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I have a function which calls another function which can return something or Nothing depending on certain conditions. What I am wondering is, if it returns nothing how do I call it again with different arguments.

Say for example I have a function which can return times at 30 minute intervals, and the other function can only not return nothing at a certain time i.e.:

certainTimeFunction :: (Int,Int,Int) -> Maybe String
certainTimeFunction (h,m,s) =
    | (11,00,00) = Just "It's eleven o'clock"
    | otherwise = Nothing

timeFunction :: (Int,Int,Int) -> (Int,Int,Int)
timeFunction time = certainTimeFunction time

And time has to start with (00,00,00) which of course will return Nothing but then (00,30,00) is tried which again return Nothing until (11,00,00) which then triggers the function to return what is in the first guard, then the whole cycle should end.

share|improve this question
    
Are you wanting to just supply it with times until one returns a Just value? Also, you should have | (11,00,00) = Just "It's eleven o'clock". It also might be worth it to look at the time module (included in the haskell platform) for managing time-like values. –  bheklilr Dec 23 '13 at 17:01
    
Yes until the Just value is returned. –  user3094936 Dec 23 '13 at 17:10

2 Answers 2

As always in Haskell, the answer is to use recursion!

timeFunction :: (Int, Int, Int) -> (Int, Int, Int)
timeFunction time0 = case certainTimeFunction time0 of
  Nothing  -> timeFunction (perturbTime time0)
  Just res -> res

Note that perturbTime and certainTimeFunction should be carefully tuned to work together as it's very easy in a circumstance like this to build an infinite loop. A cleaner way would be to "unroll" the recursion into a lazy list using iterate.

First we create an infinite list of "all perturbations"

... iterate perturbTime :: [(Int, Int, Int)]

then we map certainTimeFunction to check whether any such perturbation returns Just.

... map certainTimeFunction . iterate perturbTime :: [Maybe (Int, Int, Int)]

then we can recover the exact behavior of timeFunction by dropping all of the Nothings.

timeFunction = fromJust . head . dropWhile isNothing 
             . map certainTimeFunction 
             . iterate perturbTime

We could also create a version of timeFunction which fails if perturbTime doesn't reach a successful point within n perturbations

timeFunctionN n = safeJustHead 
                . dropWhile isNothing
                . take n
                . map certainTimeFunction 
                . iterate perturbTime
  where safeJustHead :: [Maybe a] -> Maybe a  -- note this is just `msum`
        safeJustHead []    = Nothing          -- it's also easy to implement
        safeJustHead (x:_) = x                -- using `Data.Maybe.listToMaybe`
                                              -- per @bheklilr's comment below
share|improve this answer
2  
You're a faster typist than I am, and you've got a far more comprehensive answer. Also, why not use the Data.Maybe.listToMaybe function instead of defining your own safeHead? It does the same thing. –  bheklilr Dec 23 '13 at 17:16
    
Ha—because I thought that was in safe not base. The semantics of safeJustHead are also a little different—it's really msum! It could be written join . listToMaybe, though. –  J. Abrahamson Dec 23 '13 at 17:44
    
(I also cheated and just let perturbTime be out of scope so I didn't have to think about div ;) –  J. Abrahamson Dec 23 '13 at 17:45
    
This is true, you could use the MonadPlus instance, but the source for listToMaybe simply does the same pattern match exactly as you have, so it's probably a bit faster. It also requires another import of Control.Monad when all you really need is Data.Maybe, and you're already doing so for isNothing. –  bheklilr Dec 23 '13 at 19:33

If you just want to feed it times at 30 minute intervals until one succeeds, you could do

import Data.Maybe

timeFunction :: (Int, Int, Int) -> (Int, Int, Int)
timeFunction initialTime = head $ catMaybes $ map certainTimeFunction times
    where
        add30 (h, m, s) =
            let newM = m + 30
                newH = h + newM `div` 60
            in (newH, newM `mod` 60, s)
        times = iterate add30 initialTime

This will lazily compute all increments of 30 minutes from your initial time (my add30 is @JAbrahamson's perturbTime), then certainTimeFunction is mapped to all of those times, then catMaybes compresses this to the Just values (lazily, again), and the first one is taken. Beware, if you don't get a time that certainTimeFunction returns a successful value from, this will loop forever!

If you want to stop when the hours are greater than 23, just use our good friend takeWhile and change times to

times = takeWhile (\(h', _, _) -> h' < 24) $ iterate add30 initialTime

And change the type of timeFunction to Time -> Maybe String


And this is a great example of why you should define your own type instead of using a tuple. If you had

data Time = Time
    { hours :: Int
    , minutes :: Int
    , seconds :: Int
    } deriving (Eq, Show)

Then some helper functions

import Data.Function (on)

asSeconds :: Int -> Time
asSeconds x = Time (x `div` 3600) (x `div` 60 `mod` 60) (x `mod` 60)

asMinutes :: Int -> Time
asMinutes = asSeconds . (* 60)

asHours :: Int -> Time
asHours x = asMinutes . (* 60)

toSeconds :: Time -> Int
toSeconds (Time h m s) = h * 3600 + m * 60 + s

(+:) :: Time -> Time
(+:) = asSeconds .: on (+) toSeconds where (.:) = (.).(.)

timeFunction :: Time -> Maybe Time
timeFunction initialTime = listToMaybe $ catMaybes $ map certainTimeFunction times
    where
        times = takeWhile ((< 23) . hours) $ iterate (+: asMinutes 30) initialTime

which can be written more cleanly as

timeFunction = listToMaybe . catMaybes
             . map certainTimeFunction
             . takeWhile ((< 24) . hours)
             . iterate (+: asMinutes 30)

You could also make Time an instance of Ord really easily

instance Ord Time where
    compare = on compare toSeconds

timeFunction = listToMaybe . catMaybes
             . map certainTimeFunction
             . takeWhile (< asHours 24)
             . iterate (+: asMinutes 30)
share|improve this answer
    
Thanks how would I end it if (23,30,00) is reached before a solution is found? –  user3094936 Dec 23 '13 at 17:43
    
@user3094936 Check my changes. –  bheklilr Dec 23 '13 at 19:25
    
@user3094936 I've made some updates now, the code is a lot shorter and cleaner because I realized I was repeating myself too much. I also imported Data.Function.on to simplify a few expressions. What's interesting is that with just one more helper function, you could write all of this code in rather nice pointfree notation other than asSeconds and toSeconds. –  bheklilr Dec 23 '13 at 19:42

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