# caesar cipher python encryption

Hello pls can someone help with this code.... how do i modify so it could go back to "a" after getting to "z" while encrypting. I'll be gratefull if someone can help me out.....

``````# ceaser cipher encoder
# by SaLiXa MoUdInHo aka Okhotnik

def ccipher():
print "This is a program to compute the ceaser cipher encoding algorithm"
# get the input from the user
text = raw_input("Enter the text you want to encode: ")
jmp = input("Input the numerical value of the key: ")
# set up an accumulator
lstmsg = ""
for j in text:
lstmsg = lstmsg + chr(ord(j) +jmp)
# output the encrypted message
print "[" + lstmsg + "]"
``````
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Did any of the related questions help? this one suggests modulo, which ought to be useful to you. – Kevin Apr 24 '14 at 11:47
possible duplicate of Caesar Cipher Function in Python – Perseids Apr 24 '14 at 12:04
@kelvin Thanks but i am not making use of conditionals at least not yet allowed – uJossyboy2580 Apr 25 '14 at 2:34
The code you posted outputs a ceasar cipher of the specified offset. Your question `go back to 'a' after getting to 'z'`, this doesn't make sense. If you're asking how to create another cipher, then just call that function again. – stackuser Apr 28 '14 at 21:45
presently what i want to do is to make it iterate to the letter "a" while encrypting. that is when it try's to convert the letter "y" to its ciphertext value with a key value of 2.... it should output the letter "a" since it shifthed through "z" to the next... instead of giving me some ASCII character. Thanks – uJossyboy2580 Jun 18 '14 at 13:36

## Python source code:

Note: working for negative shift numbers also
Note: if reverse shift then we do encode - decode message
Note: preserving spaces also

``````small_chars = [chr(item) for item in range(ord('a'), ord('z')+1)]
upper_chars = [item.upper() for item in small_chars]

def encode_chr(chr_item, is_upper_case):
'''
Cipher each chr_item.
'''
# setting orig and end order.
if is_upper_case:
orig_ord = ord('A')
end_ord  = ord('Z')
else:
orig_ord = ord('a')
end_ord  = ord('z')

# calculating shift
temp_ord = ord(chr_item)+shift
# calculating offset order with modulo.
# char is after end_ord, calculating offset
num_of_chars = 26
offset_ord = (temp_ord - end_ord - 1)%num_of_chars
return chr(orig_ord + offset_ord)

# enable while loop to repeat until status not 'y'
status = 'y'
while status == 'y':
# enter word to cipher.
word = raw_input("Word: ")
# enter char shift
shift = input("Shift: ")
print

# create cipher list variable
cipher = list()
# loop trough each char in word
for chr_item in word:
# encode just letters.
# replace non-alfa with underscore: "_"
if chr_item in upper_chars or chr_item in small_chars:
# set is_uppser_case to True for upper case chars.
is_upper_case = (chr_item in upper_chars) and True
# cipher char.
temp_chr = encode_chr(chr_item, is_upper_case)
# append ciphered char to list
cipher.append(temp_chr)
elif chr_item is ' ':
cipher.append(chr_item)
else:
cipher.append('_')

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

# repeat again for another word?
status = raw_input("Repeat? [y|n]: ")
print
``````

## Test cases:

``````>>>
Word: aAzZ!@
Shift: 1

aAzZ!@
bBaA__
Repeat? [y|n]: y

Word: aAzZ@!
Shift: -1

aAzZ@!
zZyY__
Repeat? [y|n]: y

Word: aAzZ@\$
Shift: 27

aAzZ@\$
bBaA__
Repeat? [y|n]: y

Word: aAzZ%^
Shift: -27

aAzZ%^
zZyY__
Repeat? [y|n]: n

>>>
``````

## Output:

### Note: if reverse shift then we do encode - decode message

``````>>>
Word: "Mary Had a Little    Lamb"
Shift: 1