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I'm coding up my first Scala script to get a feel for the language, and I'm a bit stuck as to the best way to achieve something.

My situation is the following, I have a method which I need to call N times, this method returns an Int on each run (might be different, there's a random component to the execution), and I want to keep the best run (the smallest value returned on these runs).

Now, coming from a Java/Python background, I would simply initialize the variable with null/None, and compare in the if, something like:

best = None
    result = executionOfThings()
    if(best is None or result < best):
        best = result

And that's that (pardon for the semi-python pseudo-code).

Now, on Scala, I'm struggling a bit. I've read about the usage of Option and pattern matching to achieve the same effect, and I guess I could code up something like (this was the best I could come up with):

best match {
    case None => best = Some(res)
    case Some(x) if x > res => best = Some(res)
    case _ =>

I believe this works, but I'm not sure if it's the most idiomatic way of writing it. It's clear enough, but a bit verbose for such a simple "use-case".

Anyone that could shine a functional light on me?


share|improve this question
What do you want to do with best afterwards? This looks like this assignment could be avoided. You could probably also exploit the monadic properties of Option to make this a bit more concise. – Niklas B. Apr 4 '12 at 15:11
Return it/print it out. best is basically the result of the algorithm. – pcalcao Apr 4 '12 at 15:12
You can just use the match as an expression then, instead of assigning it to something. – Niklas B. Apr 4 '12 at 15:18
Use the match as an expression? Like I said, my first Scala script ;) Could you elaborate? – pcalcao Apr 4 '12 at 15:19
Yeah, I don't no Scala very well, but I'll see whether I can turn this into a proper answer. – Niklas B. Apr 4 '12 at 15:20
up vote 1 down vote accepted

For this particular problem, not in general, I would suggest initializing with Int.MaxValue as long as you're guaranteed that N >= 1. Then you just

if (result < best) best = result

You could also, with best as an option,

best = best.filter(_ >= result).orElse( Some(result) )

if the optionality is important (e.g. it is possible that N == 0, and you don't take a distinct path through the code in that case). This is a more general way to deal with optional values that may get replaced: use filter to keep the non-replaced cases, and orElse to fill in the replacement if needed.

share|improve this answer
This seems like the best alternative I've seen. Thank you for the explanation on the usage of filter with Option. – pcalcao Apr 4 '12 at 16:17

Just use the min function:

(for (... executionOfThings()).min


((1 to 5).map (x => 4 * x * x - (x * x * x))).min
share|improve this answer
Which would iterate over the first list, build a new one and iterate over that as well. It would work, but is not very performant. – drexin Apr 4 '12 at 17:15
@drexin: I don't understand which 2 lists you're talking about. Would sound like premature optimization to me, if it would deal with a real problem. – user unknown Apr 4 '12 at 17:25
collections or whatever... the thing is, that it will traverse all values 2 times. This is not critical when you have only small amounts of values. If you can guarantee that it's okay. But avoiding the second traversal is not hard. – drexin Apr 4 '12 at 17:33
@drexin: The question was about an idiomatic way to get the minimum. Not about a premature performance optimization. Without further knowledge about the function being called, I wouldn't speculate about the performance. Readability, maintainability, understandable code is almost always more important. – user unknown Apr 4 '12 at 17:53
Okay, you're right. – drexin Apr 4 '12 at 18:00

edit: adjusted to @user-unknown's suggestion

I would suggest you to rethink you whole computation to be more functional. You mutate state which should be avoided. I could think of a recursive version of your code:

def calcBest[A](xs: List[A])(f: A => Int): Int = {
  def calcBest(xs: List[A], best: Int = Int.MaxValue): Int = xs match {
    // will match an empty list
    case Nil => best
    // x will hold the head of the list and rest the rest ;-)
    case x :: rest => calcBest(rest, math.min(f(x), best))

callable with calcBest(List(7,5,3,8,2))(_*2) // => res0: Int = 4

With this you have no mutable state at all.

Another way would be to use foldLeft on the list:

list.foldLeft(Int.MaxValue) { case (best,x) => math.min(calculation(x),best) }

foldLeft takes a B and a PartialFunction of Tuple2[B,A] => B and returns B

Both ways are equivalent. The first one is probably faster, the second is more readable. Both traverse a list call a function on each value and return the smallest. Which from your snippet is what you want, right?

share|improve this answer
If you could pass the 'calculation' function into the method. Maybe, a function Any=>Int or A=>Int: def calcBest [A] (xs: List[A], f: (A => Int)): Int = { – user unknown Apr 5 '12 at 0:48
Yes, the more general, the better. I just wanted to give a quick example ;-). But I will adjust it. – drexin Apr 5 '12 at 7:43
Thank you for the more functional example! My case doesn't exactly involve applying a function to each element on a list, the call is exactly the same, with exactly the same argument, the results will differ due to randomization inside the function, but I think I can adapt, and your example will certainly come in handy. – pcalcao Apr 5 '12 at 9:59

I thought I would offer another idiomatic solution. You can use Iterator.continually to create an infinite-length iterator that's lazily evaluated, take(N) to limit the iterator to N elements, and use min to find the winner.

Iterator.continually { executionOfThings() }.take(N).min
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