# Permutations - all possible sets of numbers

I have numbers, from 0 to 8. I would like in result, all possible sets of those numbers, each set should use all numbers, each number can occur only once in a set.

I would like to see solution made in PHP that could print out result. Or, at least, I would like some refreshment in theory of combinatorics, as I have long forgotten it. What is the formula to calculate how many permutations will there be?

Example sets:

• 0-1-2-3-4-5-6-7-8
• 0-1-2-3-4-5-6-8-7
• 0-1-2-3-4-5-8-6-7
• 0-1-2-3-4-8-5-6-7
• 0-1-2-3-8-4-5-6-7
• 0-1-2-8-3-4-5-6-7
• and so on...

You're looking for the permutations formula:

``````nPk = n!/(n-k)!
``````

In your case, you have 9 entries and you want to choose all of them, that's 9P9 = 9! = 362880

You can find a PHP algorithm to permutate in recipe 4.26 of O'Reilly's "PHP Cookbook".

``````pc_permute(array(0, 1, 2, 3, 4, 5, 7, 8));
``````

Copied in from O'Reilly:

``````function pc_permute(\$items, \$perms = array( )) {
if (empty(\$items)) {
print join(' ', \$perms) . "\n";
}  else {
for (\$i = count(\$items) - 1; \$i >= 0; --\$i) {
\$newitems = \$items;
\$newperms = \$perms;
list(\$foo) = array_splice(\$newitems, \$i, 1);
array_unshift(\$newperms, \$foo);
pc_permute(\$newitems, \$newperms);
}
}
}
``````
• woah that's crazy. Maybe this belongs on the mathematics site for stack exchange, but why is 0! = 1 – Jason Mar 31 '11 at 22:13
• Do you know any algorithm, to generate all of them? :) I can reduce ammount to 8!=40320, as I know, that first number, can be only 0 1 or 4. And 40k is not too much... – Deele Mar 31 '11 at 22:15
• @Jason: It's per definition 0. Just as `x^0 = 1` (except for `x = 0`, because `0^0 = 0`). – poke Mar 31 '11 at 22:18
• @Deele If you want permutations that start with 0 1 or 4, you're looking at three different permutations of 8 digits (different sets), so it's 8!+8!+8! = 120960 – yzxben Mar 31 '11 at 22:23
• yeah, I already did the math :) I think, I will use one of those algorithms given here, to write all of results in file, afterwards, will read them to filter out the ones I need. – Deele Mar 31 '11 at 22:26

Since PHP 5.5 you can use Generators. Generators save a lot of memory and are way faster (more than half compared to pc_permute()). So if you have any chance of having PHP 5.5 installed, you definitely want Generators. This snipped is ported from Python: https://stackoverflow.com/a/104436/3745311

``````function permutations(array \$elements)
{
if (count(\$elements) <= 1) {
yield \$elements;
} else {
foreach (permutations(array_slice(\$elements, 1)) as \$permutation) {
foreach (range(0, count(\$elements) - 1) as \$i) {
yield array_merge(
array_slice(\$permutation, 0, \$i),
[\$elements],
array_slice(\$permutation, \$i)
);
}
}
}
}
``````

Sample usage:

``````\$list = ['a', 'b', 'c'];

foreach (permutations(\$list) as \$permutation) {
echo implode(',', \$permutation) . PHP_EOL;
}
``````

Output:

``````a,b,c
b,a,c
b,c,a
a,c,b
c,a,b
c,b,a
``````
• How would you adapt this to only pick a subset. E.g. to return the above but also a,b | a,c | b,a | b,c | c,a | c,b | a | b | c ? – Codemonkey Mar 10 '15 at 11:20
• See my answer for a function which allows you to specify the size of the permutations it will generate. From there it is trivial to generate all permutations. – eddiewould Apr 9 '17 at 14:21

Since this question often comes up in Google Search results, here's a modified version of the accepted answer that returns all combinations in an array and passes them as a return value of the function.

``````function pc_permute(\$items, \$perms = array( )) {
if (empty(\$items)) {
\$return = array(\$perms);
}  else {
\$return = array();
for (\$i = count(\$items) - 1; \$i >= 0; --\$i) {
\$newitems = \$items;
\$newperms = \$perms;
list(\$foo) = array_splice(\$newitems, \$i, 1);
array_unshift(\$newperms, \$foo);
\$return = array_merge(\$return, pc_permute(\$newitems, \$newperms));
}
}
return \$return;
}
``````

