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compare: Jan:6585356f0e978be4f991b7226e8b7fccc36f3a6d
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3 Commits
e215cd7472 ... 6585356f0e

Author SHA1 Message Date
Jan-Bulthuis 6585356f0e day24 2024-12-25 05:53:45 +01:00
Jan-Bulthuis ac4c0f3838 day23 2024-12-24 15:20:16 +01:00
Jan-Bulthuis b49467a59e Fuck it we ball 2024-12-22 20:09:58 +01:00
4 changed files with 547 additions and 11 deletions
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20
aoc_2024/src/day21.rs
View File

@ -131,11 +131,9 @@ impl NumButton {
} }
} }
type Input = String;
#[aoc_generator(day21)] #[aoc_generator(day21)]
fn parse(input: &str) -> Input { fn parse(input: &str) -> &'static str {
input.to_string() unsafe { std::mem::transmute(input) }
} }
type Path = [DistanceSize; 6]; type Path = [DistanceSize; 6];
@ -336,7 +334,7 @@ const CHAR_IDX: [usize; 10] = [
]; ];
#[aoc(day21, part1)] #[aoc(day21, part1)]
fn part1(input: &Input) -> DistanceSize { fn part1(input: &str) -> DistanceSize {
let num_paths = const { let num_paths = const {
let steps = precompute_steps_new::<2>([[1; 5]; 5]); let steps = precompute_steps_new::<2>([[1; 5]; 5]);
let paths = precompute_paths(); let paths = precompute_paths();
@ -358,7 +356,7 @@ fn part1(input: &Input) -> DistanceSize {
} }
#[aoc(day21, part2)] #[aoc(day21, part2)]
fn part2(input: &Input) -> DistanceSize { fn part2(input: &str) -> DistanceSize {
let num_paths = const { let num_paths = const {
let steps = precompute_steps_new::<25>([[1; 5]; 5]); let steps = precompute_steps_new::<25>([[1; 5]; 5]);
let paths = precompute_paths(); let paths = precompute_paths();
@ -385,10 +383,10 @@ mod tests {
#[test] #[test]
fn part1_example() { fn part1_example() {
assert_eq!(part1(&parse("379A")), 64 * 379); assert_eq!(part1(parse("379A")), 64 * 379);
assert_eq!(part1(&parse("179A")), 68 * 179); assert_eq!(part1(parse("179A")), 68 * 179);
assert_eq!(part1(&parse("456A")), 64 * 456); assert_eq!(part1(parse("456A")), 64 * 456);
assert_eq!(part1(&parse("980A")), 60 * 980); assert_eq!(part1(parse("980A")), 60 * 980);
assert_eq!(part1(&parse("029A")), 68 * 29); assert_eq!(part1(parse("029A")), 68 * 29);
} }
} }

