Let's say I have a type called LongArrayWritable, that is a boxed representation of an Array of Longs. I have implicit definitions that convert between these types:
implicit def boxLongArray(array: Array[Long]) : LongArrayWritable { /*elided*/}
implicit def unboxLongArray(array: LongArrayWritable) : Array[Long] { /*elided*/}
Now, I also have implicits that convert between java.lang.Iterable and scala.collection.List[X] in their generic form:
implicit def iterator2list[X](it : java.lang.Iterable[X]) : List[X] { /* elided */ }
implicit def list2iterator[X](list : List[X]) : java.lang.Iterable[X] { /* elided */ }
With these definitions, can the scala compiler infer an implicit conversion between java.lang.Iterable[LongArrayWritable] and List[Array[Long]] (the equivalent of iterator2list(iterator).map(unboxLongArray(_))
), or is this beyond the capabilities of implicits, and therefore requires it's own (explicit?) implicit definition?
Thanks,
Tim
List[Int]
is a type;List
is a type constructor of one argument; it is not a type itself.List[Int]
is said to have kind*
, whileList
has kind* -> *
meaning that it requires another type to give a type. Now, imagine a traitFoo[M[_]]
- here, you can parameterize Foo with any type constructor of one argument (kind* -> *
), so for example you could create aFoo[List]
orFoo[Option]
, but not aFoo[List[Int]]
sinceList[Int]
has the wrong kind. Hope that helps!