try imported from the old exceptions mechanism, but are trying to use its result type as if it was using the new extensible Control.Exception mechanism. Use
You should ideally import Control.Exception like this:
import Prelude hiding (catch)
and remove all imports of Control.OldException. Then you can use its functions directly without worrying about any clashes.
By the way, you don't have to use IO exceptions to handle read errors; you can use
reads :: (Read a) => String -> [(a, String)]
Here's how I'd write your code with
case reads "a" of
[(a, "")] -> do
_ -> putStrLn "exception"
The fact that
reads returns a list is a little confusing; practically, you can think of it as returning
Maybe (a, String) instead. If you want a version using
Maybe, you can define it like this:
readMaybe :: (Read a) => String -> Maybe a
readMaybe s =
case reads s of
[(a, "")] -> Just a
_ -> Nothing
which makes your code become:
case readMaybe "a" of
Just a -> do
Nothing -> putStrLn "exception"
(You can also define
listToMaybe . map fst . filter (null . snd) . reads like dave4420 did; they'll be equivalent in practice, since none of the standard
Read instances ever return lists of more than one element.)
In general, you should try and use pure error-handling methods like this whenever possible, and only use IO exceptions when there's really no other option, or you're dealing with IO-specific code (like file/network handling, etc.). However, if you want to stick with exceptions, using
E.try instead should fix your error.
Based on your updated question, however, exceptions might be the right way to go after all; something like ErrorT would also work, but if you're already doing everything in IO to start with, then there's no harm in using exceptions. So I would write your example like this:
loadfunction = do
line1 <- getLine
x <- string2int line1
line2 <- getLine
y <- string2int line2
otherfunction x y
E.catch to handle the exceptions it throws; take a look at the documentation for
catch to see how to do that.