Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As title of this question suggests: my question is more about form (idiomatic convention) than function. Put Succinctly:

What is the semantic difference between MyCollectionLike and MyCollection?

As examples: What is the difference between StringLike and String or MapLike and Map. Looking closely at the Scala API docs, I can tell that XLike is typically a super-type of X. But, beyond that, I am not clear on the semantic difference between these layers of abstraction.

In practice, If I were creating a new class/trait, understanding this distinction would be helpful when I am choosing names for said class.

My specific problem, where this has come up is as follows:

I want to create the trait: SurjectiveMap[K, T] which can be mixed-in with either Map[K, Set[T]] or MapLike[K, SetLike[T]]. Given that I do not know the semantic difference between *Like and *, I am not sure which to go with.

share|improve this question

2 Answers 2

up vote 3 down vote accepted

The same difference as between IFoo and Foo, Bar and BarImpl (except the fact that TraversableLike is super-trait which contains implementation):

The Scala collection library avoids code duplication and achieves the "same-result-type" principle by using generic builders and traversals over collections in so-called implementation traits. These traits are named with a Like suffix; for instance, IndexedSeqLike is the implementation trait for IndexedSeq, and similarly, TraversableLike is the implementation trait for Traversable. Collection classes such as Traversable or IndexedSeq inherit all their concrete method implementations from these traits.

from Scala collections architecture

share|improve this answer

I think using the Like traits lets you refine the return (representation) types. This involves a lot more work. Compare:

import collection.generic.CanBuildFrom

object FooMap {
  type Coll = FooMap[_, _]
  implicit def canBuildFrom[A, B]: CanBuildFrom[Coll, (A, B), FooMap[A, B]] = ???
trait FooMap[A, +B] extends Map[A, B] {
  def foo = 33

def test(f: FooMap[Any, Any]) {
  f.map(identity).foo  // nope, we ended up with a regular `Map`


object FooMap extends collection.generic.ImmutableMapFactory[FooMap] {
  override type Coll = FooMap[_, _]
  implicit def canBuildFrom[A, B]: CanBuildFrom[Coll, (A, B), FooMap[A, B]] = ???
  def empty[A, B]: FooMap[A, B] = ???
trait FooMap[A, +B] extends Map[A, B] 
  with collection.immutable.MapLike[A, B, FooMap[A, B]] {

  def foo = 33
  override def empty: FooMap[A, B] = FooMap.empty[A, B]

def test(f: FooMap[Any, Any]) {
  f.map(identity).foo  // yes

The MapLike trait must be mixed in after the Map trait for the correct return types to kick in.

Still you don't get everything for free it seems, e.g. you will need to override more methods:

override def +[B1 >: B](kv: (A, B1)): FooMap[A, B1]  // etc.
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.