How would I go about generating a list of all possible permutations of a string between x and y characters in length, containing a variable list of characters.

Any language would work, but it should be portable.

34 Answers 34


There are several ways to do this. Common methods use recursion, memoization, or dynamic programming. The basic idea is that you produce a list of all strings of length 1, then in each iteration, for all strings produced in the last iteration, add that string concatenated with each character in the string individually. (the variable index in the code below keeps track of the start of the last and the next iteration)

Some pseudocode:

list = originalString.split('')
index = (0,0)
list = [""]
for iteration n in 1 to y:
  index = (index[1], len(list))
  for string s in list.subset(index[0] to end):
    for character c in originalString:
      list.add(s + c)

you'd then need to remove all strings less than x in length, they'll be the first (x-1) * len(originalString) entries in the list.

  • 4
    Why first store the list of elements, and then clear it? (referring to line 1 and 3 in the pseudocode). – Håvard Geithus May 26 '12 at 17:25
  • 6
    What is y (line 4) ? – Jaseem Sep 23 '12 at 21:13
  • 7
    @Jaseem From the question: "all possible permutations of a string between x and y characters in length" – cksubs Mar 28 '13 at 23:06

It's better to use backtracking

#include <stdio.h>
#include <string.h>

void swap(char *a, char *b) {
    char temp;
    temp = *a;
    *a = *b;
    *b = temp;

void print(char *a, int i, int n) {
    int j;
    if(i == n) {
        printf("%s\n", a);
    } else {
        for(j = i; j <= n; j++) {
            swap(a + i, a + j);
            print(a, i + 1, n);
            swap(a + i, a + j);

int main(void) {
    char a[100];
    print(a, 0, strlen(a) - 1);
    return 0;
  • 3
    Best solution everrrrrrrrr – GrowinMan Mar 11 '15 at 4:16
  • It's a alot readable and easy to grasp just on a look. – joey rohan Jul 21 '15 at 11:48

You are going to get a lot of strings, that's for sure...

Where x and y is how you define them and r is the number of characters we are selecting from --if I am understanding you correctly. You should definitely generate these as needed and not get sloppy and say, generate a powerset and then filter the length of strings.

The following definitely isn't the best way to generate these, but it's an interesting aside, none-the-less.

Knuth (volume 4, fascicle 2, tells us that (s,t)-combination is equivalent to s+1 things taken t at a time with repetition -- an (s,t)-combination is notation used by Knuth that is equal to {t \choose {s+t}. We can figure this out by first generating each (s,t)-combination in binary form (so, of length (s+t)) and counting the number of 0's to the left of each 1.

10001000011101 --> becomes the permutation: {0, 3, 4, 4, 4, 1}


Non recursive solution according to Knuth, Python example:

def nextPermutation(perm):
    k0 = None
    for i in range(len(perm)-1):
        if perm[i]<perm[i+1]:
    if k0 == None:
        return None

    l0 = k0+1
    for i in range(k0+1, len(perm)):
        if perm[k0] < perm[i]:
            l0 = i

    perm[k0], perm[l0] = perm[l0], perm[k0]
    perm[k0+1:] = reversed(perm[k0+1:])
    return perm

while perm:
    print perm
    perm = nextPermutation(perm)
  • 2
    Actually, this does not work when string is not sorted. If you try with "54321" only ONE string is showed (itself). – tonjo Aug 2 '15 at 12:35
  • 1
    What's interesting is that nextPermutation() is stateless – it takes only the input to permutate and indexes aren't maintained from iteration to iteration. It is able to do so by assuming that the the initial input was sorted and finding indexes (k0 and l0) itself, based on where the ordering is maintained. Sorting an input like "54321" -> "12345" would allow this algorithm to find all of the expected permutations. But since it does a good amount of extra work to re-find those indexes for every permutation it generates, there are more efficient ways of doing this non-recursively. – spaaarky21 May 1 '17 at 3:15

You might look at "Efficiently Enumerating the Subsets of a Set", which describes an algorithm to do part of what you want - quickly generate all subsets of N characters from length x to y. It contains an implementation in C.

