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I'm attempting to write a program that will generate a text file with every possible permutation of the alphabet from one character up to twenty-nine characters. I've chosen 29 as the longest English word that everyone knows is antidisestablishmentarianism which is 28 characters in length. There are longer ones, but they are mainly very technical and obscure.

I realise this will generate a huge number of strings. However I've no idea where to start or even how to figure out how many combinations this will generate.

Answers please for solutions in PHP, Processing, C++ or Java (I'm only familiar with those, PHP is preferred, but probably no the best for this I should imagine).

Or even just pseudo-code / ideas will be appreciated.

Also, before someone says it, this isn't for brute forcing or anything like that. I'm an artist, albeit somewhat unknown and obscure with my concepts.

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I hope you understand just how big this text file would be. Better purchase a few more hard disks. – EboMike Jan 5 '11 at 23:05
The combined storage space of our entire planet could not store that list. – thirtydot Jan 5 '11 at 23:07
Oh. One for the future then I guess. – logic-unit Jan 5 '11 at 23:09
Are we talking about permutations of a single word or combinations of the letters of the alphabet? From the question it isn't clear to me. – Matteo Italia Jan 5 '11 at 23:16
Since this is an art project, maybe the result doesn't need to be stored. Perhaps it could flash an LED pointed at the Large Magellanic Cloud or something? – Tony Park Jan 5 '11 at 23:32

13 Answers 13

up vote 4 down vote accepted

The word "permutation" usually means that each letter appears exactly once, so it would be impossible to generate any permutation with more than 26 letters. Anyway, since the number of generated strings is too big, you can use random strings instead (the following is C code):

char s[30];
int p;
for (;;) // repeat forever: you cannot use a realistic iteration limit anyway
    for (p = 0; p < 29; ++p)
        s[p] = 'a' + rand() % 26;
    s[29] = '\0';
share|improve this answer
Not very systematic, is it :) – EboMike Jan 5 '11 at 23:19
+1 for the witty sarcasm. – brian_d Jan 5 '11 at 23:21
that is incorrect, you have given the definition for combination, a permutation is a construction using a combination, eg: the combination of letters a,b and c can construct the permuations abc or aabbcc or abbbbc etc... – Matthieu N. Jan 5 '11 at 23:51
Indeed, you are giving a definition of a combination, not permutation. In combination, abc and acb are the same. But in permutation, abc and acb are 2 different arrangement. – Lynnell Emmanuel Neri Dec 9 '15 at 4:51
void out_perms(std::string word) {
    std::vector<int> indexes(word.size());
    for (size_t i = 0; i < indexes.size(); ++i)
        indexes[i] = i;
    do {
        for (size_t i = 0; i < indexes.size(); ++i)
            std::cout << word[indexes[i]];
        std::cout << std::endl;
    } while (std::next_permutation(indexes.begin(), indexes.end()));

int main(int, char**) {

See for example output

share|improve this answer
I interpreted "every possible permutation of the alphabet" as "every possible combination of letters in the alphabet", i.e. from "a" over "aaaaa" through "zzzzz". – EboMike Jan 5 '11 at 23:17

Obviously, the outer for loop is for the number of characters in your word. Then, you just create strings with that length. For length 5, you start with "AAAAA", then "AAAAB", "AAAAC".

Once you hit "Z", you go back and move the character to your left one up, i.e. "AAAAZ" becomes "AAABA", and "AAAZZ" becomes "AABAA". Once you hit "ZZZZZ", you're done with the inner loop, and the outer loop will then start with "AAAAAA".

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I believe the concept is more easily understood as counting in base 26. The first "digit" goes from A to Z, next to AA, AB, ..., AZ then BA and so on. – Thomas Matthews Jan 5 '11 at 23:20
Yep, same thing as counting from 1 to 999999, except that you're using letters as digits. – EboMike Jan 5 '11 at 23:23

Here is a simple untested program in C++ that creates the words by counting in Base 26:

#include <string>
#include <iostream>

int main(void)
    //  Print permuations of strings of letters up to length 5.
    //  Use base 26 arithmetic.
    const unsigned int MAX_ITERATIONS = 26 * 26 * 26 * 26 * 26;

    std::string word = "A";
    for (unsigned int i = 0; i < MAX_ITERATIONS; ++i)
        //  Print the word
        std::cout << word << std::endl;

        //  Increment the word, using base 26 arithmetic.
        //  A, B, C, ..., Z.
        //  AA, BA, CA, ..., ZA, AB, BB, CB, DB, ..., ZZ.
        //  AAA, BAA, CAA, ..., ZAA, ABA, BBA, CBA, DBA, ..., ZZZ.
        bool            carry_generated = false;
        unsigned int    digit = 0;
            carry_generated = false;
            if (word[digit] < 'Z')
            word[digit++] = 'A';
            if (word.length() == digit)
                word += "A";
            carry_generated = true;
        } while (carry_generated && (digit < 5));

    return 0;

The number of words printed can be reduced by checking a word list (a.k.a. dictionary) before printing. If the word is in the word list, print it.

The biggest issue with a word length of 29 is representing the quantity. The quantity overflows the range of the standard C++ unsigned integers. A Big Int library would need to be used. The next issue is the time required to process every combination. Multiply the quantity by 1 microsecond per iteration (a kind of worse case) and reduce down to days, hours, minutes and seconds. Perhaps years may be required.

