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I'm trying to find a solution to this problem:

Given a IEnumerable< IEnumerable< int>> I need a method/algorithm that returns the input, but in case of several IEnmerable< int> with the same elements only one per coincidence/group is returned.


    IEnumerable<IEnumerable<int>> seqs = new[]
        new[]{2,3,4}, // #0 
        new[]{1,2,4}, // #1 - equals #3
        new[]{3,1,4}, // #2
        new[]{4,1,2}  // #3 - equals #1

"foreach seq in seqs" .. yields {#0,#1,#2} or {#0,#2,#3}

Sould I go with ..

.. some clever IEqualityComparer

.. some clever LINQ combination I havent figured out - groupby, sequenceequal ..?

.. some seq->HashSet stuff

.. what not. Anything will help

I'll be able to solve it by good'n'old programming but inspiration is always appreciated.

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3 Answers 3

up vote 6 down vote accepted

Here's a slightly simpler version of digEmAll's answer:

var result = seqs.Select(x => new HashSet<int>(x))

Given that you want to treat the elements as sets, you should have them that way to start with, IMO.

Of course this won't help if you want to maintain order within the sequences that are returned, you just don't mind which of the equal sets is returned... the above code will return an IEnumerable<HashSet<int>> which will no longer have any ordering within each sequence. (The order in which the sets are returned isn't guaranteed either, although it would be odd for them not to be return in first-seen-first-returned basis.)

It feels unlikely that this wouldn't be enough, but if you could give more details of what you really need to achieve, that would make it easier to help.

As noted in comments, this will also assume that there are no duplicates within each original source array... or at least, that they're irrelevant, so you're happy to treat { 1 } and { 1, 1, 1, 1 } as equal.

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+1 Nice, but you should warn the OP abut a) different frequencies of duplicates causing issues b) the fact that this trashes the ordering of the numbers within each array c) The fact this is not really returning members of the original source-sequence. –  Ani Jan 16 '11 at 22:16
@Ani: I had already mentioned about trashing the order of numbers within the array, but I've now made that more explicit. Will add a bit about duplicates within each array. –  Jon Skeet Jan 16 '11 at 22:17
Whoops, sorry.. –  Ani Jan 16 '11 at 22:18
@Ani: No worries - and it's a good catch about the duplicates within arrays :) –  Jon Skeet Jan 16 '11 at 22:19
Isn't this a good occasion to use your ArrayEqualityComparer<T>? or similar? :) –  Ani Jan 16 '11 at 22:21

Use the correct collection type for the job. What you really want is ISet<IEnumerable<int>> with an equality comparer that will ignore the ordering of the IEnumerables.

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You can get what you want by building your own IEqualityComparer<IEnumerable<int>> e.g.:

public class MyEqualityComparer : IEqualityComparer<IEnumerable<int>>
    public bool Equals(IEnumerable<int> x, IEnumerable<int> y)
        return x.OrderBy(el1 => el1).SequenceEqual(y.OrderBy(el2 => el2));

    public int GetHashCode(IEnumerable<int> elements)
        int hash = 0;
        foreach (var el in elements)
            hash = hash ^ el.GetHashCode();
        return hash;


var values = seqs.Distinct(new MyEqualityComparer()).ToList();


this solution is slightly different from the one given by Jon Skeet.
His answer considers sublists as sets, so basically two lists like [1,2] and [1,1,1,2,2] are equal.

This solution don't, i.e. :
[1,2,1,1] is equal to [2,1,1,1] but not to [2,2,1,1], hence basically the two lists have to contain the same elements and in the same number of occurrences.

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+1: Never heard of HashSet<T>.CreateSetComparer. But this isn't entirely correct though; I think the last bit should be .Select(g => g.First()).ToList(); –  Ani Jan 16 '11 at 22:14
The Where clause shouldn't be there I think. –  Ani Jan 16 '11 at 22:23
@Ani: Yes, you're right, actually I mis-read the OP question (I don't know why, but I thought he want to exclude the sublists occurring more than once... O_O). So Distinct is far preferable than groupby-select first... –  digEmAll Jan 16 '11 at 22:28
Given that my previous solution was partially wrong, and basically the same as Jon Skeet, I've changed approach ;) –  digEmAll Jan 16 '11 at 22:45
Thanks digEmAll. I got a brush up on my IEqualityComparer from this :) –  Moberg Jan 17 '11 at 19:47

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