#! /usr/bin/env -S"GHCRTS=-N4" nix-shell #! nix-shell -p ghcid #! nix-shell -p "haskellPackages.ghcWithPackages (p: with p; [pretty-simple attoparsec arithmoi containers])" #! nix-shell -i "ghcid -c 'ghci' -T main" {-# OPTIONS_GHC -Wall -Wincomplete-uni-patterns #-} {-# OPTIONS_GHC -Wno-unused-top-binds -Wno-unused-imports #-} {-# OPTIONS_GHC -Wno-unused-matches -Wno-type-defaults #-} {-# OPTIONS_GHC -Wno-unused-local-binds #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE DataKinds #-} import Control.Applicative import Data.Attoparsec.Text (Parser) import Data.IntSet (IntSet) import Data.List (find,sortOn,sort) import Data.Maybe (fromMaybe,catMaybes) import Data.Monoid import Data.Text (Text) import Data.Vector (Vector) import Debug.Trace (trace,traceShowId) import Math.NumberTheory.ArithmeticFunctions import Math.NumberTheory.Primes --import Math.NumberTheory.Moduli.Class import Text.Pretty.Simple import qualified Data.Attoparsec.Text as A import qualified Data.IntSet as I import qualified Data.Text as T import qualified Data.Vector as V exampleData :: String exampleData = "939\n7,13,x,x,59,x,31,19" numOrXParser :: Parser (Maybe Int) numOrXParser = (Just <$> A.decimal) <|> ("x" *> pure Nothing) inputParser :: Parser (Int,[Int]) inputParser = do n <- A.decimal A.skipSpace xs <- numOrXParser `A.sepBy` "," pure (n,catMaybes $ xs) parseInput :: String -> Either String (Int,[Int]) parseInput = (A.parseOnly inputParser) . T.pack solvePart1 :: String -> Either String Int solvePart1 str = do (n,xs) <- parseInput str let (bus, time) = head $ sortOn (snd) $ map (\x -> (x,fromMaybe (-1) $ find (> n) [0,x..])) xs pure $ bus * (time - n) inputParser2 :: Parser (Int,[Maybe Int]) inputParser2 = do n <- A.decimal A.skipSpace xs <- numOrXParser `A.sepBy` "," pure (n,xs) parseInput2 :: String -> Either String (Int,[Maybe Int]) parseInput2 = (A.parseOnly inputParser2) . T.pack gcd' :: [Int] -> Int gcd' = head . (\xs -> if length xs > 1 then drop 1 xs else xs) . I.toDescList . (\x -> foldl I.intersection (I.unions x) x) . map divisorsSmall -- lcm on a list of Ints lcm' :: [Int] -> Int lcm' (x:xs) = go x xs where go x0 (y:ys) = go (lcm x0 y) (ys) go x0 [] = x0 lcm' [] = 1 -- lcm on a list of Ints lcm'' :: [Int] -> Int lcm'' xs = prodL xs `div` gcd' xs where prodL = getProduct . foldMap Product -- Too slow modList :: [(Int,Int)] -> [ [Int] ] modList = fmap f where f (n,m) = filter (\x -> (x + n) `mod` m == 0) [1..] findAllEq :: [[Int]] -> Maybe [Int] findAllEq = find (\xs -> notElem (head xs) xs) -- Can you feel how much fun I'm not having anymore? isT :: Int -> Int -> [(Int,Int)] -> Int isT tpx x xs = head $ catMaybes $ map go allTs where allTs = [158478605388*tpx,158478605389*tpx..] go :: Int -> Maybe Int go tpx0 = case and (map (go' tpx0) xs) of True -> Just (tpx0 - x) _ -> Nothing go' tpx0' (shift,fact) = -- trace ("tpx:"<>show tpx0'<>",shift:"<>show shift<>",x:"<>show x<>",fact:"<>show fact) $ (tpx0' - x + shift) `mod` fact == 0 solvePart2 :: String -> Either String Int solvePart2 str = do (_,xs) <- parseInput2 str let startAndIds = catMaybes $ sequence <$> zip [0..] xs let sortedStartAndIds = traceShowId $ reverse $ sortOn snd $ startAndIds -- pure $ sortedStartAndIds let (x,t) = head sortedStartAndIds pure $ isT t x sortedStartAndIds main :: IO () main = do putStrLn ":: Test" pPrint $ A.parseOnly inputParser $ T.pack exampleData pPrint $ take 3 ((\n -> [1,n..]) 59) putStrLn ":: Day 13 - Part 1" input <- readFile "day13/input" pPrint $ solvePart1 exampleData pPrint $ solvePart1 input putStrLn ":: Test 2" print $ (43+127) `mod` 8921 == ((43 `mod` 8921) + (127 `mod` 8921)) `mod` 8921 print $ (lcm' [100,23,98],getProduct $ foldMap Product [100,23,98]) print $ lcm' [7,13,59,31,19] print $ lcm'' [7,13,59,31,19] putStrLn "The lcm of a list of number is the first number that all of them " putStrLn "divide ie when are the different “gears” all in sync again, after " putStrLn "t=0 " print $ (div (lcm' [7,13,59,31,19])) <$> [7,13,59,31,19] print $ (div 1068781) <$> [7,13,59,31,19] print $ (mod (lcm' [7,13,59,31,19])) <$> [7,13,59,31,19] print $ (mod 1068781) <$> [7,13,59,31,19] putStrLn "::: 🎶 Musical Interlude 🎶" print $ (1068781 + 4) `div` 59 print $ (1068781 + 4) `mod` 59 print $ (1068781 + 6) `mod` 31 print $ (1068781 + 7) `mod` 19 print $ (1068781 + 1) `mod` 13 print $ (1068781 + 0) `mod` 7 print $ 100000000000000 `mod` 631 print $ 100000000000000 `div` 631 putStrLn ":: Day 13 - Part 2" -- print $ solvePart2 "939\n3,5" -- print $ solvePart2 exampleData -- print $ solvePart2 "1\n17,x,13,19" -- print $ solvePart2 "1\n67,7,59,61" -- print $ solvePart2 "1\n67,x,7,59,61" -- print $ solvePart2 "1\n67,7,x,59,61" -- print $ solvePart2 "1\n1789,37,47,1889" print $ solvePart2 input