Rename Addr to Part and create a new Addr struct

This commit is contained in:
Savanni D'Gerinel 2023-12-03 13:05:05 -05:00
parent 40f213ff1b
commit 659a9ce482
1 changed files with 157 additions and 158 deletions

View File

@ -16,17 +16,27 @@ pub fn day3b() -> String {
)
}
#[derive(Clone, Debug, PartialEq)]
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
struct Addr {
row: usize,
col: usize,
}
#[derive(Clone, Debug, PartialEq)]
struct Part {
value: u32,
row: usize,
start: usize,
end: usize,
}
impl Addr {
fn span(&self) -> Vec<(usize, usize)> {
impl Part {
fn span(&self) -> Vec<Addr> {
(self.start..self.end + 1)
.map(|addr| (self.row, addr))
.map(|addr| Addr {
row: self.row,
col: addr,
})
.collect()
}
}
@ -41,19 +51,21 @@ impl Gear {
}
fn sum_parts(schematic: String) -> u32 {
parts(schematic).into_iter().fold(0, |acc, val| acc + val.0)
parts(schematic)
.into_iter()
.fold(0, |acc, val| acc + val.value)
}
fn parts(schematic: String) -> Vec<(u32, Addr)> {
fn parts(schematic: String) -> Vec<Part> {
let sc = schematic
.lines()
.map(|l| l.to_owned())
.collect::<Vec<String>>();
let numbers = find_numbers(schematic.clone());
numbers
let parts = find_numbers(schematic.clone());
parts
.into_iter()
.filter(|number| is_part(&sc, number))
.collect::<Vec<(u32, Addr)>>()
.filter(|part| is_part(&sc, part.clone()))
.collect::<Vec<Part>>()
}
fn find_gears(schematic: String) -> Vec<Gear> {
@ -66,56 +78,52 @@ fn find_gears(schematic: String) -> Vec<Gear> {
let parts = parts(schematic);
let splats = find_splats(sc)
.into_iter()
.map(|(row, col)| {
.map(|addr| {
halo(
Addr {
row,
start: col,
end: col,
Part {
value: 0,
row: addr.row,
start: addr.col,
end: addr.col,
},
max_row - 1,
max_col - 1,
)
})
.collect::<Vec<Vec<(usize, usize)>>>();
.collect::<Vec<Vec<Addr>>>();
let mut gears = vec![];
for splat in splats {
let overlap = parts
.iter()
.filter(|part| part_within_halo(splat.clone(), part.1.clone()))
.map(|part| part.0)
.collect::<Vec<u32>>();
.filter(|part| part_within_halo(splat.clone(), (*part).clone()))
.map(|part| part.clone())
.collect::<Vec<Part>>();
if overlap.len() == 2 {
gears.push(Gear(overlap[0], overlap[1]));
gears.push(Gear(overlap[0].value, overlap[1].value));
}
}
gears
}
fn part_within_halo(halo1: Vec<(usize, usize)>, part: Addr) -> bool {
let halo1: HashSet<(usize, usize)> = halo1.into_iter().collect::<HashSet<(usize, usize)>>();
let halo2: HashSet<(usize, usize)> =
part.span().into_iter().collect::<HashSet<(usize, usize)>>();
fn part_within_halo(halo1: Vec<Addr>, part: Part) -> bool {
let halo1: HashSet<Addr> = halo1.into_iter().collect::<HashSet<Addr>>();
let halo2: HashSet<Addr> = part.span().into_iter().collect::<HashSet<Addr>>();
halo1.intersection(&halo2).count() > 0
}
fn is_part(schematic: &Vec<String>, number: &(u32, Addr)) -> bool {
halo(
number.1.clone(),
schematic.len() - 1,
schematic[0].len() - 1,
)
fn is_part(schematic: &Vec<String>, part: Part) -> bool {
halo(part.clone(), schematic.len() - 1, schematic[0].len() - 1)
.into_iter()
.any(|(row, col)| {
let cell = schematic[row].chars().nth(col).unwrap();
.any(|addr| {
let cell = schematic[addr.row].chars().nth(addr.col).unwrap();
!cell.is_digit(10) && cell != '.'
})
}
fn halo(addr: Addr, max_row: usize, max_col: usize) -> Vec<(usize, usize)> {
fn halo(addr: Part, max_row: usize, max_col: usize) -> Vec<Addr> {
let mut halo: Vec<(i32, i32)> = vec![];
for r in addr.start..addr.end + 1 {
@ -134,26 +142,25 @@ fn halo(addr: Addr, max_row: usize, max_col: usize) -> Vec<(usize, usize)> {
.filter(|(row, col)| {
*row >= 0 && *row <= max_row as i32 && *col >= 0 && *col <= max_col as i32
})
