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I've a List of this type List> that contains this

List<int> A = new List<int> {1, 2, 3, 4, 5};
List<int> B = new List<int> {0, 1};
List<int> C = new List<int> {6};
List<int> X = new List<int> {....,....};

I want to have all combinations like this


and so on.

According to you is This possibile to resolve using Linq?

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It's a cross product, trust Garry answer, it will do it. –  Augusto Radtke Feb 13 '09 at 12:31
Are the number of dimensions fixed at 3? Or (from the X) is this dynamic? –  Marc Gravell Feb 13 '09 at 12:34
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3 Answers

up vote 23 down vote accepted

It's quite similar to this answer I gave to another question:

var combinations = from a in A
                   from b in B
                   from c in C
                   orderby a, b, c
                   select new List<int> { a, b, c };

var x = combinations.ToList();

For a variable number of inputs, now with added generics:

var x = AllCombinationsOf(A, B, C);

public static List<List<T>> AllCombinationsOf<T>(params List<T>[] sets)
    // need array bounds checking etc for production
    var combinations = new List<List<T>>();

    // prime the data
    foreach (var value in sets[0])
        combinations.Add(new List<T> { value });

    foreach (var set in sets.Skip(1))
        combinations = AddExtraSet(combinations, set);

    return combinations;

private static List<List<T>> AddExtraSet<T>
     (List<List<T>> combinations, List<T> set)
    var newCombinations = from value in set
                          from combination in combinations
                          select new List<T>(combination) { value };

    return newCombinations.ToList();
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I don't think that works... I believe (from the X) that the OP means that the number of items in the list (and thus the number of dimensions) is dynamic –  Marc Gravell Feb 13 '09 at 12:33
Hmmm, it's still possible based on my other references answer, you could just take a paramarray of sets and build it up. I'll ask for clarification in a comment. –  Garry Shutler Feb 13 '09 at 12:34
I see you beat me to doing just that! –  Garry Shutler Feb 13 '09 at 12:35
Yes guys the number of items is dynamic! –  Giomuti Feb 13 '09 at 13:51
I see - you repeatedly cross 2 lists at a time in the loop - cute. –  Marc Gravell Feb 13 '09 at 13:56
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If the number of dimensions is fixed, this is simply SelectMany:

var qry = from a in A
          from b in B
          from c in C
          select new {A=a,B=b,C=c};

However, if the number of dimensions is controlled by the data, you need to use recursion:

static void Main() {
    List<List<int>> outerList = new List<List<int>>
    {   new List<int>(){1, 2, 3, 4, 5},
        new List<int>(){0, 1},
        new List<int>(){6,3},
        new List<int>(){1,3,5}
    int[] result = new int[outerList.Count];
    Recurse(result, 0, outerList);
static void Recurse<TList>(int[] selected, int index,
    IEnumerable<TList> remaining) where TList : IEnumerable<int> {
    IEnumerable<int> nextList = remaining.FirstOrDefault();
    if (nextList == null) {
        StringBuilder sb = new StringBuilder();
        foreach (int i in selected) {
        if (sb.Length > 0) sb.Length--;
    } else {
        foreach (int i in nextList) {
            selected[index] = i;
            Recurse(selected, index + 1, remaining.Skip(1));
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+1 Great solution. –  spoulson Feb 13 '09 at 13:20
I managed it in a different manner that may be more readable depending on your viewpoint. What do you think? –  Garry Shutler Feb 13 '09 at 13:32
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How about following way of generating combinations using .Join method?

static void Main()
    List<List<int>> collectionOfSeries = new List<List<int>>
                                {   new List<int>(){1, 2, 3, 4, 5},
                                    new List<int>(){0, 1},
                                    new List<int>(){6,3},
                                    new List<int>(){1,3,5}
    int[] result = new int[collectionOfSeries.Count];

    List<List<int>> combinations = GenerateCombinations(collectionOfSeries);


This Method GenerateCombinations(..) does main work of generating combinations. This method is generic so could be used for generating combinations of any type.

private static List<List<T>> GenerateCombinations<T>(
                                List<List<T>> collectionOfSeries)
    List<List<T>> generatedCombinations = 
                          .Select(i => (new T[]{i}).ToList())                          

    foreach (List<T> series in collectionOfSeries.Skip(1))
        generatedCombinations = 
                  .Join(series as List<T>,
                        combination => true,
                        i => true,
                        (combination, i) =>
                                List<T> nextLevelCombination = 
                                    new List<T>(combination);
                                return nextLevelCombination;


    return generatedCombinations;

Display helper..

private static void Display<T>(List<List<T>> generatedCombinations)
    int index = 0;
    foreach (var generatedCombination in generatedCombinations)
        Console.Write("{0}\t:", ++index);
        foreach (var i in generatedCombination)
            Console.Write("{0,3}", i);
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