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I have to generate all possible lists of numbers meeting some requirements. I know how to to this for fixed sized size chain. Pseudocode:

[ [x1,x2,x3]| x1<-[1..5],x2<-[20..30], x2 `basedOn` x1, x3<-[100..110], x3 `basedOn` x1+x2]

where basedOn is some boolean filter.

But how to do it the length of chain is determined at runtime, aka variable?

I have different set generated for each Xn. So basically what I wanna do is to generate sets for X1,X2..Xn. Then I want to pick one element from X1 and pick one element from X2 that not colides with X1 Then I want To pick one from X3 not colliding with X1 and X2 and so on to Xn. And When I have one result. I want it to pick others from Xn meeting requirements. Then back to Xn-1 pick another valid and then back to Xn again and generate all not colliding again. And then I want to return deeper and so on. It's what list comprehension does, but I want it for dynamic size.

I know list compehension is syntactic sugar so to generate it dynamically I probably have to use monads, but I have no idea how to :) Could you help me how to achieve this in Haskell?

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With the help of recursion. You might have a look at stackoverflow.com/questions/9658409/… or stackoverflow.com/questions/8779765/combinations-of-a-list –  phimuemue Jun 18 '13 at 9:43

2 Answers 2

Using recursion inside list comprehension itself:

import Data.Maybe

basedOn :: Int -> Int -> Bool
basedOn a b = even (a+b)

func :: [[Int]] -> [[Int]]
func a = myFun a Nothing where
  myFun :: [[Int]] -> Maybe Int -> [[Int]]
  myFun [] _ = [[]]
  myFun (xs:xss) j  = [[a] ++ b | a <- xs, b <- myFun xss (next j a), pred j a]
                      pred Nothing _ = True
                      pred (Just x) a = a `basedOn` x
                      next Nothing a = Just a
                      next (Just x) a = Just (x+a)

main = putStr $ show $ func [[1..5] , [6..10], [11..15]]
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Seems like what I need. Do I understand well than j is accumulator that adds further elements to baseOn set. And pred is filtering function that add a if set's empty or based on BasedOn filter after. –  user2349668 Jun 18 '13 at 11:12
@user2349668: Exactly –  Ankur Jun 18 '13 at 11:26

A general solution could be

generate :: [[a]] -> ([a] -> a -> Bool) -> [a] -> [[a]]
generate xs check acc =
  case xs of
  [] -> [acc]
  (x:xs) -> concatMap (generate xs check) newAccs
              where validElements = filter (check acc) x
                    newAccs = map (\z -> z:acc) validElements

but elements are in reversed order ([xn, xn-1, ...]), if you want [x1, x2, ...] then

generate' xs check acc = map reverse $ generate xs check acc

now, you can select elements using any check function, as example we can generate fibonacci sequence

*Main> let fibonacciChk ac x = null ac || x == sum (take 2 ac)
*Main> head $ tail $ generate' (take 10 $ repeat [0..111]) fibonacciChk []
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