Scala runs...

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  • natively with LLVM beta

Scala in a Nutshell

click the boxes below to see Scala in action!

Seamless Java Interop

Scala runs on the JVM, so Java and Scala stacks can be freely mixed for totally seamless integration.

Type Inference

So the type system doesn’t feel so static. Don’t work for the type system. Let the type system work for you!

Concurrency & Distribution

Use data-parallel operations on collections, use actors for concurrency and distribution, or futures for asynchronous programming.

Author.scala
class Author(val firstName: String,
    val lastName: String) extends Comparable[Author] {

  override def compareTo(that: Author) = {
    val lastNameComp = this.lastName compareTo that.lastName
    if (lastNameComp != 0) lastNameComp
    else this.firstName compareTo that.firstName
  }
}

object Author {
  def loadAuthorsFromFile(file: java.io.File): List[Author] = ???
}
App.java
import static scala.collection.JavaConversions.asJavaCollection;

public class App {
    public List<Author> loadAuthorsFromFile(File file) {
        return new ArrayList<Author>(asJavaCollection(
            Author.loadAuthorsFromFile(file)));
    }

    public void sortAuthors(List<Author> authors) {
        Collections.sort(authors);
    }

    public void displaySortedAuthors(File file) {
        List<Author> authors = loadAuthorsFromFile(file);
        sortAuthors(authors);
        for (Author author : authors) {
            System.out.println(
                author.lastName() + ", " + author.firstName());
        }
    }
}

Combine Scala and Java seamlessly

Scala classes are ultimately JVM classes. You can create Java objects, call their methods and inherit from Java classes transparently from Scala. Similarly, Java code can reference Scala classes and objects.


In this example, the Scala class Author implements the Java interface Comparable<T> and works with Java Files. The Java code uses a method from the companion object Author, and accesses fields of the Author class. It also uses JavaConversions to convert between Scala collections and Java collections.

Type inference
scala> class Person(val name: String, val age: Int) {
     |   override def toString = s"$name ($age)"
     | }
defined class Person

scala> def underagePeopleNames(persons: List[Person]) = {
     |   for (person <- persons; if person.age < 18)
     |     yield person.name
     | }
underagePeopleNames: (persons: List[Person])List[String]

scala> def createRandomPeople() = {
     |   val names = List("Alice", "Bob", "Carol",
     |       "Dave", "Eve", "Frank")
     |   for (name <- names) yield {
     |     val age = (Random.nextGaussian()*8 + 20).toInt
     |     new Person(name, age)
     |   }
     | }
createRandomPeople: ()List[Person]

scala> val people = createRandomPeople()
people: List[Person] = List(Alice (16), Bob (16), Carol (19), Dave (18), Eve (26), Frank (11))

scala> underagePeopleNames(people)
res1: List[String] = List(Alice, Bob, Frank)

Let the compiler figure out the types for you

The Scala compiler is smart about static types. Most of the time, you need not tell it the types of your variables. Instead, its powerful type inference will figure them out for you.

In this interactive REPL session (Read-Eval-Print-Loop), we define a class and two functions. You can observe that the compiler infers the result types of the functions automatically, as well as all the intermediate values.

Concurrent/Distributed
val x = Future { someExpensiveComputation() }
val y = Future { someOtherExpensiveComputation() }
val z = for (a <- x; b <- y) yield a*b
for (c <- z) println("Result: " + c)
println("Meanwhile, the main thread goes on!")

Go Concurrent or Distributed with Futures & Promises

In Scala, futures and promises can be used to process data asynchronously, making it easier to parallelize or even distribute your application.

In this example, the Future{} construct evaluates its argument asynchronously, and returns a handle to the asynchronous result as a Future[Int]. For-comprehensions can be used to register new callbacks (to post new things to do) when the future is completed, i.e., when the computation is finished. And since all this is executed asynchronously, without blocking, the main program thread can continue doing other work in the meantime.

