# Summing up two options

Let's say I have two optional Ints (both can be Some or None):

``````val one : Option[Int] = Some(1)
val two : Option[Int] = Some(2)
``````

My question is the following: Are there any intelligent way to sum them op using Scalas brilliant collection-methods? I realize that I could merge them into a collection, `flatten` it and use `reduceLeftOption` like so:

``````(one :: two :: Nil).flatten.reduceLeftOption(_ + _)     // Some(3)
``````

But, the solution above means creating a new collection, and living in a rich and developed world that takes time from all the other first world activities I might immerse myself into. And in a world where programming gets more and more luxurious for programmers like us, there must be one or more luxurious first world answer(s) to this, right?

Edit: So to spell things out, here are some examples:

If `one = Some(1)` and `two = Some(2)` we should have Some(3)

If `one = Some(1)` and `two = None` we should have Some(1)

If `one = None` and `two = Some(2)` we should have Some(2)

If both `one` and `two` are `None` we should have None, since neither `one` or `two` can be summed correctly.

Hope that clarified things :-)

• Thanks for the edit Ben James, maybe I'm just old and grumpy but I was having a "first world" headache reading the original version... – Régis Jean-Gilles May 1 '13 at 14:06
• International Worker's day Régis. Once a year. Don't be so petty :-) – Jens Egholm May 1 '13 at 14:10
• Why remove the International Worker's day comment? You guys have no style.. – Jens Egholm May 1 '13 at 14:15
• Pretty much a duplicate: stackoverflow.com/questions/17188123/… :) More info there at least ;) – Felix Jul 1 '13 at 7:10

obligatory scalaz answer is to use the scalaz Option monoid:

``````scala> one |+| two
res0: Option[Int] = Some(3)
``````

It will do what you want with respect to None:

``````scala> two |+| None
res1: Option[Int] = Some(2)

scala> none[Int] |+| none[Int]
res2: Option[Int] = None
``````

That none method is a method from scalaz which helps with type inference because instead of returning `None <: Option[Nothing]` it returns a `Option[Int]`, there is a similar method from Some which returns an Option[A] for any given A instead of a Some[A]:

``````scala> 1.some |+| 2.some
res3: Option[Int] = Some(3)
``````
• Thanks, that's great! It just seems like slightly overkill to import a new library. I'll accept it if nothing better shows :-) – Jens Egholm May 1 '13 at 14:17
• Just do it! scalaz is very first library I add to any project. Once you start getting used to it, you'll find there are tons of gems in there you won't want to live without :) – stew May 1 '13 at 16:21
• Thanks for the answer. It really looks clean. Looks like I'll have to spend some more time with scalaz :-) – Jens Egholm May 2 '13 at 13:56
• Here's a nice intro video that starts with monoids from our very own @oxbow_lakes: skillsmatter.com/podcast/scala/practical-scalaz-2518 – stew May 2 '13 at 15:43
``````for (x <-one; y <- two) yield x+y
``````

Or the less readable but strictly equivalent:

``````one.flatMap{x=>two.map(x+_)}
``````

UPDATE: As your latest edit made quite clear, you only want a `None` as the result when both the input options are `None`. In this case I don't think you'll get anything better in terms of simplicity than what you already use. I could shorten it a bit but overall this is jsut the same:

``````(one ++ two).reduceOption(_ + _)
``````
• Excellent reply, sir. But if `one` is None, the whole result is None, right? – Jens Egholm May 1 '13 at 14:10
• Oh, right, you wanted to get 0 in case either option is `None`? Then just add a `getOrElse(0)` at the end. Or better yet, just do `one.getOrElse(0)+two.getOrElse(0)`. – Régis Jean-Gilles May 1 '13 at 14:17
• Actually I would prefer to get None, if both were None. But if the first (one) is None and the second (two) is Some(2) (for instance), I would prefer Some(2). The code above returns None. – Jens Egholm May 1 '13 at 14:18
• Got it. I think in this case every answer until now is actually incorrect then. That's an uncommon requirement. – Régis Jean-Gilles May 1 '13 at 14:25
• How about `(one ++ two).reduceOption(_ + _)` then? That's basically you own code, only slightly shortened. – Régis Jean-Gilles May 1 '13 at 14:52

``````one.map(_ + two.getOrElse(0)).orElse(two)
``````for( x <- one.orElse(Some(0)); y <- two.orElse(Some(0))) yield x+y
• `one.map(two.getOrElse(0) + _)` is incorrect: if two is `None` you'll get `Some(1)` instead of None. – Régis Jean-Gilles May 1 '13 at 14:09