56

I am searching for a short and cool rot13 function in Python ;-) I've written this function:

def rot13(s):
    chars = "abcdefghijklmnopqrstuvwxyz"
    trans = chars[13:]+chars[:13]
    rot_char = lambda c: trans[chars.find(c)] if chars.find(c)>-1 else c
    return ''.join( rot_char(c) for c in s ) 

Can anyone make it better? E.g supporting uppercase characters.

closed as too broad by Martijn Pieters Apr 19 '16 at 11:28

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

20 Answers 20

70

Here's a maketrans/translate solution

import string
rot13 = string.maketrans( 
    "ABCDEFGHIJKLMabcdefghijklmNOPQRSTUVWXYZnopqrstuvwxyz", 
    "NOPQRSTUVWXYZnopqrstuvwxyzABCDEFGHIJKLMabcdefghijklm")
string.translate("Hello World!", rot13)
# 'Uryyb Jbeyq!'
  • 2
    This is the shortest and its available under 3.0 :-) – svenwltr Jul 17 '10 at 1:53
  • 10
    This no longer works on Python3.2+; maketrans was removed from the string module. Use Nazmul Hasan's codecs answer instead. – Wooble Sep 9 '13 at 18:30
  • 5
    for Python3.x: change to rot13 = str.maketrans(...) and then "Hello World!".translate(rot13) – Muposat May 18 '16 at 15:53
  • for Python3.x import string rot13 = str.maketrans( "ABCDEFGHIJKLMabcdefghijklmNOPQRSTUVWXYZnopqrstuvwxyz", "NOPQRSTUVWXYZnopqrstuvwxyzABCDEFGHIJKLMabcdefghijklm") print(str.translate("Hello World!", rot13)) – Brent Knox Nov 16 '16 at 16:47
119

It's very simple:

>>> import codecs
>>> codecs.encode('foobar', 'rot_13')
'sbbone'
  • 4
    This appears to be the new proper way to do it. They moved it out of the string object for modularity. Now the string object str.encode() raises errors about not returning a byte array or bytes object. – Youarefunny Apr 22 '11 at 1:27
  • this worked great for me on python 2.6.5 – Rian Sanderson Jul 3 '12 at 16:38
  • 13
    Note to others: you have to use 'rot_13' instead of 'rot13' to make it work in Python 3. – Ensemble Jan 3 '13 at 9:11
  • 5
    @Reshure: +1: 'rot_13' works on Python 2.4-2.7, 3.2+ – jfs Mar 22 '13 at 20:01
  • 1
    I've tested this on my installation of Python 2.7.6 and 3.4.1 and it appears that you can use either rot13 or rot_13. See here. – Bletch Nov 25 '14 at 12:09
63

This works on Python 2 (but not Python 3):

>>> 'foobar'.encode('rot13')
'sbbone'
  • This doesn't work in Python 3, but @Nazmul's similar method does. – Jonathan Potter Jul 29 '15 at 15:12
  • Rumor: that's possibly just rot13 reading of a file as python source. See stackoverflow.com/a/1024693/26494 – pihentagy Aug 29 '15 at 20:52
  • @poke: it is definitely an available codec in Python 3. Just not as a str-to-bytes or bytes-to-str codec. – Martijn Pieters Jan 17 '18 at 16:28
21

The maketrans and translate functions in the string module are handy for this type of thing. Of course, the encode method in Amber's response is even handier for this specific case.

