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advent-of-code/2022/day11.py
Mikaël Capelle 8a0412f926 Clean 2022.
2023-12-09 09:54:53 +01:00

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import copy
import sys
from functools import reduce
from typing import Callable, Final, Mapping, Sequence
class Monkey:
id: Final[int]
items: Final[Sequence[int]]
worry_fn: Final[Callable[[int], int]]
test_value: Final[int]
throw_targets: Final[Mapping[bool, int]]
def __init__(
self,
id: int,
items: list[int],
worry_fn: Callable[[int], int],
test_value: int,
throw_targets: dict[bool, int],
):
self.id = id
self.items = items
self.worry_fn = worry_fn
self.test_value = test_value
self.throw_targets = throw_targets
def __eq__(self, o: object) -> bool:
if not isinstance(o, Monkey):
return False
return self.id == o.id
def __hash__(self) -> int:
return hash(self.id)
def parse_monkey(lines: list[str]) -> Monkey:
assert lines[0].startswith("Monkey")
monkey_id = int(lines[0].split()[-1][:-1])
# parse items
items = [int(r.strip()) for r in lines[1].split(":")[1].split(",")]
# parse worry
worry_fn: Callable[[int], int]
worry_s = lines[2].split("new =")[1].strip()
operand = worry_s.split()[2].strip()
if worry_s.startswith("old *"):
if operand == "old":
worry_fn = lambda w: w * w # noqa: E731
else:
worry_fn = lambda w: w * int(operand) # noqa: E731
elif worry_s.startswith("old +"):
if operand == "old":
worry_fn = lambda w: w + w # noqa: E731
else:
worry_fn = lambda w: w + int(operand) # noqa: E731
else:
assert False, worry_s
# parse test
assert lines[3].split(":")[1].strip().startswith("divisible by")
test_value = int(lines[3].split()[-1])
assert lines[4].strip().startswith("If true")
assert lines[5].strip().startswith("If false")
throw_targets = {True: int(lines[4].split()[-1]), False: int(lines[5].split()[-1])}
assert monkey_id not in throw_targets.values()
return Monkey(monkey_id, items, worry_fn, test_value, throw_targets)
def run(
monkeys: list[Monkey], n_rounds: int, me_worry_fn: Callable[[int], int]
) -> dict[Monkey, int]:
"""
Perform a full run.
Args:
monkeys: Initial list of monkeys. The Monkey are not modified.
n_rounds: Number of rounds to run.
me_worry_fn: Worry function to apply after the Monkey operation (e.g., divide
by 3 for round 1).
Returns:
A mapping containing, for each monkey, the number of items inspected.
"""
# copy of the items
items = {monkey: list(monkey.items) for monkey in monkeys}
# number of inspects
inspects = {monkey: 0 for monkey in monkeys}
for _ in range(n_rounds):
for monkey in monkeys:
for item in items[monkey]:
inspects[monkey] += 1
# compute the new worry level
item = me_worry_fn(monkey.worry_fn(item))
# find the target
target = monkey.throw_targets[item % monkey.test_value == 0]
assert target != monkey.id
items[monkeys[target]].append(item)
# clear after the loop
items[monkey].clear()
return inspects
def monkey_business(inspects: dict[Monkey, int]) -> int:
sorted_levels = sorted(inspects.values())
return sorted_levels[-2] * sorted_levels[-1]
monkeys = [parse_monkey(block.splitlines()) for block in sys.stdin.read().split("\n\n")]
# case 1: we simply divide the worry by 3 after applying the monkey worry operation
answer_1 = monkey_business(
run(copy.deepcopy(monkeys), 20, me_worry_fn=lambda w: w // 3)
)
print(f"answer 1 is {answer_1}")
# case 2: to keep reasonable level values, we can use a modulo operation, we need to
# use the product of all "divisible by" test so that the test remains valid
#
# (a + b) % c == ((a % c) + (b % c)) % c --- this would work for a single test value
#
# (a + b) % c == ((a % d) + (b % d)) % c --- if d is a multiple of c, which is why here
# we use the product of all test value
#
total_test_value = reduce(lambda w, m: w * m.test_value, monkeys, 1)
answer_2 = monkey_business(
run(copy.deepcopy(monkeys), 10_000, me_worry_fn=lambda w: w % total_test_value)
)
print(f"answer 2 is {answer_2}")
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