Scala doesn't have type-safe enums like Java has. Given a set of related constants, what would be the best way in Scala to represent those constants?

  • 2
    Why not just using java enum? This is one of the few things I still prefer to use plain java.
    – Max
    Commented Jan 1, 2016 at 1:39
  • 1
    I've written a small overview about scala Enumeration and alternatives, you may find it useful: pedrorijo.com/blog/scala-enums/ Commented Dec 9, 2016 at 22:05

7 Answers 7


I must say that the example copied out of the Scala documentation by skaffman above is of limited utility in practice (you might as well use case objects).

In order to get something most closely resembling a Java Enum (i.e. with sensible toString and valueOf methods -- perhaps you are persisting the enum values to a database) you need to modify it a bit. If you had used skaffman's code:

WeekDay.valueOf("Sun") //returns None
WeekDay.Tue.toString   //returns Weekday(2)

Whereas using the following declaration:

object WeekDay extends Enumeration {
  type WeekDay = Value
  val Mon = Value("Mon")
  val Tue = Value("Tue") 
  ... etc

You get more sensible results:

WeekDay.valueOf("Sun") //returns Some(Sun)
WeekDay.Tue.toString   //returns Tue
  • 7
    Btw. valueOf method is now dead :-( Commented Nov 23, 2011 at 12:29
  • 36
    @macias valueOf's replacement is withName, which doesn't return an Option, and throws a NSE if there is no match. What the!
    – Bluu
    Commented Jan 31, 2012 at 19:00
  • 6
    @Bluu You can add valueOf yourself: def valueOf(name: String) = WeekDay.values.find(_.toString == name) to have an Option
    – centr
    Commented Jan 11, 2014 at 1:45
  • @centr When I try to create a Map[Weekday.Weekday, Long] and add a value say Mon to it the compiler throws an invalid type error. Expected Weekday.Weekday found Value? Why does this happen?
    – Sohaib
    Commented Jun 14, 2015 at 18:30
  • @Sohaib It should be Map[Weekday.Value, Long].
    – centr
    Commented Jun 16, 2015 at 17:10


Example use

  object Main extends App {

    object WeekDay extends Enumeration {
      type WeekDay = Value
      val Mon, Tue, Wed, Thu, Fri, Sat, Sun = Value
    import WeekDay._

    def isWorkingDay(d: WeekDay) = ! (d == Sat || d == Sun)

    WeekDay.values filter isWorkingDay foreach println
  • 2
    Seriously, Application should not be used. It was NOT fixed; a new class, App, was introduced, which does not have the problems Schildmeijer mentioned. So do "object foo extends App { ... }" And you have immediate access to command-line arguments through the args variable.
    – AmigoNico
    Commented Jul 25, 2012 at 2:55
  • scala.Enumeration (which is what you are using in your "object WeekDay" code sample above) does not offer exhaustive pattern matching. I have researched all the different enumeration patterns currently being used in Scala and give and overview of them in this StackOverflow answer (including a new pattern which offers the best of both scala.Enumeration and the "sealed trait + case object" pattern: stackoverflow.com/a/25923651/501113 Commented Sep 19, 2014 at 20:01

There are many ways of doing.

1) Use symbols. It won't give you any type safety, though, aside from not accepting non-symbols where a symbol is expected. I'm only mentioning it here for completeness. Here's an example of usage:

def update(what: Symbol, where: Int, newValue: Array[Int]): MatrixInt =
  what match {
    case 'row => replaceRow(where, newValue)
    case 'col | 'column => replaceCol(where, newValue)
    case _ => throw new IllegalArgumentException

// At REPL:   
scala> val a = unitMatrixInt(3)
a: teste7.MatrixInt =
/ 1 0 0 \
| 0 1 0 |
\ 0 0 1 /

scala> a('row, 1) = a.row(0)
res41: teste7.MatrixInt =
/ 1 0 0 \
| 1 0 0 |
\ 0 0 1 /

scala> a('column, 2) = a.row(0)
res42: teste7.MatrixInt =
/ 1 0 1 \
| 0 1 0 |
\ 0 0 0 /

