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LeetCode/rs/pacific-atlantic-water-flow.rs
Matej Focko 2351dfd0ee
chore: unwrap one layer
Signed-off-by: Matej Focko <mfocko@redhat.com>
2023-12-12 14:36:00 +01:00

246 lines
6.2 KiB
Rust

use std::{collections::VecDeque, ops::BitOr};
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
#[repr(u8)]
enum Reachable {
None = 0x0,
Pacific = 0x1,
Atlantic = 0x2,
Both = 0x3,
}
impl Reachable {
fn new(y: usize, x: usize, max_y: usize, max_x: usize) -> Reachable {
let reaches_pacific = y == 0 || x == 0;
let reaches_atlantic = y == max_y - 1 || x == max_x - 1;
match (reaches_pacific, reaches_atlantic) {
(true, true) => Reachable::Both,
(true, _) => Reachable::Pacific,
(_, true) => Reachable::Atlantic,
(_, _) => Reachable::None,
}
}
}
impl From<u8> for Reachable {
fn from(u: u8) -> Self {
match u {
0 => Reachable::None,
1 => Reachable::Pacific,
2 => Reachable::Atlantic,
3 => Reachable::Both,
_ => panic!("Invalid conversion"),
}
}
}
impl From<Reachable> for u8 {
fn from(r: Reachable) -> Self {
match r {
Reachable::None => 0,
Reachable::Pacific => 1,
Reachable::Atlantic => 2,
Reachable::Both => 3,
}
}
}
impl BitOr for Reachable {
type Output = Reachable;
fn bitor(self, rhs: Self) -> Self::Output {
let (lhs, rhs): (u8, u8) = (self.into(), rhs.into());
(lhs | rhs).into()
}
}
#[derive(PartialEq, Eq)]
enum State {
Unvisited,
Queued,
Visited,
}
struct Vertex {
height: i32,
reaches: Reachable,
state: State,
}
struct Graph {
vertices: Vec<Vec<Vertex>>,
max_y: usize,
max_x: usize,
}
impl Graph {
pub fn new(heights: &Vec<Vec<i32>>) -> Graph {
let max_y = heights.len();
let max_x = heights[0].len();
Graph {
vertices: heights
.iter()
.enumerate()
.map(|(y, row)| {
row.iter()
.enumerate()
.map(|(x, h)| Vertex {
height: *h,
reaches: Reachable::new(y, x, max_y, max_x),
state: State::Unvisited,
})
.collect()
})
.collect(),
max_y,
max_x,
}
}
pub fn vertices(&self) -> &Vec<Vec<Vertex>> {
&self.vertices
}
fn _vertex(&mut self, y: i32, x: i32) -> Option<&mut Vertex> {
if y >= 0 && y < self.max_y as i32 && x >= 0 && x < self.max_x as i32 {
Some(&mut self.vertices[y as usize][x as usize])
} else {
None
}
}
fn _run_bfs(&mut self, q: &mut VecDeque<(i32, i32)>) {
q.iter().for_each(|&(y, x)| {
self._vertex(y, x).unwrap().state = State::Queued;
});
while let Some((y, x)) = q.pop_front() {
self._vertex(y, x).unwrap().state = State::Visited;
let h = self._vertex(y, x).unwrap().height;
let r = self._vertex(y, x).unwrap().reaches;
for d in [-1, 1] {
for (next_y, next_x) in [(y + d, x), (y, x + d)] {
if let Some(v) = self._vertex(next_y, next_x) {
if matches!(v.state, State::Unvisited) && h <= v.height {
q.push_back((next_y, next_x));
v.state = State::Queued;
v.reaches = r | v.reaches;
}
}
}
}
}
}
fn _reset(&mut self) {
for y in 0..self.max_y {
for x in 0..self.max_x {
self.vertices[y][x].state = State::Unvisited;
}
}
}
pub fn bfs(&mut self) {
// Run BFS from Pacific Ocean
self._run_bfs(&mut VecDeque::from(
(0..self.max_x)
.map(|x| (0_i32, x as i32))
.chain((0..self.max_y).map(|y| (y as i32, 0_i32)))
.collect::<Vec<(i32, i32)>>(),
));
// Reset the visited
self._reset();
// Run BFS from Atlantic Ocean
self._run_bfs(&mut VecDeque::from(
(0..self.max_x)
.map(|x| (self.max_y as i32 - 1, x as i32))
.chain((0..self.max_y).map(|y| (y as i32, self.max_x as i32 - 1)))
.collect::<Vec<(i32, i32)>>(),
));
}
}
impl Solution {
pub fn pacific_atlantic(heights: Vec<Vec<i32>>) -> Vec<Vec<i32>> {
let mut g = Graph::new(&heights);
g.bfs();
g.vertices().iter().for_each(|row| {
row.iter().for_each(|v| {
print!("{:?} ", v.reaches);
});
println!();
});
g.vertices()
.iter()
.enumerate()
.flat_map(|(y, row)| {
row.iter()
.enumerate()
.filter(|&(_, v)| matches!(v.reaches, Reachable::Both))
.map(move |(x, _)| vec![y as i32, x as i32])
})
.collect()
}
}
struct Solution {}
fn main() {
println!("Hello World!");
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_example_1() {
assert_eq!(
Solution::pacific_atlantic(vec![
vec![1, 2, 2, 3, 5],
vec![3, 2, 3, 4, 4],
vec![2, 4, 5, 3, 1],
vec![6, 7, 1, 4, 5],
vec![5, 1, 1, 2, 4]
]),
vec![
vec![0, 4],
vec![1, 3],
vec![1, 4],
vec![2, 2],
vec![3, 0],
vec![3, 1],
vec![4, 0]
]
);
}
#[test]
fn test_example_2() {
assert_eq!(Solution::pacific_atlantic(vec![vec![1]]), vec![vec![0, 0]]);
}
#[test]
fn test_wrong() {
assert_eq!(
Solution::pacific_atlantic(vec![vec![3, 3, 3], vec![3, 1, 3], vec![0, 2, 4]]),
vec![
vec![0, 0],
vec![0, 1],
vec![0, 2],
vec![1, 0],
vec![1, 2],
vec![2, 0],
vec![2, 1],
vec![2, 2]
]
);
}
}