.map(|(row, col)| (row as usize, col as usize))
.map(|(row, col)| Addr {
row: row as usize,
col: col as usize,
})
.collect()
}
fn find_numbers(schematic: String) -> Vec<(u32, Addr)> {
fn find_numbers(schematic: String) -> Vec<Part> {
let mut result = vec![];
for (idx, line) in schematic.lines().enumerate() {
let mut numbers = find_numbers_in_line(line)
.into_iter()
.map(|(number, start, len)| {
(
number,
Addr {
.map(|(value, start, len)| Part {
value: value,
row: idx,
start,
end: start + len - 1,
},
)
})
.collect::<Vec<(u32, Addr)>>();
.collect::<Vec<Part>>();
result.append(&mut numbers);
}
result
@ -193,7 +200,7 @@ fn find_numbers_in_line(line: &str) -> Vec<(u32, usize, usize)> {
.collect()
}
fn find_splats(schematic: Vec<String>) -> Vec<(usize, usize)> {
fn find_splats(schematic: Vec<String>) -> Vec<Addr> {
schematic
.into_iter()
.enumerate()
@ -202,15 +209,18 @@ fn find_splats(schematic: Vec<String>) -> Vec<(usize, usize)> {
.enumerate()
.filter_map(|(col_idx, c)| {
if is_splat(c) {
Some((row_idx, col_idx))
Some(Addr {
row: row_idx,
col: col_idx,
})
} else {
None
}
})
.collect::<Vec<(usize, usize)>>()
.collect::<Vec<Addr>>()
})
.flatten()
.collect::<Vec<(usize, usize)>>()
.collect::<Vec<Addr>>()
}
fn is_symbol(c: char) -> bool {
@ -241,7 +251,7 @@ mod test {
assert_eq!(
parts(INPUT.to_owned())
.into_iter()
.map(|part| part.0)
.map(|part| part.value)
.collect::<Vec<u32>>(),
vec![467, 35, 633, 617, 592, 755, 664, 598]
);
@ -255,86 +265,66 @@ mod test {
assert_eq!(
find_numbers(INPUT.to_owned()),
vec![
(
467,
Addr {
Part {
value: 467,
row: 0,
start: 0,
end: 2
}
),
(
114,
Addr {
},
Part {
value: 114,
row: 0,
start: 5,
end: 7
}
),
(
35,
Addr {
},
Part {
value: 35,
row: 2,
start: 2,
end: 3
}
),
(
633,
Addr {
},
Part {
value: 633,
row: 2,
start: 6,
end: 8
}
),
(
617,
Addr {
},
Part {
value: 617,
row: 4,
start: 0,
end: 2
}
),
(
58,
Addr {
},
Part {
value: 58,
row: 5,
start: 7,
end: 8,
}
),
(
592,
Addr {
},
Part {
value: 592,
row: 6,
start: 2,
end: 4,
}
),
(
755,
Addr {
},
Part {
value: 755,
row: 7,
start: 6,
end: 8,
}
),
(
664,
Addr {
},
Part {
value: 664,
row: 9,
start: 1,
end: 3,
}
),
(
598,
Addr {
},
Part {
value: 598,
row: 9,
start: 5,
end: 7,
}
)
]
);
}
@ -358,19 +348,27 @@ mod test {
#[test]
fn test_halo() {
let schematic = INPUT.lines().map(|l| l.to_owned()).collect::<Vec<String>>();
let number = Addr {
let part = Part {
value: 0,
row: 0,
start: 0,
end: 2,
};
assert_eq!(
halo(number, schematic.len() - 1, schematic[0].len() - 1),
vec![(1, 0), (1, 1), (1, 2), (0, 3), (1, 3)]
halo(part, schematic.len() - 1, schematic[0].len() - 1),
vec![
Addr { row: 1, col: 0 },
Addr { row: 1, col: 1 },
Addr { row: 1, col: 2 },
Addr { row: 0, col: 3 },
Addr { row: 1, col: 3 }
]
);
assert_eq!(
halo(
Addr {
Part {
value: 0,
row: 1,
start: 1,
end: 1
@ -379,19 +377,20 @@ mod test {
schematic[0].len() - 1
),
vec![
(0, 1),
(2, 1),
(0, 0),
(1, 0),
(2, 0),
(0, 2),
(1, 2),
(2, 2)
Addr { row: 0, col: 1 },
Addr { row: 2, col: 1 },
Addr { row: 0, col: 0 },
Addr { row: 1, col: 0 },
Addr { row: 2, col: 0 },
Addr { row: 0, col: 2 },
Addr { row: 1, col: 2 },
Addr { row: 2, col: 2 }
]
);
assert_eq!(
halo(
Addr {
Part {
value: 0,
row: 6,
start: 2,
end: 4,
@ -400,18 +399,18 @@ mod test {
schematic[0].len() - 1
),
vec![
(5, 2),
(7, 2),
(5, 3),
(7, 3),
(5, 4),
(7, 4),
(5, 1),
(6, 1),
(7, 1),
(5, 5),
(6, 5),
(7, 5),
Addr { row: 5, col: 2 },
Addr { row: 7, col: 2 },
Addr { row: 5, col: 3 },
Addr { row: 7, col: 3 },
Addr { row: 5, col: 4 },
Addr { row: 7, col: 4 },
Addr { row: 5, col: 1 },
Addr { row: 6, col: 1 },
Addr { row: 7, col: 1 },
Addr { row: 5, col: 5 },
Addr { row: 6, col: 5 },
Addr { row: 7, col: 5 },
]
);
}