Well, it's implementation-specific, so in theory it could change - but basically the difference is just that using
HashSet.IntersectWith you're starting with a hash set, so you only need to iterate over one collection.
The "obvious" implementations would give O(M + N) and O(N) complexity for
IntersectWith respectively - assuming a decent hash code, of course. I would be immensely surprised to see any other implementation, and I certainly haven't seen any evidence that any version of .NET has shipped with anything other than that.
Arguably if both arguments to
Intersect were already
HashSet<T> you could optimize this to just iterate over the smaller set and check whether each element is in the larger one. However, this has another problem that the sets may not use the same comparer as each other or as the
See my Edulinq implementation and post for some more details, including a note around an inaccuracy in MSDN. MSDN claims (at the time of this writing) that:
When the object returned by this method is enumerated, Intersect enumerates first, collecting all distinct elements of that sequence. It then enumerates second, marking those elements that occur in both sequences. Finally, the marked elements are yielded in the order in which they were collected.
That's not actually true, either in terms of the ordering or the timing:
second which is enumerated initially (completely, when
MoveNext() is first called on the returned sequence)
- The results are yielded as it iterates over
first - they're streamed, rather than the "mark everything then yield the results" claimed by MSDN