In this chapter, you can learn about simple implementation of substitution cipher which displays the encrypted and decrypted message as per the logic used in simple substitution cipher technique. This can be considered as an alternative approach of coding.
You can use the following code to perform decryption using simple substitution cipher −
import random chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' + \ 'abcdefghijklmnopqrstuvwxyz' + \ '0123456789' + \ ':.;,?!@#$%&()+=-*/_<> []{}`~^"\'\\' def generate_key(): """Generate an key for our cipher""" shuffled = sorted(chars, key=lambda k: random.random()) return dict(zip(chars, shuffled)) def encrypt(key, plaintext): """Encrypt the string and return the ciphertext""" return ''.join(key[l] for l in plaintext) def decrypt(key, ciphertext): """Decrypt the string and return the plaintext""" flipped = {v: k for k, v in key.items()} return ''.join(flipped[l] for l in ciphertext) def show_result(plaintext): """Generate a resulting cipher with elements shown""" key = generate_key() encrypted = encrypt(key, plaintext) decrypted = decrypt(key, encrypted) print 'Key: %s' % key print 'Plaintext: %s' % plaintext print 'Encrypted: %s' % encrypted print 'Decrypted: %s' % decrypted show_result('Hello World. This is demo of substitution cipher')
The above code gives you the output as shown here −