I think the scheme of using iterate
to make an ostensibly pure list of IO actions is the source of the trouble here. Your plan is to update state by user input, but to consider the succession of states as a stream that you can 'treat like a list'. If I use a genuine iterateM
to produce a proper stream things, then things go exactly as you were wanting them to go. So if I add the imports
import Streaming -- cabal install streaming
import qualified Streaming.Prelude as S
and after your main definitions write something like
runGameInfiniteStream gs = S.print $ S.take 1 $ S.dropWhile (not . gameEnded) steps
where
steps :: Stream (Of GameState) IO ()
steps = S.iterateM updateGameState (return gs)
main :: IO ()
main = runGameInfiniteStream (newGameState "car")
then I get
>>> main
You have 5 lifes. The word is "___"
Guess a letter:
c
You have 5 lifes. The word is "c__"
Guess a letter:
a
You have 5 lifes. The word is "ca_"
Guess a letter:
r
GameState {secretWord = "car", lives = 5, guesses = "rac"}
I think this is exactly the program you intended, but using a proper stream concept rather than mixing IO and lists in some complicated way. Something similar could be done with pipes
and conduit
and similar packages.
(Added later:)
To stream to states corresponding to a pure list of Chars (emulating the result coming from user input), you can just use scan
pureSteps
:: (Monad m) => GameState -> [Char] -> Stream (Of GameState) m ()
pureSteps gs chars = S.scan updateState gs id (S.each chars)
this is basically the same as Prelude.scanl
which can also be used (in the pure case) to view the updates:
>>> S.print $ pureSteps (newGameState "hi") "hxi"
GameState {secretWord = "hi", lives = 5, guesses = ""}
GameState {secretWord = "hi", lives = 5, guesses = "h"}
GameState {secretWord = "hi", lives = 4, guesses = "h"}
GameState {secretWord = "hi", lives = 4, guesses = "ih"}
>>> mapM_ print $ scanl updateState (newGameState "hi") "hxi"
GameState {secretWord = "hi", lives = 5, guesses = ""}
GameState {secretWord = "hi", lives = 5, guesses = "h"}
GameState {secretWord = "hi", lives = 4, guesses = "h"}
GameState {secretWord = "hi", lives = 4, guesses = "ih"}
To view the final 'winning' state, if it exists, you can write, e.g.
runPureInfinite
:: Monad m => GameState -> [Char] -> m (Of [GameState] ())
runPureInfinite gs = S.toList . S.take 1 . S.dropWhile (not . gameEnded) . pureSteps gs
-- >>> S.print $ runPureInfinite (newGameState "car") "caxyzr"
-- [GameState {secretWord = "car", lives = 2, guesses = "rac"}] :> ()
and so on.
unsafeInterleaveIO
, which is obviously terrible. Better that you remove the logic of your game from IO, then the desired semantics (i.e.takeWhile p someInfiniteList
and variants) will work as expected. Instead of havingupdateGameState :: GameState -> IO GameState
you must haveupdateGameState :: UserInput -> GameState -> GameState
and thenreadUserInput :: IO [UserInput]
is trivial - justmap read . lines <$> getContents
.