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How would you find minValue below? I have my own solution but want to see how others would do it.

val i1: Option[Int] = ...
val i2: Option[Int] = ...
val defaultValue: Int = ...
val minValue = ?
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5 Answers 5

up vote 2 down vote accepted

I think this is what you're after:

val minValue = List(i1, i2).flatten match {
  case Nil => defaultValue
  case xs => xs.min
}

I'd avoid sorted since sorting requires a lot more processing than simply finding the max or min (although it probably doesn't make much difference in this case).

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I think this is probably the best way, though it's unfortunate that the idiomatic style makes it four lines long. I tried to shorten it (by removing match) and came up with ((xs:List[Int]) => {if (xs == Nil) defaultValue else xs.min})(List(i1, i2).flatten) but this is clearly obfuscation for the sake of brevity. –  Graham Lea Nov 3 '12 at 11:46
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Update: I just noticed that my solution below and the one in your answer behave differently—I read your question as asking for the minimum of the two values when there are two values, but in your answer you're effectively treating None as if it contained a value that's either bigger (for min) or smaller (for max) than anything else.

To be more concrete: if i1 is Some(1) and i2 is None, my solution will return the default value, while yours will return 1.

If you want the latter behavior, you can use the default semigroup instance for Option[A] and the tropical semigroup for Int. In Scalaz 7, for example, you'd write:

import scalaz._, Scalaz._

optionMonoid(Semigroup.minSemigroup[Int]).append(i1, i2) getOrElse defaultValue

Or the following shorthand:

Tags.Min(i1) |+| Tags.Min(i2) getOrElse defaultValue

It's not as clean as the applicative functor solution below, but if that's your problem, that's your problem.


Here's a more idiomatic way that doesn't involve creating an extra list:

(for { x <- i1; y <- i2 } yield math.min(x, y)) getOrElse defaultValue

Or, equivalently:

i1.flatMap(x => i2.map(math.min(x, _))) getOrElse defaultValue

What you're doing is "lifting" a two-place function (min) into an applicative functor (Option). Scalaz makes this easy with its applicative builder syntax:

import scalaz._, Scalaz._

(i1 |@| i2)(math.min) getOrElse defaultValue

The standard library solution isn't much less elegant in this case, but this is a useful abstraction to know about.

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Thanks for your answer, Travis. It's pleasing in its brevity, though there's two things that turn me off using it: it uses a third party library, and in order to understand it I need to read an article about "a relatively new area in mathematics and algebraic geometry". –  Graham Lea Nov 3 '12 at 11:35
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val minValue: Int = List(i1, i2).flatten.sorted.headOption getOrElse defaultValue
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Of course, the max() version uses .tailOption –  Graham Lea Sep 28 '12 at 12:22
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You can use patterns in for expressions, values that do not match the pattern are discarded.

(for (Some(x) <- List(None, Some(3))) yield x) max

Not as good as the List.flatten approach though.

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If you want to avoid using scalaz and map/for/getOrElse, you can do the following:

val minValue = (i1, i2) match {
  case (Some(x), Some(y)) => math.min(x, y)
  case _ => defaultValue
}
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Thanks for the contribution, but I wanted the min value if either one was defined, not only when both are defined. –  Graham Lea Nov 3 '12 at 11:29
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