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Author SHA1 Message Date
Amneesh Singh
28dc012e45 day 15: rewrite part 2 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-17 13:14:39 +05:30
Amneesh Singh
2920d0f474 day 15 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-16 00:11:59 +05:30
Amneesh Singh
e7ad25a79d day 14: random update 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-15 17:32:16 +05:30
Amneesh Singh
b2881bf9a3 day 14 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-14 18:10:01 +05:30
Amneesh Singh
8daa122757 day 13 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-14 01:00:46 +05:30
Amneesh Singh
cb53ac0711 day 12 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-13 22:17:40 +05:30
Amneesh Singh
4200e21bba mass rename 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-11 22:47:42 +05:30
Amneesh Singh
1c8b315fea day 11 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-11 22:00:09 +05:30
Amneesh Singh
752e5c1f34 day 10 
Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-10 13:42:45 +05:30
Amneesh Singh
a618986704 day 9 
very slow very swag

Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-10 12:04:35 +05:30
Amneesh Singh
3cf311b1af day 8: rewrite 
trying a new approach hinted by someone else

Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-09 22:32:17 +05:30
Amneesh Singh
6a1a49bc96 day 7: rewrite 
use Data.Text

Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-09 19:14:34 +05:30
Amneesh Singh
257e929dd2 day 6: rewrite 
use Data.Text

Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-09 18:56:29 +05:30
Amneesh Singh
58a28c8b60 day 5: complete rewrite 
use Data.Text and Data.Map

Signed-off-by: Amneesh Singh <natto@weirdnatto.in>
 2022-12-09 18:45:21 +05:30
21 changed files with 663 additions and 129 deletions
Expand all files Collapse all files

1
.envrc Normal file
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@@ -0,0 +1 @@
use flake

1
README Normal file
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@@ -0,0 +1 @@
My advent of code solutions for 2022. I am trying to not use String ([Char]) wherever possible and use Data.Text instead. That makes the programs appear bigger than they are LOC-wise.

0
day1.hs → day01.hs
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0
day2.hs → day02.hs
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0
day3.hs → day03.hs
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0
day4.hs → day04.hs
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44
day05.hs Normal file
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{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.List (foldl')
import Data.Map (Map)
import qualified Data.Map as M
import Data.Text (Text)
import qualified Data.Text as T
import Lib (readFile')
main :: IO ()
main = do
input <- break (== T.empty) . T.lines <$> readFile' "day5.in"
let (crates, cmds) = parse input
putStr "Q1: "
print $ moveCrates T.reverse crates cmds
putStr "Q2: "
print $ moveCrates id crates cmds
moveCrates :: (Text -> Text) -> [Text] -> [(Int, Int, Int)] -> Text
moveCrates f crates' cmds = head . T.transpose . M.elems $ foldl' move crates cmds
where
crates :: Map Int Text
crates = M.fromList $ zip [0 ..] crates'
move :: Map Int Text -> (Int, Int, Int) -> Map Int Text
move c (n, x, y) =
let (h, t) = T.splitAt n $ c M.! x
in M.update (Just . (<>) (f h)) y $ M.insert x t c
-- ugly code vs line length <= 90 🤔
parse :: ([Text], [Text]) -> ([Text], [(Int, Int, Int)])
parse (crates, cmds) =
( [ T.filter (/= ' ') x
| (i, x) <- zip [0 ..] (T.transpose $ init crates),
i `mod` 4 == 1
],
map
( ( \["move", T.unpack -> n, "from", T.unpack -> x, "to", T.unpack -> y] ->
(read n, read x - 1, read y - 1)
)
. T.words
)
$ tail cmds
)

