# How recursion works in a code for computing Permutations of a number

I have found this code the internet to computer all possible Permutations for a given Vector ..

``````import java.util.Vector;

class Permute {
static int count = 0;

public static void permute(Vector unvisited, Vector visited) {
if ( unvisited.isEmpty() ) {
System.out.println("Permutation: "+visited);
count++;
}
else {
//System.out.println("Trace: "+visited+" "+unvisited);
int l = unvisited.size();
for(int i = 0; i<l; i++) {
String next = String.valueOf(unvisited.remove(i));
permute(unvisited,visited);
visited.remove(next);
}
}
}

public static void main(String[] args) {
Vector objects = new Vector();

permute(objects, new Vector() );
System.out.println(count+" Permutationen gefunden");
}
}
``````

Bu I have a small problem in understanding the code and the flow of the instructions . What I misses is when these two lines are called

``````    unvisited.add(i,next);
visited.remove(next);
``````

As I see there is a recursion `permute(..)` function before reaching them !

-

First try to understand what the permute() function does. It juggles two vectors: unvisited and visited. In the execution of permute(), the function will take an element from unvisited and move it to visited. Think of it as "building" a permutation.

For example:

``````Unvisited: 1, 5, 8
visited:
``````

we move an element from unvisited to visited

``````Unvisited:  5, 8
visited: 1
``````

Now to build the rest of the permutations that start with 1, we need to find the permutations of unvisited, or {5,8}. So we recursively call permute() to find the rest.

So what does

``````unvisited.add(i,next);
visited.remove(next);
``````

do ?

As each permutation is being built, the function is modifying a unified/common/shared source of data: the vectors. They are constantly being modified as elements are shifted from unvisited to visited. However, we need to reset these vectors to find the rest of the permutations. In the example above, we need to put 1 back to unvisited find the permutations that start with 5, or 8. So we:

``````unvisited.add(i,next); //add it back to unvisited in its original position
``````

and

``````visited.remove(next); //remove it from visited.
``````
-
Many Thanks, but my question is related to recursion logic, is when unvisited.add(i,next); visited.remove(next); are called if we call permute() function and back to the start each time before reaching them .. –  Adham Jul 7 '12 at 1:04
sorry could you clarify your question? after moving an element from unvisited to visited, we call permute() because we need to find the permutations of the smaller set of items in unvisited. AFTER finding those permutations, we reset the unvisited/visited vectors by calling: unvisited.add(i,next); visited.remove(next); –  applepie Jul 7 '12 at 1:12
I am sorry, I mean when calling permute() inside itself, everything after the inner permute() will not execute, right ? –  Adham Jul 7 '12 at 1:15
ah i see. Actually, they will execute when permute() is finished. Granted, that may take a while, but the if(unvisited.isEmpty()) check guarantees that the recursion will eventually reach an end, and after that, the stack is rewinded and the lines: unvisited.add(i,next); visited.remove(next); get executed. –  applepie Jul 7 '12 at 1:21