+"""A set of ciphers with implementations for both enciphering and deciphering
+them. See cipherbreak for automatic breaking of these ciphers
+"""
+
import string
import collections
-import math
from enum import Enum
-from itertools import zip_longest, cycle, chain
-from language_models import *
+from language_models import unaccent, sanitise
modular_division_table = [[0]*26 for _ in range(26)]
modular_division_table[b][c] = a
-def every_nth(text, n, fillvalue=''):
- """Returns n strings, each of which consists of every nth character,
- starting with the 0th, 1st, 2nd, ... (n-1)th character
-
- >>> every_nth(string.ascii_lowercase, 5)
- ['afkpuz', 'bglqv', 'chmrw', 'dinsx', 'ejoty']
- >>> every_nth(string.ascii_lowercase, 1)
- ['abcdefghijklmnopqrstuvwxyz']
- >>> every_nth(string.ascii_lowercase, 26) # doctest: +NORMALIZE_WHITESPACE
- ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n',
- 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z']
- >>> every_nth(string.ascii_lowercase, 5, fillvalue='!')
- ['afkpuz', 'bglqv!', 'chmrw!', 'dinsx!', 'ejoty!']
- """
- split_text = chunks(text, n, fillvalue)
- return [''.join(l) for l in zip_longest(*split_text, fillvalue=fillvalue)]
-
-def combine_every_nth(split_text):
- """Reforms a text split into every_nth strings
-
- >>> combine_every_nth(every_nth(string.ascii_lowercase, 5))
- 'abcdefghijklmnopqrstuvwxyz'
- >>> combine_every_nth(every_nth(string.ascii_lowercase, 1))
- 'abcdefghijklmnopqrstuvwxyz'
- >>> combine_every_nth(every_nth(string.ascii_lowercase, 26))
- 'abcdefghijklmnopqrstuvwxyz'
- """
- return ''.join([''.join(l)
- for l in zip_longest(*split_text, fillvalue='')])
-
-def chunks(text, n, fillvalue=None):
- """Split a text into chunks of n characters
-
- >>> chunks('abcdefghi', 3)
- ['abc', 'def', 'ghi']
- >>> chunks('abcdefghi', 4)
- ['abcd', 'efgh', 'i']
- >>> chunks('abcdefghi', 4, fillvalue='!')
- ['abcd', 'efgh', 'i!!!']
- """
- if fillvalue:
- padding = fillvalue[0] * (n - len(text) % n)
- else:
- padding = ''
- return [(text+padding)[i:i+n] for i in range(0, len(text), n)]
-
-def transpose(items, transposition):
- """Moves items around according to the given transposition
-
- >>> transpose(['a', 'b', 'c', 'd'], (0,1,2,3))
- ['a', 'b', 'c', 'd']
- >>> transpose(['a', 'b', 'c', 'd'], (3,1,2,0))
- ['d', 'b', 'c', 'a']
- >>> transpose([10,11,12,13,14,15], (3,2,4,1,5,0))
- [13, 12, 14, 11, 15, 10]
- """
- transposed = [''] * len(transposition)
- for p, t in enumerate(transposition):
- transposed[p] = items[t]
- return transposed
-
-def untranspose(items, transposition):
- """Undoes a transpose
-
- >>> untranspose(['a', 'b', 'c', 'd'], [0,1,2,3])
- ['a', 'b', 'c', 'd']
- >>> untranspose(['d', 'b', 'c', 'a'], [3,1,2,0])
- ['a', 'b', 'c', 'd']
- >>> untranspose([13, 12, 14, 11, 15, 10], [3,2,4,1,5,0])
- [10, 11, 12, 13, 14, 15]
- """
- transposed = [''] * len(transposition)
- for p, t in enumerate(transposition):
- transposed[t] = items[p]
- return transposed
-
def deduplicate(text):
+ """If a string contains duplicate letters, remove all but the first. Retain
+ the order of the letters.
