How can I generate all the possible nondecreasing sets of the elements of a list with current length?
getSets :: [Int] > Int > [[Int]]
...
> getSets [0..9] 3
[[0,0,0],[0,0,1]..[3,9,9],[4,4,4]..[8,9,9],[9,9,9]]
Let's start a bit simpler, with a function that produces all sets of the given size from the given list elements:
You can think of this function as building the sets one element at a time. It adds What we can do to get the final answer is decide to not build a longer set for each element in
This is a nicelooking solution, but it does more work than we actually need. After all, why compare
Update: In addition to incorporating Thomas M. DuBuisson's much cleaner predicate, I also benchmarked his, chrisdb's, and my solutions: http://hpaste.org/50195 Update x2: Fixed incorrect Criterion labels; benchmarks were correct but the output was confusing. 





Here is a clean version that should also be rather fast (i.e. it only constructs correct lists and doesn't construct then drop incorrect lists).
EDIT: But it's slower than ACF's  using 


Does this do what you want?



Maybe this? For a list x = [a_{1}, ..., a_{n}],



I've done some timings for the [0..9] 3 case, and I get:
I excluded the solution of sdcwc because I don't think it solves the problem. In particular, if the initial list is not sorted then it won't produce nondecreasing sublists. As you can see, there's not a huge difference but the solutions of Thomas M. DuBuisson and myself are slightly faster on average. 

getSets :: [Int] > Int > [[Int]]
– Karoly Horvath Aug 11 '11 at 21:05