Yes, of all the collection data structures, arrays come with the least amount of overhead when you know their size in advance.
If you don't know the size ahead of time, I would still pick an ArrayBuffer*. The algorithm used to expand the underlying array when it runs out of space is as efficient as it gets.
Do not* use a (linked) List or a Stream because these classes involve one heap allocation per element. Modern JVM garbage collectors are good, but they don't work for free.
*: But see @user unknown's comment on the question for links to some micro-benchmarks. The current
ArrayBuffer implementation might be suboptimal.
Also have a look at
.view. Often you don't need to actually store intermediate results. Instead you can use
.filter and others to build up a "description" of a collection. The operations (map, filter, etc.) will only be performed when you iterate over the collection, often in
O(1) space. The downside is, that these views will be re-computed every time they're queried. (though this might still be more efficient with simple filters and huge underlying collections)
Also, be extra careful with views on mutable data structures. Views don't capture the state of the underlying data structure. When it changes, so does the view. Views on immutable data structures, however, behave very nicely. Finally, views obviously contain a reference to the underlying data structure, meaning it won't be garbage collected while your program holds onto the view.
Vectors seem to strike a good balance between storage efficiency versus flexibility, especially for large sequences.