+
+ >>> deduplicate('cat')
+ ['c', 'a', 't']
+ >>> deduplicate('happy')
+ ['h', 'a', 'p', 'y']
+ >>> deduplicate('cattca')
+ ['c', 'a', 't']
+ """
return list(collections.OrderedDict.fromkeys(text))
alphabet_start = ord('A')
else:
alphabet_start = ord('a')
- return chr(((ord(letter) - alphabet_start + shift) % 26) +
+ return chr(((ord(letter) - alphabet_start + shift) % 26) +
alphabet_start)
else:
return letter
def caesar_decipher_letter(letter, shift):
"""Decipher a letter, given a shift amount
-
+
>>> caesar_decipher_letter('b', 1)
'a'
>>> caesar_decipher_letter('b', 2)
def caesar_encipher(message, shift):
"""Encipher a message with the Caesar cipher of given shift
-
+
>>> caesar_encipher('abc', 1)
'bcd'
>>> caesar_encipher('abc', 2)
def caesar_decipher(message, shift):
"""Decipher a message with the Caesar cipher of given shift
-
+
>>> caesar_decipher('bcd', 1)
'abc'
>>> caesar_decipher('cde', 2)
"""
return caesar_encipher(message, -shift)
-def affine_encipher_letter(accented_letter, multiplier=1, adder=0, one_based=True):
+def affine_encipher_letter(accented_letter, multiplier=1, adder=0,
+ one_based=True):
"""Encipher a letter, given a multiplier and adder
-
>>> ''.join([affine_encipher_letter(l, 3, 5, True) \
for l in string.ascii_uppercase])
'HKNQTWZCFILORUXADGJMPSVYBE'
def affine_decipher_letter(letter, multiplier=1, adder=0, one_based=True):
"""Encipher a letter, given a multiplier and adder
-
+
>>> ''.join([affine_decipher_letter(l, 3, 5, True) \
for l in 'HKNQTWZCFILORUXADGJMPSVYBE'])
'ABCDEFGHIJKLMNOPQRSTUVWXYZ'
alphabet_start = ord('a')
cipher_number = ord(letter) - alphabet_start
if one_based: cipher_number += 1
- plaintext_number = (
+ plaintext_number = (
modular_division_table[multiplier]
- [(cipher_number - adder) % 26] )
+ [(cipher_number - adder) % 26]
+ )
if one_based: plaintext_number -= 1
- return chr(plaintext_number % 26 + alphabet_start)
+ return chr(plaintext_number % 26 + alphabet_start)
else:
return letter
def affine_encipher(message, multiplier=1, adder=0, one_based=True):
"""Encipher a message
-
+
>>> affine_encipher('hours passed during which jerico tried every ' \
'trick he could think of', 15, 22, True)
'lmyfu bkuusd dyfaxw claol psfaom jfasd snsfg jfaoe ls omytd jlaxe mh'
"""
- enciphered = [affine_encipher_letter(l, multiplier, adder, one_based)
+ enciphered = [affine_encipher_letter(l, multiplier, adder, one_based)
for l in message]
return ''.join(enciphered)
def affine_decipher(message, multiplier=1, adder=0, one_based=True):
"""Decipher a message
-
+
>>> affine_decipher('lmyfu bkuusd dyfaxw claol psfaom jfasd snsfg ' \
'jfaoe ls omytd jlaxe mh', 15, 22, True)
'hours passed during which jerico tried every trick he could think of'
"""
- enciphered = [affine_decipher_letter(l, multiplier, adder, one_based)
+ enciphered = [affine_decipher_letter(l, multiplier, adder, one_based)
for l in message]
return ''.join(enciphered)
-class Keyword_wrap_alphabet(Enum):
+class KeywordWrapAlphabet(Enum):
+ """Ways of wrapping the alphabet for keyword-based substitution ciphers."""
from_a = 1
from_last = 2
from_largest = 3
-def keyword_cipher_alphabet_of(keyword, wrap_alphabet=Keyword_wrap_alphabet.from_a):
+def keyword_cipher_alphabet_of(keyword,
+ wrap_alphabet=KeywordWrapAlphabet.from_a):
"""Find the cipher alphabet given a keyword.
wrap_alphabet controls how the rest of the alphabet is added
after the keyword.