To use:

``````\$value = array('1', '2', '3');
print_r(pc_permute(\$value));
``````
• too much memory usage: "PHP Fatal error: Allowed memory size of 134217728 bytes exhausted (tried to allocate 71 bytes) in..." – Katie Apr 30 '13 at 21:16
• @Kayvar `ini_set('memory_limit', -1);` – verbumSapienti Jan 15 '14 at 16:43

I've something that You may like

``````function combination_number(\$k,\$n){
\$n = intval(\$n);
\$k = intval(\$k);
if (\$k > \$n){
return 0;
} elseif (\$n == \$k) {
return 1;
} else {
if (\$k >= \$n - \$k){
\$l = \$k+1;
for (\$i = \$l+1 ; \$i <= \$n ; \$i++)
\$l *= \$i;
\$m = 1;
for (\$i = 2 ; \$i <= \$n-\$k ; \$i++)
\$m *= \$i;
} else {
\$l = (\$n-\$k) + 1;
for (\$i = \$l+1 ; \$i <= \$n ; \$i++)
\$l *= \$i;
\$m = 1;
for (\$i = 2 ; \$i <= \$k ; \$i++)
\$m *= \$i;
}
}
return \$l/\$m;
}

function array_combination(\$le, \$set){

\$lk = combination_number(\$le, count(\$set));
\$ret = array_fill(0, \$lk, array_fill(0, \$le, '') );

\$temp = array();
for (\$i = 0 ; \$i < \$le ; \$i++)
\$temp[\$i] = \$i;

\$ret = \$temp;

for (\$i = 1 ; \$i < \$lk ; \$i++){
if (\$temp[\$le-1] != count(\$set)-1){
\$temp[\$le-1]++;
} else {
\$od = -1;
for (\$j = \$le-2 ; \$j >= 0 ; \$j--)
if (\$temp[\$j]+1 != \$temp[\$j+1]){
\$od = \$j;
break;
}
if (\$od == -1)
break;
\$temp[\$od]++;
for (\$j = \$od+1 ; \$j < \$le ; \$j++)
\$temp[\$j] = \$temp[\$od]+\$j-\$od;
}
\$ret[\$i] = \$temp;
}
for (\$i = 0 ; \$i < \$lk ; \$i++)
for (\$j = 0 ; \$j < \$le ; \$j++)
\$ret[\$i][\$j] = \$set[\$ret[\$i][\$j]];

return \$ret;
}
``````

Here is how to use it:

To get the number of combinations:

``````combination_number(3,10); // returns number of combinations of ten-elements set.
``````

To get all possible combinations:

``````\$mySet = array("A","B","C","D","E","F");
array_combination(3, \$mySet); // returns all possible combinations of 3 elements of six-elements set.
``````

Hope You make use of that.

• Cute, but this is only maintaining order. – Bill Ortell Mar 27 '13 at 20:10
• @Piotr Salaciak something missing here array_combination(2, \$mySet); will not return combination of AA or BB or CC – Guru Feb 8 '15 at 12:34
• @Guru it is a combination without repetition link – Piotr Salaciak Apr 9 '15 at 10:56
• only works for 3 elements, when i try 4 it returns one combination – delboy1978uk Jan 19 '18 at 10:46
• @delboy1978uk I guess you are trying to combination of 3 elements of set that has only 3 elements. – Piotr Salaciak Jan 20 '18 at 13:42

I've ported the Python itertools code listed here (using generators). The advantage over the solutions posted so far is that it allows you to specify r (permutation size).

``````function permutations(\$pool, \$r = null) {
\$n = count(\$pool);

if (\$r == null) {
\$r = \$n;
}

if (\$r > \$n) {
return;
}

\$indices = range(0, \$n - 1);
\$cycles = range(\$n, \$n - \$r + 1, -1); // count down

yield array_slice(\$pool, 0, \$r);

if (\$n <= 0) {
return;
}

while (true) {
\$exit_early = false;
for (\$i = \$r;\$i--;\$i >= 0) {
\$cycles[\$i]-= 1;
if (\$cycles[\$i] == 0) {
// Push whatever is at index \$i to the end, move everything back
if (\$i < count(\$indices)) {
\$removed = array_splice(\$indices, \$i, 1);
array_push(\$indices, \$removed);
}
\$cycles[\$i] = \$n - \$i;
} else {
\$j = \$cycles[\$i];
// Swap indices \$i & -\$j.
\$i_val = \$indices[\$i];
\$neg_j_val = \$indices[count(\$indices) - \$j];
\$indices[\$i] = \$neg_j_val;
\$indices[count(\$indices) - \$j] = \$i_val;
\$result = [];
\$counter = 0;
foreach (\$indices as \$indx) {
array_push(\$result, \$pool[\$indx]);
\$counter++;
if (\$counter == \$r) break;
}
yield \$result;
\$exit_early = true;
break;
}
}
if (!\$exit_early) {
break; // Outer while loop
}
}
}
``````