Traits

Combine the flexibility of Java-style interfaces with the power of classes. Think principled multiple-inheritance.

Pattern Matching

Think “switch” on steroids. Match against class hierarchies, sequences, and more.

Higher-order functions

Functions are first-class objects. Compose them with guaranteed type safety. Use them anywhere, pass them to anything.

Traits
abstract class Spacecraft {
  def engage(): Unit
}
trait CommandoBridge extends Spacecraft {
  def engage(): Unit = {
    for (_ <- 1 to 3)
      speedUp()
  }
  def speedUp(): Unit
}
trait PulseEngine extends Spacecraft {
  val maxPulse: Int
  var currentPulse: Int = 0
  def speedUp(): Unit = {
    if (currentPulse < maxPulse)
      currentPulse += 1
  }
}
class StarCruiser extends Spacecraft
                     with CommandoBridge
                     with PulseEngine {
  val maxPulse = 200
}

Flexibly Combine Interface & Behavior

In Scala, multiple traits can be mixed into a class to combine their interface and their behavior.

Here, a StarCruiser is a Spacecraft with a CommandoBridge that knows how to engage the ship (provided a means to speed up) and a PulseEngine that specifies how to speed up.

Switch on the structure of your data

In Scala, case classes are used to represent structural data types. They implicitly equip the class with meaningful toString, equals and hashCode methods, as well as the ability to be deconstructed with pattern matching.


In this example, we define a small set of case classes that represent binary trees of integers (the generic version is omitted for simplicity here). In inOrder, the match construct chooses the right branch, depending on the type of t, and at the same time deconstructs the arguments of a Node.

Pattern matching
// Define a set of case classes for representing binary trees.
sealed abstract class Tree
case class Node(elem: Int, left: Tree, right: Tree) extends Tree
case object Leaf extends Tree

// Return the in-order traversal sequence of a given tree.
def inOrder(t: Tree): List[Int] = t match {
  case Node(e, l, r) => inOrder(l) ::: List(e) ::: inOrder(r)
  case Leaf          => List()
}

Go Functional with Higher-Order Functions

In Scala, functions are values, and can be defined as anonymous functions with a concise syntax.

Scala
val people: Array[Person]

// Partition `people` into two arrays `minors` and `adults`.
// Use the anonymous function `(_.age < 18)` as a predicate for partitioning.
val (minors, adults) = people partition (_.age < 18)
Java
List<Person> people;

List<Person> minors = new ArrayList<Person>(people.size());
List<Person> adults = new ArrayList<Person>(people.size());
for (Person person : people) {
    if (person.getAge() < 18)
        minors.add(person);
    else
        adults.add(person);
}
Learn More

or visit the Scala Documentation

IDEs for Scala

Run Scala in your browser

Scastie is Scala + sbt in your browser! You can use any version of Scala, or even alternate backends such as Dotty, Scala.js, Scala Native, and Typelevel Scala. You can use any published library. You can save and share Scala programs/builds with anybody.

Learn More
Run Scala code interactively

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Scala ecosystem

The Scala Library Index (or Scaladex) is a representation of a map of all published Scala libraries. With Scaladex, a developer can now query more than 175,000 releases of Scala libraries. Scaladex is officially supported by Scala Center.

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BLOG

Scala 3.1.1 and forward compatibility news

Tuesday, February 1, 2022

Hello from the Scala 3 team! We are back with a new release of the Scala compiler and some exciting news about improvements in forward compatibility.

Improvements in Scala 3.1.1

Scala 3.1.1 is a patch release focused on bug fixes. Although there are no new additions to the language, you can still spot some noticeable improvements:

  • You can use using clauses to introduce subtyping relations between types in the function body.

    Now, code like the following should compile. Any value of type A can be used where a value of type B is expected as long as a given instance of A <:< B is in scope:

      def example[A, B](a: A)(using A <:< B) =
    val b: B = a
    ???

    To learn more see PR #13662 and related issue.

