INTERNALS.md

Internals overview

Modules

Modules live under modules/. Each sub-directory there has a corresponding mill module definition in build.sc (but for integration).

Most of the code currently lives in the build module.

The cli module depends on build, gets packaged as a native-image executable, and distributed as scala-cli binary.

The other modules are either:

• integration tests
• utility modules, that build either:
  • depends on
  • fetches at run-time.

Utility modules

These are:

• runner: simple app that starts a main class, catches any exception it throws and pretty-prints it.
• test-runner: finds test frameworks, test suites, and runs them
• tasty-lib: edits file names in .tasty files

Tests

The tests live either in:

• build: unit tests
• integration: integration tests

Run unit tests with

./mill 'build[_].test'

Run integration tests with a JVM-based scala-cli with

./mill integration.test.jvm

Run integration tests with a native-image-based scala-cli with

./mill integration.test.native

General workflow in most scala-cli commands

We roughly go from user inputs to byte code through 3 classes:

• Inputs: ADT for input files / directories.
• Sources: processed sources, ready to be passed to scalac
• Build: compilation result: success or failure.

Most commands

• take the arguments passed on the command-line: we have an Array[String]
• check whether each of them is a .scala file, an .sc file, a directory, …: we get an Inputs instance
• reads the directories, the .scala / .sc files: we get a Sources instance
• compile those sources: we get a Build instance
• do something with the build output (run it, run tests, package it, …)

In watch mode, we loop over the last 3 steps (Inputs is computed only once, the rest is re-computed upon file change).

Source pre-processing

Some input files cannot be passed as is to scalac, if they are scripts (.sc files), which contain top-level statements

Scripts get wrapped. If the script a/b/foo.sc contains

val n = 2

we compile it as

package a.b
object foo {
val n = 2
def main(args: Array[String]): Unit = ()
}

Basically,

• its directory dictates its package
• we put its sources as is in an object
• we add a main method

Build outputs post-processing

The source generation changes:

• file names, which now correspond to the directory where we write generated sources
• positions, when we wrap code (for .sc files)

As a consequence, some build outputs contains wrong paths or positions:

• diagnostics (warning and error messages) contain file paths and positions, used in reporting
• byte code contains file names and line numbers, that are used in stack traces
• semantic DBs contain relative file paths and positions, used by IDEs
• TASTy files contain relative file paths, used in pretty stack traces

We post-process those build outputs, to adjust positions and file paths of the generated sources: various "mappings" are computed out of the generated sources list, and are used to adjust:

• diagnostics: done in memory, right before printing diagnostics
• byte code: done using the ASM library
• semantic DBs: we parse the semantic DBs, edit them in memory, and write them back on disk
• TASTy files: we partly parse them in memory, edit names that contain source file paths, and write them back on disk

Publishing scalajs-cli

Maven Publishing

• Version Synchronization: scalajs-cli will be published with the same version as Scala.js version, for example 1.13.0.
• Updates & Fixes: For any subsequent fixes or patches in scalajs-cli, we will append a numeric value to the end, like 1.13.0.1.
• GitHub Uploads
  • Native Launchers: With the patch release of scalajs-cli, native launchers are automatically uploaded to both versions, for example 1.13.0.1 and 1.13.0 tags on GitHub.
  • For instance: For release 1.13.0.2, the launchers are uploaded to tags 1.13.0.2 and 1.13.0.
• ScalaCli dependency to scalajs-cli:
  • For Coursier to retrieve the most recent scalajs-cli for a specific Scala.js version, the version is set as org.virtuslab:scalajscli_2.13:{Scala.js version}+. For example org.virtuslab:scalajscli_2.13:1.13.0+.
  • Native Version Download:
    • The native version is downloaded from the Scala.js version tag. If there are updates or fixes to the native scalajs-cli launchers, the updated launchers are uploaded to the 1.13.0 tag during the 1.13.0.1 publishing.