Esempio n. 1
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def test_Rotor_encode_letters_forward_return_letter():
    A = Rotor('I', 'a')
    ret = A.encode_letter('a', return_letter=True)
    index = ALPHABET.index('a'.upper())
    output_letter = A.wiring['forward'][(index + A.offset) % 26]
    output_index = (ALPHABET.index(output_letter) - A.offset) % 26
    assert ret == ALPHABET[output_index]

    assert A.encode_letter('a', printit=True)
Esempio n. 2
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def test_Rotor_encode_letters_forward_nothing():
    A = Rotor('I', 'a')
    ret = A.encode_letter('a')
    index = ALPHABET.index('a'.upper())

    output_letter = A.wiring['forward'][(index + A.offset) % 26]
    output_index = (ALPHABET.index(output_letter) - A.offset) % 26

    assert ret == output_index
Esempio n. 3
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def test_Rotor_encode_letters_forward_next():
    C = Rotor('III', 'a')
    B = Rotor('II', 'a')
    A = Rotor('I', 'a')
    index = ALPHABET.index('a'.upper())

    A.next_rotor = B
    B.prev_rotor = A
    B.next_rotor = C

    ret = B.encode_letter('a', forward=True)
    output_letter = B.wiring['forward'][(index + B.offset) % 26]
    output_index = (ALPHABET.index(output_letter) - B.offset) % 26
    assert ret == B.next_rotor.encode_letter(output_index, True)
Esempio n. 4
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 def encode_decode_letter(self, letter):
     """ Takes a letter as input, steps rotors accordingly, and returns letter output.
     Because Enigma is symmetrical, this works the same whether you encode or decode.
     """
     # Make sure the letter is in a-zA-Z.
     if bool(re.compile(r'[^a-zA-Z ]').search(letter)):
         return 'Please provide a letter in a-zA-Z.'
     # First, go through plugboard.
     if letter in self.plugboard.swaps:
         letter = self.plugboard.swaps[letter.upper()]
     # Next, step the rotors.
     self.r_rotor.step()
     # Send the letter through the rotors to the reflector.
     # Get the index of the letter that emerges from the rotor.
     left_pass = self.r_rotor.encode_letter(ALPHABET.index(letter.upper()))
     # Must match letter INDEX, not letter name to reflector as before.
     refl_output = self.reflector.wiring[ALPHABET[(left_pass)%26]]
     # Send the reflected letter back through the rotors.
     final_letter = ALPHABET[self.l_rotor.encode_letter(
         ALPHABET.index(refl_output), forward=False)]
     if final_letter in self.plugboard.swaps:
         return self.plugboard.swaps[final_letter]
     else:
         return final_letter