How do you implement in **OCaml** the operator

```
mfix : ('a -> 'a state_monad) -> 'a state_monad
```

for a state monad? (Since it relies heavily on laziness, I guess one has to use the Lazy module from the standard library).

More precisely:

assuming a signature with

```
type 'a t
( >>= ) : 'a t -> ('a -> 'b t) -> 'b t
```

`mfix`

is the least fixpoint of the equation: `mfix f = mfix f >>= f`

But if you define it simply as

```
let rec mfix f = mfix f >>= f
```

you end up with looping recursion due to the strict semantics of OCaml as opposed to the lazy semantics of Haskell.

Take for instance

```
type 'a t = 'a list
let ( >>= ) m f = List.flatten (List.map f m)
```

then for example

```
let _ = mfix (fun _ -> [])
```

leads to a stack overflow while I would like it to be `[]`

.

I guess there is a way to overcome this using the Lazy module of the standard library but I cannot find how.

`mfix`

for Haskell's`StateT`

:`mfix f = StateT $ \s -> mfix $ \ ~(a, _) -> runStateT (f a) s`

? – Cirdec Jul 24 at 22:17`val mfixLazy : ('a Lazy.t -> 'a Lazy.t state_monad) -> 'a state_monad`

and`val mfixThunk : ('a thunk -> 'a thunk state_monad) -> 'a state_monad`

where`type 'a thunk = unit -> 'a`

are both definable (at least if we're talking about thelazystate monad). You will probably need`val join : 'a thunk thunk -> 'a thunk`

and`val fstThunk : ('a, 'b) thunk -> 'a thunk`

. – Lambdageek Jul 25 at 22:10