# How can I convert this foldLeft : Double expression to use Option[Double] instead?

Can anyone help this Scala newbie? Previously, we summed a number of quantities in a list of entities with those quantities with:

``````sum = entities.foldLeft(0.0)(_ + _.quantity)
``````

Now the quantity is an `Option[Double]`, and so is the sum. How can I convert this using idiomatic Scala?

If any entity's quantity is `None` then the sum should also be `None`. Otherwise the sum should be `Some(total)`.

Edit: Putting this thing into a unit test so that I can try all your answers out. Please note that I do need the result to be None if any quantity is None, because missing quantities mean we haven't finished yet, so the total should reflect this. Even if you don't get the right answer, if you help lead me or others to it, or help me learn something new, I'll upvote.

Edit: @sepp2k wins for a working solution plus explanation. Thanks to all for the learning!

-

You can use `Option`'s `flatMap` and `map` methods to combine two `Option`s, so that the result will be `Some(f(x,y))` if the two `Option`s are `Some(x)` and `Some(y)` or `None` otherwise.

``````entities.foldLeft(Some(0.0):Option[Double]) {
(acco, x) => acco.flatMap(acc => x.quantity.map(_ + acc))
}
``````

Here's an example usage:

``````scala> case class Foo(quantity:Option[Double]) {}
defined class Foo
scala> val entities: List[Foo] = List(Foo(Some(2.0)), Foo(Some(1.0)), Foo(None))
scala> entities.foldLeft(Some(0.0):Option[Double]) {
(acco, x) => acco.flatMap(acc => x.quantity.map(_ + acc))
}
res0: Option[Double] = None

scala> val entities: List[Foo] = List(Foo(Some(2.0)), Foo(Some(1.0)))
scala> entities.foldLeft(Some(0.0):Option[Double]) {
(acco, x) => acco.flatMap(acc => x.quantity.map(_ + acc))
}
res1: Option[Double] = Some(3.0)
``````

So yes, it will return `None` if any of the entities are `None`.

Regarding `map` and `flatMap`:

`map` takes a function `f` of type `A => B` and returns `Some(f(x))` for `Some(x)` and `None` for `None`.

`xo.flatMap(f)`, where `f` is a function of type `A => Option[B]` and `xo` is an `Option[A]`, returns `Some(y)` iff `xo` is `Some(x)` and `f(x)` is `Some(y)`. In all other cases (i.e. if `xo` is `None` or `f(x)` is `None`) it returns `None`.

So the expression `acco.flatMap(acc => x.quantity.map(_ + acc))` returns `y + acc` iff `x.quantity` is `Some(y)` and `acco` is `Some(acc)`. If one or both of `x.quantity` and `acco` are `None`, the result will be none. Since this is inside a fold that means that for the next iteration the value of `acco` will also be `None` and thus the end result will be `None`.

-
That looks like what I want. If you don't mind I'll wait a couple days to see if I get a prettier answer (or one that scares my fellow Scala newbies less!), and in the meantime look up how flatMap and map work. I can see how _ works here too, though how Scala knows the difference between _ and _ and just _ is beyond me... –  Lunivore Sep 1 '10 at 10:27
Could you please confirm that this will give me None if any entity's quantity is None? If we haven't got all the quantities yet then I would like the total to show that we're still missing something. –  Lunivore Sep 1 '10 at 10:39
@Lunivore: I expanded my answer a bit to address your questions. While doing so, I also noticed that my answer didn't quite match the question (in your question quantity is an option, in my answer the object that held the quantity was an option). This is now fixed. –  sepp2k Sep 1 '10 at 11:14
Thank you very much for the explanation. You win. –  Lunivore Sep 1 '10 at 13:41

I like to use `for` when working with `Option`:

``````// ========= Setup ===============
case class Entity(x: Double){
// Dummy
def quantity = if (x < 2) None
else Some(x)
}

val entities = List(Entity(1), Entity(5), Entity(7))

// ========= Calculate ===============
val quantities = for{
entity <- entities
q <- entity.quantity
} yield q

val qSum = quantities.sum
``````

This should be easy for Java people to follow..

(Sorry for the implementation of `Entity`, I had a hard time to come up with a `quantity()` implementation that actually returned None at some points.)

What you wanted was to calculate the sum, right? With this solution, if `quantity()` returns `None` for all entities in the list then the sum will be 0. Why? Because the `quantities` collection holds no elements.

When using `Option` with `for` you can remove all `None` elements from the resulting list in a very nice way. It is the line:

`````` q <- entity.quantity
``````

..that actually removes all `None` results from the resulting list and extract the `Double` from the `Some(x)`. So:

``````yield q
``````

.. will only return `Double` types. This gives you the opportunity to use the sum() function on the resulting collection, since the collection holds `Double` instead of `Option[Double]`. The `sum` operation is very readable!

-
This looks like it returns a Double, rather than Some(Double) or None depending on whether there is any entity without a quantity. –  Lunivore Sep 1 '10 at 13:38
Ok, I will add an explanation to the response.. –  olle kullberg Sep 2 '10 at 7:36
Ah. Please see my explanation for why I need None instead of Some(0). Think of it like an order you're totalling up, where some of the prices haven't been decided yet. Having it sum 0 for those would be bad for us as the shopkeeper, because we'd lose money. Better that we know there's still some order prices outstanding! –  Lunivore Sep 2 '10 at 11:19

"Idiomatic" is amazingly apt because this is called "idiomatic function application", i.e. "lifting" a function into an "idiom" (more modernly: "applicative functor").

