advent-of-code-2024/day_08/part_b.py

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2024-12-11 23:12:07 +00:00
import aocd
import math
import collections
import itertools
def solve(data):
grid = collections.defaultdict(list)
antinodes = set()
rows = data.split('\n')
width = len(rows[0])
height = len(rows)
for y, row in enumerate(rows):
for x, cell in enumerate(row):
if cell == '.':
continue
for prev_x, prev_y in grid[cell]:
dx = x - prev_x
dy = y - prev_y
angle = math.gcd(dx, dy)
dx, dy = dx // angle, dy // angle
# In the direction of the previous antenna...
for i in itertools.count(step=-1):
if 0 <= (new_x := prev_x + dx*i) < width and 0 <= (new_y := prev_y + dy*i) < height:
antinodes.add((new_x, new_y))
else:
break
# In the direction of the current antenna...
for i in itertools.count(step=1):
if 0 <= (new_x := x + dx*i) < width and 0 <= (new_y := y + dy*i) < height:
antinodes.add((new_x, new_y))
else:
break
grid[cell].append((x, y))
return sum(1 for _ in antinodes)
if __name__ == '__main__':
puz = aocd.models.Puzzle(year=2024, day=8)
# data = puz.examples[0].input_data
data = puz.input_data
solution = solve(data)
print(solution)
aocd.submit(solution, year=2024, day=8, part='b')