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* ci: Add `B023` to `.flake8` ignores * refactor: Return `bool`/raise Exception * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * revert: Remove previous branch commit * Update data_structures/binary_tree/segment_tree_other.py Co-authored-by: Christian Clauss <cclauss@me.com> * feat: Apply `__repr__` changes * chore: Fix failing tests * [pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci * Update data_structures/binary_tree/segment_tree_other.py Co-authored-by: Christian Clauss <cclauss@me.com> * test: Fix doctests * random.choice(population_score[:N_SELECTED])[0] * Update basic_string.py Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> Co-authored-by: Christian Clauss <cclauss@me.com>
185 lines
6.6 KiB
Python
185 lines
6.6 KiB
Python
from __future__ import annotations
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import random
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import string
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class ShuffledShiftCipher:
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"""
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This algorithm uses the Caesar Cipher algorithm but removes the option to
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use brute force to decrypt the message.
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The passcode is a random password from the selection buffer of
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1. uppercase letters of the English alphabet
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2. lowercase letters of the English alphabet
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3. digits from 0 to 9
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Using unique characters from the passcode, the normal list of characters,
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that can be allowed in the plaintext, is pivoted and shuffled. Refer to docstring
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of __make_key_list() to learn more about the shuffling.
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Then, using the passcode, a number is calculated which is used to encrypt the
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plaintext message with the normal shift cipher method, only in this case, the
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reference, to look back at while decrypting, is shuffled.
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Each cipher object can possess an optional argument as passcode, without which a
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new passcode is generated for that object automatically.
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cip1 = ShuffledShiftCipher('d4usr9TWxw9wMD')
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cip2 = ShuffledShiftCipher()
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"""
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def __init__(self, passcode: str | None = None) -> None:
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"""
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Initializes a cipher object with a passcode as it's entity
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Note: No new passcode is generated if user provides a passcode
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while creating the object
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"""
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self.__passcode = passcode or self.__passcode_creator()
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self.__key_list = self.__make_key_list()
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self.__shift_key = self.__make_shift_key()
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def __str__(self) -> str:
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"""
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:return: passcode of the cipher object
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"""
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return "".join(self.__passcode)
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def __neg_pos(self, iterlist: list[int]) -> list[int]:
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"""
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Mutates the list by changing the sign of each alternate element
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:param iterlist: takes a list iterable
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:return: the mutated list
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"""
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for i in range(1, len(iterlist), 2):
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iterlist[i] *= -1
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return iterlist
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def __passcode_creator(self) -> list[str]:
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"""
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Creates a random password from the selection buffer of
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1. uppercase letters of the English alphabet
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2. lowercase letters of the English alphabet
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3. digits from 0 to 9
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:rtype: list
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:return: a password of a random length between 10 to 20
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"""
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choices = string.ascii_letters + string.digits
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password = [random.choice(choices) for _ in range(random.randint(10, 20))]
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return password
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def __make_key_list(self) -> list[str]:
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"""
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Shuffles the ordered character choices by pivoting at breakpoints
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Breakpoints are the set of characters in the passcode
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eg:
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if, ABCDEFGHIJKLMNOPQRSTUVWXYZ are the possible characters
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and CAMERA is the passcode
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then, breakpoints = [A,C,E,M,R] # sorted set of characters from passcode
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shuffled parts: [A,CB,ED,MLKJIHGF,RQPON,ZYXWVUTS]
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shuffled __key_list : ACBEDMLKJIHGFRQPONZYXWVUTS
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Shuffling only 26 letters of the english alphabet can generate 26!
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combinations for the shuffled list. In the program we consider, a set of
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97 characters (including letters, digits, punctuation and whitespaces),
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thereby creating a possibility of 97! combinations (which is a 152 digit number
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in itself), thus diminishing the possibility of a brute force approach.
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Moreover, shift keys even introduce a multiple of 26 for a brute force approach
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for each of the already 97! combinations.
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"""
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# key_list_options contain nearly all printable except few elements from
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# string.whitespace
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key_list_options = (
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string.ascii_letters + string.digits + string.punctuation + " \t\n"
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)
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keys_l = []
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# creates points known as breakpoints to break the key_list_options at those
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# points and pivot each substring
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breakpoints = sorted(set(self.__passcode))
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temp_list: list[str] = []
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# algorithm for creating a new shuffled list, keys_l, out of key_list_options
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for i in key_list_options:
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temp_list.extend(i)
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# checking breakpoints at which to pivot temporary sublist and add it into
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# keys_l
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if i in breakpoints or i == key_list_options[-1]:
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keys_l.extend(temp_list[::-1])
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temp_list.clear()
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# returning a shuffled keys_l to prevent brute force guessing of shift key
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return keys_l
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def __make_shift_key(self) -> int:
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"""
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sum() of the mutated list of ascii values of all characters where the
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mutated list is the one returned by __neg_pos()
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"""
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num = sum(self.__neg_pos([ord(x) for x in self.__passcode]))
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return num if num > 0 else len(self.__passcode)
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def decrypt(self, encoded_message: str) -> str:
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"""
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Performs shifting of the encoded_message w.r.t. the shuffled __key_list
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to create the decoded_message
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>>> ssc = ShuffledShiftCipher('4PYIXyqeQZr44')
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>>> ssc.decrypt("d>**-1z6&'5z'5z:z+-='$'>=zp:>5:#z<'.&>#")
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'Hello, this is a modified Caesar cipher'
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"""
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decoded_message = ""
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# decoding shift like Caesar cipher algorithm implementing negative shift or
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# reverse shift or left shift
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for i in encoded_message:
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position = self.__key_list.index(i)
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decoded_message += self.__key_list[
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(position - self.__shift_key) % -len(self.__key_list)
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]
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return decoded_message
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def encrypt(self, plaintext: str) -> str:
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"""
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Performs shifting of the plaintext w.r.t. the shuffled __key_list
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to create the encoded_message
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>>> ssc = ShuffledShiftCipher('4PYIXyqeQZr44')
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>>> ssc.encrypt('Hello, this is a modified Caesar cipher')
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"d>**-1z6&'5z'5z:z+-='$'>=zp:>5:#z<'.&>#"
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"""
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encoded_message = ""
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# encoding shift like Caesar cipher algorithm implementing positive shift or
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# forward shift or right shift
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for i in plaintext:
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position = self.__key_list.index(i)
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encoded_message += self.__key_list[
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(position + self.__shift_key) % len(self.__key_list)
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]
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return encoded_message
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def test_end_to_end(msg: str = "Hello, this is a modified Caesar cipher") -> str:
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"""
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>>> test_end_to_end()
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'Hello, this is a modified Caesar cipher'
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"""
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cip1 = ShuffledShiftCipher()
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return cip1.decrypt(cip1.encrypt(msg))
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if __name__ == "__main__":
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import doctest
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doctest.testmod()
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