In Scalaz, this can be done as follows:

``````import scalaz._
import Scalaz._

val add: (Int, Int) => Int = (x, y) => x + y
``````

Or like this:

``````List(1,2,3).map(some(_)).foldLeft(some(0))(add.lift)
``````
-

``````entities.find(_.quantity == None) match {
case Some(_) => None
case None => Some(entities.map(_.quantity).flatten.reduceLeft(_ + _))
}
``````

I think the other answer is more "idiomatic", but this is a lot easier to understand in my opinion.

-
He said "If any entity's quantity is None then the sum should also be None.", so I'm pretty sure he wants the result to be Some only if all the entities are Sum. –  sepp2k Sep 1 '10 at 10:05
What sepp2k said, though I understand why my 2 tests don't match your expectation. The reason for this is that if we haven't got all the quantities yet then I would like the total to show that we're still missing something. BTW, I'm a She, not a He, though I understand why that also doesn't match the expectation ;) –  Lunivore Sep 1 '10 at 10:24
I can't get sepp2k's answer to compile. What is the type of entities? I created a little container class: case class Foo(quantity: Option[Double]) ...then made entities of type List[Foo]. sepp2k's answer doesn't compile because Foo does not implement map. –  Eric Bowman - abstracto - Sep 1 '10 at 10:41
Ok, I see ... sepp2k's code should be: entities.map(.quantity).foldLeft(Some(0.0):Option[Double]) { (acco, xo) => acco.flatMap(acc => xo.map( + acc)) } ...that's a very nice solution, with lots of meat around how Option, map, and flatMap work together. –  Eric Bowman - abstracto - Sep 1 '10 at 10:51
This is great; I think though that some of the Java bods might find that switch between Some and None a bit confusing. Thank you for the help and learning! –  Lunivore Sep 1 '10 at 13:44

EDIT: as the entity is also an optional value code is adapted to that

While @sepp2k's answer is right if you have an `Option[Entity]` with a `Double` `quantity` field what you need should be the following:

``````entities.foldLeft(Option(0d)) {
(sum, oe) => for {
s <- sum
e <- oe
q <- e.quantity
} yield s + q
}
``````

The `for`-comprehension inside the closure is equivalent to a `flatMap`/`map` like in @sepp2k's answer but is easier to read for beginners in my experience.

-
The quantity field is also an Option[Entity]; please see my edit. You get an upvote for teaching me the for / yield syntax anyway. –  Lunivore Sep 1 '10 at 11:13
I am still not sure if this is what you are looking for. Do you mean you have a `List[Option[Entity]]` and entity has a field `quantity` of type `Option[Double]`? If yes, this should work for you. –  Moritz Sep 1 '10 at 11:33
I have a List[Entity] with a field quantity of Option[Double], and I would like an Option[Double] to be returned. The Entity is not an Option. –  Lunivore Sep 1 '10 at 13:49

Many existing solutions work (and the accepted one is canonical, and is what I would normally use), but here's one that is more efficient if hitting a `None` is common; it short-circuits the evaluation when it hits the first `None`. Note that this is tail-recursive.

``````// Replace Option[Double] by your entity type, and it.next with it.next.quantity
def total(it: Iterator[Option[Double]], zero: Double = 0.0): Option[Double] = {
if (it.hasNext) {
it.next match {
case Some(x) => total(it,zero+x)
case None => None
}
}
else Some(zero)
}
// To use: total(entities.iterator)
``````
-
Thanks - I'll bear it in mind if we have performance hits. Thanks also for increasing my confidence in the answer I took; I'll know to do it a similar way the next time I do something like this. –  Lunivore Sep 1 '10 at 16:26

Let's not forget that bigger brother fold right can get out of the recursion as soon as it meets a None. All in a very elegant manner:

``````def sumOptsFoldRight = (entities:List[Option[Double]]) =>
entities.foldRight(Some(0.0):Option[Double])((accOpt,xOpt) => xOpt match {
case None => None
case Some(xVal) => accOpt.map(xVal + _)
})
``````
-

I would explicitly check for the absence of None's using

``````entities.forall(_.quantity.isDefined)
``````

For example:

``````scala> case class Entity(quantity: Option[Double])
defined class Entity

scala> val entities = List(Entity(Some(10.0)), Entity(None), Entity(Some(15.0)))
entities: List[Entity] = List(Entity(Some(10.0)), Entity(None), Entity(Some(15.0)))

scala> if (entities.forall(_.quantity.isDefined)) {
|   Some(entities.flatMap(_.quantity).reduceLeft(_+_))
| } else None
res6: Option[Double] = None
``````
-
Upvoted just for the reminder that there is an interpreter and I can try this stuff out easily. –  Lunivore Sep 1 '10 at 16:27
``````val sum = entities.foldLeft(Some(0.0):Option[Double]){
(s,e) => if (s.isEmpty || e.quantity.isEmpty) None else Some(s.sum + e.quantity.sum)}
``````

or

``````val sum = if(entities.exists(_.quantity.isEmpty)) None
else Some(entities.flatMap(_.quantity).sum)
``````
-

This is the same answer as sepp2k/Moritz, but separated into two functions to make things clearer.

``````def addOptionDouble(optionalA: Option[Double], optionalB: Option[Double]): Option[Double] =
for {
a <- optionalA
b <- optionalB
} yield a + b

def sumQuantitiesOfEntities(entities: Traversable[Entity]): Option[Double] =
entities.foldLeft(Option(0.0)) {