Very inefficient solution to day 12 part 1

This commit is contained in:
Timothy Warren 2022-12-21 16:05:58 -05:00
parent 136324a551
commit 374b363bb7

View File

@ -3,7 +3,7 @@ use aoc_shared::grid::Grid as BaseGrid;
use aoc_shared::impl_grid_newtype; use aoc_shared::impl_grid_newtype;
#[derive(Debug)] #[derive(Debug)]
struct Grid<T>(BaseGrid<T>); pub struct Grid<T>(BaseGrid<T>);
impl_grid_newtype!(Grid, BaseGrid<char>, char); impl_grid_newtype!(Grid, BaseGrid<char>, char);
impl Grid<char> { impl Grid<char> {
@ -23,56 +23,124 @@ impl Grid<char> {
fn find_pos(&self, value: char) -> Option<usize> { fn find_pos(&self, value: char) -> Option<usize> {
self.vec.iter().position(|item| *item == value) self.vec.iter().position(|item| *item == value)
} }
}
fn find_start_and_end(&self) -> (usize, usize) { // ----------------------------------------------------------------------------
let start = self.vec.iter().position(|item| *item == 'S').unwrap();
let end = self.vec.iter().position(|item| *item == 'E').unwrap();
(start, end) #[derive(Debug, Default, Clone)]
pub struct Node {
idx: usize,
parents: Vec<usize>,
children: Option<Vec<Box<Node>>>,
}
impl Node {
pub fn new(idx: usize) -> Self {
Node {
idx,
..Node::default()
}
}
pub fn add_child(&mut self, value: usize) -> &mut Self {
let mut child = Node::new(value);
child.parents.append(&mut self.parents.clone());
child.parents.push(self.idx);
self.append(child);
self.children
.as_mut()
.expect("There should be a Vec here!")
.last_mut()
.expect("There should be a Box here!")
}
fn append(&mut self, node: Node) -> &mut Self {
match &mut self.children {
Some(c) => {
c.push(Box::new(node));
}
None => self.children = Some(vec![Box::new(node)]),
};
self
}
fn is_leaf(&self) -> bool {
self.children.is_none()
}
pub fn contains(&self, value: usize) -> bool {
if self.idx == value {
return true;
}
return self.parents.contains(&value);
}
pub fn get_leaves(&self) -> Vec<Node> {
if self.is_leaf() {
return vec![self.to_owned()];
}
let mut leaves = Vec::new();
let children = self
.children
.as_ref()
.unwrap()
.iter()
.map(|boxed| boxed.as_ref());
for child in children {
let mut child_leaves = child.get_leaves();
leaves.append(&mut child_leaves);
}
leaves
}
pub fn get_len(&self) -> usize {
self.parents.len()
} }
} }
// ---------------------------------------------------------------------------- // ----------------------------------------------------------------------------
#[derive(Debug)] #[derive(Debug)]
struct Pathfinder { pub struct Pathfinder {
current_elevation: char, current_elevation: char,
current_idx: usize,
start_idx: usize, start_idx: usize,
end_idx: usize, end_idx: usize,
grid: Grid<char>, grid: Grid<char>,
steps: Vec<Direction>, tree: Node,
} }
impl Pathfinder { impl Pathfinder {
pub fn from_file_str(file_str: &str) -> Self { pub fn from_file_str(file_str: &str) -> Self {
let mut pf = Pathfinder { let mut pf = Pathfinder {
current_elevation: 'a', current_elevation: 'a',
current_idx: 0,
start_idx: 0, start_idx: 0,
end_idx: 0, end_idx: 0,
grid: Grid::from_file_str(file_str), grid: Grid::from_file_str(file_str),
steps: Vec::new(), tree: Node::default(),
}; };
pf.go_to_start(); pf.go_to_start();
pf pf
} }
fn find_start_and_end(&self) -> (usize, usize) {
(self.start_idx, self.end_idx)
}
fn go_to_start(&mut self) { fn go_to_start(&mut self) {
let start = self.grid.find_pos('S').unwrap(); let start = self.grid.find_pos('S').unwrap();
let end = self.grid.find_pos('E').unwrap(); let end = self.grid.find_pos('E').unwrap();
self.current_idx = start;
self.start_idx = start; self.start_idx = start;
self.end_idx = end; self.end_idx = end;
self.current_elevation = 'a'; self.current_elevation = 'a';
self.grid.vec[start] = 'a'; self.grid.vec[start] = 'a';
self.grid.vec[end] = 'z'; self.grid.vec[end] = 'z';
self.tree.idx = start;
} }
fn get_index_for_move(&self, from: usize, dir: Direction) -> Option<usize> { fn get_index_for_move(&self, from: usize, dir: Direction) -> Option<usize> {
@ -112,48 +180,97 @@ impl Pathfinder {
Some(self.grid.xy_idx(x, y)) Some(self.grid.xy_idx(x, y))
} }
fn is_valid_move(&self, start: usize, dir: Direction) -> bool { fn is_valid_move(&self, start: usize, end: usize) -> bool {
if let Some(end) = self.get_index_for_move(start, dir) { // Is the item within the grid?
// Is the item within the grid? let start_char = self.grid.get(start);
