I am currently working on a small game utilizing reactive banana and SDL. Since the goal is mostly to learn more about reactive banana and FRP, I attempted to use dynamic switching to set up a collection of game objects, but without much success so far.
In the Bartab example, the only example that uses event switching I've found, the event that ultimately triggers the creation of a new entry in the collection is acquired from outside the event network instead of using an internal event. My question is: Is this the only way to do it or is it just a special case for this example?
Are there any more examples of dynamic event switching being used in reactive banana?
From what I understand I get a Moment t (Anytime Behavior a), use execute to create an Event t (Anytime Behavior a), which is then in turn used to update the Behavior carrying the collection. The Moment t (Anytime Behavior a) is created using trimB on a Behavior created from the triggering Event. If this triggering event originates in the event network, it doesn't compile with the error message "Could not deduce (t ~ t1)". I'm not sure what the ~ exactly means, but it obviously throws the error because the two Frameworks values (t) of the event network and this new Moment value are different.
So, long story short, I don't understand how Event Switching in reactive banana works and I'm not sure why. It should be relatively straightforward in theory.
-- Event Network -- ========================== setupNetwork :: forall t. Frameworks t => (EventSource Command, EventSource ()) -> IORef SpriteMap -> GameMap -> Moment t () setupNetwork ((addHandlerE, _), (addHandlerT, _)) sprites map = do -- Input Events ---------------- eInput <- fromAddHandler addHandlerE -- Player Commands eFrame <- fromAddHandler addHandlerT -- Event on each Frame let [...] eSpawnEvent :: Event t (DSCoord) eSpawnEvent = extractCoord <$> eLeftClick where extractCoord (LeftClick c) = c spawnPos :: Frameworks s => Moment s (AnyMoment Behavior DSCoord) spawnPos = trimB $ stepper (0,0) eSpawnEvent eSpawnPos <- execute $ (FrameworksMoment spawnPos <$ eSpawnEvent) [...]
I simply tried to mirror newEntry / eNewEntry from the example, just using a normal event to create the new behavior. This produces the "Could not deduce (t ~ s)" error in spawnPos.
It works, but now the same error comes up on the line where I use execute to create the Event. "Could not deduce t ~ t1"