# Convert number into 7 bit words with 96 states max

I would like to encode some information in Code128 barcodes which allow 96 different characters to be used in one slot. Therefore, 95 decimal would translate to 101 1111b and 96 to 1 000 0000b.

Now I need an algorithm that converts a decimal (or binary) number into 7 bit words with 96 states at maximum. I sat here all morning trying to figure that algorithm out (playing with bit shifts and logarithms), but it seems that I'm missing some important point here.

How would I translate, for example, 537 (10 0001 1001b) into such words?

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After playing a bit with the numbers I finally found the solution. For 883.736:

883.736 / 96 = 9.205 R: 56
9.205 / 96 =    95 R: 85
95 / 96 =     0 R: 95


Those numbers can be converted into 7 bit words. To get the original value:

883.736 = 56 * 96^0 + 85 * 96^1 + 95 * 96^2


Algorithm expressed in C# (little endian):

public static class Base96
{
private const int BASE = 96;

public static byte[] Encode(int number)
{
var list = new List<Byte>();

do
{
}
while ((number = (number / BASE)) > 0);

return list.ToArray();
}

public static int Decode(byte[] words)
{
int result = 0;

for (int i = 0; i < words.Length; i++)
{
result += (words[i] * (int)Math.Pow(BASE, i));
}

return result;
}

}


Call like this:

var encoded = Base96.Encode(883736);
var decoded = Base96.Decode(encoded);

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