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I'm trying to learn how to list comprehension and I'm trying to figure out a way to find all the subsequences of a list but i'm not quite sure how one would go about that. Could anyone help me?

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3 Answers 3

Just another interesting solution:

filterM (const [True,False]) [1,2,3]

I read this as follows: Return the possible combinations of including or not including an element of the list. This explanation might not be using the correct terminology, but it's how I intuitively understand it. const evaluates to [True,False] for every element, so every element is included or not included in the result. Using filterM, the predicate here is in the list monad, so we get a list of the possible results.

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Please notice, that the order of the resulting list may vary. –  FUZxxl Mar 21 '11 at 17:54
Your solution is really great (I'm really impressed with its succintness), but using such conundrums in a library code may be not a good thing. Though YMMV. –  EarlGray Nov 12 '12 at 7:56
@EarlGray, thanks, and I agree that there are probably more easily understandable solutions to include in one's projects. (That's why I wrote "just another interesting solution") Then again, a type signature would surely improve intelligibility a bit. –  danlei Nov 12 '12 at 10:50

If you want access to this functionality, you can use the subsequences function that is in Data.List.

subsequences [1,2,3]
>>> [[],[1],[2],[1,2],[3],[1,3],[2,3],[1,2,3]]

If you want to know how it's implemented, you can check the function's source code, which is available on Hackage.

In this case, it's:

subsequences            :: [a] -> [[a]]
subsequences xs         =  [] : nonEmptySubsequences xs

nonEmptySubsequences         :: [a] -> [[a]]
nonEmptySubsequences []      =  []
nonEmptySubsequences (x:xs)  =  [x] : foldr f [] (nonEmptySubsequences xs)
  where f ys r = ys : (x : ys) : r
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Note: f ys r = ys : (x : ys) : r - here's the part where you can see it is considering all substrings for the string xs (the tail of the input), then deciding both to include and exclude x (the head of the input) for each of those that exist. Recursion does this for every tail of the list until you hit the empty string, bubbles back up, and bam, you're done. –  Dan Burton Mar 21 '11 at 5:44

Ezra's answer covers all subsequences, but if you just want the continuous sub-sequences, you can use:

import Data.List
continuousSubSeqs = filter (not . null) . concatMap inits . tails

I.e you get

Prelude Data.List> continuousSubSeqs "asdf"

The above can be written as a list comprehension as well:

import Data.List
continuousSubSeqs ls = [t | i <- inits ls, t <- tails i, not $ null t]
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or even continuousSubSeqs ls = [t | i <- inits ls, t@(_:_) <- tails i]. flipping the inits call with the tails call gets somewhat more natural ordering of subsequences. –  Will Ness Aug 24 '14 at 6:47

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