I 'm writing a game library. I have it working with a hierarchy of instances of
class Animation a where event :: a -> Event -> Writer [Event] a paint :: a -> IO ()
event handles an event and possibly emits new events for its parent to see (for example an exit
Button could wait for
MouseClickEvent and emit a
paint does painting. My generic use case would be
--a user defined Animation, say a button data MyChild = MyChild instance Animation Child where ... anything --a library defined Animation which is a composition of other animations data LibWrapper = LibWrapper (Event -> Writer [Event] LibWrapper) (IO ()) mkWrapper :: (Animation a) => a -> LibWrapper mkWrapper a = LibWrapper (\ev -> mkWrapper <$> event a ev) (paint a) instance Animation LibWrapper where event (LibWrapper e _) = e paint (LibWrapper _ p) = p --a user defined Animation for which the 'event' and 'paint' will be called data MyRoot = MyRoot LibWrapper instance Animation MyRoot where event (MyRoot a) ev = MyRoot <$> event a ev paint (MyRoot a) = paint a game = MyRoot (mkWrapper Child)
Now I want to allow custom events. That is,
class Animation a e where event :: a -> e -> Writer [e] a paint :: a -> IO ()
The trouble is that I can't get
instance Animation LibWrapper anyevent) to contain a more restricted
instance Animation MyChild MyEvent). I tried parametrizing
LibWrapper and having
instance Animation (LibWrapper event) event but Haskell seems to take the two occurrences of
event as unrelated and I don't know what to do about it.
I've also considered
class Animation a where event :: a e -> e -> Writer [e] (a e) paint :: a e -> IO ()
LibWrapper MyEvent that contains a
MyChild MyEvent and that's fine. But I don't have a way to define
instance MyChild MyEvent any more, do I?
I'd much prefer to have
MyEvent specified in the type of
MyRoot however, if there exists a way to pass it as a parameter to my library module, that would be acceptable too.
Just as I posted the question, I though to try
class Animation a e where event :: a e -> e -> Writer [e] (a e) paint :: a e -> IO ()
...just in case. Of course, it worked. I still don't really understand the type magic goingt on here. I'd appreciate an explanation.