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I have a function in Scala that matches different case classes, but executes the same code on every match. Is there a possibility to “fallthrough”? Or a other nice way to write the code bellow without code duplication and without defining a function?

symbol match {
            case Times(a,b) => //some code using a and b
            case Plus(a,b)  => //same code as above
            case Div(a,b)   => //again same code as above
}

This is a pretty similar too the question "Match "fallthrough": executing same piece of code for more than one case?" with the difference that I'm intressted in matching with case classes.

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A named function? Extract to Tuple2 first, then process? –  user166390 Feb 22 '13 at 8:35
    
Yes, that would be possible. But i search for another way. Coming up with a name for a function is hard ;) –  leo Feb 22 '13 at 8:37
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3 Answers

up vote 3 down vote accepted

You could write your own extractor that combines the three cases and turns them into a tuple:

  object BinOp {
    def unapply(op: Op) = op match {
      case Times(a, b) => Some(a, b)
      case Plus(a, b) => Some(a, b)
      case Div(a, b) => Some(a, b)
    }
  }

  symbol match {
    case BinOp(a, b) => 
  }
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Thanks Mate! Exactly what I was searching for. My code is now so much nicer. –  leo Feb 22 '13 at 10:21
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No, falltroughs are prohibited in Scala since they are a common source of bugs in other languages. You have two three possibilites:

  • factor out everything that is identical in a function
  • try to use less specific matching, i.e., by using wildcards. In your example, this could also mean to introduce a superclass BinaryOperation which gives you the possibility of a more generic match. Note that due to case class inheritance restrictions, you would have to rely on using the fields of this superclass instead of having a super case class.
  • follow Mirko Stocker's nice suggestions of writing a specific extractor.
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Thanks, relay appreciate how you pointed out the different possibilities! –  leo Feb 22 '13 at 10:20
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I see two possible solutions to your problem

1) unapply

Extending on M. Stocker's answer, you could organize your data like so:

trait Op

trait BinaryOp extends Op {
  def a: Int
  def b: Int
}

object BinaryOp {
  def unapply(op: Op) = op match {
    case x: BinaryOp => Some((x.a, x.b))
    case _ => None
  }
}

case class Times(a: Int, b: Int) extends BinaryOp
case class Plus(a: Int, b: Int) extends BinaryOp
case class Div(a: Int, b: Int) extends BinaryOp

Usage:

symbol match {
  case BinaryOp(a, b) => f(a, b)
  case _ => //...
}

2) Product

All case classes extends the Product trait

This allows you to do the following matching:

symbol match {
  case p: Product if p.productArity == 2 => {
    val a = p.productElement(0) //this has type Any, so a cast may be necessary
    val b = p.productElement(1)
    f(a, b)
  }
}

The second case is more generic, but it is also type-unsafe. I recommend the first solution.

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Forgot to mention in my question that Times, Plus, etc. are in a library and I can not edit them. Thank you anyway for the nice write up. –  leo Feb 22 '13 at 10:23
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