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I am trying to make a dict that can apply a Caesar Cypher to a letter. I need it to be in one dict for upper and lower but cannot figure put how to get both into one dict.

import string

def Coder(shift):

    alpha = string.ascii_lowercase
    ALPHA = string.ascii_uppercase
    if shift in range(0,26):

        return dict(zip(ALPHA, ALPHA[shift:] + ALPHA[0:shift])), dict(zip(alpha, alpha[shift:] + alpha[0:shift]))
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I wasn't able to do it in a dict. I did it the inefficient way - writing out a massive if/else program! Can't wait for the answer. –  xxmbabanexx Mar 10 '13 at 20:58
well the alternative would be the same for me, would be nice to avoid that for a change :) –  Padraic Cunningham Mar 10 '13 at 21:02
Did you know there is a built-in encoder for the ceasar cypher; 'This is a test.'.encode('rot13') –  Roland Smith Mar 10 '13 at 22:05

3 Answers 3

up vote 0 down vote accepted

Something like this:

import string

def Coder(shift):
    alpha = string.ascii_lowercase
    ALPHA = string.ascii_uppercase
    if 0 <= shift < 26:
        unshifted_letters = ALPHA + alpha
        shifted_letters = ALPHA[shift:] + ALPHA[:shift] + alpha[shift:] + alpha[:shift]
        return dict(zip(unshifted_letters, shifted_letters))

But as others have said, better solutions are encode('rot13') and string.maketrans. In particular, this: "rot_13 rot13 Unicode string Returns the Caesar-cypher encryption of the operand".

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I checked out encode, I don't quite fully understand how to apply it but I understand the concept I think I would need to see an example of it. I am choosing your answer as the best solution as it is exactly what I was trying to accomplish, thanks to you and to everyone for the help, much appreciated –  Padraic Cunningham Mar 10 '13 at 22:44

If you're new to programming, avoid trying to "do everything on one line".

string.index( substring ) finds the position of substring in string.

a % b takes the remainder of a divided by b.

string.upper() returns an uppercased version of string.

Knowing this, you should be able to understand every line in this program:

import string
translation = {}
shift = 5
alphabet = string.ascii_lowercase
for letter in alphabet:
    position = alphabet.index( letter )
    new_position = (position + shift) % len( alphabet )
    translation[ letter ] = alphabet[ new_position ]
    translation[ letter.upper() ] = alphabet[ new_position ].upper()
share|improve this answer
I generally don't attempt to "do everything on one line", It normally takes many lines :), your answer worked perfectly and is very easy to follow. Thank you for the help. –  Padraic Cunningham Mar 10 '13 at 21:51

You can use dict.update():

First create a dictionary of uppercase letters and then update that dict with a dictionary of lowercase letters:

In [8]: from string import *

In [9]: al=ascii_lowercase

In [10]: au=ascii_uppercase

In [11]: for shift in range(2):
    dic1=dict(zip(au, au[shift:] + au[0:shift]))
    dic1.update(dict(zip(al, al[shift:] + al[0:shift])))
    print dic1
{'A': 'A', 'C': 'C', 'B': 'B', 'E': 'E', 'D': 'D', 'G': 'G', 'F': 'F', 'I': 'I', 'H': 'H', 'K': 'K', 'J': 'J', 'M': 'M', 'L': 'L', 'O': 'O', 'N': 'N', 'Q': 'Q', 'P': 'P', 'S': 'S', 'R': 'R', 'U': 'U', 'T': 'T', 'W': 'W', 'V': 'V', 'Y': 'Y', 'X': 'X', 'Z': 'Z', 'a': 'a', 'c': 'c', 'b': 'b', 'e': 'e', 'd': 'd', 'g': 'g', 'f': 'f', 'i': 'i', 'h': 'h', 'k': 'k', 'j': 'j', 'm': 'm', 'l': 'l', 'o': 'o', 'n': 'n', 'q': 'q', 'p': 'p', 's': 's', 'r': 'r', 'u': 'u', 't': 't', 'w': 'w', 'v': 'v', 'y': 'y', 'x': 'x', 'z': 'z'}
{'A': 'B', 'C': 'D', 'B': 'C', 'E': 'F', 'D': 'E', 'G': 'H', 'F': 'G', 'I': 'J', 'H': 'I', 'K': 'L', 'J': 'K', 'M': 'N', 'L': 'M', 'O': 'P', 'N': 'O', 'Q': 'R', 'P': 'Q', 'S': 'T', 'R': 'S', 'U': 'V', 'T': 'U', 'W': 'X', 'V': 'W', 'Y': 'Z', 'X': 'Y', 'Z': 'A', 'a': 'b', 'c': 'd', 'b': 'c', 'e': 'f', 'd': 'e', 'g': 'h', 'f': 'g', 'i': 'j', 'h': 'i', 'k': 'l', 'j': 'k', 'm': 'n', 'l': 'm', 'o': 'p', 'n': 'o', 'q': 'r', 'p': 'q', 's': 't', 'r': 's', 'u': 'v', 't': 'u', 'w': 'x', 'v': 'w', 'y': 'z', 'x': 'y', 'z': 'a'}

or you can also use str.translate() with string.maketrans:

for shift in xrange(4):
    print "abcxyzABCXYZ".translate(t)

S.translate(table [,deletechars]) -> string

Return a copy of the string S, where all characters occurring in the optional argument deletechars are removed, and the remaining characters have been mapped through the given translation table, which must be a string of length 256 or None. If the table argument is None, no translation is applied and the operation simply removes the characters in deletechars.

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how could I change the dict.update so I would not get the error:UnboundLocalError: local variable 'dic1' referenced before assignment if shift is 0 –  Padraic Cunningham Mar 10 '13 at 21:30
@PadraicCunningham My code includes shift=0, you must be running it incorrectly. (range(2) means (0,1)) –  Ashwini Chaudhary Mar 10 '13 at 22:06
sorry Ashwini, my mistake –  Padraic Cunningham Mar 10 '13 at 22:45

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