>>> keyword_cipher_alphabet_of('bayes')
'bayescdfghijklmnopqrtuvwxz'
- >>> keyword_cipher_alphabet_of('bayes', Keyword_wrap_alphabet.from_a)
+ >>> keyword_cipher_alphabet_of('bayes', KeywordWrapAlphabet.from_a)
'bayescdfghijklmnopqrtuvwxz'
- >>> keyword_cipher_alphabet_of('bayes', Keyword_wrap_alphabet.from_last)
+ >>> keyword_cipher_alphabet_of('bayes', KeywordWrapAlphabet.from_last)
'bayestuvwxzcdfghijklmnopqr'
- >>> keyword_cipher_alphabet_of('bayes', Keyword_wrap_alphabet.from_largest)
+ >>> keyword_cipher_alphabet_of('bayes', KeywordWrapAlphabet.from_largest)
'bayeszcdfghijklmnopqrtuvwx'
"""
- if wrap_alphabet == Keyword_wrap_alphabet.from_a:
- cipher_alphabet = ''.join(deduplicate(sanitise(keyword) +
+ if wrap_alphabet == KeywordWrapAlphabet.from_a:
+ cipher_alphabet = ''.join(deduplicate(sanitise(keyword) +
string.ascii_lowercase))
else:
- if wrap_alphabet == Keyword_wrap_alphabet.from_last:
+ if wrap_alphabet == KeywordWrapAlphabet.from_last:
last_keyword_letter = deduplicate(sanitise(keyword))[-1]
else:
last_keyword_letter = sorted(sanitise(keyword))[-1]
last_keyword_position = string.ascii_lowercase.find(
last_keyword_letter) + 1
cipher_alphabet = ''.join(
- deduplicate(sanitise(keyword) +
- string.ascii_lowercase[last_keyword_position:] +
+ deduplicate(sanitise(keyword) +
+ string.ascii_lowercase[last_keyword_position:] +
string.ascii_lowercase))
return cipher_alphabet
-def keyword_encipher(message, keyword, wrap_alphabet=Keyword_wrap_alphabet.from_a):
+def keyword_encipher(message, keyword,
+ wrap_alphabet=KeywordWrapAlphabet.from_a):
"""Enciphers a message with a keyword substitution cipher.
wrap_alphabet controls how the rest of the alphabet is added
after the keyword.
>>> keyword_encipher('test message', 'bayes')
'rsqr ksqqbds'
- >>> keyword_encipher('test message', 'bayes', Keyword_wrap_alphabet.from_a)
+ >>> keyword_encipher('test message', 'bayes', KeywordWrapAlphabet.from_a)
'rsqr ksqqbds'
- >>> keyword_encipher('test message', 'bayes', Keyword_wrap_alphabet.from_last)
+ >>> keyword_encipher('test message', 'bayes', KeywordWrapAlphabet.from_last)
'lskl dskkbus'
- >>> keyword_encipher('test message', 'bayes', Keyword_wrap_alphabet.from_largest)
+ >>> keyword_encipher('test message', 'bayes', KeywordWrapAlphabet.from_largest)
'qspq jsppbcs'
"""
cipher_alphabet = keyword_cipher_alphabet_of(keyword, wrap_alphabet)
cipher_translation = ''.maketrans(string.ascii_lowercase, cipher_alphabet)
return unaccent(message).lower().translate(cipher_translation)
-def keyword_decipher(message, keyword, wrap_alphabet=Keyword_wrap_alphabet.from_a):
+def keyword_decipher(message, keyword,
+ wrap_alphabet=KeywordWrapAlphabet.from_a):
"""Deciphers a message with a keyword substitution cipher.
wrap_alphabet controls how the rest of the alphabet is added
after the keyword.
