the path to the generated launcher. This launcher is a JAR, that directly re-uses the class directories of the modules of the project (so that cleaning up those classes will break the launcher). If this is a problem (if you wish to run the launcher on another machine or from a Docker image for example), use a native launcher (see above) or a standalone JVM one (see below).
./mill -i show cli.standaloneLauncher
This prints the path to the generated launcher. This launcher is a JAR, that embeds JARs of the scala-cli modules, and downloads their dependencies from Maven Central upon first launch (using the coursier cache, just like a coursier bootstrap).
A number of features of Scala CLI are managed from external projects, living under
the scala-cli
organization on GitHub. These
projects can be used by Scala CLI as libraries pulled before it's compiled, but also
as binaries. In the latter case, Scala CLI downloads on-the-fly binaries from these
repositories' GitHub release assets, and runs them as external processes.
For example, here are a few external projects used by Scala CLI:
- scala-js-cli-native-image: provides a binary running the Scala.js linker
- scala-cli-signing: provides both libraries and binaries to handle PGP concerns in Scala CLI
- libsodiumjni: provides minimal JNI bindings for
libsodium, that is used by Scala CLI to encrypt secrets
uploaded as GitHub repository secrets in the
publish setup
sub-command
For the full list of those projects and their description, see the scala-cli repository list and the READMEs of each of these projects.
The use of external binaries allows to make the Scala CLI binary slimmer and faster to generate, but also allow to lower memory requirements to generate it (allowing to generate these binaries on the GitHub-provided GitHub actions hosts).
The Scala CLI website is built with Docusaurus and uses Infima for styling.
Ensure you are using Node >= 16.14.2.
cd website
yarn
yarn build
npm run serve
cd website
yarn
yarn run start
We have a built-in tool to validate .md
files called Sclicheck.
All Sclicheck
tests can be run with Mill
+ munit
: (and this is what we run on the CI, too)
./mill -i docs-tests.test
The former also includes testing gifs and Sclicheck
itself.
To just check the documents, run:
./mill -i docs-tests.test 'sclicheck.DocTests.*'
You can also check all root docs, commands, reference docs, guides or cookbooks:
./mill -i docs-tests.test 'sclicheck.DocTests.root*'
./mill -i docs-tests.test 'sclicheck.DocTests.guide*'
./mill -i docs-tests.test 'sclicheck.DocTests.command*'
./mill -i docs-tests.test 'sclicheck.DocTests.cookbook*'
./mill -i docs-tests.test 'sclicheck.DocTests.reference*'
Similarly, you can check single files:
./mill -i docs-tests.test 'sclicheck.DocTests.<category> <doc-name>'
For example, to run the check on compile.md
./mill -i docs-tests.test 'sclicheck.DocTests.command compile'
Package with various logos for scala-cli can be found on google drive
There is a script scala-cli-src
in the repository root that is intended to work exactly like released scala-cli, but
using a binary compiled the worktree.
Just add it to your PATH to get the already-released-scala-cli experience.
Instructions on how to release - Release Procedure
The easiest way to debug BSP sever is using scala-cli-src
script with --bsp-debug-port 5050
flag (the port should be
unique to the workspace where BSP will be debugged). In such case BSP will be launched using local source and will run
on JVM. It will also expects a debugger running in the listen mode using provided port (so the initialization of the
connection can be debugged). In such case we recommend to have option to auto rerun debugging session off (so there is
always a debugger instance ready to be used).
As Scala CLI is using GraalVM native image, it requires a configuration file for reflection.
The configuration for the cli
module is located
in the reflect-config.json
file.
When adding new functionalities or updating dependencies, it might turn out the reflection configuration for some class
may be missing. The relevant error message when running integration.test.native
may be misleading,
usually with a ClassNotFoundException
or even with a functionality seemingly being skipped.
This is because logic referring to classes with missing reflection configuration may be skipped for the used native
image.
To generate the relevant configuration automatically, you can run:
./mill -i cli.runWithAssistedConfig <scala-cli-sub-command> <args> <options>
Just make sure to run it exactly the same as the native image would have been run, as the configuration is generated for a particular invocation path. The run has to succeed as well, as the configuration will only be fully generated after an exit code 0.
Config generated in out/cli/runWithAssistedConfig.dest/config
As a result, you should get the path to the generated configuration file. It might contain some unnecessary entries, so
make sure to only copy what you truly need.
As the formatting of the reflect-config.json
is verified on the CI, make sure to run the following command to adjust
it accordingly before committing:
./mill -i __.formatNativeImageConf
For more info about reflection configuration in GraalVM, check the relevant GraalVM Reflection docs.