21
day06.hs Normal file
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@@ -0,0 +1,21 @@
{-# LANGUAGE OverloadedStrings #-}
import Data.List (nub)
import Lib (readFile')
import Data.Text (Text)
import qualified Data.Text as T
main :: IO ()
main = do
input <- readFile' "day6.in"
putStr "Q1: "
print $ parse 4 input
putStr "Q2: "
print $ parse 14 input
group :: Int -> Text -> [Text]
group _ "" = []
group n xs = T.take n xs : group n (T.tail xs)
parse :: Int -> Text -> Int
parse n = (+ n) . length . takeWhile ((< n) . length) . map (nub . T.unpack) . group n

27
day7'.hs → day07'.hs
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@@ -1,8 +1,15 @@
{-# LANGUAGE OverloadedStrings #-}
import Data.Either (rights)
import Data.Text (Text)
import qualified Data.Text as T (head, lines, words)
import qualified Data.Text.Read as T (decimal)
import Data.Tree
import Lib (readFile')
main :: IO ()
main = do
tree <- snd . flip parse (emptyFs "/") . map words . lines <$> readFile "day7.in"
tree <- snd . flip parse (emptyFs "/") . map T.words . T.lines <$> readFile' "day7.in"
putStr "Q1: "
print $
foldTree
@@ -22,24 +29,26 @@ main = do
)
tree
type Filesystem = Tree (String, Int)
type Filesystem = Tree (Text, Int)
tail' :: [a] -> [a]
tail' = drop 1
emptyFs :: String -> Filesystem
emptyFs :: Text -> Filesystem
emptyFs n = Node (n, 0) []
insertFs :: Filesystem -> String -> Filesystem -> Filesystem
insertFs :: Filesystem -> Text -> Filesystem -> Filesystem
insertFs (Node n xs) name fs = Node (fst n, snd n + snd (rootLabel fs)) (fs : xs)
ls :: [[Text]] -> [Filesystem]
ls =
map (\[a, b] -> Node (b, fst . head $ rights [T.decimal a]) [])
. filter ((/= "dir") . head)
totalSize :: [Filesystem] -> Int
totalSize = sum . map (snd . rootLabel)
ls :: [[String]] -> [Filesystem]
ls = map (\[a, b] -> Node (b, read a) []) . filter ((/= "dir") . head)
parse :: [[String]] -> Filesystem -> ([[String]], Filesystem)
parse :: [[Text]] -> Filesystem -> ([[Text]], Filesystem)
parse input fs
| null input || cur == ["$", "cd", ".."] = (tail' input, fs)
| cur == ["$", "ls"] =
@@ -50,7 +59,7 @@ parse input fs
| otherwise =
let name = cur !! 2
(nextInput, newFs) = parse (tail' input) (emptyFs name)
replaced = insertFs fs name newFs -- replace empty directory
replaced = insertFs fs name newFs
in parse nextInput replaced
where
cur = head input

31
day7.hs → day07.hs
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@@ -1,12 +1,21 @@
{-# LANGUAGE OverloadedStrings #-}
import Data.Either (rights)
import Data.Text (Text)
import qualified Data.Text as T (head, lines, words)
import qualified Data.Text.Read as T (decimal)
import Data.Tree
import Lib (readFile')
-- this solution assumes that empty directories can exist,
-- if you want to ignore that, there is a slightly different code in day7'.hs
-- needs cleaning and improvement
-- needs cleaning and improvement, although i like the fact
-- that the entire FS can be printed as a tree
main :: IO ()
main = do
tree <- snd . flip parse (emptyFs "/") . map words . lines <$> readFile "day7.in"
tree <- snd . flip parse (emptyFs "/") . map T.words . T.lines <$> readFile' "day7.in"
putStr "Q1: "
print $
foldTree
@@ -26,18 +35,18 @@ main = do
)
tree
type Filesystem = Tree (String, Int)
type Filesystem = Tree (Text, Int)
tail' :: [a] -> [a]
tail' = drop 1
-- wrapper to create an empty tree
emptyFs :: String -> Filesystem
emptyFs :: Text -> Filesystem
emptyFs n = Node (n, 0) []
-- This function is to replace a filesystem by name
-- Used to replace empty directories with parsed directories in code
replaceFs :: Filesystem -> String -> Filesystem -> Filesystem
replaceFs :: Filesystem -> Text -> Filesystem -> Filesystem
replaceFs (Node n xs) name fs =
let (h, t) = span ((/= name) . fst . rootLabel) xs
in Node
@@ -50,11 +59,17 @@ totalSize :: [Filesystem] -> Int
totalSize = sum . map (snd . rootLabel)
-- All directories/files are parsed here into leaves
ls :: [[String]] -> [Filesystem]
ls = map (\[a, b] -> if a == "dir" then Node (b, 0) [] else Node (b, read a) [])
ls :: [[Text]] -> [Filesystem]
ls =
map
( \[a, b] ->
if a == "dir"
then Node (b, 0) []
else Node (b, fst . head $ rights [T.decimal a]) []
)
-- main function where stuff happens
parse :: [[String]] -> Filesystem -> ([[String]], Filesystem)
parse :: [[Text]] -> Filesystem -> ([[Text]], Filesystem)
parse input fs
| null input || cur == ["$", "cd", ".."] = (tail' input, fs)
| cur == ["$", "ls"] =

