2

I want to merge an update instance of a class into a base instance, choosing the field of the update instance over the base instance if that field is "empty" in the base instance. The example below merges base and update:

case class Foo(a: Option[Int], b: List[Int], c: Option[Int])

val base = Foo(None, Nil, Some(0))
val update = Foo(Some(3), List(4), None)

merge(base,update) == Foo(Some(3), List(4), Some(0))

I've tried something like this:

val g = Generic[Foo]
val aHList = g.to(base)
val bHList = g.to(update)

aHList
  .zipWithIndex
  .map({
    case (l: List, i: Int) => l ++ bHList(i)
    case (o: Option, i: Int) => if (!bHList(i).nonEmpty) {
      updateHList(i)
    } else {
      o
    }
    case (_, i: Int) => updateHList(i)
  })

But it turns out the generic .to method does not output an HList per say but a Repr. Any idea how I could achieve my goal?

Thank you !

2 Answers 2

5

For specific tasks like this, it is most often easier to create a type class than to dabble with something like a map with a Poly.

We can represent an update on some T as follows :

trait Update[T] {
  def apply(base: T, update: T): T
}

Now we need to define some instances. How to update a List and Option and some instances to make it possible to derive an Update[Foo] instance.

import shapeless._

object Update extends Update0 {
  def apply[A](implicit update: Lazy[Update[A]]): Update[A] = update.value

  implicit def optionUpdate[A]: Update[Option[A]] = 
    new Update[Option[A]] {
      def apply(base: Option[A], update: Option[A]): Option[A] = update orElse base
    }

  implicit def listUpdate[A]: Update[List[A]] = 
    new Update[List[A]] {
      def apply(base: List[A], update: List[A]): List[A] = base ++ update
    }

  implicit def hnilUpdate: Update[HNil] = 
    new Update[HNil] {
      def apply(base: HNil, update: HNil): HNil = HNil
    }

  implicit def hconsUpdate[H, T <: HList](
    implicit updateH: Update[H], updateT: Lazy[Update[T]]
  ): Update[H :: T] = 
    new Update[H :: T] {
      def apply(base: H :: T, update: H :: T): H :: T = 
        updateH(base.head, update.head) :: updateT.value(base.tail, update.tail)
    }
}

trait Update0 {
  implicit def genericUpdate[A, G <: HList](
    implicit gen: Generic.Aux[A, G], updateG: Lazy[Update[G]]
  ): Update[A] =
    new Update[A] {
      def apply(base: A, update: A): A = 
        gen.from(updateG.value(gen.to(base), gen.to(update)))
    }
}

We can add some syntax to make it a little bit easier :

implicit class UpdateOps[A](val base: A) extends AnyVal {
  def update(change: A)(implicit update: Lazy[Update[A]]): A = 
    update.value(base, change)
}

Now we can do :

case class Foo(a: Option[Int], b: List[Int], c: Option[Int])

val base = Foo(None, Nil, Some(0))
val update = Foo(Some(3), List(4), None)

base update update // Foo(Some(3),List(4),Some(0))

We could define an instance for cats.SemigroupK or scalaz.Plus so we could omit the Option and List instances, while gaining eg Update[Vector[Int]] :

import cats.SemigroupK
import cats.implicits._

implicit def semigroupKUpdate[F[_], A](implicit F: SemigroupK[F]): Update[F[A]] =
  new Update[F[A]] {
    def apply(base: F[A], update: F[A]): F[A] = F.combineK(update, base)
  }
4
  • Nice solution, thx ! Why are putting genericUpdate in a different trait ? Why not have it in Update ? Jun 23, 2016 at 15:09
  • Like it is, it should be fine in Update. But if for example you want to create a custom Update[(A, B)], the genericUpdate needs to be in a trait because otherwise you would get ambiguous implicits. Jun 23, 2016 at 15:25
  • As for the setup I have a compile error, it can't find the Update[Foo] implicit. I have the Update trait and object in a file. And the UpdateOps[A] in a package object. I import both the package object as well the content of the Update object. Looks like it does not find the GenericUpdate. On another note, what is G for in the genericUpdate ? Jun 23, 2016 at 15:36
  • My bad, forgot to add implicits for other datatypes. The error mislead me. Jun 23, 2016 at 18:57
2

You can use Poly and map to solve this problem in a very general way. I think the solution is quite elegant.

import shapeless._
import shapeless.ops.hlist._
import syntax.std.tuple._

trait LowPriority extends Poly1 {
  implicit def default[T, U] = at[(T, U)]{ case (t, u) => t }
}

object ChooseNonEmpty extends LowPriority {
  type OverNone[A] = (None.type, A)
  type OverNil[A] = (Nil.type, A)
  implicit def caseNone[T] = at[OverNone[T]] { case (t, u) => u }
  implicit def caseList[T] = at[OverNil[T]] { case (t, u) => u }
}

object test {
  def merge[C, HF <: Poly, Repr <: HList, ZRepr <: HList, MRepr <: HList](f:HF)(base:C, update:C)
  (implicit
       gen:Generic.Aux[C, Repr],
       zipper:Zip.Aux[Repr :: Repr :: HNil, ZRepr],
       mapper:Mapper.Aux[f.type, ZRepr, MRepr]): C = {

    val basep = gen.to(base)
    val updatep = gen.to(update)

    val zipped = basep zip updatep

    gen.from( (zipped map f).asInstanceOf[Repr])
  }
}

Edit: figured out how to match None and Nil object types embedded in Tuples with a Poly. Added it and simplified the code.

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