  • Mirrors can be correctly summoned for hierarchical sum types compiled by Scala 3.0.x. It is now safe to derive a type class for a type dependency that was compiled with a pre-3.1.0 compiler. (PR #14100).
  • Dual Scala 2/3 macros can be now declared in non-experimental scopes (PR #13795).
  • Scaladoc documentation has an improved UI.

For a comprehensive list of fixes, take a look at the full changelog on GitHub.

3.1.2-RC1 and forward compatibility improvements

Alongside 3.1.1 we have released the first RC version of the next patch release of the compiler. 3.1.2-RC1 contains further fixes, but most importantly it is our first step in improving forward compatibility in Scala.

Scala 3 has excellent backward compatibility guarantees between the minor versions. Right now, that means that code compiled with Scala 3.1 can depend on libraries published with 3.0 without any problems. The opposite, hovewer, is not true. Code compiled with 3.0 is not able to read dependencies compiled with 3.1. After the recent release of Scala 3.1.0, we can see that libraries should be really cautious with updating the compiler version, as it forces a bump on every user of that library. We do not want library authors to be stuck on old versions of the compiler as that would mean that they are locked out of many bugfixes, or we would need to spend enormous effort on backporting every bugfix to all past versioning lines.

Our current plan to mitigate those difficulties is described in the contributors discussion, where you are free to leave your feedback. We already have implemented the first and most important part of the solution and have it ready for public testing. Beginning with Scala 3.1.2-RC1 the compiler is able to generate outputs that can be consumed by its older versions. To enable that, you need to specify the minimal targeted minor language version by using the experimental -Yscala-release flag.

We expect that in the future authors will use the newest available version of the compiler with -Yscala-release set to the lowest language version that support all features they need. This way they will be able to benefit from all the bugfixes without restricting their potential audience.

So, for example, compiling your library using Scala 3.1.2-RC2 with -Yscala-release:3.0 flag, you make it possible for people still using Scala 3.0 to depend on your library. This has some limitations, especially your library cannot have any dependencies compiled with -Yscala-release version higher than 3.0. You also won’t be able to use any symbol added to the standard library after 3.0. They are marked in the code and in the documentation by the @since annotation that was also added in this version.

One important note is that the -Yscala-release flag is experimental and not yet available in any stable release of the compiler. It means the build tools, such as SBT or Mill, are not yet aware of its existence. Of course, you can declare usage of the flag in your build file, and the compiler will respect it. However, there may still be some hiccups, like generated artifacts depending on the incorrect version of the stdlib. We will do our best to help fix those minor issues before the stable release of 3.1.2.

Detailed description of the new flag can be found in the reference page for the binary compatibility.

If you are interested in other changes brought by 3.1.2-RC1, there is, as always, a changelog on GitHub.

Contributors

Thank you to all the contributors who made this release possible.

According to git shortlog -sn --no-merges 3.1.0..3.1.1 these are:

    50  Fengyun Liu
    43  Martin Odersky
    26  Olivier Blanvillain
    24  Kacper Korban
    21  Filip Zybała
    18  Dale Wijnand
    18  Nicolas Stucki
    17  Phil
    13  Andrzej Ratajczak
    10  Guillaume Martres
    10  noti0na1
     8  Paweł Marks
     7  Jamie Thompson
     5  soronpo
     5  Tom Grigg
     3  Yichen Xu
     3  Dmitrii Naumenko
     3  ghostbuster91
     3  Julien Richard-Foy
     2  Stéphane Micheloud
     2  bjornregnell
     2  Vadim Chelyshov
     1  ysthakur
     1  Daniel Esik
     1  EnzeXing
     1  Jasper Moeys
     1  Katja Goltsova
     1  Matthieu Bovel
     1  Ondrej Lhotak
     1  Oron Port
     1  Rikito Taniguchi
     1  Seth Tisue
     1  Som Snytt
     1  Sébastien Doeraene
     1  Tomasz Godzik
     1  oronpo

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