233
aoc_2024/src/day23.rs Normal file
View File

@ -0,0 +1,233 @@
use aoc_runner_derive::{aoc, aoc_generator};
use hashbrown::{HashMap, HashSet};
type Input = (usize, [Vec<usize>; 26 * 26], HashMap<usize, String>);
#[aoc_generator(day23)]
fn parse(input: &str) -> Input {
let mut i = 0;
let mut names = HashMap::new();
let mut ids = HashMap::new();
let mut adj_list = [const { Vec::new() }; 26 * 26];
input.lines().for_each(|line| {
let mut splits = line.split('-');
let left = splits.next().unwrap().to_string();
let right = splits.next().unwrap().to_string();
let left_id = {
*ids.entry(left.clone()).or_insert_with(|| {
let id = i;
i += 1;
names.insert(id, left);
id
})
};
let right_id = {
*ids.entry(right.clone()).or_insert_with(|| {
let id = i;
i += 1;
names.insert(id, right);
id
})
};
adj_list[left_id].push(right_id);
adj_list[right_id].push(left_id);
});
(i, adj_list, names)
}
#[aoc(day23, part1)]
fn part1(input: &Input) -> usize {
let num = input.0;
let adj_list = &input.1;
let names = &input.2;
(0..num)
.filter(|id| names[id].starts_with("t"))
.flat_map(|id| {
let mut three_groups = HashSet::new();
let adj = &adj_list[id];
for left in 0..adj.len() {
for right in left + 1..adj.len() {
if adj_list[adj[left]].contains(&adj[right]) {
let mut group = [id, adj[left], adj[right]];
group.sort();
three_groups.insert((group[0], group[1], group[2]));
}
}
}
three_groups
})
.collect::<HashSet<(usize, usize, usize)>>()
.into_iter()
.count()
}
#[aoc(day23, part2)]
fn part2(input: &Input) -> String {
let num = input.0;
let adj_list = &input.1;
let names = &input.2;
let max_clique = (0..num)
.filter(|id| names[id].starts_with("t"))
.flat_map(|id| {
let mut three_groups = HashSet::new();
let adj = &adj_list[id];
for left in 0..adj.len() {
for right in left + 1..adj.len() {
if adj_list[adj[left]].contains(&adj[right]) {
let mut group = [id, adj[left], adj[right]];
group.sort();
three_groups.insert((group[0], group[1], group[2]));
}
}
}
three_groups
})
.collect::<HashSet<(usize, usize, usize)>>()
.into_iter()
.flat_map(|(a, b, c)| {
let clique = vec![a, b, c];
expand_cliques(clique, num, adj_list)
})
.max_by_key(|clique| clique.len())
.unwrap();
let mut names = max_clique
.iter()
.map(|id| names[id].clone())
.collect::<Vec<String>>();
names.sort();
names.join(",")
}
fn expand_cliques(current: Vec<usize>, num: usize, adj: &[Vec<usize>]) -> Vec<Vec<usize>> {
let mut expansions: Vec<Vec<usize>> = vec![current.clone()];
for node in 0..num {
if current.contains(&node) {
continue;
}
if !current
.iter()
.all(|clique_node| adj[*clique_node].contains(&node))
{
continue;
}
let mut pushed = false;
for clique in &mut expansions {
if clique
.iter()
.all(|clique_node| adj[*clique_node].contains(&node))
{
clique.push(node);
pushed = true;
continue;
}
}
if !pushed {
let mut new_clique = current.clone();
new_clique.push(node);
expansions.push(new_clique);
}
}
expansions
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn part1_example() {
assert_eq!(
part1(&parse(
"kh-tc
qp-kh
de-cg
ka-co
yn-aq
qp-ub
cg-tb
vc-aq
tb-ka
wh-tc
yn-cg
kh-ub
ta-co
de-co
tc-td
tb-wq
wh-td
ta-ka
td-qp
aq-cg
wq-ub
ub-vc
de-ta
wq-aq
wq-vc
wh-yn
ka-de
kh-ta
co-tc
wh-qp
tb-vc
td-yn"
)),
7
);
}
#[test]
fn part2_example() {
assert_eq!(
part2(&parse(
"kh-tc
qp-kh
de-cg
ka-co
yn-aq
qp-ub
cg-tb
vc-aq
tb-ka
wh-tc
yn-cg
kh-ub
ta-co
de-co
tc-td
tb-wq
wh-td
ta-ka
td-qp
aq-cg
wq-ub
ub-vc
de-ta
wq-aq
wq-vc
wh-yn
ka-de
kh-ta
co-tc
wh-qp
tb-vc
td-yn"
)),
"co,de,ka,ta"
);
}
}

