# Generate number sequences with LINQ

I try to write a LINQ statement which returns me all possible combinations of numbers (I need this for a test and I was inspired by this article of Eric Lippert). The method's prototype I call looks like:

``````IEnumerable<Collection<int>> AllSequences( int start, int end, int size );
``````

The rules are:

• all returned collections have a length of `size`
• number values within a collection have to increase
• every number between `start` and `end` should be used

So calling the `AllSequences( 1, 5, 3 )` should result in 10 collections, each of size 3:

``````1 2 3
1 2 4
1 2 5
1 3 4
1 3 5
1 4 5
2 3 4
2 3 5
2 4 5
3 4 5
``````

Now, somehow I'd really like to see a pure LINQ solution. I am able to write a non LINQ solution on my own, so please put no effort into a solution without LINQ.
My tries so far ended at a point where I have to join a number with the result of a recursive call of my method - something like:

``````return from i in Enumerable.Range( start, end - size + 1 )
select BuildCollection(i, AllSequences( i, end, size -1));
``````

But I can't manage it to implement `BuildCollection()` on a LINQ base - or even skip this method call. Can you help me here?

-
@Noldorin, @Fede: Thanks for the great answers - I definitely have to take a closer look at the methods of `Enumerable` (like `Repeat()` or `Concat()`) – tanascius Apr 29 '10 at 13:38

Think I've got it.

``````IEnumerable<List<int>> AllSequences(int start, int end, int size)
{
if (size == 0)
return Enumerable.Repeat<List<int>>(new List<int>(), 1);

return from i in Enumerable.Range(start, end - size - start + 2)
from seq in AllSequences(i + 1, end, size - 1)
select new List<int>{i}.Concat(seq).ToList();
}
``````
-
`if (size == 0) return new int[] { }.ToList()` ? – Spook Feb 12 '15 at 11:37
`````` Enumerable.Range(1, 12)
.Select(x => (x - 1) + 1);
``````
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didn't answer the question, but was useful to me, so +1 – Kell Jul 17 '12 at 8:08
What does this do? Isn't the `.Select` redundant? – Mateen Ulhaq Jan 9 at 2:01

Something like the following should do the job, I think.

``````public static IEnumerable<IEnumerable<int>> AllSequences(int start, int end,
int size)
{
return size <= 0 ? new[] { new int[0] } :
from i in Enumerable.Range(start, end - size - start + 2)
from seq in AllSequences(i + 1, end, size - 1)
select Enumerable.Concat(new[] { i }, seq);
}
``````

The key to the solution is the compound `from` clause, which is quite handy for dealing with nested enumerables.

Notice that I've changed the method signature slightly to `IEnumerable<IEnumerable<int>>`, since this is more convenient when using (pure) LINQ. You can always convert it easily to a `IEnumerable<ICollection<int>>` at the end if you like, however.

Let me know if the code needs any explanation, but I'm hoping the LINQ syntax makes it reasonably clear.

Edit 1: Fixed bug and improved conciseness.

Edit 2: Because I'm bored and have nothing better to do (no, not really), I thought I'd write an extension method that compute the combinations of a given list of elements, making use of the `AllSequences` method.

``````public static IEnumerable<IEnumerable<T>> Combinations<T>(this IList<T> source,
int num)
{
return AllSequences(0, source.Count - 1, num).Select(
seq => seq.Select(i => source[i]));
}
``````

Perhaps not the most efficient way of computing combinations, but certainly pretty compact code!

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You stole my thunder! I was just working this out =D +1 – Tejs Apr 29 '10 at 12:33
I just ran it and it causes a stackoverflow :-(, maybe with a where size > 0, just before the second from? – Dave Archer Apr 29 '10 at 12:42
It needs to be `from seq in AllSequences(i+1, end, size-1)` Other than that, nice! I just wrote one too, but yours is a lot more concise. +1 – tzaman Apr 29 '10 at 12:43
@jonas, no luck, but def not marking down, this is fun :-) +1 – Dave Archer Apr 29 '10 at 12:47
Reason for down-vote please? – Noldorin Apr 29 '10 at 13:03