0 : from 'a'
1 : from the last letter in the sanitised keyword
2 : from the largest letter in the sanitised keyword
-
+
>>> keyword_decipher('rsqr ksqqbds', 'bayes')
'test message'
- >>> keyword_decipher('rsqr ksqqbds', 'bayes', Keyword_wrap_alphabet.from_a)
+ >>> keyword_decipher('rsqr ksqqbds', 'bayes', KeywordWrapAlphabet.from_a)
'test message'
- >>> keyword_decipher('lskl dskkbus', 'bayes', Keyword_wrap_alphabet.from_last)
+ >>> keyword_decipher('lskl dskkbus', 'bayes', KeywordWrapAlphabet.from_last)
'test message'
- >>> keyword_decipher('qspq jsppbcs', 'bayes', Keyword_wrap_alphabet.from_largest)
+ >>> keyword_decipher('qspq jsppbcs', 'bayes', KeywordWrapAlphabet.from_largest)
'test message'
"""
cipher_alphabet = keyword_cipher_alphabet_of(keyword, wrap_alphabet)
cipher_translation = ''.maketrans(cipher_alphabet, string.ascii_lowercase)
return message.lower().translate(cipher_translation)
-
-def vigenere_encipher(message, keyword):
- """Vigenere encipher
-
- >>> vigenere_encipher('hello', 'abc')
- 'hfnlp'
- """
- shifts = [ord(l) - ord('a') for l in sanitise(keyword)]
- pairs = zip(message, cycle(shifts))
- return ''.join([caesar_encipher_letter(l, k) for l, k in pairs])
-
-def vigenere_decipher(message, keyword):
- """Vigenere decipher
-
- >>> vigenere_decipher('hfnlp', 'abc')
- 'hello'
- """
- shifts = [ord(l) - ord('a') for l in sanitise(keyword)]
- pairs = zip(message, cycle(shifts))
- return ''.join([caesar_decipher_letter(l, k) for l, k in pairs])
-
-beaufort_encipher=vigenere_decipher
-beaufort_decipher=vigenere_encipher
-
-
-def transpositions_of(keyword):
- """Finds the transpostions given by a keyword. For instance, the keyword
- 'clever' rearranges to 'celrv', so the first column (0) stays first, the
- second column (1) moves to third, the third column (2) moves to second,
- and so on.
-
- If passed a tuple, assume it's already a transposition and just return it.
-
- >>> transpositions_of('clever')
- (0, 2, 1, 4, 3)
- >>> transpositions_of('fred')
- (3, 2, 0, 1)
- >>> transpositions_of((3, 2, 0, 1))
- (3, 2, 0, 1)
- """
- if isinstance(keyword, tuple):
- return keyword
- else:
- key = deduplicate(keyword)
- transpositions = tuple(key.index(l) for l in sorted(key))
- return transpositions
-
-def pad(message_len, group_len, fillvalue):
- padding_length = group_len - message_len % group_len
- if padding_length == group_len: padding_length = 0
- padding = ''
- for i in range(padding_length):
- if callable(fillvalue):
- padding += fillvalue()
- else:
- padding += fillvalue
- return padding
-
-def column_transposition_encipher(message, keyword, fillvalue=' ',
- fillcolumnwise=False,
- emptycolumnwise=False):
- """Enciphers using the column transposition cipher.
- Message is padded to allow all rows to be the same length.
