I have a class with a private field that is a mutable collection. The field in this particular instance is an ArrayBuffer, although my question extends to any finite, ordered, random-access collection type. I want to expose this field without permitting others to modify it. In Java I would add a method like:

private List<T> theList;

public List<T> getList() {
    return Collections.unmodifiableList(theList);

In Java we just accept that the result is a List that doesn't fully implement the List interface because #add and friends throw UnsupportedOperationException.

In Scala, I would expect to find an appropriate trait with accessors like iterator, size, and apply (for retrieving values by index) but no mutators. Does such a type exist that I just haven't found yet?

  • Is something like the .toVector method what you want? It will return a copy of the values in the ArrayBuffer as a Vector which is immutable and supports fast random access. (.toVector is only in Scala 2.10, for 2.9.2 you can do something like Vector() ++ myArrayBuffer)
    – adelbertc
    Nov 21, 2012 at 6:11
  • The collection size may be in the tens of thousands. Is this large enough to justify my aversion to immutable collection copying? Nov 21, 2012 at 6:32
  • Your Java example does not produce an immutable List. It just hides a mutable lists in an immutabl-ish wrapper. Any object keeping a reference to the underlying list can still mutate it... If it's enough for you, you can implement easily the same approach... Nov 21, 2012 at 7:50
  • 4
    Yes, I said "unmodifiable" instead of "immutable", and explicitly referenced a method that does that sort of thing on a java.util.List, because that is precisely the behavior I'm looking for. Nov 21, 2012 at 7:56

4 Answers 4


The Scala collection library is oriented to immutability, and immutability doesn't refer only to the fact that you are not allowed to modify a given collection, but also that you are guaranteed that the collection won't be ever modified by anyone.

So you cannot and you shouldn't get a collection like immutable.Seq as a view from a mutable buffer in Scala since it breaks that guarantee.

But you can implement the concept of unmodifiable mutable Seq easy enough like so:

class UnmodifiableSeq[A](buffer: mutable.Seq[A]) extends mutable.Seq[A]{
    def update(idx: Int, elem: A) {throw new UnsupportedOperationException()}

    def length = buffer.length

    def apply(idx: Int) = buffer(idx)

    def iterator = buffer.iterator


val xs = Array(1, 2, 3, 4)
val view = new UnmodifiableSeq(xs)
println(view(2)) >> 3
view(2) = 10 >> Exception in thread "main" java.lang.UnsupportedOperationException


A probably better way of obtaining an unmodifiable view of the collection is by downcasting to collection.Seq which provides no mutable update operations:

val xs = Array(1, 2, 3)
val view: Seq[Int] = xs //this is unmodifiable

or creating a wrapper which extends Seq if you have your own custom mutable class.

class UnmodifiableView[A](col: MutableCollection[A]) extends collection.Seq[A]{
    def length = col.length

    def apply(idx: Int) = col(idx)

    def iterator = col.iterator

The scala.collection.Seq trait does not make any guarantees of immutability but it also does not allow any modifying operations so it seems the perfect fit.

  • 1
    I agree it would be wrong to break the immutability guarantee of immutable.Seq, but isn't it also a bad idea to break the contract of mutable.Seq#update(Int,A)? Nov 21, 2012 at 16:34
  • 1
    @ChristopherMartin - Yes, I agree. I must confess that I made a mistake in my answer since I assumed that collection.Seq is an alias for collection.immutable.Seq. As it turns out, it isn't. So you can extend collection.Seq which doesn't offer the guarantee of immutability. I'll add the fix in my answer. Nov 21, 2012 at 18:26
  • That's perfect, thanks. I also hadn't expected that there would exist three Seq traits (collection, collection.immutable, collection.mutable). Still a little disappointing that Scala doesn't already have the wrapper class, though. I suppose I'll just cast to collection.Seq and stop being so paranoid about the potential for misuse. Nov 21, 2012 at 19:12

Convert your buffer to a Seq, or one of the other unmodifiable collections that are part of the scala.collection package.

  • Good (perhaps good enough) suggestion - But it doesn't truly ensure unmodifiability of the returned value. A really dumb coworker could just cast the Seq back to ArrayBuffer and make changes to it. Nov 21, 2012 at 6:29
  • 2
    I just tried it, and it works... scala> import collection.mutable.ArrayBuffer; val a = new ArrayBuffer[Int]; a.append(1); val b:Seq[Int] = a.toSeq; b.asInstanceOf[ArrayBuffer[Int]].append(2); Nov 21, 2012 at 7:51
  • 1
    Well, a stupid enough coworker could also get the underlying collection of Collections.unmodifiableList via reflection and modify it. Nov 21, 2012 at 8:28
  • 2
    That's far less likely, don't you think? Nov 21, 2012 at 16:03

If you want to:

  • use only existing library functions (not write your own wrapper)
  • make sure to avoid copying
  • make sure that the returned value cannot be cast to something modifiable then one possibility is to simply return an iterator

    def getStuff = array.iterator

This is not an option, of course, if your specification specifically requires you to return a Seq, but it

  • allows the caller to iterate over it using the same syntax as for Seq's (for (x <- obj.getStuff))
  • allows the caller to easily convert to a Seq or List by using obj.getStuff.toSeq or obj.getStuff.toList.

(Note that the documentation of .iterator does not explicitly say that the returned object cannot be cast to something modifiable, but the current implementation of ArrayBuffer.iterator indeed gives an unmodifiable iterator.)


If myBuffer.toSeq isn't good enough, you can write your own class extending scala.collection.IndexedSeqOptimized delegating the calls to an underlying collection.

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