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What is the Scala's way to write the following code:

 int i;

 switch(i) {
   case 1:  

   case 2:
   case 15:

   default: foo()        

I.e. what is the idiomatic way of executing the same piece of code based on multiple case values?

 i match {
   case 1  => a    
   case 2  =>
   case 15 => { b
                c }
   case _ => foo        

Doesn't quite seem do the trick, since Scala evaluates the match value based on the first matching case, i.e. if i=2 the code will return nothing.

Thanks for help!

share|improve this question
up vote 40 down vote accepted

According to this conversation there is no fallthrough, but you can make use of |.

This should do the trick:

i match {
  case 1  => a    
  case 2 | 15 => b
  case _ => foo        
share|improve this answer
Works like a treat! Thanks! – Vlad Gudim Feb 24 '10 at 12:34
I removed { and } around b and c, to make it clear they are unnecessary. – Daniel C. Sobral Feb 24 '10 at 18:02
Thank you, Daniel. Did not think about this myself. – middus Mar 16 '11 at 23:55

Case statements can actually include additional logic guards using a standard if statement. So you could do something like:

i match {
  case x if x == 1 => a
  case x if (x == 2 | x == 15) => b; c;
  case _ => foo

The matching guards can be any boolean function or composition of functions, so it gives it a lot more power than the standard switch statement in Java.

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Note that if you prefer, there is no need for parentheses surrounding the guard condition in a case ... clause. – Randall Schulz Feb 25 '10 at 15:45

While not applicable here, for more complex problems you can 'fallthrough' in a sense using the andThen function on partial functions.

 def do_function_a() { println("a"); }
 def do_function_b() { println("b"); }
 val run_function:PartialFunction[String, String] = { 
       case "a" => do_function_a(); "b"
       case "b" => do_function_b(); "c"

 (run_function andThen run_function)("a") // a\nb
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If you are dealing with actual classes (instead of strings or ints), you need _: before each class to make them into a pattern before joining them with |.

sealed trait ShipCondition
case class ShipOnFire() extends ShipCondition
case class FoodSucks() extends ShipCondition
case class MateySnoresTooLoud() extends ShipCondition
case class Ok() extends ShipCondition

val condition = ShipOnFire()

def checkCondition(cond: ShipCondition): Unit = {
  cond match {
    case c @ (_: ShipOnFire | _: FoodSucks) => println("Abandon Ship!") // can also use `c` for something. It has the type ShipCondition
    case (_: MateySnoresTooLoud | _: Ok) => println("Deal with it!")

checkCondition(condition) // Abandon Ship!

You get nice exhaustive checking too! Note that you cannot do case class destructuring when using alternative pattern matching (e.g. case (MateySnoresTooLoud(str) | _: Ok) => will fail to compile.

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