# How to modify a value of a Map which contains Sets, returning a new Map?

Given a `Map[Int, Set[Int]]`, how can I modify a single value of the Map, generating a new one in the process, for example:

``````val x = Map(1 -> Set(1,2,3))
x(1) + 5 // This creates a new Set, but not a new Map

val y = x(1) change { x => x + 5 }
// The previous functionality is what I'm looking for
// z: Set[Int]] = List(Set(1, 2, 3, 5))
``````
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## 6 Answers

In scala 2.10:

``````implicit class ChangeableMap[K,V]( val m: Map[K,V] ) extends AnyVal {
def change( k: K )( transform: V => V ): Map[K,V] = {
m.get( k ).map{ v => m + (k-> transform(v)) }.getOrElse( m )
}
}
``````

Some test:

``````scala>val x = Map(1 -> Set(1,2,3), 2 -> Set(4,5))
x: scala.collection.immutable.Map[Int,scala.collection.immutable.Set[Int]] = Map(1 -> Set(1, 2, 3), 2 -> Set(4, 5))
scala> x.change(1) { x => x + 5 }
res1: Map[Int,scala.collection.immutable.Set[Int]] = Map(1 -> Set(1, 2, 3, 5), 2 -> Set(4, 5))
``````

If you're in scala 2.9, this will do:

``````class ChangeableMap[K,V]( m: Map[K,V] ) {
def change( k: K )( transform: V => V ): Map[K,V] = {
m.get( k ).map{ v => m + (k-> transform(v)) }.getOrElse( m )
}
}
implicit def toChangeableMap[K,V]( m: Map[K,V] ) = new ChangeableMap[K,V]( m )
``````
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As Robin Green suggests, lenses are made for this job. In fact, you want a partial lens, since a map is a partial function of key -> value.

Scalaz 7 includes the `mapVPLens` function to make a partial lens (`PLens`) to the value at a chosen key:

``````import scalaz.PLens._
val x = Map(1 -> Set(1,2,3))

mapVPLens(1) mod ((_: Set[Int]) + 5, x) // Map(1 -> Set(1, 2, 3, 5))
``````

Modifying the value at a non-existent key will have no effect:

``````mapVPLens(9) mod ((_: Set[Int]) + 5, x) // Map(1 -> Set(1,2,3))
``````
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Use lenses!

However, Scalaz 6, which defines lenses, doesn't have a specific pre-made lens for your situation, which means slightly more work for you - though if your Map is in turn contained in another object, it does have (well-hidden) support for that situation. And Scalaz 7 will have a lens for standalone Maps.

Also, lenses are just pairs of functions, requiring no language support, so you could just roll your own.

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Here's one from our codebase.

``````/**
* Alters a value in a map.
*
* modifyMap :: Map k v -> k -> (Maybe v -> Maybe v) -> Map k v
* See Haskell's Data.Map.alter
*
* @param m   the map to modify
* @param key the key to modify the value of
* @param mod a function that takes the existing value (if any) and returns an optional new value
*
* @return the modified map
*/
def modifyMap[K,V](m: Map[K,V], key: K)
(mod: (Option[V] ⇒ Option[V])): Map[K,V] = {
mod(m.get(key)) match {
case Some(newVal) ⇒ m + (key → newVal)
case None ⇒ m - key
}
}
``````

And here's how you use it:

``````modifyMap(myMap, "someKey") {
case Some(someVal) =>
// present
if (condition)
Some(valueDerivedFrom(someVal)) // provide a new mapping for someKey
else
None // someKey will now be unset
case None =>
// wasn't present
if (condition)
Some(newValue) // provide a new value for someKey
else
None // leave someKey unset
}
``````
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A very idiomatic way of solving this problem would be the following (thanks Viktor Klang):

``````val x = Map(1 -> Set(1,2,3), 2 -> Set(1), 3 -> Set(5))
x.map { case (1, v) => (1, v + 5); case x => x }
// res0: Map(1 -> Set(1, 2, 3, 5))
``````

Or nicely packed into a class as well as an implicit:

``````class ChangeableMap[K,V](map:Map[K,V]) {
def change(index:K)(f:V => V) = map.map {
case (`index`, v:V) => (index, f(v))
case x => x
}
}

object ChangeableMap {
implicit def fromMap[K,V](map:Map[K,V]) = new ChangeableMap(map)
}
``````

With the previous declaration, the following will work:

``````x.change(1) { x => x + 5 }
x.change(1) { _ + 5 }
// res1:  Map(1 -> Set(1, 2, 3, 5))
``````

Note that this is probably not the fastest solution, given that Scala will (probably, haven't confirmed) iterate over the entire map!

A possibly faster implementation would be the following (though I have not verified if it is actually faster):

``````class ChangeableMap[K,V](map:Map[K,V]) {
def change(index:K)(f:V => V) = map.get(index) match {
case Some(x) => map + ((index, f(x)))
case None => map
}
}
``````
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Only the last version works as expected. The other implementations rely (wrongly) on the fact that a PartialFunction is a function (note that `map` expects a function, not a `PartialFunction`) without handling the default case. Net effect, you get a `MatchError` if your map has more than one element (or the only element is not the one you expected). By example, try it with `val x = Map(1 -> Set(1,2,3), 2 -> Set(4,5))`. –  Régis Jean-Gilles Jan 21 '13 at 21:29
Actually even the last version does not work as it does not handle he case when the map does not contain the key (in your the `index` parameter) at all. –  Régis Jean-Gilles Jan 21 '13 at 21:32
Thanks @RégisJean-Gilles, I definitely did not test thouroughly enough :) I will fix the answer ASAP :) –  x3ro Jan 21 '13 at 22:01
Updated my answer. It should also work in the cases @RégisJean-Gilles mentioned. Thanks for your feedback, and sorry for my initial sloppyness :) –  x3ro Jan 21 '13 at 23:17
I think what he means is that `map` expects a function which is defined for all possible input values (limited by its signature, of course), in other words, if I have a Map[Int], `map` would expect a function that is defined for the entire domain of `Int`. However, given that `PartialFunction` is a subtype of `Function`, you can also pass a `PartialFunction` to `map`, in which case you receive an error if the Map contains a value for which the `PartialFunction` is not defined. –  x3ro Jan 23 '13 at 7:19
show 2 more comments

I think the easiest way would be using `scala.collection.mutable.Map`.

``````import scala.collection.mutable.Map

val m = Map(1 -> Set(1,2,3))
m.update(1, m(1) + 5)
// now the Map looks like this: Map(1 -> Set(1,2,3,5))
``````

If you get an immutable Map, you can simply convert it to a mutable one by using:

``````val n: collection.mutale.Map(m.toSeq: _*)
``````

This also works the other way around, if you need to return an immutable Map.

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While this is certainly an easy solution, I fear that it might be even more inefficient than my "idiomatic" approach :D –  x3ro Jan 22 '13 at 10:16
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