This function is much faster than its recursive version:
crossSubstrings :: String -> String -> [(String,String)] crossSubstrings string1 string2 = [(substr1,substr2) | substr1 <- inits string1, substr2 <- inits string2] type Distances = Map.Map (String,String) Int editDistanceMemoized :: String -> String -> Int editDistanceMemoized s1 s2 = let substrings = s1 `crossSubstrings` s2 distances = foldl (editDistance) emptyMap substrings in distances Map.! (s1,s2) where emptyMap = Map.fromList  editDistance :: Distances -> (String,String) -> Distances editDistance map (,s1) = map `Map.union` getMap  s1 (length s1) editDistance map (s1,) = map `Map.union` getMap s1  (length s1) editDistance map (s1,s2) = map `Map.union` getMap s1 s2 (cost map s1 s2) getMap s1 s2 d = Map.fromList [((s1,s2),d)] insertionPCost = \m -> \s1 -> \s2 -> m Map.! (s1, init s2) + 1 deletionPCost = \m -> \s1 -> \s2 -> m Map.! (init s1, s2) + 1 substitutionPCost = \m -> \s1 -> \s2 -> m Map.! (init s1, init s2) + substitutionCostIfNEQ s1 s2 substitutionCostIfNEQ = \s1 -> \s2 -> if (last s1 == last s2) then 0 else 2 cost = \m -> \s1 -> \s2 -> minimum [insertionPCost m s1 s2, deletionPCost m s1 s2, substitutionPCost m s1 s2]
However (first question), I feel like some lambdas could be avoided (doesn't it look repetitive? look specially at
cost). Is there a way to compose
In addition, the State Monad could be used to propagate the map (instead of using
foldl?). Despite despite reading how
State.id behave, I'm not 100% sure how the signature should look like (second question).
I thought of this one, where the state is "the next pair of strings to be measured" and Distances contains the memoized distances.
editDistance :: State Distances (String,String) -> State Distances ()?