HOP/HOP 1.0 - encode.py

56 lines
1.9 KiB
Python

import base64
plaintext = input("Enter message to encode: ")
def b36_encode(i):
if i < 0: return "-" + b36_encode(-i)
if i < 36: return "0123456789abcdefghijklmnopqrstuvwxyz"[i]
return b36_encode(i // 36) + b36_encode(i % 36)
def stepone(plaintext):
magicasciipowers = list(plaintext)
numbersgohere = [""]*len(magicasciipowers)
for i in range(len(magicasciipowers)):
temp = magicasciipowers[i]
temp = ord(temp)
if (temp<100):
numbersgohere[i]="0"+str(temp)
else:
numbersgohere[i]=str(temp)
numbers = ""
for i in range(len(numbersgohere)):
numbers=numbers+numbersgohere[i]
return(int(numbers))
def vigenere_enc(stepone,key):
alphabet = "abcdefghijklmnopqrstuvwxyz0123456789"
input_string = ""
enc_key = ""
enc_string = ""
enc_key = key
enc_key = enc_key.lower()
input_string = stepone
input_string = input_string.lower()
string_length = len(input_string)
expanded_key = enc_key
expanded_key_length = len(expanded_key)
while expanded_key_length < string_length:
expanded_key = expanded_key + enc_key
expanded_key_length = len(expanded_key)
key_position = 0
for letter in input_string:
if letter in alphabet:
position = alphabet.find(letter)
key_character = expanded_key[key_position]
key_character_position = alphabet.find(key_character)
key_position = key_position + 1
new_position = position + key_character_position
if new_position > 35:
new_position = new_position - 36
new_character = alphabet[new_position]
enc_string = enc_string + new_character
else:
enc_string = enc_string + letter
return(enc_string)
key=input("Enter encryption key: ")
steptwo = vigenere_enc(b36_encode(stepone(plaintext)),key)
steptwob = steptwo.encode('utf-8')
stepthree = base64.a85encode(steptwob)
stepthreeb = stepthree.decode('utf-8')
print("Your encoded message: "+str(stepthreeb)+"3")