48
day08.hs Normal file
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@@ -0,0 +1,48 @@
import Data.List (scanl, tails, transpose, zip4, zipWith4)
import Data.Text (Text)
import qualified Data.Text as T (lines, unpack)
import Lib (readFile')
-- new approach was hinted by an anon but I cannot quite get it right
-- a fun approach, not necessarily the fastest (or cleanest (or smartest))
main :: IO ()
main = do
input <- map T.unpack . T.lines <$> readFile' "day8.in"
putStr "Q1: "
print $ q1 input
putStr "Q2: "
print $ q2 input
layer :: [[Char]] -> (a -> a -> a) -> ([[Char]] -> [[a]]) -> [[a]]
layer input f f' =
zipWith4 ( zipWith4 (\w x y z -> f w . f x $ f y z) )
(f' e)
(map reverse $ f' w)
(transpose $ f' n)
(reverse . transpose $ f' s)
where
(e, w, n, s) =
( input,
map reverse input,
transpose input,
transpose $ reverse input
) -- (east, west, north, south]
q1 :: [[Char]] -> Int
q1 input = length . filter not . concat $ layer input (&&) q1'
where
q1' :: [[Char]] -> [[Bool]]
q1' = map (\x -> zipWith (<=) x $ scanl max minBound x)
q2 :: [[Char]] -> Int
q2 input = maximum . concat $ layer input (*) q2'
where
q2' :: [[Char]] -> [[Int]]
q2' =
map
( \a ->
[ let l = length (takeWhile (< x) xs) in (+ l) . fromEnum $ length xs /= l
| (x : xs) <- tails a
]
)

48
day09.hs Normal file
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@@ -0,0 +1,48 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.List (nub, scanl)
import Data.Text (Text)
import qualified Data.Text as T (lines, unpack, words)
import qualified Data.Text.Read as T (decimal)
import Lib (readFile')
-- a rather slow program, takes 300 ms on my system (with `time`, but idc anymore 😭
main :: IO ()
main = do
input <-
concatMap
((\[T.unpack -> [d], T.decimal -> Right (n, "")] -> replicate n d) . T.words)
. T.lines
<$> readFile' "day9.in"
putStr "Q1: "
print $ q 1 input
putStr "Q2: "
print $ q 9 input
moveHead :: Char -> (Int, Int) -> (Int, Int)
moveHead d (x, y) = case d of
'L' -> (x - 1, y)
'R' -> (x + 1, y)
'U' -> (x, y + 1)
'D' -> (x, y - 1)
moveTail :: (Int, Int) -> (Int, Int) -> (Int, Int)
moveTail (hx, hy) (tx, ty)
| abs dx <= 1 && abs dy <= 1 = (tx, ty) -- dont move
| abs dx > abs dy = (tx + signum dx, hy) -- move horizontally
| abs dy > abs dx = (hx, ty + signum dy) -- move vertically
| otherwise = (tx + signum dx, ty + signum dy ) -- move diagonally
where
dx = hx - tx
dy = hy - ty
q :: Int -> [Char] -> Int
q n =
length . nub . map last
. scanl
( \(h : t) d ->
reverse $ foldl (\(h : xs) x -> moveTail h x : (h : xs)) [moveHead d h] t
)
(replicate (n + 1) (0, 0))

