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
"XWz"
```

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
hxdynx
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)

`foldM`

, which is a left fold that includes a monadic operation (such as`IO`

). – Dietrich Epp Dec 4 '12 at 2:15