# Python Caesar Cipher [closed]

I need to create a code for Caesar Cipher. I need to use a for loop to examine every character of text, find shifted character using ALPHABET, key, and String functions, and add this to the end of "encipheredTextSoFar". Need help, not finished but I'm stuck.

EDIT:

I finally got it and this is my final code:

``````def circularShift(text, key):
text = text.upper()
cipher = ""
for letter in text:
shifted = ord(letter) + key
if shifted < 65:
shifted += 26
if shifted > 90:
shifted -= 26
cipher += chr(shifted)
return cipher

print (circularShift("MOLLOY", 3))
print (circularShift("PROORB", -3))
``````
• Do you have a specific question? This is a Q&A site... not a homework help/tutorial/cheat site. A quick search yields many similar questions and answers already on Stack Overflow. Always remember to search before asking and please read the help: stackoverflow.com/help/on-topic Nov 7, 2014 at 0:35
• I just need some help, i'm not trying to cheat, i'm very new to programming so i'm just very confused on everything. I've been trying to work on this code by myself until i got stuck and i can't think of anything else to do Nov 7, 2014 at 0:39
• find your question, and then perhaps, you will find your answer. Nov 7, 2014 at 1:26

simple Implementation using: `string.maketrans`

`````` import string
upper_case = string.uppercase
trans = lambda x,n:string.maketrans(x,x[n:]+x[:n])
def ceaser(text,n):
print text.upper().translate(trans(upper_case,n))
ceaser("MOLLOY",3)
ceaser("HELLO",6)
``````

output:

``````PROORB
KHOOR
``````

#### Python source code:

``````# setting status default value to 'y'
status = 'y'

# started a while loop until status will change from 'y' to 'n'
while status == 'y':
# requesting which word to cipher.
word = str(raw_input("Word: "))
# how many position to shift each letter
shift = int(input("Shift: "))
# added new line to have pretty output
print

# declaring cipher variable to be of type list
cipher = list()
# iterating trough each character in word
for item in word:
# translanting each characher in word to new character
# and appending it to cipher list
cipher.append(chr(ord(item)+shift))

# printing word
print word
# printing ciphered word
print ''.join(cipher)

print
# do We need to cipher another word? yes or no?
status = raw_input("Repeat? [y|n]: ")
print
``````

#### Output:

``````>>>
Word: HelLo
Shift: 1

HelLo
IfmMp

Repeat? [y|n]: y

Word: AbCdEF
Shift: 2

AbCdEF
CdEfGH

Repeat? [y|n]: y

Word: abc
Shift: -1

abc
`ab

Repeat? [y|n]: y

Word: 456GHh
Shift: -2

456GHh
234EFf

Repeat? [y|n]: n

>>>
``````
``````alphabet = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z']

def encrypt(texted, shifted):
crypted_message = ''
for letter in texted:
if letter in alphabet:
index_in_alphabet = alphabet.index(letter)
crypted_message += alphabet[(index_in_alphabet + shifted) % 26]
else:
crypted_message += letter
print(f"message crypté : {crypted_message}")

def decrypt(texted, shifted):
decrypted_message = ''
for letter in texted:
if letter in alphabet:
index_in_alphabet = alphabet.index(letter)
decrypted_message += alphabet[(index_in_alphabet - shifted) % 26]
else:
decrypted_message += letter
print(f"message decrypté : {decrypted_message}")

request = 'yes'
while request == 'yes':
direction = input("Type 'encode' to encrypt, type 'decode' to decrypt : \n")
while direction != "encode" and direction != "decode":
print("Entrez soit 'encode' ou 'decode'")
direction = input("Type 'encode' to encrypt, type 'decode' to decrypt : \n")

text = input("Type your message:\n").lower()
shift = int(input("Type the shift number:\n"))
while shift > 26:
print("Enterez un chiffre entre 0 et 25")
shift = int(input("Type the shift number:\n"))

if direction == 'encode':
encrypt(texted=text, shifted=shift)
else:
decrypt(texted=text, shifted=shift)
request = input("Type 'yes' if u want go agin . 'no' if else :\n")
``````
• You can get more formatting help here. For now check my edit to understand how to format code Jul 23, 2021 at 13:53