mirror of
https://github.com/Crocmagnon/advent-of-code.git
synced 2024-11-25 07:58:11 +01:00
129 lines
3.8 KiB
Python
129 lines
3.8 KiB
Python
from __future__ import annotations
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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")
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data, deepest_wall = parse_data(data)
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solution_part_1 = solve_part_1(data, deepest_wall)
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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(data, deepest_wall)
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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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Point = tuple[int, int]
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Walls = set(Point)
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def generate_wall(start: Point, end: Point) -> Walls:
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walls = {start, end}
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if start == end:
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return {start}
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elif start[0] == end[0]:
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ys = (start[1], end[1])
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for y in range(min(ys) + 1, max(ys)):
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walls.add((start[0], y))
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elif start[1] == end[1]:
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xs = (start[0], end[0])
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for x in range(min(xs) + 1, max(xs)):
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walls.add((x, start[1]))
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return walls
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def parse_data(data: list[str]) -> Walls:
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walls = set()
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deepest_wall = 0
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for line in data:
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angles = []
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for angle in line.split(" -> "):
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angles.append(tuple(map(int, angle.split(","))))
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for start, end in zip(angles[:-1], angles[1:]):
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if start[1] > deepest_wall:
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deepest_wall = start[1]
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if end[1] > deepest_wall:
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deepest_wall = end[1]
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walls.update(generate_wall(start, end))
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return walls, deepest_wall
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def solve_part_1(walls: Walls, deepest_wall: int) -> int:
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sand: Walls = set()
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while True:
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sand_x, sand_y = compute_final_position(walls, sand, deepest_wall)
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if sand_y >= deepest_wall:
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print_grid(493, 503, 10, walls, sand)
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return len(sand)
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sand.add((sand_x, sand_y))
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def compute_final_position(
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walls: Walls, sand: Walls, deepest_wall: int, floor_level: int | None = None
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) -> Point:
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sand_x, sand_y = 500, 0
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while sand_y < deepest_wall:
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floor: Walls = set()
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if floor_level:
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floor = {
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(sand_x - 1, floor_level),
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(sand_x, floor_level),
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(sand_x + 1, floor_level),
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}
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if (sand_x, sand_y + 1) not in walls | sand | floor:
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sand_y += 1
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elif (sand_x - 1, sand_y + 1) not in walls | sand | floor:
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sand_x -= 1
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sand_y += 1
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elif (sand_x + 1, sand_y + 1) not in walls | sand | floor:
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sand_x += 1
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sand_y += 1
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else:
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return sand_x, sand_y
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return sand_x, sand_y
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def print_grid(
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min_x: int,
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max_x: int,
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max_y: int,
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walls: Walls,
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sand: Walls,
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floor_level: int | None = None,
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) -> None:
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for y in range(0, max_y + 1):
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for x in range(min_x, max_x + 1):
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if (x, y) == (500, 0):
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print("+", end="")
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elif y == floor_level:
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print("#", end="")
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elif (x, y) in walls:
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print("#", end="")
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elif (x, y) in sand:
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print("o", end="")
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else:
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print(".", end="")
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print()
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def solve_part_2(walls: Walls, deepest_wall: int) -> int:
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sand: Walls = set()
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sand_x, sand_y = 0, 0
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while (sand_x, sand_y) != (500, 0):
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sand_x, sand_y = compute_final_position(
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walls, sand, deepest_wall + 2, deepest_wall + 2
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)
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sand.add((sand_x, sand_y))
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return len(sand)
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if __name__ == "__main__":
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main("inputs/day14-test1", expected_part_1=24, expected_part_2=93)
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main("inputs/day14", expected_part_1=843, expected_part_2=27625)
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# part 2 "only" took 43 minutes 32s on my M1 Pro MacBook Pro.
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