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I'm trying out Scala and I want to see how one would implement insertion sort in scala with the following requirements:

  1. Nested for loops
  2. Array[Int] for input
  3. If possible a way to modify the contents of the function in a call by reference way otherwise return an Array[Int]

If this isn't the Scala way of implementing insertion sort can you still provide code for the above and explain what is wrong with the approach. edit: This is an attempt using a while loop (doest work) and no it isn't a homework question, why the hostility?

def insert_sort(a:Array[Int]):Array[Int]={
for(i <- 0 until a.length)
{
  var j=i+1

  while(j>1&&a(j)<a(j-1)&&j<a.length)
  {
      var c=a(j)
      a(j)=a(j-1)
      a(j-1)=c
      j-=1
  }
}
return a
}
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2  
This smells a lot like a homework question where you're asking us to do your homework for you. We'll usually help people with homework but we aren't a code writing service. –  sarnold May 2 '12 at 0:10
    
What have you tried so far? Post what code you have. Is this homework? We are not your personal coding service. If you want people to write code for you, you should pay them. –  dhg May 2 '12 at 0:11
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6 Answers

up vote 1 down vote accepted

The implementation given in the wikipedia article fits your bill. Here it is, copied, pasted, and converted to Scala syntax:

def insertionSort(a: Array[Int]): Array[Int] = {
  for (i <- 1 until a.length) {
    // A[ i ] is added in the sorted sequence A[0, .. i-1]
    // save A[i] to make a hole at index iHole
    val item = a(i)
    var iHole = i
    // keep moving the hole to next smaller index until A[iHole - 1] is <= item
    while (iHole > 0 && a(iHole - 1) > item) {
      // move hole to next smaller index
      a(iHole) = a(iHole - 1)
      iHole = iHole - 1
    }
    // put item in the hole
    a(iHole) = item
  }
  a
}
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This is what I came up with, which seems to be functional, generic, tail-recursive (foldLeft is tail-recursive)...:

def insertionSort[A](la: List[A])(implicit ord: Ordering[A]): List[A] = {
  def insert(la: List[A], a: A) = {
    val (h, t) = la.span(ord.lt(_, a))
    h ::: (a :: t)
  }

  la.foldLeft(List[A]()) {(acc, a) => insert(acc, a)}
}
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Nested for loops are probably not the answer in Scala, whatever is the problem. They make sense in languages where for loops stand for "repeat until condition, changing this each iteration", which is not what for loops or for comprehensions are in Scala (a for comprehension is a for loop which yields something for each iteration).

In Scala, for loops and for comprehensions are iterations over the elements of a collection (or weirder things for non-collection monads), but for insertion sort you want to find a position, either swapping places up to that position, or inserting the element at that position. Finding stuff should not be done with for loops or for comprehensions.

Also, there's no pass-by-reference in Scala. And, in fact, Array is not even a Scala collection, but a Java thingy which has unique characteristics granted to it by the JVM that are not reproducible with classes, so it can't be replaced.

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What do you need it for?
If you just want a sorted Array I would prefer: def sortArray(a: Array[Int]): Array[Int] = a.sortWith(_ < _).

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if you're going to use the library's built-in sorting, you might as well do a.sorted –  dhg May 6 '12 at 11:21
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here's another generic version of insertion sort:

  def less[T <: Comparable[T]](i: T, j: T) = i.compareTo(j) < 0

  def swap[T](xs: Array[T], i: Int, j: Int) { val tmp = xs(i); xs(i) = xs(j); xs(j) = tmp }

  def insertSort[T <: Comparable[T]](xs: Array[T]) {
    for { i <- 1 to xs.size
          j <- List.range(1, i).reverse
          if less(xs(j),xs(j - 1)) } swap(xs, j, j -1)
  }
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Even though, when coding Scala, I'm used to prefer functional programming style (via combinators or recursion) over imperative style (via variables and iterations), THIS TIME, for this specific problem, old school imperative nested loops result in simpler code for the reader. I don't think falling back to imperative style is a mistake for certain classes of problems (such as sorting algorithms which usually mutate a buffer of items passed as input rather than resulting to a new sorted collection)

Here it is my solution:

package bitspoke.algo

import scala.math.Ordered
import scala.collection.mutable.Buffer

abstract class Sorter[T <% Ordered[T]] {

  // algorithm provided by subclasses
  def sort(buffer : Buffer[T]) : Unit

  // check if the buffer is sorted
  def sorted(buffer : Buffer[T]) = buffer.isEmpty || buffer.view.zip(buffer.tail).forall { t => t._2 > t._1 }

  // swap elements in buffer
  def swap(buffer : Buffer[T], i:Int, j:Int) {
    val temp = buffer(i)
    buffer(i) = buffer(j)
    buffer(j) = temp
  }
}

class InsertionSorter[T <% Ordered[T]] extends Sorter[T] {
  def sort(buffer : Buffer[T]) : Unit = {
    for {
      i <-  1 until buffer.length
      j <-  i until 0 by -1
      if (buffer(j) < buffer(j - 1))
    }
    swap(buffer, j, j - 1)
  }
}

As you can see, rather than using java.lang.Comparable, I preferred scala.math.Ordered and Scala View Bounds rather than Upper Bounds. That's certainly works thanks to many Scala Implicit Conversions of primitive types to Rich Wrappers.

You can write a client program as follows:

import bitspoke.algo._
import scala.collection.mutable._

val sorter = new InsertionSorter[Int]
val buffer = ArrayBuffer(3, 0, 4, 2, 1)
sorter.sort(buffer)

assert(sorter.sorted(buffer))
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