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I'm trying to learn scala, and decided to create a poker app to get my head around some of the class objects. I've got decks working fine, but I've got to the point where I need to draw 5 cards. So far I have:

import util.Random

case class Card(value: Int, color: String)

class Deck {
  private var deck = newDeck 

  def draw(amount: Int): List[Card] = {
    val ret = deck.take(amount)
    deck = deck.drop(amount)

  def newDeck: List[Card] = {
    Random.shuffle((1 to 13).map(x => 
      List(Card(x, "D"), Card(x, "C"), Card(x, "H"), Card(x, "S"))).toList.flatten)

  override def toString: String =  "Deck has " + deck.length + " cards left."

This draw function doesn't seem quite right having two steps - but I'm not sure how I else I can (or should) take the top however many cards, and leave the list in a state without those cards in?

(As an aside, if someone has a better function for the deck creation/shuffle I'm all ears, this seems a bit hacky too... but my main question is the list state)

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5 Answers 5

up vote 2 down vote accepted

In my opinion, you should rewrite the codes either:

(a) with totally immutable struct, i.e. NO var, NO mutable collection


(b) replace var deck: List[Card] by some mutable collection, like ListBuffer.

Here is the (a) solution:

import util.Random

case class Card(value: Int, color: String)

class Deck(private val cards: Seq[Card]) {
  def draw(amount: Int): (Deck, Seq[Card]) = {
    val (ret, rem) = cards.splitAt(amount)
    (new Deck(rem), ret)

  override def toString: String = "Deck has " + cards.size + " cards left."

object Deck {
  def apply(cards: Seq[Card] = Nil): Deck = cards match {
    case Nil =>
        val ncds = for(v <- 1 to 13; c <- Seq("D", "C", "H", "S")) yield Card(v, c)
        new Deck(Random.shuffle(ncds))
    case _ => new Deck(cards)

Use case:

scala> :paste
// Entering paste mode (ctrl-D to finish)
//paste code here

// Exiting paste mode, now interpreting.

import util.Random
defined class Card
defined class Deck
defined object Deck

scala> val d1 = Deck()
d1: Deck = Deck has 52 cards left.

scala> val (d2, cards) = d1.draw(4)
d2: Deck = Deck has 48 cards left.
cards: Seq[Card] = Vector(Card(3,H), Card(2,S), Card(11,H), Card(8,C))
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Leaving aside whether you want to have the deck be a "var", you can do that take and drop simultaneously, using splitAt

def draw(amount: Int): List[Card] = {
  val (ret, remainder) = deck.splitAt(amount)
  deck = remainder
share|improve this answer
Doesn't it have to be a var, since I'll be reassigning the value it contains? I like the use of splitAt(), but the reassigning still seems a little messier than the examples I've seen so far. Having ret afterwards just seems like I'm arbitrarily avoiding using the return keyword, which I'm assured is A Bad Thing(tm) – CaffeinatedDave Sep 29 '13 at 13:34
Since it's a relatively simple example, it's great opportunity to ask: how would it look like if deck was a val? Whole class would be immutable, which means that draw would have to return e.g. (List[Card], Deck), which seems more trouble than it's worth as opposed to a little, hidden mutable state... – Patryk Ćwiek Sep 29 '13 at 13:35
@PatrykĆwiek, you'd probably return a CardState object with lists of cards in the deck and in the hands, and the operation would be DrawCardsForPlayer (s:CardState, p;Player):CardState, or something. After all, you're going to do something with those drawn cars. In other words, the total number of cards doesn't change, just where they're currently located. – The Archetypal Paul Sep 29 '13 at 14:07

The most purely functional way to solve this has already been written for you! Its splitAt, which models drawing as taking some amount of cards and returning the new state of the deck along with it.

This technique is used by Queue.dequeue from the collections api:

def dequeue: (A, Queue[A])
//Returns a tuple with the first element in the queue,
//and a new queue with this element removed. 

so draw would then be just:

def draw[A](amount: Int): (A, Queue[A]) = deck.splitAt(amount)
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Just a minor note: You can avoid the .flatten if you use .flatMap instead of .map in the newDeck method. I don't know why you consider that method "hacky", it looks perfectly reasonable to me. Here is a variant using for-syntax:

def newDeck: List[Card] = {
  val sorted = for {
    value <- 1 to 13
    color <- Seq("D", "C", "H", "S")
  } yield Card(value, color)

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Thats more like what I was looking for. I meant hacky in that it wasn't really manageable if there were more than four suits (not for cards obviously, but in general use). – CaffeinatedDave Sep 29 '13 at 14:40

I would use a val for deck and make it be a mutable HashSet (or LinkedHashSet if you need ordering for some reason) so you don't have to re-assign it all the time. It may not be the perfect example of a functional way of doing this though, but the state of this deck seems to be inherently mutable.

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That's really a design choice, not inherent. If you model the deck as an object which you extract cards from, then the deck is going to be mutable. The alternative is to model the state of the cards (what are in the deck, what are in the hands etc) as some sort of State object. Then dealing can take a State object, and return a new State object with 5 cards removed from the deck and added to a player's hand. This would be more 'functional' (and involve less mutable objects). Whether it is better is left to the taste of the reader. – The Archetypal Paul Sep 29 '13 at 14:04
Do you have some example usage for LinkedHashSet? Had a quick look but seems to use the same take/drop calls as List. – CaffeinatedDave Sep 29 '13 at 14:36
The random order of the cards will be undone by using a set instead of a linear sequence! – 0__ Sep 29 '13 at 14:44
It's not a 'truly' random order I want. I want a linear sequence that I can shuffle, so I can take cards off the top, and re add them back to the base of the pack after the hand is finished... Hence the toString override hiding what's stored in the private variable. – CaffeinatedDave Sep 29 '13 at 14:47
Interesting idea Paul, thanks. – Sebastiaan van den Broek Sep 29 '13 at 16:00

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