# Python Caeser Cipher Helper v1.0.2 # Usage (encrypt): python3 caeser-cipher.py encrypt secretmessage # Usage (decrypt): python3 caeser-cipher.py decrypt secretmessage import re # Import Regex tools import string # Import string tools import collections # Import tools to sort letters. from sys import argv # Import tool to process command line arguments. #if action == "help": # If error, print help https://stackoverflow.com/questions/4042452/display-help-message-with-python-argparse-when-script-is-called-without-any-argu #print("\nUsage (encrypt): python3 caeser-cipher.py encrypt secretmessage") #print("Usage (decrypt): python3 caeser-cipher.py decrypt secretmessage\n") script, action, ciphertext = argv # Take command line input. #ciphertext = input("Please type in your cipher text:") # Set variable cipertext to the input from user. shiftNum = input("Please enter the shift you would like to use (Just hit enter if you don't know the shift used):") # Get input #action = input("Please enter encrypt or decrypt):") # Get input ciphertext = re.sub (r'([^a-zA-Z]+?)', '', ciphertext) # Remove all non-letters. ciphertext = ciphertext.lower() # Make it all lowercase. https://www.geeksforgeeks.org/isupper-islower-lower-upper-python-applications/ letters = list(string.ascii_lowercase) # Use a list of lowercase letters. https://stackoverflow.com/questions/43918437/how-to-iterate-through-the-alphabet letterCount = 0 # Set variable for keeping track of which letter in the ciphertext we're on. letterPos = 0 # Set variable for keeping track of the letter's position in the alphabet. answer = "" # The solution. commonletter = 0 def encrypt(): # Grab global variables. global ciphertext global shiftNum global letters global letterCount global letterPos global answer for c in ciphertext: # For every letter in the ciphertext while letterPos < 26: # While the letter's position in the alphabet is less than 26 (and thus valid), continue. if ciphertext[letterCount] == letters[letterPos]: # Match the letter in the ciphertext to a letter in the alphabet and once they match, continue. letter = int(letterPos) + int(shiftNum) # Take the position of the letter and the shift number and add them for the enciphered letter. if letter > 25: # If the enciphered letter's position is not valid because it is too high, fix it by rotating around the alphabet. letter = letter - 26 if letter < 0: letter = letter + 26 # If the enciphered letter's position is not valid because it is too low, fix it by rotating around the alphabet. answer = answer + letters[letter] # Add letters together to get the enciphered text. letterPos = letterPos + 1 # Iterate through letter positions in the alphabet. (neccessary to find one that matches.) if letterPos > 25: # If the letter position is greater than 25, cycle back through the alphabet. letterPos = letterPos - 26 letterCount = letterCount + 1 # Keep track of how many times we're doing this. print("\nYour enciphered text is: " + answer) def decrypt(): # Grab global variables. global ciphertext global shiftNum global letters global letterCount global letterPos global answer global commonletter for c in ciphertext: # For every letter in the ciphertext while letterPos < 26: # While the letter's position in the alphabet is less than 26 (and thus valid), continue. if not commonletter == 0: if commonletter == letters[letterPos]: # If the most frequent letter matches the current letter, set the shift to that letter because that is the shift for the cipher. Forgot the double equals for comparison. shiftNum = letterPos - 4 if ciphertext[letterCount] == letters[letterPos]: # Match the letter in the ciphertext to a letter in the alphabet and once they match, continue. letter = int(letterPos) - int(shiftNum) # Take the position of the letter and the shift number and add them for the enciphered letter. if letter > 25: # If the enciphered letter's position is not valid because it is too high, fix it by rotating around the alphabet. letter = letter - 26 if letter < 0: letter = letter + 26 # If the enciphered letter's position is not valid because it is too low, fix it by rotating around the alphabet. answer = answer + letters[letter] # Add letters together to get the enciphered text. letterPos = letterPos + 1 # Iterate through letter positions in the alphabet. (neccessary to find one that matches.) if letterPos > 25: # If the letter position is greater than 25, cycle back through the alphabet. letterPos = letterPos - 26 letterCount = letterCount + 1 # Keep track of how many times we're doing this. print("\nYour decrypted text is: " + answer) def freq(): # Grab global variables. global ciphertext global commonletter commonletter = collections.Counter(ciphertext).most_common()[0][0] # Find most common letter and thus the shift https://stackoverflow.com/questions/47251934/how-to-count-the-most-frequent-letter-in-a-string decrypt() # Decrypt using the frequency found in here. if action == "encrypt": encrypt() if action == "decrypt": if shiftNum == "": freq() else: decrypt()