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I wish to obfuscate a 5 digit number

Properties of the obfuscated number that I care about:

  • it's impossible (or as a fall back, extremely unlikely) to collide with other obfuscated numbers
  • it's also a 5 digit number (no alpha characters please)
  • it's not easily determinable by a regular human without computational assistance (e.g. it's not something obvious like "multiply by 2 and subtract 5"
  • it's an algorithm ... as opposed to storing a look up table of all possible 5 digit numbers to their corresponding hash or some other "brute force" technique

Properties of the obfuscated number that I don't care about:

  • whether it's repeatable or not i.e. if "12345" always results in "73624", I okay
  • whether it's cryptographically secure or not

Thus far I haven't found anything that fits my requirements... but am hoping this is due to poor memory, incomplete education or dubious lifestyle choices rather than no "nice" solution being present.

An example that can be easily translated into C# would be a bonus.


I'm investigating using the idea of doing a simple bit mapping for the moment.

   static List<int> bitMapping = new List<int>() { 8, 6, 9, 3, 7, 5, ... etc... };

    private static int Obfuscate(int number)
        var bits = new bool[bitMapping.Count];
        foreach (var ordinal in bitMapping)
            var mask = (int)Math.Pow(2, ordinal);
            var bit = (mask & number) == mask;
            var mappedOrdinal = bitMapping[ordinal];
            bits[mappedOrdinal] = bit;

        var obfuscatedNumber = 0;
        for (var ordinal = 0; ordinal < bits.Length; ordinal++)
            if (bits[ordinal])
                obfuscatedNumber += (int)Math.Pow(2, ordinal);
        return obfuscatedNumber;

It seems to meet most of my requirements thus far.

share|improve this question
By definition, a hash is repeatable. If you don't care about that property, why don't you just replace the number with a pseudo-randomly generated number? – paddy Jan 30 '13 at 0:12
If you don't care of consistency "I don't care about: whether it's repeatable" then return random value – zerkms Jan 30 '13 at 0:12
Where will it be stored? I ask because multiplying by two and subtracting 5 is not easily decrypted by a user just looking at the numerical value.. it could be anything originally.. – Simon Whitehead Jan 30 '13 at 0:12
You want to ensure that two 5-digit random numbers won't be the same?! You can't, but it is unlikely. I think it's time that you explained WHAT this is for and HOW you intend to use it. – paddy Jan 30 '13 at 0:14
One way: Add an offset to each digit, with wrap-around so that they remain digits - one fixed offset per position, so, say, 3, 5, 7, 4, and 8. Kind of like a combination lock to a safe. To decrypt, subtract the values. – 500 - Internal Server Error Jan 30 '13 at 0:17

That might be too simple for your needs, but something that works and might not be as obvious as an addition is the XOR operation :

12345 ^ 65535 = 53190
53190 ^ 65535 = 12345

As noted in comments it is important that the second operand is of the form (2n - 1) to avoid collisions (so that every bit in the original number is inverted). It also needs to be long enough that its number of bits is greater or equal than the first operand.

You might also have to pad-left with 0's to make the result a 5-digit number.

share|improve this answer
Someone smarter than me might be able to say why, but I suspect there would be collisions with this because XOR is commutative. Maybe if you keep the key constant, then it wont be an issue? This is just speculation, as I haven't researched it enough to dispute your answer. – Gray Jan 30 '13 at 0:35
If you choose the second constant so that it is a power of 2 minus 1 (i.e., all 1's in binary), then there will be no collisions. – Xavier Poinas Jan 30 '13 at 0:36
Ah, thank you for the explanation. That makes sense. What if you do a series of XORs and additions? Would that make for a legitimate 1:1 substitution? – Gray Jan 30 '13 at 0:43
It would, because the composition of 2 bijections is a bijection. – Xavier Poinas Jan 30 '13 at 0:47
I feel like that would make for a pretty difficult to de-obfuscate number then. Not that it would be impossible to crack, but it would surely have taken me some time to figure it out, ha! – Gray Jan 30 '13 at 0:54

If you don't want collisions then multiplication/division are out. In which case then I would

  1. Add a 5 digit seed value to your number, if it overflows into six digits discard the sixth.

  2. Reorder the digits in some consistent way.


12345 + 97531 = 109876 or 09876 after discard overflow Reorder to 68097

share|improve this answer
How "If you don't want collisions" correlates with "Reorder the digits in some way."? – zerkms Jan 30 '13 at 0:19
It doesn't. The collisions would be inherent from any multiplication or division where you are ignoring overflow or underflow. i.e. 00000*5 =0, 2000*5 = 100000 which rounds to 00000, and 00020/5 = 00004, 00021/5 = 00004.2 which rounds to 00004. – AlSki Jan 30 '13 at 14:22

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