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b0fce4d80a
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b0fce4d80a |
4 changed files with 258 additions and 0 deletions
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@ -10,3 +10,7 @@ path = "day11/part2.rs"
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[[bin]]
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name = "d12p1"
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path = "day12/part1.rs"
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[[bin]]
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name = "d12p2"
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path = "day12/part2.rs"
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140
day12/part2.rs
Normal file
140
day12/part2.rs
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@ -0,0 +1,140 @@
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#![feature(let_chains)]
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use std::collections::{HashSet, VecDeque};
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const GRID_SIZE: usize = include_bytes!("input.txt").len().isqrt();
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fn dfs(grid: &[[char; GRID_SIZE]; GRID_SIZE], start: (usize, usize)) -> HashSet<(usize, usize)> {
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let mut queue = VecDeque::from([start]);
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let mut set = HashSet::from([start]);
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let plant_type = grid[start.0][start.1];
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while let Some(next) = queue.pop_front() {
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let to_check = [
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(next.0 + 1, next.1),
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(next.0.wrapping_sub(1), next.1),
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(next.0, next.1 + 1),
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(next.0, next.1.wrapping_sub(1)),
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];
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for pos in to_check {
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if set.contains(&pos) {
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continue;
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}
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if let Some(plant) = grid.get(pos.0).and_then(|r| r.get(pos.1))
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&& *plant == plant_type
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{
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queue.push_back(pos);
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set.insert(pos);
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}
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}
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}
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set
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}
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// fn dfs_perimeter(
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// perimeter_set: &HashSet<(isize, isize)>,
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// start: (isize, isize),
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// ) -> HashSet<(isize, isize)> {
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// let mut queue = VecDeque::from([start]);
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// let mut set = HashSet::from([start]);
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// while let Some(next) = queue.pop_front() {
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// let to_check = [
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// (next.0 + 1, next.1),
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// (next.0 - 1, next.1),
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// (next.0, next.1 + 1),
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// (next.0, next.1 - 1),
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// ];
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// for pos in to_check {
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// if set.contains(&pos) {
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// continue;
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// }
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// if perimeter_set.contains(&pos) {
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// queue.push_back(pos);
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// set.insert(pos);
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// }
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// }
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// }
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// set
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// }
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fn main() {
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let mut input_iter = include_str!("input.txt").lines().map(|l| {
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let mut iter = l.chars();
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std::array::from_fn::<_, GRID_SIZE, _>(|_| iter.next().unwrap())
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});
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let grid: [_; GRID_SIZE] = std::array::from_fn(|_| input_iter.next().unwrap());
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// Parse all independent regions
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let mut regions = Vec::<(char, HashSet<(usize, usize)>)>::new();
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for row in 0..GRID_SIZE {
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for col in 0..GRID_SIZE {
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if regions.iter().all(|region| !region.1.contains(&(row, col))) {
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regions.push((grid[row][col], dfs(&grid, (row, col))));
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}
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}
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}
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// Sanity check -> are there any duplicated nodes between the regions?
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assert_eq!(
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regions.iter().map(|r| r.1.len()).sum::<usize>(),
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regions
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.iter()
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.map(|r| &r.1)
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.flatten()
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.collect::<HashSet<&(usize, usize)>>()
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.len()
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);
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// Expand grid by two because im going insane
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let mut expanded_grid = [[' '; GRID_SIZE * 2 + 1]; GRID_SIZE * 2 + 1];
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for row in 0..GRID_SIZE {
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for col in 0..GRID_SIZE {
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expanded_grid[row * 2 + 1][col * 2 + 1] = grid[row][col];
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}
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}
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for row in 0..(GRID_SIZE*2+1) {
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print!("|");
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for col in 0..(GRID_SIZE*2+1) {
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print!("{}", expanded_grid[row][col]);
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}
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println!("|");
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}
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// Calculate area and sides of each
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let mut sum = 0;
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for (plant_type, region) in regions.into_iter() {
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let area = region.len();
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let sides = 0;
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// Clone the expanded grid
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let expanded_grid_clone = expanded_grid.clone();
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for pos in region.iter() {
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// None in a position is a special case meaning "overfilled in the negative direction"
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// Since we don't actually access the point there, it just gets treated like -1 would
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let to_check = [
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(pos.0.checked_add(1), Some(pos.1)),
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(pos.0.checked_sub(1), Some(pos.1)),
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(Some(pos.0), pos.1.checked_add(1)),
