It's conventional to use
error only to denote a bug. A bug in the sense that something that the developer expects to never happen has happened. Although
error does indeed just throw an
ErrorCall exception, which as such can be caught the same way as any other exception, it's conventional to never catch it, so that the program crashes informing the end-user about the bug with the message provided as a parameter to
error. Later on the user can post that info on the issue tracker for example.
IOExceptions on the other hand are meant to be caught and are just an adaptation of the standard C/Java control flow. The
userError is usually used to specify some general case, when none of the more specific types like
ResourceBusy are appropriate.
It must be mentioned that solutions for both of the problems have evolved.
For bug-reporting there exist TemplateHaskell-based libraries such as loch-th and placeholders, which extend the
error to refer to a specific location in the source code and other niceties, like "todo" dummies, which let the compilation pass, but with a warning.
The exceptions of any kind are generally acknowledged as a hack into the otherwise neat Haskell's type system. The biggest problem is that both you and the compiler have no information on whether some computation, e.g.
IO (), will raise any kind of exception. And that has proven to be awful, with the emergence of a pattern of an exception thrown by some low-level library deeply nested in the dependencies hierarchy crawling out, which then triggers a chain of bug reports on different projects and inflicts tons of pain. That is why complete replacements for the exception-based control-flow have lately been developing, such as
EitherT monad transformer with a related errors util-library, or the
ErrorT transformer. Both of the solutions make exceptions explicitly represented in the type system. The
ErrorT however has received some criticism in favour of