advent-of-code/2022/python/day05.py
2022-12-12 02:41:14 -05:00

86 lines
2.1 KiB
Python

from pprint import pprint as pp
from shared import load_rows
from scanf import scanf
from string import ascii_letters
import re
def load_crates(x):
done_crates = False
crates = []
instructions = []
for row in x:
if done_crates:
instructions.append(row)
else:
if row == "":
done_crates = True
else:
crates.append(row)
crates.pop()
return crates, instructions
def to_lists(crates):
parsed = []
reg = re.compile(r"[\([{})\]]")
for row in crates:
parsed.append([x for x in reg.sub(" ", row)])
parsed = list(zip(*parsed[::-1]))
parsed = list(zip(*parsed[::-1]))
parsed = list(zip(*parsed[::-1]))
cleaned1 = [[x for x in y if x.strip()] for y in parsed if y]
cleaned2 = [x for x in cleaned1 if x != []][::-1]
return cleaned2
def parse_instructions(crates, instructions):
for instruction in instructions:
count, _from, _to = scanf("move %d from %d to %d", instruction)
print(count, _from, _to)
_from -= 1 # 1 based yo
_to -= 1
for x in range(count):
value = crates[_from].pop(0)
crates[_to].insert(0, value)
return crates
def parse_instructions_pt2(crates, instructions):
for instruction in instructions:
count, _from, _to = scanf("move %d from %d to %d", instruction)
_from -= 1 # 1 based yo
_to -= 1
moving = crates[_from][:count]
print(instruction, moving)
for x in range(count):
crates[_from].pop(0)
for x in reversed(moving):
crates[_to].insert(0, x)
return crates
def part1(x):
crates, instructions = load_crates(x)
crates = to_lists(crates)
crates = parse_instructions(crates, instructions)
print([c[0] for c in crates])
def part2(x):
crates, instructions = load_crates(x)
crates = to_lists(crates)
crates = parse_instructions_pt2(crates, instructions)
print("".join([c[0] for c in crates]))
def main():
rows = load_rows(5)
# part1(rows)
part2(rows)
if __name__ == "__main__":
main()