{-# OPTIONS_GHC -Wno-x-partial #-} module Aoc where aocMain' :: (Show p, Show a) => ([String] -> p) -> (p -> (a, c)) -> (p -> c -> a) -> IO () aocMain' parseFile part1 part2 = do contents <- readFile "input.txt" let input = parseFile $ lines contents let (part1Answer, data') = part1 input putStrLn $ "Part 1: " ++ show part1Answer let part2Answer = part2 input data' putStrLn $ "Part 2: " ++ show part2Answer dup :: a -> (a, a) dup a = (a, a) aocMain :: (Show p, Show a) => ([String] -> p) -> (p -> a) -> (p -> a) -> IO () aocMain parseFile part1 part2 = aocMain' parseFile ((,()) . part1) (const' part2) const' :: (a -> b) -> a -> c -> b const' f a _ = f a enumerate :: [a] -> [(Int, a)] enumerate = zip [0..] unimplemented :: (Show p, Show a) => p -> a unimplemented = error . show pair :: [a] -> (a, a) pair as = let [a1, a2] = as in (a1, a2) unpair :: (a, a) -> [a] unpair (a, b) = [a, b] triplet :: [a] -> (a, a, a) triplet as = let [a1, a2, a3] = as in (a1, a2, a3) single :: [a] -> a single as = let [a] = as in a both :: (a -> b) -> (a, a) -> (b, b) both f (a, b) = (f a, f b) lastSplit :: Int -> [a] -> ([a], [a]) lastSplit n as = splitAt (length as - n) as remove :: Int -> [a] -> (a, [a]) remove n xs = let (front, a:rest) = splitAt n xs in (a, front ++ rest) permutations :: [a] -> [[a]] permutations [] = [[]] permutations xs = concatMap (\n -> let (a, rest) = remove n xs in map (a:) $ permutations rest) [0..length xs-1] adjacents :: [a] -> [(a, a)] adjacents as = zip as $ tail as -- starsAndBars n b returns all lists of non-negative integers of length `b+1` where the sum is `n` starsAndBars :: Int -> Int -> [[Int]] starsAndBars 0 b = [replicate (b+1) 0] starsAndBars n 0 = [[n]] starsAndBars n b = map (0:) (starsAndBars n (b-1)) ++ map (\xs -> head xs + 1 : tail xs) (starsAndBars (n-1) b) kernelMapRow' :: ([[a]] -> b) -> Maybe a -> [a] -> [a] -> [a] -> [b] kernelMapRow' kernel x (a:r0@(b:c:_)) (d:r1@(e:f:_)) (g:r2@(h:i:_)) = kernel [[a,b,c],[d,e,f],[g,h,i]] : kernelMapRow' kernel x r0 r1 r2 kernelMapRow' kernel (Just x) [a, b] [c, d] [e, f] = [kernel [[a,b,x],[c,d,x],[e,f,x]]] kernelMapRow' _ Nothing [_, _] [_, _] [_, _] = [] kernelMapRow :: ([[a]] -> b) -> Maybe a -> [a] -> [a] -> [a] -> [b] kernelMapRow kernel (Just x) a b c = kernelMapRow' kernel (Just x) (x:a) (x:b) (x:c) kernelMapRow kernel Nothing a b c = kernelMapRow' kernel Nothing a b c kernelMap' :: ([[a]] -> b) -> Maybe a -> [[a]] -> [[b]] kernelMap' kernel x (a:rest@(b:c:_)) = kernelMapRow kernel x a b c : kernelMap' kernel x rest kernelMap' kernel (Just x) [a, b] = [kernelMapRow kernel (Just x) a b (map (const x) b)] kernelMap' kernel Nothing [_, _] = [] kernelMap :: ([[a]] -> b) -> Maybe a -> [[a]] -> [[b]] kernelMap kernel (Just x) as = kernelMap' kernel (Just x) ((map (const x) (head as)):as) kernelMap kernel Nothing as = kernelMap' kernel Nothing as