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I have a list of values in Scala of various types - strings, ints, doubles mostly. Some of these values may be null. We can think of this as a List[Option[AnyRef]]. For each value in this list, if it exists, I want to generate a string containing the value between parens; if it does not exist, then just an empty string. In addition, before the value is inserted between parens, it may need to have a transformation applied to it. For instance, if the value is an Option[String], I may want to apply the trim function.

I've approached this by thinking of the data structure as a map of an optional value paired with an optional function operating on that value and returning a string (I don't know how to specify that in Scala, as I think Map[Option[A], Option[(A) => String]] is not correct, as it implies that every option key is of the same type). Here's what I have written so far with example data and functions:

lazy val messageContext = Map(
  None -> None,
  Some("hello") -> None,
  Some(4) -> Some(negate _),
  None -> None
) map { t => wrapText(t._1, t._2)  } toList

private def wrapText[A](option: Option[A], transFn: Option[(A) => String]): String = option match {
  case Some(o) => " (%s)".format(transFn.getOrElse(stringIdentity _)(o))
  case _ => ""
}

private def stringIdentity[A](a: A) = a.toString

private def negate(n: Number) = n * -1

I'm getting a compiler error, though:

error: type mismatch;
 found   : Option[java.lang.Number => java.lang.String]
 required: Option[AnyVal{def getClass(): java.lang.Class[_ >: Double with Int <: AnyVal]} => String]
  ) map { t => wrapText(t._1, t._2)  } toList

Is my approach close on this? Is this easily possible with Scala, or would I have to resort to some scalaz magic to make this really work?

Thanks.

EDIT: Correct output for the above input would be this: List[""," (hello)"," (-4)",""]

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Step back for a minute - why all these values of different types? What are they representing? List[AnyRef] is almost never what you want, but it's hard to say if you want an HList, or some custom algebraic data type, without knowing where these values come from. Also, you almost certainly don't want to use a Map - how do you distinguish between the first None key and the second? –  Ben James Jan 18 '13 at 19:54
    
You're right about the Map not being an appropriate data structure...the immediate change would be a List[Tuple2[...]]. As for the different types: they are representing meta-data that may or may not exist on some explanatory text. For instance, I have a string saying something like, "This product was released recently". I then may or may not have a java.util.Date specifying the release date - if I do, I'd like to print "This product was released recently (November 2012)", which would require first formatting the Date object. If I don't have the date, I'll just stick with the original text –  rybosome Jan 18 '13 at 20:08
    
How does your negate function compile? java.lang.Number does not have * operator. Do you have some implicit conversions for this? Also, does negate return String as it should? –  ghik Jan 18 '13 at 20:18
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2 Answers

No magic needed. I'm not exactly sure if this is what you want, but to restate

  • None in the input means "" in the output
  • Some(v) in the input means " (%s)".format(trans(v)) in the output, where trans is some optional transformation of the value

Ex:

val input = List(None, Some("hello"), Some(4), None)

def trans(v: Any) = v match {
   case num @ 4 => -num
   case _       => v  // identity
}

val output = input.map {
   case Some(v) => " (%s)".format(trans(v))
   case _       => ""
}
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The first problem here is that a Map[A,B] has two type parameters for the whole map, and not a couple of type parameters for each tuple. What you have in mind to do cannot be done using a Map, because the Map will take as type parameters the most common ancestors of keys and values:

scala>  import StackOverflowTest

StackOverflowTest.messageContext
import StackOverflowTest

scala> res0: scala.collection.immutable.Map[Option[java.lang.Comparable[_ >: java.lang.Integer with java.lang.String <: java.lang.Comparable[_ >: java.lang.Integer with java.lang.String <: java.lang.Comparable[_ >: java.lang.Integer with java.lang.String <: java.io.Serializable] with java.io.Serializable] with java.io.Serializable] with java.io.Serializable],Option[java.lang.Integer => Int]] = Map(None -> None, Some(hello) -> None, Some(4) -> Some(<function1>))

scala> 

When you put tuples of different types in a map or in a sequence, you lose the type information about each tuple, and you keep only the first common parent. If you need a data structure which is able to keep a Map of tuples where each Tuple2[A,B] has different A,B you need a more dynamic structure, such as Shapeless records or HList.

https://github.com/milessabin/shapeless

The second problem here is that the semantic of Number * 1 is not defined in Java,you need to use the subtype of number required, for example java.lang.Integer.

The third problem is that your wrapText require a transFn: Option[(A) => String]) while your negate output value type is not String (and actually there is no * defined for the java class Number). Taking away the Map part and correcting the negate method, if you try to compile just the following:

  private def wrapText[A](option: Option[A], transFn: Option[(A) => String]): String = option match {
    case Some(o) => " (%s)".format(transFn.getOrElse(stringIdentity _)(o))
    case _ => ""
  }

  private def stringIdentity[A](a: A) = a.toString

  private def negate(n: java.lang.Integer) = n * -1

  wrapText(Some(4),negate _ )

This won't compile with error:

error: type mismatch;
found   : Option[java.lang.Integer => Int]
required: Option[? => String]
wrapText(Some(4),Some(negate _) )

If you finally correct the negate to return a String, you will hit the final wall

error: type mismatch;
found   : Option[java.lang.Integer => java.lang.String]
required: Option[Int => String]
wrapText(Some(4),Option(negate _) )

The problem here is that while Scala and Java perform automatic boxing and unboxing, they do not perform automatic conversion for type parameters: Option[Int=> String] is not of the same class as Option[java.lang.Integer=>String],so you have to force the type of the first option to get it correctly compiled:

  wrapText(Some(4:java.lang.Integer),Some(negate _) )
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