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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()

1 Answer 1

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I think this isn't possible. The standard definition of state uses a S -> (A, S). Adding an extra argument (S, int) -> (A, S) may or may not break it, but what probably will is the fact that a (S, int) -> (A, S) can accept anything as it first argument, whereas an instance of (a subclass of) class State can only accept an instance of that class as self. That is, I've restricted myself to a State that can only accept itself as a first argument. How exactly this precludes defining a flatmap I'm still trying to work out.

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