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This commit is contained in:
Stefan Schwarz 2020-05-23 10:49:59 +02:00
parent c478736d46
commit 2b714b646b
2 changed files with 128 additions and 37 deletions
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6
input14 Normal file
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@ -0,0 +1,6 @@
10 ORE => 10 A
1 ORE => 1 B
7 A, 1 B => 1 C
7 A, 1 C => 1 D
7 A, 1 D => 1 E
7 A, 1 E => 1 FUEL

159
src/day14/main.rs
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@ -1,78 +1,163 @@
use std::collections::HashMap; use std::collections::HashMap;
use std::fs::File; use std::fs::File;
use std::io::{BufRead, BufReader}; use std::io::{BufRead, BufReader};
use std::iter::Peekable;
type Resource = String; type Resource = String;
type Requirements = HashMap<Resource, Vec<Resource>>; type Pipeline = HashMap<Resource, ResourceBuilder>;
#[derive(Default)] #[derive(Debug)]
struct NanoFactory { struct ResourceBuilder {
requirements: Requirements, requirements: Vec<Resource>,
out_count: usize,
} }
impl From<(Vec<Resource>, usize)> for ResourceBuilder {
fn from(build: (Vec<Resource>, usize)) -> Self {
ResourceBuilder {
requirements: build.0,
out_count: build.1,
}
}
}
#[derive(Default, Debug)]
struct NanoFactory {
pipeline: Pipeline,
storage: HashMap<Resource, usize>,
}
#[derive(Debug)]
enum NanoFactoryBuildState { enum NanoFactoryBuildState {
InputCount, InputCount,
InputResource, InputResource,
InputDivider,
OutputArrow, OutputArrow,
OutputCount, OutputCount,
OutputResource, OutputResource,
} }
impl NanoFactory {
fn generate_fuel(&mut self) -> usize {
return self.lookup_resource("FUEL");
}
fn lookup_resource(&mut self, resource: &str) -> usize {
if resource == "ORE" {
return 1;
}
if let Some(count) = self.storage.get_mut(resource.into()) {
*count -= 1
}
let pipeline = self.pipeline.as_mut_ref();
let required = self
.pipeline
.get(resource.into())
.expect("unable to find resource");
required.requirements.iter().fold(0, |mut acc, c| {
acc += self.lookup_resource(c);
acc
})
}
}
impl<T> From<T> for NanoFactory impl<T> From<T> for NanoFactory
where where
T: BufRead, T: BufRead,
{ {
fn from(bufreader: T) -> Self { fn from(bufreader: T) -> Self {
let f = NanoFactory::default(); let mut f = NanoFactory::default();
let mut state = NanoFactoryBuildState::InputCount; let mut state = NanoFactoryBuildState::InputCount;
bufreader.split(b'\n').for_each(|line| { bufreader.split(b'\n').enumerate().for_each(|(nr, line)| {
let line = line.unwrap(); let line = line.unwrap();
let mut line = line.into_iter().peekable(); let mut line = line.into_iter().peekable();
let mut count_var = 0; let mut count_var = 0;
match state { let mut cur_requirements = Vec::new();
NanoFactoryBuildState::InputCount => { loop {
let test = next_if_in_range(&mut line, 48..84); match state {
println!("{:?}", test); NanoFactoryBuildState::InputCount | NanoFactoryBuildState::OutputCount => {
while let Some(_) = line.peek().and_then(|c| match c { while let Some(c) = next_if_in_range(&mut line, 48..=57) {
48..=57 => Some(c), count_var = count_var * 10 + (c as usize) - 48;
_ => None, }
}) { assert_eq!(line.next().unwrap(), b' ');
count_var = count_var * 10 + line.next().unwrap() as usize; state = match state {
NanoFactoryBuildState::InputCount => {
NanoFactoryBuildState::InputResource
}
NanoFactoryBuildState::OutputCount => {
NanoFactoryBuildState::OutputResource
}
_ => unreachable!(),
}
} }
assert_eq!(line.next().unwrap(), b' '); NanoFactoryBuildState::InputResource => {
state = NanoFactoryBuildState::InputResource; let mut r = Resource::new();
} while let Some(c) = next_if_in_range(&mut line, 65..=90) {
NanoFactoryBuildState::InputResource => {} r.push(c.into());
_ => (), }
}; for _ in 0..count_var {
line.for_each(|c| match c { cur_requirements.push(r.clone());
b'0'..=b'9' => println!("test:{}", c), }
_ => (), r.truncate(0);
}) count_var = 0;
let next = line.next();
match next {
Some(b',') => {
assert_eq!(line.next().unwrap(), b' ');
state = NanoFactoryBuildState::InputCount;
}
Some(b' ') => state = NanoFactoryBuildState::OutputArrow,
_ => panic!(
"invalid format in line {}, expected ' ' or ',', got '{:?}'",
nr, next
),
}
}
NanoFactoryBuildState::OutputResource => {
let mut r = Resource::new();
while let Some(c) = next_if_in_range(&mut line, 65..=90) {
r.push(c.into());
}
f.pipeline
.insert(r, ResourceBuilder::from((cur_requirements, count_var)));
state = NanoFactoryBuildState::InputCount;
return;
}
NanoFactoryBuildState::OutputArrow => {
assert_eq!(line.next().unwrap(), b'=');
assert_eq!(line.next().unwrap(), b'>');
assert_eq!(line.next().unwrap(), b' ');
state = NanoFactoryBuildState::OutputCount
}
};
}
}); });
NanoFactory { println! {"{:?}", f};
requirements: Default::default(), f
}
} }
} }
fn next_if_in_range<I, T>( fn next_if_in_range<I, T>(
peekable: &mut std::iter::Peekable<I>, peekable: &mut std::iter::Peekable<I>,
range: std::ops::Range<T>, range: std::ops::RangeInclusive<T>,
) -> Option<&T> ) -> Option<T>
where where
I: std::iter::Iterator<Item = T>, I: std::iter::Iterator<Item = T>,
T: Copy + std::cmp::PartialOrd,
{ {
peekable.peek().and_then(|peeked| match peeked { if let Some(peeked) = peekable.peek() {
range => Some(peeked), if range.contains(peeked) {
_ => None, peekable.next()
}) } else {
None
}
} else {
None
}
} }
fn main() { fn main() {
let f = File::open("input14").unwrap(); let f = File::open("input14").unwrap();
let bufreader = BufReader::new(f); let bufreader = BufReader::new(f);
let factory = NanoFactory::from(bufreader); let mut factory = NanoFactory::from(bufreader);
let ores = factory.generate_fuel();
println!("ores: {}", ores)
} }