It works for me, but no promises! Example usage:

``````\$result = iterator_to_array(permutations([1, 2, 3, 4], 3));
foreach (\$result as \$row) {
print implode(", ", \$row) . "\n";
}
``````
• Brilliant. Thank you eddiewould – delboy1978uk Jan 19 '18 at 10:52
• You have saved my time, Brilliant! – Meas Jan 6 '19 at 10:43

This is my version of class. This class builds and returns permutated array as result

``````class Permutation {
private \$result;

public function getResult() {
return \$this->result;
}

public function permute(\$source, \$permutated=array()) {
if (empty(\$permutated)){
\$this->result = array();
}
if (empty(\$source)){
\$this->result[] = \$permutated;
} else {
for(\$i=0; \$i<count(\$source); \$i++){
\$new_permutated = \$permutated;
\$new_permutated[] = \$source[\$i];
\$new_source =    array_merge(array_slice(\$source,0,\$i),array_slice(\$source,\$i+1));
\$this->permute(\$new_source, \$new_permutated);
}
}
return \$this;
}
}

\$arr = array(1,2,3,4,5);
\$p = new Permutation();
print_r(\$p->permute(\$arr)->getResult());
``````

The last three lines to test my class.

This is a simple recursive function that prints all permutations (written in pseudocode)

``````function rec(n, k) {
if (k == n) {
for i = 0 to n-1
print(perm[i], ' ');
print('\n');
}
else {
for i = 0 to n-1 {
if (not used[i]) {
used[i] = true;
perm[k] = i;
rec(n, k+1);
used[i] = false;
}
}
}
}
``````

And it is called like this:

``````rec(9, 0);
``````

Lexicographical order. There is no recursion. Almost no limits for array length. There is no sort. It's running rather fast. It's easy to understand. Minus: it gives a notice, but you can add a condition to start compare with the second element or error_reporting(0).

``````\$a = array(
1,
2,
3,
4,
5
);
\$b = array_reverse(\$a);
print_r(\$a);
//here need "br"
while (\$a != \$b)
{
foreach(array_reverse(\$a, true) as \$k => \$v)
{
if (\$v < \$a[\$k + 1])
{
foreach(array_reverse(\$a, true) as \$ka => \$val)
{
if (\$val > \$v) break;
}

\$ch = \$a[\$k];
\$a[\$k] = \$a[\$ka];
\$a[\$ka] = \$ch;
\$c = array_slice(\$a, 0, \$k + 1);
print_r(\$a = array_merge(\$c, array_reverse(array_slice(\$a, \$k + 1))));
//here need "br"
break;
}
}
}
``````
• Fix for notice: `if (isset(\$a[\$key + 1]) && \$value < \$a[\$key + 1]) {` (too short for edit :) – Rarst Jul 10 '17 at 10:09

You're basically talking about permutations where both `n` and `k` are 9 so you'll have `9!` different permutations; see this: http://en.wikipedia.org/wiki/Permutation.

Here is my proposal, hope a little bit clearer than accepted answer.

``````   function permutate(\$elements, \$perm = array(), &\$permArray = array())
{
if(empty(\$elements))
{
array_push(\$permArray,\$perm); return;
}

for(\$i=0;\$i<=count(\$elements)-1;\$i++)
{
array_push(\$perm,\$elements[\$i]);
\$tmp = \$elements; array_splice(\$tmp,\$i,1);
permutate(\$tmp,\$perm,\$permArray);
array_pop(\$perm);
}

return \$permArray;
}
``````

and usage:

``````\$p = permutate(array('a','b','c'));
foreach(\$p as \$perm)
print join(",",\$perm)."|\n";
``````
``````//function call
print_r(combinations([1,2,3,4,5,6,7,8,9,10,11,12,13]));
/**
* @param \$mainArray
* @param int \$size - optional
* @param array \$combinations - optional
* @return mixed
*/
function combinations(\$mainArray, \$size = 3, \$combinations = [])
{
if (empty(\$combinations)) {
\$combinations = \$mainArray;
}
if (\$size == 1) {
return str_replace('-','',\$combinations);;
}
\$newCombination = array();
foreach (\$mainArray as \$key => \$val){
foreach (\$combinations as \$char) {
if(in_array(\$val, explode('-', \$char))){
continue;
}
\$newCombination[] = \$val . '-' . \$char;
}
}
return combinations(\$mainArray, \$size - 1, \$newCombination);
}
``````