2) Using class Enumeration:

object Dimension extends Enumeration {
  type Dimension = Value
  val Row, Column = Value

or, if you need to serialize or display it:

object Dimension extends Enumeration("Row", "Column") {
  type Dimension = Value
  val Row, Column = Value

This can be used like this:

def update(what: Dimension, where: Int, newValue: Array[Int]): MatrixInt =
  what match {
    case Row => replaceRow(where, newValue)
    case Column => replaceCol(where, newValue)

// At REPL:
scala> a(Row, 2) = a.row(1)
<console>:13: error: not found: value Row
       a(Row, 2) = a.row(1)

scala> a(Dimension.Row, 2) = a.row(1)
res1: teste.MatrixInt =
/ 1 0 0 \
| 0 1 0 |
\ 0 1 0 /

scala> import Dimension._
import Dimension._

scala> a(Row, 2) = a.row(1)
res2: teste.MatrixInt =
/ 1 0 0 \
| 0 1 0 |
\ 0 1 0 /

Unfortunately, it doesn't ensure that all matches are accounted for. If I forgot to put Row or Column in the match, the Scala compiler wouldn't have warned me. So it gives me some type safety, but not as much as can be gained.

3) Case objects:

sealed abstract class Dimension
case object Row extends Dimension
case object Column extends Dimension

Now, if I leave out a case on a match, the compiler will warn me:

MatrixInt.scala:70: warning: match is not exhaustive!
missing combination         Column

    what match {
one warning found

It's used pretty much the same way, and doesn't even need an import:

scala> val a = unitMatrixInt(3)
a: teste3.MatrixInt =
/ 1 0 0 \
| 0 1 0 |
\ 0 0 1 /

scala> a(Row,2) = a.row(0)
res15: teste3.MatrixInt =
/ 1 0 0 \
| 0 1 0 |
\ 1 0 0 /

You might wonder, then, why ever use an Enumeration instead of case objects. As a matter of fact, case objects do have advantages many times, such as here. The Enumeration class, though, has many Collection methods, such as elements (iterator on Scala 2.8), which returns an Iterator, map, flatMap, filter, etc.

This answer is essentially a selected parts from this article in my blog.

  • "... not accepting non-symbols where a symbol is expected" > I'm guessing you mean that Symbol instances cannot have spaces or special characters. Most people when first encountering the Symbol class probably think so, but is actually incorrect. Symbol("foo !% bar -* baz") compiles and run perfectly fine. In other words you can perfectly create Symbol instances wrapping any string (you just cannot do it with the "single coma" syntactic sugar). The only thing that Symbol does guarantee is the uniqueness of any given symbol, making it marginally faster to compare and match over. Commented Oct 29, 2019 at 10:27
  • @RégisJean-Gilles No, I mean that you cannot pass a String, for example, as argument to a Symbol parameter. Commented Dec 2, 2019 at 18:45
  • Yes, I understood that part, but it's a pretty moot point if you replace String with another class that is basically a wrapper around a string and can be freely converted in both directions (as is the case for Symbol). I guess that's what you meant when saying "It won't give you any type safety", it just wasn't very clear given that OP explicitly asked for type safe solutions. I wasn't sure if at the time of writing you knew that not only is it not type safe because those are not enums at all, but also Symbols don't even guarantee that the passed argument won't have special chars. Commented Jan 6, 2020 at 9:32
  • 1
    To elaborate, when you say "not accepting non-symbols where a symbol is expected", it can be read either as "not accepting values that are not instances of Symbol" (which is obviously true) or "not accepting values that are not plain identifier-like strings, aka 'symbols'" (which is not true, and is a misconception that pretty much anybody has the first time we encounter scala symbols, due to the fact that the first encounter is though the special 'foo notation which does preclude non-identifier strings). This is this misconception that I wanted to dispel for any future reader. Commented Jan 6, 2020 at 9:37
  • @RégisJean-Gilles I meant the former, the one which is obviously true. I mean, it's obviously true for anyone used to static typing. Back then there was a lot of discussion on the relative merits of static and "dynamic" typing, and a lot of people interested in Scala came from a dynamic typing background, so it I thought it didn't go without saying. I wouldn't even think of making that remark nowadays. Personally, I think Scala's Symbol is ugly and redundant, and never use it. I'm upvoting your last comment, since it's a good point. Commented Jan 22, 2020 at 18:41

A slightly less verbose way of declaring named enumerations:

object WeekDay extends Enumeration("Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat") {
  type WeekDay = Value
  val Sun, Mon, Tue, Wed, Thu, Fri, Sat = Value

WeekDay.valueOf("Wed") // returns Some(Wed)
WeekDay.Fri.toString   // returns Fri

Of course the problem here is that you will need to keep the ordering of the names and vals in sync which is easier to do if name and val are declared on the same line.

