# Generating all possible permutations of a list recursively

I'm trying to recursively generate all items in a list recursively. I've seen a few solutions to similar questions to this, but I haven't been able to get my code to work. Could someone point out how I can fix my code?

This is open to all S/O'ers, not just Java people.

(Also I should note that it crashes with a SO exception).

Sample input: [1, 2, 3]

Output: [1, 2, 3] [1, 3, 2] [2, 1, 3] [2, 3, 1] [3, 1, 2] [3, 2, 1]

``````//allPossibleItems is an AL of all items

//this is called with generatePerm(null, new ArrayList<Item>);

private void generatePerm(Item i, ArrayList<Item> a) {
if(i != null) { a.add(i); }
if (a.size() == DESIRED_SIZE){
return;
}
for(int j = 0; j < allPossibleItems.size(); j ++) {
if(allPossibleItems.get(j) != i)
generatePerm(allPossibleItems.get(j), a);
}
}
``````
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sample input/output? –  ant Apr 24 '12 at 20:08
I don't think this would cause a stack overflow, but allPosibleItems.get(j) != i only finds out if allPossibleItems[j] equals the currently added character. Permutations shouldn't permit the currently added character or previously added ones. –  AFinkelstein Apr 24 '12 at 20:21

If allPossibleItems contains two different elements, x and y, then you successively write x and y to the list a until it reaches DESIRED_SIZE. Is that what you really want? If you pick DESIRED_SIZE sufficiently large, you will have too many recursive calls on the stack, hence the SO exception.

What I'd do (if original has no douplets):

``````  public List<List<E>> generatePerm(List<E> original) {
if (original.size() == 0) {
List<List<E>> result = new ArrayList<List<E>>();
return result;
}
E firstElement = original.remove(0);
List<List<E>> returnValue = new ArrayList<List<E>>();
List<List<E>> permutations = generatePerm(original);
for (List<E> smallerPermutated : permutations) {
for (int index=0; index <= smallerPermutated.size(); index++) {
List<E> temp = new ArrayList<E>(smallerPermutated);
}
}
return returnValue;
}
``````
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I think you have some syntax error in your last sentence... I'm not sure what you mean –  varatis Apr 24 '12 at 20:25
Ok, now I wrote the code... –  DaveFar Apr 24 '12 at 21:01
``````
private List generatePerm(List a, int depth) {
// this is the method definition you want
// to generate all permutations, you need cycle thru all elements in your list and for each element
// add that element to each member of generatePerm(a, depth - 1);
// if you want combinations, you need to remove the element and then call
/// generateCombinations with the remaining list
}
``````
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this is wayyy too vague to be useful –  varatis Apr 24 '12 at 20:24
@varatis I disagree. This problem sounds like homework and we don't want to do it for you. He's giving you a hint to get you on the right path. –  Dan W Apr 24 '12 at 20:44
@DanW All that's given here is something that tells me to use depth instead of elements as a formal parameter (everything else I already do), and if it was homework, I'd tag it as such. I need a little more guidance than a formal parameter. DaveBall's solution is closer but (unfortunately) has syntax errors –  varatis Apr 24 '12 at 20:49

The problem is that you have to clone the ArrayList before making the recursive call. Otherwise you will be adding always to the same ArrayList.

``````//allPossibleItems is an AL of all items

//this is called with generatePerm(null, new ArrayList<Item>);

private void generatePerm(Item i, ArrayList<Item> a) {
if(i != null) { a.add(i); }
if (a.size() == DESIRED_SIZE){
return;
}
for(int j = 0; j < allPossibleItems.size(); j ++) {
if(!a.contains(allPossibleItems.get(j))){
ArrayList<Item> b = clone(a);
generatePerm(allPossibleItems.get(j), b);
}
}
}
``````
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This code will not compile –  ControlAltDel Apr 24 '12 at 20:18
@user1291492 why? –  Vitalij Zadneprovskij Apr 24 '12 at 20:19
vitalik you're right in that I should use clone, however there seem to be more problems. –  varatis Apr 24 '12 at 20:23
@varatis I also changed the condition inside the last if to tackle the issue pointed by AFinkelstein. –  Vitalij Zadneprovskij Apr 24 '12 at 20:30
@vitalik I tried it out, unfortunately I'm getting the wrong number of permutations... something else needs to be changed –  varatis Apr 24 '12 at 20:39

Whenever you want to search every permutations you should think about backtracking. Luckily for you, backtracking is recursive :) Here's the wikipedia link, let me know if you need help with coding. As far as I know, backtracking is the optimal solution for generating permutation as it never visit the same permutation twice.

http://en.wikipedia.org/wiki/Backtracking

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