# Permutation algorithm for array of integers in Java

I have a working example to generate all char permutations in a String as below:

``````static ArrayList<String> permutations(String s) {
if (s == null) {
return null;
}

ArrayList<String> resultList = new ArrayList<String>();

if (s.length() < 2) {

return resultList;
}

int length = s.length();
char currentChar;

for (int i = 0; i < length; i++) {
currentChar = s.charAt(i);

String subString = s.substring(0, i) + s.substring(i + 1);

ArrayList<String> subPermutations = permutations(subString);

for (String item : subPermutations) {
}
}

return resultList;
}
``````

I am trying to implement the same function, but to return ArrayList, and to get int[] as the parameter. I am doing this recursively as below:

``````static ArrayList<int[]> permutations(int[] arr) {
ArrayList<int[]> resultList = new ArrayList<int[]>();

if (arr.length < 2) {

return resultList;
}

for (int i = 0; i < arr.length; i++) {
int currentItem = arr[i];
int[] newArr = new int[arr.length - 1];
int[] newPermutation = new int[arr.length];
int j;

//          System.arraycopy(arr, 0, newArr, 0, i);
//          System.arraycopy(arr, i + 1, newArr, i, arr.length - i - 1);

for (j = 0; j < i; j++) {
newArr[j] = arr[j];
}

for (j = i + 1; j < arr.length; j++) {
newArr[j - 1] = arr[j];
}

ArrayList<int[]> subPermutations = permutations(newArr);

newPermutation[0] = currentItem;

//          for (int i1 = 0; i1 < subPermutations.size(); i1++) {
//              for (j = 0; j < subPermutations.get(i1).length; j++) {
//                  newPermutation[j + 1] = subPermutations.get(i1)[j];
//              }
//
//          }

for (int[] item : subPermutations) {
for (j = 0; j < item.length; j++) {
newPermutation[j + 1] = item[j];
}

}

//          return resultList;
}

return resultList;
}
``````

When passing arrays of size 0, 1, and 2 as the parameter, everything is fine. For everything else greater than 2, I get the correct number of permutations, but they repeat themselves. Here is the result for size == 3, and passing { 1, 5, 4 }:

``````1 4 5
1 4 5
5 4 1
5 4 1
4 5 1
4 5 1
``````

Please give me some advice if you encountered these issues before.

-
You can use your debugger and see what happens =) –  Alexis C. Jan 3 '14 at 14:49
Also, take a short array such as {1,2,3}, and work through your algorithm using paper and pencil. –  Patricia Shanahan Jan 3 '14 at 14:57

``````import java.util.ArrayList;
import java.util.Arrays;

public class Answer {
static <E> String arrayToString( E[] arr ) {
final StringBuffer str = new StringBuffer();
for ( E e : arr )
str.append( e.toString() );
return str.toString();
}

static <E> ArrayList<E[]> permutations(E[] arr) {
final ArrayList<E[]> resultList = new ArrayList<E[]>();
final int l = arr.length;
if ( l == 0 ) return resultList;
if ( l == 1 )
{
return resultList;
}

E[] subClone = Arrays.copyOf( arr, l - 1);
System.arraycopy( arr, 1, subClone, 0, l - 1 );

for ( int i = 0; i < l; ++i ){
E e = arr[i];
if ( i > 0 ) subClone[i-1] = arr[0];
final ArrayList<E[]> subPermutations = permutations( subClone );
for ( E[] sc : subPermutations )
{
E[] clone = Arrays.copyOf( arr, l );
clone[0] = e;
System.arraycopy( sc, 0, clone, 1, l - 1 );
}
if ( i > 0 ) subClone[i-1] = e;
}
return resultList;
}

static ArrayList<String> permutations(String arr) {
final Character[] c = new Character[ arr.length() ];
for ( int i = 0; i < arr.length(); ++i )
c[i] = arr.charAt( i );

final ArrayList<Character[]> perms = permutations(c);
final ArrayList<String> resultList = new ArrayList<String>( perms.size() );

for ( Character[] p : perms )
{
resultList.add( arrayToString( p ) );
}
return resultList;
}

public static void main(String[] args) {
ArrayList<String> str_perms = permutations( "abc" );
for ( String p : str_perms ) System.out.println( p );

ArrayList<Integer[]> int_perms = permutations( new Integer[]{ 1, 2, 3, 4 } );
for ( Integer[] p : int_perms ) System.out.println( arrayToString( p ) );

}
}
``````
-

