I'm trying to implement a container for a match (like in sports) result so that I can create matches between the winners of other matches. This concept is close to what a future monads is as it contains a to be defined value, and also close to a state monad as it hides state change. Being mostly a begginer on the topic I have implemented an initial version in scala that is surely improvable. I added a get method that I'm not sure was a good idea, and so far the only way to create a value would be `Unknown(null)`

which is not as elegant as I'd hoped. What do you think I could do to improve this design?

```
case class Unknown[T](t : T) {
private var value : Option[T] = Option(t)
private var applicatives: List[T => Unit] = Nil
def set(t: T) {
if (known) {
value = Option(t)
applicatives.foreach(f => f(t))
applicatives = Nil
} else {
throw new IllegalStateException
}
}
def get : T = value.get
def apply(f: T => Unit) = value match {
case Some(x) => f(x);
case None => applicatives ::= f
}
def known = value == None
}
```

**UPDATE**: a usage example of the current implementation follows

```
case class Match(val home: Unknown[Team], val visit: Unknown[Team], val result: Unknown[(Int, Int)]) {
val winner: Unknown[Team] = Unknown(null)
val loser: Unknown[Team] = Unknown(null)
result.apply(result => {
if (result._1 > result._2) {
home.apply(t => winner.set(t))
visit.apply(t => loser.set(t))
} else {
home.apply(t => loser.set(t))
visit.apply(t => winner.set(t))
}
})
}
```

And a test snippet:

```
val definedUnplayedMatch = Match(Unknown(Team("A")), Unknown(Team("B")), Unknown(null));
val definedPlayedMatch = Match(Unknown(Team("D")), Unknown(Team("E")), Unknown((1,0)));
val undefinedUnplayedMatch = Match(Unknown(null), Unknown(null), Unknown(null));
definedUnplayedMatch.winner.apply(undefinedUnplayedMatch.home.set(_))
definedPlayedMatch.winner.apply(undefinedUnplayedMatch.visit.set(_))
undefinedUnplayedMatch.result.set((3,1))
definedUnplayedMatch.result.set((2,4))
undefinedUnplayedMatch.winner.get must be equalTo(Team("B"));
undefinedUnplayedMatch.loser.get must be equalTo(Team("D"));
```

**UPDATE - CURRENT IDEA :** I haven't had much time to work on this because my laptop broke down, but I though it would be useful to write the monad I have so far for those who are interested:

```
sealed abstract class Determine[+A] {
def map[B](f: A => B): Determine[B]
def flatMap[B](f: A => Determine[B]): Determine[B]
def filter(p: A => Boolean): Determine[A]
def foreach(b: A => Unit): Unit
}
final case class Known[+A](value: A) extends Determine[A] {
def map[B](f: A => B): Determine[B] = Known(f(value))
def flatMap[B](f: A => Determine[B]): Determine[B] = f(value)
def filter(p: A => Boolean): Determine[A] = if (p(value)) this else Unknown
def foreach(b: A => Unit): Unit = b(value)
}
final case class TBD[A](definer: () => A) extends Determine[A] {
private var value: A = _
def map[B](f: A => B): Determine[B] = {
def newDefiner(): B = {
f(cachedDefiner())
}
TBD[B](newDefiner)
}
def flatMap[B](f: A => Determine[B]): Determine[B] = {
f(cachedDefiner())
}
def filter(p: A => Boolean): Determine[A] = {
if (p(cachedDefiner()))
this
else
Unknown
}
def foreach(b: A => Unit): Unit = {
b(cachedDefiner())
}
private def cachedDefiner(): A = {
if (value == null)
value = definer()
value
}
}
case object Unknown extends Determine[Nothing] {
def map[B](f: Nothing => B): Determine[B] = this
def flatMap[B](f: Nothing => Determine[B]): Determine[B] = this
def filter(p: Nothing => Boolean): Determine[Nothing] = this
def foreach(b: Nothing => Unit): Unit = {}
}
```

I got rid of the set & get and now the TBD class receives instead a function that will define provide the value or null if still undefined. This idea works great for the map method, but the rest of the methods have subtle bugs.

usesuch a monad using`flatMap`

or`for`

comprehensions? Your implementation is currently lacking the`flatMap`

method which would define the semantic on your monad. – huynhjl Nov 13 '11 at 16:31`flatMap`

? – huynhjl Nov 13 '11 at 19:47