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What I am trying to do is to write a custom class extending Map[DateTime, T]. The extended class is to take a Map[DateTime, T] as a constructor argument and call corresponding methods of the supplied map for every method a Map is to implement.

I had no problem writing

def -(key: DateTime) = iv.-(key)
def get(key: DateTime) = iv.get(key)

but I've got stuck on

+[B1 :>B](kv: (A, B1)):Map[A, B1]

How am I meant to write it?

Isn't there a simple reference Map wrapper implementation to start from?

PS: Don't offer to declare it as type DtMap[T] = Map[DateTime, T] - I am going to have to add my own methods into the class.

UPDATE: So, the result looks like this, to consolidate it so that somebody would be able to use it as a starting point for his Map extension (may the solution have some hidden problems - please let me know):

case class DtValMap[T](iv: Map[DateTime, T]) extends Map[DateTime, T] {
  def -(key: DateTime) = new DtValMap(iv.-(key))
  def get(key: DateTime) = iv.get(key)
  def +[T1 >: T](kv: (DateTime, T1)): DtValMap[T1] = new DtValMap(iv + kv)
  def iterator: Iterator[(DateTime, T)] = iv.iterator

UPDATE2: I've noticed the typo which was causing the problem now: I had :> (wrong) instead of >:. But I intentionally don't correct it in the text above as it would make the question make no sense.

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2 Answers 2

up vote 0 down vote accepted

If I understand correctly, there is

class YourMap[T](iv: Map[DateTime, T]) extends Map[DateTime, T] 

Can't you just do

def +[T1 >: T](kv: (DateTime, T1)): YourMap[T1] = new YourMap(iv + kv)

I'm not too sure about your def -, If I understand correctly, it returns a Map, not a YourMap. If this is ok, why can't you do just the same for +?

In the line of type DtMap[T], have you considered adding the method with pimp my library, rather than with class extension? Collection classes are complex, and so is extending them.

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I just couldn't understand all the complexity. I can feel what the + argumentation is meant to mean but I don't exactly know what is :>. I was returning a Map because I didn't knew how to write it to return YourMap. What about "pimp my library" - I am not sure if such approach can be adequate for a library's main fundamental types. –  Ivan Feb 23 '12 at 11:28
By the way + still doesn't work this way: wrong number of type arguments, not found: type A, not found: type B. –  Ivan Feb 23 '12 at 11:33
sorry, was a bit too fast with it. fixed –  Didier Dupont Feb 23 '12 at 11:38
>: is not complex, it just needs you to look it up. –  gpampara Feb 23 '12 at 11:40
@Ivan have a look at symbolhound.com to search for the symbol. Otherwise you could check the scala references :) –  gpampara Feb 23 '12 at 13:13

Have you considered MapProxy? This has been deprecated on Scala 2.11, so this particular solution should be avoided.

Anyway, if you insist on extending Map and providing all of its API, what exactly is the problem with implementing +? Why doesn't this work?

def +[B1 >: T](kv: (DateTime, B1)):Map[DateTime, B1] = new YourMap(iv + kv)
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It works, I've just messed up something. A typo perhaps. –  Ivan Feb 23 '12 at 12:01
By the way, could you tell what does + in MapProxy[A, +B] mean? Following your recommendation, I am studying MapProxy right now - maybe it can happen to be a better solution for the case of mine. –  Ivan Feb 23 '12 at 12:14
@Ivan It means MapProxy is covariant in B. Or, in other words, that if C is a subtype of B, then MapProxy[A, C] is a subtype of MapProxy[A, B]. If you have experience with Java, it might help to know that all Java generics are invariant (ie, do not have this property), while Java's Array is covariant. Ironically, as it happens, because it is not type-sound for Array to be covariant. –  Daniel C. Sobral Feb 23 '12 at 12:26
Thanks. By the way, isn't it my initial typo in your answer? I mean shouldn't it be >: rather than :> there? –  Ivan Feb 23 '12 at 12:31
MapProxy has been deprecated since Scala 2.11.0 so you should probably now avoid using it if you can. –  Caoilte Aug 3 '14 at 20:30

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