Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Suppose I have an alphabet of 'abcd' and a maximum string length of 3. This gives me 85 possible strings, including the empty string. What I would like to do is map an integer in the range [0,85) to a string in my string space without using a lookup table. Something like this:

0 => ''
1 => 'a'
4 => 'd'
5 => 'aa'
6 => 'ab'
84 => 'ddd'

This is simple enough to do if the string is fixed length using this pseudocode algorithm:

str = ''
for i in 0..maxLen do
    str += alphabet[i % alphabet.length]
    i /= alphabet.length

I can't figure out a good, efficient way of doing it though when the length of the string could be anywhere in the range [0,3). This is going to be running in a tight loop with random inputs so I would like to avoid any unnecessary branching or lookups.

share|improve this question

4 Answers 4

up vote 2 down vote accepted

Shift your index by one and ignore the empty string temporarily. So you'd map 0 -> "a", ..., 83 -> "ddd".

Then the mapping is

n -> base-4-encode(n - number of shorter strings)

With 26 symbols, that's the Excel-column-numbering scheme.

With s symbols, there are s + s^2 + ... + s^l nonempty strings of length at most l. Leaving aside the trivial case s = 1, that sum is (a partial sum of a geometric series) s*(s^l - 1)/(s-1).

So, given n, find the largest l such that s*(s^l - 1)/(s-1) <= n, i.e.

l = floor(log((s-1)*n/s + 1) / log(s))

Then let m = n - s*(s^l - 1)/(s-1) and encode m as an l+1-symbol string in base s ('a' ~> 0, 'b' ~> 1, ...).

For the problem including the empty string, map 0 to the empty string and for n > 0 encode n-1 as above.

share|improve this answer
Your grasp of the maths involved is clearly a lot stronger than mine, but this is exactly what I was looking for; it works perfectly. Thanks a lot for the help. –  spencercw Feb 14 '12 at 21:31

In Haskell

encode cs n = reverse $ encode' n where
  len = length cs
  encode' 0 = ""
  encode' n = (cs !! ((n-1) `mod` len)) : encode' ((n-1) `div` len)


*Main> map (encode "abcd") [0..84] ["","a","b","c","d","aa","ab","ac","ad","ba","bb","bc","bd","ca","cb","cc","cd","da","db","dc","dd","aaa","aab","aac","aad","aba","abb","abc","abd","aca","acb","acc","acd","ada","adb","adc","add","baa","bab","bac","bad","bba","bbb","bbc","bbd","bca","bcb","bcc","bcd","bda","bdb","bdc","bdd","caa","cab","cac","cad","cba","cbb","cbc","cbd","cca","ccb","ccc","ccd","cda","cdb","cdc","cdd","daa","dab","dac","dad","dba","dbb","dbc","dbd","dca","dcb","dcc","dcd","dda","ddb","ddc","ddd"]

share|improve this answer

Figure out the number of strings for each length: N0, N1, N2 & N3 (actually, you won't need N3). Then, use those values to partition your space of integers: 0..N0-1 are length 0, N0..N0+N1-1 are length 1, etc. Within each partition, you can use your fixed-length algorithm.

At worst, you've greatly reduced the size of your lookup table.

share|improve this answer

Here is a C# solution:

    static string F(int x, int alphabetSize)
        string ret = "";
        while (x > 0)
            ret = (char)('a' + (x % alphabetSize)) + ret;
            x /= alphabetSize;

        return ret;

If you want to optimize this further, you may want to do something to avoid the string concatenations. For example, you could store the result into a preallocated char[] array.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.