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Looking at

val sb = Seq.newBuilder[Int]
println(sb.getClass.getName)
sb += 1
sb += 2
val s = sb.result()
println(s.getClass.getName)

the output is

scala.collection.mutable.ListBuffer
scala.collection.immutable.$colon$colon

using Scala 2.10.1.

I would expect Seq.newBuilder to return a VectorBuilder for example. This is returned by CanBuildFrom, if the result is explicitly typed to a Seq:

def build[T, C <: Iterable[T]](x: T, y: T)
                              (implicit cbf: CanBuildFrom[Nothing, T, C]): C = {
  val b = cbf()
  println(b.getClass.getName)
  b += x
  b += y
  b.result()
}

val s: Seq[Int] = build(1, 2)
println(s.getClass.getName) // scala.collection.immutable.Vector

in this case the builder is a VectorBuilder, and the result's class is a Vector.

So I explicitly wanted to build a Seq, but the result is a List which needs more RAM, according to Scala collection memory footprint characteristics.

So why does Seq.newBuilder return a ListBuffer which gives a List in the end?

share|improve this question
    
Kind of a dupe of your stackoverflow.com/q/17599652/1296806, but I really didn't see what you had meant by your remark about CanBuildFrom. That's pretty funny. As an aside, I think maybe a question is a dupe if it elicits the same answers. Don't forget to read the overview doc and that Spiewak stackoverflow.com/a/6934116/1296806 –  som-snytt Jul 20 '13 at 0:34
    
@som-snytt If a List is the default implementation for Seq, then I would expect CanBuildFrom to return a List as well, if the result is typed to Seq (for consistency). I can add this comment now, because one of the answers stated the fact that List is the default for Seq. As for Spiewak's answer, I have read it before, but this raised yet another question: Both Seq and List are traits whereas Vector is not. But all I want is a Seq (Iterable with order), for example as the result of a method. The most efficient impl. should be used to fulfill the contract. –  Beryllium Jul 20 '13 at 7:56
    
The notion of "most efficient" is contextual, so people argue about it. I think historically, Lisp types think in terms of List. However,for CanBuildFrom, it clearly matters what you're building from, hence CanBuild From, so you're not off the hook there. But I see what you mean: you'd like to ask for a default CBF. Well, the default you get happens to be manufactured for a common use case, String, where you clearly want an indexed Seq. –  som-snytt Jul 20 '13 at 8:34
    
I can't believe SO applies Twitterish length restrictions on comments. Anyway: Why? I don't know. You could argue that Strings should be processed left to right; except that people assume string is backed by something arraylike. We do s.indexOf(c) all the time. –  som-snytt Jul 20 '13 at 8:34
    
@som-snytt The context is the Seq trait. So I'd like to get the "most efficient" implementation for that. –  Beryllium Jul 20 '13 at 13:23

4 Answers 4

up vote 5 down vote accepted

The Scala Collections API is very complex and its hierarchy is rich in depth. Each level represents some sort of new abstraction. The Seq trait split up into two different subtraits, which give different guarantees for performance (ref.):

  1. An IndexedSeq provides fast random-access of elements and a fast length operation. One representative of this IndexedSeq is the Vector.

  2. A LinearSeq provides fast access only to the first element via head, but also has a fast tail operation. One representative of this LinearSeq is the List.

As the current default implementation of a Seq is a List, Seq.newBuilder will return a ListBuffer. However, if you want to use a Vector you can either use Vector.newBuilder[T] or IndexedSeq.newBuilder[T]:

scala> scala.collection.immutable.IndexedSeq.newBuilder[Int]
res0: scala.collection.mutable.Builder[Int,scala.collection.immutable.IndexedSeq[Int]] = scala.collection.immutable.VectorBuilder@1fb10a9f

scala> scala.collection.immutable.Vector.newBuilder[Int]
res1: scala.collection.mutable.Builder[Int,scala.collection.immutable.Vector[Int]] = scala.collection.immutable.VectorBuilder@3efe9969
share|improve this answer
    
I was aware of the two sub traits, abut in fact I did not know that it is just that simple: The default implementation for a Seq is a List. I have just not seen that piece of information, because I looked at it only from the perspective of the Seq trait, but of course, yes, next time I'll look at the companion as well. –  Beryllium Jul 20 '13 at 13:02

The default Seq implementation is List:

Seq(1, 2, 3)  // -> List(1, 2, 3)

...thus ListBuffer is the correct builder. If you want Vector, use Vector.newBuilder or IndexedSeq.newBuilder.