let start_char = self.grid.get(start); let end_char = self.grid.get(end);
let end_char = self.grid.get(end); if start_char.is_none() || end_char.is_none() {
if start_char.is_none() || end_char.is_none() { return false;
return false; }
}
// Is the elevation change 0 or 1? // Is the elevation change 0 or 1?
let start_char = *start_char.unwrap(); let start_char = *start_char.unwrap();
let end_char = *end_char.unwrap(); let end_char = *end_char.unwrap();
println!("start, end: {}, {}", start_char, end_char); let start_char = start_char
let diff = end_char.to_digit(26).unwrap() - start_char.to_digit(26).unwrap(); .to_digit(36)
if diff > 1 || end_char < start_char { .expect(&format!("Should be a digit: {}", start_char)) as i32;
return false; let end_char = end_char
} .to_digit(36)
.expect(&format!("Should be a digit: {}", end_char)) as i32;
let diff = end_char - start_char;
if diff > 1 || diff < 0 || end_char < start_char {
return false;
}
let (start_x, start_y) = self.grid.idx_xy(start); let (start_x, start_y) = self.grid.idx_xy(start);
let (end_x, end_y) = self.grid.idx_xy(end); let (end_x, end_y) = self.grid.idx_xy(end);
let x_diff = usize::abs_diff(end_x, start_x); let x_diff = usize::abs_diff(end_x, start_x);
let y_diff = usize::abs_diff(end_y, start_y); let y_diff = usize::abs_diff(end_y, start_y);
// Have we moved 0 or 1 in a cardinal direction? // Have we moved 0 or 1 in a cardinal direction?
return match (x_diff, y_diff) { match (x_diff, y_diff) {
(0, 0) | (0, 1) | (1,0) => true, (0, 0) | (0, 1) | (1, 0) => true,
_ => false, _ => false,
}; }
};
false
} }
fn find_valid_moves(&self, start: usize) -> Vec<usize> { fn find_valid_moves(&self, start: usize) -> Vec<usize> {
[Direction::Up, Direction::Down, Direction::Left, Direction::Right] [
Direction::Up,
Direction::Down,
Direction::Left,
Direction::Right,
]
.into_iter()
.map(|d| self.get_index_for_move(start, d))
.filter(|m| m.is_some())
.map(|m| m.unwrap())
.filter(|m| self.is_valid_move(start, *m))
.collect()
}
fn add_children(&mut self, node: &mut Node, idx: usize) {
let possible_moves = self.find_valid_moves(idx);
for m in possible_moves {
if node.contains(m) {
continue;
}
let mut n = node.add_child(m);
if m != self.end_idx {
self.add_children(&mut n, m);
} else {
break;
}
}
}
fn build_tree(&mut self) {
let mut tree = { self.tree.clone() };
let idx = { self.start_idx };
self.add_children(&mut tree, idx);
self.tree = tree;
}
fn get_paths(&self) -> Vec<Node> {
self.tree
.get_leaves()
.into_iter() .into_iter()
.filter(|d| self.is_valid_move(start, *d)) .filter(|n| n.idx == self.end_idx)
.map(|d| self.get_index_for_move(start, d))
.filter(|m| m.is_some())
.map(|m| m.unwrap())
.collect() .collect()
} }
pub fn find_shortest_path(&mut self) -> Node {
self.build_tree();
self.get_paths()
.iter()
.min_by(|a, b| a.get_len().cmp(&b.get_len()))
.unwrap()
.to_owned()
}
} }
// ---------------------------------------------------------------------------- // ----------------------------------------------------------------------------
@ -161,6 +278,9 @@ impl Pathfinder {
fn main() { fn main() {
let file_str = include_str!("input.txt"); let file_str = include_str!("input.txt");
let mut finder = Pathfinder::from_file_str(file_str); let mut finder = Pathfinder::from_file_str(file_str);
let shortest_path = finder.find_shortest_path();
println!("Part 1: Fewest steps: {}", shortest_path.get_len());
} }
#[cfg(test)] #[cfg(test)]
@ -171,20 +291,22 @@ mod tests {
include_str!("test-input.txt") include_str!("test-input.txt")
} }
#[test] fn get_finder() -> Pathfinder {
fn get_start_end() { Pathfinder::from_file_str(get_test_data())
let finder = Pathfinder::from_file_str(get_test_data());
let (start, end) = finder.find_start_and_end();
assert_eq!((start, end), (0, 21));
} }
#[test] #[test]
fn find_valid_moves() { fn find_valid_moves() {
let finder = Pathfinder::from_file_str(get_test_data()); let finder = get_finder();
let (start, end) = finder.find_start_and_end();
assert_eq!(finder.find_valid_moves(start), vec![8, 1]); assert_eq!(finder.find_valid_moves(finder.start_idx), vec![8, 1]);
assert_eq!(finder.find_valid_moves(8), vec![16, 9]); assert_eq!(finder.find_valid_moves(8), vec![0, 16, 9]);
}
#[test]
fn find_shortest_path() {
let shortest = get_finder().find_shortest_path();
assert_eq!(shortest.get_len(), 31);
} }
} }