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author | June McEnroe <programble@gmail.com> | 2016-12-18 18:54:57 -0500 |
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committer | June McEnroe <programble@gmail.com> | 2016-12-18 18:54:57 -0500 |
commit | 339a7c8daf7186b4d637e7a0b3f63c6ac3a4c3c6 (patch) | |
tree | 90141613d9834d7f3a77cde411bf8795e78dc001 /src | |
parent | Day 17 part 2 (diff) | |
download | aoc-339a7c8daf7186b4d637e7a0b3f63c6ac3a4c3c6.tar.gz aoc-339a7c8daf7186b4d637e7a0b3f63c6ac3a4c3c6.zip |
Fuck day 11
Diffstat (limited to '')
-rw-r--r-- | src/bin/day11.rs | 181 |
1 files changed, 181 insertions, 0 deletions
diff --git a/src/bin/day11.rs b/src/bin/day11.rs new file mode 100644 index 0000000..ac37592 --- /dev/null +++ b/src/bin/day11.rs @@ -0,0 +1,181 @@ +use std::collections::{HashSet, VecDeque}; + +#[derive(Clone, Copy, PartialOrd, Ord, PartialEq, Eq, Hash)] +enum Object { + Microchip(u8), + Generator(u8), +} + +impl Object { + fn is_microchip(self) -> bool { + match self { + Object::Microchip(_) => true, + _ => false, + } + } + + fn is_generator(self) -> bool { + match self { + Object::Generator(_) => true, + _ => false, + } + } + + fn generator(self) -> Self { + match self { + Object::Microchip(k) => Object::Generator(k), + _ => self, + } + } +} + +#[derive(Default, Clone)] +struct Floor { + objects: HashSet<Object>, +} + +impl Floor { + fn is_empty(&self) -> bool { + self.objects.is_empty() + } + + fn is_safe(&self) -> bool { + for &chip in self.objects.iter().filter(|&&o| o.is_microchip()) { + let accompanied = self.objects.contains(&chip.generator()); + let generator = self.objects.iter().any(|&o| o.is_generator()); + if !accompanied && generator { return false } + } + true + } +} + +#[derive(Clone)] +struct State { + steps: u32, + floors: Box<[Floor]>, + elevator: usize, +} + +impl State { + fn is_goal(&self) -> bool { + self.floors[0..3].iter().all(Floor::is_empty) + } + + fn is_safe(&self) -> bool { + self.floors.iter().all(Floor::is_safe) + } + + fn clone_up(&self) -> Self { + let mut state = self.clone(); + state.steps += 1; + state.elevator += 1; + state + } + + fn clone_down(&self) -> Self { + let mut state = self.clone(); + state.steps += 1; + state.elevator -= 1; + state + } + + fn generate_states(&self, states: &mut VecDeque<State>) { + for &object in &self.floors[self.elevator].objects { + for &other in &self.floors[self.elevator].objects { + if other == object { continue } + if self.elevator != 3 { + let mut state = self.clone_up(); + state.floors[self.elevator].objects.remove(&object); + state.floors[self.elevator].objects.remove(&other); + state.floors[state.elevator].objects.insert(object); + state.floors[state.elevator].objects.insert(other); + if state.is_safe() { states.push_back(state) } + } + if self.elevator != 0 { + let mut state = self.clone_down(); + state.floors[self.elevator].objects.remove(&object); + state.floors[self.elevator].objects.remove(&other); + state.floors[state.elevator].objects.insert(object); + state.floors[state.elevator].objects.insert(other); + if state.is_safe() { states.push_back(state) } + } + } + + if self.elevator != 3 { + let mut state = self.clone_up(); + state.floors[self.elevator].objects.remove(&object); + state.floors[state.elevator].objects.insert(object); + if state.is_safe() { states.push_back(state) } + } + if self.elevator != 0 { + let mut state = self.clone_down(); + state.floors[self.elevator].objects.remove(&object); + state.floors[state.elevator].objects.insert(object); + if state.is_safe() { states.push_back(state) } + } + } + } +} + +fn solve(floors: Vec<Floor>) -> u32 { + let mut visited = HashSet::new(); + let mut states = VecDeque::new(); + states.push_back(State { steps: 0, floors: floors.into_boxed_slice(), elevator: 0 }); + + while let Some(state) = states.pop_front() { + if state.is_goal() { + return state.steps; + } + let visit_floors: Vec<_> = state.floors.iter().map(|floor| { + let mut vec: Vec<_> = floor.objects.iter().cloned().collect(); + vec.sort(); + vec + }).collect(); + if visited.insert((state.elevator, visit_floors)) { + state.generate_states(&mut states); + } + } + + unreachable!() +} + +fn main() { + // The first floor contains a promethium generator and a promethium-compatible microchip. + // The second floor contains a cobalt generator, a curium generator, a ruthenium generator, and a plutonium generator. + // The third floor contains a cobalt-compatible microchip, a curium-compatible microchip, a ruthenium-compatible microchip, and a plutonium-compatible microchip. + // The fourth floor contains nothing relevant. + const PROMETHIUM: u8 = 0; + const COBALT: u8 = 1; + const CURIUM: u8 = 2; + const RUTHENIUM: u8 = 3; + const PLUTONIUM: u8 = 4; + let mut floors = vec![Floor::default(); 4]; + floors[0].objects.insert(Object::Generator(PROMETHIUM)); + floors[0].objects.insert(Object::Microchip(PROMETHIUM)); + floors[1].objects.insert(Object::Generator(COBALT)); + floors[1].objects.insert(Object::Generator(CURIUM)); + floors[1].objects.insert(Object::Generator(RUTHENIUM)); + floors[1].objects.insert(Object::Generator(PLUTONIUM)); + floors[2].objects.insert(Object::Microchip(COBALT)); + floors[2].objects.insert(Object::Microchip(CURIUM)); + floors[2].objects.insert(Object::Microchip(RUTHENIUM)); + floors[2].objects.insert(Object::Microchip(PLUTONIUM)); + + println!("Part 1: {}", solve(floors)); +} + +#[test] +#[ignore] +fn part1() { + // The first floor contains a hydrogen-compatible microchip and a lithium-compatible microchip. + // The second floor contains a hydrogen generator. + // The third floor contains a lithium generator. + // The fourth floor contains nothing relevant. + let mut floors = vec![Floor::default(); 4]; + floors[0].objects.insert(Object::Microchip(0)); + floors[0].objects.insert(Object::Microchip(1)); + floors[1].objects.insert(Object::Generator(0)); + floors[2].objects.insert(Object::Generator(1)); + + assert_eq!(11, solve(floors)); +} |