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Thanks Thomas, that's a great answer. Yeah I hadn't thought of it exceeding the integer length. – logic-unit Jan 6 '11 at 0:00
My rough estimate is 8.9E+29 years, assuming 1 microsecond per iteration and a total of 26^30 (26 to power of 30) iterations (it should be less by one, but that is insignificant in a number this large). I could be wrong... – Thomas Matthews Jan 6 '11 at 0:05

Using PHP's Perl-style character incrementing.


$perm = 'A';
$endTest = str_repeat('Z',28).'A';
while ($perm != $endTest) {
    echo $perm++,"\n";

Run the script from the command line so you don't hit a webserver timeout; then sit back and wait a few years for it to complete

share|improve this answer
Nice solution, thanks. I'll get the kettle on while it's running. – logic-unit Jan 5 '11 at 23:58
function p($length, $partial)
      if ($length == 0) return $partial;
      $ans = array();
      foreach (range('a', 'z') as $i)
          $ans[] = p($length -1, $partial . $i);
      return $ans;  

$top = 3;
//$f = fopen('out.txt');
for ($l = 1; $l < $top+1; $l++)
     print_r(p($l), '');
     //fwrite($p($l), '');

If you want to set $top to 29 and give it a try go ahead. I'm not going to.

EDIT - print_r(p($l), ''); ---> print_r(p($l, ''));

PHP keeps impressing me with its tolerance for mistakes. Missing a 'required' argument to my p? no problem itll just be empty string somehow (or zero, or false, situation depending). Second '' argument to print_r? no difference, gets treated like the default false anyway


I don't know what the hell I was doing here. The different return types of p are quite odd, and will return a compound array with a weird structure.

This is a far better solution anyway

$lengthDesired = 29;
for($i='a'; $i != str_pad('',$lengthDesired+1,'a'); $i++)
    echo $i .', ';
share|improve this answer

Here is a permutation generator written in java

However as he mentions

  // Constructor. WARNING: Don't make n too large.
  // Recall that the number of permutations is n!
  // which can be very large, even when n is as small as 20 --
  // 20! = 2,432,902,008,176,640,000 and
  // 21! is too big to fit into a Java long, which is
  // why we use BigInteger instead.

Since your n is 29, you will be waiting a long, long time. It is too large, as EboMike is trying to tell you in his comments.

share|improve this answer
Yes I knew it was going to be big. Didn't quite realise how big. I'm sure it's possible, to display this information in some form. That may be the bigger challenge, rather than generating the combinations. – logic-unit Jan 6 '11 at 0:04

just off the top of my head (PHP).

$index = 0;

while(1) {
   $output_string = '';
   $base_26 = (string)base_convert($index, 10, 26);
   if (strlen($base_26) > 29) break;
   for ($i = 0; $i < strlen($base_26); $i++) {
      $output_string .= chr(65 + base_convert($base_26[$i], 26, 10));
   echo $output_string;
share|improve this answer
the script would most likely eventually break. – dqhendricks Jan 5 '11 at 23:19

This is what I would do:

#include <iostream>

void printWords(std::string& word, int index, int last)
    std::cout << word << "\n";
    if (index != last)
        for(char loop = 'a'; loop <= 'z'; ++loop)
            word[index] = loop;
            printWords(word, index+1, last);
        word[index] = ' ';

int main()
    std::string word("                             "); // 29 space

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A Java solution that should do the trick:

public void characterPermutations(int length, LinkedList<String> permutations) {
    if(length > 1) {
        characterPermutations(length - 1, permutations);

        ListIterator<String> iterator = permutations.listIterator();
        while(iterator.hasNext()) {
            String permutation =;
            for(char c = 'a'; c <= 'z'; c++) {
                iterator.add(c + permutation);

    } else {
        for(char c = 'a'; c <= 'z'; c++) {
            permutations.add(c + "");
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public class hii {  

public static void main(String[] args){

    String[] database = {"a","b","c","d","e","f","g","h","i","j","k","l","m","n","o","p","q","r","s","t","u","v","w","x","y","z"};

    for(int i=1; i<=database.length; i++){
        String[] result = getAllLists(database, i);
        for(int j=0; j<result.length; j++){


    public static String[] getAllLists(String[] elements, int lengthOfList)
        //initialize our returned list with the number of elements calculated above
        String[] allLists = new String[(int)Math.pow(elements.length, lengthOfList)];

        //lists of length 1 are just the original elements
        if(lengthOfList == 1) return elements; 
        else {
            //the recursion--get all lists of length 3, length 2, all the way up to 1
            String[] allSublists = getAllLists(elements, lengthOfList - 1);

            //append the sublists to each element
            int arrayIndex = 0;

            for(int i = 0; i < elements.length; i++){
                for(int j = 0; j < allSublists.length; j++){
                    //add the newly appended combination to the list
                    allLists[arrayIndex] = elements[i] + allSublists[j];
            return allLists;

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The easiest way I can think of to get every permutation from 1 char to 29 chars in pseudo-code:

loop from i = 1 to 26^29 or 27^29 if you want to include spaces
   convert i to base 26 or 27;
   translate each number to the corresponding letter;
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Even if you could store this on disk, like thirydot pointed out, you'd run out of time doing this.

Just generating (and not storing) all the 6-letter possiblilies took 24 seconds on my computer:

$ time perl

real    0m24.837s
user    0m24.765s
sys     0m0.030s

Which is 7.7X10^-8s per word, That means it would take 8.4x10^33s or 2.6x10^26 years to do this.

You need to think more about your algorithm.

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