@thesecretmaster welcome! glad you dropped by. Sometimes we're pretty quiet...

o/

what brings you?

@LeifWillerts welcome!

hi

wow, 26 users in 23 rooms, so 3 in one is a lot!

@AaronHall Well, I had a couple good conversations about Haskell with Duplode in here a few weeks ago, so I starred the room, and just now I clicked "rejoin favorite rooms" :P

ah, I guess I forgot.

I've been busy with non-FP stuff since then, so I haven't gotten a chance to have new questions

I was trying to create monads in Python but I'm trying to solve the associativity issue...

I... don't know enough to understand what that entails, at all

Still a little shakey on Haskell monads

Shall I try to explain?

please do

@AaronHall

Loosely - a Monad with type signature m a is essentially a container m, of any type a. It's like a tuple of length one, with two methods/functions. The first function is return which creates the monad (return a -> m a). The second is "bind", written >>= has the signature m a -> (a -> m b) -> m b. It works like a pipe, where you have (mixing types with the function, so this isn't real Haskell:) m a >>= (a -> m b) >>= (b -> m c) >>= ... and so on.

@thesecretmaster did you get all that?

Yeah, I understand monads in haskell. I don't exactly understand how they generalize to other languages, but I can roughly follow.

So you can basically make a pipeline. I'll make a gist for my Python "monad" but it's not quite a monad because it isn't associative...

but here, I'll show the intuition for "bind" maybe...

a = 1
b = a + 1 # bind a in b,
c = b * 2 # bind b in c, etc...
d = c ** 3
print(d)

these are just names and not types but if each type were different that would be fine in Haskell...

can't follow that

I think if I can get the lazy monad figured out I've got a true monad: gist.github.com/aaronchall/27f5cb71a760da2da99fd69c954e3df4

@LeifWillerts which part?

ok looking at the gist now

but what you quoted here just seems like composing functions

I guess you mean the side effect is that b,c,d stay set to a value

oh so that looks interesting

don't know much about python but I see what thunk and partial are supposed to do

__or__ rebinds |?

__or__ creates behavior for |, yes.

if it were easy to just make a new operator, I would have used >>= instead, but I think it's actually nice that making new operators is hard in Python, languages with a surplus of three character operators are much harder to pick up.

I chose | because of the comparison I like to make between the >>= operator and unix pipes.

no justification necessary, it's nice

ok, and what is the problem?

the problem I face right now is figuring out how to lazily bind such that I can have associativity.

i.e. ((a | b) | c) == (a | (b | c))

how to force Python to be lazy? or to do what partial is supposed to be doing?

hi @meh

hi @MehdiB.

partial is partial application, you can actually provide all the arguments up front and then call it later.

@LeifWillerts hello Leif :)

yep

but that's not lazy enough?

well, I need associativity, and if the result of a|b is a partially applied function object, it's no longer a monad.

I probably need compose, and in Python, I'll have to write my own.

I'm also thinking about the problem of how to solve where I'd need a redundant function for each monad class.

but I think Haskell has the same problem.

I could make them methods of the abstract class and that could solve the type problem, but then the signatures would be different (m a -> m b instead of a -> m b) and I'd like to keep the signatures the same.

if I let bind take care of instantiating the monad, the signature becomes a -> b.

maybe a @monadic decorator could solve the problem...

yeah, still applies

gave up on reading the referenced answer

yeah, the signatures have to stay the same, otherwise you just have functors

I don't even know what a decorator is / would be able to do in Python

but what about all the other Python monad implementations / attempts?

they don't exist for the purposes of my exploration. It would be like looking up the answers for a crossword puzzle before trying to finish it yourself.

besides, better than half chance they're terribad and incorrect.

ah ok, that kind of mindset

most, probably

I try to avoid reading other answers when working on my canonical ones for that reason. Only when I've constructed my full answer do I start critiquing the other ones.

so I can't edit my own message - I don't know how I wrote "the signatures have to stay the point", I meant "... the same"

@LeifWillerts you have like 2 or 3 minutes (I forget which) before messages become uneditable. I can edit them because I'm a mod (e.g. I fixed your __or__ where you left out the backtick) but I usually avoid it.

yeah I saw that fix, thanks

will read whether and how this continues

nice talking to you!

part of my problem with associability is that Haskell knows which monad type because Hindley Milner type inference, but Python doesn't do that.

So I have to hard-code it... :/

anyone hanging out, ping me!