# mapValues on innermost map of nested maps

This inspiration for this question came when I tried to answer this one.

Say you have a sequence of data (may be from a CSV file for instance). `groupBy` can be used to analyze certain aspect of the data, grouping by column or a combination of columns. For instance:

``````val groups0: Map[String, Array[String]] =
seq.groupBy(row => row(0) + "-" + row(4))
``````

If I then want to create sub-groups within the groups I can do

``````val groups1: Map[String, Map[String, Array[String]]] =
groups0.mapValues(row => row.groupBy(_(1))
``````

If I want to do this more one time it gets really cumbersome:

``````val groups2 =
groups1.mapValues(groups => groups.mapValues(row => row.groupBy(_(2)))
``````

So here is my question given an arbitrary nesting of `Map[K0, Map[K1, ..., Map[Kn, V]]]`, how do you write a `mapValues` function that takes a `f: (V) => B` and applies to the innermost `V` to return a `Map[K0, Map[K1, ..., Map[Kn, B]]]`?

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My first instinct said that handling arbitrary nesting in a type-safe way would be impossible, but it seems that it IS possible if you define a few implicits that tell the compiler how to do it.
Essentially, the "simple" mapper tells it how to handle the plain non-nested case, while "wrappedMapper" tells it how to drill down through one Map layer:

``````  // trait to tell us how to map inside of a container.
trait CanMapInner[WrappedV, WrappedB,V,B] {
def mapInner(in: WrappedV, f: V => B): WrappedB
}

// simple base case (no nesting involved).
implicit def getSimpleMapper[V,B] = new CanMapInner[V,B,V,B] {
def mapInner(in: V, f: (V) => B): B = f(in)
}

// drill down one level of "Map".
implicit def wrappedMapper[K,V,B,InnerV,InnerB]
(implicit innerMapper: CanMapInner[InnerV,InnerB,V,B]) =
new CanMapInner[Map[K,InnerV], Map[K,InnerB],V,B] {
def mapInner(in: Map[K, InnerV], f: (V) => B): Map[K, InnerB] =
in.mapValues(innerMapper.mapInner(_, f))
}

// the actual implementation.
def deepMapValues[K,V,B,WrappedV,WrappedB](map: Map[K,WrappedV], f: V => B)
(implicit mapper: CanMapInner[WrappedV,WrappedB,V,B]) = {
map.mapValues(inner => mapper.mapInner(inner, f))
}

// testing with a simple map
{
val initMap = Map(1 -> "Hello", 2 -> "Goodbye")
val newMap = deepMapValues(initMap, (s: String) => s.length)
println(newMap) // Map(1 -> 5, 2 -> 7)
}

// testing with a nested map
{
val initMap = Map(1 -> Map("Hi" -> "Hello"), 2 -> Map("Bye" -> "Goodbye"))
val newMap = deepMapValues(initMap, (s: String) => s.length)
println(newMap) // Map(1 -> Map(Hi -> 5), 2 -> Map(Bye -> 7))
}
``````

Of course, in real code the pattern-matching dynamic solution is awfully tempting thanks to its simplicity. Type-safety isn't everything :)

-
Your last sentence is so very true. I started playing around with your solution and Eugene's. Got quick results with Eugene's. In the process I did run across a runtime cast exception (my error but wished the compiler had caught it). So I thought I'd try your type safe one. Unfortunately, I'm running into no-implicit found errors. I'll post a gist once I get back to my computer if I can't figure it out. –  huynhjl May 1 '11 at 11:06
Ok, it appears I was trying to bring the implicit in scope but failing. This is how I used your code gist.github.com/950580. I had to defined the implicits in the scope where I used to method. I initially tried to put them in a CanMapInner companion object and import but that didn't work. –  huynhjl May 1 '11 at 15:31

I'm sure there is a better way using `Manifest`, but pattern matching seems to distinguish `Seq` and `Map`, so here it is:

``````object Foo {
def mapValues[A <: Map[_, _], C, D](map: A)(f: C => D): Map[_, _] = map.mapValues {
case seq: Seq[C] => seq.groupBy(f)
case innerMap: Map[_, _] => mapValues(innerMap)(f)
}
}

scala> val group0 = List("fooo", "bar", "foo") groupBy (_(0))
group0: scala.collection.immutable.Map[Char,List[java.lang.String]] = Map((f,List(fooo, foo)), (b,List(bar)))

scala> val group1 = Foo.mapValues(group0)((x: String) => x(1))
group1: scala.collection.immutable.Map[_, Any] = Map((f,Map(o -> List(fooo, foo))), (b,Map(a -> List(bar))))

scala> val group2 = Foo.mapValues(group1)((x: String) => x(2))
group2: scala.collection.immutable.Map[_, Any] = Map((f,Map(o -> Map(o -> List(fooo, foo)))), (b,Map(a -> Map(r -> List(bar)))))
``````

Edit: Here's a typed version using higher-kinded type.

``````trait NestedMapValue[Z] {
type Next[X] <: NestedMapValue[Z]
def nextValues[D](f: Z => D): Next[D]
}

trait NestedMap[Z, A, B <: NestedMapValue[Z]] extends NestedMapValue[Z] { self =>
type Next[D] = NestedMap[Z, A, B#Next[D]]

val map: Map[A, B]
def nextValues[D](f: Z => D): Next[D] = self.mapValues(f)

def mapValues[D](f: Z => D): NestedMap[Z, A, B#Next[D]] = new NestedMap[Z, A, B#Next[D]] { val map = self.map.mapValues {
case x: B => x.nextValues[D](f)
}}

override def toString = "NestedMap(%s)" format (map.toString)
}

trait Bottom[A] extends NestedMapValue[A] {
type Next[D] = NestedMap[A, D, Bottom[A]]

val seq: Seq[A]
def nextValues[D](f: A => D): Next[D] = seq match {
case seq: Seq[A] => groupBy[D](f)
}

def groupBy[D](f: A => D): Next[D] = seq match {
case seq: Seq[A] =>
new NestedMap[A, D, Bottom[A]] { val map = seq.groupBy(f).map { case (key, value) => (key, new Bottom[A] { val seq = value })} }
}

override def toString = "Bottom(%s)" format (seq.toString)
}

object Bottom {
def apply[A](aSeq: Seq[A]) = new Bottom[A] { val seq = aSeq }
}

scala> val group0 = Bottom(List("fooo", "bar", "foo")).groupBy(x => x(0))
group0: NestedMap[java.lang.String,Char,Bottom[java.lang.String]] = NestedMap(Map(f -> Bottom(List(fooo, foo)), b -> Bottom(List(bar))))

scala> val group1 = group0.mapValues(x => x(1))
group1: NestedMap[java.lang.String,Char,Bottom[java.lang.String]#Next[Char]] = NestedMap(Map(f -> NestedMap(Map(o -> Bottom(List(fooo, foo)))), b -> NestedMap(Map(a -> Bottom(List(bar))))))

scala> val group2 = group1.mapValues(x => x.size)
group2: NestedMap[java.lang.String,Char,Bottom[java.lang.String]#Next[Char]#Next[Int]] = NestedMap(Map(f -> NestedMap(Map(o -> NestedMap(Map(4 -> Bottom(List(fooo)), 3 -> Bottom(List(foo)))))), b -> NestedMap(Map(a -> NestedMap(Map(3 -> Bottom(List(bar))))))))
``````
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