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I need help to understand the usage of the three Haskell functions

  • try (Control.Exception.try :: Exception e => IO a -> IO (Either e a))
  • catch (Control.Exception.catch :: Exception e => IO a -> (e -> IO a) -> IO a)
  • handle (Control.Exception.handle :: Exception e => (e -> IO a) -> IO a -> IO a)

I need to know several things:

  1. When do I use which function?
  2. How do I use this function with some simple example?
  3. Where is the difference between catch and handle? They have nearly the same signature only with a different order.

I will try to write down my trials and hope you can help me:

try

I have an example like:

x = 5 `div` 0
test = try (print x) :: IO (Either SomeException ())

I have two questions:

  1. How can I set a custom error output?

  2. What can i do to set all errors to SomeException so I dont must write the :: IO (Either SomeException())

catch/try

Can you show me a short example with a custom error output?

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4 Answers

up vote 50 down vote accepted

When do I use which function?

Here's the recommendation from the Control.Exception documentation:

  • If you want to do some cleanup in the event that an exception is raised, use finally, bracket or onException.
  • To recover after an exception and do something else, the best choice is to use one of the try family.
  • ... unless you are recovering from an asynchronous exception, in which case use catch or catchJust.

try :: Exception e => IO a -> IO (Either e a)

try takes an IO action to run, and returns an Either. If the computation succeeded, the result is given wrapped in a Right constructor. (Think right as opposed to wrong). If the action threw an exception of the specified type, it is returned in a Left constructor. If the exception was not of the appropriate type, it continues to propagate up the stack. Specifying SomeException as the type will catch all exceptions, which may or may not be a good idea.

Note that if you want to catch an exception from a pure computation, you will have to use evaluate to force evaluation within the try.

main = do
    result <- try (evaluate (5 `div` 0)) :: IO (Either SomeException Int)
    case result of
        Left ex  -> putStrLn $ "Caught exception: " ++ show ex
        Right val -> putStrLn $ "The answer was: " ++ show val

catch :: Exception e => IO a -> (e -> IO a) -> IO a

catch is similar to try. It first tries to run the specified IO action, but if an exception is thrown the handler is given the exception to get an alternative answer.

main = catch (print $ 5 `div` 0) handler
  where
    handler :: SomeException -> IO ()
    handler ex = putStrLn $ "Caught exception: " ++ show ex

However, there is one important difference. When using catch your handler cannot be interrupted by an asynchroneous exception (i.e. thrown from another thread via throwTo). Attempts to raise an asynchroneous exception will block until your handler has finished running.

Note that there is a different catch in the Prelude, so you might want to do import Prelude hiding (catch).

handle :: Exception e => (e -> IO a) -> IO a -> IO a

handle is simply catch with the arguments in the reversed order. Which one to use depends on what makes your code more readable, or which one fits better if you want to use partial application. They are otherwise identical.

tryJust, catchJust and handleJust

Note that try, catch and handle will catch all exceptions of the specified/inferred type. tryJust and friends allow you to specify a selector function which filters out which exceptions you specifically want to handle. For example, all arithmetic errors are of type ArithException. If you only want to catch DivideByZero, you can do:

main = do
    result <- tryJust selectDivByZero (evaluate $ 5 `div` 0)
    case result of
        Left what -> putStrLn $ "Division by " ++ what
        Right val -> putStrLn $ "The answer was: " ++ show val
  where
    selectDivByZero :: ArithException -> Maybe String
    selectDivByZero DivideByZero = Just "zero"
    selectDivByZero _ = Nothing

A note on purity

Note that this type of exception handling can only happen in impure code (i.e. the IO monad). If you need to handle errors in pure code, you should look into returning values using Maybe or Either instead (or some other algebraic datatype). This is often preferable as it's more explicit so you always know what can happen where. Monads like Control.Monad.Error makes this type of error handling easier to work with.


See also:

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4  
fairly informative, but I'm surprised you left out the rule of thumb from the Control.Exception docs. I.e. "use try, unless you're recovering from an asynchronous exception, in which case use catch" –  John L May 15 '11 at 20:05
    
@John L: Good point. Added :) –  hammar May 15 '11 at 20:11
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Re: question 3: catch and handle are the same (found through hoogle). The choice of which to use will usually depend on the length of each argument. If the action is shorter, use catch and vice versa. Simple handle example from the documentation:

do handle (\NonTermination -> exitWith (ExitFailure 1)) $ ...

Also, you could conceivably curry the handle function to make a custom handler, which you could then pass around, eg. (adapted from documentation):

let handler = handle (\NonTermination -> exitWith (ExitFailure 1))

Custom error messages:

do       
    let result = 5 `div` 0
    let handler = (\_ -> print "Error") :: IOException -> IO ()
    catch (print result) handler
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I see that one thing that also annoys you (your second question) is the writing of :: IO (Either SomeException ()) and it annoyed me too.

I changed some code now from this:

let x = 5 `div` 0
result <- try (print x) :: IO (Either SomeException ())
case result of
    Left _ -> putStrLn "Error"
    Right () -> putStrLn "OK"

To this:

let x = 5 `div` 0
result <- try (print x)
case result of
    Left (_ :: SomeException) -> putStrLn "Error"
    Right () -> putStrLn "OK"

To do this, you must use the ScopedTypeVariables GHC extension but I think aesthetically it's worth it.

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Edward Z. Yang has an article on exception handling in haskell:

http://blog.ezyang.com/2011/08/8-ways-to-report-errors-in-haskell-revisited/

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