You could do this directly as Ingo beautifully encapsulated, or equivalently for example
breakOut :: a -> m (Either MyErrorType MyGoodResultType)
breakOut x = do
y <- dosomethingWith x
z <- doSomethingElseWith x y
if isNoGood z then return (Left (someerror z)) else do
w <- process z
v <- munge x y z
u <- fiddleWith w v
return (Right (greatResultsFrom u z))
This is good for simply doing something different based on what values you have.
Using Exceptions in the IO monad
You could use Control.Exception as Michael Litchard correctly pointed out. It has tons of error-handling, control-flow altering stuff in it, and is worth reading if you want to do something complex with this.
This is great if your error production could happen anywhere and your code is complex. You can handle the errors at the top level, or at any level you like. It's very flexible and doesn't mess with your return types. It only works in the IO monad.
Really I should roll my own custom type, but I can't be bothered deriving Typable etc, so I'll hack it with the standard
error function and a few strings. I feel quite guilty about that.
handleError :: ErrorCall -> IO Int
handleError (ErrorCall msg) = case msg of
"TooBig" -> putStrLn "Error: argument was too big" >> return 10000
"TooSmall" -> putStrLn "Error: argument was too big" >> return 1
"Negative" -> putStrLn "Error: argument was too big" >> return (-1)
"Weird" -> putStrLn "Error: erm, dunno what happened there, sorry." >> return 0
The error handler needs an explicit type to be used in
flipped the argument to make the
do block come last.
exceptOut :: IO Int
exceptOut = flip catch handleError $ do
x <- readLn
if (x < 5) then error "TooSmall" else return ()
y <- readLn
return (50 + x + y)
Monad transformers etc
These are designed to work with any monad, not just IO. They have the same benefits as IO's exceptions, so are officially great, but you need to learn about monad tranformers. Use them if your monad is not IO, and you have complex requirements like I said for Control.Exception.
First, read Gabriel Conzalez's Breaking from a loop for using
EitherT to do two different things depending on some condition arising, or
MaybeT for just stopping right there in the event of a problem.
If you don't know anything about Monad Transformers, you can start with Martin Grabmüller's Monad Transformers Step by Step. It covers
ErrorT. After that read Breaking from a Loop again!
You might also want to read Real World Haskell chapter 17.
Continuation Passing Style's
callCC is remarkably powerful, but perhaps too powerful, and certainly doesn't produce terribly easy-to-follow code. See this for a fairly positive take, and this for a very negative one.