Day 22: Monkey Market

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FAQ

  • sjmulder@lemmy.sdf.org
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    59 minutes ago

    C

    Really proud of this one! Started with with an O(n^atoms in the universe) scan which took 44s even after adding a dedup check.

    But iterating on a trick to encode the deltas for the dedup check, using it to build a mapping table here, a lookup there etc brought it down to a very fast, fairly low memory, linear complexity solution!

    Code
    #include "common.h"
    
    #define STEPS	2000
    #define NCODES	(19*19*19*19)
    
    int
    main(int argc, char **argv)
    {
    	static int8_t prices[STEPS];
    	static int8_t by_deltas[NCODES];
    	static int sums[NCODES];
    
    	uint64_t p1=0, secret;
    	int p2=0, i;
    
    	if (argc > 1)
    		DISCARD(freopen(argv[1], "r", stdin));
    	
    	while (scanf(" %"SCNu64, &secret) == 1) {
    		memset(by_deltas, 0, sizeof(by_deltas));
    
    		for (i=0; i<STEPS; i++) {
    			secret = (secret ^ secret << 6)  & 0xFFFFFF;
    			secret = (secret ^ secret >> 5);
    			secret = (secret ^ secret << 11) & 0xFFFFFF;
    
    			prices[i] = secret % 10;
    		}
    
    		/*
    		 * Build a deltas->price map for the buyer. Deltas are
    		 * encoded as an integer for easy indexing. Iterating
    		 * backwards ensures the stored price is the _earliest_
    		 * occurence of that sequence.
    		 */
    		for (i=STEPS-1; i>=4; i--)
    			by_deltas[
    			    (prices[i-3] - prices[i-4] +9) *19*19*19 +
    			    (prices[i-2] - prices[i-3] +9) *19*19 +
    			    (prices[i-1] - prices[i-2] +9) *19 +
    			    (prices[i]   - prices[i-1] +9)
    			] = prices[i];
    
    		for (i=0; i<NCODES; i++)
    			sums[i] += by_deltas[i];
    
    		p1 += secret;
    	}
    
    	for (i=0; i<NCODES; i++)
    		p2 = MAX(p2, sums[i]);
    
    	printf("22: %"PRIu64" %d\n", p1, p2);
    	return 0;
    }
    

    day22 0m00.04s real

    https://codeberg.org/sjmulder/aoc/src/branch/master/2024/c/day22.c

  • mykl@lemmy.world
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    14 hours ago

    Uiua

    It’s been a while since I posted one of these, but I thought this would be straightforward in Uiua. Turns out that bitwise operations are a bit (haha) of a pain, so the Rng operation is very slow at 4sec for live data.

    I took this as an opportunity to play with the ⧈(stencil) operator which probably slowed things down too.

    Data ← 1_2_3_2024
    Xor  ← °⋯◿20+∩⋯ # Bitwise xor of two numbers.
    Rng  ← ⊙◌◿,Xor×2048.◿,Xor⌊÷32.◿,Xor×64.⊙16777216
    Runs ← ⍉(⇌[⍥(Rng.)])2000 Data # Should be constant?
    Firsts ← (
      ⊟⊂0⧈₂/-.◿10 ↘¯1         # Build run, gen pair diffs
      ⊢⧈(⊟⊙⊣/(+×40+20)°⊟) 2_4 # Convert 4-diff into key, collect.
      ⊕⊢⊛⊙⍉⊙◌°⊟.⍉             # Only keep first of each key. # ⍜(map°⊟⍉⇌|∘) failed. 
    )
    &p /+≡⊣.Runs
    &p /↥⊕(/+)+1⊛°⊟⍉/◇⊂wait≡spawn(□Firsts) # Group by key, sum prices, return highest.
    
  • GiantTree@feddit.org
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    2 days ago

    Kotlin

    I experimented a lot to improve the runtime and now I am happy with my solution. The JVM doesn’t optimize code that quickly :)

    I have implemented a few optimizations in regards to transformations so that they use arrays directly (The file with the implementations is here)

