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Say I have the following array:

var arr = new[] { "A", "B", "C" };

How can I produce all the possible combinations that contain only two characters and no two the same (e.g. AB would be the same as BA). For example, using the above array it would produce:


Please note that this example has been simplified. The array and the length of the string required will be greater.

I'd really appreciate if someone could help.

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do you need AB, AC, BC, and ABC ? – Kiquenet Sep 18 at 9:35

9 Answers 9

Lets extend it, so maybe we can see the pattern:

string[] arr = new string[] { "A", "B", "C", "D", "E" };

//arr[0] + arr[1] = AB
//arr[0] + arr[2] = AC
//arr[0] + arr[3] = AD
//arr[0] + arr[4] = AE

//arr[1] + arr[2] = BC
//arr[1] + arr[3] = BD
//arr[1] + arr[4] = BE

//arr[2] + arr[3] = CD
//arr[2] + arr[4] = CE

//arr[3] + arr[4] = DE

I see two loops here.

  • The first (outer) loop goes from 0 to 3 (arr.Length - 1)
  • The second (inner) loop goes from the outer loops counter + 1 to 4 (arr.Length)

Now it should be easy to translate that to code!

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Since ordering does not matter, these are actually combinations and not permutations. In any case, there is some sample code here (you want the section entitled "Combinations (i.e., without Repetition)".

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What you're asking for are combinations, not permutations (the latter term implies that order matters). Anyway, it's a classic use for recursion. In pseudo-code:

def combs(thearray, arraylen, currentindex, comblen):
  # none if there aren't at least comblen items left,
  # or comblen has gone <= 0
  if comblen > arraylen - currentindex or comblen <= 0:
  # just 1 if there exactly comblen items left
  if comblen == arraylen - currentindex:
    yield thearray[currentindex:]
  # else, all combs with the current item...:
  for acomb in combs(thearray, arraylen, currentindex+1, comblen-1):
    yield thearray[currentindex] + acomb
  # all combs without it:
  for acomb in combs(thearray, arraylen, currentindex+1, comblen):
    yield acomb
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public string[] Permute(char[] characters)
    List<string> strings = new List<string>();
    for (int i = 0; i < characters.Length; i++)
        for (int j = i + 1; j < characters.Length; j++)
            strings.Add(new String(new char[] { characters[i], characters[j] }));

    return strings.ToArray();
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It's the sum of 1 to n-1 or n(n-1) / 2.

int num = n * ( n - 1 ) / 2;

Obviously you could generalize the n * ( n - 1 ) using a pair of factorials for whatever you are trying to do (string size wise).

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Didn't tested and not the fastest, but:

IEnumerable<String> Combine(String text, IEnumerable<String> strings)
    return strings.Select(s => text + s).Concat(Combine(strins.Take(1).First(), strings.Skip(1))


foreach (var s in Combine("" , arrayOfStrings))
     // print s
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What you are looking for is an double Loop along the lines of the following pseudo code.

for(int i = FirstElement; i<= LastElement; increment i) {
    for(j = i; j<= lastElement; increment j) {
        if(i != j) {
            print (i, j)
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That's an oversimplification of combinatorics. How would your code work when the number of combinations becomes larger, say, 10-letter combinations from a 26-letter array (26 choose 10, no repeats)? – Robert Cartaino Aug 13 '09 at 16:01

Wrote an answer for a question that turned out to be marked as duplicate, pointing here.

var arr = new[] { "A", "B", "C" };

var arr2 = arr1.SelectMany(
    x => arr1.Select(
        y => x + y));

Produced the correct output when enumerated into console in VS2013. SelectMany will flatten the internal IEnumerable generated from the inner Select.

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