It indeed returns an array, as intended and as is convenient, there is no reason you would need an ArrayOps, it is intended only to provide extra methods to arrays. The doc is wrong.
The routine is actually not implemented in ArrayOps. As most collection methods, it is inherited from TraversableLike. And you see two map methods in the doc:
def map [B] (f: (T) ⇒ B): ArrayOps[B]
def map [B, That] (f: (T) ⇒ B)(implicit bf: CanBuildFrom[Array[T], B, That]): That
Only the second one exists (inherited from TraversableLike). It is intended to allow implementation of map in just one place (traversable like) while allways giving the best possible behavior. For instance, a String is a of Seq[Char], if you map with a function from character to character, you get a String, but if you map from collection to say Int, the result cannot be a String and it will just be a Seq. This is explained in much detail in the paper fighting the bit rot with types.
However, this makes for a very complex signature, which does not reflect the simplicity of using the method, and makes very poor documentation most of the time (you normally would have to chase to which CanBuildFrom in implicit scope would work). This was discussed in this most famous scala question of stack overflow. So the tool scaladoc was extended so that a simpler entry, corresponding to intended usage, may appear. If you look at the source of
GenTraversableLike, where the routine is introduced, you will see the following in the scaladoc for map (and a similar one in many methods)
@usecase def map[B](f: A => B): $Coll[B]
Subtypes add in their doc
@define Coll <className>, and map (among others) appears with the simplified signature, marked [Use case]. In the source of
ArrayOps, there is a
@define Coll ArrayOps where it should be