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I have two instantiated case classes of the same type.

case class Foo(x : Option[String], y : Option[String], z : Option[String])

Lets call the instantiated classes A and B.

val a = Foo(x=Some("foo"), y=Some("bar"), z=Some("baz"))
val b = Foo(x=None, y=Some("etch"), z=None)

I'm wondering if its possible to update case class A with B in a single operation in a generic way.

val c = b *oper* a // produces Foo(x=Some("foo"), y=Some("etch"), z=Some("baz")) 

with parameters that are set as None ignored. Ideally the operation should also be generic so it can act on any type of case class.

I have some intuition that it might be possible to do this with Scalaz by converting the class into a tuple/list first and converting back to a class after the operation is complete - perhaps using the ApplicativeBuilder? Am I thinking about this in the right way? Any ideas?

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Your example doesn't compile. –  Landei Jul 11 '12 at 20:23
1  
I'm sorry? What exactly doesn't compile? The code snippet? :) –  Rasputin Jones Jul 11 '12 at 20:58
    
possible duplicate of Updating a scala case class –  Jörg W Mittag Jul 12 '12 at 0:19
    
@Rasputin Jones: You're not only using a and b both as variable names and named arguments, but also pass a String where a Option[String] is expected. This will confuse especially beginners. –  Landei Jul 12 '12 at 6:47
    
changed.......... –  Rasputin Jones Jul 12 '12 at 9:20

2 Answers 2

up vote 22 down vote accepted

Fairly straightforward Scalaz solution (not very general)

You can use a semigroup instance to wrap up a lot of the details:

import scalaz._, Scalaz._

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

implicit object fooSemigroup extends Semigroup[Foo] {
  def fromFoo(f: Foo) = (f.a.fst, f.b.fst, f.c.fst)
  def toFoo(t: (FirstOption[String], FirstOption[String], FirstOption[String])) =
    Foo(t._1.value, t._2.value, t._3.value)
  def append(x: Foo, y: => Foo) = toFoo(fromFoo(x) |+| fromFoo(y))
}

Which gives us:

scala> val a = Foo(Some("foo"), Some("bar"), Some("baz"))
a: Foo = Foo(Some(foo),Some(bar),Some(baz))

scala> val b = Foo(None, Some("etch"), None)
b: Foo = Foo(None,Some(etch),None)

scala> b |+| a
res11: Foo = Foo(Some(foo),Some(etch),Some(baz))

Which I think is what you want, although it's not very general.


Scalaz + Shapeless solution

If you want something that works for all case classes (given the appropriate type class instances for members), you can use the following combination of Shapeless and Scalaz. Note that I'm drawing on missingfactor's answer and this example by Miles Sabin. First for some monoid instances:

import scalaz._, Scalaz._
import shapeless._, HList._

implicit object hnilMonoid extends Monoid[HNil] {
  val zero = HNil
  def append(a: HNil, b: => HNil) = HNil
}

implicit def hlistMonoid[H, T <: HList](
  implicit mh: Monoid[H],
  mt: Monoid[T]
): Monoid[H :: T] = new Monoid[H :: T] {
  val zero = mh.zero :: mt.zero
  def append(a: H :: T, b: => H :: T) =
    (a.head |+| b.head) :: (a.tail |+| b.tail)
}

implicit def caseClassMonoid[C, L <: HList](
  implicit iso: Iso[C, L],
  ml: Monoid[L]
) = new Monoid[C] {
  val zero = iso.from(ml.zero)
  def append(a: C, b: => C) = iso.from(iso.to(a) |+| iso.to(b))
}

Next for the sake of simplicitly I'm just going to put the "First" monoid instance for Option in scope, instead of using the FirstOption wrapper as I did above.

implicit def optionFirstMonoid[A] = new Monoid[Option[A]] {
  val zero = None
  def append(a: Option[A], b: => Option[A]) = a orElse b
}

Now for our case class:

