#![allow(confusable_idents, uncommon_codepoints, mixed_script_confusables)]
#![feature(
inline_const,
slice_flatten,
iter_collect_into,
let_chains,
anonymous_lifetime_in_impl_trait,
unchecked_math,
array_windows,
slice_take,
test,
slice_as_chunks,
array_chunks,
slice_split_once,
byte_slice_trim_ascii
)]
extern crate test;
pub mod util;
pub use util::prelude::*;
pub fn p1(i: &str) -> u32 {
let mut x = 0i32;
let mut y = 0i32;
// boundary points, shoelace
let (b, a) = i.行().fold((0, 0), |(b, a), i| {
let d = unsafe { rint::<_, Dir>(C! { i[0] }) };
let c = if C! { i[3] } == b' ' {
(C! { i[2] } - b'0')
} else {
(C! { i[2] } - b'0') * 10 + C! { i[3] } - b'0'
};
let (ox, oy) = (x, y);
for _ in 0..c {
(x, y) = match d {
// y down
Dir::N => (x, y + 1),
Dir::E => (x + 1, y),
Dir::S => (x, y - 1),
Dir::W => (x - 1, y),
};
}
(b + c as u32, a + ((x + ox) * (y - oy)))
});
// use shoelace formula to get the area, then use picks formula to count the number of inner points
((a.abs() / 2) as u32) + (1 + b / 2)
}
pub fn p2(i: &str) -> u64 {
let mut x = 0i32;
let mut y = 0i32;
let (b, a) = i.行().fold((0, 0), |(b, a), i| {
let dat = unsafe {
&*(if C! { i[3] } == b' ' {
C! { &i[6..] }
} else {
C! { &i[7..] }
}
.as_ptr() as *const [u8; 6])
};
let c = 読む::hex(&dat[0..5]).unwrap();
let (ox, oy) = (x, y);
for _ in 0..c {
let d = 読む::hex_dig(dat[5]).unwrap();
(x, y) = mat!(d {
0 => (x + 1, y),
1 => (x, y - 1),
2 => (x - 1, y),
3 => (x, y + 1),
});
}
(
b + c as u64,
a + ((x as i64 + ox as i64) * (y as i64 - oy as i64)),
)
});
((a.abs() / 2) as u64) + (1 + b / 2)
}
pub fn run(i: &str) -> impl Display {
p1(i)
}
fn main() {
let i = include_str!("inp.txt").trim();
println!("{}", run(i));
}
#[bench]
fn bench(b: &mut test::Bencher) {
let i = boxd(include_str!("inp.txt").trim());
b.iter(|| run(i));
}