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from itertools import chain
from utils import open_day
class Board:
cells: list[int]
width: int
height: int
col_hits: list[int]
row_hits: list[int]
has_bingo: bool
unmarked_sum: int
nums: set[int]
def __init__(self, cells: list[list[int]]) -> None:
self.width = len(cells[0])
self.height = len(cells)
self.col_hits = [0] * self.width
self.row_hits = [0] * self.height
self.unmarked_sum = 0
self.cells = []
self.nums = set()
for cell in chain.from_iterable(cells):
self.unmarked_sum += cell
self.cells.append(cell)
self.nums.add(cell)
self.has_bingo = False
def call(self, num: int) -> None:
if num not in self.nums: return
pos: int = self.cells.index(num)
x: int = pos % self.width
y: int = pos // self.width
self.col_hits[x] += 1
self.row_hits[y] += 1
self.unmarked_sum -= num
self.has_bingo = (
self.has_bingo or
self.col_hits[x] == self.height or
self.row_hits[y] == self.width
)
@staticmethod
def from_string(s: str) -> 'Board':
return Board([[int(n) for n in l.split()] for l in s.split('\n')])
def solve(nums: list[int], boards: list[Board]) -> tuple[int, int]:
won: set[int] = set()
wins: list[int] = []
num: int
for num in nums:
i: int
board: Board
for i, board in enumerate(boards):
if i in won: continue
board.call(num)
if board.has_bingo:
won.add(i)
wins.append(num * board.unmarked_sum)
return wins[0], wins[-1]
nums: str | list[int]
boards: list[str] | list[Board]
nums, *boards = open_day(4).read().rstrip().split('\n\n')
nums = list(map(int, nums.split(',')))
boards = [Board.from_string(b) for b in boards]
part1, part2 = solve(nums, boards)
print(part1)
print(part2)
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