2

I had to make this encryption for a Python problem.

def encrypt(n,string):
    #get length of string
    length = len(string)

    #traverse string and move text to newStringList
    newStringList = []
    for i in range(0,length,n):
        newStringList.append(string[i:i+n])
    #endfor

    #add to orderedList
    o = len(newStringList)
    orderedList = []

    for i in range(n):
        for j in range(o):
            if j<len(newStringList) and i<len(newStringList[j]):
                orderedList.append(newStringList[j][i])
        #endfor
    #endfor

    #join list into string
    encrypted = "".join(orderedList)
    print(encrypted)
#end def

This works so that the string will be made into a table of n columns. The encrypted string is then made by reading down the columns one by one. My problem involves the decryption of this.

If I use the exact same code to decrypt, it works only if len(string)%n == 0. For example if I entered decrypt(3,"147258369") it prints out 123456789 but if I enter decrypt(3,"1470258369") it should print out 1234567890 but instead it prints 1089423756. I've spent ages trying to decrypt and I can't get it right, can I have some help please.
EDIT
I was unfortunately testing with a number that worked more by coincidence than by method, it doesn't always work when len(string)%n == 0. Could anyone offer an alternative solution. My encryption code works as I want it but I cannot figure out how to code a successful decryption. Addition A solution using only basic tests and loops would be much appreciated, similar to my encryption.

9
  • decrypt(3,"1470258369") == 1089423756 ... however I believe decrypt(4,"1470258369") == 1234567890 (without testing it) Jan 29, 2015 at 20:02
  • @JoranBeasley decrypt(4,"1470258369") returns 1264597803 sorry
    – PFOD1998
    Jan 29, 2015 at 20:18
  • oh you are right ... my bad Jan 29, 2015 at 20:24
  • it also fails when len(s) % n == 0 (2,"1234567890") Jan 29, 2015 at 20:25
  • @PadraicCunningham Oh damn it, I'll edit my question now. I was unfortunately testing my program with one of the few combos that actually worked. Thanks for that, I should have tested more thoroughly
    – PFOD1998
    Jan 29, 2015 at 20:43

2 Answers 2

1

A simple solution using ord:

def encrypt(n, string):
    return "".join(chr(ord(ch) + n * n) for ch in string)


def decrypt(n, string):
    return "".join(chr(ord(ch) - n * n) for ch in string)

In [14]: e = encrypt(3, "123456789")

In [15]: e
Out[15]: ':;<=>?@AB'

In [16]: decrypt(3, e)
Out[16]: '123456789'

To encrypt we simply change the characters using ord adding the ord of each char + n * n then to decrypt we simply - n * n.

0

Well, this works, though it doesn't give you a perfectly involutive encryption function:

from itertools import zip_longest

def encrypt_chunker(it, n):
    for i in range(0, len(it), n):
        yield it[i:i+n]

def decrypt_chunker(it, n, overflow):
    i = 0
    base_width = len(it) // n
    while i < len(it):
        if overflow:
            width = base_width + 1
            overflow -= 1
        else:
            width = base_width
        yield it[i:i+width]
        i += width

def crypt(string, n, mode):
    if mode == 'encrypt':
        chunks = encrypt_chunker(string, n)
    elif mode == 'decrypt':
        overflow = len(string) % n
        chunks = decrypt_chunker(string, n, overflow)
    thing = zip_longest(*chunks)
    crypted = ''.join(''.join(c for c in tup if c) for tup in thing)
    return crypted

Observe:

>>> crypt('1234567890', 3, 'encrypt')
'1470258369'
>>> crypt(_, 3, 'decrypt')
'1234567890'
>>> s = '1234567890'; n = 3; assert crypt(crypt(s, n, 'encrypt'), n, 'decrypt') == s # no AssertionError

crypt(string, n, 'encrypt') is the same as your encrypt(n, string) (verified on a large number of random strings and values of n). To get an involution, you have to do something like crypt(crypt(string, n, 'encrypt'), n, 'decrypt').

I don't think it's possible to have a perfectly involutive encryption function like the one you described - you're throwing information away when you perform the encryption (specifically, the location of the "blanks" in your innermost loop). This is why you sort of have to add one bit of information - whether you're encrypting or decrypting. This allows you to determine the correct way to chunk the string.

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