I am currently experimenting with typeclasses & as an exercise, the ability to log in a variety of contexts (i.e. print to the console in the context of IO). I started off by implementing my Logger as a typeclass made up of various functions for logging with the idea in mind that I could define an instance for the IO monad but leave room for additional implementation in the context of other monads.

The end result is :

-- |Class / wrapper for convenient use within another monad.
class Logger m where
    -- |Logs an error message /(prefixed with the '__[ERROR]__' tag)/
    logError    :: String -> m ()
    -- |Logs a warning message /(prefixed with the '__[WARNING]__' tag)/
    logWarning  :: String -> m ()

    -- |Logs a success message /(prefixed with the '__[SUCCESS]__' tag)/
    logSuccess  :: String -> m ()

    -- |Logs an informative message /(prefixed with the '__[INFO]__' tag)/
    logInfo     :: String -> m ()

    -- |Logs a regular message /(i.e with no prefix)/
    logMsg      :: String -> m ()

-- |Instance of logger in the IO monad
instance Logger IO where
    logError    = printError
    logWarning  = printWarning
    logSuccess  = printSuccess
    logInfo     = printInfo
    logMsg      = printMsg

-- |Instance of logger for a state
instance (MonadIO m) => Logger (StateT s m) where
    logError    = liftIO . printError
    logWarning  = liftIO . printWarning
    logSuccess  = liftIO . printSuccess
    logInfo     = liftIO . printInfo
    logMsg      = liftIO . printMsg

This seemed like a good idea at the time (and coming from an OOP background I am drawn to making everything into 'classes' when I probably shouldn't)

I have come to realise I could have just as easily defined my logging functions directly with type contraints and call it a day, e.g. :

logError :: (MonadIO m) => String -> m ()
logError = liftIO . printError

And so on for the other functions and I would have something that can be called in any IO-based monad...

Obviously, both solutions have got their benefits and their trade-offs.

Could my use-case of a typeclass for Logger be considered "abuse" or do I have the right idea in implementing it that way (my understanding is that type classes allow for ad hoc polymorphism which is what I had in mind).

One limitation I have read about & which I am still trying to fully conceptualise is the fact there can only be one instance of a typeclass for any given type, so in my case, I have already defined an instance for StateT which live in the IO monad, meaning I lose the ability to override for subsquent states with the same signature. I am aware of this caveat but I am having a hard time thinking of a situation where this would become a concrete problem.

On the flip side, the simple function-based approach is just as elegant to use although it does prevent overriding the behaviour without defining a brand new function to be used in a different context.

Should typeclasses only be used/written as a last resort when functions can just as easily do the job?

I would appreciate some insight and feedback on the two approaches.

Thanks in advance,

  • One question per post please.
    – user1198582
    Apr 22, 2021 at 0:17
  • 1
    I have updated my post to only feature one question, thanks.
    – Althar93
    Apr 22, 2021 at 0:20
  • 1
    Haskell is easy to refactor. So go with the simple solution first. Apr 22, 2021 at 0:21
  • 2
    I think your StateT instance should have a different constraint: instance Logger m => Logger (StateT s m) where logError = lift . logError, etc.
    – dfeuer
    Apr 22, 2021 at 1:08
  • 1
    Since you come from an object-oriented background and ask about logging, you may find my article series on Repeatable execution useful. The three-part series includes a full Haskell example, including all source code on GitHub. Apr 22, 2021 at 5:39

1 Answer 1


Absolutely reuse typeclasses that already do the thing you care about -- in this case, MonadIO.

That said, I think logging is an especially interesting application. For example, consider AccumT [String] IO. Should the log lift an IO operation, or add? It's not super clear that one is clearly correct and the other clearly incorrect. For that reason, you might even consider going from the typeclass route -- which can only have one implementation per type -- to the ADT route:

-- incidentally, you should use this in your class, too
data Level = Error | Warning | Success | Info | Msg
    deriving (Eq, Ord, Read, Show, Bounded, Enum)

newtype Logger m = Logger { log :: Level -> String -> m () }

Then you could have separate implementations for AccumT:

makeLoggingMessage :: Level -> String -> String
makeLoggingMessage lev msg = show lev ++ ": " ++ msg -- or whatever

viaIO :: MonadIO m => Logger m
viaIO = Logger $ \lev msg -> liftIO . putStrLn $ makeLoggingMessage lev msg

viaAccum :: Monad m => Logger (AccumT [String] m)
viaAccum = Logger $ \lev msg -> add [makeLoggingMessage lev msg]

There might be other variants, too; maybe one that adds a timestamp and one that doesn't, for example.

By the way, this data type suggestion is not merely academic. The lumberjack library's LogAction data type1 is almost exactly this, has a whole library built around it, and is used by professional Haskell programmers.

Choosing between the three options -- existing typeclass, new typeclass, or data type -- is something that you'll slowly gain experience at doing. As a rule of thumb, probably the most reliable advice I can give newcomers on this topic is: don't create a new typeclass. ^_^

1Some folks may also recognize this from the co-log library, which I'm told was a heavy inspiration in the design of lumberjack.

  • I had not considered the possibility to use newtype as you suggested, that is definitely an avenue I want to investigate. It looks more verbose in that you have to have differently named implementations but it does look far more powerful & extensible also. Alongside your answer and the previous comments I feel like this answers the question quite well as well as providing enough avenues that the benefits of the respective alternatives become clear.
    – Althar93
    Apr 22, 2021 at 8:53

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