In this series, I'll share my progress with the 2023 version of Advent of Code.
Check the first post for a short intro to this series.
You can also follow my progress on GitHub.
December 5th
The puzzle of day 5 is absolute horror. A naive implementation of the logic does not work for part 2. So far, I've only solved the first part 😞.
My pitfall for this puzzle: A naive implementation is not going to cut it but I'm struggling with a more elegant and optimized solution. I will update this post as soon as I do of course 😄
UPDATE: In the end a brute-force approach with the naive implementation did work, it took quite some time on my laptop to compute.
Solution here, do not click if you want to solve the puzzle first yourself
#!/usr/bin/env python3
import sys
with open('input-small.txt') as infile:
lines = infile.readlines()
seeds = [int(s) for s in lines[0].strip().split(': ')[1].split(' ')]
line_nr = 3
def parse_mapping(lines, line_nr):
result = []
while lines[line_nr].strip():
mapping = lines[line_nr].strip().split(' ')
start = int(mapping[1])
end = start + int(mapping[2])
shift = int(mapping[0]) - start
result.append((start, end, shift))
if line_nr < len(lines) - 1:
line_nr += 1
else:
break
if line_nr < len(lines) - 1:
line_nr += 2
return line_nr, result
def do_mappings(number, mappings):
for mapping in mappings:
for m in mapping:
if number >= m[0] and number < m[1]:
number += m[2]
break
return number
[line_nr, seed_to_soil] = parse_mapping(lines, line_nr)
[line_nr, soil_to_fertilizer] = parse_mapping(lines, line_nr)
[line_nr, fertilizer_to_water] = parse_mapping(lines, line_nr)
[line_nr, water_to_light] = parse_mapping(lines, line_nr)
[line_nr, light_to_temperature] = parse_mapping(lines, line_nr)
[line_nr, temperature_to_humidity] = parse_mapping(lines, line_nr)
[line_nr, humidity_to_location] = parse_mapping(lines, line_nr)
lowest_location = None
while seeds:
start = int(seeds.pop(0))
end = start + int(seeds.pop(0))
for s in range(start, end):
location = do_mappings(s, [seed_to_soil, soil_to_fertilizer,
fertilizer_to_water, water_to_light, light_to_temperature,
temperature_to_humidity, humidity_to_location])
if not lowest_location or location < lowest_location:
lowest_location = location
print(f'New lowest: {lowest_location}')
print(lowest_location)
That's it! See you again tomorrow!