-
- >>> column_transposition_encipher('hellothere', 'abcdef', fillcolumnwise=True)
- 'hlohr eltee '
- >>> column_transposition_encipher('hellothere', 'abcdef', fillcolumnwise=True, emptycolumnwise=True)
- 'hellothere '
- >>> column_transposition_encipher('hellothere', 'abcdef')
- 'hellothere '
- >>> column_transposition_encipher('hellothere', 'abcde')
- 'hellothere'
- >>> column_transposition_encipher('hellothere', 'abcde', fillcolumnwise=True, emptycolumnwise=True)
- 'hellothere'
- >>> column_transposition_encipher('hellothere', 'abcde', fillcolumnwise=True, emptycolumnwise=False)
- 'hlohreltee'
- >>> column_transposition_encipher('hellothere', 'abcde', fillcolumnwise=False, emptycolumnwise=True)
- 'htehlelroe'
- >>> column_transposition_encipher('hellothere', 'abcde', fillcolumnwise=False, emptycolumnwise=False)
- 'hellothere'
- >>> column_transposition_encipher('hellothere', 'clever', fillcolumnwise=True, emptycolumnwise=True)
- 'heotllrehe'
- >>> column_transposition_encipher('hellothere', 'clever', fillcolumnwise=True, emptycolumnwise=False)
- 'holrhetlee'
- >>> column_transposition_encipher('hellothere', 'clever', fillcolumnwise=False, emptycolumnwise=True)
- 'htleehoelr'
- >>> column_transposition_encipher('hellothere', 'clever', fillcolumnwise=False, emptycolumnwise=False)
- 'hleolteher'
- >>> column_transposition_encipher('hellothere', 'cleverly')
- 'hleolthre e '
- >>> column_transposition_encipher('hellothere', 'cleverly', fillvalue='!')
- 'hleolthre!e!'
- >>> column_transposition_encipher('hellothere', 'cleverly', fillvalue=lambda: '*')
- 'hleolthre*e*'
- """
- transpositions = transpositions_of(keyword)
- message += pad(len(message), len(transpositions), fillvalue)
- if fillcolumnwise:
- rows = every_nth(message, len(message) // len(transpositions))
- else:
- rows = chunks(message, len(transpositions))
- transposed = [transpose(r, transpositions) for r in rows]
- if emptycolumnwise:
- return combine_every_nth(transposed)
- else:
- return ''.join(chain(*transposed))
-
-def column_transposition_decipher(message, keyword, fillvalue=' ',
- fillcolumnwise=False,
- emptycolumnwise=False):
- """Deciphers using the column transposition cipher.
- Message is padded to allow all rows to be the same length.
-
- >>> column_transposition_decipher('hellothere', 'abcde', fillcolumnwise=True, emptycolumnwise=True)
- 'hellothere'
- >>> column_transposition_decipher('hlohreltee', 'abcde', fillcolumnwise=True, emptycolumnwise=False)
- 'hellothere'
- >>> column_transposition_decipher('htehlelroe', 'abcde', fillcolumnwise=False, emptycolumnwise=True)
- 'hellothere'
- >>> column_transposition_decipher('hellothere', 'abcde', fillcolumnwise=False, emptycolumnwise=False)
- 'hellothere'
- >>> column_transposition_decipher('heotllrehe', 'clever', fillcolumnwise=True, emptycolumnwise=True)
- 'hellothere'
- >>> column_transposition_decipher('holrhetlee', 'clever', fillcolumnwise=True, emptycolumnwise=False)
- 'hellothere'
- >>> column_transposition_decipher('htleehoelr', 'clever', fillcolumnwise=False, emptycolumnwise=True)
- 'hellothere'
- >>> column_transposition_decipher('hleolteher', 'clever', fillcolumnwise=False, emptycolumnwise=False)
- 'hellothere'
- """
- transpositions = transpositions_of(keyword)
- message += pad(len(message), len(transpositions), '*')
- if emptycolumnwise:
- rows = every_nth(message, len(message) // len(transpositions))
- else:
- rows = chunks(message, len(transpositions))
- untransposed = [untranspose(r, transpositions) for r in rows]
- if fillcolumnwise:
- return combine_every_nth(untransposed)
- else:
- return ''.join(chain(*untransposed))
-
-def scytale_encipher(message, rows, fillvalue=' '):
- """Enciphers using the scytale transposition cipher.
