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Stuck on day 8

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master
Joey Pollack 1 year ago
parent ca342cef94
commit 56a724a487
1 changed files with 89 additions and 33 deletions
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120
crates/day_8/src/map.rs
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@ -11,7 +11,7 @@
// single lowercase letter, uppercase letter, or digit. // single lowercase letter, uppercase letter, or digit.
use std::{collections::HashMap, mem}; use std::{io::prelude::*, fs::File, collections::HashMap, mem};
use nalgebra_glm::Vec2; use nalgebra_glm::Vec2;
@ -38,10 +38,31 @@ impl PointIdx
PointIdx { i, j } PointIdx { i, j }
} }
// pub fn as_glm_vec(self: & PointIdx) -> I32Vec2 pub fn from_glm_vec(glm_vec: &Vec2) -> PointIdx
// { {
// I32Vec2::new(self.i as i32, self.j as i32) PointIdx{ i: glm_vec.x as usize, j: glm_vec.y as usize }
// } }
pub fn as_glm_vec(self: & PointIdx) -> Vec2
{
Vec2::new(self.i as f32, self.j as f32)
}
}
#[derive(Copy, Clone, PartialEq, Debug)]
pub struct Antinode
{
location: PointIdx,
freq: u8,
}
impl Antinode
{
pub fn new(location: PointIdx, freq: u8) -> Antinode
{
Antinode { location, freq }
}
} }
#[derive(Clone, Debug)] #[derive(Clone, Debug)]
@ -49,18 +70,22 @@ pub struct Map
{ {
map: Vec<Vec<MapCell>>, map: Vec<Vec<MapCell>>,
antenna_locations: HashMap<u8, Vec<PointIdx>>, antenna_locations: HashMap<u8, Vec<PointIdx>>,
antinodes: Vec<PointIdx>, antinodes: Vec<Antinode>,
// DEBUG STUFF
first_processed_freq: u8,
} }
impl Map impl Map
{ {
pub fn new() -> Map pub fn new() -> Map
{ {
Map { map: vec![], antenna_locations: HashMap::new(), antinodes: vec![] } Map { map: vec![], antenna_locations: HashMap::new(), antinodes: vec![], first_processed_freq: 0 }
} }
pub fn parse(data: &str) -> Map pub fn parse(data: &str) -> Map
{ {
// let mut num_freqs = 0;
let mut split_pattern = "\n"; let mut split_pattern = "\n";
if data.contains("\r\n") if data.contains("\r\n")
{ {
@ -101,10 +126,14 @@ impl Map
} }
} }
map.push(parsed_row); map.push(parsed_row);
} }
Map { map, antenna_locations, antinodes: vec![] } // DEBUG:
// println!("num freqs found: {}", antenna_locations.len());
Map { map, antenna_locations, antinodes: vec![], first_processed_freq: 0 }
} }
pub fn double_check_antenna_locations(self: &Map) -> bool pub fn double_check_antenna_locations(self: &Map) -> bool
@ -141,22 +170,18 @@ impl Map
{ {
print!("MAP:"); print!("MAP:");
} }
for (i, row) in self.map.iter().enumerate() for (_i, row) in self.map.iter().enumerate()
{ {
print!("\n\t"); print!("\n\t");
for (j, c) in row.iter().enumerate() for (_j, c) in row.iter().enumerate()
{
if include_antinodes && self.antinodes.contains(&PointIdx::new(i, j))
{
print!("#");
}
else
{ {
match c match c
{ {
MapCell::Empty => print!("."), MapCell::Empty => print!("."),
MapCell::Freq(f) => print!("{}", *f as char), MapCell::Freq(f) =>
} {
print!("{}", *f as char);
},
} }
} }
} }
@ -168,6 +193,40 @@ impl Map
println!("{:#?}", self.antenna_locations); println!("{:#?}", self.antenna_locations);
} }
pub fn dump_map_data_by_freq(self: &Map, filename: &str)
{
let mut file = File::create("foo.txt").expect(&format!("Failed to create file {}", filename));
for (freq, _locations) in &self.antenna_locations
{
file.write_all(&format!("\nMap for freq: {}", *freq as char).as_bytes()).expect("Failed to write to file!");
for (_i, row) in self.map.iter().enumerate()
{
file.write_all(b"\n\t").expect("Failed to write to file again");
for (_j, c) in row.iter().enumerate()
{
match c
{
MapCell::Empty => file.write_all(b".").expect("Failed to write to file (in match statement)"),
MapCell::Freq(f) =>
{
if *freq == *f
{
file.write_all(&format!("{}", *f as char).as_bytes()).expect("Failed to write to file (in match statement 2)");
}
else
{
file.write_all(b".").expect("Failed to write to file (in match statement 3)");
}
},
}
}
}
}
}
// an antinode occurs at any point that is perfectly in line with two antennas of the same // an antinode occurs at any point that is perfectly in line with two antennas of the same
// frequency - but only when one of the antennas is twice as far away as the other // frequency - but only when one of the antennas is twice as far away as the other
// This means that for any pair of antennas with the same frequency, there are two antinodes, one on either side of them. // This means that for any pair of antennas with the same frequency, there are two antinodes, one on either side of them.
@ -185,11 +244,12 @@ impl Map
// .......... // ..........
// .......... // ..........
pub fn find_antinodes(self: &mut Map) -> Vec<PointIdx> pub fn find_antinodes(self: &mut Map) -> Vec<Antinode>
{ {
let mut antinodes: Vec<PointIdx> = vec![]; let mut antinodes: Vec<Antinode> = vec![];
for (_freq, locations) in &self.antenna_locations for (freq, locations) in &self.antenna_locations
{ {
self.first_processed_freq = *freq;
let mut i = 0; let mut i = 0;
while i < locations.len() while i < locations.len()
{ {
@ -214,26 +274,22 @@ impl Map
let direction = (second_glm - first_glm).normalize(); let direction = (second_glm - first_glm).normalize();
let new_i = (locations[i].i as f32 + direction.x * dist); let new_i = locations[i].i as f32 + direction.x * dist;
let new_j = (locations[i].j as f32 + direction.y * dist); let new_j = locations[i].j as f32 + direction.y * dist;
if new_i < 0.0 || new_j < 0.0 if new_i < 0.0 || new_j < 0.0 ||
{ new_i >= self.map.len() as f32 ||
j += 1;
continue;
}
if new_i >= self.map.len() as f32 ||
new_j >= self.map[0].len() as f32 new_j >= self.map[0].len() as f32
{ {
j += 1; j += 1;
continue; continue;
} }
let antinode_location = PointIdx::new(new_i as usize, new_j as usize); let antinode = Antinode::new(PointIdx::new(new_i as usize, new_j as usize), *freq);
if !antinodes.contains(&antinode_location) if !antinodes.contains(&antinode)
{ {
antinodes.push(antinode_location); antinodes.push(antinode);
} }
j += 1; j += 1;

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