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I have Scala code like this

var i = 1
for(e <- array) {
    acc += e * i
    i += 1

I need to multiply the first element in the array by 1, the next by 2, the next by 3 and so on adding it all into an accumulator. I feel that there is a better way of doing this in Scala, maybe even with folding?

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up vote 5 down vote accepted
val x = List(1,1,1,1,1,1)
(((0,1) /: x){case ((acc, mult), l) => (acc + (l * mult), mult + 1) })._1

In other words, starting with an accumulator of 0 and a multiplier of 1, fold each element of the list in, changing the accumulator to acc + (l * mult) and incrementing the multiplier by 1. We get the final multiplier out at the end as well, so we call ._1 to just get the accumulator.

Edit: As @RexKerr points in his answer below (and the comment), if performance is a major concern then you're better off using an explicit recursive method.

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amazing answer, thank you! – chrissphinx Mar 5 '13 at 15:41

"Better" depends on what your goals are. Short and clear? Probably

{ for (i <- array.indices; e = array(i)) yield (i+1)*e }.sum

or => (i+1)*array(i)).sum

(or slightly faster, since you create the intermediates as you go: => (i+1)*array(i)).sum


You should usually be short and clear.

Fast? Then you'll need to go old-school:

var i = 0
var acc = 0
while (i < array.length) {
  acc += (i+1)*array(i)
  i += 1

or use recursion

def sum(a: Array[Int], i: Int = 0, acc: Int = 0): Int =
  if (i >= a.length) acc else sum(a, i+1, (i+1)*a(i) + acc)
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Is explicit recursion likely to be any faster than a fold? Only advantage I can see is not allocating the tuple... – Impredicative Mar 5 '13 at 16:04
@Impredicative - If you're doing lightweight operations like addition of integers, not allocating the tuple is huge (10x speedup). Also, collections are not specialized for primitives which means every integer has to be boxed, while recursion can use primitive types. Also huge (both together gives ~20x-30x speedup). – Rex Kerr Mar 5 '13 at 16:06
Both very good points! – Impredicative Mar 5 '13 at 16:10
Hey @Rex, do you mind explaining why you are mapping over the iterator in the 3rd example? Mapping over the indices seems to do the trick. – DaMainBoss Mar 5 '13 at 17:48
@DaMainBoss - The 2nd example creates a whole new collection (a Vector, actually) to store the intermediate results. Using an iterator prevents this--it does the mapping on the fly--so despite the extra overhead from advancing from item to item, it's faster overall. But it's not as short and clear, so only do it if the overhead of the extra collection is a problem. (I think it is clearer than a fold, though.) – Rex Kerr Mar 5 '13 at 21:33

I prefer zipWithIndex which is simpler to read: { case (e, i) => e * (i + 1) }.sum
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but then you iterate over the array twice from my understanding of that method, correct? – chrissphinx Mar 5 '13 at 15:38
Three times. zipWithIndex and map both iterate over the array and sum is implemented via foldLeft. So my approach is certainly not the fastest – maxmc Mar 5 '13 at 15:41
definitely more readable, however – chrissphinx Mar 5 '13 at 15:43
If you use .view on array first, it will only be one pass, but you have to deal with the overhead of .view. Pick your poison. – nnythm Mar 6 '13 at 6:03
@chrissphinx .view makes the functions get lazily evaluated, so I don't think zipWithIndex and the map don't evaluated until sum time. At that time, each item in the new array that's getting summed over is computed one by one, so the array is only iterated over once. – nnythm Mar 10 '13 at 16:38

I am not sure if what I suggest is a better way to do it or not, as it is more functional (== it will perform slower):

(0 /: (array zipWithIndex)) {(a, i) => (i._1 * (i._2 + 1)) + a}

This does perform foldLeft on an array which is produced by zipWithIndex method in

zipWithIndex simply zips the elements of a collection with their indices.

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