Retrieving the value of this property is an O(1) operation.
This guarantees that accessing the
Count won't iterate over the whole collection.
Edit: as many other posters suggested,
IEnumerable<...>.Count() is however not guaranteed to be O(1). Use with care!
IEnumerable<...>.Count() is an extension method defined in
System.Linq.Enumerable. The current implementation makes an explicit test if the counted
IEnumerable<T> is indeed an instance of
ICollection<T>, and makes use of
ICollection<T>.Count if possible. Otherwise it traverses the
IEnumerable<T> (possible making lazy evaluation expand) and counts items one by one.
I've not however found in the documentation whether it's guaranteed that
IEnumerable<...>.Count() uses O(1) if possible, I only checked the implementation in .NET 3.5 with Reflector.
Necessary late addition: many popular containers are not derived from
Collection<T>, but nevertheless their
Count property is O(1) (that is, won't iterate over the whole collection). Examples are
HashSet<T>.Count (this one is most likely what the OP wanted to ask about),
Stack<T>.Count and so on.
All these collections implement
ICollection<T> or just
ICollection, so their
Count is an implementation of
ICollection.Count). It's not required for an implementation of
ICollection<T>.Count to be an O(1) operation, but the ones mentioned above are doing that way, according to the documentation.
(Note aside: some containers, for instance,
Queue<T>, implement non-generic
ICollection but not
ICollection<T>, so they "inherit" the
Count property only from from