    Code
    class Day22 {
    
        private fun nextSecretNumber(start: Long): Long {
            // Modulo 2^24 is the same as "and" with 2^24 - 1
            val pruneMask = 16777216L - 1L
            // * 64 is the same as shifting left by 6
            val mul64 = ((start shl 6) xor start) and pruneMask
            // / 32 is the same as shifting right by 5
            val div32 = ((mul64 shr 5) xor mul64) and pruneMask
            // * 2048 is the same as shifting left by 11
            val mul2048 = ((div32 shl 11) xor div32) and pruneMask
            return mul2048
        }
    
        fun part1(inputFile: String): String {
            val secretNumbers = readResourceLines(inputFile)
                .map { it.toLong() }
                .toLongArray()
    
            repeat(NUMBERS_PER_DAY) {
                for (i in secretNumbers.indices) {
                    secretNumbers[i] = nextSecretNumber(secretNumbers[i])
                }
            }
    
            return secretNumbers.sum().toString()
        }
    
        fun part2(inputFile: String): String {
            // There is a different sample input for part 2
            val input = if (inputFile.endsWith("sample")) {
                readResourceLines(inputFile + "2")
            } else {
                readResourceLines(inputFile)
            }
            val buyers = input
                .map {
                    LongArray(NUMBERS_PER_DAY + 1).apply {
                        this[0] = it.toLong()
                        for (i in 1..NUMBERS_PER_DAY) {
                            this[i] = nextSecretNumber(this[i - 1])
                        }
                    }
                }
    
            // Calculate the prices and price differences for each buyer.
            // The pairs are the price (the ones digit) and the key/unique value of each sequence of differences
            val differences = buyers
                .map { secretNumbers ->
                    // Get the ones digit
                    val prices = secretNumbers.mapToIntArray {
                        it.toInt() % 10
                    }
    
                    // Get the differences between each number
                    val differenceKeys = prices
                        .zipWithNext { a, b -> (b - a) }
                        // Transform the differences to a singular unique value (integer)
                        .mapWindowed(4) { sequence, from, _ ->
                            // Bring each byte from -9 to 9 to 0 to 18, multiply by 19^i and sum
                            // This generates a unique value for each sequence of 4 differences
                            (sequence[from + 0] + 9) +
                                    (sequence[from + 1] + 9) * 19 +
                                    (sequence[from + 2] + 9) * 361 +
                                    (sequence[from + 3] + 9) * 6859
                        }
    
                    // Drop the first 4 prices, as they are not relevant (initial secret number price and 3 next prices)
                    prices.dropFromArray(4) to differenceKeys
                }
    
            // Cache to hold the value/sum of each sequence of 4 differences
            val sequenceCache = IntArray(NUMBER_OF_SEQUENCES)
            val seenSequence = BooleanArray(NUMBER_OF_SEQUENCES)
    
            // Go through each sequence of differences
            // and get their *first* prices of each sequence.
            // Sum them in the cache.
            for ((prices, priceDifferences) in differences) {
                // Reset the "seen" array
                Arrays.fill(seenSequence, false)
                for (index in priceDifferences.indices) {
                    val key = priceDifferences[index]
                    if (!seenSequence[key]) {
                        sequenceCache[key] += prices[index]
                        seenSequence[key] = true
                    }
                }
            }
    
            return sequenceCache.max().toString()
        }
    
        companion object {
            private const val NUMBERS_PER_DAY = 2000
    
            // 19^4, the differences range from -9 to 9 and the sequences are 4 numbers long
            private const val NUMBER_OF_SEQUENCES = 19 * 19 * 19 * 19
        }
    }
    
  • CameronDev@programming.devOPM
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    2 days ago

    Rust

    Part 2 is crazy slow, but it works, so thats cool :D

    Edit: Gonna fix this, because pt2 is stupid.

    Much better, 2.4s. Still slow, but not 6 minutes slow.

    #[cfg(test)]
    mod tests {
        use std::collections::HashMap;
        use std::iter::zip;
    
        fn step(start: usize) -> usize {
            let mut next = start;
            next = ((next * 64) ^ next) % 16777216;
            next = ((next / 32) ^ next) % 16777216;
            next = ((next * 2048) ^ next) % 16777216;
            next
        }
    
        fn simulate(initial: usize) -> usize {
            let mut next = initial;
            for _ in 0..2000 {
                next = step(next);
            }
            next
        }
        #[test]
        fn test_step() {
            assert_eq!(15887950, step(123));
        }
        #[test]
        fn test_simulate() {
            assert_eq!(8685429, simulate(1));
        }
    
