82 lines
3.2 KiB
Python
82 lines
3.2 KiB
Python
def get_input(sample = False):
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with open('sample' if sample else 'input', 'r') as f:
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ret = {0: {0: {}}}
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lines = f.readlines()
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for y, row in enumerate(lines, start = -len(lines) // 2):
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ret[0][0][y] = {}
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row = row.strip()
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for x, cube in enumerate(row, start = -len(row) // 2):
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ret[0][0][y][x] = cube
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return ret
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def count_actives(space: dict):
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ret = 0
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for w in space.values():
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for z in w.values():
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for y in z.values():
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for x in y.values():
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if x == "#":
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ret += 1
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return ret
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def count_active_neighbours(space: dict, center_x, center_y, center_z, center_w):
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ret = 0
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for w in range(center_w - 1, center_w + 2):
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if w not in space.keys(): continue
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for z in range(center_z - 1, center_z + 2):
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if z not in space[w].keys(): continue
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for y in range(center_y - 1, center_y + 2):
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if y not in space[w][z].keys(): continue
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for x in range(center_x - 1, center_x + 2):
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if x in space[w][z][y].keys() and (x, y, z, w) != (center_x, center_y, center_z, center_w) and space[w][z][y][x] == "#":
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ret += 1
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return ret
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def print_space(space: dict):
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for w, time in sorted(space.items()):
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for z, plain in sorted(space[w].items()):
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print(f"\t{z = } {w = }")
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for y, row in sorted(plain.items()):
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print(f"\t{''.join([value for key, value in sorted(row.items())])}")
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print()
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def get_result(space_4d: list, part = 1):
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for cycle in range(6):
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next_space_4d = {}
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for w in range(min(space_4d) - 1, max(space_4d) + 2) if part == 2 else [0]:
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space = space_4d[w] if w in space_4d else {z_0 : {y_0: {x_0: '.' for x_0 in space_4d[0][0][0]} for y_0 in space_4d[0][0]} for z_0 in space_4d[0]}
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next_space_4d[w] = {}
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for z in range(min(space) - 1, max(space) + 2):
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plain = space[z] if z in space else {y_0: {x_0: '.' for x_0 in space[0][0]} for y_0 in space[0]}
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next_space_4d[w][z] = {}
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for y in range(min(plain) - 1, max(plain) + 2):
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row = plain[y] if y in plain else {x_0: '.' for x_0 in space[0][0]}
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next_space_4d[w][z][y] = {}
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for x in range(min(row) - 1, max(row) + 2):
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cube = row[x] if x in row else '.'
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count = count_active_neighbours(space_4d, x, y, z, w)
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if cube == "#":
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if count in [2, 3]:
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next_cube = "#"
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else:
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next_cube = "."
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else:
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if count == 3:
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next_cube = "#"
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else:
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next_cube = "."
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next_space_4d[w][z][y][x] = next_cube
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space_4d = next_space_4d
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return count_actives(space_4d)
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if __name__ == "__main__":
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print(get_result(get_input(), part = 2))
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