logan_2023/day5/d5p2.py

#!/usr/bin/python3
from enum import IntEnum
import re
import sys

class Maps(IntEnum):
    seeds = 0
    seedToSoil = 1
    soilToFertilizer = 2
    fertilizerToWater = 3
    waterToLight = 4
    lightToTemp = 5
    temptoHumidity = 6
    humidityToLocation = 7

class Column(IntEnum):
    DESTINATION = 0
    ORIGIN = 1
    LENGTH = 2

def file_load(path):
    file = FileAccess.open(path, FileAccess.READ)
    content = file.get_as_text()
    return content

def strarr_to_arr(data):
    new = []
    for i in range(0, len(data)):
        new.append(data[i])

    return new

def input_clean(data):
    output = []
    for i in range(len(data)):
        regex = re.compile(r"^(.*-to-.* map:\n)|^(seeds: )")
        output.append(regex.sub("", data[i]))

    return output

# bad variable names :(
def input_format(data):
    new = []
    for i in range(0, len(data)):
        temp = strarr_to_arr(data[i].split("\n"))
        temp4 = []

        for j in range(0, len(temp)):
            temp2 = strarr_to_arr(temp[j].split(" "))
            temp3 = []

            for k in range(0, len(temp2)):
                if not len(temp2[k]):
                    continue
                temp3.append(int(temp2[k]))

            temp4.append(temp3)

        new.append(temp4)

    return new

def is_mapped(thing, data):
    for v in thing:
        if data >= v[Column.ORIGIN] and data <= v[Column.ORIGIN]+v[Column.LENGTH]:
            return v[Column.DESTINATION] + (data-v[Column.ORIGIN])

    return data

def is_revmapped(thing, data):
    for v in thing:
        if data >= v[Column.DESTINATION] and data <= v[Column.DESTINATION]+v[Column.LENGTH]:
            return v[Column.ORIGIN] + (data-v[Column.DESTINATION])

    return data

def map_input(data, seed):
    temp = seed
    for map in range(Maps.seedToSoil, Maps.humidityToLocation+1):
        temp = is_mapped(data[map], temp)
        #print("Output: %s %s" % [map, temp])

    return temp

def revmap_input(data, location):
	temp = location
	for map in range(Maps.humidityToLocation, Maps.seedToSoil-1, -1):
		temp = is_revmapped(data[map], temp)
		#print("Output: %s %s" % [map, temp])

	return temp

def __main__():
    print("Hello!")

    temp = ""
    with open(sys.argv[1]) as f:
        temp = f.read().split("\n\n")

    temp = input_clean(temp)
    data = input_format(temp)
    #print(input[Maps.seeds])
    #print(input[Maps.seedToSoil])

    seeds = data[0][0]
    print(seeds)

    """
    minval = 2**32
    for i in range(0, len(seeds) // 2):
        start = seeds[i*2]
        end = seeds[i*2+1]

        print(f"Testing seeds: {start}-{start+end}")

        for j in range(0, end):
            if not j % 1000000:
                print(f"Test: {start+j}")

            location = map_input(data, start+j)
            if location < minval:
                minval = location

    print(f"Answer 2: {minval}")
    """

    testlocation = 0
    while True:
        if testlocation % 100000 == 0:
            print(testlocation)
        for i in range(0, len(seeds) // 2):
            seed = revmap_input(data, testlocation)
            if seed >= seeds[i*2] and seed <= seeds[i*2]+seeds[i*2+1]:
                print(f"Answer 2: {testlocation}")
                print(f"Value is between seed {seeds[i*2]} and {seeds[i*2]+seeds[i*2+1]}")
                return

        testlocation+=1

__main__()