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there is trait in exercise, which should be implemented

trait AbstractSet {
def add(n: Int): AbstractSet
def remove(n: Int): AbstractSet

and such task Write a concrete class MutableSet that extends the AbstractSet trait and implements the three methods that that trait requires. As its name suggests, your class should be mutable. That is, calling the add or remove methods on a MutableSet should modify the instance of the set on which the method was called, such that it now contains (or no longer contains), the specified Int. Note that the AbstractSet trait specifies that the add and remove methods must return an AbstractSet. In the case of MutableSet, it is sufficient to return the current set (this). This has been implemented for you in the starter code. (Remember that using the return keyword is optional; any code block automatically returns its last expression.)

I wrote code like this:

class Set1(ab:List[Int]) extends AbstractSet{
  var a:List[Int]  
  **def add(n:Int){

object Main{
  def main(args: Array[Int]): Unit = {    
    var arr2:List[Int]=List(1,2,4,3)
    val s: AbstractSet = new Set1(arr2)
   // s.print

but how to implement method add in class Set1?

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Please tag the question as "homework" if that's the case. –  Daniel C. Sobral Feb 26 '13 at 18:53
@DanielC.Sobral "homework" tag is deprecated and must not be used anymore –  om-nom-nom Feb 26 '13 at 19:20

1 Answer 1

In Scala, the List class is immutable (see Scala API Documentation); that means whenever we change the state of the List, we want to return a new List that reflects that change instead of changing the state of the current List.

Also note that if a return clause is not explicitly defined, a function in Scala will return the value of the last line of a function block.

Go to the link to the List documentation, and take a look at the example with the :: operator. :: is a prepend operator for the List (and many other) classes. Since Lists are singly-linked, it is much more efficient to add items to the front of the List than the end of it.

So in your Set1 class, you can add an Int to your List and return it very simply:

override def add(n: Int): AbstractSet = new Set1(n :: a)

However, there is a small design flaw in how you are handling the resulting List. As you can see in the AbstractSet definition, the add method returns a List. As mentioned earlier, Lists are immutable and do not change. You will need to do something with the returned List once you add to it, like this:

object Main{
  def main(args: Array[Int]): Unit = {    
    var arr2:List[Int]=List(1,2,4,3)
    val s: AbstractSet = new Set1(arr2)
    val t = s.add(5)
share|improve this answer
compiler shows error: error: overriding method add in trait AbstractSet of type (n: Int)scala2.AbstractSet; method add has incompatible type override def add(n: Int): List[Int] = n :: a and error: class Set1 needs to be abstract, since variable a is not defined (Note that variables need to be initialized to be defined) class Set1(ab:List[Int]) extends AbstractSet{ two errors found –  Vitrum Feb 27 '13 at 12:25
I changed the add method to fix the first compiler error; there was a mismatch in the return type. The rest of the compiler errors should be self-explanatory (don't declare a variable without assigning it a value, but really, it should be declared as a val, anyway). You'll also notice that you need to implement the remove method for Set1 to properly extend the AbstractSet trait. If you want to see the add method work first, you can define remove as a stub: override def remove(n: Int): AbstractSet = ??? –  David Kaczynski Feb 27 '13 at 16:39

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