Can anybody explain why exceptions may be thrown outside the IO monad, but may only be caught inside it?
One of the reasons is the denotational semantics of Haskell.
One of the neat properties of (pure) Haskell functions is their monotonicity -- more defined argument yields more defined value. This property is very important e.g. to reason about recursive functions (read the article to understand why).
Denotation of exception by definition is the bottom,
Now, if we could catch exceptions, we could break this inequality by "recognizing" the bottom (catching the exception) and returning more defined value:
Here's complete working demonstration (requires base-4 Control.Exception):
Another reason, as TomMD noted, is breaking referential transparency. You could replace equal things with equal and get another answer. (Equal in denotational sense, i.e. they denote the same value, not in
How would we do this? Consider the following expression:
This is a non-terminating recursion, so it never returns us any information and thus is denoted also by
(The latter is always true for strict functions, because Haskell provides no means to detect non-terminating computation -- and cannot in principle, because of the Halting problem.)
|show 1 more comment|
Because exceptions can break referential transparency.
You're probably talking about exceptions that are actually direct results of the input. For example:
If you are lamenting not being able to catch errors like this then I assert to you that the functions shouldn't be relying on
Unlike the above (and what causes the issue behind your question), exceptions can be from signals such as out of memory conditions that are completely independent of the value being computed. This is clearly not a pure concept and must live in IO.