        #[test]
        fn day22_part1_test() {
            let input = std::fs::read_to_string("src/input/day_22.txt").unwrap();
            let initial_values = input
                .split("\n")
                .map(|s| s.parse::<usize>().unwrap())
                .collect::<Vec<usize>>();
    
            let mut total = 0;
    
            for value in initial_values {
                total += simulate(value);
            }
    
            println!("{}", total);
        }
    
        #[test]
        fn day22_part2_test() {
            let input = std::fs::read_to_string("src/input/day_22.txt").unwrap();
            let initial_values = input
                .split("\n")
                .map(|s| s.parse::<usize>().unwrap())
                .collect::<Vec<usize>>();
    
            let mut all_deltas = vec![];
            let mut all_values = vec![];
    
            for value in initial_values {
                let mut deltas = String::with_capacity(2000);
                let mut values = vec![];
                let mut prev = value;
                for _ in 0..2000 {
                    let next = step(prev);
                    values.push(next % 10);
                    deltas.push((10u8 + b'A' + ((prev % 10) as u8) - ((next % 10) as u8)) as char);
                    prev = next;
                }
    
                all_deltas.push(deltas);
                all_values.push(values);
            }
    
            let mut totals = HashMap::with_capacity(100000);
    
            for (delta, value) in zip(&all_deltas, &all_values) {
                let mut cache = HashMap::with_capacity(2000);
                for j in 0..delta.len() - 4 {
                    let seq = &delta[j..j + 4];
                    let bananas = value[j + 3];
                    cache.entry(seq).or_insert(bananas);
                }
                for (key, value) in cache {
                    *totals.entry(key).or_insert(0) += value;
                }
            }
    
            let max_bananas = totals.values().max().unwrap();
    
            println!("{}", max_bananas);
        }
    }
    
    
    • Deebster@programming.dev
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      1 day ago

      Six minutes? 😅 I was feeling crappy about my 30 seconds (my naive big O cubed(?) logic means my code spends most of its time testing array equalities - 72 billion samples in the flamegraph!)

  • Gobbel2000@programming.dev
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    2 days ago

    Rust

    Nice breather today (still traumatized from the robots). At some point I thought you had to do some magic for predicting special properties of the pseudorandom function, but no, just collect all values, have a big table for all sequences and in the end take the maximum value in that table. Part 1 takes 6.7ms, part 2 19.2ms.

    Solution
    fn step(n: u32) -> u32 {
        let a = (n ^ (n << 6)) % (1 << 24);
        let b = a ^ (a >> 5);
        (b ^ (b << 11)) % (1 << 24)
    }
    
    fn part1(input: String) {
        let sum = input
            .lines()
            .map(|l| {
                let n = l.parse().unwrap();
                (0..2000).fold(n, |acc, _| step(acc)) as u64
            })
            // More than 2¹⁰ 24-bit numbers requires 35 bits
            .sum::<u64>();
        println!("{sum}");
    }
    
    const N_SEQUENCES: usize = 19usize.pow(4);
    
    fn sequence_key(sequence: &[i8]) -> usize {
        sequence
            .iter()
            .enumerate()
            .map(|(i, x)| (x + 9) as usize * 19usize.pow(i as u32))
            .sum()
    }
    
    fn part2(input: String) {
        // Table for collecting the amount of bananas for every possible sequence
        let mut table = vec![0; N_SEQUENCES];
        // Mark the sequences we encountered in a round to ensure that only the first occurence is used
        let mut seen = vec![false; N_SEQUENCES];
        for l in input.lines() {
            let n = l.parse().unwrap();
            let (diffs, prices): (Vec<i8>, Vec<u8>) = (0..2000)
                .scan(n, |acc, _| {
                    let next = step(*acc);
                    let diff = (next % 10) as i8 - (*acc % 10) as i8;
                    *acc = next;
                    Some((diff, (next % 10) as u8))
                })
                .unzip();
            for (window, price) in diffs.windows(4).zip(prices.iter().skip(3)) {
                let key = sequence_key(window);
                if !seen[key] {
                    seen[key] = true;
                    table[key] += *price as u32;
                }
            }
            // Reset seen sequences for next round
            seen.fill(false);
        }
        let bananas = table.iter().max().unwrap();
        println!("{bananas}");
    }
    
    util::aoc_main!();
    

    Also on github

  • Deebster@programming.dev
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    2 days ago

    Rust

    Not too hard today, apart from yesterday’s visit to a cocktail bar leaving me a little hazy in the mind.

    code
    use std::{fs, str::FromStr};
    
    use color_eyre::eyre::{Report, Result};
    use gxhash::{HashMap, HashMapExt};
    
    const SECRETS_PER_DAY: usize = 2000;
    const SEQ_LEN: usize = 4;
    
    type Sequence = [i8; SEQ_LEN];
    
    fn produce(n: usize) -> usize {
        let n = (n ^ (n * 64)) % 16777216;
        let n = (n ^ (n / 32)) % 16777216;
        (n ^ (n * 2048)) % 16777216
    }
    