This code takes String elements, but can me modified to work for integers:

``````import java.util.*;
/**
* Write a description of class GeneratePermutations here.
*
* @author Kushtrim
* @version 1.01
*/
public class GeneratePermutations

{
public static void main(String args[])
{
GeneratePermutations g = new GeneratePermutations();
String[] elements = {"a","b","c",};
ArrayList<String> permutations = g.generatePermutations(elements);

for ( String s : permutations)
{
System.out.println(s);
}
//System.out.println(permutations.get(999999));
}

private ArrayList<String> generatePermutations( String[] elements )
{
ArrayList<String> permutations = new ArrayList<String>();
if ( elements.length == 2 )
{

String x1 = elements[0]  + elements[1];
String x2 = elements[1]  + elements[0];

}
else {
for (  int i = 0 ; i < elements.length  ; i++)
{
String[] elements2 = new String[elements.length -1];
int kalo = 0;
for( int j =0 ; j< elements2.length ; j++ )
{
if( i == j)
{
kalo = 1;
}
elements2[j] = elements[j+kalo];
}
ArrayList<String> k2 = generatePermutations(elements2);
for( String x : k2 )
{
String s = elements[i]+x;
}
}
}

return permutations;
}
}
``````
-

Below is a class containing a solution using generics. The API is a bit different then what you specified but far more flexible. Easiest to see with examples. Note that the inputs probably have more constraints than what I'm checking here!

``````public static final class Permutations {
private Permutations() {}

public static <T> List<T[]> get(Class<T> itemClass, T... itemsPool) {
return get(itemsPool.length, itemClass, itemsPool);
}

public static <T> List<T[]> get(int size, Class<T> itemClass, T... itemsPool) {
if (size < 1) {
return new ArrayList<T[]>();
}

int itemsPoolCount = itemsPool.length;

List<T[]> permutations = new ArrayList<T[]>();
for (int i = 0; i < Math.pow(itemsPoolCount, size); i++) {
T[] permutation = (T[]) Array.newInstance(itemClass, size);
for (int j = 0; j < size; j++) {
// Pick the appropriate item from the item pool given j and i
int itemPoolIndex = (int) Math.floor((double) (i % (int) Math.pow(itemsPoolCount, j + 1)) / (int) Math.pow(itemsPoolCount, j));
permutation[j] = itemsPool[itemPoolIndex];
}
}

return permutations;
}
}
``````

Example Usage

Calling `Permutations.get(2, Integer.class, 1, 0, -1);` will return the following list of integer arrays:

``````[ 1,  1]
[ 0,  1]
[-1,  1]
[ 1,  0]
[ 0,  0]
[-1,  0]
[ 1, -1]
[ 0, -1]
[-1, -1]
``````

Calling `Permutations.get(3, Integer.class, 1, 0, -1);` will return the following list of integer arrays. Note that this example is identical to the first except for the first argument which is now 3:

``````[ 1,  1,  1]
[ 0,  1,  1]
[-1,  1,  1]
[ 1,  0,  1]
[ 0,  0,  1]
[-1,  0,  1]
[ 1, -1,  1]
[ 0, -1,  1]
[-1, -1,  1]
[ 1,  1,  0]
[ 0,  1,  0]
[-1,  1,  0]
[ 1,  0,  0]
[ 0,  0,  0]
[-1,  0,  0]
[ 1, -1,  0]
[ 0, -1,  0]
[-1, -1,  0]
[ 1,  1, -1]
[ 0,  1, -1]
[-1,  1, -1]
[ 1,  0, -1]
[ 0,  0, -1]
[-1,  0, -1]
[ 1, -1, -1]
[ 0, -1, -1]
[-1, -1, -1]
``````
-

I've written that code some time ago, and edited a bit to match your requests. I hope it works.

``````static ArrayList<String> permutations(String s) {
ArrayList<String> ret = new ArrayList<String>();
permutation(s.toCharArray(), 0, ret);
return ret;
}

public static void permutation(char[] arr, int pos, ArrayList<String> list){
if(arr.length - pos == 1)
else
for(int i = pos; i < arr.length; i++){
swap(arr, pos, i);
permutation(arr, pos+1, list);
swap(arr, pos, i);
}
}

public static void swap(char[] arr, int pos1, int pos2){
char h = arr[pos1];
arr[pos1] = arr[pos2];
arr[pos2] = h;
}
``````

UPDATE
I just tried it on ideone.com. It seems to work. You're welcome. :)

