def get_messages():
    cipher = ""
    print("This is the Secret Messages Project for the Treehouse Techdegree.")
    user_prompt = "These are the current available ciphers:\n"
    user_prompt += "-(At)bash-\n"
    user_prompt += "-(K)eyword-\n"
    user_prompt += "-(P)olybius Square-\n"
    user_prompt += "-(Q)uit\n"

    while cipher not in ['at', 'k', 'p', 'q']:
        print(user_prompt)
        cipher = input("Which cipher would you like to use?\n>>>").lower()
        clear_screen()
        if cipher == 'at':
            cipher = Atbash()
        elif cipher == 'k':
            cipher = KeywordCipher()
        elif cipher == 'p':
            cipher = PolybiusSquare()
        elif cipher == 'q':
            break
        else:
            print(
                "Sorry, I didn't get that.  Please choose from the list again."
            )
            print(user_prompt)

        message = input("What is your message?").lower()

        choice = input(
            "Would you like to (e)ncrypt or (d)ecrypt the message?").lower()
        if choice == 'e':
            cipher.encrypt(message)
        else:
            cipher.decrypt(message)
Exemplo n.º 2
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def run_atbash_cipher():
    """this method prompts the user if they would like to encrypt or decrypt
    and runs the encrypt or decrypt method of this cipher
    """
    atbash = Atbash()
    while True:
        encrypt_decrypt = input("\nEnter 1 to encrypt. Enter 2 to decrypt: ")
        if encrypt_decrypt == '1':
            atbash.encrypt()
            break
        elif encrypt_decrypt == '2':
            atbash.decrypt()
            break
        else:
            print("\nTry again! That is not a valid choice!")
Exemplo n.º 3
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def app_menu():
    """Application menu"""
    enc_dec_choice = input(encrypt_decrypt_prompt).upper()
    if enc_dec_choice != encrypt and enc_dec_choice != decrypt:
        sys.exit()

    algorithm_choice = input(cipher_prompt).upper()

    if algorithm_choice == cipher_keyword:
        keyword_obj = KeywordCipher(input("PROVIDE KEYWORD\n"))
        if enc_dec_choice == encrypt:
            encryption_res = keyword_obj.encrypt(input(user_input_encrypt__prompt))
        else:
            decryption_result = keyword_obj.decrypt(input(user_input_decrypt__prompt))
    elif algorithm_choice == cipher_atbash:
        atbash_obj = Atbash()
        if enc_dec_choice == encrypt:
            encryption_res = atbash_obj.encrypt(input(user_input_encrypt__prompt))
        else:
            decryption_result = atbash_obj.decrypt(input(user_input_decrypt__prompt))
    elif algorithm_choice == cipher_affine:
        affine_obj = Affine()
        print("\nValid values for a factor: {0}".format(a_possible_values))
        a = check_a_factor(int(input(a_factor_prompt)))
        b = int(input(b_factor_prompt))
        if enc_dec_choice == encrypt:
            encryption_res = affine_obj.encrypt(input(user_input_encrypt__prompt), a, b)
        else:
            decryption_result = affine_obj.decrypt(input(user_input_decrypt__prompt), a, b)
    else:
        sys.exit()

    (print("ENCRYPTED STRING: {0}".format(encryption_res)) if enc_dec_choice == encrypt else
     print("DECRYPTED STRING: {0}".format(decryption_result)))
Exemplo n.º 4
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def main():

    print()
    print("This is the Secret Messages project for Treehouse  \n")
    cipher_text = None
    print("These are the current available ciphers:\n")
    ciphers = ["Caesar", "Atbash", "Keyword", "Affine"]
    for cipher in ciphers:
        print("- {}".format(cipher))
    while True:

        answer = input("Which cipher would you like to use? ")
        print()
        if answer.lower() == "atbash":
            cipher_text = Atbash()
            break
        elif answer.lower() == "keyword":
            keyword = input("what key word would you like to use ")
            if keyword is None or keyword == "":
                cipher_text = KeyWords()
                break
            else:
                cipher_text = KeyWords(keyword)
                break

