I was p开发者_C百科laying around with ListW.<^>
, the definition of which is as follows:
def <^>[B: Zero](f: NonEmptyList[A] => B): B = value match {
case Nil => ∅
case h :: t => f(Scalaz.nel(h, t))
}
I cannot figure out how come Option
is being chosen as the Zero
type for this example
scala> case class CC(v : Int)
defined class CC
scala> val posns = List(CC(2), CC(5), CC(1))
posns: List[CC] = List(CC(2), CC(5), CC(1))
So now I have a List of these things. My goal is to get back an Option[CC]
for the min/max of posns
where I get a None
for min if there are no values below zero and similar for max.
scala> import scalaz._; import Scalaz._
import scalaz._
import Scalaz._
scala> implicit val CCOrder = new Order[CC] {
| def order(v1 : CC, v2 : CC) = orderBy( (v : CC) => v.v ).order(v1, v2)
| }
CCOrder: java.lang.Object with scalaz.Order[CC] = $anon$1@1e48d65
scala> posns.filter(_.v < 0) <^> (_.min)
res0: Option[CC] = None
scala> posns.filter(_.v > 0) <^> (_.max)
res1: Option[CC] = Some(CC(5))
Option was exactly the Zero
type I wanted! Can anyone explain how come Option
is being chosen by the typer? I don't declare it anywhere!
The definitions for ListW#<^>
and MA#min
:
sealed trait MA[M[_], A] extends PimpedType[M[A]] {
def min(implicit r: Foldable[M], ord: Order[A]): Option[A] =
foldl1((x: A, y: A) => if (x ≨ y) x else y)
}
sealed trait ListW[A] extends PimpedType[List[A]] {
def <^>[B: Zero](f: NonEmptyList[A] => B): B = value match {
case Nil => ∅
case h :: t => f(Scalaz.nel(h, t))
}
}
Here are the relevant inferred types, implicit conversion, and implicit parameters. scalac -Xprint:typer
will reveal this.
object test {
import scalaz._
import Scalaz._
case class CC(v: Int)
val posns = List(CC(2), CC(5), CC(1))
val filtered = posns.filter(((x$1: CC) => x$1.v.<(0)))
val listw = Scalaz.ListTo[CC](posns.filter(((x$1: CC) => x$1.v.<(0))))
listw.<^>[Option[CC]]{
(x$2: scalaz.NonEmptyList[CC]) =>
Scalaz.maImplicit[scalaz.NonEmptyList, CC](x$2).min(Foldable.NonEmptyListFoldable, CCOrder)
}(Zero.OptionZero[CC]);
}
List@#<^>
runs the provided function from NonEmptyList[A] => B
if the pimped list is non-empty, otherwise returns the Zero
for type B
. MA#min
actually returns Option[B]
-- it is a general function for containers, not a specific one for NonEmptyList
, where it could return a B
.
A more direct way to achieve this is to call MA#min
directly. Unfortunately, List
already has a min
function, new in Scala 2.8, so the implicit view to MA
is not triggered without a type hint:
posns.filter(_.v < 0).min
<console>:16: error: could not find implicit value for parameter cmp: Ordering[CC]
posns.filter(_.v < 0).min
(posns.filter(_.v < 0): MA[List, CC]).min
res7: Option[CC] = None
This is one of the motivating reasons to provide symbolic identifiers in Scalaz -- it is a crude form of namespacing!
Side note: you can simplify your instance of the Order
instance for CC
:
implicit val CCOrder: Order[CC] = orderBy(_.v)
CCOrder: scalaz.Order[CC] = scalaz.Orders$$anon$2@fc2528
精彩评论