For each subset, you'd still have to generate all the permutations. For instance if you wanted 3 characters from "abcde", this algorithm would give you "abc","abd", "abe"... but you'd have to permute each one to get "acb", "bac", "bca", etc.


Some working Java code based on Sarp's answer:

public class permute {

    static void permute(int level, String permuted,
                    boolean used[], String original) {
        int length = original.length();
        if (level == length) {
        } else {
            for (int i = 0; i < length; i++) {
                if (!used[i]) {
                    used[i] = true;
                    permute(level + 1, permuted + original.charAt(i),
                       used, original);
                    used[i] = false;

    public static void main(String[] args) {
        String s = "hello";
        boolean used[] = {false, false, false, false, false};
        permute(0, "", used, s);
  • As a comment, note that for a string with repeated characters this will not produce the unique permutations. This could be solved with a hash, but that might be a problem with long strings. – Glenn Oct 29 '10 at 19:17
  • 8
    You might want to use char arrays instead of strings to make this run faster since strings are immutable in java. – Abhijeet Kashnia Jul 1 '12 at 7:06

Here is a simple solution in C#.

It generates only the distinct permutations of a given string.

    static public IEnumerable<string> permute(string word)
        if (word.Length > 1)

            char character = word[0];
            foreach (string subPermute in permute(word.Substring(1)))

                for (int index = 0; index <= subPermute.Length; index++)
                    string pre = subPermute.Substring(0, index);
                    string post = subPermute.Substring(index);

                    if (post.Contains(character))

                    yield return pre + character + post;

            yield return word;

There are a lot of good answers here. I also suggest a very simple recursive solution in C++.

#include <string>
#include <iostream>

template<typename Consume>
void permutations(std::string s, Consume consume, std::size_t start = 0) {
    if (start == s.length()) consume(s);
    for (std::size_t i = start; i < s.length(); i++) {
        std::swap(s[start], s[i]);
        permutations(s, consume, start + 1);

int main(void) {
    std::string s = "abcd";
    permutations(s, [](std::string s) {
        std::cout << s << std::endl;

Note: strings with repeated characters will not produce unique permutations.

  • 2
    This solution is excellent and deserves more attention. – Mike S Aug 19 '14 at 19:51

I just whipped this up quick in Ruby:

def perms(x, y, possible_characters)
  all = [""]
  current_array = all.clone
  1.upto(y) { |iteration|
    next_array = []
    current_array.each { |string|
      possible_characters.each { |c|
        value = string + c
        next_array.insert next_array.length, value
        all.insert all.length, value
    current_array = next_array
  all.delete_if { |string| string.length < x }

You might look into language API for built in permutation type functions, and you might be able to write more optimized code, but if the numbers are all that high, I'm not sure there is much of a way around having a lot of results.

Anyways, the idea behind the code is start with string of length 0, then keep track of all the strings of length Z where Z is the current size in the iteration. Then, go through each string and append each character onto each string. Finally at the end, remove any that were below the x threshold and return the result.

I didn't test it with potentially meaningless input (null character list, weird values of x and y, etc).

  • 11
    This code is WRONG. It will generate invalid permutations, such as ones with repeated characters. For example, for string "abc", it generates these permutations of size 3: ["aaa", "aab", "aac", "aba", "abb", "abc", "aca", "acb", "acc", "baa", "bab", "bac", "bba", "bbb", "bbc", "bca", "bcb", "bcc", "caa", "cab", "cac", "cba", "cbb", "cbc", "cca", "ccb", "ccc"]. This is incorrect. – pmc255 Oct 14 '10 at 3:07

This is a translation of Mike's Ruby version, into Common Lisp:

(defun perms (x y original-string)
  (loop with all = (list "")
        with current-array = (list "")
        for iteration from 1 to y
        do (loop with next-array = nil
                 for string in current-array
                 do (loop for c across original-string
                          for value = (concatenate 'string string (string c))
                          do (push value next-array)
                             (push value all))
                    (setf current-array (reverse next-array)))
        finally (return (nreverse (delete-if #'(lambda (el) (< (length el) x)) all)))))

