This could be done with *lenses*. The very idea of a lens is to be able to zoom in on a particular part of an immutable structure, and be able to 1) retrieve the smaller part from a larger structure, or 2) create a new larger structure with a modified smaller part. In this case, what you desire is #2.

Firstly, a simple implementation of `Lens`

, stolen from this answer, stolen from scalaz:

```
case class Lens[A,B](get: A => B, set: (A,B) => A) extends Function1[A,B] with Immutable {
def apply(whole: A): B = get(whole)
def updated(whole: A, part: B): A = set(whole, part) // like on immutable maps
def mod(a: A)(f: B => B) = set(a, f(this(a)))
def compose[C](that: Lens[C,A]) = Lens[C,B](
c => this(that(c)),
(c, b) => that.mod(c)(set(_, b))
)
def andThen[C](that: Lens[B,C]) = that compose this
}
```

Next, a smart constructor to create a lens from "larger structure" `Map[A,B]`

to "smaller part" `Option[B]`

. We indicate which "smaller part" we want to look at by providing a particular key. (Inspired by what I remember from Edward Kmett's presentation on Lenses in Scala):

```
def containsKey[A,B](k: A) = Lens[Map[A,B], Option[B]](
get = (m:Map[A,B]) => m.get(k),
set = (m:Map[A,B], opt: Option[B]) => opt match {
case None => m - k
case Some(v) => m + (k -> v)
}
)
```

Now your code can be written:

```
val m2 = containsKey("Mark").mod(m)(_.map(_ - 50))
```

n.b. I actually changed `mod`

from the answer I stole it from so that it takes its inputs curried. This helps to avoid extra type annotations. Also notice `_.map`

, because remember, our lens is from `Map[A,B]`

to `Option[B]`

. This means the map will be unchanged if it does not contain the key `"Mark"`

. Otherwise, this solution ends up being very similar to the `adjust`

solution presented by Travis.