I'm trying to work out how to define flatmap
for my state monad-like thing.
class State(Protocol[T_co]):
@abstractmethod
def __call__(self: S, i: int) -> tuple[T_co, S]:
...
A State
encapsulates the state. Here's unit
def unit(t: T) -> State[T]:
return lambda _: (t, unit(t))
I got the design from a book where they use State[S, A] = S -> (A, S)
but I found that a bit cumbersome (and also needed the extra argument i
), so here a class Foo(State[int])
is almost like a State[Foo, int]
. I wonder if my attempt to simplify it has stopped it being a monad.
I tried something like
def flatmap(f: Callable[[T], State[U]], s: State[T]) -> State[U]:
def stateful(i: int) -> tuple[U, State[U]]:
t, s_new = s(i)
u, su = f(t)(i)
return u, flatmap(f, s_new) # or u, su
return stateful
but though I think this satisfies identity (haven't checked associativity), I'd expect to use both new states s_new
and su
.
For the sake of completeness, here's a horror which is a literal translation of flatmap
from the book which uses S -> (A, S)
to my case, with an extra argument i: int
. I have zero expectations it will work
def flatmap(f: Callable[[T], State[U]], s: State[T]) -> State[U]:
class _State(State[U]):
def __call__(self, i: int) -> tuple[U, _State]:
x, y = type(s).__call__(self, i)
return type(f(x)).__call__(y, i)
return _State()