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I have a longish recursive function with many cases for all of the different data forms it can operate on. The return type of the function is a Maybe, where Nothing represents failure. The recursive call fails if any of its subcalls fail, so the computation in each case of the function is done in a do block.

The implementation I have so far is definitely buggy, because I'm giving it input that should succeed, and it is failing, i.e. evaluating to Nothing. However, I cannot determine which subcall is evaluating to Nothing. To try to pinpoint where this happens, I want to trace all of the recursive calls. I had the idea that if I could insert a trace call into Maybe's bind (that is, (>>=)), I wouldn't have to insert trace into all of the cases of the function.

To implement this idea, I just copied the implementation of the Maybe type along with its Monad instance and modified it as I described: I inserted calls to trace in the bind function.

data TraceMaybe a =  TNothing | TJust a
  deriving (Eq, Ord, Show)

tracet :: TraceMaybe a -> TraceMaybe a
tracet TNothing = trace "monad failed" TNothing
tracet x        = trace "monad good" x

instance  Monad TraceMaybe  where
    (TJust x) >>= k = tracet $ k x
    TNothing  >>= _ = TNothing
    (TJust _) >>  k = tracet k
    TNothing  >>  _ = TNothing
    return          = TJust
    fail m          = TNothing

Then I was mostly able to just change the return type of the big function, although I had to change some things where my code assumed that the Monad was actually Maybe (catMaybes, for example),

My question is this: is there a more elegant, compositional way to create an only slightly modified version of Maybe? I've heard of "Monad transformers", but the examples I've seen don't seem entirely relevant.

I wonder if there is some way to combine Writer and Maybe to do this.

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1 Answer 1

Yes, you can combine Writer and Maybe to solve your problem.

With monad transformers, order often matters. Which should be the base monad, and which the transformer? Here it is Writer the one that should be the base monad, because otherwise a failure would wipe out the log (see this other answer).

import Control.Monad
import Control.Monad.Writer.Strict
import Control.Monad.Trans.Maybe

computation :: Int -> MaybeT (Writer [String]) Int
computation i = do
    foo <- return 5  
    lift $ tell ["This is a log message"]
    if i == 3
        then mzero -- from MonadPlus, of which MaybeT is an instance
        else return $ i + foo 

*Main> runWriter . runMaybeT $ computation 3
(Nothing,["This is a log message"])

*Main> runWriter . runMaybeT $ computation 2
(Just 7,["This is a log message"])

A good introduction to transformers is the paper "Monad Transformers Step by Step".

The mtl package has typeclasses that let you avoid sprinkling your code with lifts in many cases, and also let you write more generic signatures (saying "the monad should have MonadWriter capabilities" instead of having to specify the exact monad stack).

computation' :: (MonadWriter [String] m) => Int -> MaybeT m Int
computation' i = do
    foo <- return 5  
    tell ["This is a log message"] -- no explicit lift
    if i == 3
        then mzero     
        else return $ i + foo 

When the number of log messages grows, using lists as the monoid user by Writer becomes inefficient because the append function is costly. You can turn to structures with more efficient append, like dlists.

Sometimes Writer is inconvenient because you only have access to the log messages at the end of the computation. You can use streaming monad transformers like the ones in the conduit or pipes packages to be able to log messages in the middle of the computation, without forcing your monad to live in IO.

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3  
if cond then mzero else ... is equivalent to guard (not cond); .... –  Xeo May 10 at 8:57

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