40
day10.hs Normal file
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@@ -0,0 +1,40 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.Text (Text)
import qualified Data.Text as T (lines, pack, unlines, words)
import qualified Data.Text.IO as T (putStr)
import qualified Data.Text.Read as T (decimal, signed)
import Lib (readFile')
main :: IO ()
main = do
vals <-
scanl1 (+)
. reverse
. foldl
( \xs x ->
let o : n = T.words x
dec (T.signed T.decimal . head -> Right (m, "")) = m
in if o == "noop" then 0 : xs else dec n : 0 : xs
)
[1]
. T.lines
<$> readFile' "day10.in"
putStr "Q1: "
print $ q1 vals
putStrLn "Q2: "
T.putStr $ q2 vals
q1 :: [Int] -> Int
q1 v = foldr (\x xs -> xs + (v !! (x - 1) * x)) 0 [20, 60 .. 220]
q2 :: [Int] -> Text
q2 v =
T.unlines $
map
( \x ->
T.pack $
map (\y -> if abs (v !! (x + y) - y) <= 1 then '#' else '.') [0 .. 39]
)
[0, 40 .. 200]

109
day11.hs Normal file
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@@ -0,0 +1,109 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.Either (rights)
import Data.List (sortOn)
import Data.Map (Map)
import qualified Data.Map as M (elems, fromList, insert, keys, lookup, update)
import Data.Maybe (fromJust)
import Data.Ord (Down (Down))
import Data.Text (Text)
import qualified Data.Text as T (empty, init, lines, stripSuffix, words)
import qualified Data.Text.Read as T (decimal, signed)
import Lib (readFile')
import Prelude hiding (round)
-- again a slow program ;-; takes 410 ms when measured with `time`
main :: IO ()
main = do
input <- parse . T.lines <$> readFile' "day11.in"
putStr "Q1: "
print $ q 3 20 input
putStr "Q2: "
print $ q 1 10000 input
data Monkey = Banana
{ items :: [Int],
operation :: Int -> Int -> Int,
factor :: Int,
next :: (Int, Int),
iCount :: Int
}
q :: Int -> Int -> Map Int Monkey -> Int
q d n =
product . take 2
. sortOn Down
. map iCount
. M.elems
. (!! n)
. iterate (round d)
round :: Int -> Map Int Monkey -> Map Int Monkey
round d monkeys =
foldl
( \m k ->
let (Banana items op f (a, b) c) = fromJust $ M.lookup k m
in M.insert k (Banana [] op f (a, b) (c + length items)) $
foldr
( \x m ->
let worry = op x d `mod` divisor
in M.update
( Just
. ( \(Banana items' op' f' n' c') ->
Banana (worry : items') op' f' n' c'
)
)
(if worry `mod` f == 0 then a else b)
m
)
m
items
)
monkeys
(M.keys monkeys)
where
divisor :: Int
divisor = foldr1 lcm (map factor $ M.elems monkeys)
parse :: [Text] -> Map Int Monkey
parse =
M.fromList
. map
( \( (parseMonkey -> n)
: (parseItems -> xs)
: (parseOp -> op)
: (parseTest -> (f, a, b))
) -> (n, Banana xs op f (a, b) 0)
)
. sLines
where
parseMonkey :: Text -> Int
parseMonkey (T.words -> ["Monkey", T.decimal . T.init -> Right (n, "")]) = n
parseItems :: Text -> [Int]
parseItems (T.words -> "Starting" : "items:" : xs) =
map (\(T.decimal -> Right (n, _)) -> n) xs
parseOp :: Text -> (Int -> Int -> Int)
parseOp (T.words -> ["Operation:", "new", "=", e1, o, e2]) =
\x d -> div (parseO o (parseE x e1) (parseE x e2)) d
where
parseO o = if o == "+" then (+) else (*)
parseE x e = case T.decimal e of
Right (n, "") -> n
Left _ -> x
parseTest :: [Text] -> (Int, Int, Int)
parseTest
[ T.words -> ["Test:", "divisible", "by", T.decimal -> Right (t, "")],
T.words -> ["If", "true:", "throw", "to", "monkey", T.decimal -> Right (a, "")],
T.words -> ["If", "false:", "throw", "to", "monkey", T.decimal -> Right (b, "")]
] = (t, a, b)
sLines :: [Text] -> [[Text]]
sLines [] = []
sLines input =
let (cur, rest) = break (== T.empty) input
in cur : sLines (drop 1 rest)