    #[derive(Debug)]
    struct Buyer {
        prices: [u8; SECRETS_PER_DAY + 1],
        changes: [i8; SECRETS_PER_DAY],
    }
    
    impl Buyer {
        fn price_at_seq(&self, seq: &Sequence) -> Option<u8> {
            self.changes
                .windows(SEQ_LEN)
                .position(|win| win == *seq)
                .and_then(|i| self.price_for_window(i))
        }
    
        fn price_for_window(&self, i: usize) -> Option<u8> {
            self.prices.get(i + SEQ_LEN).copied()
        }
    }
    
    struct BananaMarket {
        buyers: Vec<Buyer>,
    }
    
    impl FromStr for BananaMarket {
        type Err = Report;
    
        fn from_str(s: &str) -> Result<Self, Self::Err> {
            let buyer_seeds = s
                .lines()
                .map(|s| s.parse::<usize>())
                .collect::<Result<Vec<_>, _>>()?;
    
            let buyers = buyer_seeds
                .into_iter()
                .map(|seed| {
                    let mut prices = [0; SECRETS_PER_DAY + 1];
                    let mut changes = [0; SECRETS_PER_DAY];
    
                    let mut secret = seed;
                    let mut price = (seed % 10) as u8;
                    prices[0] = price;
                    for i in 0..SECRETS_PER_DAY {
                        let last_price = price;
                        secret = produce(secret);
                        price = (secret % 10) as u8;
                        prices[i + 1] = price;
                        changes[i] = price as i8 - last_price as i8;
                    }
                    Buyer { prices, changes }
                })
                .collect();
            Ok(Self { buyers })
        }
    }
    
    impl BananaMarket {
        fn sell_with_seq(&self, seq: &Sequence) -> usize {
            self.buyers
                .iter()
                .map(|b| b.price_at_seq(seq).unwrap_or(0) as usize)
                .sum()
        }
    
        fn maximise_bananas(&self) -> usize {
            let mut cache: HashMap<Sequence, usize> = HashMap::new();
    
            for seq in self
                .buyers
                .iter()
                .flat_map(|buyer| buyer.changes.windows(SEQ_LEN))
            {
                let seq = seq.try_into().unwrap();
                cache.entry(seq).or_insert_with(|| self.sell_with_seq(&seq));
            }
    
            cache.into_values().max().unwrap_or(0)
        }
    }
    
    fn part1(filepath: &str) -> Result<usize> {
        let input = fs::read_to_string(filepath)?
            .lines()
            .map(|s| s.parse::<usize>())
            .collect::<Result<Vec<_>, _>>()?;
        let res = input
            .into_iter()
            .map(|n| (0..SECRETS_PER_DAY).fold(n, |acc, _| produce(acc)))
            .sum();
        Ok(res)
    }
    
    fn part2(filepath: &str) -> Result<usize> {
        let input = fs::read_to_string(filepath)?;
        let market = BananaMarket::from_str(&input)?;
        Ok(market.maximise_bananas())
    }
    
    fn main() -> Result<()> {
        color_eyre::install()?;
    
        println!("Part 1: {}", part1("d22/input.txt")?);
        println!("Part 2: {}", part2("d22/input.txt")?);
        Ok(())
    }
    
  • LeixB@lemmy.world
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    2 days ago

    Haskell

    solution
    import Control.Arrow
    import Data.Bits
    import Data.List
    import qualified Data.Map as M
    
    parse = fmap (secretNums . read) . lines
    
    secretNums :: Int -> [Int]
    secretNums = take 2001 . iterate (step1 >>> step2 >>> step3)
     where
      step1 n = ((n `shiftL` 06) `xor` n) .&. 0xFFFFFF
      step2 n = ((n `shiftR` 05) `xor` n) .&. 0xFFFFFF
      step3 n = ((n `shiftL` 11) `xor` n) .&. 0xFFFFFF
    
    part1 = sum . fmap last
    part2 = maximum . M.elems . M.unionsWith (+) . fmap (deltas . fmap (`mod` 10))
    
    deltas l = M.fromListWith (\n p -> p) $ flip zip (drop 4 l) $ zip4 diffs (tail diffs) (drop 2 diffs) (drop 3 diffs)
     where
      diffs = zipWith (-) (tail l) l
    
    main = getContents >>= print . (part1 &&& part2) . parse
    
  • mykl@lemmy.world
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    2 days ago

