here is the snippet to calculate whether knight can move to desired position within x moves:
import Control.Monad (guard) import Control.Monad.Writer type KnightPos = (Int,Int) -- function returning array of all possible kinght moves from desired position moveKnight :: KnightPos -> [KnightPos] moveKnight (c,r) = do (c',r') <- [ (c+2,r-1),(c+2,r+1),(c-2,r-1),(c-2,r+1) ,(c+1,r-2),(c+1,r+2),(c-1,r-2),(c-1,r+2) ] guard (c' `elem` [1..8] && r' `elem` [1..8]) return (c',r') -- nice little function tells us -- whether knight can move to desired position within x moves reaches :: KnightPos -> KnightPos -> Int -> Bool reaches _ _ 0 = False reaches from pos n = any (\p -> p == pos || reaches p pos (n-1)) $ moveKnight from -- the result is True or False -- does knight can move from cell 6,2 to cell 6,3 within 3 moves main = print $ reachesm (6,2) (6,1) 3
Now i want to add Writer monad to 'reaches' funsction, but completely lost here i come to something like,
-- not so nice and little yet reachesm :: KnightPos -> KnightPos -> Int -> Writer [String] [Bool] reachesm _ _ 0 = return [False] reachesm from pos n = do tell [ "-->" ++ (show pos) ] p <- moveKnight from -- ??? np <- reachesm p pos (n-1) return(p == pos || any np)
but it does not even compile. I suspect its time for monad transormers here ?
UPD: So, finally we came to following rewrite, but i still unsatisfied with it, beacuse reachesm runs differently from pure variant, it recurses all n steps deep, but i expect it to stop iteration once it found the answer. Is it hard to modify it that way ? And another question is about laziness, it seem that in do block calculations are not lazy is it true ?
reachesm :: KnightPos -> KnightPos -> Int -> Writer [String] Bool reachesm _ _ 0 = return False reachesm from pos n = do tell [ "-->" ++ (show from) ] let moves = moveKnight from np <- forM moves (\p -> reachesm p pos (n-1)) return (any (pos ==) moves || or np)