77
day12.hs Normal file
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@@ -0,0 +1,77 @@
{-# OPTIONS_GHC -Wno-missing-methods #-}
import Control.Monad (ap)
import Data.Map (Map)
import qualified Data.Map as M (filter, fromList, keys, (!), (!?))
import Data.Set (Set)
import qualified Data.Set as S (deleteAt, elemAt, empty, fromList, insert, member, null, singleton, union)
import Data.Text (Text)
import qualified Data.Text as T (lines, unpack)
import Lib (readFile')
main :: IO ()
main = do
input <- parse . T.lines <$> readFile' "day12.in"
print $ head . M.keys $ M.filter (== S) input
putStr "Q1: "
print $ shortest (S.singleton (0, head . M.keys $ M.filter (== S) input)) input E
putStr "Q2: "
print $
shortest
( S.fromList
( zip
(repeat 0)
(M.keys $ M.filter (\x -> x == S || x == height 'a') input)
)
)
input
E
data Height = Height Int | S | E deriving (Show, Eq)
-- no need to implement toEnum
instance Enum Height where
fromEnum S = 0
fromEnum E = 25
fromEnum (Height h) = h
height :: Char -> Height
height 'E' = E
height 'S' = S
height c = Height $ fromEnum c - fromEnum 'a'
parse :: [Text] -> Map (Int, Int) Height
parse =
M.fromList . concat
. zipWith zip (map (\x -> zip (repeat x) [0 ..]) [0 ..])
. map (map height . T.unpack)
nextPos :: (Int, Int) -> Map (Int, Int) Height -> [(Int, Int)]
nextPos (x, y) m = filter check [(x + 1, y), (x - 1, y), (x, y + 1), (x, y - 1)]
where
check :: (Int, Int) -> Bool
check (x', y') =
maybe
False
(<= (succ . fromEnum $ m M.! (x, y)))
(fromEnum <$> m M.!? (x', y'))
-- using set as a queue cuz yh
shortest :: Set (Int, (Int, Int)) -> Map (Int, Int) Height -> Height -> Int
shortest queue graph end = bfs queue S.empty
where
bfs :: Set (Int, (Int, Int)) -> Set (Int, Int) -> Int
bfs queue vis
| graph M.! (x, y) == end = now
| otherwise = bfs newqueue (S.insert (x, y) vis)
where
(now, (x, y)) = S.elemAt 0 queue
newqueue =
S.union
(S.deleteAt 0 queue)
( S.fromList
( zip
(repeat (now + 1))
(filter (not . flip S.member vis) $ nextPos (x, y) graph)
)
)