And another version, slightly shorter and using more loop facility features:

(defun perms (x y original-string)
  (loop repeat y
        collect (loop for string in (or (car (last sets)) (list ""))
                      append (loop for c across original-string
                                   collect (concatenate 'string string (string c)))) into sets
        finally (return (loop for set in sets
                              append (loop for el in set when (>= (length el) x) collect el)))))

Here is a simple word C# recursive solution:


public ArrayList CalculateWordPermutations(string[] letters, ArrayList words, int index)
            bool finished = true;
            ArrayList newWords = new ArrayList();
            if (words.Count == 0)
                foreach (string letter in letters)

            for(int j=index; j<words.Count; j++)
                string word = (string)words[j];
                for(int i =0; i<letters.Length; i++)
                        finished = false;
                        string newWord = (string)word.Clone();
                        newWord += letters[i];

            foreach (string newWord in newWords)

            if(finished  == false)
                CalculateWordPermutations(letters, words, words.Count - newWords.Count);
            return words;


string[] letters = new string[]{"a","b","c"};
ArrayList words = CalculateWordPermutations(letters, new ArrayList(), 0);

In Perl, if you want to restrict yourself to the lowercase alphabet, you can do this:

my @result = ("a" .. "zzzz");

This gives all possible strings between 1 and 4 characters using lowercase characters. For uppercase, change "a" to "A" and "zzzz" to "ZZZZ".

For mixed-case it gets much harder, and probably not doable with one of Perl's builtin operators like that.


... and here is the C version:

void permute(const char *s, char *out, int *used, int len, int lev)
    if (len == lev) {
        out[lev] = '\0';

    int i;
    for (i = 0; i < len; ++i) {
        if (! used[i])

        used[i] = 1;
        out[lev] = s[i];
        permute(s, out, used, len, lev + 1);
        used[i] = 0;

permute (ABC) -> A.perm(BC) -> A.perm[B.perm(C)] -> A.perm[(*BC), (CB*)] -> [(*ABC), (BAC), (BCA*), (*ACB), (CAB), (CBA*)] To remove duplicates when inserting each alphabet check to see if previous string ends with the same alphabet (why? -exercise)

public static void main(String[] args) {

    for (String str : permStr("ABBB")){

static Vector<String> permStr(String str){

    if (str.length() == 1){
        Vector<String> ret = new Vector<String>();
        return ret;

    char start = str.charAt(0);
    Vector<String> endStrs = permStr(str.substring(1));
    Vector<String> newEndStrs = new Vector<String>();
    for (String endStr : endStrs){
        for (int j = 0; j <= endStr.length(); j++){
            if (endStr.substring(0, j).endsWith(String.valueOf(start)))
            newEndStrs.add(endStr.substring(0, j) + String.valueOf(start) + endStr.substring(j));
    return newEndStrs;

Prints all permutations sans duplicates


Ruby answer that works:

class String
  def each_char_with_index
    0.upto(size - 1) do |index|
      yield(self[index..index], index)
  def remove_char_at(index)
    return self[1..-1] if index == 0
    self[0..(index-1)] + self[(index+1)..-1]

def permute(str, prefix = '')
  if str.size == 0
    puts prefix
  str.each_char_with_index do |char, index|
    permute(str.remove_char_at(index), prefix + char)

# example
# permute("abc")

Recursive solution in C++

int main (int argc, char * const argv[]) {
        string s = "sarp";
        bool used [4];
        permute(0, "", used, s);

void permute(int level, string permuted, bool used [], string &original) {
    int length = original.length();

    if(level == length) { // permutation complete, display
        cout << permuted << endl;
    } else {
        for(int i=0; i<length; i++) { // try to add an unused character
            if(!used[i]) {
                used[i] = true;
                permute(level+1, original[i] + permuted, used, original); // find the permutations starting with this string
                used[i] = false;
  • @Sarp Centel: does this code work in C++? <string> – Lazer Apr 4 '10 at 18:13

