# Getting all the combinations in an array

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:

``````AB
AC
BC
``````

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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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[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 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
``````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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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:
return
# just 1 if there exactly comblen items left
if comblen == arraylen - currentindex:
yield thearray[currentindex:]
return
# else, all combs with the current item...:
for acomb in combs(thearray, arraylen, currentindex+1, comblen-1):
yield thearray[currentindex] + acomb
# ...plus all combs without it:
for acomb in combs(thearray, arraylen, currentindex+1, comblen):
yield acomb
``````
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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))
}
``````

Call:

``````foreach (var s in Combine("" , arrayOfStrings))
{
// print s
}
``````
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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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