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I’m currently a little tired so I might be missing the obvious.

I have a var _minVal: Option[Double], which shall hold the minimal value contained in a collection of Doubles (or None, if the collection is empty)

When adding a new item to the collection, I have too check if _minVal is either None or greater than the new item (=candidate for new mimimum).

I’ve gone from

_minVal = Some(_minVal match {
    case Some(oldMin) => if (candidate < oldMin) candidate
                         else                    oldMin
    case None         =>                         candidate

(not very DRY) to

_minVal = Some(min(_minVal getOrElse candidate, candidate))

but still think I might be missing something…

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Why not just use the min method of Scala's great collections? List(2.0, 1.2, 3.4).min prints out 1.2 –  agilesteel Aug 12 '11 at 20:45
I don’t get how would that help me. –  flying sheep Aug 12 '11 at 20:50
Maybe it doesn't. Maybe if I knew more about why you are calculating the new minimum by yourself I could answer your question... –  agilesteel Aug 12 '11 at 20:58
@agilesteel it doesn't sound very efficient to traverse an entire collection when you only need to compare 2 values –  Luigi Plinge Aug 12 '11 at 21:05
Ah, now I understand what you mean. Simple: Because in my case O(1) during every insertion is better than O(n) on demand. /e: Luigi’s ninjapost says it :) –  flying sheep Aug 12 '11 at 21:07

2 Answers 2

up vote 10 down vote accepted

Without Scalaz, you are going to pay some RY. But I'd write it as:

_minVal = _minVal map (candidate min) orElse Some(candidate)


Eric Torreborre, of Specs/Specs2 fame, was kind enough to pursue the Scalaz solution that has eluded me. Being a testing framework guy, he wrote the answer in a testing format, instead of the imperative, side-effecting original. :-)

Here's the version using _minVal, Double instead of Int, side-effects, and some twists of mine now that Eric has done the hard work.

// From the question (candidate provided for testing purposes)
var _minVal: Option[Double] = None
def candidate = scala.util.Random.nextDouble

// A function "min"
def min = (_: Double) min (_: Double)

// A function "orElse"
def orElse = (_: Option[Double]) orElse (_: Option[Double])

// Extract function to decrease noise
def updateMin = _minVal map min.curried(_: Double)

// This is the Scalaz vesion for the above -- type inference is not kind to it
// def updateMin = (_minVal map min.curried).sequence[({type lambda[a] = (Double => a)})#lambda, Double]

// Say the magic words
import scalaz._
import Scalaz._   

def orElseSome = (Option(_: Double)) andThen orElse.flip.curried
def updateMinOrSome = updateMin <*> orElseSome

 _minVal = updateMinOrSome(candidate)
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type mismatch; found : Double required: Option[Double] (pointer on second instance of candidate) –  flying sheep Aug 12 '11 at 21:17
I think you want _minVal = Some(_minVal map (candidate min) getOrElse candidate). –  Blaisorblade Aug 12 '11 at 22:49
or _minVal = _minVal map (candidate min) orElse Some(candidate), yeah. –  flying sheep Aug 13 '11 at 0:14
+1 if you post the non-repeating scalaz version! –  Luigi Plinge Aug 13 '11 at 3:27
Umm, @huynhjl, i posted this exactly above you. Also, I second Luigi’s request for the scalaz version. I’m primarily not using it, because I think it will cause the “maybe I can revise my whole codebase now” syndrome ;) –  flying sheep Aug 13 '11 at 9:18

Here is an update to Daniel's answer, using Scalaz:

Here's a curried 'min' function:

def min = (i: Int) => (j: Int) => if (i < j) i else j 

And 2 variables:

// the last minimum value
def lastMin: Option[Int] = None

// the new value
def current = 1

Now let's define 2 new functions

// this one does the minimum update
def updateMin = (i: Int) => lastMin map (min(i))

// this one provides a default value if the option o2 is not defined
def orElse = (o1: Int) => (o2: Option[Int]) => o2 orElse Some(o1)

Then using the excellent explanation by @dibblego of why Function1[T, _] is an applicative functor, we can avoid the repetition of the 'current' variable:

(updateMin <*> orElse).apply(current) === Some(current)
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