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(Some(pos.0), pos.1.checked_sub(1)),
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];
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for outer_pos in to_check {
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if (outer_pos.0.is_none() || outer_pos.1.is_none())
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|| !region.contains(&(outer_pos.0.unwrap(), outer_pos.1.unwrap()))
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{
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expanded_grid_clone[outer_pos.0.map(|p| p * 2 + 1)]
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}
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}
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}
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sum += area * sides;
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println!("{plant_type}: {area}A {sides}S");
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}
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println!("Result: {sum}");
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}
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56
day13/part1.kts
Executable file
56
day13/part1.kts
Executable file
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@ -0,0 +1,56 @@
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#!/usr/bin/env kotlin
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import java.io.File
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import kotlin.math.floor
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// I LOVE MATH
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typealias Matrix2 = Pair<Pair<Int, Int>, Pair<Int, Int>>
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fun Matrix2.determinant(): Int = (this.first.first * this.second.second) - (this.first.second * this.second.first)
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typealias Point = Pair<Int, Int>
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data class Game(
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val buttonA: Point,
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val buttonB: Point,
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val goal: Point
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)
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val games = File("input.txt").readLines().chunked(4).map { lines ->
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Game(
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buttonA = lines[0].substring(12).split(", Y+").let {
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it[0].toInt() to it[1].toInt()
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},
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buttonB = lines[1].substring(12).split(", Y+").let {
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it[0].toInt() to it[1].toInt()
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},
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goal = lines[2].substring(9).split(", Y=").let {
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it[0].toInt() to it[1].toInt()
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}
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)
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}
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var tokens = 0
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games.forEach { game ->
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val aPresses = Matrix2(
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game.goal.first to game.buttonB.first,
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game.goal.second to game.buttonB.second
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).determinant().toDouble() / Matrix2(
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game.buttonA.first to game.buttonB.first,
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game.buttonA.second to game.buttonB.second
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).determinant()
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val bPresses = Matrix2(
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game.buttonA.first to game.goal.first,
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game.buttonA.second to game.goal.second
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).determinant().toDouble() / Matrix2(
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game.buttonA.first to game.buttonB.first,
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game.buttonA.second to game.buttonB.second
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).determinant()
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if (aPresses != floor(aPresses) || bPresses != floor(bPresses)) return@forEach
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tokens += aPresses.toInt() * 3 + bPresses.toInt()
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}
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println("Result: $tokens")
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58
day13/part2.kts
Executable file
58
day13/part2.kts
Executable file
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@ -0,0 +1,58 @@
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#!/usr/bin/env kotlin
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import java.io.File
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import kotlin.math.floor
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// I LOVE MATH
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typealias Matrix2 = Pair<Pair<Long, Long>, Pair<Long, Long>>
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fun Matrix2.determinant(): Long = (this.first.first * this.second.second) - (this.first.second * this.second.first)
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typealias Point = Pair<Long, Long>
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data class Game(
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val buttonA: Point,
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val buttonB: Point,
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val goal: Point
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)
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val games = File("input.txt").readLines().chunked(4).map { lines ->
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Game(
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buttonA = lines[0].substring(12).split(", Y+").let {
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it[0].toLong() to it[1].toLong()
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},
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buttonB = lines[1].substring(12).split(", Y+").let {
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it[0].toLong() to it[1].toLong()
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},
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goal = lines[2].substring(9).split(", Y=").let {
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it[0].toLong() + 10000000000000 to it[1].toLong() + 10000000000000
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}
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)
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}
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var tokens = 0L
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games.forEach { game ->
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val aPressesNumer = Matrix2(
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game.goal.first to game.buttonB.first,
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game.goal.second to game.buttonB.second
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).determinant()
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val aPressesDenom = Matrix2(
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game.buttonA.first to game.buttonB.first,
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game.buttonA.second to game.buttonB.second
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).determinant()
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val bPressesNumer = Matrix2(
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game.buttonA.first to game.goal.first,
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game.buttonA.second to game.goal.second
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).determinant()
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val bPressesDenom = Matrix2(
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game.buttonA.first to game.buttonB.first,
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game.buttonA.second to game.buttonB.second
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).determinant()
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if (aPressesNumer % aPressesDenom == 0L && bPressesNumer % bPressesDenom == 0L) {
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tokens += (aPressesNumer / aPressesDenom) * 3 + (bPressesNumer / bPressesDenom)
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}
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}
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println("Result: $tokens")
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