How can I create all possible combinations for a set of words without repetition?

I have 10 words. How can I get all possible combinations of 5 words `(n=10, k=5)`. The order does not matter.

For example: "A", "B", "C", with k=2 and n=3 should result in "AB", "BC" and "AC".

What you are trying to do is get all the permutations of a collection.

Here is the code snippet:

``````static void Main(string[] args)
{
var list = new List<string> { "a", "b", "c", "d", "e" };
var result = GetPermutations(list, 3);
foreach (var perm in result)
{
foreach (var c in perm)
{
Console.Write(c + " ");
}
Console.WriteLine();
}
}

static IEnumerable<IEnumerable<T>> GetPermutations<T>(IEnumerable<T> items, int count)
{
int i = 0;
foreach (var item in items)
{
if (count == 1)
yield return new T[] { item };
else
{
foreach (var result in GetPermutations(items.Skip(i + 1), count - 1))
yield return new T[] { item }.Concat(result);
}

++i;
}
}
``````

Outputs:

``````a b c
a b d
a b e
a c d
a c e
a d e
b c d
b c e
b d e
c d e
``````
• To be more mathematically correct. You call this combinations (order is not important) without repetition (an item may occur at most 1 time or less). mathsisfun.com/combinatorics/combinations-permutations.html Commented Apr 23, 2016 at 7:26
• Doesn't "at most 1 time" imply "or less"? Commented Jul 31, 2017 at 14:31

Here's what I put together:

``````static class LinqExtensions
{
public static IEnumerable<IEnumerable<T>> CombinationsWithoutRepetition<T>(
this IEnumerable<T> items,
int ofLength)
{
return (ofLength == 1) ?
items.Select(item => new[] { item }) :
items.SelectMany((item, i) => items.Skip(i + 1)
.CombinationsWithoutRepetition(ofLength - 1)
.Select(result => new T[] { item }.Concat(result)));
}

public static IEnumerable<IEnumerable<T>> CombinationsWithoutRepetition<T>(
this IEnumerable<T> items,
int ofLength,
int upToLength)
{
return Enumerable.Range(ofLength, Math.Max(0, upToLength - ofLength + 1))
.SelectMany(len => items.CombinationsWithoutRepetition(ofLength: len));
}

}
``````

...

``````foreach (var c in new[] {"a","b","c","d"}.CombinationsWithoutRepetition(ofLength: 2, upToLength: 4))
{
Console.WriteLine(string.Join(',', c));
}
``````

produces:

``````a,b
a,c
a,d
b,c
b,d
c,d
a,b,c
a,b,d
a,c,d
b,c,d
a,b,c,d
``````

Note that this is concise but inefficient and should not be used for large sets or inner loops. Notably, the short arrays are re-created multiple times and could be memoized, and the `IEnumerable` will be iterated multiple times, which can cause unexpected work if care is not taken.

Also, if the input contains duplicates then the output will as well. Either use `.Distinct().ToArray()` first, or use another solution which includes equality checking and, presumably, takes an `IEqualityComparer` for generality.

``````public IActionResult Index()
{
var list = new List<string> { "a", "b", "c", "d", "e" };
List<string> ret = GetAllCombinations(list).OrderBy(_ => _).ToList();

return View();
}

static IEnumerable<string> GetAllCombinations(IEnumerable<string> list)
{
return list.SelectMany((mainItem, mi) => list.Where((otherItem, oi) => mi < oi)
.Select(otherItem => mainItem + otherItem));
}
``````

Ouput ret:

``````ab
ac
ae
bc
bd
be
cd
ce
de
``````
• Welcome to Stack Overflow. While this code may answer the question, providing additional context regarding why and/or how this code answers the question improves its long-term value. How to Answer. Kind Regards. Commented Nov 3, 2020 at 11:37

What about a more functional solution

``````var list = new List<string> { "a", "b", "c", "d", "e" };
GetAllCombinations(list).OrderBy(_ => _).ToList().ForEach(Console.WriteLine);

static IEnumerable<string> GetAllCombinations(IEnumerable<string> list)
{
return list.SelectMany(mainItem => list.Where(otherItem => !otherItem.Equals(mainItem))
.Select(otherItem => mainItem + otherItem));
}
``````

Ouput:

``````ab
ac
ae
ba
bc
bd
be
ca
cb
cd
ce
da
db
dc
de
ea
eb
ec
ed
``````
• The OP specified that the order does not matter, so "ab" and "ba", which both appear in the result of that code, are the same. Commented Sep 3, 2020 at 11:31