  • 11
    This looks cleaner at first glance, but has the disadvantage of requiring the maintainer to keep the oder of both lists in sync. For the days of week example, it doesn't appear likely. But in general, the a new value could be inserted, or one deleted and the two lists could be out of sync, in which case, subtle bugs could be introduced. Commented May 23, 2013 at 22:02
  • 1
    Per the prior comment, the risk is the two different lists can silently go out of sync. While it’s not an issue for your current small example, if there are many more members (like in the dozens to hundreds), the odds of the two lists silently going out of sync is substantially higher. Also scala.Enumeration cannot benefit from Scala's compile time exhaustive pattern matching warnings/errors. I’ve created a StackOverflow answer which contains a solution performing a runtime check to ensure the two lists remain in sync: stackoverflow.com/a/25923651/501113 Commented Sep 20, 2014 at 0:08

You can use a sealed abstract class instead of the enumeration, for example:

sealed abstract class Constraint(val name: String, val verifier: Int => Boolean)

case object NotTooBig extends Constraint("NotTooBig", (_ < 1000))
case object NonZero extends Constraint("NonZero", (_ != 0))
case class NotEquals(x: Int) extends Constraint("NotEquals " + x, (_ != x))

object Main {

  def eval(ctrs: Seq[Constraint])(x: Int): Boolean =
    (true /: ctrs){ case (accum, ctr) => accum && ctr.verifier(x) }

  def main(args: Array[String]) {
    val ctrs = NotTooBig :: NotEquals(5) :: Nil
    val evaluate = eval(ctrs) _


  • Sealed trait with case objects is also a possibility.
    – Ashalynd
    Commented Oct 9, 2013 at 16:20
  • 2
    The "sealed trait + case objects" pattern has issues which I detail in a StackOverflow answer. However, I did figure out how to resolve all the issues related to this pattern which is also covered in the thread: stackoverflow.com/a/25923651/501113 Commented Sep 19, 2014 at 23:54

Starting from Scala 3, there is now enum keyword which can represent a set of constants (and other use cases)

enum Color:
   case Red, Green, Blue

scala> val red = Color.Red
val red: Color = Red
scala> red.ordinal
val res0: Int = 0

In Scala it is very comfortable with https://github.com/lloydmeta/enumeratum

Project is really good with examples and documentation

Just this example from their docs should makes you interested in

import enumeratum._

sealed trait Greeting extends EnumEntry

object Greeting extends Enum[Greeting] {

   `findValues` is a protected method that invokes a macro to find all `Greeting` object declarations inside an `Enum`

   You use it to implement the `val values` member
  val values = findValues

  case object Hello   extends Greeting
  case object GoodBye extends Greeting
  case object Hi      extends Greeting
  case object Bye     extends Greeting


// Object Greeting has a `withName(name: String)` method
// => res0: Greeting = Hello

// => java.lang.IllegalArgumentException: Haro is not a member of Enum (Hello, GoodBye, Hi, Bye)

// A safer alternative would be to use `withNameOption(name: String)` method which returns an Option[Greeting]
// => res1: Option[Greeting] = Some(Hello)

// => res2: Option[Greeting] = None

// It is also possible to use strings case insensitively
// => res3: Greeting = Hello

// => res4: Option[Greeting] = Some(Hello)

// Uppercase-only strings may also be used
// => res5: Greeting = Hello

// => res6: Option[Greeting] = None

// Similarly, lowercase-only strings may also be used
// => res7: Greeting = Hello

// => res8: Option[Greeting] = Some(Hello)

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