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Suppose that I want to write a case class Stepper as follows:

case class Stepper(step: Int) {def apply(x: Int) = x + step}

It comes with a nice toStringimplementation:

scala> Stepper(42).toString
res0: String = Stepper(42)

but it's not really a function:

scala> Some(2) map Stepper(2)
<console>:10: error: type mismatch;
 found   : Stepper
 required: Int => ?
              Some(2) map Stepper(2)

A workaround is to implement the Function trait...

case class Stepper(step: Int) extends (Int => Int) {def apply(x: Int) = x + step}

But then, I can't have for free a nice toString implementation anymore:

scala> Stepper(42).toString
res2: java.lang.String = <function1>

Then, the question is: can I have the best of these two worlds? Is there a solution where I have the nice toString implementation for free AND an implementation of trait Function. In other words, is there a way to apply the linearization in such a way that case class syntaxic sugar is applied at last?

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3 Answers

up vote 8 down vote accepted

The question is not really to do with linearisation. In case-classes toString is a method automatically generated by the compiler if and only if Any.toString is not overridden in the end-type.

However, the answer is partly to do with linearisation - we need to override Function1.toString with the method that would have been generated by compiler if not for the version introduced by Function1 :

trait ProperName extends Product {
  override lazy val toString = scala.runtime.ScalaRunTime._toString(this)

// now just mix in ProperName and... magic!
case class Stepper(step: Int) extends (Int => Int) with ProperName {
  def apply(x:Int) = x+step


println(Some(2) map Stepper(2))

Will produce



Here is a version of ProperName trait that doesn't rely on the undocumented API method:

trait ProperName extends Product {
  override lazy val toString  = {
    val caseFields = {
       val arity = productArity
       def fields(from: Int): List[Any] =
         if (from == arity) List()
         else productElement(from) :: fields(from + 1)
    caseFields.mkString(productPrefix + "(", ",", ")")

Alternative toString implementation is derived from the source code for the original _toString method scala.runtime.ScalaRunTime._toString.

Please note that this alternative implementation is still based on the assumption that a case class always extends Product trait. Although the latter holds true as of Scala 2.9.0 and is a fact that is known to and relied upon by some members of Scala community it's not formally documented as part of Scala Language Spec.

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Yes, it's not really linearization, but I didn't find any other appropriate name for it. And that was the kind of trick I expected, thanks. –  Nicolas Mar 14 '12 at 18:06
@Nicolas I understand you very well, I find myself that often times it's difficult to describe a problem exactly when I'm not sure what is going on. –  Vlad Gudim Mar 14 '12 at 18:12
@Vlad: I've always avoided using anything from scala.runtime that doesn't show up in the Scala API docs. I agree that this is a clever workaround, but do you really think it's worth it, given that there are equally good solutions that use plain old Scala language features? –  Travis Brown Mar 14 '12 at 18:21
The other solutions require to repat logic again and again in each case. Of course, Vlad solution is not "production ready", but nice. That's why, unti someone provide something as elegant using the standard API, it's accepted. ;) –  Nicolas Mar 14 '12 at 18:33
@Nicolas I think toString was included in case classes as a "nice to have" feature that helps when prototyping / debugging / messing around in the REPL. Normally you wouldn't rely on an implementation detail like the name of a class in code to influence the IO of your app, so in production code, you'd want to include your own string representation if you need such a thing. –  Luigi Plinge Mar 14 '12 at 20:10
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EDIT: What about overriding toString?

case class Stepper(step: Int) extends (Int => Int) {
  def apply(x: Int) = x + step
  override def toString = "Stepper(" + step + ")"
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Yes, I know it. but I really don't want to add un apply (imagine it in a DSL). –  Nicolas Mar 14 '12 at 15:09
Oh, OK. How about this one? –  Tal Pressman Mar 14 '12 at 16:26
@TalPressman you forgot to extend Function1 –  Vlad Gudim Mar 14 '12 at 17:19
The idea was to find something that can be reused, that's why I didn't go into rewriting toString. –  Nicolas Mar 14 '12 at 18:08
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You can use an implicit conversion to have Stepper treated like a function only when necessary:

case class Stepper(step: Int) { def apply(x: Int) = x + step }

implicit def s2f(s: Stepper) = new Function[Int, Int] {
  def apply(x: Int) = s.apply(x)

Now you get the case class's toString when you call Stepper(42).toString, but Some(2) map Stepper(2) also works as desired.

(Note that I've been more verbose than necessary above to keep the mechanics clear. You can also write implicit def s2f(s: Stepper) = s.apply _ or any number of other more concise formulations).

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Yes, but building this implicit is more painful than rewriting toString ;) –  Nicolas Mar 14 '12 at 18:02
@Nicolas: Really? It's 40 characters. This seems much less "painful" than using an undocumented bit of the runtime API. –  Travis Brown Mar 14 '12 at 18:15
It's not a question of number of characters, its a question of adding some "non-dry" code into a class. The ScalaRuntime solution is not perfect, is clearly not production ready but goes in a DRY direction. BTW, I was initially comparing it to rewriting toString (see Tal Pressman's answer) –  Nicolas Mar 14 '12 at 18:25
@Nicolas: I don't think you're going to be able to write a very satisfyingly DSL-ish library without implicits, and in this case the implicit approach is actually arguably cleaner than inheritance: you only need Function to make your syntax pretty, so why force it into your class hierarchy? –  Travis Brown Mar 14 '12 at 19:38
No, my point was not the use of implicit. The matter with your solution is taht I have to create a new implicit function each time I want that my class to be considered as a function. Furthermore, addind the Function traitz is not only syntaxic, it's only semantic: Instances of my class ARE functions. Finally, the question was not "can I do it withoverriding, implicit or anything else" but "can i got back the toString definition introduced by the case class". –  Nicolas Mar 14 '12 at 19:59
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