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.

`obtainTree`

the type`ByteString -> IO Tree`

? – Daniel Wagner Oct 22 '13 at 23:37`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