From: Neil Smith Date: Sat, 5 Dec 2020 20:49:27 +0000 (+0000) Subject: Finally done day 24 X-Git-Url: https://git.njae.me.uk/?a=commitdiff_plain;h=38d570c8528a68170cbfaf50cc750c7d4e1cde5c;p=advent-of-code-19.git Finally done day 24 --- diff --git a/advent24/src/advent24zip.hs b/advent24/src/advent24zip.hs deleted file mode 100644 index 36f272a..0000000 --- a/advent24/src/advent24zip.hs +++ /dev/null @@ -1,164 +0,0 @@ -{-# language DeriveFunctor #-} -{-# language TypeFamilies #-} -{-# language InstanceSigs #-} - - --- import Debug.Trace - - -import Data.Finite (Finite, modulo, getFinite) -import GHC.TypeNats (KnownNat) - - --- import Data.Functor.Compose (Compose(..)) --- import Data.Matrix (Matrix, matrix, safeGet, (!), prettyMatrix, mapPos, fromList, toList) -import qualified Data.Matrix as X -import Data.Bool (bool) -import Data.Distributive (Distributive(..)) -import Data.Functor.Rep (Representable(..), distributeRep) -import Data.Functor.Identity (Identity(..)) -import Control.Comonad.Representable.Store (Store(..), StoreT(..), store, experiment, runStore) -import Control.Comonad (Comonad(..)) - -import Data.Maybe -import Data.List -import qualified Data.Set as S -import qualified Data.Map as M - -import Control.Concurrent (threadDelay) -import Control.Monad (forM_) - -import Control.Comonad -import Control.Comonad.Cofree -import Data.Distributive -import Data.Functor.Rep -import qualified Data.Sequence as S -import qualified Data.List.NonEmpty as NE - - -instance Ord Grid where - m1 `compare` m2 = (X.toList m1) `compare` (X.toList m2) - - -type Coord = (Int, Int) -type Grid = X.Matrix Bool -type StoredGrid = Store X.Matrix Bool -type Rule = StoredGrid -> Bool - -type GridCache = S.Set Grid - --- mGet :: Coord -> Matrix a -> a --- mGet (r, c) mtx = fromMaybe False $ safeGet r c mtx --- mGet rc mtx = mtx ! rc - - -validCoord :: Coord -> Bool -validCoord (r, c) = r >= 1 && r <= gridSize && c >= 1 && c <= gridSize - - -instance Distributive X.Matrix where - distribute = distributeRep - -instance Representable X.Matrix where - type Rep X.Matrix = Coord - index m c = (X.!) m c -- mGet c m - tabulate = X.matrix gridSize gridSize - -gridSize :: Int -gridSize = 5 - - -neighbourCoords :: [Coord] --- neighbourCoords = [(x, y) | x <- [-1, 0, 1], y <- [-1, 0, 1], (x, y) /= (0, 0)] -neighbourCoords = [(-1, 0), (1, 0), (0, -1), (0, 1)] - -addCoords :: Coord -> Coord -> Coord -addCoords (x, y) (x', y') = (x + x', y + y') - -basicRule :: Rule -basicRule g = (alive && numNeighboursAlive == 1) || ((not alive) && (numNeighboursAlive == 1 || numNeighboursAlive == 2)) - where - alive = extract g - neighbours = experiment ((filter validCoord) . (at neighbourCoords)) g - numNeighboursAlive = length (filter id neighbours) - -step :: Rule -> StoredGrid -> StoredGrid -step = extend - -render :: StoredGrid -> String --- render (StoreT (Identity g) _) = foldMap ((++ "\n") . foldMap (bool "." "#")) g -render grid = X.prettyMatrix $ X.mapPos (\_ c -> bool "." "#" c) g - where g = unGrid grid - - -mkGrid :: [Coord] -> StoredGrid -mkGrid xs = store (`elem` xs) (1, 1) - -unGrid :: StoredGrid -> Grid --- unGrid (StoreT (Identity g) _) = g -unGrid grid = X.fromList gridSize gridSize gridList - where (sgf, _sgl) = runStore grid - gridList = [sgf (r, c) | r <- [1..gridSize], c <- [1..gridSize]] - - -at :: [Coord] -> Coord -> [Coord] -coords `at` origin = map (addCoords origin) coords - --- glider, blinker, beacon :: [Coord] --- glider = [(1, 0), (2, 1), (0, 2), (1, 2), (2, 2)] --- blinker = [(0, 0), (1, 0), (2, 0)] --- beacon = [(0, 0), (1, 0), (0, 1), (3, 2), (2, 3), (3, 3)] - - -tickTime :: Int -tickTime = 200000 - -start :: IO StoredGrid -start = do coords <- readGrid - return $ mkGrid coords - -- glider `at` (1, 1) - -- ++ beacon `at` (15, 5) - -main :: IO () -main = - do sG <- start - print $ part1 sG - -- let grids = map unGrid $ iterate (step basicRule) sG - -- forM_ (take 5 $ iterate (step basicRule) sG) $ \grid -> do - -- -- putStr "\ESC[2J" -- Clear terminal screen - -- putStrLn (render grid) - -- -- threadDelay tickTime - - -readGrid = - do gs <- readFile "data/advent24.txt" - let grid = lines gs - let isBug r c = (grid!!r)!!c == '#' - let ng = gridSize - 1 - return [(r + 1, c + 1) | r <- [0..ng], c <- [0..ng], isBug r c] - - --- part1 :: Grid -> [Grid] -part1 :: StoredGrid -> Integer --- part1 startingGrid = map fst $ takeWhile (uncurry . S.notMember) (zip grids gridCache) --- part1 startingGrid = map fst $ takeWhile (\(g, c) -> S.notMember g c) (zip grids gridCache) --- part1 startingGrid = fst $ head $ dropWhile (\(g, c) -> S.notMember g c) (zip grids gridCache) -part1 startingGrid = bioDiversity firstRepeat - where - -- grids = map unGrid $ iterate (step basicRule) startingGrid - -- gridCache = scanl' (flip . S.insert) S.empty grids - grids = fGrids startingGrid - gridCache = fGridCache grids - firstRepeat = fst $ head $ dropWhile (uncurry S.notMember) (zip grids gridCache) - -fGrids :: StoredGrid -> [Grid] -fGrids stG = map unGrid $ iterate (step basicRule) stG - -fGridCache :: [Grid] -> [S.Set Grid] -fGridCache gs = scanl' (flip S.insert) S.empty gs --- fGridCache gs = scanl' (\s g -> S.insert g s) S.empty gs - - -bioDiversity :: Grid -> Integer -bioDiversity g = sum $ map snd $ filter (id . fst) $ zip bugs $ iterate ( * 2) 1 - where bugs = X.toList g