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For example to calculate the maximum value of a 3 character long base26 encoding the expression would be (((26 * 26) + 26) * 26) + 26), but if I simply wanted to calculate the amount of permutations of the same length with a zero-based numeral system then I could use the Pow method in the Math class like Math.Pow(26, 3). Is there any method in the Math class to do the prior?

For anyone's interest, here is my encoding method for Base26:

    public static string ToBase26(uint u)
        char[] cx = new char[7];
        int index = 0;

        while (u > 0)
            cx[index++] = (char)(65 + (u % 26));
            u /= 26;

        Array.Resize(ref cx, index);

        return new string(cx);
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What do you mean exactly by a "numerical system"? All built-in numerical types have MaxValue field, if that's what you're talking about. –  golergka May 21 at 8:26
I mean an alternative numeral system such as base26 or hexadecimal (base16). –  toplel32 May 21 at 8:27
Ah, so by the "character" here you mean a digit in that custom numerical encoding? –  golergka May 21 at 8:28
Yes exactly, in this example a character part of string with a limited length of 3. –  toplel32 May 21 at 8:29
Just why do you have (26 + (26 * 26) + (26 * 26)) (it gives 1378)? What does it represent? It is not related to Pow(26, 3) - 1 which is the same as 25*Pow(26,2) + 25*Pow(26,1) + 25*Pow(26,0), is it? –  Jeppe Stig Nielsen May 21 at 8:34
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1 Answer 1

up vote 3 down vote accepted

Using letter combinations of up to n letters to label something, like columns in a spreadsheet table, will indeed give


different labels. The compact formula is the geometric sum


Each block of exactly k letters can be interpreted as the numbers 0 to 26^k-1 in base-26 in a zero-padded format. Using the letters 0,1,2,3, the 3 letter block would look like

000, 001, 002, 003, 010, ..., 033, 100, ..., 333

the corresponding encoding using letters A,B,C,D would be

AAA, AAB, AAC, AAD, ABA, ..., ADD, BAA, ..., DDD
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I still don't understand... For n == 3, 26*(26^3-1)/25 gives 18279, but given the letters A..Z then the total number of possible combinations is 26^3 = 17575... –  Matthew Watson May 21 at 9:21
You have to add the number of two-letter and one-letter labels. –  LutzL May 21 at 9:23
Ahh ok, so there's no normal base involved here at all. I was thrown by the mention of the Base 26 encoding in the OP. –  Matthew Watson May 21 at 9:24
Ah, OK, so just to sum up: In a "standard" base 10 example, the number 007 would be the same as just 7. That would be pow(10,k) different values, running from 0 to 999...9 where the last number is pow(10,k) - 1. In the "non-standard" base 10, we count 0,1,2,...,8,9,00,01,02,...,98,99,000,001,002,...,998,999,0000,.... Here we get 10*(pow(10,k)-1)/(10-1) according to your formula. It still goes from 0 to 999...9, but there are more combinations since for example 007 is distinct from (and much later than) 7. –  Jeppe Stig Nielsen May 21 at 11:08
Yes, exactly that and especially the last observation. –  LutzL May 21 at 12:42
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