2023: d03: ex2: add solution

This commit is contained in:
Bruno BELANYI 2023-12-03 15:17:08 +00:00
parent 146529433c
commit 20d7292d10

100
2023/d03/ex2/ex2.py Executable file
View file

@ -0,0 +1,100 @@
#!/usr/bin/env python
import sys
from collections import defaultdict
from collections.abc import Iterator
from typing import NamedTuple
class Point(NamedTuple):
x: int
y: int
class SchematicNumber(NamedTuple):
value: int
start: Point
def neighbours(self) -> Iterator["Point"]:
# How long is the number
length = len(str(self.value))
# Every point to the left
for dx in range(-1, 1 + 1):
yield Point(self.start.x + dx, self.start.y - 1)
# Every point below/above
for dy in range(length):
for dx in (-1, 1):
yield Point(self.start.x + dx, self.start.y + dy)
# Every point to the right
for dx in range(-1, 1 + 1):
yield Point(self.start.x + dx, self.start.y + length)
SymbolsMap = dict[Point, str]
def parse_line(x: int, line: str) -> tuple[set[SchematicNumber], SymbolsMap]:
numbers: set[SchematicNumber] = set()
symbols: SymbolsMap = {}
y = 0
while y != len(line):
char = line[y]
pos = Point(x, y)
if char.isdigit():
dy = 0
while (y + dy) < len(line) and (line[y + dy]).isdigit():
dy += 1
numbers.add(SchematicNumber(value=int(line[y : y + dy]), start=pos))
y += dy
continue
elif char == ".":
pass
else:
symbols[pos] = char
y += 1
return numbers, symbols
def parse(input: list[str]) -> tuple[set[SchematicNumber], SymbolsMap]:
numbers: set[SchematicNumber] = set()
symbols: SymbolsMap = {}
for x, line in enumerate(input):
new_numbers, new_symbols = parse_line(x, line)
numbers |= new_numbers
symbols |= new_symbols
return numbers, symbols
def solve(input: list[str]) -> int:
numbers, symbols = parse(input)
gear_adjacency: dict[Point, list[SchematicNumber]] = defaultdict(list)
for n in numbers:
for p in n.neighbours():
if not symbols.get(p) == "*":
continue
gear_adjacency[p].append(n)
gear_power = [
nums[0].value * nums[1].value
for nums in gear_adjacency.values()
if len(nums) == 2
]
return sum(gear_power)
def main() -> None:
input = sys.stdin.read().splitlines()
print(solve(input))
if __name__ == "__main__":
main()