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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++) {
                sublist.add(numbers.get(i));
                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 :)

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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

4 Answers 4

up vote 2 down vote accepted

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>();
  list.add(1);
  list.add(3);
  list.add(4);
  list.add(0);
  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]
share|improve this answer
    
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) {
        subList.add(element);
        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 :)

share|improve this answer
    
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

In your code's for loop:

        for (int j = 0; j < numbers.size(); j++) {
            sublist.add(numbers.get(i));
            printSublists(numbers, sublist, n, i + 1);
            sublist.remove(numbers.get(i));
        }

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.

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I guess in my case the for-loop should run twice right? The number of sublist? Thanks btw, will look at it :) –  Loolooii Mar 13 '12 at 12:12

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());
        sublist.removeAll(sublist);//added remove all here
    } 
    else {
        //for (int j = 0; j < numbers.size(); j++) {//commented this line
        while(i<number.size()){//need while loop
            sublist.add(numbers.get(i));
            printSublists(numbers, sublist, n, ++i);//i+1 changed to ++i
            //sublist.remove(numbers.get(i));// commented here
        }
    }
}
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