package Ciphers; class AffineCipher { // Key values of a and b static int a = 17; static int b = 20; static String encryptMessage(char[] msg) { /// Cipher Text initially empty String cipher = ""; for (int i = 0; i < msg.length; i++) { // Avoid space to be encrypted /* applying encryption formula ( a x + b ) mod m {here x is msg[i] and m is 26} and added 'A' to bring it in range of ascii alphabet[ 65-90 | A-Z ] */ if (msg[i] != ' ') { cipher = cipher + (char) ((((a * (msg[i] - 'A')) + b) % 26) + 'A'); } else // else simply append space character { cipher += msg[i]; } } return cipher; } static String decryptCipher(String cipher) { String msg = ""; int a_inv = 0; int flag = 0; //Find a^-1 (the multiplicative inverse of a //in the group of integers modulo m.) for (int i = 0; i < 26; i++) { flag = (a * i) % 26; // Check if (a*i)%26 == 1, // then i will be the multiplicative inverse of a if (flag == 1) { a_inv = i; } } for (int i = 0; i < cipher.length(); i++) { /*Applying decryption formula a^-1 ( x - b ) mod m {here x is cipher[i] and m is 26} and added 'A' to bring it in range of ASCII alphabet[ 65-90 | A-Z ] */ if (cipher.charAt(i) != ' ') { msg = msg + (char) (((a_inv * ((cipher.charAt(i) + 'A' - b)) % 26)) + 'A'); } else //else simply append space character { msg += cipher.charAt(i); } } return msg; } // Driver code public static void main(String[] args) { String msg = "AFFINE CIPHER"; // Calling encryption function String cipherText = encryptMessage(msg.toCharArray()); System.out.println("Encrypted Message is : " + cipherText); // Calling Decryption function System.out.println("Decrypted Message is: " + decryptCipher(cipherText)); } }