from utils import AlphabetUtils as au ALLOWED_KEYS = [1, 3, 5, 7, 9, 11, 15, 17, 19, 21, 23, 25] def encrypt_text(key1: int = 11, key2: int = 7, cleartext: str = 'BonkRocks'): """ Encrypts the given text with the given keys :param key1: The first key. Has to be between 1 and 25 and a coprime to 26 :param key2: The second key. Has to be between 0 and 26 :param cleartext: The text to encrypt :return: The encrypted text """ # key1 has to be coprime to 26 if key1 not in ALLOWED_KEYS: raise AttributeError # key2 has to be between 0 and 25 if key2 < 0 or key2 > 25: raise AttributeError resulting = '' for char in cleartext: index = au.get_index_of_letter(char) newIndex = (index * key1 + key2) % 26 resulting += au.get_letter_at_index(newIndex) return resulting def decrypt_text(key1: int = 11, key2: int = 7, ciphertext: str = 'sfunmfdnx'): """ Decrypts the given ciphertext with the given keys :param key1: The first key. Has to be between 1 and 25 and a coprime to 26 :param key2: The second key. Has to be between 0 and 26 :param ciphertext: The text to decrypt :return: The decrypted text """ # key1 has to be coprime to 26 if key1 not in ALLOWED_KEYS: raise AttributeError # key2 has to be between 0 and 25 if key2 < 0 or key2 > 25: raise AttributeError decrypt_key1 = _get_key_reverse(key1) resulting = '' for char in ciphertext: index = au.get_index_of_letter(char) newIndex = ((index - key2) * decrypt_key1) % 26 resulting += au.get_letter_at_index(newIndex) return resulting def _get_key_reverse(key: int): """ Calculates the decryption key (inverse of the original key) based on the following formula: s * s' mod 26 = 1 :param key: The key to reverse :return: The decryption key """ for possibility in ALLOWED_KEYS: if (key * possibility) % 26 == 1: return possibility if __name__ == '__main__': print(encrypt_text()) print(decrypt_text())