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Here is the pseudo case:

class parent{
   string name; //Some Property
   List<int> myValues;

//Initialize some parent classes

List<parent> parentList = new List<parent>();
parentList.add(parent123); //parent123.myValues == {1,2,3}
parentList.add(parent456); //parent456.myValues == {4,5,6}
parentList.add(parentMatch); //parentMatch.myValues == {1,2,3}

What I am aiming for is a query which retrieves a List of parent objects where their myValues Lists are equivalent. In this case it would return parent123 and parentMatch.

share|improve this question
@forcripesake: Could you clarify what 'where the myValues List contain the same integers' means? – Ani Sep 8 '10 at 19:07
Does this means you want to find all the parent whose myValues match each other? i.e. the List<int> are the same? – p.campbell Sep 8 '10 at 19:15
@forcripesake: Btw, if you want the query to work on List<parent> without needing to resort to reflection, you will have to expose those fields through public properties (or make the fields themselves public, but this is a bad idea). – Ani Sep 8 '10 at 19:18
sorry for the poorly worded question, edited for clarity. – ForCripeSake Sep 8 '10 at 19:23
@Ani, the ellipses inside the class was to denote appropriate Accessors and methods. Again, sorry, reworded for clarity. – ForCripeSake Sep 8 '10 at 19:24

3 Answers 3

up vote 3 down vote accepted

So you can wrap the logic up and just use GroupBy if you implement an IEqualityComparer:

class IntegerListComparer : IEqualityComparer<List<int>>
    #region IEqualityComparer<List<int>> Members

    public bool Equals(List<int> x, List<int> y)
        //bool xContainsY = y.All(i => x.Contains(i));
        //bool yContainsX = x.All(i => y.Contains(i));
        //return xContainsY && yContainsX;
        return x.SequenceEqual(y);

    public int GetHashCode(List<int> obj)
        return 0;


Call it like so:

var results = list
    .GroupBy(p => p.MyValues, new IntegerListComparer())
    .Where(g => g.Count() > 1)
    .SelectMany(g => g);
share|improve this answer
+1 I was just writing it in my answer... this is probably the best/right solution. ;) – digEmAll Sep 8 '10 at 20:22
I'm going to try this, how do I return a List<parent> as opposed to the anon type? – ForCripeSake Sep 8 '10 at 20:28
@Zachary: Maybe, you could slightly gain speed by returning obj.Count in GetHashCode, or for example returning first 2-3 elements sum. And, you miss where clause to filter single-occurring parents. – digEmAll Sep 8 '10 at 20:29
@forcripesake: first you should add .Where(x => x.Count() > 1) to filter parents with unique list, then .SelectMany(x => x).ToList() to get a list of all parents with list repeated. – digEmAll Sep 8 '10 at 20:48
{3,2,1} == {1,2,3} == {3,3,3,2,2,1} ? – Nappy Sep 8 '10 at 20:55

Very silly solution:

var groups = list.GroupBy(p => string.Join(",", p.list.Select(i => i.ToString()).ToArray()))
                    .Where(x => x.Count() > 1).ToList();


an IEnumerable of groups containing parent objects having list with same int (in the same order).

If you need to match list of elements in any order (i.e. 1,2,3 == 3,1,2), just change p.list to p.list.OrderBy(x => x).

Plus, if you're targeting framework 4.0, you can avoid ToArray and ToString


added a where to filter single-occurrence groups.

Now if you have these parents:

parent  A  1,2,3
parent  B  1,2,3
parent  C  1,2,3
parent  D  4,5,6
parent  E  4,5,6
parent  F  7,8,9

it returns:

(A,B,C) - (D,E)
share|improve this answer
I like the simplicity – Zachary Yates Sep 8 '10 at 19:33
This returns the flattened array of ints, some work still then to find the first object whose list matches this flattened value. Also returns those with just 1 entry, not multiples. – p.campbell Sep 8 '10 at 19:37
It works fine, I've tested it. It returns groups of parents with same elements. – digEmAll Sep 8 '10 at 19:49
+1 @digEmAll: I haven't the time to change my solution to meet the OP's requirements; it will need more work to make it efficient. This solution is simple; and despite relying on string comparisons, it works and that's what's important. – Ani Sep 8 '10 at 20:18
@Ani: Yes, I was just modifying my solution to use IEqualityComparer to avoid string conversion/comparison, but Zachary anticipated me :D – digEmAll Sep 8 '10 at 20:24

Try this:

var matches = (from p1 in parentList
               from p2 in parentList
               let c1 = p1.myValues
               let c2 = p2.myValues
               where p1 != p2 &&
                     c1.All(child => c2.Contains(child)) &&
                     c2.All(child => c1.Contains(child))
               select p1).Distinct();
share|improve this answer
Forgot to mention... this ignores duplicity and order. – Joshua Rodgers Sep 8 '10 at 20:07

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