The following Java recursion prints all permutations of a given string:

//call it as permut("",str);

public void permut(String str1,String str2){
    if(str2.length() != 0){
        char ch = str2.charAt(0);
        for(int i = 0; i <= str1.length();i++)
            permut(str1.substring(0,i) + ch + str1.substring(i,str1.length()),

Following is the updated version of above "permut" method which makes n! (n factorial) less recursive calls compared to the above method

//call it as permut("",str);

public void permut(String str1,String str2){
   if(str2.length() > 1){
       char ch = str2.charAt(0);
       for(int i = 0; i <= str1.length();i++)
          permut(str1.substring(0,i) + ch + str1.substring(i,str1.length()),
    char ch = str2.charAt(0);
    for(int i = 0; i <= str1.length();i++)
        System.out.println(str1.substring(0,i) + ch +    str1.substring(i,str1.length()),
  • This is the cleanest solution, and I believe I have seen it before in the book "Cracking the Coding Interview" – Tao Zhang Aug 13 '16 at 4:21
  • 1
    @TaoZhang thanks for the complement, I did not copy it from anywhere however it is possible that someone has created similar algo. Anyways I have updated the code above for less recursive calls – Ramy Aug 16 '16 at 23:18
import java.util.*;

public class all_subsets {
    public static void main(String[] args) {
        String a = "abcd";
        for(String s: all_perm(a)) {

    public static Set<String> concat(String c, Set<String> lst) {
        HashSet<String> ret_set = new HashSet<String>();
        for(String s: lst) {
        return ret_set;

    public static HashSet<String> all_perm(String a) {
        HashSet<String> set = new HashSet<String>();
        if(a.length() == 1) {
        } else {
            for(int i=0; i<a.length(); i++) {
                set.addAll(concat(a.charAt(i)+"", all_perm(a.substring(0, i)+a.substring(i+1, a.length()))));
        return set;

Here's a non-recursive version I came up with, in javascript. It's not based on Knuth's non-recursive one above, although it has some similarities in element swapping. I've verified its correctness for input arrays of up to 8 elements.

A quick optimization would be pre-flighting the out array and avoiding push().

The basic idea is:

  1. Given a single source array, generate a first new set of arrays which swap the first element with each subsequent element in turn, each time leaving the other elements unperturbed. eg: given 1234, generate 1234, 2134, 3214, 4231.

  2. Use each array from the previous pass as the seed for a new pass, but instead of swapping the first element, swap the second element with each subsequent element. Also, this time, don't include the original array in the output.

  3. Repeat step 2 until done.

Here is the code sample:

function oxe_perm(src, depth, index)
    var perm = src.slice();     // duplicates src.
    perm = perm.split("");
    perm[depth] = src[index];
    perm[index] = src[depth];
    perm = perm.join("");
    return perm;

function oxe_permutations(src)
    out = new Array();


    for (depth = 0; depth < src.length; depth++) {
        var numInPreviousPass = out.length;
        for (var m = 0; m < numInPreviousPass; ++m) {
            for (var n = depth + 1; n < src.length; ++n) {
                out.push(oxe_perm(out[m], depth, n));

    return out;

I'm not sure why you would want to do this in the first place. The resulting set for any moderately large values of x and y will be huge, and will grow exponentially as x and/or y get bigger.

Lets say your set of possible characters is the 26 lowercase letters of the alphabet, and you ask your application to generate all permutations where length = 5. Assuming you don't run out of memory you'll get 11,881,376 (i.e. 26 to the power of 5) strings back. Bump that length up to 6, and you'll get 308,915,776 strings back. These numbers get painfully large, very quickly.

