Caesar Cipher

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from __future__ import annotations

from string import ascii_letters


def encrypt(input_string: str, key: int, alphabet: str | None = None) -> str:
    """
    encrypt
    =======
    Encodes a given string with the caesar cipher and returns the encoded
    message

    Parameters:
    -----------
    *   input_string: the plain-text that needs to be encoded
    *   key: the number of letters to shift the message by

    Optional:
    *   alphabet (None): the alphabet used to encode the cipher, if not
        specified, the standard english alphabet with upper and lowercase
        letters is used

    Returns:
    *   A string containing the encoded cipher-text

    More on the caesar cipher
    =========================
    The caesar cipher is named after Julius Caesar who used it when sending
    secret military messages to his troops. This is a simple substitution cipher
    where every character in the plain-text is shifted by a certain number known
    as the "key" or "shift".

    Example:
    Say we have the following message:
    "Hello, captain"

    And our alphabet is made up of lower and uppercase letters:
    "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"

    And our shift is "2"

    We can then encode the message, one letter at a time. "H" would become "J",
    since "J" is two letters away, and so on. If the shift is ever two large, or
    our letter is at the end of the alphabet, we just start at the beginning
    ("Z" would shift to "a" then "b" and so on).

    Our final message would be "Jgnnq, ecrvckp"

    Further reading
    ===============
    *   https://en.m.wikipedia.org/wiki/Caesar_cipher

    Doctests
    ========
    >>> encrypt('The quick brown fox jumps over the lazy dog', 8)
    'bpm yCqks jzwEv nwF rCuxA wDmz Bpm tiHG lwo'

    >>> encrypt('A very large key', 8000)
    's nWjq dSjYW cWq'

    >>> encrypt('a lowercase alphabet', 5, 'abcdefghijklmnopqrstuvwxyz')
    'f qtbjwhfxj fqumfgjy'
    """
    # Set default alphabet to lower and upper case english chars
    alpha = alphabet or ascii_letters

    # The final result string
    result = ""

    for character in input_string:
        if character not in alpha:
            # Append without encryption if character is not in the alphabet
            result += character
        else:
            # Get the index of the new key and make sure it isn't too large
            new_key = (alpha.index(character) + key) % len(alpha)

            # Append the encoded character to the alphabet
            result += alpha[new_key]

    return result


def decrypt(input_string: str, key: int, alphabet: str | None = None) -> str:
    """
    decrypt
    =======
    Decodes a given string of cipher-text and returns the decoded plain-text

    Parameters:
    -----------
    *   input_string: the cipher-text that needs to be decoded
    *   key: the number of letters to shift the message backwards by to decode

    Optional:
    *   alphabet (None): the alphabet used to decode the cipher, if not
        specified, the standard english alphabet with upper and lowercase
        letters is used

    Returns:
    *   A string containing the decoded plain-text

    More on the caesar cipher
    =========================
    The caesar cipher is named after Julius Caesar who used it when sending
    secret military messages to his troops. This is a simple substitution cipher
    where very character in the plain-text is shifted by a certain number known
    as the "key" or "shift". Please keep in mind, here we will be focused on
    decryption.

    Example:
    Say we have the following cipher-text:
    "Jgnnq, ecrvckp"

    And our alphabet is made up of lower and uppercase letters:
    "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"

    And our shift is "2"

    To decode the message, we would do the same thing as encoding, but in
    reverse. The first letter, "J" would become "H" (remember: we are decoding)
    because "H" is two letters in reverse (to the left) of "J". We would
    continue doing this. A letter like "a" would shift back to the end of
    the alphabet, and would become "Z" or "Y" and so on.

    Our final message would be "Hello, captain"

    Further reading
    ===============
    *   https://en.m.wikipedia.org/wiki/Caesar_cipher

    Doctests
    ========
    >>> decrypt('bpm yCqks jzwEv nwF rCuxA wDmz Bpm tiHG lwo', 8)
    'The quick brown fox jumps over the lazy dog'

    >>> decrypt('s nWjq dSjYW cWq', 8000)
    'A very large key'

    >>> decrypt('f qtbjwhfxj fqumfgjy', 5, 'abcdefghijklmnopqrstuvwxyz')
    'a lowercase alphabet'
    """
    # Turn on decode mode by making the key negative
    key *= -1

    return encrypt(input_string, key, alphabet)


def brute_force(input_string: str, alphabet: str | None = None) -> dict[int, str]:
    """
    brute_force
    ===========
    Returns all the possible combinations of keys and the decoded strings in the
    form of a dictionary

