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# c# compare 2 List<string>'s line by line

I have 2 List arrays. 1 is called "friends" the other is "followers". Both arrays contains lots of id numbers. I want to compare the 2 lists line by line and create a new list which holds the items which dont occur on both lists.

Here is the code I have:

``````List<string> notfollowingmelist = new List<string>();

foreach (string friend in friends)
{
bool isfriend = false;
foreach (string follower in followers)
{
if (friend == follower)
{
isfriend = true;
}
if (isfriend)
{
isfriend = false;

}
else
{

}
}

}

MessageBox.Show(notfollowingmelist.Count.ToString());
``````

Am I going about this the correct way or is there a better route to the soltuion?

-

``````IEnumerable<string> notFollowers = friends.Where(x => !followers.Contains(x));
``````

BTW: your code is not correct.

-
thanks for this great solution. – brux Mar 26 '11 at 0:16
Careful, this solution may very well be O(n^2). – aquinas Mar 26 '11 at 1:35
@aquinas: Aggree, can anyone confirm this? – Adi Mar 26 '11 at 10:08
It will certainly be `O(n^2)`: you are looping over followers once for each friend. See the set-operation approach in my answer for a more efficient version. – Jon Mar 26 '11 at 13:38

## LINQ solution

Numbers which appear on both lists:

``````friends.Intersect(followers);
``````

All numbers that appear in at least one of the lists:

``````friends.Union(followers);
``````

All numbers that appear in exactly one of the lists:

``````var intersectResult = friends.Intersect(followers);
var unionResult = friends.Union(followers);

var exactlyOnce = unionResult.Exclude(intersectResult);
``````

Is this what you want?

-
just testing this – brux Mar 26 '11 at 0:12

Linq is the correct approach, but here's another way to do it:

``````List<string> notFollowingMe = friends.Except(followers).ToList();
``````
-

I'd sort both lists using something like a quicksort, then step through the two lists together to determine which items are unique. Sorting should take O(nlogn) time and stepping through the lists should take O(n) time, for an overall time complexity of O(nlogn). Your current implementation takes O(n^2) time, which is slower.

Here's some pseudocode:

``````friends.qsort()
followers.qsort()
disjointList = new List()
int i=0
int j=0
while(i<friends.size() && j<followers.size()){
if(friends[i] == followers[j]){
i++
j++
}else if(friends[i] < followers[j]){
i++
}else{
disjointList.add(followers[j])  // note: omit this line if you only want a list of friends that are not followers
j++
}
}
``````
-
This is not a good solution. Code not only has to do its job but should be readable to other developers. Trying to figure out what this function does without any context would take exponentially longer than the accepted answer. There are cases where something like this may be required, however this is not one of those cases. – Scott Mar 26 '11 at 0:20
Highly inefficient solution. Not recommended! But this is a nice demo on how to artificially and uselessly complicate your life. – Adi Mar 26 '11 at 0:34
thanks for the code and comments guys i appreciate it – brux Mar 26 '11 at 0:36

(In VB.Net) The logic is the same, should work.

``````For Each s As String In friends
If Not (followers.Contains(s)) Then
End If
Next
For Each s As String In followers
If Not (friends.Contains(s)) Then