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.

I am having Problems appending Objects to a scala.collection.mutable.ListBuffer. I am familiar with the respective API and know that normally you use the += or ++= method to add an object or Sequence of Objects.

I am implementing a card game with network support and have the simple problem of adding some chosen cards to a List of hand cards. In the following code I am going to get the reference to the List of hand cards(ListBuffer), print the size of the ListBuffer, add the chosen cards to it and print the size again.

// get the references and ensure that it are rally ListBuffers / Lists
val handCards: mutable.ListBuffer[ClientCard] = playerPanel.player.handCards
val chosenCards: List[ClientCard] = _chosenCards

// print the number of elements per list
println("number of hand cards: " + handCards.size)
println("number of chosen cards: " + chosenCards.size)

// append the chosen cards to the hand cards
println("append operation: " + handCards + " ++= " + chosenCards)
handCards ++= chosenCards

// print the number of hand cards again
println("number of hand cards: " + handCards.size)

As the result one would expect, that the size of the handCards would grow by the size of the chosen cards. But the output is (formated):

number of hand cards: 5
number of chosen cards: 2

append operation: ListBuffer(
) ++= List(

number of hand cards: 5

So the elements have not been appended.

A ClientCard is always a representative of a "real card" and only consists of information needed for drawing the card.

trait ClientCard extends AnyRef with ClientObject with CardLike

trait ClientObject extends Serializable {
    def uid: Int

trait CardLike {
    val imagePath: String

A ClientCard is created in the Card class:

def clientCard = new ClientCard() {
    val uid = Card.this.hashCode()
    val imagePath = CardTemplate.cardFolder + Card.this.imageFilename

And there is the ClientPlayer (the representative of a "real player") where the ListBuffer is created:

// definition of ClientPlayer trait
trait ClientPlayer extends ClientObject {
    val victoryPoints: Int
    val handCards: mutable.ListBuffer[ClientCard] 
    val playedCards: mutable.ListBuffer[ClientCard]

// piece of code to create a client player
def clientPlayer = new ClientPlayer() {
    val uid = Player.this.hashCode()
    val victoryPoints = Player.this.victoryPoints

    val handCards = new mutable.ListBuffer[ClientCard]
    handCards ++= (Player.this.handCards.map(_.clientCard)) 

    val playedCards = new mutable.ListBuffer[ClientCard]
    playedCards ++= Player.this.playedCards.map(_.clientCard)

Does anyone know what is going wrong here? Or to be more generic: what circumstances are there to prevent the successful appending of objects to a ListBuffer?

Edit: There is something that I forgot to mention and what seemed to cause this strange behaviour. After creation of the handCards ListBuffer it is being sent over network and is therefore being serialized and deserialized again.

After Rex Kerr's comment I tried to create a deep-copy method for a ClientPlayer and copyed each ClientPlayer right after recieving it. This solved the problem. Does anyone have an explanation for this behaviour?

share|improve this question
ListBuffer does some fancy stuff behind the scenes if it's converted into a list. Do you have any toLists or the like in the code? I can't replicate the behavior you're observing. –  Rex Kerr Jan 13 '12 at 17:06
Not explecitly. But after the creation of the handCards ListBuffer it is being sent over network and is therefore being serialized and deserialized again. –  Zwackelmann Jan 13 '12 at 18:04
It really seemed to be caused by the serialization and deserialization of the ListBuffer. I created a deep copy method for a ClientPlayer and created a copy for each ClientPlayer Object right after recieving it. This solved the problem. –  Zwackelmann Jan 13 '12 at 18:48
Does anyone have an explanation for this behaviour? –  Zwackelmann Jan 13 '12 at 18:54
I can reproduce this as a bug. I'm going to open a ticket about it. –  Daniel C. Sobral Jan 13 '12 at 19:09

1 Answer 1

up vote 5 down vote accepted

Deserialization produces an extraordinarily fragile ListBuffer. This is probably a bug, but as a workaround, the only thing you should do with it is immediately add it to some other collection (e.g. by toListing it, or by adding it to an empty ListBuffer).

Here's some code you can use to verify that serialization/deserialization is problematic:

import collection.mutable.ListBuffer
import java.io._
val baos = new ByteArrayOutputStream
val oos = new ObjectOutputStream(baos)
oos.writeObject( ListBuffer(1,2,3) )
val bais = new ByteArrayInputStream( baos.toByteArray )
val ois = new ObjectInputStream(bais)
val lb = ois.readObject.asInstanceOf[ListBuffer[Int]]
val lb2 = ListBuffer[Int]() ++= lb
lb2 ++= List(1)  // All okay
lb ++= List(1)  // Throws an exception for me

I'll submit a bug report, but for the time being you should not rely upon the ListBuffer being in a sensible state when deserialized, and instead rebuild it. (You may wish to serialize and deserialize a List instead.)

share|improve this answer
Yes, this seems to be the problem. The appending does not throw an exception for me but is instead just doing nothing but I thing that just supports your assumption that the ListBuffer is really extraordinarily fragile after deserialization. –  Zwackelmann Jan 13 '12 at 19:23

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.