I would like to build a nondeterministic monad transformer in haskell that, I believe, behaves differently from ListT and from the alternative ListT proposed at http://www.haskell.org/haskellwiki/ListT_done_right. The first of these associates a monad with a list of items; the second associates a monad with individual items but has the property that monadic actions in given element influence monadic elements in subsequent slots of the list. The goal is to build a monad transformer of the form
data Amb m a = Cons (m a) (Amb m a) | Empty
so that every element of the list has its own monad associated with it and that successive elements have independent monads. At the end of this post I have a little demonstration of the kind of behavior this monad should give. If you know how to get some variant of ListT to give this behavior, that would be helpful too.
Below is my attempt. It is incomplete because the
unpack function is undefined. How can I define it? Here's one incomplete attempt at defining it, but it doesn't take care of the case when the monad m contains an
Empty Amb list:
unpack :: (Monad m) => m (Amb m a) -> Amb m a unpack m = let first = join $ do (Cons x ys) <- m return x rest = do (Cons x ys) <- m return ys in Cons first (unpack rest)
Full (incomplete) code:
import Prelude hiding (map, concat) import Control.Monad import Control.Monad.Trans data Amb m a = Cons (m a) (Amb m a) | Empty infixr 4 <:> (<:>) = Cons map :: Monad m => (a -> b) -> Amb m a -> Amb m b map f (Cons m xs) = Cons y (map f xs) where y = do a <- m return $ f a map f Empty = Empty unpack :: m (Amb m a) -> Amb m a unpack m = undefined concat :: (Monad m) => Amb m (Amb m a) -> Amb m a concat (Cons m xs) = (unpack m) `mplus` (concat xs) concat Empty = Empty instance Monad m => Monad (Amb m) where return x = Cons (return x) Empty xs >>= f = let yss = map f xs in concat yss instance Monad m => MonadPlus (Amb m) where mzero = Empty (Cons m xs) `mplus` ys = Cons m (xs `mplus` ys) Empty `mplus` ys = ys instance MonadTrans Amb where lift m = Cons m Empty
Examples of desired behavior
Here, the base monad is
instance Show a => Show (Amb (State Int) a) where show m = (show . toList) m toList :: Amb (State Int) a -> [a] toList Empty =  toList (n `Cons` xs) = (runState n 0 : toList xs) x = (list $ incr) >> (incr <:> incr <:> Empty) y = (list $ incr) >> (incr <:> (incr >> incr) <:> Empty) main = do putStr $ show x -- | should be [2, 2] putStr $ show y -- | should be [2, 3]
Update: An example of why LogicT doesn't do what I want.
Here's what LogicT does on the simple example above:
import Control.Monad import Control.Monad.Logic import Control.Monad.State type LogicState = LogicT (State Int) incr :: State Int Int incr = do i <- get put (i + 1) i' <- get return i' incr' = lift incr y = incr' >> (incr' `mplus` incr') main = do putStrLn $ show (fst $ runState (observeAllT y) 0) -- | returns [2,3], not [2,2]