Here's a solution I put together in Java. You'll need to provide two runtime arguments (corresponding to x and y). Have fun.

public class GeneratePermutations {
    public static void main(String[] args) {
        int lower = Integer.parseInt(args[0]);
        int upper = Integer.parseInt(args[1]);

        if (upper < lower || upper == 0 || lower == 0) {

        for (int length = lower; length <= upper; length++) {
            generate(length, "");

    private static void generate(int length, String partial) {
        if (length <= 0) {
        } else {
            for (char c = 'a'; c <= 'z'; c++) {
                generate(length - 1, partial + c);
  • Long time but aren't you generating them with repetition? – Kakira May 11 '14 at 5:07

I needed this today, and although the answers already given pointed me in the right direction, they weren't quite what I wanted.

Here's an implementation using Heap's method. The length of the array must be at least 3 and for practical considerations not be bigger than 10 or so, depending on what you want to do, patience and clock speed.

Before you enter your loop, initialise Perm(1 To N) with the first permutation, Stack(3 To N) with zeroes*, and Level with 2**. At the end of the loop call NextPerm, which will return false when we're done.

* VB will do that for you.

** You can change NextPerm a little to make this unnecessary, but it's clearer like this.

Option Explicit

Function NextPerm(Perm() As Long, Stack() As Long, Level As Long) As Boolean
Dim N As Long
If Level = 2 Then
    Swap Perm(1), Perm(2)
    Level = 3
    While Stack(Level) = Level - 1
        Stack(Level) = 0
        If Level = UBound(Stack) Then Exit Function
        Level = Level + 1
    Stack(Level) = Stack(Level) + 1
    If Level And 1 Then N = 1 Else N = Stack(Level)
    Swap Perm(N), Perm(Level)
    Level = 2
End If
NextPerm = True
End Function

Sub Swap(A As Long, B As Long)
A = A Xor B
B = A Xor B
A = A Xor B
End Sub

'This is just for testing.
Private Sub Form_Paint()
Const Max = 8
Dim A(1 To Max) As Long, I As Long
Dim S(3 To Max) As Long, J As Long
Dim Test As New Collection, T As String
For I = 1 To UBound(A)
    A(I) = I
ScaleLeft = 0
J = 2
    If CurrentY + TextHeight("0") > ScaleHeight Then
        ScaleLeft = ScaleLeft - TextWidth(" 0 ") * (UBound(A) + 1)
        CurrentY = 0
        CurrentX = 0
    End If
    T = vbNullString
    For I = 1 To UBound(A)
        Print A(I);
        T = T & Hex(A(I))
    Test.Add Null, T
Loop While NextPerm(A, S, J)
J = 1
For I = 2 To UBound(A)
    J = J * I
If J <> Test.Count Then Stop
End Sub

Other methods are described by various authors. Knuth describes two, one gives lexical order, but is complex and slow, the other is known as the method of plain changes. Jie Gao and Dianjun Wang also wrote an interesting paper.


In ruby:

str = "a"
100_000_000.times {puts str.next!}

It is quite fast, but it is going to take some time =). Of course, you can start at "aaaaaaaa" if the short strings aren't interesting to you.

I might have misinterpreted the actual question though - in one of the posts it sounded as if you just needed a bruteforce library of strings, but in the main question it sounds like you need to permutate a particular string.

Your problem is somewhat similar to this one: http://beust.com/weblog/archives/000491.html (list all integers in which none of the digits repeat themselves, which resulted in a whole lot of languages solving it, with the ocaml guy using permutations, and some java guy using yet another solution).

  • An issue with your proposal is that str.next! won't iterate over all printable characters. Your example will only generate lowercase letters - no punctuation, or capital letters. – Jarsen Oct 29 '10 at 19:00

This code in python, when called with allowed_characters set to [0,1] and 4 character max, would generate 2^4 results:

['0000', '0001', '0010', '0011', '0100', '0101', '0110', '0111', '1000', '1001', '1010', '1011', '1100', '1101', '1110', '1111']

def generate_permutations(chars = 4) :

#modify if in need!
    allowed_chars = [

    status = []
    for tmp in range(chars) :

    last_char = len(allowed_chars)

    rows = []
    for x in xrange(last_char ** chars) :
        for y in range(chars - 1 , -1, -1) :
            key = status[y]
            rows[x] = allowed_chars[key] + rows[x]

        for pos in range(chars - 1, -1, -1) :
            if(status[pos] == last_char - 1) :
                status[pos] = 0
            else :
                status[pos] += 1

    return rows

import sys

print generate_permutations()

