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In the book that I'm studying there is an exercise:

Write a loop that swaps adjacent elements of an array of integer. For example Array(1,2,3,4,5) becomes Array(2,1,4,3,5). My solution is:

var v = Array(0,1,2,3,4,5,6,7,8,9)
for (i <- 0 until v.length by 2) {
  var temp = 0
  temp = v(i+1); v(i+1) = v(i); v(i) = temp
}

This algorithm works fine but isn't written fully exploiting the potential of Scala, it is written as if I wrote in C++. In fact, the following exercise asks:

Repeat the preceding assignment, but produce a new array with the swapped values. Use for/yield.

Now I tried with:

val a = ArrayBuffer(1,2,3,4,5)
var res = for (i <- 0 until a.length by 2) yield a(i)
for (i <- 1 until a.length by 2) res(i-1)=a(i) <---------eclipse give me an error

The error is: "value update is not a member of scala.collection.immutable.IndexedSeq[Int]"

How can I solve this task? I understand that the syntax "for / yield" is very powerful, but I don't know how to use it.

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The error is because res is an immutable sequence (a Vector), which cannot be updated in-place. Vector does have an updated(index: Int, elem: A) method, however, which returns a new Vector with the updated element. –  DNA Mar 31 at 8:30
    
a is an ArrayBuffer, so automatically also res become an ArrayBuffer. Right? –  user3464253 Mar 31 at 8:57
    
No, it doesn't - try it and see! It would become an ArrayBuffer if you did something like for (i <- a) yield i where a is the starting collection in the for-comprehension. –  DNA Mar 31 at 9:07

3 Answers 3

There is a sliding function that does exactly what you need:

(for {
  i <- Array(1,2,3,4,5).sliding(2,2)
  j <- i.reverse
} yield j).toArray
share|improve this answer
    
Or a one-liner but not for-loop: Array(1,2,3,4,5).sliding(2,2).flatMap(_.reverse).toArray –  almendar Mar 31 at 11:16
    
Could you explain in detail the code you've written please? I understand the sliding function, but why two index (i and j)? –  user3464253 Mar 31 at 13:24
    
i<- Array(1,2,3,4,5).sliding(2,2) spawns: Array(Array(1, 2), Array(3, 4), Array(5)) i iterate over inner Arrays. Now you need to reverse them and you need a name for it so you just give it a j as name. To better understand for-comprehensions search on google how they are expanded. Those are really series of flatMap, map and filter. Read more here: stackoverflow.com/questions/14598990/… –  almendar Mar 31 at 13:33

In your generator, you use 0 until v.length by 2, which is an IndexedSeq. This being your input type, yield will produce the same collection type for res.

Since immutable.IndexedSeq is immutable, you cannot modify it. Hence res(i-1)=a(i), which would update the item at i-1, is not allowed.

So, one option would be to convert res to a mutable collection before you go on.

An often preferable option would be to solve it without updating. Here an example using foldLeft, which iterates over our IndexedSeq and builds up a new, flattened Array[Int]

val array = Array(1,2,3,4,5)

val result = (
    for ( i <- 0 until array.length by 2) 
    yield 
        if (i < array.length-1) 
            Array(array(i+1), array(i)) 
        else 
            Array(array(i))
).foldLeft (Array[Int]()) ((a,b) => a ++ b )
share|improve this answer
    
This code work fine, like other codes posted by other users, but I don't really understand it yet. Can you explain me, please? The structure if()...else() after the yield determine the result value I think. But what about .foldLeft ? –  user3464253 Mar 31 at 13:27

The error is because res is an immutable sequence (a Vector), which cannot be updated in-place. Vector does have an updated(index: Int, elem: A) method, however, which returns a new Vector with the updated element.

I'm not sure what the writer of the exercise had in mind - using for/yield seems a little awkward here, but you could use grouped():

val a = Array(1,2,3,4,5)            //> a  : Array[Int] = Array(1, 2, 3, 4, 5)

val swapped = (for (i <- a.grouped(2)) yield i.reverse).flatten.toArray            
                              //> swapped  : Array[Int] = Array(2, 1, 4, 3, 5)

A neater way without for/yield, using flatMap is also possible

a.grouped(2).toArray.flatMap(_.reverse)                                      
                                   //> res5: Array[Int] = Array(2, 1, 4, 3, 5)
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