# Selection Sort Generic type implementation

I worked my way implementing a recursive version of selection and quick sort,i am trying to modify the code in a way that it can sort a list of any generic type , i want to assume that the generic type supplied can be converted to Comparable at runtime.

Does anyone have a link ,code or tutorial on how to do this please I am trying to modify this particular code

``````  'def main (args:Array[String]){
val l = List(2,4,5,6,8)
print(quickSort(l))
}
def quickSort(x:List[Int]):List[Int]={
x match{
case xh::xt =>
{
val (first,pivot,second) = partition(x)
quickSort (first):::(pivot :: quickSort(second))
}
case Nil => {x}
}
}
def partition (x:List[Int])=
{
var first:List[Int]=List ()
var second : List[Int]=List ()

val fun=(i:Int)=> {
if (i<pivot)
first=i::first
else
second=i::second
}
x.tail.foreach(fun)
(first,pivot,second)
}

enter code here

def main (args:Array[String]){
val l = List(2,4,5,6,8)
print(quickSort(l))
}
def quickSort(x:List[Int]):List[Int]={
x match{
case xh::xt =>
{
val (first,pivot,second) = partition(x)
quickSort (first):::(pivot :: quickSort(second))
}
case Nil => {x}
}
}
def partition (x:List[Int])=
{
var first:List[Int]=List ()
var second : List[Int]=List ()

val fun=(i:Int)=> {
if (i<pivot)
first=i::first
else
second=i::second
}
x.tail.foreach(fun)
(first,pivot,second)
} '
``````

Language: SCALA

-
“Platform: SCALA Language : JAVA”… So… Which is it? –  Jean-Philippe Pellet Aug 3 '11 at 16:21
sorry typo error, language is scala, platform is eclipse –  Jide Aug 3 '11 at 16:28
What has eclipse to do with it? Your sort algorithm is sensible to the IDE, in which it is performed? How? –  user unknown Aug 3 '11 at 17:25

In Scala, Java `Comparator` is replaced by Ordering (quite similar but comes with more useful methods). They are implemented for several types (primitives, strings, bigDecimals, etc.) and you can provide your own implementations.

You can then use scala `implicit` to ask the compiler to pick the correct one for you:

``````def sort[A]( lst: List[A] )( implicit ord: Ordering[A] ) = {
...
}
``````

If you are using a predefined ordering, just call:

``````sort( myLst )
``````

and the compiler will infer the second argument. If you want to declare your own ordering, use the keyword `implicit` in the declaration. For instance:

``````implicit val fooOrdering = new Ordering[Foo] {
def compare( f1: Foo, f2: Foo ) = {...}
}
``````

and it will be implicitly use if you try to sort a List of Foo.

If you have several implementations for the same type, you can also explicitly pass the correct ordering object:

``````sort( myFooLst )( fooOrdering )
``````

-
Thanks alot for the ides, im trying to modify this particular quicksort code to sort any generic type [T] –  Jide Aug 4 '11 at 16:41
@Jide the quicksort code I posted is already modified to sort a generic type A that is (or can be converted) to Ordered[A] –  Paolo Falabella Aug 4 '11 at 17:30
Correction: `Comparator` is replaced by `Ordering`, not `Comparable`. –  schmmd Nov 14 '11 at 19:51
@schmmd thanks for the correction. –  paradigmatic Dec 29 '11 at 13:40

For Quicksort, I'll modify an example from the "Scala By Example" book to make it more generic.

``````class Quicksort[A <% Ordered[A]] {
def sort(a:ArraySeq[A]): ArraySeq[A] =
if (a.length < 2) a
else {
val pivot = a(a.length / 2)
sort (a filter (pivot >)) ++ (a filter (pivot == )) ++
sort (a filter(pivot <))
}
}
``````

Test with Int

``````    scala> val quicksort = new Quicksort[Int]
quicksort: Quicksort[Int] = Quicksort@38ceb62f

scala> val a = ArraySeq(5, 3, 2, 2, 1, 1, 9, 39 ,219)
a: scala.collection.mutable.ArraySeq[Int] = ArraySeq(5, 3, 2, 2, 1, 1, 9, 39, 21
9)

scala> quicksort.sort(a).foreach(n=> (print(n), print (" " )))
1 1 2 2 3 5 9 39 219
``````

Test with a custom class implementing Ordered

``````scala> case class Meh(x: Int, y:Int) extends Ordered[Meh] {
| def compare(that: Meh) = (x + y).compare(that.x + that.y)
| }
defined class Meh

scala> val q2 = new Quicksort[Meh]
q2: Quicksort[Meh] = Quicksort@7677ce29

scala> val a3 = ArraySeq(Meh(1,1), Meh(12,1), Meh(0,1), Meh(2,2))
a3: scala.collection.mutable.ArraySeq[Meh] = ArraySeq(Meh(1,1), Meh(12,1), Meh(0
,1), Meh(2,2))

scala> q2.sort(a3)
res7: scala.collection.mutable.ArraySeq[Meh] = ArraySeq(Meh(0,1), Meh(1,1), Meh(
2,2), Meh(12,1))
``````
-
Thanks alot that halped!!! –  Jide Oct 18 '11 at 15:22