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

And the Iso instance to convert it to an HList and back:

implicit def fooIso = Iso.hlist(Foo.apply _, Foo.unapply _)

And we're done:

scala> val a = Foo(Some("foo"), Some("bar"), Some("baz"))
a: Foo = Foo(Some(foo),Some(bar),Some(baz))

scala> val b = Foo(None, Some("etch"), None)
b: Foo = Foo(None,Some(etch),None)

scala> b |+| a
res0: Foo = Foo(Some(foo),Some(etch),Some(baz))

You could use semigroups instead of monoids here as well and save a few lines, but I was trying to get away with as much copying and pasting from the shapeless/examples code as possible, so I'll leave that as an exercise.


Performance

To address your comment about performance, here's a completely unscientific benchmark of the latter solution versus a standard library solution using orElse (Scala 2.9.2, IcedTea7 2.2.1):

def add(x: Foo, y: Foo) = Foo(x.a orElse y.a, x.b orElse y.b, x.c orElse y.c)

def ros = if (util.Random.nextBoolean)
  Some(util.Random.nextString(util.Random.nextInt(10))) else None

val foos = Seq.fill(500000)(Foo(ros, ros, ros))

def time(block: => Unit) = {
  val start = System.currentTimeMillis
  (block, System.currentTimeMillis - start)
}

And then after running each a couple of dozen times:

scala> Iterator.fill(10)(time(foos.reduce(add(_, _)))._2).sum / 10
res4: Long = 49

scala> Iterator.fill(10)(time(foos.reduce(_ |+| _))._2).sum / 10
res5: Long = 265

Somewhat surprisingly, the Shapeless-less Scalaz solution is a little slower:

scala> Iterator.fill(10)(time(foos.reduce(_.|+|(_)(fooSemigroup)))._2).sum / 10
res6: Long = 311

But as I said, this is an extremely off-the-cuff approach to benchmarking, and you should run your own (Caliper is a great library for this).

In any case, yes, you're paying for the abstraction, but not that much, and it's often likely to be worth it.

share|improve this answer
    
Thanks! My curiosity now turns to how performant this is.... –  Rasputin Jones Jul 12 '12 at 17:01
    
@RasputinJones: see my edit. –  Travis Brown Jul 12 '12 at 17:48
    
Fantastic answer. Thanks Travis! –  Rasputin Jones Jul 12 '12 at 18:00

As discusssed in this thread, this is how you can solve the problem with shapeless, in a completely type-safe manner.

scala> import shapeless._
import shapeless._

scala> import HList._
import HList._

scala> case class Foo(a: Option[Int], b: Option[Int])
defined class Foo

scala> val a = Foo(Some(3), None)
a: Foo = Foo(Some(3),None)

scala> val b = Foo(Some(22), Some(1))
b: Foo = Foo(Some(22),Some(1))

scala> implicit val fooIso = HListIso(Foo.apply _, Foo.unapply _)
fooIso: shapeless.HListIso[Foo,shapeless.::[Option[Int],shapeless.::[Option[Int],shapeless.HNil]]] = shapeless.HListIso@11c5b77

scala> type O2[+A] = (Option[A], Option[A])
defined type alias O2

scala> object mapper extends (O2 ~> Option) {
     |   def apply[A](x: O2[A]): Option[A] = x._1.orElse(x._2)
     | }
defined module mapper

scala> fooIso.fromHList(fooIso.toHList(a).zip(fooIso.toHList(b)).map(mapper))
res13: Foo = Foo(Some(3),Some(1))
share|improve this answer
    
I've added a Shapeless example inspired by your answer in my answer—I hope you don't mind. –  Travis Brown Jul 12 '12 at 15:27
    
Oh sure. Why would I mind? Spread the goodness. :-) –  missingfaktor Jul 12 '12 at 16:04
    
I voted you up too. Thanks for helping and sharing. –  Rasputin Jones Jul 12 '12 at 18:01

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