AdventOfCode/2019/day18.py
2019-12-19 01:42:50 +01:00

180 lines
5.5 KiB
Python

import string
import sys
from grid import Grid
EX3 = [
"#######",
"#a.#Cd#",
"##@#@##",
"#######",
"##@#@##",
"#cB#Ab#",
"#######",
]
EX4 = [
"###############",
"#d.ABC.#.....a#",
"######@#@######",
"###############",
"######@#@######",
"#b.....#.....c#",
"###############",
]
def main():
with open("day18.txt", "rt") as input_file:
lines = input_file.readlines()
print(f"Part 1 answer: {find_all_keys_with_min_steps(lines)} steps.")
with open("day18-p2.txt", "rt") as input_file: # yeah
lines = input_file.readlines()
print(f"Part 2 answer: {find_all_keys_with_min_steps(lines)} steps.")
def find_all_keys_with_min_steps(lines):
"""Find all keys with 1 or 4 starting points."""
lab = Lab(lines=lines)
lab.dumb_print()
lab.find_positions()
num_robots = len(lab.starts)
states = [(
lab.starts[0] if num_robots == 1 else encode_posis_packed(lab.starts),
frozenset(),
0
)]
state_cache = Grid(value_factory=dict)
num_keys = len(lab.key_pos)
min_steps = 2**32
num_processed = 0
while states:
num_processed += 1
one_or_more_pos, obtained, total_steps = states.pop(0)
if len(obtained) == num_keys:
print(f"[Found total of {total_steps}]", end="")
min_steps = min(min_steps, total_steps)
continue
robot_positions = [one_or_more_pos] if num_robots == 1 else decode_posis(one_or_more_pos)
for pos_index, pos in enumerate(robot_positions):
for key_name, bt in lab.get_missing_backtracks(pos, keys=obtained).items():
steps, required, found = bt
if len(required - obtained) > 0:
continue
next_pos = lab.key_pos[key_name]
next_obtained = obtained | found | {key_name}
next_steps = total_steps + steps
old_bests = state_cache.getv(next_pos[0], next_pos[1])
if next_obtained not in old_bests or old_bests[next_obtained] > next_steps:
print("o", end="")
if num_robots > 1:
mpos = robot_positions.copy()
mpos[pos_index] = next_pos
next_pos = encode_posis_packed(tuple(mpos))
states.append((next_pos, next_obtained, next_steps))
old_bests[next_obtained] = next_steps
print(".", end="")
if num_processed % 100 == 0:
print(f"[{num_processed}/{len(states)}]", end="")
sys.stdout.flush()
print()
return min_steps
def encode_posis_packed(pt):
p1, p2, p3, p4 = pt
return encode_posis(p1, p2, p3, p4)
def encode_posis(p1, p2, p3, p4):
return (
(p1[0] << 24) + (p2[0] << 16) + (p3[0] << 8) + (p4[0]),
(p1[1] << 24) + (p2[1] << 16) + (p3[1] << 8) + (p4[1]),
)
def decode_posis(p):
return [
((p[0] & 0xFF000000) >> 24, (p[1] & 0xFF000000) >> 24),
((p[0] & 0x00FF0000) >> 16, (p[1] & 0x00FF0000) >> 16),
((p[0] & 0x0000FF00) >> 8, (p[1] & 0x0000FF00) >> 8),
((p[0] & 0x000000FF) , (p[1] & 0x000000FF)),
]
class Lab(Grid):
TILE_PATH = "."
TILE_WALL = "#"
TILE_START = "@"
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs, value_factory=lambda: " ")
self.starts = []
self.key_pos = {}
self.door_pos = {}
def find_positions(self):
for x, y, v in self.values_gen():
if v == Lab.TILE_START:
self.starts.append((x, y))
if v in string.ascii_lowercase:
self.key_pos[v] = (x, y)
if v in string.ascii_uppercase:
self.door_pos[v] = (x, y)
for p in self.starts:
self.setv(p[0], p[1], Lab.TILE_PATH)
def get_missing_backtracks(self, start, keys=set()):
backtracks = {}
for kname, kpos in self.key_pos.items():
if kname in keys:
continue
path = self.path(start, kpos, keys=keys)
if path is None:
continue
backtracks[kname] = self.backtrack(path, kpos, start)
return backtracks
def path(self, s, e, keys=set()):
discovered = Grid(value_factory=bool)
discovered.setv(s[0], s[1], True)
parents = {}
q = [s]
while q:
pos = q.pop(0)
if pos == e:
return parents
nears = self.near_objects(pos)
for near_pos, near_tile in nears.items():
if near_tile == Lab.TILE_WALL:
continue
if near_tile in string.ascii_uppercase and near_tile.lower() not in keys:
continue
if discovered.getv(near_pos[0], near_pos[1]):
continue
discovered.setv(near_pos[0], near_pos[1], True)
parents[near_pos] = pos
q.append(near_pos)
return None
def backtrack(self, parents, pos, end):
count = 0
requirements = set()
keys_found = set()
while pos != end:
pos = parents[pos]
count += 1
tile = self.getv(pos[0], pos[1])
if tile in string.ascii_uppercase:
requirements.add(tile.lower())
elif tile in string.ascii_lowercase:
keys_found.add(tile)
return count, requirements, frozenset(keys_found)
if __name__ == "__main__":
main()