@staticmethod def _parse_database_entry(database_entry: str) -> [int, int, str, str]: temp, password = database_entry.split(": ") temp, symbol = temp.split(" ") par1, par2 = temp.split("-") return int(par1), int(par2), symbol, password class SumPasswordValidator(PasswordValidator): @staticmethod def check_password(minimum, maximum, symbol, password): return minimum <= password.count(symbol) <= maximum class PositionalPasswordValidator(PasswordValidator): @staticmethod def check_password(index1, index2, symbol, password): return (password[index1 - 1] == symbol and password[index2 - 1] != symbol or password[index1 - 1] != symbol and password[index2 - 1] == symbol) if __name__ == "__main__": data = DataReader.read_txt("day2.txt", str) solution = SumPasswordValidator().count_valid_passwords(data) print("Number of valid passwords method sum: {}".format(solution)) solution = PositionalPasswordValidator().count_valid_passwords(data) print("Number of valid passwords method position: {}".format(solution))
import numpy as np from typing import List from src.year2020.infra.api import DataReader def count_increases(measurements: List[int]) -> int: increased = 0 last_measurement = np.Inf for measurement in measurements: if measurement > last_measurement: increased += 1 last_measurement = measurement return increased if __name__ == "__main__": data = DataReader.read_txt("day1.txt", int) single_increases = count_increases(data) print(f"Measurement increased {single_increases} times in single mode.") sliding_window_sum: List[int] = list() for i in range(3, len(data) + 3): sliding_window_sum.append(sum(data[(i - 3):i])) sliding_window_increases = count_increases(sliding_window_sum) print( f"Measurement increased {sliding_window_increases} times in sliding window mode." )
def count_trees_hit(slope_map: List, current_pos: np.ndarray, slope: np.ndarray) -> int: slope = slope / gcd(slope[0], slope[1]) trees_hit = 0 while current_pos[1] < len(slope_map): x = int(current_pos[1]) y = int(current_pos[0]) % len(slope_map[x]) if slope_map[x][y] == "#": trees_hit += 1 current_pos = np.add(current_pos, slope) return trees_hit if __name__ == "__main__": input_data = DataReader.read_txt("day3.txt", str) single_slope = np.array((3, 1)) result = count_trees_hit(input_data, np.array((0, 0)), single_slope) print("With slope {} you hit {} trees.".format((3, 1), result)) result_list = [result] slopes = [ np.array((1, 1)), np.array((5, 1)), np.array((7, 1)), np.array((1, 2)) ] for single_slope in slopes: result = count_trees_hit(input_data, np.array((0, 0)), single_slope) result_list.append(result)
] return np.all([character in allowed for character in field_value]) if field_name == "ecl": return field_value in ["amb", "blu", "brn", "gry", "grn", "hzl", "oth"] if field_name == "pid": try: int(field_value) success = True except ValueError: success = False return len(field_value) == 9 and success if field_name == "cid": return True return False if __name__ == "__main__": input_data = DataReader.read_txt_in_batch("day4.txt") required_fields = ["byr", "iyr", "eyr", "hgt", "hcl", "ecl", "pid"] valid_passports = count_valid_passports(input_data, required_fields) print( "Number of valid passports counting in those without cid: {}.".format( valid_passports)) valid_strict = count_valid_passports(input_data, required_fields, strict=True) print( "Number of strictly valid passports counting in those without cid: {}." .format(valid_strict))