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Are there a possibility to stop a recursive algorithm when it throws some exception provided by us, save it's state, ask user something and then continue the recursion from the saved place?

I changed the question.

I read a file system recursively and keep data in a tree. Suddenly I face with a hidden directory. Can I stop calculations and ask now user should I place information about the directory in my tree and then continue calculations?

About working with IO:

obtainTree :: ByteString -> Tree
main = print $ obtainTree partition

as I understand to work with IO inside the algorithm we have to use function like this:

obtainTree :: ByteString -> IO Tree

but can we avoid it?

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It's difficult to answer your question without code. –  jberryman Oct 22 '13 at 19:06
What, how are you reading the file system to build up the tree if you're not already in the IO monad? –  jozefg Oct 22 '13 at 20:35
i've added code to the question to illustrate –  Leonidas Oct 22 '13 at 21:02
Is there a good reason to avoid giving obtainTree the type ByteString -> IO Tree? –  Daniel Wagner Oct 22 '13 at 23:37
@DanielWagner I think the assumption is that the ByteString contains all needed information, it should be possible to do this without IO and retain the nice referential transparency and ease of testing. Actually this is a poster child for control.monad.prompt –  jozefg Oct 22 '13 at 23:52

2 Answers 2

up vote 0 down vote accepted

First thing first, a pure code cannot go to IO or we can say a pure function needs to become impure if it tries to use some impure function (i.e trying to use IO). In case you are wondering why this so, think about this: If the pure function ask the impure function about some data to complete its own processing then it looses "Referential transparency" because now the pure function can return different result for same input due to the involved impure (IO) call, hence it is no more pure.

Based on the above information, your solution will be as simple as making use of higher order function to ask the user about the information. Something like:

parseFileSystem :: FileSystem -> (Directory -> IO Tree) -> IO Tree

Here the (Directory -> IO Tree) is the function that will ask user about the required information and return a Tree data based on it.

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Sure you can do it. You can always set things up so that you capture the remaining computation as a continuation, which can be resumed externally.

Here's one way to do something like this:

-- intended to be put in a module that only exports the following list:
-- (Resumable, Prompted, prompt, runResumable, extract, resume)
import Control.Applicative

newtype Resumable e r a = R { runResumable :: Either (Prompted e r a) a }

data Prompted e r a = P e (r -> Resumable e r a)

suspend :: e -> (r -> Resumable e r a) -> Resumable e r a
suspend e = R . Left . P e

instance Functor (Resumable e r) where
    fmap f (R (Right x)) = pure $ f x
    fmap f (R (Left (P e g))) = suspend e $ \x -> f <$> g x

instance Applicative (Resumable e r) where
    pure = R . Right
    (R (Right f)) <*> (R (Right x)) = pure $ f x
    (R (Left (P e f))) <*> x = suspend e $ \y -> f y <*> x
    f <*> (R (Left (P e g))) = suspend e $ \y -> f <*> g y

instance Monad (Resumable e r) where
    return = pure
    (R (Right x)) >>= f = f x
    (R (Left (P e f))) >>= g = suspend e $ \x -> f x >>= g

prompt :: e -> Resumable e r r
prompt e = suspend e pure

extract :: Prompted e r a -> e
extract (P e _) = e

resume :: Prompted e r a -> r -> Either (Prompted e r a) a
resume (P _ f) e = runResumable $ f e

This lets you divide up your logic into an internal piece that runs inside Resumable and an external piece that handles the results of the internal part's prompting using whatever method it likes.

Here's a simple example of using this:

askAboutNegatives :: [Int] -> Resumable Int Bool [Int]
askAboutNegatives [] = return []
askAboutNegatives (x:xs) = do
    keep <- if x < 0 then prompt x else return True
    rest <- askAboutNegatives xs
    return $ if keep then x:rest else rest

main :: IO ()
main = do
    let ls = [1, -4, 2, -7, 3]
        loopIfNeeded (Right r) = return r
        loopIfNeeded (Left p) = do
            putStrLn $ "Would you like to keep " ++ show (extract p)
            i <- getLine
            loopIfNeeded $ resume p (i == "y")
    asked <- loopIfNeeded $ runResumable (askAboutNegatives ls)
    print asked

As a way of making this use case simpler, the module containing Resumable can be augmented to also export this function:

runResumableWithM :: Monad m => (e -> m r) -> Resumable e r a -> m a
runResumableWithM f x = case runResumable x of
    Right y -> return y
    Left (P e g) -> do
        r <- f e
        runResumableWithM f $ g r

Which would allow rewriting main from that example as the somewhat simpler:

main :: IO ()
main = do
    let ls = [1, -4, 2, -7, 3]
        ask x = do
            putStrLn $ "Would you like to keep " ++ show x
            i <- getLine
            return $ i == "y"
    asked <- runResumableWithM ask (askAboutNegatives ls)
    print asked

The one real issue with this approach is that every prompt must have the same type. Otherwise, it handles the problem nicely, using continuations to capture the rest of the computation implicitly when needed.

share|improve this answer
I get it. I must totally change the question. –  Leonidas Oct 22 '13 at 19:41
@Leonidas Please post a new question rather than completely redo this one, it makes all of Carl's hard work for nothing and is useless to future visiters :) –  jozefg Oct 22 '13 at 19:43
@jozefg Fortunately, all the hard work I was doing was actually anticipating that edit. :) –  Carl Oct 22 '13 at 21:38
But if I read FS, I'll have to collect information about state of my algorithm in a structure named 'r' here, isn't it? In this case it will take too much memory, and it will repeat what already exists there. –  Leonidas Oct 22 '13 at 21:39
@Leonidas Is that question asked before or after I added the examples? –  Carl Oct 22 '13 at 21:42

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