Jun 13, 2014.

We are very excited to announce the final release of Scala.js 0.5.0! This version is a major milestone towards the maturity of Scala.js, probably the most important release since its very first prototype.

Scala.js is a compiler from Scala to JavaScript. It allows you to write your entire web application in Scala and simply compile to JavaScript!

Tutorial, for newcomers to Scala.js

Upgrading from Scala.js 0.4.x

Try Scala.js right in your browser with Scala.jsFiddle (currently using Scala.js 0.4.4)

New features in the 0.5.x series

Scala.js 0.5.0 introduces new features, improvements and bug fixes in many areas, ranging from compiler correctness to usability to emitted code size and speed.

Language changes

Scala semantics for integer and character types (i.e., wrapping semantics) Int , Byte , Short , and Char now behave the same way as on the JVM with respect to wrapping around their range, e.g., Int is truly a signed 32-bit integer. Exception: division by 0 is still unspecified. Long continues to behave as a proper signed 64-bit integer, as it did for a long time Float still behaves just like Double , as it always did. Full details

Improved interoperability with JavaScript Normal Scala primitive types can be used instead of js.Number , js.Boolean , js.String and js.Undefined for interoperability with JavaScript, because they are guaranteed to always be represented as primitive JavaScript values ( Char and Long are still opaque to JavaScript, because they do not have a corresponding type in JavaScript). See the documentation on type correspondance for more details. Introduced the type js.UndefOr[+A] (API), which represents a value of type A or undefined , and offers an Option -like interface where undefined takes the role of None .



Improvements to the generated code

Smaller. For a non-trivial application, we have ~1.3 MB for fast-optimized code (for iterative development) ~180 KB for full-optimized code (for production)

Faster. Values of primitive types, excluding Char , are not boxed anymore when assigned to Any or generic types We don’t have precise benchmarks, but we received reports of noticeable improvements.



sbt plugin changes

preoptimizeJS and optimizeJS have been renamed fastOptJS and fullOptJS , respectively, to better represent their intent. fastOptJS is really fast (less than 1/2 second in addition to the normal compile of scalac), and is now the recommended default for iterative development.

and have been renamed and , respectively, to better represent their intent. is really fast (less than 1/2 second in addition to the normal of scalac), and is now the recommended default for iterative development. Running and testing with Node.js and PhantomJS With fastOptStage::run or fastOptStage::test , run your code using a native-speed interpreter on the result of fast-optimization. By default, Node.js is used, unless the setting requiresDOM := true is set, in which case PhantomJS is used Replace fastOptStage by fullOptStage to execute the full-optimized version of your code. Node.js and/or PhantomJS must be installed separately for this to work. The basic run and test still use Rhino and work out-of-the-box.

Auto-discovery of objects extending the js.JSApp trait (API) Can be run directly with the run task With persistLauncher := true , sbt will emit a tiny JavaScript entry point that calls the main method. To support this the best we could, we have dropped auto-discovery of objects defining a def main(args: Array[String]) method. More information in the tutorial

trait (API)

Binary compatibility and dependency management

Backward binary compatibility across minor releases Similarly to Scala, except it is only backward. For example, libraries compiled with Scala.js 0.5.0 will be usable with Scala.js 0.5.1, but not (necessarily) the other way around. The sbt plugin encodes the Scala.js binary version in artifact names in addition to the Scala binary version. For example, the artifacts for a library “foo” compiled with Scala 2.11.1 and Scala.js 0.5.0 will be named foo_sjs0.5_2.11 . To depend on the doubly-cross compiled version of a Scala.js library, use %%% instead of %% in your libraryDependencies . For example, "org.scala-lang.modules.scalajs" %%% "scalajs-dom" % "0.6"

Managing your dependencies on JavaScript libraries In addition to depending on other Scala.js libraries, Scala.js now supports depending on JavaScript libraries through WebJars, that will be resolved automatically. You can ask the sbt plugin to package all your JavaScript dependencies in a single .js file if you so wish, but this is not mandatory. See the tutorial for more information.



Command line interface (CLI)

Following a request by some of our users, we added a stand-alone distribution that allows to use Scala.js without sbt (but with Scala). scalajsc is a front-end to scalac setting up correctly the Scala.js compiler plugin and library on the classpath scalajsld performs linking and optimizations (the equivalent of fastOptJS and fullOptJS in sbt) scalajsp prints the content of .sjsir files (the intermediate files produced by scalajsc and consumed by scalajsld ) in a human-readable form.



Upgrading from Scala.js 0.4.x

Source code written for Scala.js 0.4.x should mostly compile without change for Scala.js 0.5.0. Due to the ability to type JavaScript APIs more precisely, in particular using scala.Int s and js.UndefOr , it is possible that code interacting with, for example, the statically typed DOM API will need some minor changes.

However, build files and HTML files surrounding Scala.js source code will need important adaptations. The easiest is to reproduce the changes of this commit of the bootstrapping skeleton.

You may also wish to take advantage of the new persistLauncher setting to automatically generate a launcher script based on the discovered JSApp , in which case you can also apply the changes of this other commit.

Known issues

This release suffers from a few known issues, which we decided to postpone to a later (binary-compatible) release. The most important ones are:

#727 - Source mapping does not work with our Rhino interpreter (with run and test ) Prefer fastOptStage::run and fastOptStage::test to run with Node.js: it is faster and you will get stack traces from your .scala source files.

and ) #608 - Ordering issues with the test reporter, which can mix results of tests ran in parallel. When a test fails, consider using fastOptStage::testQuick or fastOptStage::testOnly to rerun only the failing test, which will mitigate this issue.

#706 - JS libraries that act “too” smartly in Node.js. Work around: force usage of PhantomJS instead of Node.js, on which this issue does not seem to manifest.



You can find the complete list of known issues (and report new issues) on GitHub.