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Existential types in Scala

Please find below a short example which puzzles me.

I must concede that I have some difficulties to manipulate existential types in Scala.

How should I solve the type mismatch line 56 ? proposer is OK type _\$1 while proposers is of type _\$1 <: Individual

Maxime.

``````class Individual(n: String) {
protected val name=n
var preferred: Individual = this
override def toString(): String=name
}

class Man(n: String) extends Individual(n) { }

class Woman(n: String) extends Individual(n) { }

class Marriage(m: Man, w: Woman){
private val man=m
private val woman=w
def this(w: Woman, m: Man) = this(m,w)
override def toString(): String = man+"--"+woman
}

class Matching(){
private var list: List[Marriage] = Nil
def add(m: Marriage): Unit = { list = m ::list }
override def toString(): String= {
var s: String = ""
for (elm<-list) s=s+elm+" "
return s
}
}

object Test{
protected var male = true

def main(args: Array[String]): Unit = {
val al      = new Man("Al")
val bob     = new Man("Bob")
val alice   = new Woman("Alice")
val barbara = new Woman("Barbara")

al.preferred      = alice
bob.preferred     = barbara
alice.preferred   = bob
barbara.preferred = al

val men   = Set(al, bob)
val women = Set(alice, barbara)

val m = new Matching()
//var proposers=women

var proposers: Set[_ <:Individual] = Set[Individual]()
if (male) proposers = men
else proposers = women

while (!proposers.isEmpty) {
for(proposer <- proposers) {
if (proposer.isInstanceOf[Man])
proposer.asInstanceOf[Man],
proposer.preferred.asInstanceOf[Woman]
))
else
proposer.asInstanceOf[Woman],
proposer.preferred.asInstanceOf[Man]
))
proposers-=proposer//There is an error here
}
}

println(m)
}
}
``````
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What is the question? Can you explicitly mention what you did not understand above. – Jatin Feb 3 '14 at 11:06
How to solve the type mismatch line 56 ? Any idea ? – user3265473 Feb 3 '14 at 11:45
Can you comment in your code where there is an error – Jatin Feb 3 '14 at 12:03
List which is covariant must be preferred to Set which is not. Therefore, I use var proposers: List[Individual] = List[Individual]() and proposers=proposers.filterNot(p=>p==proposer). It works. – user3265473 Feb 3 '14 at 12:22
"works" is a strong statement, all you did was resolve the compilation error. To truly work it must also be maintainable, which means you must progress beyond simply writing Java with inference. – Kevin Wright Feb 3 '14 at 13:07

This code is messy. It's poorly formatted, it mixes tabs and spaces, and it uses mutability even in the most trivial of places where a functional solution requires little thought.

This code also won't scale internationally to countries where same-sex marriage is a possibility.

Working from the top down...

I suspect you'll never want to directly instantiate an `Individual`, only ever a `Man` or a `Woman`. So a algebraic data type makes more sense, this is done with a `sealed trait` and `case class` subtypes.

I'll also drop the `preferred` property, as it can lead to circular references. Dealing with this in immutable data is beyond the level I'm willing to go in this answer.

``````sealed trait Individual {
def name: String
override def toString(): String=name
}

//as it's a case class, `name` becomes a val,
//which implements the abstract `def name` from the trait
case class Man(name: String) extends Individual

case class Woman(name: String) extends Individual
``````

`Marriage` can also be a case class, and let's drop the clumsy duplication of class parameters into vals - it's just pointless boilerplate. This is also a good time to move the auxiliary constructor to a factory method in the companion object:

``````case class Marriage(man: Man, woman: Woman) {
override def toString(): String = man + "--" + woman
}
object Marriage {
def apply(w: Woman, m: Man) = new Marriage(m,w)
}
``````

`Matching` is almost pointless, an entire class just to wrap a `List`? This kind of thing made sense in pre-Generics Java, but not any more. I'll keep it anyway (for now) so I can fix up that `toString` implementation, which is painfully mutable and uses `return` for no good reason:

``````case class Matching(){
private var list: List[Marriage] = Nil
def add(m: Marriage): Unit = { list ::= m }
override def toString() = list.mkString(" ")
}
``````

Finally, the "meat" of the problem. Comments are inline, but you'll note that I don't need (or use) `Matching`. It's replaced in its entirety by the final `println`

``````object Test{
//better name, and a val (because it never changes)
protected val menPropose = true

def main(args: Array[String]): Unit = {

// `new` not required for case classes
val al      = Man("Al")
val bob     = Man("Bob")
val alice   = Woman("Alice")
val barbara = Woman("Barbara")

// remember how preference was removed from `Individual`?
val mprefs = Map( al -> alice, bob -> barbara )
val fprefs = Map( alice -> bob, barbara -> al )

val men   = Set(al, bob)
val women = Set(alice, barbara)

// nicely immutable, and using the returned value from if/else
val proposers = if (menPropose) men else women

// no while loop, name shadowing, or mutability.
// just a simple for-comprehension
val marriages = for(proposer <- proposers) yield {
//pattern-matching beats `isInstanceOf`... every time
proposer match {
case m: Man => Marriage(m, mprefs(m))
case f: Woman => Marriage(f, fprefs(f))
}
}

println(marriages mkString " ")
}
}
``````

There's more that can be done here, way more. What of same-sex relationships? What if two or more people share the same preference? What if someone has no preference?

I could also encode the type of someone's preference into `Individual` instances. But that's getting a bit more advanced.

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