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In a Scala class, I can conveniently declare the return type of a method to be this.type to guarantee that it will return the same object it is called on:

class Foo {
  def bar: this.type = this

Is there a way I can similarly specify that a method that accepts a given AnyRef param will return that reference exactly? The following snippet does not provide this guarantee, I could return any instance of A:

def processAndReturn[A <: AnyRef](obj: A): A = {
  // work with obj
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4 Answers 4

up vote 8 down vote accepted

huitseeker's suggestion is actually valid with the -Ydependent-method-types option:

$ scala -Ydependent-method-types
Welcome to Scala version (Java HotSpot(TM) 64-Bit Server VM, Java 1.6.0_24).

scala>   def processAndReturn[A <: AnyRef](obj: A): obj.type = {
     |       // work with obj
     |       obj
     |   }
processAndReturn: [A <: AnyRef](obj: A)obj.type

scala> processAndReturn("hi")
res1: java.lang.String = hi

From this thread, I gather that experimental dependent method types have been around for a while, and there's even a published paper using them, but the implementation may be buggy. There has been some discussion about reworking Scala's type system foundations (see Adriaan Moor's slides on Dependent Object Types). If it works out, I imagine that dependent method types (among other things) will be completely kosher in future versions of Scala.

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I guess you would want to give the return type obj.type in your method above, but this is unfortunately prohibited as of now. As per the spec, p.47:

(...) at present singleton types of method parameters may only appear in the method body; so dependent method types are not supported.

There may be some way to achieve what you want, but not in the type specification of that method by itself.

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huitseeker and Kipton probably have the direct answer you're looking for.

With that said, the only use case I can imagine is if you want to chain calls on the same object and ensure you're really working on the same object. Are there other?

For instance:

class Counter {
  var i = 0
  override def toString = i.toString

def incr(c: Counter): Counter = { c.i += 1; c }

val two = incr(incr((new Counter)))
// two: Counter = 2

If I call incr twice in a row, I expect to get two. Now let's imagine I am working with an ill-behaved function like:

def incorrect_incr(c: Counter): Counter = { 
  c.i += 1
  new Counter // should return c but does not

val notTwo = incorrect_incr(incorrect_incr(new Counter))
// notTwo: Counter = 0

I think using a wrapper to ensure we keep working on the same object would solve this problem (edited after thinking on how to make this more idiomatic):

case class Id[T <: AnyRef](t:T) {
  def map[U](f: (T) => U): Id[T] = { 
  def get: T = t

val reallyTwo = Id(new Counter).map(incorrect_incr).map(incorrect_incr).get
// reallyTwo: Counter = 2

map basically ensures the function is called for its side effect, get unwraps the value...

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Another valid use case I can imagine is emulating a method returning this.type with the pimp-my-library pattern. –  Jean-Philippe Pellet Jul 31 '11 at 10:06

The question is: if you're going to return what you passed in, why not just use void? After all, you already have the object in the calling code, don't you?

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Maybe, but that isn't really the point; I'm interested in the typesystem and the compile-time guarantees it can or cannot provide. this.type for instance is very convenient for chaining method calls on the same object. –  Jean-Philippe Pellet Jul 30 '11 at 23:29

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