Here's a general solution:

import string

def make_rot_n(n):
 lc = string.ascii_lowercase
 uc = string.ascii_uppercase
 trans = string.maketrans(lc + uc,
                          lc[n:] + lc[:n] + uc[n:] + uc[:n])
 return lambda s: string.translate(s, trans)

rot13 = make_rot_n(13)

rot13('foobar')
# 'sbbone'
  • This solution is very neat, however it doesn't work with Python 3. Modifying this to use bytes as suggested on another answer gives us: def make_rot_n(m): n = m % 26 lc = "abcdefghijklmnopqrstuvwxyz".encode() trans = bytes.maketrans(lc, lc[n:] + lc[:n]) return lambda s: bytes.translate(s.encode(), trans).decode() Uses %26 so you can use large shifts – Acapulco Dec 7 '16 at 0:26
10

From the module this.py (import this).

d = {}
for c in (65, 97):
    for i in range(26):
        d[chr(i+c)] = chr((i+13) % 26 + c)

print "".join([d.get(c, c) for c in s])
  • 1
    You can also directly import this. import this;rot13 = lambda s:''.join(this.d.get(c, c) for c in s). Just saying. – 김민준 Jul 22 '17 at 9:06
8

As of Python 3.1, string.translate and string.maketrans no longer exist. However, these methods can be used with bytes instead.

Thus, an up-to-date solution directly inspired from Paul Rubel's one, is:

rot13 = bytes.maketrans(
    b"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ",
    b"nopqrstuvwxyzabcdefghijklmNOPQRSTUVWXYZABCDEFGHIJKLM")
b'Hello world!'.translate(rot13)

Conversion from string to bytes and vice-versa can be done with the encode and decode built-in functions.

6

Try this:

import codecs
codecs.encode("text to be rot13()'ed", "rot_13")
  • 1
    The .encode method is included as part of string objects and doesn't need to be specifically imported. – Amber Jul 17 '10 at 0:42
  • 1
    It does in Python 3. – X-Istence Jul 15 '12 at 7:34
  • 1
    But in Python 3, you need to spell it "rot_13" or "rot-13", not "rot13". I edited the answer. – user1220978 Jun 19 '13 at 12:15
  • @Amber: str.encode() can only produce bytes in Python 3. The rot13 codec is a str-to-str codec and is only available via codecs.encode() and codecs.decode(). – Martijn Pieters Jan 17 '18 at 16:29
  • @user1220978: rot13 is available in 3.6 at the very least. – Martijn Pieters Jan 17 '18 at 16:30
5

In python-3 the str-codec that @amber mentioned has moved to codecs standard-library:

> import codecs
> codecs.encode('foo', 'rot13')
sbb
  • @steven-rumbalski Strange! In py3.5 I get this error: LookupError: 'rot13' is not a text encoding; use codecs.encode() to handle arbitrary codecs – ankostis Sep 23 '16 at 16:20
  • @StevenRumbalski: if str.encode('rot13') ever worked in older 3.x releases then that was a mistake, as str.encode() is strict about producing bytes results only, while ROT13 is a text-to-text codec. – Martijn Pieters Jan 17 '18 at 16:31
3

A one-liner to rot13 a string S:

S.translate({a : a + (lambda x: 1 if x>=0 else -1)(77 - a) * 13 for a in range(65, 91)})
2

For arbitrary values, something like this works for 2.x

from string import ascii_uppercase as uc, ascii_lowercase as lc, maketrans                                                                                                            

rotate = 13 # ROT13                                                                    
rot = "".join([(x[:rotate][::-1] + x[rotate:][::-1])[::-1] for x in (uc,lc)])   

def rot_func(text, encode=True):                                                
    ascii = uc + lc                                                             
    src, trg = (ascii, rot) if encode else (rot, ascii)                         
    trans = maketrans(src, trg)                                                 
    return text.translate(trans)                                                

text = "Text to ROT{}".format(rotate)                                           
encode = rot_func(text)                                                         
decode = rot_func(encode, False)
2

This works for uppercase and lowercase. I don't know how elegant you deem it to be.

def rot13(s):
    rot=lambda x:chr(ord(x)+13) if chr(ord(x.lower())+13).isalpha()==True else chr(ord(x)-13)
    s=[rot(i) for i in filter(lambda x:x!=',',map(str,s))]
    return ''.join(s)
2

You can support uppercase letters on the original code posted by Mr. Walter by alternating the upper case and lower case letters.

chars = "AaBbCcDdEeFfGgHhIiJjKkLlMmNnOoPpQqRrSsTtUuVvWwXxYyZz"

If you notice the index of the uppercase letters are all even numbers while the index of the lower case letters are odd.

