from collections import defaultdict with open(r'advent_of_code\2023\05\input.txt', 'r') as file: input = file.readlines() with open(r'advent_of_code\2023\05\test_input.txt', 'r') as file: test_input = file.readlines() #input = test_input # print(input) # find the seed numbers seed_numbers = input[0].split(':')[1].strip().split(' ') print(seed_numbers) # find the instructions line_seed_to_soil_map = input.index('seed-to-soil map:\n') line_soil_to_fertilizer_map = input.index('soil-to-fertilizer map:\n') line_fertilizer_to_water_map = input.index('fertilizer-to-water map:\n') line_water_to_light_map = input.index('water-to-light map:\n') line_light_to_temperature_map = input.index('light-to-temperature map:\n') line_temperature_to_humidity_map = input.index('temperature-to-humidity map:\n') line_humidity_to_location_map = input.index('humidity-to-location map:\n') # get the instructions for each map seed_to_soil_map_instructions = input[line_seed_to_soil_map+1:line_soil_to_fertilizer_map] soil_to_fertilizer_map_instructions = input[line_soil_to_fertilizer_map+1:line_fertilizer_to_water_map] fertilizer_to_water_map_instructions = input[line_fertilizer_to_water_map+1:line_water_to_light_map] water_to_light_map_instructions = input[line_water_to_light_map+1:line_light_to_temperature_map] light_to_temperature_map_instructions = input[line_light_to_temperature_map+1:line_temperature_to_humidity_map] temperature_to_humidity_map_instructions = input[line_temperature_to_humidity_map+1:line_humidity_to_location_map] humidity_to_location_map_instructions = input[line_humidity_to_location_map+1:] def map_value(value, instructions): for instruction in instructions: instruction = instruction.strip() # remove newline character if instruction: # check if instruction is not empty destination_start, source_start, length = map(int, instruction.split()) if source_start <= value < source_start + length: return destination_start + (value - source_start) return value # if value is not in any range, it maps to itself def build_instructions_map(instructions, instructions_map): for instruction in instructions: instruction = instruction.strip() # remove newline character if instruction: # check if instruction is not empty destination_start, source_start, length = map(int, instruction.split()) for i in range(length): source = source_start + i destination = destination_start + i instructions_map[source] = destination # build the seed to soil map using the instructions from the input # seed_to_soil_map = defaultdict(lambda: seed_to_soil_map) # soil_to_fertilizer_map = defaultdict(lambda: soil_to_fertilizer_map) # fertilizer_to_water_map = defaultdict(lambda: fertilizer_to_water_map) # water_to_light_map = defaultdict(lambda: water_to_light_map) # light_to_temperature_map = defaultdict(lambda: light_to_temperature_map) # temperature_to_humidity_map = defaultdict(lambda: temperature_to_humidity_map) # humidity_to_location_map = defaultdict(lambda: humidity_to_location_map) # build_instructions_map(seed_to_soil_map_instructions, seed_to_soil_map) # build_instructions_map(soil_to_fertilizer_map_instructions, soil_to_fertilizer_map) # build_instructions_map(fertilizer_to_water_map_instructions, fertilizer_to_water_map) # build_instructions_map(water_to_light_map_instructions, water_to_light_map) # build_instructions_map(light_to_temperature_map_instructions, light_to_temperature_map) # build_instructions_map(temperature_to_humidity_map_instructions, temperature_to_humidity_map) # build_instructions_map(humidity_to_location_map_instructions, humidity_to_location_map) locations = [] for seed_number in seed_numbers: soil = map_value(int(seed_number), seed_to_soil_map_instructions) fertilizer = map_value(soil, soil_to_fertilizer_map_instructions) water = map_value(fertilizer, fertilizer_to_water_map_instructions) light = map_value(water, water_to_light_map_instructions) temperature = map_value(light, light_to_temperature_map_instructions) humidity = map_value(temperature, temperature_to_humidity_map_instructions) location = map_value(humidity, humidity_to_location_map_instructions) locations.append(location) #print lowest location print(min(locations))