59
day13.hs Normal file
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@@ -0,0 +1,59 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.Char (isDigit)
import Data.List (elemIndex, sort)
import Data.Maybe (fromJust)
import Data.Text (Text)
import qualified Data.Text as T (filter, init, lines, null, span, tail, uncons)
import qualified Data.Text.Read as T (decimal)
import Lib (readFile')
main :: IO ()
main = do
input <-
map (fst . parse (List []) . T.init . T.tail) . filter (not . T.null)
. T.lines
<$> readFile' "day13.in"
putStr "Q1: "
print $ q1 input
putStr "Q2: "
print $ q2 input (List [List [Elem 2]]) (List [List [Elem 6]])
q1 :: [List] -> Int
q1 input =
foldl
(\xs x -> xs + if input !! (2 * x - 2) < input !! (2 * x - 1) then x else 0)
0
[1 .. length input `div` 2]
q2 :: [List] -> List -> List -> Int
q2 input a b =
let sorted = sort (a : b : input)
a' = fromJust $ elemIndex a sorted
b' = fromJust $ elemIndex b sorted
in (a' + 1) * (b' + 1)
data List = Elem Int | List [List] deriving (Show, Eq)
-- is this cheating :P
instance Ord List where
compare (List xs) (List ys) = compare (reverse xs) (reverse ys)
compare (List xs) (Elem y) = compare (List xs) (List [Elem y])
compare (Elem x) (List ys) = compare (List [Elem x]) (List ys)
compare (Elem x) (Elem y) = compare x y
-- Weak parser but it works
-- I do not really know how to use Parsec and ReadP with Data.Text yet
parse :: List -> Text -> (List, Text)
parse (List xs) txt
| T.null txt || cur == ']' = (List xs, rest)
| cur == '[' =
let (new, next) = parse (List []) rest
in parse (List (new : xs)) next
| isDigit cur = parse (List (Elem num : xs)) rest'
| otherwise = parse (List xs) rest
where
(cur, rest) = fromJust $ T.uncons txt
(T.decimal -> Right (num, ""), rest') = T.span isDigit txt

59
day14.hs Normal file
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@@ -0,0 +1,59 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.Maybe (fromJust)
import Data.Set (Set)
import qualified Data.Set as S (fromList, insert, map, member, notMember, union)
import Data.Text (Text)
import qualified Data.Text as T (lines, splitOn, words)
import qualified Data.Text.Read as T (decimal)
import Lib (readFile')
-- times can be improved greatly using Data.HashSet in unordered-containers, but i wont use it
main :: IO ()
main = do
input <- parse . T.lines <$> readFile' "day14.in"
let mx = maximum $ S.map snd input
putStr "Q1: "
print $ sand (500, 0) input 0 mx Q1
putStr "Q2: "
print $ sand (500, 0) input 0 (mx + 2) Q2
type Coord = (Int, Int)
data Q = Q1 | Q2 deriving (Eq)
sand :: Coord -> Set Coord -> Int -> Int -> Q -> Int
sand (x, y) rocks soFar mx q
| (q == Q1 && y > mx) || S.member (x, y) rocks = soFar
| q == Q2 && y + 1 == mx = sand (500, 0) (S.insert (x, y) rocks) (soFar + 1) mx q
| S.notMember (x, y + 1) rocks = sand (x, y + 1) rocks soFar mx q
| S.notMember (x - 1, y + 1) rocks = sand (x - 1, y + 1) rocks soFar mx q
| S.notMember (x + 1, y + 1) rocks = sand (x + 1, y + 1) rocks soFar mx q
| otherwise = sand (500, 0) (S.insert (x, y) rocks) (soFar + 1) mx q
parse :: [Text] -> Set Coord
parse =
S.fromList
. concatMap
( ranges
. map
( (\[x, y] -> (x, y))
. map (\(T.decimal -> Right (n, "")) -> n)
. T.splitOn ","
)
. filter (/= "->")
. T.words
)
where
ranges :: [Coord] -> [Coord]
ranges xs =
foldr
( \((a, b), (x, y)) z ->
if a == x
then zip (repeat a) [min b y .. max b y] ++ z
else zip [min a x .. max a x] (repeat b) ++ z
)
[]
(zip xs (tail xs))

