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Let's say I have some code that uses List

def processList(input: List[Int]): List[Int]

I want to replace list with other collection types, like Vector.

Is there a way to define a type constructor so that I can write something like

type SomeCollection[_] = List[_]

def processList(input: SomeCollection[Int]): SomeCollection[Int]

Now I have written processList in terms of SomeCollection. To change SomeCollection to Vector, I just change the type alias, and everywhere in the codebase where I use SomeCollection, I now use Vector. Like so:

type SomeCollection[_] = Vector[_]

def processList(input: SomeCollection[Int]): SomeCollection[Int]

This way, I only need to change the codebase in one place instead of everywhere.

I do not want to write

type SomeIntCollection = List[Int]

because I have connected the collection to Int type.

Is there a way?

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    type SomeCollection[X] = List[X] done. However, let me tell you that this sounds like a bad idea. Changing from List to Vector should mean different performance characteristics and thus, different code. – Luis Miguel Mejía Suárez Oct 8 '19 at 20:29
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    There are good reasons to use type aliases, but this isn't one of them. To the compiler, List and SomeCollection will be the same type, so it will let you use operations that are specific to Lists, and your code may not compile when changing to Vector in that case. You may want to use a common parent of List and Vector, like Iterable, if that is enough for your use-case. Otherwise, you should like at advanced solutions like cats, as suggested in the accepted answer. – francoisr Oct 9 '19 at 6:48
  • I thought I would respond with a description of my use case. The idea is to be able to quickly do a performance comparison on the same codebase using different collections types. The performance comparison in question is between a SeqView and an IndexedSeq. I had recently been reading a book on functional programming and learned about laziness. I decided to try it out. It turns out the difference in performance is about 300x in running time. IndexedSeq won by a huge margin, probably because of better cache behavior. – Allen Han Oct 9 '19 at 17:01
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You're pretty close, this can be done along the lines of

type SomeCollection[A] = List[A]

def processList(input: SomeCollection[Int]): SomeCollection[Int] = input.map(_+1)

However, there's better ways to describe the abstraction. In the cats library, there are a variety of typeclasses designed to abstract over the type of operation you want to perform. The above with cats would look something like

import cats._
import cats.implicits._

def process[F[_]: Functor](input: F[Int]): F[Int] = input.map(_+1)

It doesn't lock you into a specific underlying collection, so you're free to use whatever makes the most sense at the call site.

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