- Message is padded with spaces to allow all rows to be the same length.
-
- >>> scytale_encipher('thequickbrownfox', 3)
- 'tcnhkfeboqrxuo iw '
- >>> scytale_encipher('thequickbrownfox', 4)
- 'tubnhirfecooqkwx'
- >>> scytale_encipher('thequickbrownfox', 5)
- 'tubn hirf ecoo qkwx '
- >>> scytale_encipher('thequickbrownfox', 6)
- 'tqcrnxhukof eibwo '
- >>> scytale_encipher('thequickbrownfox', 7)
- 'tqcrnx hukof eibwo '
- """
- # transpositions = [i for i in range(math.ceil(len(message) / rows))]
- # return column_transposition_encipher(message, transpositions,
- # fillvalue=fillvalue, fillcolumnwise=False, emptycolumnwise=True)
- transpositions = [i for i in range(rows)]
- return column_transposition_encipher(message, transpositions,
- fillvalue=fillvalue, fillcolumnwise=True, emptycolumnwise=False)
-
-def scytale_decipher(message, rows):
- """Deciphers using the scytale transposition cipher.
- Assumes the message is padded so that all rows are the same length.
-
- >>> scytale_decipher('tcnhkfeboqrxuo iw ', 3)
- 'thequickbrownfox '
- >>> scytale_decipher('tubnhirfecooqkwx', 4)
- 'thequickbrownfox'
- >>> scytale_decipher('tubn hirf ecoo qkwx ', 5)
- 'thequickbrownfox '
- >>> scytale_decipher('tqcrnxhukof eibwo ', 6)
- 'thequickbrownfox '
- >>> scytale_decipher('tqcrnx hukof eibwo ', 7)
- 'thequickbrownfox '
- """
- # transpositions = [i for i in range(math.ceil(len(message) / rows))]
- # return column_transposition_decipher(message, transpositions,
- # fillcolumnwise=False, emptycolumnwise=True)
- transpositions = [i for i in range(rows)]
- return column_transposition_decipher(message, transpositions,
- fillcolumnwise=True, emptycolumnwise=False)
-
-
-class PocketEnigma(object):
- """A pocket enigma machine
- The wheel is internally represented as a 26-element list self.wheel_map,
- where wheel_map[i] == j shows that the position i places on from the arrow
- maps to the position j places on.
- """
- def __init__(self, wheel=1, position='a'):
- """initialise the pocket enigma, including which wheel to use and the
- starting position of the wheel.
-
- The wheel is either 1 or 2 (the predefined wheels) or a list of letter
- pairs.
-
- The position is the letter pointed to by the arrow on the wheel.
-
- >>> pe.wheel_map
- [25, 4, 23, 10, 1, 7, 9, 5, 12, 6, 3, 17, 8, 14, 13, 21, 19, 11, 20, 16, 18, 15, 24, 2, 22, 0]
- >>> pe.position
- 0
- """
- self.wheel1 = [('a', 'z'), ('b', 'e'), ('c', 'x'), ('d', 'k'),
- ('f', 'h'), ('g', 'j'), ('i', 'm'), ('l', 'r'), ('n', 'o'),
- ('p', 'v'), ('q', 't'), ('s', 'u'), ('w', 'y')]
- self.wheel2 = [('a', 'c'), ('b', 'd'), ('e', 'w'), ('f', 'i'),
- ('g', 'p'), ('h', 'm'), ('j', 'k'), ('l', 'n'), ('o', 'q'),
- ('r', 'z'), ('s', 'u'), ('t', 'v'), ('x', 'y')]
- if wheel == 1:
- self.make_wheel_map(self.wheel1)
- elif wheel == 2:
- self.make_wheel_map(self.wheel2)
- else:
- self.validate_wheel_spec(wheel)
- self.make_wheel_map(wheel)
- self.position = ord(position) - ord('a')
-
- def make_wheel_map(self, wheel_spec):
- """Expands a wheel specification from a list of letter-letter pairs
- into a full wheel_map.
