# A recursive algorithm to find every possible sum given an integer array?

So given an array for example [3, 5, 7, 2] I want to use recursion to give me all the possible combinations of sums, `for example: 3, 5, 7, 2, 8(3+5),10(3+7),5(3+5)... 15(3+5+7)` etc. I'm not exactly sure how to go about this using java.

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What have you tried?? – Rohit Jain Oct 6 '12 at 20:12

An recursive algorithm for this could work as follows:

All the sums for a list equals the union of:

• The first number plus the sums of the sublist without the first number
• The sums of the sublist without the first number

Eventually your recursive call will hit the stopping condition of an empty list, which has only one sum(zero)

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Here's one way of doing it in pseudo code:

``````getAllPossibleSums(list)
if(list.length == 1)
return list[0];
otherSums = getAllPossibleSums(list[1:end])
return union(
otherSums, list[0] + otherSums);
``````
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This is still recursion. – Confluence Oct 6 '12 at 20:23
@Confluence: He wants recursion. – Mike Kwan Oct 6 '12 at 20:24
How come you get that word for this code?? Seriously `Dynamic Programming`?? Where is Dynamic here?? – Rohit Jain Oct 6 '12 at 20:24
Yes, but at least what I've described here hits the same recursive call a number of times. This is what dynamic programming is. Very similar to recursion, and can naively be implemented with recursion if you like. – CrazyCasta Oct 6 '12 at 20:27
Hmm, it appears there's a much simpler way then what I did, so I've changed mine to pure recursion (no dynamic programming). – CrazyCasta Oct 6 '12 at 20:32

You have two choice with each number in the array.

1. Use the number
2. Don't use the number

``````void foo(int[] array, int start, int sum) {
if(array.length == start) return;
int val = sum + array[start];
//print val;
foo(array, start + 1, val); //use the number
foo(array, start + 1, sum); //don't use the number
}
``````

the initial call is `foo(a, 0, 0)`

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``````public static void main(String[] args) {
findAllSums(new int[] {3, 5, 7, 2}, 0, 0);
}

static void findAllSums(int[] arrayOfNumbers, int index, int sum) {
if (index == arrayOfNumbers.length) {
System.out.println(sum);
return;
}

findAllSums(arrayOfNumbers, index + 1, sum + arrayOfNumbers[index]);
findAllSums(arrayOfNumbers, index + 1, sum);
}
``````

You have two branches, one in which you add the current number and another in which you don't.

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``````public static void main(String[] args) {
int [] A = {3, 5, 7, 2};
int summation = recursiveSum(A, 0, A.length-1);
System.out.println(summation);
}

static int recursiveSum(int[] Array, int p, int q) {
int mid = (p+q)/2; //Base case
if (p>q) return 0; //Base case
else if (p==q) return Array[p];
**else
return  recursiveSum(Array, p, mid) +  recursiveSum(Array, mid + 1, q);**
}
``````
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The problem is to output every possible sum, not just the total. – fgb Aug 19 '13 at 23:54