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i am parsing a string for example "xxxxyzz", so if the char is "x" then i will need to do a output and make changes to the list at the same time. The code below is

import Data.Char
output l = zipWith (+) rr ll
              out = foldl
                        ( \ (c,a) e ->
                               case c of
                                'x' -> chr c!!0 --output first element of the list
                                       ([1]++tail(c),a) ) -- add [1] to the c list
              (ll,rr) = out l 
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To get started. Think of what type signature you need, then go and write your implementation –  Tarrasch Dec 4 '12 at 2:05
You may be interested in foldM, which is a left fold that includes a monadic operation (such as IO). –  Dietrich Epp Dec 4 '12 at 2:15
thanks will check foldM –  onegun Dec 4 '12 at 2:19
The body of the lambda does not make sense to me--is the case statement supposed to have an exhaustive set of cases? And in any event, c will be a list, and you are matching it against a char. Can you get the code to compile? And if not, post the error--I think that your problems run much deeper than the fold (you can use foldl with monadic operations--you just need to pay attention to type signatures). –  isturdy Dec 4 '12 at 6:04

2 Answers 2

You can write (not recommended) some like

output'' :: String -> IO String
output'' = fmap reverse . foldM parseChar []
  where parseChar xs 'x' = putStrLn "'x' to upper" >> return ('X':xs)
        parseChar xs 'y' = putStrLn "'y' to 'W'"   >> return ('W':xs)
        parseChar xs  x  = putStrLn "no transform" >> return ( x :xs)

with output

*Main> output'' "xyz"
'x' to upper
'y' to 'W'
no transform

But, from For a Few Monads More (Learn You a Haskell for Great Good!)

You can write some like:

import Control.Monad.Writer

output :: String -> Writer [String] String
output [] = return []
output (x:xs) = do
  xs' <- output xs
  x'  <- case x of
         'x' -> tell ["'x' to upper"] >> return 'X'
         'y' -> tell ["'y' to 'W'"]   >> return 'W'
         _   -> tell ["no transform"] >> return x
  return (x':xs')

using monads is more flexible and using Writer do your code pure (is pure and you have control about how process monadic context and data; not in direct IO output'' function).

You can use output function into impure code as

main = do
  input <- getLine
  let (result, logging) = runWriter $ output input
  putStrLn $ "Result: " ++ result
  putStrLn $ unlines logging

a running output could be

*Main> main
Result: hXdWnX
'x' to upper
no transform
'y' to 'W'
no transform
'x' to upper
no transform

you can combine monad with monadic functions like "foldM", some like

output' :: String -> Writer [String] String
output' = fmap reverse . foldM parseChar []
  where parseChar xs 'x' = tell ["'x' to upper"] >> return ('X':xs)
        parseChar xs 'y' = tell ["'y' to 'W'"]   >> return ('W':xs)
        parseChar xs  x  = tell ["no transform"] >> return ( x :xs)

(log array are reversed)

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In Haskell you can't predict the order of execution without using monads. For starters you may want to try to do some testing in the do block of main and then rewrite it as a separate function.

You may want to familiarize yourself with the concept of IO in Haskell: http://www.haskell.org/onlinereport/haskell2010/haskellch7.html#x14-1420007

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