Day 11: Plutonian Pebbles

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FAQ

  • lwhjp@lemmy.sdf.org
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    13 days ago

    Haskell

    Yay, mutation! Went down the route of caching the expanded lists of stones at first. Oops.

    import Data.IORef
    import Data.Map.Strict (Map)
    import Data.Map.Strict qualified as Map
    
    blink :: Int -> [Int]
    blink 0 = [1]
    blink n
      | s <- show n,
        l <- length s,
        even l =
          let (a, b) = splitAt (l `div` 2) s in map read [a, b]
      | otherwise = [n * 2024]
    
    countExpanded :: IORef (Map (Int, Int) Int) -> Int -> [Int] -> IO Int
    countExpanded _ 0 = return . length
    countExpanded cacheRef steps = fmap sum . mapM go
      where
        go n =
          let key = (n, steps)
              computed = do
                result <- countExpanded cacheRef (steps - 1) $ blink n
                modifyIORef' cacheRef (Map.insert key result)
                return result
           in readIORef cacheRef >>= maybe computed return . (Map.!? key)
    
    main = do
      input <- map read . words <$> readFile "input11"
      cache <- newIORef Map.empty
      mapM_ (\steps -> countExpanded cache steps input >>= print) [25, 75]
    
    • VegOwOtenks@lemmy.world
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      13 days ago

      Does the IORef go upwards the recursion tree? If you modify the IORef at some depth of 15, does the calling function also receive the update, is there also a Non-IO-Ref?

      • lwhjp@lemmy.sdf.org
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        13 days ago

        The IORef is like a mutable box you can stick things in, so readIORef returns whatever was last put in it (in this case using modifyIORef'). “last” makes sense here because operations are sequenced thanks to the IO monad, so yes: values get carried back up the tree to the caller. There’s also STRef for the ST monad, or I could have used the State monad which (kind of) encapsulates a single ref.