Hope this is of use to you. Works with any character, not only numbers

  • This is not permutations but subset selection, i.e. ABC & 001 = C while a valid permutation must have all three chars. – Schultz9999 Aug 24 '12 at 4:52
  • uh? sorry I don't understand what you say. If you fix it leave a fixed version, I'll community wiki the thing – droope Sep 3 '12 at 3:32

Though this doesn't answer your question exactly, here's one way to generate every permutation of the letters from a number of strings of the same length: eg, if your words were "coffee", "joomla" and "moodle", you can expect output like "coodle", "joodee", "joffle", etc.

Basically, the number of combinations is the (number of words) to the power of (number of letters per word). So, choose a random number between 0 and the number of combinations - 1, convert that number to base (number of words), then use each digit of that number as the indicator for which word to take the next letter from.

eg: in the above example. 3 words, 6 letters = 729 combinations. Choose a random number: 465. Convert to base 3: 122020. Take the first letter from word 1, 2nd from word 2, 3rd from word 2, 4th from word 0... and you get... "joofle".

If you wanted all the permutations, just loop from 0 to 728. Of course, if you're just choosing one random value, a much simpler less-confusing way would be to loop over the letters. This method lets you avoid recursion, should you want all the permutations, plus it makes you look like you know Maths(tm)!

If the number of combinations is excessive, you can break it up into a series of smaller words and concatenate them at the end.


c# iterative:

public List<string> Permutations(char[] chars)
        List<string> words = new List<string>();
        for (int i = 1; i < chars.Length; ++i)
            int currLen = words.Count;
            for (int j = 0; j < currLen; ++j)
                var w = words[j];
                for (int k = 0; k <= w.Length; ++k)
                    var nstr = w.Insert(k, chars[i].ToString());
                    if (k == 0)
                        words[j] = nstr;
        return words;
def gen( x,y,list): #to generate all strings inserting y at different positions
list = []
list.append( y+x )
for i in range( len(x) ):
    list.append( func(x,0,i) + y + func(x,i+1,len(x)-1) )
return list 

def func( x,i,j ): #returns x[i..j]
z = '' 
for i in range(i,j+1):
    z = z+x[i]
return z 

def perm( x , length , list ): #perm function
if length == 1 : # base case
    list.append( x[len(x)-1] )
    return list 
    lists = perm( x , length-1 ,list )
    lists_temp = lists #temporarily storing the list 
    lists = []
    for i in range( len(lists_temp) ) :
        list_temp = gen(lists_temp[i],x[length-2],lists)
        lists += list_temp 
    return lists
def permutation(str)
  posibilities = []
  str.split('').each do |char|
    if posibilities.size == 0
      posibilities[0] = char.downcase
      posibilities[1] = char.upcase
      posibilities_count = posibilities.length
      posibilities = posibilities + posibilities
      posibilities_count.times do |i|
        posibilities[i] += char.downcase
        posibilities[i+posibilities_count] += char.upcase

Here is my take on a non recursive version


The pythonic solution:

from itertools import permutations
s = 'ABCDEF'
p = [''.join(x) for x in permutations(s)]

Well here is an elegant, non-recursive, O(n!) solution:

public static StringBuilder[] permutations(String s) {
        if (s.length() == 0)
            return null;
        int length = fact(s.length());
        StringBuilder[] sb = new StringBuilder[length];
        for (int i = 0; i < length; i++) {
            sb[i] = new StringBuilder();
        for (int i = 0; i < s.length(); i++) {
            char ch = s.charAt(i);
            int times = length / (i + 1);
            for (int j = 0; j < times; j++) {
                for (int k = 0; k < length / times; k++) {
                    sb[j * length / times + k].insert(k, ch);
        return sb;

protected by nneonneo Mar 9 '13 at 1:33

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