  • A = 0 a = 1,
  • B = 2, b = 3,
  • C = 4, c = 4,
  • ...

This odd-even pattern allows us to safely add the amount needed without having to worry about the case.

trans = chars[26:] + chars[:26]

The reason you add 26 is because the string has doubled in letters due to the upper case letters. However, the shift is still 13 spaces on the alphabet.

The full code:

def rot13(s):
    chars = "AaBbCcDdEeFfGgHhIiJjKkLlMmNnOoPpQqRrSsTtUuVvWwXxYyZz"
    trans = chars[26:]+chars[:26]
    rot_char = lambda c: trans[chars.find(c)] if chars.find(c) > -1 else c
    return ''.join(rot_char(c) for c in s)

OUTPUT (Tested with python 2.7):

print rot13("Hello World!") --> Uryyb Jbeyq!
2

The following function rot(s, n) encodes a string s with ROT-n encoding for any integer n, with n defaulting to 13. Both upper- and lowercase letters are supported. Values of n over 26 or negative values are handled appropriately, e.g., shifting by 27 positions is equal to shifting by one position. Decoding is done with invrot(s, n).

import string

def rot(s, n=13):
    '''Encode string s with ROT-n, i.e., by shifting all letters n positions.
    When n is not supplied, ROT-13 encoding is assumed.
    '''
    upper = string.ascii_uppercase
    lower = string.ascii_lowercase
    upper_start = ord(upper[0])
    lower_start = ord(lower[0])
    out = ''
    for letter in s:
        if letter in upper:
            out += chr(upper_start + (ord(letter) - upper_start + n) % 26)
        elif letter in lower:
            out += chr(lower_start + (ord(letter) - lower_start + n) % 26)
        else:
            out += letter
    return(out)

def invrot(s, n=13):
    '''Decode a string s encoded with ROT-n-encoding
    When n is not supplied, ROT-13 is assumed.
    '''
    return(rot(s, -n))
1
def rot13(s):
    lower_chars = ''.join(chr(c) for c in range (97,123)) #ASCII a-z
    upper_chars = ''.join(chr(c) for c in range (65,91)) #ASCII A-Z
    lower_encode = lower_chars[13:] + lower_chars[:13] #shift 13 bytes
    upper_encode = upper_chars[13:] + upper_chars[:13] #shift 13 bytes
    output = "" #outputstring
    for c in s:
        if c in lower_chars:
                output = output + lower_encode[lower_chars.find(c)]
        elif c in upper_chars:
            output = output + upper_encode[upper_chars.find(c)]
        else:
            output = output + c
    return output

Another solution with shifting. Maybe this code helps other people to understand rot13 better. Haven't tested it completely.

0
from string import maketrans, lowercase, uppercase

def rot13(message):
   lower = maketrans(lowercase, lowercase[13:] + lowercase[:13])
   upper = maketrans(uppercase, uppercase[13:] + uppercase[:13])
   return message.translate(lower).translate(upper)
0

Interesting exercise ;-) i think i have the best solution because:

  1. no modules needed, uses only built-in functions --> no deprecation
  2. it can be used as a one liner
  3. based on ascii, no mapping dicts/strings etc.

Python 2 & 3 (probably Python 1):

def rot13(s):
    return ''.join([chr(ord(n) + (13 if 'Z' < n < 'n' or n < 'N' else -13)) if n.isalpha() else n for n in s])

def rot13_verbose(s):
    x = []
    for n in s:
        if n.isalpha():
            # 'n' is the 14th character in the alphabet so if a character is bigger we can subtract 13 to get rot13
            ort = 13 if 'Z' < n < 'n' or n < 'N' else -13
            x.append(chr(ord(n) + ort))
        else:
            x.append(n)
    return ''.join(x)



# crazy .min version (99 characters) disclaimer: not pep8 compatible^

def r(s):return''.join([chr(ord(n)+(13if'Z'<n<'n'or'N'>n else-13))if n.isalpha()else n for n in s])
0

I found this post when I started wondering about the easiest way to implement rot13 into Python myself. My goals were:

  • Works in both Python 2.7.6 and 3.3.
  • Handle both upper and lower case.
  • Not use any external libraries.

