If I understood rightly, exceptions in Haskell basically intended to deal within IO monad. At least exception could be caught inside IO monad.

But sometimes even pure functions may throw an exception, e.g. read "..." :: Int (when reading string does not represent integer), operator (!!) (when we trying to get item out of range of the list), and so forth. And this is true behavior, I don't deny. However, I would not want to change signature of function just to get it chance to catch possible exception, because in this case I have to change signature all the functions by call stack before.

Is there some pattern to deal with exceptions more comfortable in Haskell, out of IO monad? May be I should use unsafePerformIO in this case? How "safe" to use unsafePerformIO just for catching exceptions in pure functions?

  • 3
    I think those exceptions are the "you have a bug" kind, and as such should not be caught in the first place. Jan 5, 2012 at 23:15

4 Answers 4


In pure code, it's usually best to avoid exceptions from happening in the first place. That is, don't use head unless you're absolutely positive that the list isn't empty, and use reads and pattern matching instead of read to check for parse errors.

I think a good rule of thumb is that exceptions in pure code should only come from programming errors, i.e. calls to error, and these should be treated as bugs, not something an exception handler can deal with.

Note that I'm only talking about pure code here, exceptions in IO have their uses when dealing with the exceptional cases that sometimes happen when interfacing with the "real world". However, pure mechanisms like Maybe and ErrorT are easier to work with, so they are often preferred.

  • 1
    I disagree vehemently that exceptions in IO are fine and useful in Haskell. You're always better off using Maybe, ErrorT, or a similar explicit method. It's much simpler to reason about; exception-handling code always seems to go hand-in-hand with bugs. It's more composable. It's more maintainable. They should be banned.
    – John L
    Jan 5, 2012 at 23:27
  • @JohnL: Hm, yes, that came out a bit wrong. I've revised my statement. I don't think they should be banned, though. Some things, like asynchroneous exceptions (painful as they can be), cannot be implemented with things like ErrorT. In practice, I usually end up having errors I intend to handle use ErrorT, and have things where the best I can do is clean up after myself use bracket and related IO exception functions.
    – hammar
    Jan 5, 2012 at 23:48
  • Async exceptions certainly are a problem. I should have qualified my comment that I only meant synchronous exceptions, because I don't see a better solution for async exceptions either.
    – John L
    Jan 6, 2012 at 2:10

That's what monads are for! (Well, not just that, but exception handling is one use of monadic idioms)

You do change the signature of functions that can fail (because they change semantics, and you want to reflect as much of the semantics as possible in the type, as a rule of thumb). But code that uses these functions does not have to pattern match on every failable function; they can bind if they don't care:

head :: [a] -> Maybe a

eqHead :: (Eq a) => [a] -> Maybe [a]
eqHead xs = do
    h <- head xs
    return $ filter (== h) xs

So eqHead cannot be written "purely" (a syntactic choice whose alternatives I would like to see explored), but it also doesn't really have to know about the Maybe-ness of head, it only has to know that head can fail in some way.

It's not perfect, but the idea is that functions in Haskell do not have the same style as Java. In typical Haskell design, an exception does not usually occur deep in the call chain. Instead, the deep call chain is all pure, when we know that all arguments are fully defined and well-behaved, and validation occurs at the outermost layers. So an exception bubbling up from the deep is not really something that needs to be supported in practice.

Whether the difficulty of doing so causes the design patterns, or the design patterns cause the lack of features supporting this is a matter of debate.


If you anticipate that a function such as read may cause an exception, then why not simply restructure your code to avoid the possibility of the exception occurring?

As a more direct answer to your question, there is spoon.

  • Note that spoon does use unsafePerformIO. Shouldn't it have some NOINLINE sprinkled in there, too? Or something like that?
    – Dan Burton
    Jan 6, 2012 at 4:21

I'm going to go out on a limb and disagree strongly with the opinions of people who say that the solution is to "just avoid having bugs in the first place." I would structure your code around handling your errors within one of these monads.

One of the main strengths of pure functions (and FP) is the ability to reason about your code, along the lines of "if a function has the type [a] -> a, then for all lists of a type a, I'll get back a value of type a." Exceptions like these cut the legs out from under that.

A good reason for head being the way that it is, is that it's much simpler for beginners to learn list manipulations before Maybe and friends. But if you can understand a better way to do it, I'd avoid these risks.

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