From ea68d068cfa85d3e5ca5efe44bf470554a2c4006 Mon Sep 17 00:00:00 2001 From: Irene Knapp Date: Tue, 14 Dec 2021 22:13:19 -0800 Subject: 15 --- 15/src/main.rs | 218 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 15/src/main.rs.bak | 181 ++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 399 insertions(+) create mode 100644 15/src/main.rs create mode 100644 15/src/main.rs.bak (limited to '15/src') diff --git a/15/src/main.rs b/15/src/main.rs new file mode 100644 index 0000000..5fba0e8 --- /dev/null +++ b/15/src/main.rs @@ -0,0 +1,218 @@ +use advent_lib::prelude::*; + +use std::collections::BinaryHeap; +use std::cmp::Reverse; + + +#[derive(Eq)] +struct Exploration { + x: usize, + y: usize, + risk_so_far: i64, +} + +impl Ord for Exploration { + fn cmp(&self, other: &Self) -> std::cmp::Ordering { + Reverse(&self.risk_so_far).cmp(&Reverse(&other.risk_so_far)) + } +} + +impl PartialOrd for Exploration { + fn partial_cmp(&self, other: &Self) -> Option { + Some(Reverse(&self.risk_so_far).cmp(&Reverse(&other.risk_so_far))) + } +} + +impl PartialEq for Exploration { + fn eq(&self, other: &Self) -> bool { + self.risk_so_far == other.risk_so_far + } +} + + +fn main() -> Result<()> { + let mut args = std::env::args(); + if args.len() != 2 { + eprintln!("Usage: advent input"); + } + let _ = args.next(); + let filename = args.next().unwrap(); + + let input = advent_lib::read_lines_file(&filename)?; + + let mut value_grid = Vec::new(); + let mut risk_grid: Vec>> = Vec::new(); + for line in &input{ + let mut value_row = Vec::new(); + let mut risk_row = Vec::new(); + for c in line.chars() { + let value = c.to_digit(10).unwrap() as i64; + value_row.push(value); + risk_row.push(None); + } + value_grid.push(value_row); + risk_grid.push(risk_row); + } + + let height = value_grid.len(); + let width = value_grid[0].len(); + + risk_grid[0][0] = Some(0); + find_path(0, 0, &value_grid, &mut risk_grid, false); + let risk = risk_grid[height - 1][width - 1].unwrap(); + println!("{}", risk); + + let mut big_risk_grid = Vec::new(); + for _ in 0 .. height * 5 { + let mut big_risk_grid_row = Vec::new(); + for _ in 0 .. width * 5 { + big_risk_grid_row.push(None); + } + big_risk_grid.push(big_risk_grid_row); + } + big_risk_grid[0][0] = Some(0); + find_path(0, 0, &value_grid, &mut big_risk_grid, true); + let big_risk = big_risk_grid[height * 5 - 1][width * 5 - 1].unwrap(); + println!("{}", big_risk); + + Ok(()) +} + + +#[allow(dead_code)] +fn debug_risk_grid(risk_grid: &Vec>>) { + for row in risk_grid { + for cell in row { + match cell { + None => { print!(" ."); } + Some(n) => { print!(" {}", n); } + } + } + println!(""); + } + println!(""); +} + + +fn find_path(x: usize, y: usize, value_grid: &Vec>, + risk_grid: &mut Vec>>, repeat: bool) +{ + let mut height = value_grid.len(); + let mut width = value_grid[0].len(); + if repeat { + width *= 5; + height *= 5; + } + + let mut exploration_queue = BinaryHeap::new(); + exploration_queue.push(Exploration { x, y, risk_so_far: 0 }); + + loop { + let Exploration { x, y, risk_so_far: _ } = match exploration_queue.pop() { + None => { return; } + Some(value) => { value } + }; + let risk_so_far = risk_grid[y][x].unwrap(); + + if x > 0 { + let value_left = get_value(x - 1, y, value_grid); + let new_risk_left = risk_so_far + value_left; + + let risk_left = risk_grid[y][x-1]; + let should_move = match risk_left { + None => true, + Some(prior_best_risk) => { + new_risk_left < prior_best_risk + } + }; + if should_move { + risk_grid[y][x-1] = Some(new_risk_left); + + exploration_queue.push(Exploration { + x: x - 1, + y, + risk_so_far: new_risk_left + }); + } + } + + if y > 0 { + let value_up = get_value(x, y - 1, value_grid); + let new_risk_up = risk_so_far + value_up; + + let risk_up = risk_grid[y-1][x]; + let should_move = match risk_up { + None => true, + Some(prior_best_risk) => { + new_risk_up < prior_best_risk + } + }; + if should_move { + risk_grid[y-1][x] = Some(new_risk_up); + + exploration_queue.push(Exploration { + x, + y: y - 1, + risk_so_far: new_risk_up + }); + } + } + + if x + 1 < width { + let value_right = get_value(x + 1, y, value_grid); + let new_risk_right = risk_so_far + value_right; + + let risk_right = risk_grid[y][x+1]; + let should_move = match risk_right { + None => true, + Some(prior_best_risk) => { + new_risk_right < prior_best_risk + } + }; + if should_move { + risk_grid[y][x+1] = Some(new_risk_right); + + exploration_queue.push(Exploration { + x: x + 1, + y, + risk_so_far: new_risk_right + }); + } + } + + if y + 1 < height { + let value_down = get_value(x, y + 1, value_grid); + let new_risk_down = risk_so_far + value_down; + + let risk_down = risk_grid[y+1][x]; + let should_move = match risk_down { + None => true, + Some(prior_best_risk) => { + new_risk_down < prior_best_risk + } + }; + if should_move { + risk_grid[y+1][x] = Some(new_risk_down); + + exploration_queue.push(Exploration { + x, + y: y + 1, + risk_so_far: new_risk_down + }); + } + } + } +} + + +fn get_value(x: usize, y: usize, value_grid: &Vec>) -> i64 { + let height = value_grid.len(); + let width = value_grid[0].len(); + + let tile_x = x / width; + let tile_y = y / height; + let increment: i64 = (tile_x + tile_y) as i64; + let raw_value = value_grid[y % height][x % width]; + (raw_value + increment - 1) % 9 + 1 +} + diff --git a/15/src/main.rs.bak b/15/src/main.rs.bak new file mode 100644 index 0000000..33f76e3 --- /dev/null +++ b/15/src/main.rs.bak @@ -0,0 +1,181 @@ +use advent_lib::prelude::*; + + +fn main() -> Result<()> { + let mut args = std::env::args(); + if args.len() != 2 { + eprintln!("Usage: advent input"); + } + let _ = args.next(); + let filename = args.next().unwrap(); + + let input = advent_lib::read_lines_file(&filename)?; + + let mut value_grid = Vec::new(); + let mut risk_grid: Vec>> = Vec::new(); + for line in &input{ + let mut value_row = Vec::new(); + let mut risk_row = Vec::new(); + for c in line.chars() { + let value = c.to_digit(10).unwrap() as i64; + value_row.push(value); + risk_row.push(None); + } + value_grid.push(value_row); + risk_grid.push(risk_row); + } + + let height = value_grid.len(); + let width = value_grid[0].len(); + + /* + risk_grid[0][0] = Some(0); + find_path(0, 0, &value_grid, &mut risk_grid, false); + let risk = risk_grid[height - 1][width - 1].unwrap(); + println!("{}", risk); + */ + + let mut big_risk_grid = Vec::new(); + for _ in 0 .. height * 5 { + let mut big_risk_grid_row = Vec::new(); + for _ in 0 .. width * 5 { + big_risk_grid_row.push(None); + } + big_risk_grid.push(big_risk_grid_row); + } + big_risk_grid[0][0] = Some(0); + find_path(0, 0, &value_grid, &mut big_risk_grid, true); + let big_risk = big_risk_grid[height * 5 - 1][width * 5 - 1].unwrap(); + println!("{}", big_risk); + + Ok(()) +} + + +#[allow(dead_code)] +fn debug_risk_grid(risk_grid: &Vec>>) { + for row in risk_grid { + for cell in row { + match cell { + None => { print!(" ."); } + Some(n) => { print!(" {}", n); } + } + } + println!(""); + } + println!(""); +} + + +fn find_path(x: usize, y: usize, value_grid: &Vec>, + risk_grid: &mut Vec>>, repeat: bool) +{ + let mut height = value_grid.len(); + let mut width = value_grid[0].len(); + if repeat { + width *= 5; + height *= 5; + } + + let mut exploration_stack = Vec::new(); + exploration_stack.push((x, y)); + + let mut counter = 0; + + loop { + let (x, y) = match exploration_stack.pop() { + None => { return; } + Some(value) => { value } + }; + let risk_so_far = risk_grid[y][x].unwrap(); + counter += 1; + if counter % 100000 == 0 { + print!(" [{},{} {}]", x, y, risk_so_far); + } + + if x > 0 { + let value_left = get_value(x - 1, y, value_grid); + let new_risk_left = risk_so_far + value_left; + + let risk_left = risk_grid[y][x-1]; + let should_move = match risk_left { + None => true, + Some(prior_best_risk) => { + new_risk_left < prior_best_risk + } + }; + if should_move { + risk_grid[y][x-1] = Some(new_risk_left); + + exploration_stack.push((x - 1, y)); + } + } + + if y > 0 { + let value_up = get_value(x, y - 1, value_grid); + let new_risk_up = risk_so_far + value_up; + + let risk_up = risk_grid[y-1][x]; + let should_move = match risk_up { + None => true, + Some(prior_best_risk) => { + new_risk_up < prior_best_risk + } + }; + if should_move { + risk_grid[y-1][x] = Some(new_risk_up); + + exploration_stack.push((x, y - 1)); + } + } + + if x + 1 < width { + let value_right = get_value(x + 1, y, value_grid); + let new_risk_right = risk_so_far + value_right; + + let risk_right = risk_grid[y][x+1]; + let should_move = match risk_right { + None => true, + Some(prior_best_risk) => { + new_risk_right < prior_best_risk + } + }; + if should_move { + risk_grid[y][x+1] = Some(new_risk_right); + + exploration_stack.push((x + 1, y)); + } + } + + if y + 1 < height { + let value_down = get_value(x, y + 1, value_grid); + let new_risk_down = risk_so_far + value_down; + + let risk_down = risk_grid[y+1][x]; + let should_move = match risk_down { + None => true, + Some(prior_best_risk) => { + new_risk_down < prior_best_risk + } + }; + if should_move { + risk_grid[y+1][x] = Some(new_risk_down); + + exploration_stack.push((x, y + 1)); + } + } + } +} + + +fn get_value(x: usize, y: usize, value_grid: &Vec>) -> i64 { + let height = value_grid.len(); + let width = value_grid[0].len(); + + let tile_x = x / width; + let tile_y = y / height; + let increment: i64 = (tile_x + tile_y) as i64; + let raw_value = value_grid[y % height][x % width]; + (raw_value + increment - 1) % 9 + 1 +} + -- cgit 1.4.1