complete re-write of part 2
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+114
-60
@@ -4,78 +4,132 @@ with open(r'advent_of_code\2023\day_5\input.txt', 'r') as file:
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with open(r'advent_of_code\2023\day_5\test_input.txt', 'r') as file:
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test_input = file.readlines()
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#input = test_input
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# input = test_input
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# print(input)
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# big fat read me note
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# big fat read me note
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# big fat read me note
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# this has a VERY LONG run time due to looping through what is probably millions of numbers
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# JP to come back later and try to optimize this
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# big fat read me note
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# big fat read me note
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# big fat read me note
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lines = [line.strip('\r\n') for line in input]
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# find the seed numbers
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seed_numbers = input[0].split(':')[1].strip().split(' ')
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#print(seed_numbers)
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seeds = [int(num) for num in seed_numbers]
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#first we need to split the seed map into lists of 2 numbers
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seed_map = []
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for i in range(0, len(seed_numbers), 2):
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seed_map.append(seed_numbers[i:i+2])
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#print(seed_map)
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maps = {}
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for line in lines[1:]:
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if line.endswith(' map:'):
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k = line.split()[0].split('-')
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k = (k[0], k[2])
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maps[k] = map = []
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elif line:
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# Split the line into parts
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parts = line.split()
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# find the instructions
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line_seed_to_soil_map = input.index('seed-to-soil map:\n')
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line_soil_to_fertilizer_map = input.index('soil-to-fertilizer map:\n')
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line_fertilizer_to_water_map = input.index('fertilizer-to-water map:\n')
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line_water_to_light_map = input.index('water-to-light map:\n')
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line_light_to_temperature_map = input.index('light-to-temperature map:\n')
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line_temperature_to_humidity_map = input.index('temperature-to-humidity map:\n')
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line_humidity_to_location_map = input.index('humidity-to-location map:\n')
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# Convert each part to an integer
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int_parts = [int(part) for part in parts]
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# get the instructions for each map
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seed_to_soil_map_instructions = input[line_seed_to_soil_map+1:line_soil_to_fertilizer_map]
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soil_to_fertilizer_map_instructions = input[line_soil_to_fertilizer_map+1:line_fertilizer_to_water_map]
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fertilizer_to_water_map_instructions = input[line_fertilizer_to_water_map+1:line_water_to_light_map]
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water_to_light_map_instructions = input[line_water_to_light_map+1:line_light_to_temperature_map]
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light_to_temperature_map_instructions = input[line_light_to_temperature_map+1:line_temperature_to_humidity_map]
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temperature_to_humidity_map_instructions = input[line_temperature_to_humidity_map+1:line_humidity_to_location_map]
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humidity_to_location_map_instructions = input[line_humidity_to_location_map+1:]
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# Create a tuple from the list of integer parts
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x = tuple(int_parts)
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def map_value(value, instructions):
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for instruction in instructions:
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instruction = instruction.strip() # remove newline character
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if instruction: # check if instruction is not empty
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destination_start, source_start, length = map(int, instruction.split())
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if source_start <= value < source_start + length:
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return destination_start + (value - source_start)
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return value # if value is not in any range, it maps to itself
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# Calculate the start and end of the range
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range_start = x[1]
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range_end = x[1] + x[2] - 1
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# Calculate the mapped start of the range
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mapped_start = x[0] - x[1]
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# Create a tuple representing the range and its mapped start
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range_tuple = ((range_start, range_end), mapped_start)
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# Append the tuple to the map
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map.append(range_tuple)
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for map in maps.values():
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map.sort()
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# Initialize the smallest location to a large number
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smallest_location = float('inf')
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def map_range(rng, map):
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# Initialize a list with the input range
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ranges = [rng]
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# Initialize an empty list to store the result ranges
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res = []
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for seed in seed_map:
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start = int(seed[0])
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count = int(seed[1])
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for seed_number in range(start, start + count):
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soil = map_value(seed_number, seed_to_soil_map_instructions)
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fertilizer = map_value(soil, soil_to_fertilizer_map_instructions)
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water = map_value(fertilizer, fertilizer_to_water_map_instructions)
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light = map_value(water, water_to_light_map_instructions)
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temperature = map_value(light, light_to_temperature_map_instructions)
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humidity = map_value(temperature, temperature_to_humidity_map_instructions)
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location = map_value(humidity, humidity_to_location_map_instructions)
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# Update smallest_location if a smaller location is found
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if location < smallest_location:
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smallest_location = location
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print(smallest_location)
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# Process each range in the list
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while ranges:
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# Flag to check if a match was found in the map
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matched = False
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# Get the current range
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start, end = rng = ranges.pop()
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# Check each entry in the map
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for src, delta in map:
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# Case 1: The end of the current range is within the source range
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if start < src[0] <= end <= src[1]:
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matched = True
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# Add the remaining part of the current range to the list
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ranges.append((start, src[0] - 1))
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# Add the mapped range to the result
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res.append((src[0] + delta, end + delta))
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# Case 2: The start of the current range is within the source range
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elif src[0] <= start <= src[1] < end:
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matched = True
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# Add the remaining part of the current range to the list
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ranges.append((src[1] + 1, end))
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# Add the mapped range to the result
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res.append((start + delta, src[1] + delta))
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# Case 3: The current range is entirely within the source range
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elif src[0] <= start <= end <= src[1]:
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matched = True
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# Add the mapped range to the result
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res.append((start + delta, end + delta))
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# Case 4: The current range entirely contains the source range
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elif start < src[0] <= src[1] < end:
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matched = True
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# Add the parts of the current range outside the source range to the list
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ranges.append((start, src[0] - 1))
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ranges.append((src[1] + 1, end))
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# Add the mapped range to the result
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res.append((src[0] + delta, src[1] + delta))
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# If no match was found in the map, add the current range to the result
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if not matched:
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res.append(rng)
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# Sort the result ranges
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res.sort()
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return res
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#seeds, maps = data
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ranges = []
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for i in range(0, len(seeds), 2):
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start = seeds[i]
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end = seeds[i] + seeds[i+1] - 1
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ranges.append((start, end))
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k = 'seed'
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# The loop continues until 'k' is equal to 'location'
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while k != 'location':
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# Iterate over each item in the 'maps' dictionary
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for key, map in maps.items():
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# Check if the first element of the key matches 'k'
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if key[0] == k:
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# Initialize an empty list to store the new ranges
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new_range = []
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# Iterate over each range in the current list of ranges
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for item in ranges:
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# Map the current range using the current map
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# and add the resulting ranges to the new list
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new_range.extend(map_range(item, map))
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# Replace the current list of ranges with the new list
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ranges = new_range
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# Update 'k' to the second element of the key
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k = key[1]
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# Break out of the loop over the 'maps' dictionary
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break
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print(min([result[0] for result in ranges]))
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# Print the smallest location
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print(f'answer: {smallest_location}')
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