# Sum of even-numbered items in Seq

I'm trying to sum up even numbered items, and I went for making tuples and summing the first values in them, but It's creating a lot of objects which are immediately discarded.

Maybe someone can suggest more lightweight solution (maybe with `fold`)?

Edit: I meant numbers on even-numbered positions

Testcase:

``````List(1,3,1,3).foldLeft(x)(magic) === 2
``````
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Perhaps you could show your original solution so that people know what they are trying to improve upon. –  Ben James Jun 12 at 9:01

`zipWithIndex` can be used to zip `List(1,3,1,3)` with an index and return a `List` of tuples that can be filtered for even indices, mapped to get the the value, and then summed.

``````scala> List(1,3,1,3).zipWithIndex
res0: List[(Int, Int)] = List((1,0),(3,1), (1,2), (3,3))

List(1,3,1,3).zipWithIndex.filter(_._2 % 2 == 0).map(_._1).sum
res1: Int = 2
``````
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`filter` followed by `map` can be done together with `collect`. So in this case you can write: `List(1,3,1,3).zipWithIndex.collect{ case (i,idx) if idx % 2 == 0 => i}.sum` –  Kristian Domagala Jun 12 at 6:54
``````val ls = List(1, 2, 3, 4, 5)
ls.filter(_ % 2 == 0).sum
``````

Edit: position based:

``````ls.indices.filter(_ % 2 == 0).map(ls(_)).sum
``````
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The other solutions have explicitly used the indices of the elements.

Another way to do it, would be to group into sub-lists of length 2, and take the first element of each:

``````scala> List(1, 3, 1, 3).grouped(2).map(_.head).sum
res0: Int = 2
``````

(`head` should be safe to use, because `grouped` should not return empty lists.)

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My original solution - all correct solution create intermediate tuples either way. –  Zotov Jun 12 at 7:36
Oh, ok. You said your solution involved "tuples". This does not. But it does create 2-element lists, maybe that is what you meant. –  Ben James Jun 12 at 7:37
``````List(1,3,1,3).zipWithIndex.foldLeft(0) { (res, t) =>
if (t._2%2 == 0)
t._1 + res
else
res
}
``````

`zipWithIndex` creates for each element in the list a tuple of the element and its index in the list and then you just have to fold and depending on the index either return the result or the result + the current item.

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``````val ls = List(1,2,3,4,5)
ls.foldLeft(0)((sum,elem) => if(elem%2==0) sum+elem else sum)
``````

There are multiple ways of doing it say by using `collect` or `map`, but they all will construct an internal list. For ex:

``````ls.collect{
case n:Int if(n%2==0) => n
case n:Int => 0
}.sum
``````

`foldLeft` should be the fastest.

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Hmmm. It sounds like performance is a concern here, so I'd skip the zips and folds and go with a tail-recursive solution:

``````def f( nums:List[Int] ) = {
def loop( nums:List[Int], soFar:Int ):Int = nums match {
case x::_::rest => loop( rest, soFar+x )
case    x::rest => soFar + x
case          _ => soFar
}
loop(nums,0)
}
``````
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