# How can I define a method that takes an Ordered[T] Array in Scala?

I'm building some basic algorithms in Scala (following Cormen's book) to refresh my mind on the subject and I'm building the insertion sort algorithm. Doing it like this, it works correctly:

``````class InsertionSort extends Sort {

def sort ( items : Array[Int] ) : Unit = {

if ( items.length < 2 ) {
throw new IllegalArgumentException( "Array must be bigger than 1" )
}

1.until( items.length ).foreach( ( currentIndex ) => {

val key = items(currentIndex)

var loopIndex = currentIndex - 1

while ( loopIndex > -1 && items(loopIndex) > key ) {

items.update( loopIndex + 1, items(loopIndex) )

loopIndex -= 1
}

items.update( loopIndex + 1, key )

} )

}

}
``````

But this is for Int only and I would like to use generics and Ordered[A] so I could sort any type that is ordered. When I change the signature to be like this:

``````def sort( items : Array[Ordered[_]] ) : Unit
``````

The following spec doesn't compile:

``````"sort correctly with merge sort" in {

val items = Array[RichInt](5, 2, 4, 6, 1, 3)

insertionSort.sort( items )

items.toList === Array[RichInt]( 1, 2, 3, 4, 5, 6 ).toList

}
``````

And the compiler error is:

``````Type mismatch, expected: Array[Ordered[_]], actual Array[RichInt]
``````

But isn't RichInt an Ordered[RichInt]? How should I define this method signature in a way that it would accept any Ordered object?

EDIT

In case anyone is interested, the final source is available here.

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Actually `RichInt` is not an `Ordered[RichInt]` but an `Ordered[Int]`. However `scala.runtime.RichInt <: Ordered[_]`, but class `Array` is invariant in type `T` so `Array[RichInt]` is not an `Array[Ordered[_]]`.

``````scala> def f[T <% Ordered[T]](arr: Array[T]) = { arr(0) < arr(1) }
f: [T](arr: Array[T])(implicit evidence\$1: T => Ordered[T])Boolean

scala> f(Array(1,2,3))
res2: Boolean = true

scala>
``````
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Yeah, that's it, thanks! –  Maurício Linhares Jan 6 '12 at 11:30

You can do this with a context bound on the type parameter;

``````scala> def foo[T : Ordering](arr: Array[T]) = {
|    import math.Ordering.Implicits._
|    arr(0) < arr(1)
|  }
foo: [T](arr: Array[T])(implicit evidence\$1: Ordering[T])Boolean
``````

Such that usage is:

``````scala> foo(Array(2.3, 3.4))
res1: Boolean = true
``````

The advantage to this is that you don't need the default order of the type if you don't want it:

``````scala> foo(Array("z", "bc"))
res4: Boolean = false

scala> foo(Array("z", "bc"))(Ordering.by(_.length))
res3: Boolean = true
``````
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