aoc2020/day11/day11.py

104 lines
3.3 KiB
Python

#!/usr/bin/env python
from copy import deepcopy
from enum import Enum, auto
from functools import cache
from itertools import chain
import sys
from typing import Iterable, List, Optional, Tuple
NEIGHBOURS = [(dx, dy) for dy in (-1, 0, 1) for dx in (-1, 0, 1) if not dx == dy == 0]
class Tile(Enum):
FLOOR = '.'
FREE = 'L'
OCCUPIED = '#'
class Layout:
def __init__(
self,
s: str,
max_neighbour_steps: Optional[int],
occupied_neighbours_to_leave: int):
self._store = [[Tile(c) for c in line] for line in s.splitlines()]
self.num_rows = len(self._store)
self.num_cols = len(self._store[0])
self.max_neighbour_steps = max_neighbour_steps
self.occupied_neighbours_to_leave = occupied_neighbours_to_leave
def tiles(self) -> Iterable[Tile]:
return chain.from_iterable(self._store)
def get(self, row: int, col: int) -> Tile:
return self._store[row][col]
def set(self, row: int, col: int, t: Tile) -> None:
self._store[row][col] = t
def step(self) -> bool:
new_tiles = []
for row in range(self.num_rows):
for col in range(self.num_cols):
num_neighbours = self.count_neighbours(row, col)
tile = self.get(row, col)
new_tile = None
if tile == Tile.FREE and num_neighbours == 0:
new_tile = Tile.OCCUPIED
elif tile == Tile.OCCUPIED and num_neighbours >= self.occupied_neighbours_to_leave:
new_tile = Tile.FREE
if new_tile is not None:
new_tiles.append((row, col, new_tile))
for row, col, tile in new_tiles:
self.set(row, col, tile)
return len(new_tiles) != 0
def _find_neighbour(self, row: int, col: int, direction: Tuple[int, int]) -> Optional[Tuple[int, int]]:
curr_row = row
curr_col = col
steps = 0
while self.max_neighbour_steps is None or steps < self.max_neighbour_steps:
curr_row += direction[0]
curr_col += direction[1]
if curr_row < 0 or curr_row >= self.num_rows:
break
if curr_col < 0 or curr_col >= self.num_cols:
break
if self.get(curr_row, curr_col) != Tile.FLOOR:
return (curr_row, curr_col)
steps += 1
return None
@cache
def _neighbour_coords(self, row: int, col: int) -> List[Tuple[int, int]]:
coords = []
for direction in NEIGHBOURS:
neighbour = self._find_neighbour(row, col, direction)
if neighbour is not None:
coords.append(neighbour)
return coords
def neighbours(self, row: int, col: int) -> Iterable[Tile]:
for nrow, ncol in self._neighbour_coords(row, col):
yield self.get(nrow, ncol)
def count_neighbours(self, row: int, col: int) -> int:
return len([tile for tile in self.neighbours(row, col) if tile == Tile.OCCUPIED])
def run(layout: Layout) -> int:
while layout.step():
pass
return len([t for t in layout.tiles() if t == Tile.OCCUPIED])
if __name__ == '__main__':
layout_str = sys.stdin.read()
print(run(Layout(layout_str, 1, 4)))
print(run(Layout(layout_str, None, 5)))