-
- >>> pe.make_wheel_map(pe.wheel2)
- [2, 3, 0, 1, 22, 8, 15, 12, 5, 10, 9, 13, 7, 11, 16, 6, 14, 25, 20, 21, 18, 19, 4, 24, 23, 17]
- """
- self.validate_wheel_spec(wheel_spec)
- self.wheel_map = [0] * 26
- for p in wheel_spec:
- self.wheel_map[ord(p[0]) - ord('a')] = ord(p[1]) - ord('a')
- self.wheel_map[ord(p[1]) - ord('a')] = ord(p[0]) - ord('a')
- return self.wheel_map
-
- def validate_wheel_spec(self, wheel_spec):
- """Validates that a wheel specificaiton will turn into a valid wheel
- map.
-
- >>> pe.validate_wheel_spec([])
- Traceback (most recent call last):
- ...
- ValueError: Wheel specification has 0 pairs, require 13
- >>> pe.validate_wheel_spec([('a', 'b', 'c')]*13)
- Traceback (most recent call last):
- ...
- ValueError: Not all mappings in wheel specificationhave two elements
- >>> pe.validate_wheel_spec([('a', 'b')]*13)
- Traceback (most recent call last):
- ...
- ValueError: Wheel specification does not contain 26 letters
- """
- if len(wheel_spec) != 13:
- raise ValueError("Wheel specification has {} pairs, require 13".
- format(len(wheel_spec)))
- for p in wheel_spec:
- if len(p) != 2:
- raise ValueError("Not all mappings in wheel specification"
- "have two elements")
- if len(set([p[0] for p in wheel_spec] +
- [p[1] for p in wheel_spec])) != 26:
- raise ValueError("Wheel specification does not contain 26 letters")
-
- def encipher_letter(self, letter):
- """Enciphers a single letter, by advancing the wheel before looking up
- the letter on the wheel.
-
- >>> pe.set_position('f')
- 5
- >>> pe.encipher_letter('k')
- 'h'
- """
- self.advance()
- return self.lookup(letter)
- decipher_letter = encipher_letter
-
- def lookup(self, letter):
- """Look up what a letter enciphers to, without turning the wheel.
-
- >>> pe.set_position('f')
- 5
- >>> ''.join([pe.lookup(l) for l in string.ascii_lowercase])
- 'udhbfejcpgmokrliwntsayqzvx'
- """
- return chr((self.wheel_map[(ord(letter) - ord('a') - self.position) % 26] + self.position) % 26 + ord('a'))
-
- def advance(self):
- """Advances the wheel one position.
-
- >>> pe.set_position('f')
- 5
- >>> pe.advance()
- 6
- """
- self.position = (self.position + 1) % 26
- return self.position
-
- def encipher(self, message):
- """Enciphers a whole message.
-
- >>> pe.set_position('f')
- 5
- >>> pe.encipher('helloworld')
- 'kjsglcjoqc'
- >>> pe.set_position('f')
- 5
- >>> pe.encipher('kjsglcjoqc')
- 'helloworld'
- """
- transformed = ''
- for l in message:
- transformed += self.encipher_letter(l)
- return transformed
- decipher = encipher
-
- def set_position(self, position):
- """Sets the position of the wheel, by specifying the letter the arrow
- points to.
-
- >>> pe.set_position('a')
- 0
- >>> pe.set_position('m')
- 12
- >>> pe.set_position('z')
- 25
- """
- self.position = ord(position) - ord('a')
- return self.position
-
-
if __name__ == "__main__":
import doctest
- doctest.testmod(extraglobs={'pe': PocketEnigma(1, 'a')})
+ doctest.testmod()