Final a bit better.

This commit is contained in:
Mikaël Capelle 2023-12-12 21:18:57 +01:00
parent 13b15aba76
commit 155e0e9521

View File

@ -1,17 +1,16 @@
import itertools
import os
import sys
from functools import lru_cache
from typing import Iterator
from typing import Iterable
lines = sys.stdin.read().splitlines()
VERBOSE = os.getenv("AOC_VERBOSE") == "True"
@lru_cache
def fn3p(pattern: str, counts: tuple[int, ...]) -> int:
def compute_fitting_arrangements(pattern: str, counts: tuple[int, ...]) -> int:
"""
fn3p tries to fit ALL values in counts() inside the pattern.
"""
# no pattern -> ok if nothing to fit, otherwise ko
if not pattern:
count = 1 if not counts else 0
@ -24,46 +23,30 @@ def fn3p(pattern: str, counts: tuple[int, ...]) -> int:
elif len(pattern) < sum(counts) + len(counts) - 1:
count = 0
elif len(pattern) < counts[0]:
count = 0
else:
count = 0
if pattern[0] == "?":
count += fn3p(pattern[1:], counts)
count += compute_fitting_arrangements(pattern[1:], counts)
if len(pattern) == counts[0]:
count += 1
elif pattern[counts[0]] != "#":
count += fn3p(pattern[counts[0] + 1 :], counts[1:])
count += compute_fitting_arrangements(pattern[counts[0] + 1 :], counts[1:])
return count
@lru_cache
def fn3(pattern: str, counts: tuple[int, ...]) -> list[tuple[int, tuple[int, ...]]]:
# empty pattern
if not pattern:
return [(1, counts)]
elif not counts:
return [(1, ())] if pattern.find("#") == -1 else []
elif pattern.find("#") != -1 and len(pattern) < counts[0]:
return []
elif pattern.find("?") == -1 and counts[0] == len(pattern):
return [(1, counts[1:])]
else:
return [(fn3p(pattern, counts[:i]), counts[i:]) for i in range(len(counts) + 1)]
@lru_cache
def fn4(patterns: tuple[str], counts: tuple[int, ...], depth: int = 0) -> int:
def compute_possible_arrangements(
patterns: tuple[str, ...], counts: tuple[int, ...]
) -> int:
if not patterns:
if not counts:
return 1
return 0
return 1 if not counts else 0
with_hash = sum(1 for p in patterns[1:] if p.find("#") >= 0)
@ -73,37 +56,52 @@ def fn4(patterns: tuple[str], counts: tuple[int, ...], depth: int = 0) -> int:
to_fit = counts if with_hash == 0 else counts[:-with_hash]
remaining = () if with_hash == 0 else counts[-with_hash:]
if not to_fit:
if patterns[0].find("#") != -1:
return 0
return compute_possible_arrangements(patterns[1:], remaining)
elif patterns[0].find("#") != -1 and len(patterns[0]) < to_fit[0]:
return 0
elif patterns[0].find("?") == -1:
if len(patterns[0]) != to_fit[0]:
return 0
return compute_possible_arrangements(patterns[1:], counts[1:])
else:
return sum(
fp * compute_possible_arrangements(patterns[1:], to_fit[i:] + remaining)
for i in range(len(to_fit) + 1)
if (fp := compute_fitting_arrangements(patterns[0], to_fit[:i])) > 0
)
def compute_all_possible_arrangements(lines: Iterable[str], repeat: int) -> int:
count = 0
for fp, fc in fn3(patterns[0], to_fit):
if fp == 0:
continue
# print("|" * depth, patterns[0], to_fit, remaining, fp, fc)
count += fp * fn4(patterns[1:], fc + remaining, depth + 1)
return count
if VERBOSE:
from tqdm import tqdm
def v3(pattern: str, counts: list[int]) -> int:
blocks = list(filter(len, pattern.split(".")))
return fn4(tuple(blocks), tuple(counts))
def compute_possible_arrangements(repeat: int) -> int:
count = 0
lines = tqdm(lines)
for line in lines:
parts = line.split(" ")
pattern = "?".join(parts[0] for _ in range(repeat))
counts = [int(c) for c in parts[1].split(",")] * repeat
count += v3(pattern, counts)
count += compute_possible_arrangements(
tuple(filter(len, "?".join(parts[0] for _ in range(repeat)).split("."))),
tuple(int(c) for c in parts[1].split(",")) * repeat,
)
return count
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = compute_possible_arrangements(1)
answer_1 = compute_all_possible_arrangements(lines, 1)
print(f"answer 1 is {answer_1}")
# part 2
answer_2 = compute_possible_arrangements(5)
answer_2 = compute_all_possible_arrangements(lines, 5)
print(f"answer 2 is {answer_2}")