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The function search below searches for two inputs which have the same output under some function. During the search it iterates over the input list xs twice, and this input list could be very large, e.g. [0..1000000000]. I'd rather use memory for storing the HashSet created by collision rather than storing the elements of xs, and my understanding is that even though xs could be lazily computed it would be kept around in case it was needed for the call to find.


  • is this understanding correct?
  • if I keep it as a list is there a way I can have xs recomputed if it is passed to find?
  • is there an alternative data structure I can use for xs which allows me to control the space used? xs is just used to specify which inputs to check.

Note that there are no type restrictions on xs - it can be a collection of any type.

import Data.HashSet as Set
import Data.Hashable
import Data.List

search :: (Hashable b, Eq b) => (a->b) -> [a] -> Maybe (a,a)
search h xs =
  do x0 <- collision h xs
     let h0 = h x0
     x1 <- find (\x -> (h x) == h0) xs
     return (x0,x1)

collision :: (Hashable b, Eq b) => (a->b) -> [a] -> Maybe a
collision h xs = go Set.empty xs
    go s [] = Nothing
    go s (x:xs) =
      if y `Set.member` s
        then Just x
        else go (Set.insert y s) xs
      where y = h x

main = print $ search (\x -> x `mod` 21)  ([10,20..2100] :: [Int])
share|improve this question
Did you really mean x1 <- find (\x -> (h x) `Set.member` s) xs and not h x == h0? – Daniel Fischer Jun 6 '12 at 17:50
good catch - that's a lot simpler – ErikR Jun 6 '12 at 18:35
You might be able to adapt the ideas in Beautiful Folding to produce beautiful scanning. – Daniel Wagner Jun 6 '12 at 20:15
If I understand what you're doing correctly, by the way, you should be able to do it in a single pass over xs regardless. Just switch from a set to a map. This takes a bit more memory, of course, but shouldn't change the space complexity... – sclv Jun 6 '12 at 23:22
true, but this is a time/space trade-off decision, and in this case I don't mind spending extra time so that I can build a bigger HashSet and increase the probability of finding a collision. – ErikR Jun 7 '12 at 15:56
up vote 6 down vote accepted

I answered basically this question here:

Here's the relevant code.

import Data.Stream.Branching(Stream(..))
import qualified Data.Stream.Branching as S
import Control.Arrow
import Control.Applicative
import Data.List

data UM s a = UM (s -> Maybe a) deriving Functor
type UStream s a = Stream (UM s) a

runUM s (UM f) = f s
liftUM x = UM $ const (Just x)
nullUM = UM $ const Nothing

buildUStream :: Int -> Int -> Stream (UM ()) Int
buildUStream start end = S.unfold (\x -> (x, go x)) start
    where go x
           | x < end = liftUM (x + 1)
           | otherwise = nullUM

usToList x = unfoldr (\um -> (S.head &&& S.tail) <$> runUM () um) x

Long story short, instead of passing around a list, pass around a data type that describes how to generate a list. Now you can write functions directly over the stream, or you can use the usToList function to use the list functions you already have.

share|improve this answer

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