# Generate list of all possible permutations of a string

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.

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;
}
``````

Recursive Solution with driver `main()` method.

``````public class AllPermutationsOfString {
public static void stringPermutations(String newstring, String remaining) {
if(remaining.length()==0)
System.out.println(newstring);

for(int i=0; i<remaining.length(); i++) {
String newRemaining = remaining.replaceFirst(remaining.charAt(i)+"", "");
stringPermutations(newstring+remaining.charAt(i), newRemaining);
}
}

public static void main(String[] args) {
String string = "abc";
AllPermutationsOfString.stringPermutations("", string);
}
``````

}

A recursive solution in python. The good thing about this code is that it exports a dictionary, with keys as strings and all possible permutations as values. All possible string lengths are included, so in effect, you are creating a superset.

If you only require the final permutations, you can delete other keys from the dictionary.

In this code, the dictionary of permutations is global.

At the base case, I store the value as both possibilities in a list. `perms['ab'] = ['ab','ba']`.

For higher string lengths, the function refers to lower string lengths and incorporates the previously calculated permutations.

The function does two things:

• calls itself with a smaller string
• returns a list of permutations of a particular string if already available. If returned to itself, these will be used to append to the character and create newer permutations.

Expensive for memory.

``````perms = {}
def perm(input_string):
global perms
if input_string in perms:
return perms[input_string] # This will send a list of all permutations
elif len(input_string) == 2:
perms[input_string] = [input_string, input_string[-1] + input_string [-2]]
return perms[input_string]
else:
perms[input_string] = []
for index in range(0, len(input_string)):
new_string = input_string[0:index] + input_string[index +1:]
perm(new_string)
for entries in perms[new_string]:
perms[input_string].append(input_string[index] + entries)
return perms[input_string]
``````

code written for java language :

package namo.algorithms;

import java.util.Scanner;

public class Permuations {

``````public static int totalPermutationsCount = 0;
public static void main(String[] args) {

Scanner sc = new Scanner(System.in);
System.out.println("input string : ");
String inputString = sc.nextLine();
System.out.println("given input String ==> "+inputString+ " :: length is = "+inputString.length());
findPermuationsOfString(-1, inputString);
System.out.println("**************************************");
System.out.println("total permutation strings ==> "+totalPermutationsCount);
}

public  static void findPermuationsOfString(int fixedIndex, String inputString) {
int currentIndex = fixedIndex +1;

for (int i = currentIndex; i < inputString.length(); i++) {
//swap elements and call the findPermuationsOfString()

char[] carr = inputString.toCharArray();
char tmp = carr[currentIndex];
carr[currentIndex] = carr[i];
carr[i] = tmp;
inputString =  new String(carr);

//System.out.println("chat At : current String ==> "+inputString.charAt(currentIndex));
if(currentIndex == inputString.length()-1) {
totalPermutationsCount++;
System.out.println("permuation string ==> "+inputString);
} else {
//System.out.println("in else block>>>>");
findPermuationsOfString(currentIndex, inputString);
char[] rarr = inputString.toCharArray();
char rtmp = carr[i];
carr[i] = carr[currentIndex];
carr[currentIndex] = rtmp;
inputString =  new String(carr);
}
}
}
``````

}

The possible string permutations can be computed using recursive function. Below is one of the possible solution.

``````public static String insertCharAt(String s, int index, char c) {
StringBuffer sb = new StringBuffer(s);
StringBuffer sbb = sb.insert(index, c);
return sbb.toString();
}

public static ArrayList<String> getPerm(String s, int index) {
ArrayList<String> perm = new ArrayList<String>();

if (index == s.length()-1) {
return perm;
}

ArrayList<String> p = getPerm(s, index+1);
char c = s.charAt(index);

for(String pp : p) {
for (int idx=0; idx<pp.length()+1; idx++) {
String ss = insertCharAt(pp, idx, c);
}
}

return perm;
}

public static void testGetPerm(String s) {
ArrayList<String> perm = getPerm(s,0);
System.out.println(s+" --> total permutation are :: "+perm.size());
System.out.println(perm.toString());
}
``````

## protected by nneonneoMar 9 '13 at 1:33

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