    Dart

    Well, that was certainly a bit easier than yesterday…

    I know running a window over each full list of 2000 prices rather than looking for cycles etc means I’m doing a lot of unnecessary work, but it only takes a couple of seconds, so that’ll do.

    import 'package:collection/collection.dart';
    import 'package:more/more.dart';
    
    rng(int i) {
      i = ((i << 6) ^ i) % 16777216;
      i = ((i >> 5) ^ i) % 16777216;
      i = ((i << 11) ^ i) % 16777216;
      return i;
    }
    
    Iterable<int> getPrices(int val, int rounds) {
      var ret = [val];
      for (var _ in 1.to(rounds)) {
        ret.add(val = rng(val));
      }
      return ret.map((e) => e % 10);
    }
    
    int run(int val, int rounds) => 0.to(rounds).fold(val, (s, t) => s = rng(s));
    part1(lines) => [for (var i in lines.map(int.parse)) run(i, 2000)].sum;
    
    part2(List<String> lines) {
      var market = <int, int>{}.withDefault(0);
      for (var seed in lines.map(int.parse)) {
        var seen = <int>{};
        for (var w in getPrices(seed, 2000).window(5)) {
          var key = // Can't use lists as keys, so make cheap hash.
              w.window(2).map((e) => e[1] - e[0]).reduce((s, t) => (s << 4) + t);
          if (seen.contains(key)) continue;
          seen.add(key);
          market[key] += w.last;
        }
      }
      return market.values.max;
    }
    
  • VegOwOtenks@lemmy.world
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    2 days ago

    Haskell

    I have no Idea how to optimize this and am looking forward to the other solutions that probably run in sub-single-second times. I like my solution because it was simple to write which I hadn’t managed in the previous days, runs in 17 seconds with no less than 100MB of RAM.

    import Control.Arrow
    import Data.Bits (xor)
    import Data.Ord (comparing)
    
    import qualified Data.List as List
    import qualified Data.Map as Map
    
    parse :: String -> [Int]
    parse = map read . filter (/= "") . lines
    
    mix = xor 
    prune = flip mod 16777216
    priceof = flip mod 10
    
    nextSecret step0 = do
            let step1 = prune . mix step0 $ step0 * 64
            let step2 = prune . mix step1 $ step1 `div` 32
            let step3 = prune . mix step2 $ step2 * 2048
            step3
    
    part1 = sum . map (head . drop 2000 . iterate nextSecret)
    part2 = map (iterate nextSecret
                    >>> take 2001
                    >>> map priceof
                    >>> (id &&& tail)
                    >>> uncurry (zipWith (curry (uncurry (flip (-)) &&& snd)))
                    >>> map (take 4) . List.tails
                    >>> filter ((==4) . length)
                    >>> map (List.map fst &&& snd . List.last)
                    >>> List.foldl (\ m (s, p) -> Map.insertWith (flip const) s p m) Map.empty
                    )
            >>> Map.unionsWith (+)
            >>> Map.assocs
            >>> List.maximumBy (comparing snd)
    
    main = getContents
            >>= print
            . (part1 &&& part2)
            . parse
    
    • lwhjp@lemmy.sdf.org
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      2 days ago

      Haha, same! Mine runs in a bit under 4s compiled, but uses a similar 100M-ish peak. Looks like we used the same method.

      Maybe iterate all the secrets in parallel, and keep a running note of the best sequences so far? I’m not sure how you’d decide when to throw away old candidates, though. Sequences might match one buyer early and another really late.

  • Zikeji@programming.dev
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    2 days ago

    Go

    Re-familiarizing myself with Go. The solution to Part 2 is fairly simply, the whole packing of the sequence into a single integer to save on memory was an optimization I did afterwards based on looking at other solutions. I thought it was cool.

    package main
    
    import (
    	"bufio"
    	"fmt"
    	"os"
    	"strconv"
    )
    
    type SequenceMap struct {
    	Data map[int32]int
    }
    
    func PackSeq(numbers [4]int8) int32 {
    	var packed int32
    	for i, num := range numbers {
    		packed |= int32(num+9) << (i * 5)
    	}
    	return packed
    }
    
    func UnpackSeq(packed int32) [4]int8 {
    	var numbers [4]int8
    	for i := range numbers {
    		numbers[i] = int8((packed>>(i*5))&0x1F) - 9
    	}
    	return numbers
    }
    
    func NewSequenceMap() SequenceMap {
    	return SequenceMap{make(map[int32]int)}
    }
    