115
day15.hs Normal file
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@@ -0,0 +1,115 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
import Data.List (nub, sort)
import Data.Maybe (catMaybes)
import Data.Text (Text)
import qualified Data.Text as T (lines, null, split)
import qualified Data.Text.Read as T (decimal, signed)
import Lib (readFile')
main :: IO ()
main = do
input <- map parse . T.lines <$> readFile' "day15.in"
putStr "Q1: "
print $ q1 input 2000000
putStr "Q2: "
print $ q2 input 0 4000000
type Coords = (Int, Int, Int, Int, Int)
q1 :: [Coords] -> Int -> Int
q1 input n = mergeRanges getRanges
where
mergeRanges :: [(Int, Int)] -> Int
mergeRanges [(x0, x1)] = x1 - x0 + 1
mergeRanges ((x0, x1) : (x2, x3) : xs)
| x2 - x1 < 2 = mergeRanges $ (x0, max x1 x3) : xs
| otherwise = x1 - x0 + 1 + mergeRanges ((x2, x3) : xs)
getRanges :: [(Int, Int)]
getRanges =
sort $
foldr
( \(x, y, r, a, b) xs -> case r - abs (n - y) of
dx
| dx < 0 -> xs
| n == b -> (x - dx, a - 1) : (a + 1, x + dx) : xs
| otherwise -> (x - dx, x + dx) : xs
)
[]
input
type Segment = (Int, Int, Int, Int)
q2 input mn mx =
head
[ a * mx + b
| (a, b) <- diag1234,
a >= mn && b >= mn && a <= mx && b <= mx,
and [abs (b - y) + abs (a - x) > r | (x, y, r, _, _) <- input]
]
where
diag1, diag2, diag3, diag4 :: Coords -> Segment
diag1 (x, y, r, _, _) = (x - r - 1, y, x, y - r - 1)
diag2 (x, y, r, _, _) = (x, y - r - 1, x + r + 1, y)
diag3 (x, y, r, _, _) = (x, y + r + 1, x + r + 1, y)
diag4 (x, y, r, _, _) = (x - r - 1, y, x, y + r + 1)
diagInt :: Segment -> Segment -> Maybe Segment
diagInt a@(x0, y0, x1, y1) b@(x2, y2, x3, y3)
| x3 < x0 || x1 < x2 = Nothing
| x0 >= x2 && x1 <= x3 = Just a
| x2 >= x0 && x3 <= x1 = Just b
| x3 >= x1 = Just (x2, y2, x1, y1)
| x1 >= x3 = Just (x0, y0, x3, y3)
diag13, diag24 :: [Segment]
diag13 =
catMaybes
[ diagInt i j
| a <- input,
b <- input,
let i@(x0, y0, x1, y1) = diag1 a,
let j@(x2, y2, x3, y3) = diag3 b,
a /= b,
x0 + y0 == x2 + y2
]
diag24 =
catMaybes
[ diagInt i j
| a <- input,
b <- input,
let i@(x0, y0, x1, y1) = diag2 a,
let j@(x2, y2, x3, y3) = diag4 b,
a /= b,
y0 - x0 == y2 - x2
]
diag1234 :: [(Int, Int)]
diag1234 =
[ let (c1, c2) = (y0 + x0, y2 - x2) in (div (c1 - c2) 2, div (c1 + c2) 2)
| (x0, y0, x1, y1) <- diag13,
(x2, y2, x3, y3) <- diag24
]
parse :: Text -> Coords
parse =
( \[ "Sensor",
"at",
"x",
T.signed T.decimal -> Right (x, ""),
"y",
T.signed T.decimal -> Right (y, ""),
"closest",
"beacon",
"is",
"at",
"x",
T.signed T.decimal -> Right (a, ""),
"y",
T.signed T.decimal -> Right (b, "")
] -> (x, y, abs (b - y) + abs (a - x), a, b)
)
. filter (not . T.null)
. T.split (`elem` (":=, " :: [Char]))

