# How to create our own numeric system?

The question is for any modern unmanaged language.C-like languages,delphi,anything.

I'd like to create my own cryptography algorithm that ,unlike others,decreases the length of the encrypted string.

My first thought was to create my own numberic system similiar to hexadicimal,but with more characters.For example [0..9] + [A..Z].That would make a number upto 40 into one digit value.I could also add other digits such as '!,./?)(#!' and so on.

My question is how to implement such numberic system from A to Z inculding 0 to 9.Do I have to declare every single value as constant up to 0xZZZZZZZZ? that would make my life terrible

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You appear to be asking about base 36 numbers. These are already used extensively in cryptography, compression etc. Did you do any research at all before asking this question? – anon Jul 30 '09 at 11:05
How does using base 40 decrease the length of the string? Can you provide an example? – S.Lott Jul 30 '09 at 11:06
Creating one's own cryptography may be fun. But if you're seriously going to use it, then read about the attack methods in Practical Cryptography by Niels Ferguson and Bruce Schneider. And I'd recommend you select an existing algorithm after that... amazon.com/Practical-Cryptography-Niels-Ferguson/dp/0471223573 – Arjan Jul 30 '09 at 11:13
Let's be honest. Most of us did create some encryption algorithm at one point in time (usually when starting with programming) but there is extremely low chance of that algorithm being worth anything. Security is quite mathematically intensive playground and people work whole life on it. It is not something that can be done properly as "hobby project". – Josip Medved Jul 30 '09 at 11:19
I guess you missed that an hexadecimal character actually represents half a byte, and not a complete byte. So you put TWO hexadecimal characters in a byte, whereas you put ONE of your base40 characters in a byte. You're actually trying to do the opposite of your goal (which is unachievable,anyway). – FWH Jul 30 '09 at 12:36

Each Base 40 character takes up 8 bits. It encodes a number from 0 to 39, which is just a hair more than of 5 bits of actual information.

A single byte can represent 256 different values. A base 40 encoding only represents 40 different values in that same byte.

This seems to be a net loss of 2-3 bits per byte encoded.

Having said that, a base 40 value IS a string and nothing more. No fancy database declaration is required -- it's just a string.

You write two functions -- toBase40( someBytes ) and toBytes( someBase40string ) to convert your base40 strings to ordinary strings.

If you want a well-done existing solution, research base64.

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You would need to change way how computers and storage works.

There is no free memory and there is no way of getting space for free. Changing number system would give you more space when you write it on paper, but in computer memory, you still need same amount of bits.

Also notice that, if you want to encrypt something, that operation also prevents any meaningful compression since encrypted content must be as near to random as possible.

Usually some form compression is done BEFORE encryption (GZip or something similar) but that does not work by changing number systems.

P.S. Use some proven encryption algorithm.

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Typically the way encryption algorithms reduce the size of the encrypted text is to run the text through a general purpose compression algorithm first, then encrypt the compressed result. You will almost always get a better result this way than trying to combine the two algorithms into one.

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The people who have developed encryption algorithms have spent probably millions of man hours, years in grad school and post-docs to get their expertise. What makes you think you can come up with something better?

You will probably come up with an unsecure algorithm.

Use an existing algorithm and use compression.

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I'll second that. This Coding Horror's post explains better than I ever could: codinghorror.com/blog/archives/001275.html – Jader Dias Jul 30 '09 at 12:21
I did post previously the wrong link, so if you checked it already please check it again – Jader Dias Jul 30 '09 at 12:23

I would recommend simply compressing the input (using gzip, zlib, or whatever) before encrypting it. This is easier and more secure than creating your own algorithm. (GnuPG does this, for example.)

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Base64 strings are common in many computer languages and it's pretty standard. It uses the following characters:

ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/