    func (m *SequenceMap) Increment(seq [4]int8, val int) {
    	pSeq := PackSeq(seq)
    	acc, ok := m.Data[pSeq]
    	if ok {
    		m.Data[pSeq] = acc + val
    	} else {
    		m.Data[pSeq] = val
    	}
    }
    
    func (m *SequenceMap) Has(seq [4]int8) bool {
    	pSeq := PackSeq(seq)
    	_, ok := m.Data[pSeq]
    	return ok
    }
    
    type Generator struct {
    	Secret         int64
    	LastPrice      int8
    	ChangeSequence []int8
    }
    
    func NewGenerator(Secret int64) Generator {
    	var ChangeSequence []int8
    	return Generator{Secret, int8(Secret % 10), ChangeSequence}
    }
    
    func (g *Generator) Mix(value int64) *Generator {
    	g.Secret = g.Secret ^ value
    	return g
    }
    
    func (g *Generator) Prune() *Generator {
    	g.Secret = g.Secret % 16777216
    	return g
    }
    
    func (g *Generator) Next() {
    	g.Mix(g.Secret * 64).Prune().Mix(g.Secret / 32).Prune().Mix(g.Secret * 2048).Prune()
    	Price := int8(g.Secret % 10)
    	g.ChangeSequence = append(g.ChangeSequence, Price-g.LastPrice)
    	g.LastPrice = Price
    	if len(g.ChangeSequence) > 4 {
    		g.ChangeSequence = g.ChangeSequence[1:]
    	}
    }
    
    func ParseInput() []int64 {
    	if fileInfo, _ := os.Stdin.Stat(); (fileInfo.Mode() & os.ModeCharDevice) != 0 {
    		fmt.Println("This program expects input from stdin.")
    		os.Exit(1)
    	}
    	scanner := bufio.NewScanner(os.Stdin)
    
    	var numbers []int64
    	for scanner.Scan() {
    		line := scanner.Text()
    		num, err := strconv.ParseInt(line, 10, 64)
    		if err != nil {
    			fmt.Printf("ERROR PARSING VALUE: %s\n", line)
    			os.Exit(1)
    		}
    		numbers = append(numbers, num)
    	}
    
    	return numbers
    }
    
    func main() {
    	numbers := ParseInput()
    
    	m := NewSequenceMap()
    	sum := int64(0)
    
    	for i := 0; i < len(numbers); i += 1 {
    		g := NewGenerator(numbers[i])
    		tM := NewSequenceMap()
    		for j := 0; j < 2000; j += 1 {
    			g.Next()
    			if len(g.ChangeSequence) == 4 {
    				if !tM.Has([4]int8(g.ChangeSequence)) {
    					tM.Increment([4]int8(g.ChangeSequence), 1)
    					if g.LastPrice > 0 {
    						m.Increment([4]int8(g.ChangeSequence), int(g.LastPrice))
    					}
    				}
    			}
    		}
    		sum += g.Secret
    	}
    
    	fmt.Printf("Part One: %d\n", sum)
    
    	var bestSeq [4]int8
    	bestPrice := 0
    	for pSeq, price := range m.Data {
    		if price > bestPrice {
    			bestPrice = price
    			bestSeq = UnpackSeq(pSeq)
    		}
    	}
    
    	fmt.Printf("Part Two: %d\n", bestPrice)
    	fmt.Printf("Best Sequence: %d\n", bestSeq)
    }
    
  • lwhjp@lemmy.sdf.org
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    2 days ago

    Haskell

    A nice easy one today; shame I couldn’t start on time. I had a go at refactoring to reduce the peak memory usage, but it just ended up a mess. Here’s a tidy version.

    import Data.Bits
    import Data.List
    import Data.Map (Map)
    import Data.Map qualified as Map
    
    next :: Int -> Int
    next = flip (foldl' (\x n -> (x `xor` shift x n) .&. 0xFFFFFF)) [6, -5, 11]
    
    bananaCounts :: Int -> Map [Int] Int
    bananaCounts seed =
      let secrets = iterate next seed
          prices = map (`mod` 10) secrets
          changes = zipWith (-) (drop 1 prices) prices
          sequences = map (take 4) $ tails changes
       in Map.fromListWith (const id) $
            take 2000 (zip sequences (drop 4 prices))
    
    main = do
      input <- map read . lines <$> readFile "input22"
      print . sum $ map ((!! 2000) . iterate next) input
      print . maximum $ Map.unionsWith (+) $ map bananaCounts input