        elif answer.lower() == "affine":
            cipher_text = Affine()
            break
        elif answer.lower() == "caesar":

            key_value = input("Shift Key Value:")
            if isinstance(int(key_value), int):
                cipher_text = Caesar(int(key_value))
                break
            else:
                cipher_text = Caesar()
                break

        else:
            print("not a valid cipher")

    message = input("{} Cipher,type in your message ".format(answer))
    while True:
        what_to_do = input("Do you want to encrypt ot decrypt? ")
        if what_to_do == "encrypt":
            encrypted_message = cipher_text.encrypt(message)
            break
        elif what_to_do == "decrypt":
            encrypted_message = cipher_text.decrypt(message)
            break
        else:
            print("not valid command")

    print("Your {}ed message is {} ".format(what_to_do, encrypted_message))
    regame = input("Do you want to encrypt/decrypt again y/n ")
    clear()
    if regame.lower() == "y":
        main()
    else:
        print("Good bye hope you had fun {}ing ".format(what_to_do))
Exemplo n.º 5
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class CipherTests(unittest.TestCase):
    def setUp(self):
        self.test_word = 'testy'
        self.pad_word = 'loose'

        self.cipher = Cipher()
        self.affine = Affine(5, 9)
        self.atbash = Atbash()
        self.caesar = Caesar()
        self.keyword_cipher = Keyword(self.pad_word)

    def test_char_blocks(self):
        assert self.cipher.char_blocks('testytestytest') == 'testy testy test'
        assert self.cipher.char_blocks('exactlyten') == 'exact lyten'

    def test_use_pad(self):
        assert self.cipher.use_pad(self.test_word, self.pad_word) == 'ESGLC'

    def test_affine_encrypt(self):
        """Affine examples from http://crypto.interactive-maths.com/affine-cipher.html."""

        assert self.affine.encrypt(self.test_word) == 'ADVAZ'

    def test_affine_decrypt(self):
        """Affine examples from http://crypto.interactive-maths.com/affine-cipher.html."""

        assert self.affine.decrypt('ADVAZ') == self.test_word.upper()

    def test_atbash_encrypt(self):
        """Atbash examples from http://crypto.interactive-maths.com/atbash-cipher.html."""

        assert self.atbash.encrypt(self.test_word) == 'GVHGB'

    def test_atbash_decrypt(self):
        """Atbash examples from http://crypto.interactive-maths.com/atbash-cipher.html."""

        assert self.atbash.decrypt('GVHGB') == self.test_word.upper()

    def test_caesar_encrypt(self):
        """Caesar shifts by 3 every time.
        Caesar cipher examples from http://crypto.interactive-maths.com/caesar-cipher.html."""

        assert self.caesar.encrypt(self.test_word) == 'WHVWB'

    def test_caesar_decrypt(self):
        """Caesar shifts by 3 every time.
        Caesar cipher examples from http://crypto.interactive-maths.com/caesar-cipher.html."""

        assert self.caesar.decrypt('WHVWB') == self.test_word.upper()

    def test_keyword_encrypt(self):
        assert self.keyword_cipher.encrypt(self.test_word) == 'TARTY'

    def test_keyword_decrypt(self):
        assert self.keyword_cipher.decrypt('TARTY') == self.test_word.upper()
Exemplo n.º 6
0
 def test_atbash_decryption(self):
     return self.assertEqual(Atbash.decrypt("wVXIBKGRLM DRGS zGYZHS"),
                             "Decryption with Atbash")
Exemplo n.º 7
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def encrypt_decrypt():
    """Encrypt or decrypt text."""

