Just naively using
Seq.length may be not good enough as will blow up on infinite sequences.
Getting more fancy with using something like
ss |> Seq.truncate n |> Seq.length will work, but behind the scene would involve double traversing of the argument sequence chunk by IEnumerator's
The best approach I was able to come up with so far is:
let hasAtLeast n (ss: seq<_>) = let mutable result = true use e = ss.GetEnumerator() for _ in 1 .. n do result <- e.MoveNext() result
This involves only single sequence traverse (more accurately, performing
n times) and correctly handles boundary cases of empty and infinite sequences. I can further throw in few small improvements like explicit processing of specific cases for lists, arrays, and
ICollections, or some cutting on traverse length, but wonder if any more effective approach to the problem exists that I may be missing?
Thank you for your help.
EDIT: Having on hand 5 overall implementation variants of
hasAtLeast function (2 my own, 2 suggested by Daniel and one suggested by Ankur) I've arranged a marathon between these. Results that are tie for all implementations prove that Guvante is right: a simplest composition of existing algorithms would be the best, there is no point here in overengineering.
Further throwing in the readability factor I'd use either my own pure F#-based
let hasAtLeast n (ss: seq<_>) = Seq.length (Seq.truncate n ss) >= n
or suggested by Ankur the fully equivalent Linq-based one that capitalizes on .NET integration
let hasAtLeast n (ss: seq<_>) = ss.Take(n).Count() >= n