share|improve this answer
    
Yes, it's just that simple: It's clearly stated in the doc for the Seq companion, and I have only read the doc for the Seq trait. –  Beryllium Jul 20 '13 at 13:04

OK, but you're not going to believe it. Turning on -Yinfer-debug for your CanBuildFrom counter-example,

[search] $line14.$read.$iw.$iw.build[scala.this.Int, Seq[scala.this.Int]](1, 2) with pt=generic.this.CanBuildFrom[scala.this.Nothing,scala.this.Int,Seq[scala.this.Int]] in module class $iw, eligible:
  fallbackStringCanBuildFrom: [T]=> generic.this.CanBuildFrom[String,T,immutable.this.IndexedSeq[T]]
[solve types] solving for T in ?T
inferExprInstance {
  tree      scala.this.Predef.fallbackStringCanBuildFrom[T]
  tree.tpe  generic.this.CanBuildFrom[String,T,immutable.this.IndexedSeq[T]]
  tparams   type T
  pt        generic.this.CanBuildFrom[scala.this.Nothing,scala.this.Int,Seq[scala.this.Int]]
  targs     scala.this.Int
  tvars     =?scala.this.Int
}
[search] considering no tparams (pt contains no tvars) trying generic.this.CanBuildFrom[String,scala.this.Int,immutable.this.IndexedSeq[scala.this.Int]] against pt=generic.this.CanBuildFrom[scala.this.Nothing,scala.this.Int,Seq[scala.this.Int]]
[success] found SearchResult(scala.this.Predef.fallbackStringCanBuildFrom[scala.this.Int], ) for pt generic.this.CanBuildFrom[scala.this.Nothing,scala.this.Int,Seq[scala.this.Int]]
[infer implicit] inferred SearchResult(scala.this.Predef.fallbackStringCanBuildFrom[scala.this.Int], )

and indeed,

  implicit def fallbackStringCanBuildFrom[T]: CanBuildFrom[String, T, immutable.IndexedSeq[T]] =
    new CanBuildFrom[String, T, immutable.IndexedSeq[T]] {
      def apply(from: String) = immutable.IndexedSeq.newBuilder[T]
      def apply() = immutable.IndexedSeq.newBuilder[T]
    }

What do you mean, your Iterable is not a String?

trait CanBuildFrom[-From, -Elem, +To]

Such is the evil of inferring either Nothing or Any.

Edit: Sorry, I misspoke, I see that you told it Nothing explicitly.

Update:

Since CBF is contravariant in From, a CBF from String serves as a CBF from Nothing.

scala> typeOf[CanBuildFrom[Nothing,Int,Seq[Int]]] <:< typeOf[CanBuildFrom[String,Int,Seq[Int]]]
res0: Boolean = false

scala> typeOf[CanBuildFrom[String,Int,Seq[Int]]] <:< typeOf[CanBuildFrom[Nothing,Int,Seq[Int]]]
res1: Boolean = true

For instance, if you need to build from an immutable.Map, you'd want a CBF from collection.Map to work.

As someone else commented, it's just weird for Nothing. But you get what you asked for. That is, you underspecified, which means you don't mind much what you get back, Vector or whatever.

share|improve this answer
    
I do appreciate your effort, but I just fail to understand what you trying to show. Does it say that the resulting IndexedSeq is created by a fallbackStringCanBuildFrom? BTW I did learn about -Yinfer-debug to shine some light on the magic around CBF. –  Beryllium Jul 20 '13 at 13:50
    
@Beryllium Yes! That might be obvious to some smarties, but not to me. –  som-snytt Jul 20 '13 at 18:52

I agree that this is weird. Why don't you just use Vector.newBuilder, if that's what you're looking for?

scala> val sb = Vector.newBuilder[Int]
sb: scala.collection.mutable.Builder[Int,scala.collection.immutable.Vector[Int]] = scala.collection.immutable.VectorBuilder@1fb7482a

scala> println(sb.getClass.getName)
scala.collection.immutable.VectorBuilder

scala> sb += 1
res1: sb.type = scala.collection.immutable.VectorBuilder@1fb7482a

scala> sb += 2
res2: sb.type = scala.collection.immutable.VectorBuilder@1fb7482a

scala> val s = sb.result()
s: scala.collection.immutable.Vector[Int] = Vector(1, 2)

scala> println(s.getClass.getName)
scala.collection.immutable.Vector
share|improve this answer
    
I am just looking for a Seq (Iterable with order), nothing more, nothing less. That's why I'd like to delegate the task of picking the best Builder and implementation class to the companion object generally speaking. Probably my question was not clear enough, the VectorBuilder was just an example of a possible alternative. –  Beryllium Jul 20 '13 at 13:19

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