This meets all three of those requirements. That being said, I'm sure it's not winning any code golf competitions.

def rot13(string):
    CLEAR = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz'
    ROT13 = 'NOPQRSTUVWXYZABCDEFGHIJKLMnopqrstuvwxyzabcdefghijklm'
    TABLE = {x: y for x, y in zip(CLEAR, ROT13)}

    return ''.join(map(lambda x: TABLE.get(x, x), string))



if __name__ == '__main__':
    CLEAR = 'Hello, World!'
    R13 = 'Uryyb, Jbeyq!'

    r13 = rot13(CLEAR)
    assert r13 == R13

    clear = rot13(r13)
    assert clear == CLEAR

This works by creating a lookup table and simply returning the original character for any character not found in the lookup table.

Update

I got to worrying about someone wanting to use this to encrypt an arbitrarily-large file (say, a few gigabytes of text). I don't know why they'd want to do this, but what if they did? So I rewrote it as a generator. Again, this has been tested in both Python 2.7.6 and 3.3.

def rot13(clear):
    CLEAR = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz'
    ROT13 = 'NOPQRSTUVWXYZABCDEFGHIJKLMnopqrstuvwxyzabcdefghijklm'
    TABLE = {x: y for x, y in zip(CLEAR, ROT13)}

    for c in clear:
        yield TABLE.get(c, c)



if __name__ == '__main__':
    CLEAR = 'Hello, World!'
    R13 = 'Uryyb, Jbeyq!'

    r13 = ''.join(rot13(CLEAR))
    assert r13 == R13

    clear = ''.join(rot13(r13))
    assert clear == CLEAR
0

I couldn't leave this question here with out a single statement using the modulo operator.

def rot13(s):
    return ''.join([chr(x.islower() and ((ord(x) - 84) % 26) + 97
                        or x.isupper() and ((ord(x) - 52) % 26) + 65
                        or ord(x))
                    for x in s])

This is not pythonic nor good practice, but it works!

>> rot13("Hello World!")
Uryyb Jbeyq!
0

You can also use this also

def n3bu1A(n):
    o=""
    key = {
       'a':'n', 'b':'o', 'c':'p', 'd':'q', 'e':'r', 'f':'s', 'g':'t', 'h':'u', 
       'i':'v', 'j':'w', 'k':'x', 'l':'y', 'm':'z', 'n':'a', 'o':'b', 'p':'c', 
       'q':'d', 'r':'e', 's':'f', 't':'g', 'u':'h', 'v':'i', 'w':'j', 'x':'k',
       'y':'l', 'z':'m', 'A':'N', 'B':'O', 'C':'P', 'D':'Q', 'E':'R', 'F':'S', 
       'G':'T', 'H':'U', 'I':'V', 'J':'W', 'K':'X', 'L':'Y', 'M':'Z', 'N':'A', 
       'O':'B', 'P':'C', 'Q':'D', 'R':'E', 'S':'F', 'T':'G', 'U':'H', 'V':'I', 
       'W':'J', 'X':'K', 'Y':'L', 'Z':'M'}
    for x in n:
        v = x in key.keys()
        if v == True:
            o += (key[x])   
        else:
            o += x
    return o

Yes = n3bu1A("N zhpu fvzcyre jnl gb fnl Guvf vf zl Zragbe!!")
print(Yes)
-2

Short solution:

def rot13(text):
    return "".join([x if ord(x) not in range(65, 91)+range(97, 123) else
            chr(((ord(x)-97+13)%26)+97) if x.islower() else
            chr(((ord(x)-65+13)%26)+65) for x in text])

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