1) No, Scala collections are implemented separately from Java collections. However, there is a way to wrap Java collections to Scala collection interfaces, so that you can use Scala for-comprehensions and other methods on them.
The old way to convert from the Scala to Java API and vice versa is described here.
Nowadays, you can do it by importing JavaConversions
as described in the link, and then calling asJava
or asScala
on the collection, depending which direction you need.
2) ArrayList
is equivalent to the ArrayBuffer
in terms of the complexity of Scala apply
(Java get
), update
(Java set
) and +=
(Java add
).
3) ArrayBuffer
extends ResizeableArray
utility class used by several other collections. As far as I remember, the private array field in that class is called array0
, but the logic of manipulating it is the same as with elementData
.
ArrayBuffer
s guarantee amortized O(1)
+=
method, meaning that only occasionally an update will cost you O(n)
when the underlying array needs to be resized to a bigger one.
Prepending elements is an O(n)
operation, as well as inserting them in the middle.
In the ArrayBuffer
operation the underlying array is never shrinked, i.e. once an array buffer grows to a certain size, and then all the elements are removed, it will still occupy the same amount of memory. This is true even if you call clear
on it.
4) Growable collections are all collections that implement the trait Growable
. This trait defines the method +=
that adds an element to them. The exact semantics of this method depend on whether the collection is a set (in which case an element is added to the set), a sequence or a linked set/map (in which case there is order between the elements, so the element is just added to the end), or something else.
How growable collections are implemented depends from one collection to another. This is a good overview for Scala collections.