Permutation of N lists

i need all permutation from N lists, i dont know N until the program start, here is my SSCCE (i have implemented algorithm which was adviced to me, but it has some bugs).

First , create Place class:

``````public class Place {
public List<Integer> tokens ;

//constructor
public Place() {

this.tokens = new ArrayList<Integer>();
}

}
``````

And then testing class:

``````public class TestyParmutace {

/**
* @param args the command line arguments
*/
public static void main(String[] args) {
// TODO code application logic here

List<Place> places = new ArrayList<Place>();

Place place1 = new Place();

Place place2 = new Place();

Place place3 = new Place();

//so we have
//P1 = {1,2,3}
//P2 = {3,4,5}
//P3 = {6,7,8}

List<Integer> tokens = new ArrayList<Integer>();

Func(places,0,tokens);

}

/**
*
* @param places list of places
* @param index index of current place
* @param tokens list of tokens
* @return true if we passed guard, false if we did not
*/

public static boolean Func( List<Place> places, int index, List<Integer> tokens)

{

if (index >= places.size())
{

// if control reaches here, it means that we've recursed through a particular combination
// ( consisting of exactly 1 token from each place ), and there are no more "places" left

String outputTokens = "";
for (int i = 0; i< tokens.size(); i++) {

outputTokens+= tokens.get(i) +",";
}
System.out.println("Tokens: "+outputTokens);

if (tokens.get(0) == 4 && tokens.get(1) == 5 && tokens.get(2) == 10) {
System.out.println("we passed the guard with 3,5,8");
return true;
}

else {
tokens.remove(tokens.get(tokens.size()-1));
return false;
}

}

Place p = places.get(index);

for (int i = 0; i< p.tokens.size(); i++)
{

//System.out.println("Pridali sme token:" + p.tokens.get(i));

if ( Func( places, index+1, tokens ) ) return true;

}
if (tokens.size()>0)
tokens.remove(tokens.get(0));

return false;

}
}
``````

and here is the output of this code:

``````Tokens: 1,3,6,
Tokens: 1,3,7,
Tokens: 1,3,8,
Tokens: 3,4,6,
Tokens: 3,4,7,
Tokens: 3,4,8,
Tokens: 4,5,6,
Tokens: 4,5,7,
Tokens: 4,5,8,
Tokens: 2,3,6,
Tokens: 2,3,7,
Tokens: 2,3,8,
Tokens: 3,4,6,
Tokens: 3,4,7,
Tokens: 3,4,8,
Tokens: 4,5,6,
Tokens: 4,5,7,
Tokens: 4,5,8,
Tokens: 3,3,6,
Tokens: 3,3,7,
Tokens: 3,3,8,
Tokens: 3,4,6,
Tokens: 3,4,7,
Tokens: 3,4,8,
Tokens: 4,5,6,
Tokens: 4,5,7,
Tokens: 4,5,8,
``````

So, you see, some combinations are correct (1,3,6), some are incorrect (4,5,8) and some are completely missing (2,4,8,..) how to solve this problem ? number of places and also number of tokens in places can vary, i just used 3 places since with 2 places its working, but with more places it is buggy. Thanks.

-
why is (4,5,8) incorrect an (2,4,8) correct. Each has to be from a different list?? –  UmNyobe Apr 8 '12 at 11:04
yeah, exactly like you said. every token has to be from different list. –  Povedz Heslo Apr 8 '12 at 11:20
What do you need guard for? –  Nikita Beloglazov Apr 8 '12 at 11:29
This task is from more complex program - petri net editor/simulator, all transition can have guard - a condition that must be true if this transition is going to be executed... and to success this guard, i need to take all input places, and try all combinations of their token to pass this guard. place has list of tokens, and number of input places is variable..thats why i need combination from N lists. –  Povedz Heslo Apr 8 '12 at 11:30
@PovedzHeslo I think you need to get all possible permutations first. And then filter them and left those, which passes guard. Do it in 2 different methods. –  Nikita Beloglazov Apr 8 '12 at 11:42

You algorithm is almost correct. I think you don't need to return `true` or `false` and stop current iteration when you get `true`. I modified your method `Func`:

``````public static void Func( List<Place> places, int index, Deque<Integer> tokens) {
if (index == places.size()) {
// if control reaches here, it means that we've recursed through a particular combination
// ( consisting of exactly 1 token from each place ), and there are no more "places" left
String outputTokens = "";
for (int token : tokens) {
outputTokens += token + ",";
}
System.out.println("Tokens: "+outputTokens);
} else {
Place p = places.get(index);
for (int token : p.tokens) {
Func(places, index+1, tokens);
token.removeLast();
}
}
}
``````

I used Deque because it offers handy `removeLast` method to remove last added token. You can pass `LinkedList` as implementation of `Deque`.

Update

``````List<List<Integer>> combinations;

List<Integer> copy = new ArrayList<Integer>(tokens);
``````
-
thanks, this works really nice. –  Povedz Heslo Apr 8 '12 at 11:46
Hi, do you have any idea how to save the token combination ?i tried to use list of deque of integers, but whenever i add token combination to final list, it stili remains empty, since i call token.removeLast() afterwards, and it seems like that final lists contains just refference. –  Povedz Heslo Apr 10 '12 at 11:37
Hi, I updated answer. –  Nikita Beloglazov Apr 10 '12 at 16:15

You are trying to do set cross products, not really permutations. So you need to do

`````` for(Integer token1 : place1.tokens){
for(Integer token2 : place2.tokens){
for(Integer token3 : place3.tokens){
//crossValue = (token1, token2, token3);
}
}
}
``````

Now if you want to have all permutations, for example for `[1,3,6,]` also have `[1,6,3]`, `[3,6,1]`, etcc.. you need a function which output permutations given a list or array, see Permutation of array

-
but you forgot that the number of places is N, not 3. –  Povedz Heslo Apr 8 '12 at 11:46
Yes, I viewed this question because I have legacy code with these hard-coded loops that need to be updated to a dynamic algorithm. –  Nate Glenn Dec 19 '14 at 14:42