    playing = True

    while playing:
        #User input
        cipher = int(
            input("Enter the number associated with cipher you wish to use: "))
        text = input("What is the message?: ")
        choice = input(
            "Are you going to encrypt or decrypt? Enter E or D: ").lower()
        print("\n")

        if choice == "e":
            #Generates affine cipher
            if cipher == 1:
                affine = Affine()
                print(affine.encrypt(text))
                playing = False

            #Generates atbash cipher
            elif cipher == 2:
                atbash = Atbash()
                print(atbash.encrypt(text))
                playing = False

            #Generates keyword cipher
            elif cipher == 3:
                #Ask user keyword
                secret_key = input("Enter your keyword: ")
                keyword = Keyword()
                print("\n")
                print(keyword.encrypt(text, secret_key))
                playing = False

        if choice == "d":
            #Decrypts affine cipher
            if cipher == 1:
                affine = Affine()
                print(affine.decrypt(text))
                playing = False

            #Decrypts atbash cipher
            elif cipher == 2:
                atbash = Atbash()
                print(atbash.decrypt(text))
                playing = False

            #Decrypts keyword cipher
            elif cipher == 3:
                secret_key = input("Enter your keyword: ")
                keyword = Keyword()
                print("\n")
                print(keyword.decrypt(text, secret_key))
                playing = False

    #Asks user to play again or not
    else:
        if input("\nDo you want to contine? Y/N: ").lower() == "y":
            welcome()
            encrypt_decrypt()
        else:
            print("See you next time!")
    def run_cipher():
        print(
            "This is the Secret Message project for the Treehouse Techdegree. \n"
        )
        user_choice = input(
            "Would you like to encrypt or decrypt a message? \n \n")

        if user_choice.lower() == "encrypt":
            text = input("What message would you like to encrypt? \n \n")
            cipher_type = input(
                "Which cipher would you like to use to encrypt? \n"
                "\n - Keyword"
                "\n - Atbash"
                "\n - Affine"
                "\n - Caesar \n"
                "\n")

            #Keyword Cipher
            if cipher_type.lower() == "keyword":
                secret_keyword = input(
                    "Great Choice! What is your keyword? \n \n")
                keyword = Keyword()
                print('\n')
                print(keyword.encrypt(text, secret_keyword))

            #Atbash Cipher
            elif cipher_type.lower() == "atbash":
                atbash = Atbash()
                print('\n')
                print(atbash.encrypt(text))

            #Affine Cipher
            elif cipher_type.lower() == "affine":
                affine = Affine()
                print('\n')
                print(affine.encrypt(text))

            #Caesar Cipher
            elif cipher_type.lower() == "caesar":
                caesar = Caesar()
                print('\n')
                print(caesar.encrypt(text))

            elif ValueError:
                print(" \nSorry, {} is not a choice!".format(cipher_type))
                run_cipher()

        elif user_choice.lower() == "decrypt":
            text = input("What message would you like to decrypt? \n \n")
            cipher_type = input(
                "Which cipher would you like to use to decrypt? \n"
                "\n - Keyword"
                "\n - Atbash"
                "\n - Affine"
                "\n - Caesar \n"
                "\n")

            #Keyword Cipher
            if cipher_type.lower() == "keyword":
                secret_keyword = input(
                    "Great Choice! What is your keyword? \n \n")
                keyword = Keyword()
                print('\n')
                print(keyword.decrypt(text, secret_keyword))

            #Atbash Cipher
            elif cipher_type.lower() == "atbash":
                atbash = Atbash()
                print(atbash.decrypt(text))

            #Affine Cipher
            elif cipher_type.lower() == "affine":
                affine = Affine()
                print('\n')
                print(affine.decrypt(text))

            #Caesar Cipher
            elif cipher_type.lower() == "caesar":
                caesar = Caesar()
                print('\n')
                print(caesar.decrypt(text))

            #If the cipher type is not a choice
            elif ValueError:
                print(" \nSorry, {} is not a choice!".format(cipher_type))
                run_cipher()

        elif ValueError:
            print("{} wasn't an option. \n".format(user_choice))
            run_cipher()