UPDATE 2
It should basically be the same code with arrays of int's:

``````static ArrayList<int[]> permutations(int[] a) {
ArrayList<int[]> ret = new ArrayList<int[]>();
permutation(a, 0, ret);
return ret;
}

public static void permutation(int[] arr, int pos, ArrayList<int[]> list){
if(arr.length - pos == 1)
else
for(int i = pos; i < arr.length; i++){
swap(arr, pos, i);
permutation(arr, pos+1, list);
swap(arr, pos, i);
}
}

public static void swap(int[] arr, int pos1, int pos2){
int h = arr[pos1];
arr[pos1] = arr[pos2];
arr[pos2] = h;
}
``````

UPDATE 3
Works with int's too: http://ideone.com/jLpZow

-
Thanks for the code man. Unfortunately, I can only have one method that recursively calls itself (according to the problem's condition). I am basically trying to replicate the methods for the String parameter, which has no issues, but I do not see any issues in my code as well :). –  ppalancica Jan 3 '14 at 15:21
you can easily adopt my three methods so that you only have one left :) give me some minutes and I;ll do it for you –  johk95 Jan 3 '14 at 15:24
okay, I tried to do it but I get a runtime error and unfortunately I can't test it locally right now. I hope my answer above helped someway... (let me know by giving an up-vote :P) –  johk95 Jan 3 '14 at 15:43

By adding a TreeSet it removes duplicates and sorts the permutations.

``````package permutations;

import java.util.ArrayList;
import java.util.Scanner;
import java.util.TreeSet;

public class Permutations {

public static void main(String args[])
{
Scanner scanner = new Scanner(new InputStreamReader(System.in));
System.out.println("This application accepts input of a string and creates a list of all     possible permutations\n\r");

System.out.println("Please Enter a string of characters");
String input = scanner.nextLine();

String[] elements = input.split("");
Permutations g = new Permutations();

ArrayList<String> permutations = g.generatePermutations(elements);

TreeSet ts = new TreeSet();
for ( String s : permutations)
{
//System.out.println(s);
}
System.out.println("List of all possible permutations");
System.out.println(ts);

}

private ArrayList<String> generatePermutations( String[] elements )
{
ArrayList<String> permutations = new ArrayList<String>();
if ( elements.length == 2 )
{

String x1 = elements[0]  + elements[1];
String x2 = elements[1]  + elements[0];

}
else {
for (  int i = 0 ; i < elements.length  ; i++)
{
String[] elements2 = new String[elements.length -1];
int kalo = 0;
for( int j =0 ; j< elements2.length ; j++ )
{
if( i == j)
{
kalo = 1;
}
elements2[j] = elements[j+kalo];
}
ArrayList<String> k2 = generatePermutations(elements2);
for( String x : k2 )
{
String s = elements[i]+x;
}
}
}

return permutations;
}
}
``````
-

Here you go, the below sample code uses the recursive method to get the permutation. It is generic and you can specify the output location as you like. One bonus is you can specify delimiter as well.

``````import java.io.FileNotFoundException;
import java.io.OutputStream;
import java.io.PrintStream;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

public class Permutation {
//The entry of the permutation method
public static <T> List<T[]> permute(T[] arr){
List<T[]> result = new ArrayList<T[]>();
permute(new ArrayList<T>(), Arrays.asList(arr), result);
return result;
}

//This is the actual method doing the permutation
private static <T> void permute(List<T> pre, List<T> cur, List<T[]> out){
int size = cur.size();

if(size == 0){
} else {
for(int i=0; i<size; ++i){
List<T> tmpPre = new ArrayList<T>(pre);
List<T> tmpCur = new ArrayList<T>(cur);
tmpCur.remove((T)cur.get(i));

permute(tmpPre, tmpCur, out);
}
}
}

//Print each row of the permutated values
private static <T> void print(List<T[]> list, OutputStream out, char delim){
try{
for(T[] i : list){
int count = 0;
for(T t : i){
if(++count == i.length){
out.write((t.toString()).getBytes());
} else{
out.write((t.toString()+delim).getBytes());
}
}
out.write("\n".getBytes());
}
} catch (Exception ex){
ex.printStackTrace();
}
}

public static void main(String[] args) throws FileNotFoundException {
Integer[] ints = new Integer[] {1, 2, 3, 4};
Permutation.print(Permutation.permute(ints), System.out, ',');

Character[] chars = {'a', 'b', 'c', 'd', 'e'};
Permutation.print(Permutation.permute(chars), new PrintStream("permute.txt"), ' ');

String[] strs = {"abc", "123"};
Permutation.print(Permutation.permute(strs), System.err, ' ');
}
}
``````
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