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/douban_puzzle.py

Created November 22, 2015 18:24
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douban_puzzle.py
import itertools
ALPHABET = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'
ALPHABET_LEN = len(ALPHABET)
ALPHABET_INDEX = {c: i for i, c in enumerate(ALPHABET)}
def a2n(letter):
return ALPHABET_INDEX[letter]
def n2a(number):
return ALPHABET[number]
class Enigma(object):
def __init__(self, rotors, reflector):
self.rotors = rotors
self.reflector = reflector
self.setup()
def setup(self):
for i, r in enumerate(self.rotors):
if i < len(self.rotors) - 1:
self.rotors[i].next_rotor = self.rotors[i + 1]
self.processors = (self.rotors +
[self.reflector] +
[r.inverse for r in reversed(self.rotors)])
def __call__(self, text):
result = ''
for c in text:
self.rotors[0].rotate()
n = a2n(c)
for f in self.processors:
n = f(n)
result += n2a(n)
return result
class Rotor(object):
MODELS = [
('EKMFLGDQVZNTOWYHXUSPAIBRCJ', 'Q'), # I
('AJDKSIRUXBLHWTMCQGZNPYFVOE', 'E'), # II
('BDFHJLCPRTXVZNYEIWGAKMUSQO', 'V'), # III
('ESOVPZJAYQUIRHXLNFTGKDCMWB', 'J'), # IV
('VZBRGITYUPSDNHLXAWMJQOFECK', 'Z'), # V
]
def __init__(self, model=0, position=0, next_rotor=None):
self.wiring_string, self.turnover_letter = self.MODELS[model]
self.position = position
self.next_rotor = next_rotor
self.turnover = a2n(self.turnover_letter)
self.wiring = range(len(self.wiring_string))
for i, c in enumerate(self.wiring_string):
self.wiring[i] = a2n(c)
self.inverse_wiring = range(len(self.wiring_string))
for i, c in enumerate(self.wiring):
self.inverse_wiring[c] = i
def __call__(self, letter, inverse=False):
x = (self.position + letter) % ALPHABET_LEN
x = self.wiring[x] if not inverse else self.inverse_wiring[x]
x = (ALPHABET_LEN - self.position + x) % ALPHABET_LEN
return x
def inverse(self, letter):
return self(letter, inverse=True)
def rotate(self):
if self.position == self.turnover and self.next_rotor:
self.next_rotor.rotate()
self.position += 1
if self.position >= ALPHABET_LEN:
self.position = 0
class Reflector(object):
MODELS = [
'YRUHQSLDPXNGOKMIEBFZCWVJAT', # B
'FVPJIAOYEDRZXWGCTKUQSBNMHL', # C
'ENKQAUYWJICOPBLMDXZVFTHRGS', # B thin
'RDOBJNTKVEHMLFCWZAXGYIPSUQ', # C thin
]
def __init__(self, model):
self.wiring_string = self.MODELS[model]
self.wiring = range(len(self.wiring_string))
for i, c in enumerate(self.wiring_string):
self.wiring[i] = a2n(c)
def __call__(self, letter):
return self.wiring[letter]
def decrypt(ciphertext, words, num_rotors=3):
for reflector_model in range(len(Reflector.MODELS)):
model_gen = itertools.permutations(range(len(Rotor.MODELS)), num_rotors)
for rotor_models in model_gen:
pos_gen = itertools.product(range(ALPHABET_LEN), repeat=num_rotors)
for rotor_positions in pos_gen:
rotors = [Rotor(model=m, position=p)
for m, p in zip(rotor_models, rotor_positions)]
reflector = Reflector(reflector_model)
enigma = Enigma(rotors=rotors, reflector=reflector)
text = enigma(ciphertext)
if any(w in text for w in words):
print text
def main():
ciphertext = 'QCARJBVMRVJKUKMXXRCO'
words = ('DOUBAN', )
decrypt(ciphertext, words) # DOUBANWANTAWESOMEYOU
if __name__ == '__main__':
main()
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