# List of subsets of which their elements add up to n using recursion

I'm writing this function which I want to print all the sublists of a given list with integers. The sum of these integers should be equal to a given number `n`. There is also a help variable `i` which starts with value 0. Both the list and each sublist are an `ArrayList`. So the method looks like this right now:

``````public static void printSublists(ArrayList numbers, ArrayList sublist, int n,
int i) {

if (sublist.sum() == n) {
System.out.println(sublist.toString());
}
else {
for (int j = 0; j < numbers.size(); j++) {
printSublists(numbers, sublist, n, i + 1);
sublist.remove(numbers.get(i));
}
}
}
``````

Of course I already have the method `sum()`. The method does this now: Lets say `numbers = [1, 3 , 4]` and `n == 4`, then the method should print `[4]` and `[1 ,3]`, but it only prints `[1, 3]` ? I think the for-loop has to do the trick right? I would appreciate it if someone puts me on the right track.

update: the values I'm giving to the method:

``````numbers = [1, 3, 4]
n = 4
i = 0
sublist = []
``````

UPDATE 2:

I forgot to say that I want it to be recursive :)

-
This page has a generic algorithm: en.wikipedia.org/wiki/Subset_sum_problem –  assylias Mar 13 '12 at 11:46
This has to be the worst page on Wikipedia :) –  Loolooii Mar 13 '12 at 11:55

Recursion stops when you see the first sublist with a sum of `n`. The problem is not (only) the loop but the exit criteria. Your recursive function should stop when the sublist length is 0.

Here I just wrote a working, recursive solution for your problem. It is different but I wasn't able to fix yours. While you start with an empty sublist, I chose to init the recursion with the full list an divide it into smaller sublists. This creates a tree like structure:

``````                        [1234]
[123]  [234]
[12] [23]   [34]
[1][2]  [3]    [4]
``````

We see immediately, that we have to walk down "right" until we reach the first leaf (`1`), then we only walk "left". This way we visit all sublists only once.

Here's the idea written in Java:

``````public static void main (String[] args) {
ArrayList<Integer> list = new ArrayList<Integer>();
printSublists(list, list, 4, true, 0);
}

public static void printSublists(List<Integer> numbers, List<Integer> sublist, int n, boolean walkRight, int level) {

// the test
if (sum(sublist) == n)
System.out.println(sublist);

// the exit criteia (leaf reached)
if (sublist.size() == 1)
return;

// visit the right sublist
if (walkRight)
printSublists(numbers, sublist.subList(0, sublist.size()-1), n, walkRight, level+1);

// we only walk the right path once
walkRight = false;

// visit the left sublist
printSublists(numbers, sublist.subList(1, sublist.size()), n, walkRight, level+1);
}
``````

And that's the output:

``````[1, 3]
[4]
[4, 0]
``````
-
I don't understand how in this way the length of the sublist becomes 0? It has to stop (each time = nr of possible subsets) when the sum of numbers is n. Right? –  Loolooii Mar 13 '12 at 12:02
There's much more wrong with your code then just the stop criteria. The wrong exit criteria hides some more issues and it doesn't even compile (`ArrayList` does not have a `sum()` method). –  Andreas_D Mar 13 '12 at 12:58
``````@Test
public void test() {
printSublists(new HashSet<Integer>(Arrays.asList(2, 3, 4, 1, 2)), new HashSet<Integer>(), 4);
}

private void printSublists(Set<Integer> numbers, Set<Integer> subList, int expected) {

for (Integer element : numbers) {
if (sum(subList) == expected) {
System.out.println("result =" + subList);
}
Set<Integer> listWithoutElement = withoutElement(numbers, element);
printSublists(listWithoutElement, subList, expected);
subList.remove(element);

}
}

private Set<Integer> withoutElement(Set<Integer> numbers, Integer element) {
Set<Integer> newList = new HashSet<Integer>(numbers);
newList.remove(element);
return newList;
}

private int sum(Collection<Integer> sublist) {
int sum = 0;
for (Integer e : sublist) {
sum += e;
}
return sum;

}
``````

Here is your solution. This problem should be for sets, not for list.

If you have set [2,3,4,1,2] the solution should be [3,1] [4] [2,2]. Then the problem has to be recursive. You have to remove duplication of course :)

-
Forgot to say that I want it to be recursive. Updated my question. –  Loolooii Mar 13 '12 at 11:59
BTW, this seems exactly copied from some other website. Unless you're the owner of that page. –  Loolooii Mar 13 '12 at 12:09
The code is written by me. Algorithm is so easy so I think you find similar solutions. –  Andrzej Jozwik Mar 13 '12 at 13:08
I rewrote according to wikipedia. The problem is for sets. You have to remove duplication for performance. Code is mine :) –  Andrzej Jozwik Mar 13 '12 at 14:06

probably u will need to do something this way -

``````public static void printSublists(ArrayList numbers, ArrayList sublist, int n,
int i) {

if (sublist.sum() == n) {
System.out.println(sublist.toString());
}
else {
//for (int j = 0; j < numbers.size(); j++) {//commented this line
while(i<number.size()){//need while loop
printSublists(numbers, sublist, n, ++i);//i+1 changed to ++i
//sublist.remove(numbers.get(i));// commented here
}
}
}
``````
-

``````        for (int j = 0; j < numbers.size(); j++) {
The variable `j` is never used. So you're doing exactly the same thing repeatedly, which I seriously doubt is what you want to do.