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.