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aoc/2025/09/p2.rs
javalsai 25347860e1 perf: d09p2 peak perf
2025-12-10 11:25:58 +01:00

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Rust
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#![feature(iter_map_windows)]
//! Half of the puzzle seems like a fancy way to say that the puzzle corners have to be within any
//! other rectangle or adyacent (as in same x or y as any other point) to other corners.
//!
//! I think even adyacent is within the "other rectangle thing", because
use std::{collections::BinaryHeap, ops::Range};
#[unsafe(no_mangle)]
pub extern "Rust" fn challenge_usize(buf: &[u8]) -> usize {
let coords = buf[..(buf.len() - 1)]
.split(|&b| b == b'\n')
.map(parse_ln)
.collect::<Vec<_>>();
// assuming each coord is contiguous to the prev one
let edges = coords
.iter()
.cloned()
.chain([coords[0]])
.map_windows(|&[a, b]| (a.0.abs_diff(b.0) + a.1.abs_diff(b.1), (a, b)))
.collect::<BinaryHeap<_>>();
// edges.sort_by(|(a1, a2), (b1, b2)| {
// (a1.0.abs_diff(a2.0) + a1.1.abs_diff(a2.1))
// .cmp(&(b1.0.abs_diff(b2.0) + b1.1.abs_diff(b2.1)))
// });
let mut max_area = 0;
for (i, coor1) in coords.iter().enumerate() {
for coor2 in coords.iter().skip(i + 1) {
let dx = coor1.0.abs_diff(coor2.0) + 1;
let dy = coor1.1.abs_diff(coor2.1) + 1;
let area = dx * dy;
if area > max_area
&& is_really_contained((*coor1, *coor2), edges.iter().map(|&(_, v)| v))
{
max_area = area;
}
}
}
max_area
}
/// If any bouding vertex is well within (not sitting on a rectangle's edge), the rectangle is not
/// well contained
fn is_really_contained(
(rect0, rect1): ((usize, usize), (usize, usize)),
edges: impl Iterator<Item = ((usize, usize), (usize, usize))>,
) -> bool {
let (rect0, rect1) = (
(rect0.0.min(rect1.0), rect0.1.min(rect1.1)),
(rect0.0.max(rect1.0), rect0.1.max(rect1.1)),
);
let xran = (rect0.0 + 1)..(rect1.0);
let yran = (rect0.1 + 1)..(rect1.1);
// Optimization, no need to check each range's point
for (edge1, edge2) in edges {
if edge1.0 == edge2.0
&& xran.contains(&edge1.0)
&& rangeoverlap(&mkrange(edge1.1, edge2.1), &yran)
{
return false;
}
if edge1.1 == edge2.1
&& yran.contains(&edge1.1)
&& rangeoverlap(&mkrange(edge1.0, edge2.0), &xran)
{
return false;
}
}
true
}
fn mkrange<T: Ord + Copy>(a: T, b: T) -> Range<T> {
a.min(b)..a.max(b)
}
fn rangeoverlap<T: Ord>(a: &Range<T>, b: &Range<T>) -> bool {
if a.end <= b.start || a.start >= b.end {
return false;
}
true
}
fn parse_ln(ln: &[u8]) -> (usize, usize) {
let mut iter = ln.split(|&b| b == b',').map(|slice| {
slice
.iter()
.fold(0, |acc, b| acc * 10 + (b - b'0') as usize)
});
(iter.next().unwrap(), iter.next().unwrap())
}
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