I have occasionally encountered a pattern in code which resembles a monad but
does not keep a consistent type across `>>=`

.

Here is the simplest example I could come up with:

(First some type-level booleans:

```
data TyT = TyT
data TyF = TyF
class TyOr a b c | a b -> c
instance TyOr TyF TyF TyF
-- rest similarly
```

)

Now here is our "monad" type constructor:

```
data Marked p a = Marked a
deriving (Show)
```

For a given `p`

, `Marked p`

is a `* -> *`

which acts very much like `m`

in a
monad, but different, as occurs next, when we define "bind":

```
(>>%) :: (TyOr p q r) => Marked p a -> (a -> Marked q b) -> Marked r b
(Marked x) >>% f = Marked y where Marked y = f x
```

What's different here is that the result of `>>%`

has a different type
constructor than the arguments. Other than that it's basically a monad.

We could use it like this:

```
a :: Marked TyF Int
a = Marked 5
f :: Int -> Marked TyT Int
f x = Marked (x + 1)
ghci> a >>% f
Marked 6
ghci> :t a >>% f
a >>% f :: Marked TyT Int
```

(This was inspired by outis's observation that Python's "with" can't be a monad because it changes the type, but I've seen it in other (simpler) ways too).

`(>>%)`

looks closer to`flip (<*>) :: Applicative f => f a -> (f a -> f b) -> f b`

than`(>>=) :: Monad m => m a -> (a -> m b) -> m b`

, so I'd say this is more applicative-like than monad-like. – hammar Aug 21 '11 at 0:24