By "idiomatic", I assume you're talking about McBride and Paterson's "Idioms" in their paper Applicative Programming With Effects. :o)

Here's how you would use their idioms to check if a collection is ordered:

```
import scalaz._
import Scalaz._
case class Lte[A](v: A, b: Boolean)
implicit def lteSemigroup[A:Order] = new Semigroup[Lte[A]] {
def append(a1: Lte[A], a2: => Lte[A]) = {
lazy val b = a1.v lte a2.v
Lte(if (!a1.b || b) a1.v else a2.v, a1.b && b && a2.b)
}
}
def isOrdered[T[_]:Traverse, A:Order](ta: T[A]) =
ta.foldMapDefault(x => some(Lte(x, true))).fold(_.b, true)
```

Here's how this works:

Any data structure `T[A]`

where there exists an implementation of `Traverse[T]`

, can be traversed with an `Applicative`

functor, or "idiom", or "strong lax monoidal functor". It just so happens that every `Monoid`

induces such an idiom for free (see section 4 of the paper).

A monoid is just an associative binary operation over some type, and an identity element for that operation. I'm defining a `Semigroup[Lte[A]]`

(a semigroup is the same as a monoid, except without the identity element) whose associative operation tracks the lesser of two values and whether the left value is less than the right value. And of course `Option[Lte[A]]`

is just the monoid generated freely by our semigroup.

Finally, `foldMapDefault`

traverses the collection type `T`

in the idiom induced by the monoid. The result `b`

will contain true if each value was less than all the following ones (meaning the collection was ordered), or `None`

if the `T`

had no elements. Since an empty `T`

is sorted by convention, we pass `true`

as the second argument to the final `fold`

of the `Option`

.

As a bonus, this works for all traversable collections. A demo:

```
scala> val b = isOrdered(List(1,3,5,7,123))
b: Boolean = true
scala> val b = isOrdered(Seq(5,7,2,3,6))
b: Boolean = false
scala> val b = isOrdered(Map((2 -> 22, 33 -> 3)))
b: Boolean = true
scala> val b = isOrdered(some("hello"))
b: Boolean = true
```

A test:

```
import org.scalacheck._
scala> val p = forAll((xs: List[Int]) => (xs /== xs.sorted) ==> !isOrdered(xs))
p:org.scalacheck.Prop = Prop
scala> val q = forAll((xs: List[Int]) => isOrdered(xs.sorted))
q: org.scalacheck.Prop = Prop
scala> p && q check
+ OK, passed 100 tests.
```

And *that's* how you do **idiomatic** traversal to detect if a collection is ordered.

`if`

statements makes me sad, and Luigi's version was slightly off (detecting reverse order). Fixed it for you. – Apocalisp Oct 22 '11 at 8:14`isOrdered(List(1,2,1,2))`

, which is why I rolled it back, and is why I'm changing it back again... – Luigi a.k.a. Rhys Oct 22 '11 at 9:52`l == l.sorted`

might not work for lists of objects other than ints if the sorting algorithm used isn't stable. – Kim Stebel Jul 3 '12 at 14:31