def Decryp_Affine_t(arg1,arg2,arg3):
data = arg1
key1 = int(arg2)
key2 = int(arg3)
key=[key1,key2]
cm = SaveSpaces(SaveCase(CryptMachine(Affine(),key)))
return(cm.decrypt(data))
def Decryp_Affine():
data = input("Enter dtata to be Decrypted By Affine Algorithm : ")
key1 = int(input("Enter key1 : "))
key2 = int(input("Enter key2 : "))
key=[key1,key2]
cm = SaveSpaces(SaveCase(CryptMachine(Affine(),key)))
print(cm.decrypt(data))
input("Copy if needed.............")
def Decryp_Vigenere():
data = input("Enter dtata to be Decrypted By Vigenere Algorithm : ")
key = input("Enter key : ")
cm = SaveSpaces(SaveCase(CryptMachine(Vigenere(),key)))
print(cm.decrypt(data))
input("Copy if needed.............")
def Encryp_Vigenere():
data = input("Enter data to be Encrypted with Vigenere algorithm : ")
key = input("Enter key : ")
cm = SaveSpaces(SaveCase(CryptMachine(Vigenere(),key)))
print(cm.encrypt(data))
input("Copy if needed.............")
def Decryp_Rot_13():
data = input("Enter dtata to be Decrypted By Rot-13 Algorithm : ")
cm = SaveSpaces(SaveCase(CryptMachine(Rot13())))
print(cm.decrypt(data))
input("Copy if needed.............")
def Encryp_Rot_13():
data = input("Enter data to be Encrypted with Rot-13 algorithm : ")
cm = SaveSpaces(SaveCase(CryptMachine(Rot13())))
print(cm.encrypt(data))
input("Copy if needed.............")
#!/usr/bin/python
# -*- encoding: utf-8 -*-
from secretpy import Rot47
from secretpy import CryptMachine
from secretpy.cmdecorators import SaveSpaces
def encdec(machine, plaintext):
print("----------------------------------")
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
dec = machine.decrypt(enc)
print(dec)
cm = SaveSpaces(CryptMachine(Rot47()))
plaintext = u"The man has 536 dogs"
encdec(cm, plaintext)
from secretpy.cmdecorators import SaveCase, SaveSpaces
from secretpy import alphabet
def encdec(machine, plaintext):
print("----------------------------------")
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
dec = machine.decrypt(enc)
print(dec)
cm = SaveCase(CryptMachine(Rot13()))
plaintext = u"thisisasecretmessage"
encdec(cm, plaintext)
cm = SaveSpaces(cm)
plaintext = u"Why did the chicken cross the road Gb trg gb gur bgure fvqr"
encdec(cm, plaintext)
plaintext = u"thequickbrownfoxjumpsoverthelazydog"
cm.set_alphabet(alphabet.GERMAN)
encdec(cm, plaintext)
plaintext = u"текст"
cm.set_alphabet(alphabet.RUSSIAN)
encdec(cm, plaintext)
def Decryp_Vigenere_t(arg1,arg2):
data = arg1
key = arg2
cm = SaveSpaces(SaveCase(CryptMachine(Vigenere(),key)))
return(cm.decrypt(data))
def Decryp_Rot_13_t(arg1):
data = arg1
cm = SaveSpaces(SaveCase(CryptMachine(Rot13())))
return(cm.decrypt(data))
def Decryp_Keyword_t(arg1,arg2):
data = arg1
key = arg2
cm = SaveSpaces(SaveCase(CryptMachine(Keyword(),key)))
return(cm.decrypt(data))
def Decryp_ceaser_t(arg1, arg2):
data = arg1
key = int(arg2)
cm = SaveSpaces(SaveCase(CryptMachine(Caesar(), key)))
return(cm.decrypt(data))
from secretpy import Chao, CryptMachine, alphabets
from secretpy.cmdecorators import UpperCase, SaveSpaces
def encdec(machine, plaintext):
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
print(machine.decrypt(enc))
print("-------------------------------")
alphabet = "ptlnbqdeoysfavzkgjrihwxumc" # RIGHT WHEEL PT
key = "hxuczvamdslkpefjrigtwobnyq" # LEFT WHEEL CT
cm = SaveSpaces(UpperCase(CryptMachine(Chao(), key)))
cm.set_alphabet(alphabet)
plaintext = "well done is better than well said"
encdec(cm, plaintext)
plaintext = "plaintext"
encdec(cm, plaintext)
cm.set_alphabet(alphabets.ENGLISH)
cm.set_key(alphabets.ENGLISH)
plaintext = "do not use pc"
encdec(cm, plaintext)
'''
Output:
def Encryp_Bifid():
data = input("Enter data to be Encrypted with Bifid algorithm : ")
key =int(input("Enter key : "))
cm = SaveSpaces(SaveCase(CryptMachine(Bifid(),key)))
print(cm.encrypt(data))
input("Copy if needed.............")
def Decryp_Bifid_t(arg1,arg2):
data = arg1
key =int(arg2)
cm = SaveSpaces(SaveCase(CryptMachine(Bifid(),key)))
return(cm.decrypt(data))
def Decryp_Bifid():
data = input("Enter dtata to be Decrypted By Bifid Algorithm : ")
key =int(input("Enter key : "))
cm = SaveSpaces(SaveCase(CryptMachine(Bifid(),key)))
print(cm.decrypt(data))
input("Copy if needed.............")
def Decryp_ceaser():
data = input("Enter dtata to be Decrypted By Ceaser Algorithm : ")
key = int(input("Enter key to be Ency : "))
cm = SaveSpaces(SaveCase(CryptMachine(Caesar(), key)))
print(cm.decrypt(data))
input("Copy if needed.............")
from secretpy import Rot18
from secretpy import CryptMachine
from secretpy.cmdecorators import SaveCase, SaveSpaces, UpperCase
from secretpy import alphabets
def encdec(machine, plaintext):
print("----------------------------------")
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
dec = machine.decrypt(enc)
print(dec)
cm = SaveCase(SaveSpaces(CryptMachine(Rot18())))
plaintext = u"The man has 536 dogs"
encdec(cm, plaintext)
plaintext = alphabets.RUSSIAN + alphabets.DECIMAL
cm.set_alphabet(alphabets.RUSSIAN)
encdec(cm, plaintext)
plaintext = u"У человека 536 собак"
encdec(cm, plaintext)
plaintext = alphabets.GREEK + " " + alphabets.DECIMAL
cm = UpperCase(cm)
cm.set_alphabet(alphabets.GREEK)
encdec(cm, plaintext)
def encdec(machine, plaintext):
print("=======================================")
print(plaintext)
enc = machine.encrypt(plaintext)
print(enc)
dec = machine.decrypt(enc)
print(dec)
key = 5
plaintext = u"Dog jumps four times and cat six times"
print(plaintext)
cm1 = SaveSpaces(SaveCase(CryptMachine(Caesar(), key)))
enc = cm1.encrypt(plaintext)
print(enc)
cm2 = SaveSpaces(SaveCase(CryptMachine(Rot13())))
enc = cm2.encrypt(enc)
print(enc)
print("=======================================")
cm = CompositeMachine(cm1)
cm.add_machines(cm2)
enc = cm.encrypt(plaintext)
print(enc)
encdec(cm, plaintext)