    Parameters:
    -----------
    *   input_string: the cipher-text that needs to be used during brute-force

    Optional:
    *   alphabet:  (None): the alphabet used to decode the cipher, if not
        specified, the standard english alphabet with upper and lowercase
        letters is used

    More about brute force
    ======================
    Brute force is when a person intercepts a message or password, not knowing
    the key and tries every single combination. This is easy with the caesar
    cipher since there are only all the letters in the alphabet. The more
    complex the cipher, the larger amount of time it will take to do brute force

    Ex:
    Say we have a 5 letter alphabet (abcde), for simplicity and we intercepted the
    following message:

    "dbc"

    we could then just write out every combination:
    ecd... and so on, until we reach a combination that makes sense:
    "cab"

    Further reading
    ===============
    *   https://en.wikipedia.org/wiki/Brute_force

    Doctests
    ========
    >>> brute_force("jFyuMy xIH'N vLONy zILwy Gy!")[20]
    "Please don't brute force me!"

    >>> brute_force(1)
    Traceback (most recent call last):
    TypeError: 'int' object is not iterable
    """
    # Set default alphabet to lower and upper case english chars
    alpha = alphabet or ascii_letters

    # To store data on all the combinations
    brute_force_data = {}

    # Cycle through each combination
    for key in range(1, len(alpha) + 1):
        # Decrypt the message and store the result in the data
        brute_force_data[key] = decrypt(input_string, key, alpha)

    return brute_force_data


if __name__ == "__main__":
    while True:
        print(f'\n{"-" * 10}\n Menu\n{"-" * 10}')
        print(*["1.Encrypt", "2.Decrypt", "3.BruteForce", "4.Quit"], sep="\n")

        # get user input
        choice = input("\nWhat would you like to do?: ").strip() or "4"

        # run functions based on what the user chose
        if choice not in ("1", "2", "3", "4"):
            print("Invalid choice, please enter a valid choice")
        elif choice == "1":
            input_string = input("Please enter the string to be encrypted: ")
            key = int(input("Please enter off-set: ").strip())

            print(encrypt(input_string, key))
        elif choice == "2":
            input_string = input("Please enter the string to be decrypted: ")
            key = int(input("Please enter off-set: ").strip())

            print(decrypt(input_string, key))
        elif choice == "3":
            input_string = input("Please enter the string to be decrypted: ")
            brute_force_data = brute_force(input_string)

            for key, value in brute_force_data.items():
                print(f"Key: {key} | Message: {value}")

        elif choice == "4":
            print("Goodbye.")
            break
Об этом алгоритме

The Caesar cipher is a simple cipher and one of the best known encryption algorithms. It is very simple to encrypt, decrypt and intercept. The Caesar cipher is a substitution cipher where each letter in the plain-text (decoded text) is replaced by a letter a certain number of spaces to the right of the letter in the alphabet. (The amount of spaces is called the key or shift and is only known by the sender and intended receiver).

Disclaimer: Do not attempt to encrypt personal data or serious messages with this cipher!!! It takes only half a second to crack by a computer!

  1. It takes a very small amount of time to encode and decode messages. (Less than a second, usually)
  2. No real applications exist for the cipher as it is the most insecure out there.
  3. This cipher was invented by Julius Caesar as a way to send messages of high military significance.

Steps

Encryption

  1. Choose the alphabet you are going to use.
  2. Choose a secret key (shift) that you are going to use in this case n.
  3. For every letter in the plain-text, replace it by a letter of the alphabet that is n letters away from the letter. (Ex: for a key of 1, a would become b, z would become a, etc.)
  4. The message should now be encoded.

Decryption

  1. Choose the alphabet that the message was encrypted with.
  2. Let n be the secret key the message is encoded in.
  3. For every letter in the cipher-text, replace it by a letter of the alphabet that is n letters behind in the alphabet from the letter.

c would be b, a would be z with a key of 1. 4. The message should now be decoded

Example

An example of encryption

Let us say we are sending a secret message to a friend.

  • We first write out our message. In this case: The Caesar cipher is a fun substitution cipher
  • Our alphabet will be: abcdefghijklmnopqrstuvwxyz. For the uses of this tutorial, case doesn't matter. (On a shift of 1: A will become B, a will become b)
  • Let our key be 6.
  • Starting with the first letter: T. The letter 6 letters away is Z. We add Z to the message.
  • The second letter is h. The letter 6 letters away is n. Our message is now Zn
  • We continue like that until the end. Our final message is: Znk Igkygx iovnkx oy g lat yahyzozazout iovnkx.
  • Decryption is the same way, except instead of going to the right in the alphabet, we go backwards.