# Generate 5 length unique code from natural number

I need to generate a unique code with 5 lengths with the given number. In other words, I need to encode natural number to 5 length unique code

I wanna give fixed-length rememberable code to the customer, and keep the sequential number in the database and encode or decode when needed.

The given number can be in the range of 1 to 9999999. But the result always must be 5 lengths.

for example

1 => a56er or 2 => c7gh4

Uniqueness is important I googled a lot and I can't find a solution.

• Scoping question: how big can the numbers be? (If they only go to 99999 for example, then you can just return the number itself, padded if you need that...) Dec 10, 2020 at 7:58
• thank's for attention in range of 1 to 9999999 Dec 10, 2020 at 8:03
• Shall the generated codes be 'random' ? i.e. if 1 is aaaaa, can 2 be aaaab ? Dec 10, 2020 at 8:13
• it's better to be random, but it does not matter. Dec 10, 2020 at 8:14

The given number can be in the range of 1 to 9999999

Right. So you need to encode 24 bits of information, and you have 5 characters in which to do that - so you need 5 bits per character. That's pleasantly in the range of "only digits and lower case ASCII characters" and you can even remove points of confusion like "o/0" and "i/1".

Note that this isn't in any way "secure" - it's entirely predictable and reversible. If you don't want customers being able to reverse engineer their sequence number from the encoded form, it won't work. But it's a simple way of encoding a number as a fixed-length string.

Sample code showing encoding and decoding:

``````using System;
using System.Globalization;

public class Test
{
static void Main()
{
EncodeDecode(10);
EncodeDecode(100);
EncodeDecode(1000);
EncodeDecode(10000);
EncodeDecode(100000);
EncodeDecode(1000000);
EncodeDecode(9999999);

void EncodeDecode(int number)
{
string encoded = EncodeBase32(number);
int decoded = DecodeBase32(encoded);
Console.WriteLine(\$"{number} => {encoded} => {decoded}");
}
}

private const string Base32Alphabet =
"23456789abcdefghjklmnpqrstuvwxyz";
private static string EncodeBase32(int number)
{
// TODO: Range validation
char[] chars = new char;
for (int i = 0; i < 5; i++)
{
chars[i] = Base32Alphabet[number & 0x1f];
number = number >> 5;
}
return new string(chars);
}

private static int DecodeBase32(string text)
{
if (text.Length != 5)
{
throw new ArgumentException("Invalid input: wrong length");
}
int number = 0;
for (int i = 4; i >= 0; i--)
{
number = number << 5;
int index = Base32Alphabet.IndexOf(text[i]);
if (index == -1)
{
throw new ArgumentException("Invalid input: invalid character");
}
number |= index;
}
return number;
}
}
``````

Output:

``````10 => c2222 => 10
100 => 65222 => 100
1000 => az222 => 1000
10000 => jsb22 => 10000
100000 => 2p352 => 100000
1000000 => 2ljy2 => 1000000
9999999 => zm7kb => 9999999
``````
• thank you it's fine and solves my problem. but is there a way to make it random? Dec 10, 2020 at 8:58
• @AliasgharAhmadpour: Making it random and generating it from the input number are contradictory. It could be pseudo-random (so still predictable from the input), but you'd need to give more details about exactly what your requirements are in order to provide an answer for that. An alternative is to generate a truly random string (as random as you can, not based on any input) that you store in the database, with appropriate safeguards against duplicates, but that's not the question you asked. Dec 10, 2020 at 9:15
• Again, thanks for your attention. The given solution solved my problem. but I wanna know is there any way to make it non-sequential? The generated code is sequential: 0 => 22222 1 => 32222 2 => 42222 Dec 12, 2020 at 5:06
• I asked new question in stackoverflow.com/q/65263378/9221609 Dec 12, 2020 at 9:26
• and unfortunately it was quickly closed as duplicate (of this question). What can you do? Dec 12, 2020 at 14:23

Based on your requirements, I will first answer to your question, then give you what I think is the best solution.

So, based on your number 1 to 9999999, you can use a SHA256 or MD5 or any other hashing function to generate a string, then use Substring on a random part of the string, to get the code you ask for.

A more simple approach which I personally used is to just ignore the user input, and use Guid.NewGuid() function, which will generate a random string of 16 characthers, on which you can remove the "-" and take 5 random charachters with substring and get the code you want.

``````Guid.NewGuid()
``````

Gives you codes in a fashion like "a869ee3e-13b2-46ce-8c09-ff8998ab9393". Then you apply a

``````string.Replace("-")
``````

and you get "a869ee3e13b246ce8c09ff8998ab9393" then you take a random piece of 5 charachters in the string (just do a substring and pass as starting point a Random number that is ranged between 1 and string lenght -5 (if you want a 5 lenght charachter).

Or to put more simple

``````Guid.NewGuid().ToString().Replace("-", "").Substring(x.Next(1,27),5)
``````

This will give the code you're asking for

• @MichaelMao No. This will give you an alphanumeric code like asked by the question author. If you want a numeric code, you should just use Random.Next() and possibly apply a seed to apply more "randomization". An approach I use for more randomness is to generate a lot of random numbers with Random.Next, each with different seed, and with another Random.Next, choose one of them. They still are pseudo random numbers, but I never got an equal number, it's a very hard possibility. Dec 10, 2020 at 8:21
• The approached here won't guarantee uniqueness. If you provide sample code, I'm happy to write a sample based on it that shows duplicates. (You could add uniqueness by retaining the generated string and keeping going until you've got a new value, but at that point it's really not an answer to the question that was asked.) Dec 10, 2020 at 8:22
• @JonSkeet Apply your example to my last code on NewGuid example. Dec 10, 2020 at 8:29
• @LiquidCore: That's easy to prove that it must generate duplicates - because it will be 5 characters of hex, leading to a total of 16^5 = 1,048,576 possible outcomes. When the numbers are in the range 1 - 9,999,999, there have to be duplicates. Dec 10, 2020 at 8:37
• To put it in another way, you offer a solution which will give over a million different codes, while the question is about to have 10 million different codes. Therefore, with the best of luck, whenever OP will have 2 million numbers in its database, each will be repeated twice. Hence uniqueness is not respected. Dec 10, 2020 at 8:43