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https://github.com/Crocmagnon/advent-of-code.git
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96 lines
2.7 KiB
Python
96 lines
2.7 KiB
Python
import itertools
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from typing import TypeAlias
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Numbers: TypeAlias = list[int]
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Grid: TypeAlias = list[Numbers]
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def main(filename: str, expected_part_1: int = None, expected_part_2: int = None):
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print(f"\n+ Running on {filename}")
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with open(filename) as f:
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data = f.read().strip().split("\n\n")
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numbers, grids = parse_data(data)
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solution_part_1 = solve_part_1(numbers, grids)
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print(f"1. Found {solution_part_1}")
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if expected_part_1:
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assert expected_part_1 == solution_part_1
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solution_part_2 = solve_part_2(numbers, grids)
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print(f"2. Found {solution_part_2}")
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if expected_part_2:
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assert expected_part_2 == solution_part_2
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def parse_data(data: list[str]) -> (Numbers, list[Grid]):
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numbers: Numbers = list(map(int, data[0].split(",")))
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data = data[1:]
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grids: list[Grid] = []
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for grid in data:
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parsed_grid: Grid = []
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grid_lines = grid.split("\n")
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for line in grid_lines:
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line = list(map(int, line.split()))
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parsed_grid.append(line)
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grids.append(parsed_grid)
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return numbers, grids
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def solve_part_1(numbers: Numbers, grids: list[Grid]) -> int:
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seen: set[int] = set()
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for number in numbers:
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seen.add(number)
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for grid in grids:
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if check_bingo(grid, seen):
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return sum(unseen(grid, seen)) * number
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def check_bingo(grid: Grid, seen: set[int]) -> bool:
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return check_row(grid, seen) or check_column(grid, seen)
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def check_row(grid: Grid, seen: set[int]) -> bool:
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for row in grid:
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if check_line(row, seen):
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return True
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return False
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def check_column(grid: Grid, seen: set[int]) -> bool:
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for i in range(len(grid[0])):
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column = [row[i] for row in grid]
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if check_line(column, seen):
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return True
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return False
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def check_line(line: Numbers, seen: set[int]) -> bool:
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for number in line:
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if number not in seen:
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return False
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return True
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def unseen(grid: Grid, seen: set[int]) -> Numbers:
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return [n for n in itertools.chain.from_iterable(grid) if n not in seen]
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def solve_part_2(numbers: Numbers, grids: list[Grid]) -> int:
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seen: set[int] = set()
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score = 0
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winners: set[int] = set()
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for number in numbers:
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seen.add(number)
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for index, grid in enumerate(grids):
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if index in winners:
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continue
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if check_bingo(grid, seen):
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score = sum(unseen(grid, seen)) * number
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winners.add(index)
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return score
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if __name__ == "__main__":
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main("inputs/day04-test1", expected_part_1=4512, expected_part_2=1924)
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main("inputs/day04", expected_part_1=23177)
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