//========================= Next solution ==================================

``````function sampling(\$chars, \$size, \$combinations = array()) {
# if it's the first iteration, the first set
# of combinations is the same as the set of characters
if (empty(\$combinations)) {
\$combinations = \$chars;
}
# we're done if we're at size 1
if (\$size == 1) {
return \$combinations;
}
# initialise array to put new values in
\$new_combinations = array();
# loop through existing combinations and character set to create strings
foreach (\$combinations as \$combination) {
foreach (\$chars as \$char) {
\$new_combinations[] = \$combination .'-'. \$char ;

}
}
# call same function again for the next iteration
return \$this->sampling(\$chars, \$size - 1, \$new_combinations);
}
function array_has_dupes(\$array) {
return count(\$array) !== count(array_unique(\$array));
}
function total() {
// Generate ticket price
\$arrfinal = array();
// combinations
\$chars = array(1,2,3,4,5,6,7,8,9,10,11,12,13); // for 10 digits
\$combinations = \$this->sampling(\$chars, 3);
//print_r(\$combinations); //exit;

foreach(\$combinations as \$key => \$val)
{
\$arr = explode('-', \$val);//str_split(\$val);
if(!\$this->array_has_dupes(\$arr)){
\$arrfinal[] = str_replace('-', '', \$val);
}
}
echo '<pre>'; print_r(\$arrfinal); echo '</pre>';
}
``````
• Add some context to support your code Pravin... It makes it easier, for the OP and others who are reading it, to understand the code. – Rai Mar 4 '19 at 10:57

Simple solution using recursion

``````function filterElement(\$element){
if(is_array(\$element)){
return \$element;
}
# base case
return \$element;
}

function permutation(\$input, \$path){
// base case 1
if(count(\$input) == 0){
return [\$path];
}

\$output = [];
foreach(\$input as \$index => \$num){     # 1, 2,3, 4
\$copyPath = \$path; # copy the path - []
\$copyPath[] = \$num;  # append the number 

# remove the current number
\$inputLocal = \$input;
unset(\$inputLocal[\$index]); # [2, 3, 4]
\$permute = permutation(\$inputLocal, \$copyPath); # call [2, 3, 4], 

# for all element find add to output
foreach(\$permute as \$ele){
# filter ouput
\$output[] = filterElement(\$ele);
}
}

return \$output;
}

print_r(permutation([1,2,3,4], []));
``````

# output

``````Array
(
 => Array
(
 => 1
 => 2
 => 3
 => 4
)

 => Array
(
 => 1
 => 2
 => 4
 => 3
)

 => Array
(
 => 1
 => 3
 => 2
 => 4
)

 => Array
(
 => 1
 => 3
 => 4
 => 2
)

 => Array
(
 => 1
 => 4
 => 2
 => 3
)

 => Array
(
 => 1
 => 4
 => 3
 => 2
)

 => Array
(
 => 2
 => 1
 => 3
 => 4
)

 => Array
(
 => 2
 => 1
 => 4
 => 3
)

 => Array
(
 => 2
 => 3
 => 1
 => 4
)

 => Array
(
 => 2
 => 3
 => 4
 => 1
)

 => Array
(
 => 2
 => 4
 => 1
 => 3
)

 => Array
(
 => 2
 => 4
 => 3
 => 1
)

 => Array
(
 => 3
 => 1
 => 2
 => 4
)

 => Array
(
 => 3
 => 1
 => 4
 => 2
)

 => Array
(
 => 3
 => 2
 => 1
 => 4
)

 => Array
(
 => 3
 => 2
 => 4
 => 1
)

 => Array
(
 => 3
 => 4
 => 1
 => 2
)

 => Array
(
 => 3
 => 4
 => 2
 => 1
)

 => Array
(
 => 4
 => 1
 => 2
 => 3
)

 => Array
(
 => 4
 => 1
 => 3
 => 2
)

 => Array
(
 => 4
 => 2
 => 1
 => 3
)

 => Array
(
 => 4
 => 2
 => 3
 => 1
)

 => Array
(
 => 4
 => 3
 => 1
 => 2
)

 => Array
(
 => 4
 => 3
 => 2
 => 1
)

)
``````