44
day5.hs
View File

@@ -1,44 +0,0 @@
import Data.Char (isDigit)
import Data.List (transpose)
import Data.Maybe (catMaybes)
import Text.ParserCombinators.ReadP
main :: IO ()
main = do
input <- lines <$> readFile "day5.in"
let (crates, cmds) = break null input
let cratesList = map catMaybes $ transpose $ map (fst . last . readP_to_S parseCrates) $ init crates
let cmdsList = map ((\(n, a, b) -> (n, a - 1, b - 1)) . fst . last . readP_to_S parseCmd) $ tail cmds
print cratesList
putStr "Q1: "
print $ q1 cratesList cmdsList
putStr "Q2: "
print $ q2 cratesList cmdsList
q1, q2 :: [[Char]] -> [(Int, Int, Int)] -> [Char]
q1 crates cmds = map head $ foldl (\x xs -> moveCrates x xs True) crates cmds
q2 crates cmds = map head $ foldl (\x xs -> moveCrates x xs False) crates cmds
-- Computers are fast, really, not optimising right now
moveCrates :: [[Char]] -> (Int, Int, Int) -> Bool -> [[Char]]
moveCrates crates (n, a, b) rev =
let (head, tail) = splitAt n $ crates !! a
in replace b (replace a crates tail) ((if rev then reverse head else head) ++ crates !! b)
where
replace :: Int -> [a] -> a -> [a]
replace i xs x = take i xs ++ [x] ++ drop (i + 1) xs
parseCrates :: ReadP [Maybe Char]
parseCrates = sepBy parseRow (char ' ')
where
parseRow :: ReadP (Maybe Char)
parseRow = (Just <$> (char '[' *> get <* char ']')) +++ (Nothing <$ string " ")
parseCmd :: ReadP (Int, Int, Int)
parseCmd =
(,,) <$> (string "move " *> getInt)
<*> (string " from " *> getInt)
<*> (string " to " *> getInt)
where
getInt :: ReadP Int
getInt = read <$> many1 (satisfy isDigit)

16
day6.hs
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@@ -1,16 +0,0 @@
import Data.List (nub)
main :: IO ()
main = do
input <- readFile "day6.in"
putStr "Q1: "
print $ parse 4 input
putStr "Q2: "
print $ parse 14 input
group :: Int -> [Char] -> [[Char]]
group _ [] = []
group n xs = take n xs : group n (tail xs)
parse :: Int -> String -> Int
parse n = (+ n) . length . takeWhile ((< n) . length) . map nub . group n

52
day8.hs
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@@ -1,52 +0,0 @@
import Data.Char (digitToInt)
import Data.List (transpose, zip4, zipWith4)
-- a fun approach, not necessarily the fastest (or cleanest (or smartest))
main :: IO ()
main = do
input <- map (map digitToInt) . lines <$> readFile "day8.in"
let (e, w, n, s) = trees input
let obscured = zipWith4 zip4 e w n s
putStr "Q1: "
print $
length $
filter
(not . (\((w, _), (x, _), (y, _), (z, _)) -> w && y && x && z))
$ concat obscured
putStr "Q2: "
print $
maximum $
map (\((_, w), (_, x), (_, y), (_, z)) -> w * x * y * z) $
concat obscured
type Forest = [[(Bool, Int)]]
trees :: [[Int]] -> (Forest, Forest, Forest, Forest)
trees input =
( trees' input,
map reverse $ trees' $ map reverse input,
transpose $ trees' $ transpose input,
reverse $ transpose $ trees' $ transpose $ reverse input
) -- (east, west, north, south) traversals
where
trees' :: [[Int]] -> Forest
trees' =
foldr
( \x xs ->
let (_, dist) =
foldr
( \(cur, y) ((old, m), ys) ->
( if y > m then (cur, y) else (old, m),
( y <= m,
let s = length $ takeWhile (< y) $ reverse $ take cur x
in if s == cur then s else s + 1
) :
ys
)
)
((-1, -1), [])
(zip [0 ..] x)
in dist : xs
)
[]