303
aoc_2024/src/day24.rs Normal file
View File

@ -0,0 +1,303 @@
use std::collections::VecDeque;
use aoc_runner_derive::{aoc, aoc_generator};
use hashbrown::{HashMap, HashSet};
use nom::{
bytes::complete::tag,
character::complete::{anychar, newline, one_of, space1, u64},
multi::{fill, many1, separated_list0},
sequence::{delimited, separated_pair},
IResult,
};
type Line = [char; 3];
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
enum Operation {
And,
Or,
Xor,
}
#[derive(Debug, Clone, Copy)]
struct Gate {
operation: Operation,
in_0: Line,
in_1: Line,
out: Line,
}
type Input = (Vec<(Line, u64)>, Vec<Gate>);
#[aoc_generator(day24)]
fn parse(input: &str) -> Input {
separated_pair(
separated_list0(newline, separated_pair(parse_line, tag(": "), u64)),
tag("\n\n"),
separated_list0(newline, parse_instruction),
)(input)
.unwrap()
.1
}
fn parse_line(input: &str) -> IResult<&str, [char; 3]> {
let mut buffer = ['0'; 3];
let (input, _) = fill(anychar, &mut buffer)(input)?;
Ok((input, buffer))
}
fn parse_instruction(input: &str) -> IResult<&str, Gate> {
let (input, in_0) = parse_line(input)?;
let (input, operation) = delimited(space1, many1(one_of("ANDXOR")), space1)(input)?;
let (input, in_1) = parse_line(input)?;
let (input, _) = tag(" -> ")(input)?;
let (input, out) = parse_line(input)?;
match operation[0] {
'A' => Ok((
input,
Gate {
in_0,
in_1,
out,
operation: Operation::And,
},
)),
'O' => Ok((
input,
Gate {
in_0,
in_1,
out,
operation: Operation::Or,
},
)),
'X' => Ok((
input,
Gate {
in_0,
in_1,
out,
operation: Operation::Xor,
},
)),
_ => unreachable!(),
}
}
#[aoc(day24, part1)]
fn part1(input: &Input) -> usize {
let fixed = &input.0;
let mut values = HashMap::new();
for (line, value) in fixed {
values.insert(line, *value);
}
let mut gates = VecDeque::new();
for gate in &input.1 {
gates.push_back(gate);
}
while let Some(gate) = gates.pop_front() {
if values.contains_key(&gate.in_0) && values.contains_key(&gate.in_1) {
let in_0 = values[&gate.in_0];
let in_1 = values[&gate.in_1];
let out = match gate.operation {
Operation::And => in_0 & in_1,
Operation::Or => in_0 | in_1,
Operation::Xor => in_0 ^ in_1,
};
values.insert(&gate.out, out);
} else {
gates.push_back(gate);
}
}
values
.into_iter()
.filter(|(line, value)| line[0] == 'z' && *value == 1)
.map(|(line, _)| {
1 << line[1..3]
.iter()
.collect::<String>()
.parse::<u64>()
.unwrap()
})
.sum()
}
#[aoc(day24, part2)]
fn part2(input: &Input) -> String {
let swaps: &[(Line, Line)] = &[
(['h', 'm', 't'], ['z', '1', '8']),
(['b', 'f', 'q'], ['z', '2', '7']),
(['h', 'k', 'h'], ['z', '3', '1']),
(['f', 'j', 'p'], ['b', 'n', 'g']),
];
// let swaps: &[(Line, Line)] = &[];
let mut gates = input.1.clone();
for gate in &mut gates {
for (from, to) in swaps {
if gate.out == *from {
gate.out = *to;
} else if gate.out == *to {
gate.out = *from;
}
}
}
for gate in &gates {
if gate.out[0] == 'z' && gate.operation != Operation::Xor {
println!("gate {:?} outputs to a z but is not xor", gate);
}
}
let mut c = ['r', 'j', 'r'];
for bit in 1..=44 {
let x = [
'x',
(bit as u8 / 10 + 48) as char,
(bit as u8 % 10 + 48) as char,
];
let y = [
'y',
(bit as u8 / 10 + 48) as char,
(bit as u8 % 10 + 48) as char,
];
let xy_gates = find_gate(&gates, &x, &y);
assert_eq!(
xy_gates.len(),
2,
"there is not exactly two xy gates {:?}\nrelated gates: {:?}",
xy_gates,
find_debug_gate(&gates, &x, &y)
);
let line_xy_xor = xy_gates
.iter()
.find(|g| g.operation == Operation::Xor)
.unwrap()
.out;
let line_xy_and = xy_gates
.iter()
.find(|g| g.operation == Operation::And)
.unwrap()
.out;
let xyc_gates = find_gate(&gates, &line_xy_xor, &c);
assert_eq!(xyc_gates.len(), 2,
"there is not exactly two output gates {:?}\nrelated gates: {:?}\nxy_and: {}\nxy_xor: {}",
xyc_gates,
find_debug_gate(&gates, &line_xy_xor, &c),
display_line(&line_xy_and),
display_line(&line_xy_xor),
);
let line_xyc_xor = xyc_gates
.iter()
.find(|g| g.operation == Operation::Xor)
.unwrap()
.out;
let line_xyc_and = xyc_gates
.iter()
.find(|g| g.operation == Operation::And)
.unwrap()
.out;
let xyco_gates = find_gate(&gates, &line_xyc_and, &line_xy_and);
assert_eq!(
xyco_gates.len(),
1,
"there is no or more than one output gate {:?}\nrelated gates: {:?}\nxy_and: {}\nxy_xor: {}\nxyc_and: {}\nxyc_xor: {}",
xyco_gates,
find_debug_gate(&gates, &line_xyc_and, &line_xy_and),
display_line(&line_xy_and),
display_line(&line_xy_xor),
display_line(&line_xyc_and),
display_line(&line_xyc_xor),
);
c = xyco_gates[0].out;
println!(
"for bit {} z-output is {} and carry out is {}",
bit,
display_line(&line_xyc_xor),
display_line(&c)
);
}
let mut wires = swaps
.iter()
.flat_map(|(a, b)| [display_line(a), display_line(b)])
.collect::<Vec<String>>();
wires.sort();
wires.join(",")
}
fn display_line(line: &Line) -> String {
line.iter().collect()
}
fn find_gate(gates: &[Gate], in_0: &Line, in_1: &Line) -> Vec<Gate> {
gates
.iter()
.filter(|gate| {
(gate.in_0 == *in_0 && gate.in_1 == *in_1) || (gate.in_0 == *in_1 && gate.in_1 == *in_0)
})
.copied()
.collect()
}
fn find_debug_gate(gates: &[Gate], in_0: &Line, in_1: &Line) -> Vec<Gate> {
gates
.iter()
.filter(|gate| {
gate.in_0 == *in_0 || gate.in_1 == *in_1 || gate.in_0 == *in_1 || gate.in_1 == *in_0
})
.copied()
.collect()
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn part1_example() {
assert_eq!(
part1(&parse(
"x00: 1
x01: 1
x02: 1
y00: 0
y01: 1
y02: 0
x00 AND y00 -> z00
x01 XOR y01 -> z01
x02 OR y02 -> z02"
)),
4
);
}
#[test]
fn part2_example() {
assert_eq!(
part2(&parse(include_str!("../input/2024/day24.txt").trim_end())),
"z00,z01,z02,z05"
);
}
}

2
aoc_2024/src/lib.rs
View File

@ -1,3 +1,5 @@
mod day24;
mod day23;
mod day22; mod day22;
mod day21; mod day21;
mod day1; mod day1;