I have two List's of words. I want to count the words larger than 3 characters that exists in both lists. Using C# how would you solve it ?


I would use

var count = Enumerable.Intersect(listA, listB).Count(word => word.Length > 3);

assuming listA and listB are of type IEnumerable<String>.

  • 4
    Would it be quicker to filter the lists before intersecting? – cjk Aug 25 '09 at 12:07
  • Oh, You was faster than me but your answer is better than my thoughts. PS: You forgot the ';' :P – Jesus Rodriguez Aug 25 '09 at 12:09
  • 1
    This probably heavily depends on the implementation of Intersect() and the ratio of words matching the condition. – Daniel Brückner Aug 25 '09 at 12:11
  • 3
    @Noldorin - why would you change int to var? – Kobi Aug 25 '09 at 12:11

Assuming list 1 length is N and list 2 length is M:

I would first filter since this is a cheap operation O(N+M) then do the intersection, A relatively expensive operation based on the current implementation. The cost of the Intersect call is complicated and is fundamentally driven by the behaviours of the hash function:

  • If the hash function is poor then the performance can degrade to O(N*M) (as every string in one list is checked against every stream in the other.
  • If the performance is good then cost is simlpy a lookup in a hash, as such this is O(1), thus a cost of M checks in the hash and cost of M to construct the hash so also O(N+M) in time but with an additional cost of O(N) in space.
    • The construction of the backing set will be the killer in performance terms.
    • If you knew that both lists were, say, sorted already then you could write your own Intersects check with constant space overhead and O(N+M) worst case running time not to mention excellent memory locality.

This leaves you with:

int count = Enumerable.Intersect(
    list1.Where(word => word.Length > 3),
    list2.Where(word => word.Length > 3)).Count();

Incidentally the Enumerable.Intersect method's performance behaviour may change considerably depending on the order of the arguments.

In most cases making the smaller of the two the first argument will produce faster, more memory efficient code and the first argument is used to construct a backing temporary (hash based) Set. This of course is coding to a (hidden) implementation detail so should be considered only if this is shown to be an issue after performance analysis and highlighted as a micro optimization if so.

The second filter on list2 is fundamentally unecessary for correctness (since the Intersects will remove such entries anyway)

If it quite possible that the following is faster

int count = Enumerable.Intersect(
    list1.Where(word => word.Length > 3),

However filtering by length is very cheap for long strings compared to calculating their hash codes. The better one will only be found through benchmarking with inputs appropriate to your usage.

  • 1
    Given the current hash-based implementation, Intersect() should perform almost O(m + n) – Daniel Brückner Aug 25 '09 at 12:18
  • 1
    It may be slightly faster again to remove the second where clause. Since anything in list2 that intersects with the filtered list1 must have more the three characters. – Martin Harris Aug 25 '09 at 12:19
  • that starts to get iffy with the cost of generating all the hashes and the initial hash set. Also how good the hash is at avoiding collisions. That said with the default string one it is likely better than the worst case scenario so I'll update accordingly. – ShuggyCoUk Aug 25 '09 at 12:22
  • based on my use of other peoples helpful feed back I'ved made this community wiki – ShuggyCoUk Aug 25 '09 at 12:31
List<string> t = new List<string>();
List<string> b = new List<string>();    
Console.WriteLine(t.Count(x => x.Length > 3 && b.Contains(x)));

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