Short answer is: Replace
Error by nothing at all, replace
ExceptT, and things should continue to work as long as you don't use
fail (which now has a different definition), or failing pattern matches in
The essential difference between the old
Control.Monad.Error system and the new
Control.Monad.Except system is that the new system imposes no class restriction on the error/exception type.
It was found that the ability to use any error/exception type at all, polymorphically, was more useful than the somewhat hacky ability to customize conversion of string error messages.
So the class
Error has simply disappeared.
As a side effect,
ExceptT now is lifted from the underlying monad. This also changes the effect of failing patterns in
The old definition was:
fail msg = ErrorT $ return (Left (strMsg msg))
which I think is equivalent to
fail msg = throwError (strMsg msg)
If you still need this behavior, you can instead use
throwE works instead if you're using
Control.Monad.Trans.Except) rather than
do pattern matching failure would apply to things like
Just x <- myErrorTAction
when the action actually returns
Nothing. This is more awkward, but you could e.g. replace it with an explicit
case match (essentially desugaring it):
y <- myErrorTAction
case y of
Nothing -> throwE ...
Just x -> do
@DanielWagner suggests the following to avoid extra indentation:
x <- myErrorTAction >>= maybe (throwError ...) return
The removal of
Error also eliminates the need for an inconsistency in naming that
Control.Monad.Error had: Most transformers follow the rule that
SomethingT is the name of the transformer, and
Something is a type alias for
SomethingT ... Identity. The old
ErrorT broke that because the
Error class was used for something entirely different.
In the new system,
Except e = ExceptT e Identity, like for other transformers.