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Suppose a string is a number system where each thing, it can be a char, DEL or any ASCII thing, has a corresponding number according to this ASCII table. How can you convert arbitrary string of the property to number in Python?

An example

#car = 35*128**3+99*128**2+97*128**1+114*128**0=75034866
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Where are you getting those numbers from? –  Falmarri Jan 3 '11 at 21:38
    
Falmari: from CHR -column to DEC, maybe easier way to do it –  hhh Jan 3 '11 at 21:41
2  
Calling this "encryption" is grossly misleading. –  Greg Hewgill Jan 3 '11 at 21:41
2  
@HH: Encryption usually involves some sort of secret key. At a stretch you could call this "obfuscation" but I'd say it's just a simple form of encoding (not encryption). –  Mark Byers Jan 3 '11 at 21:50
4  
@overstood: No, that's incorrect. You're assuming that everyone who uses obfuscation believes it's a perfect security mechanism, which is silly. Obfuscation is a meaningful component of many real-world security systems, and is very often implemented competently with a full understanding of its limitations. Implementing any security mechanism without a competent understanding of its limitations leads to a false sense of security. –  Glenn Maynard Jan 3 '11 at 22:40

3 Answers 3

up vote 7 down vote accepted

Try this:

total = 0
for c in "#car":
    total <<= 7
    total += ord(c)
print total

Result:

75034866

To get back the original string:

result = []
while total:
    result.append(chr(total % 128))
    total >>= 7
print ''.join(reversed(result))

Result:

#car
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Nice, for the special case of base128 –  John La Rooy Jan 3 '11 at 23:10

For arbitrarily long numbers, use Decimal in Python 2.x and just int in Python 3.x.

No idea about 'encryption'.

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Python ints get automatically promoted to Python longs. Python longs are arbitrary precision. –  John La Rooy Jan 3 '11 at 23:09

You're looking to find a mapping to obfuscate the data.

Real encryption requires the use of a trap door function - a function that is computationally easy to compute one way, but the inverse of which is difficult to compute without specific information.

Most encryption is based on prime factorization. Alice multiplies two large prime numbers together, and gives the results to Bob. Bob uses this large prime number to encrypt his data using an encryption function. Finding the inverse of Bob's encryption function requires knowing the two original prime numbers (encryption does not). Finding these numbers is a very computationally expensive task, so the encrypted data is 'safe'.

Implementing this correctly is VERY difficult. If you want to keep data safe, find a library that does it for you.

EDIT: I should specify that what I described was public key encryption. Private key encryption works a bit differently. The important thing is that there's a mathematical basis for thinking that encrypted data will be hard to decrypt without a key or some sort.

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overstood: which library would you suggest if you are given arbitrary ten-chars' ASCII passwords every week and you would not like to carry them on paper, instead use some sort of encryption and a secret key? –  hhh Jan 3 '11 at 22:14
    
I might look at freenet.org.nz/ezPyCrypto EDIT: I just realized it doesn't support AES or Blowfish, which is probably what you want to be using. I'll post another one shortly. –  overstood Jan 3 '11 at 22:23
    
Here's a great blog post on using PyCrypto to implement password based AES encryption: eli.thegreenplace.net/2010/06/25/… –  overstood Jan 3 '11 at 22:35
1  
one time pad does not fit your definition of real encryption, yet it certainly is real encryption! –  John La Rooy Jan 3 '11 at 23:08
    
@gnibbler A one time pad still relies on a key for encryption and decryption. That aside, my point was that there's a mathematical basis for thinking that it's difficult (or impossible) to decrypt. –  overstood Jan 4 '11 at 21:49

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