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Simplify algorithm by unsimplifying graph

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Bert Peters
2022-12-17 12:38:44 +01:00
parent 96c411126c
commit 1f9915e79d
1 changed files with 42 additions and 80 deletions
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120
2022/src/day16.rs
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@@ -1,16 +1,14 @@
use std::collections::VecDeque;
use std::ops::Deref;
use ahash::AHashMap;
use ahash::AHashSet;
use anyhow::Result;
use ndarray::Array3;
use ndarray::Array2;
use nom::branch::alt;
use nom::bytes::complete::tag;
use nom::character::complete::alpha1;
use nom::character::complete::newline;
use nom::combinator::into;
use nom::multi::fold_many1;
use nom::multi::many1;
use nom::multi::separated_list1;
use nom::sequence::preceded;
use nom::sequence::terminated;
@@ -19,81 +17,55 @@ use nom::IResult;
use crate::common::parse_input;
type ParsedNetwork<'a> = AHashMap<&'a [u8], ParsedValve<'a>>;
type ParsedValve<'a> = (&'a [u8], u16, Vec<&'a [u8]>);
struct ParsedValve<'a> {
connected: Vec<&'a [u8]>,
flow: u32,
}
type ParsedNetwork<'a> = Vec<ParsedValve<'a>>;
#[derive(Debug)]
struct SimpleNetwork {
valves: Vec<SimpleValve>,
start: usize,
useful: usize,
}
impl Deref for SimpleNetwork {
type Target = [SimpleValve];
fn deref(&self) -> &Self::Target {
&*self.valves
&self.valves
}
}
#[derive(Debug)]
struct SimpleValve {
connected: Vec<(usize, u8)>,
flow: u32,
connected: Vec<usize>,
flow: u16,
}
impl From<ParsedNetwork<'_>> for SimpleNetwork {
fn from(parsed: ParsedNetwork) -> Self {
fn from(mut parsed: ParsedNetwork) -> Self {
// Make sure the positive numbers are in the front
parsed.sort_by(|a, b| b.1.cmp(&a.1));
let mapping: AHashMap<_, _> = parsed
.iter()
.filter_map(|(&k, v)| (v.flow > 0 || k == b"AA").then_some(k))
.enumerate()
.map(|(i, v)| (v, i))
.map(|(index, (name, _, _))| (*name, index))
.collect();
let mut todo = VecDeque::new();
let mut seen = AHashSet::new();
let mut network = Vec::with_capacity(mapping.len());
for (&key, valve_data) in &parsed {
if valve_data.flow == 0 && key != b"AA" {
continue;
}
todo.extend(valve_data.connected.iter().map(|&valve| (valve, 1)));
let mut connected = Vec::new();
seen.clear();
while let Some((valve, dist)) = todo.pop_front() {
if seen.insert(valve) {
let data = &parsed[&valve];
if data.flow != 0 {
connected.push((mapping[valve], dist));
}
for &other in &data.connected {
if other != key {
todo.push_back((other, dist + 1));
}
}
}
}
network.push(SimpleValve {
flow: valve_data.flow,
connected,
})
}
let useful = parsed.iter().filter(|(_, flow, _)| *flow > 0).count();
Self {
valves: network,
valves: parsed
.into_iter()
.map(|(_, flow, connected)| {
let connected = connected.into_iter().map(|name| mapping[&name]).collect();
SimpleValve { flow, connected }
})
.collect(),
start: mapping[&b"AA"[..]],
useful,
}
}
}
@@ -104,7 +76,7 @@ fn parse_network(input: &[u8]) -> IResult<&[u8], ParsedNetwork> {
// Parse the name of the valve
preceded(tag("Valve "), alpha1),
// Parse the flow of the valve
preceded(tag(" has flow rate="), nom::character::complete::u32),
preceded(tag(" has flow rate="), nom::character::complete::u16),
// Parse the connections
preceded(
// Did you really have to distinguish plural
@@ -118,15 +90,7 @@ fn parse_network(input: &[u8]) -> IResult<&[u8], ParsedNetwork> {
newline,
);
fold_many1(
parse_network,
ParsedNetwork::new,
|mut map, (valve, flow, connected)| {
map.insert(valve, ParsedValve { flow, connected });
map
},
)(input)
many1(parse_network)(input)
}
pub fn part1(input: &[u8]) -> Result<String> {
@@ -134,37 +98,35 @@ pub fn part1(input: &[u8]) -> Result<String> {
let (valves_available, dp) = run_optimization(&network, 30);
// Guesses: 1802 (too low)
Ok(dp[(29, network.start, valves_available)].to_string())
Ok(dp[(network.start, valves_available)].to_string())
}
fn run_optimization(network: &SimpleNetwork, time: usize) -> (usize, Array3<u16>) {
let num_valves = network.len();
let valves_available = (1 << num_valves) - 1;
let mut dp = Array3::<u16>::zeros((time, network.len(), valves_available + 1));
fn run_optimization(network: &SimpleNetwork, time: usize) -> (usize, Array2<u16>) {
let valves_available = (1 << network.useful) - 1;
let mut cur = Array2::zeros((network.len(), valves_available + 1));
let mut prev = cur.clone();
for time_remaining in 1..time {
for pos in 0..network.len() {
let bit = 1 << pos;
for open_valves in 0..=valves_available {
let mut optimal = if (bit & open_valves) != 0 && time_remaining > 2 {
dp[(time_remaining - 1, pos, open_valves - bit)]
+ time_remaining as u16 * network[pos].flow as u16
let optimal = if (bit & open_valves) != 0 && time_remaining > 2 {
prev[(pos, open_valves - bit)] + time_remaining as u16 * network[pos].flow
} else {
0
};
for &(other, dist) in &*network[pos].connected {
let dist = usize::from(dist);
if dist <= time_remaining {
optimal = optimal.max(dp[(time_remaining - dist, other, open_valves)]);
cur[(pos, open_valves)] = network[pos]
.connected
.iter()
.map(|&other| prev[(other, open_valves)])
.fold(optimal, Ord::max);
}
}
dp[(time_remaining, pos, open_valves)] = optimal;
std::mem::swap(&mut prev, &mut cur);
}
}
}
(valves_available, dp)
(valves_available, prev)
}
pub fn part2(input: &[u8]) -> Result<String> {
@@ -177,7 +139,7 @@ pub fn part2(input: &[u8]) -> Result<String> {
.map(|my_valves| {
let elephant_valves = valves_available - my_valves;
dp[(25, network.start, my_valves)] + dp[(25, network.start, elephant_valves)]
dp[(network.start, my_valves)] + dp[(network.start, elephant_valves)]
})
.max()
.unwrap_or(0);