Suppose you're building a fairly large simulation in Haskell. There are many different types of entities whose attributes update as the simulation progresses. Let's say, for the sake of example, that your entities are called Monkeys, Elephants, Bears, etc..
What is your preferred method for maintaining these entities' states?
The first and most obvious approach I thought of was this:
mainLoop :: [Monkey] -> [Elephant] -> [Bear] -> String mainLoop monkeys elephants bears = let monkeys' = updateMonkeys monkeys elephants' = updateElephants elephants bears' = updateBears bears in if shouldExit monkeys elephants bears then "Done" else mainLoop monkeys' elephants' bears'
It's already ugly having each type of entity explicitly mentioned in the
mainLoop function signature. You can imagine how it would get absolutely awful if you had, say, 20 types of entities. (20 is not unreasonable for complex simulations.) So I think this is an unacceptable approach. But its saving grace is that functions like
updateMonkeys are very explicit in what they do: They take a list of Monkeys and return a new one.
So then the next thought would be to roll everything into one big data structure that holds all state, thus cleaning up the signature of
mainLoop :: GameState -> String mainLoop gs0 = let gs1 = updateMonkeys gs0 gs2 = updateElephants gs1 gs3 = updateBears gs2 in if shouldExit gs0 then "Done" else mainLoop gs3
Some would suggest that we wrap
GameState up in a State Monad and call
updateMonkeys etc. in a
do. That's fine. Some would rather suggest we clean it up with function composition. Also fine, I think. (BTW, I'm a novice with Haskell, so maybe I'm wrong about some of this.)
But then the problem is, functions like
updateMonkeys don't give you useful information from their type signature. You can't really be sure what they do. Sure,
updateMonkeys is a descriptive name, but that's little consolation. When I pass in a god object and say "please update my global state," I feel like we're back in the imperative world. It feels like global variables by another name: You have a function that does something to the global state, you call it, and you hope for the best. (I suppose you still avoid some concurrency problems that would be present with global variables in an imperative program. But meh, concurrency isn't nearly the only thing wrong with global variables.)
A further problem is this: Suppose the objects need to interact. For example, we have a function like this:
stomp :: Elephant -> Monkey -> (Elephant, Monkey) stomp elephant monkey = (elongateEvilGrin elephant, decrementHealth monkey)
Say this gets called in
updateElephants, because that's where we check to see if any of the elephants are in stomping range of any monkeys. How do you elegantly propagate the changes to both the monkeys and elephants in this scenario? In our second example,
updateElephants takes and returns a god object, so it could effect both changes. But this just muddies the waters further and reinforces my point: With the god object, you're effectively just mutating global variables. And if you're not using the god object, I'm not sure how you'd propagate those types of changes.
What to do? Surely many programs need to manage complex state, so I'm guessing there are some well-known approaches to this problem.
Just for the sake of comparison, here's how I might solve the problem in the OOP world. There would be
Elephant, etc. objects. I'd probably have class methods to do lookups in the set of all live animals. Maybe you could lookup by location, by ID, whatever. Thanks to the data structures underlying the lookup functions, they'd stay allocated on the heap. (I'm assuming GC or reference counting.) Their member variables would get mutated all the time. Any method of any class would be able to mutate any live animal of any other class. E.g. an
Elephant could have a
stomp method that would decrement the health of a passed-in
Monkey object, and there would be no need to pass that
Likewise, in an Erlang or other actor-oriented design, you could solve these problems fairly elegantly: Each actor maintains its own loop and thus its own state, so you never need a god object. And message passing allows one object's activities to trigger changes in other objects without passing a bunch of stuff all the way back up the call stack. Yet I have heard it said that actors in Haskell are frowned upon.
Finally, my apologies for this wall of text. My hope is that the lengthiness of this question will be justified by its usefulness to my fellow Haskell newbies.