I am trying to get good at Monads and have written the following Monads and functions in which I use the `>>`

(in the `apply`

-function) although it is not declared in the Monad itself. How come this is possible to compile, as I understand http://learnyouahaskell.com/a-fistful-of-monads#walk-the-line it is required to declare it in the instantiation of the Monad as is the case with the `Maybe Monad`

.

```
data Value =
NoneVal
| TrueVal | FalseVal
| IntVal Int
| StringVal String
| ListVal [Value]
deriving (Eq, Show, Read)
data RunErr = EBadV VName | EBadF FName | EBadA String
deriving (Eq, Show)
newtype CMonad a = CMonad {runCMonad :: Env -> (Either RunErr a, [String]) }
instance Monad CMonad where
return a = CMonad (\_ -> (Right a, []))
m >>= f = CMonad (\env -> case runCMonad m env of
(Left a, strLst) -> (Left a, strLst)
(Right a, strLst) -> let (a', strLst') = runCMonad (f a) env in (a', strLst ++ strLst'))
output :: String -> CMonad ()
output s = CMonad(\env -> (Right (), [] ++ [s]))
apply :: FName -> [Value] -> CMonad Value
apply "print" [] = output "" >> return NoneVal
```

Furthermore, how would I make it possible to show the output (print it) from the console when running apply. Currently I get the following error message, although my types have `derive Show`

:

```
<interactive>:77:1: error:
* No instance for (Show (CMonad Value)) arising from a use of `print'
* In a stmt of an interactive GHCi command: print it
```

`CMonad`

, which is where the error is coming from. GHC can't derive those instances for a function type anyway; they don't make a lot of sense to ask for. Finally, that definition of`>>=`

at the very least has a typo in it - make sure you check that it obeys the laws.`(a', strLst' ++ strLst)`

where you would expect`(a', strLst ++ strLst')`

instead.`>>=`

doesn't use`m`

at all, which is definitely incomplete at best.