# Find all ways to sum given number (with repetitions allowed) from given set

Given an array (e.g. [1,2]) of n elements and a number 'k' (e.g. 6), find all possible ways to produce the sum = k

For given example answer would be 4 because

``````1 1 1 1 1 1
1 1 1 1 2
1 1 2 2
2 2 2
``````

The algorithm I could think of is by brute force, we simulate all possible scenarios, and stop when from given state we can not reach result.

`````` arr[] = [1,2]
k = 6
globalCount =0;
function findSum(arr,k)
{
if(k ==0)
globalCount++
return
else if(k<0)
return

for each i in arr{
arr.erase(i)
tmp = k
findSum(arr,tmp)
while(k>=0){
findSum(arr,tmp -= i)
}
}
``````

I am not sure if my solution is most efficient one out there. Please comment /correct or show pointers to better solutions.

EDIT : Would really appreciate if someone can give me runtime complexity of my code and their soln code. :) Mine code complexity I think is Big-O( n^w ) w = k/avg(arr[0]..arr[n-1])

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possible duplicate of Generating the partitions of a number – templatetypedef Sep 7 '11 at 21:15

## 2 Answers

If you're willing to excuse the fancy linq tricks, you might find this C# solution useful. Fortunately linq reads kind of like english. The idea is to build up the solutions as `k` starts from 0 and increments until it reaches its correct value. Each value of `k` builds on the previous solutions. One thing you have to watch for though is to ensure that the new "ways" you're finding are not re-orderings of others. I solved that by only counting them as valid if they're sorted. (which was only a single comparison)

``````void Main() {
foreach (int[] way in GetSumWays(new[] {1, 2}, 6)) {
Console.WriteLine (string.Join(" ", way));
}
}

int[][] GetSumWays(int[] array, int k) {
int[][][] ways = new int[k + 1][][];
ways[0] = new[] { new int[0] };

for (int i = 1; i <= k; i++) {
ways[i] = (
from val in array
where i - val >= 0
from subway in ways[i - val]
where subway.Length == 0 || subway[0] >= val
select Enumerable.Repeat(val, 1)
.Concat(subway)
.ToArray()
).ToArray();
}

return ways[k];
}
``````

Output:

``````1 1 1 1 1 1
1 1 1 1 2
1 1 2 2
2 2 2
``````

It uses a dynamic programming approach and should be faster than a naive recursive approach. I think. I know it's fast enough to count the number of ways to break a dollar in a few milliseconds. (242)

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+1 for code. Golly! if u hadnt told me, I wouldnt have known ever that it is a program that compiles and executes. That is so much like english. :) – Ajeet Sep 7 '11 at 20:33

This is an interesting subset of the partition problem. There's actually a closed-form solution to this (see here and here) if you allow all integers.

Doing some googling for the "restricted partition function" gave me some leads. This paper gives a pretty mathematically rigorous discussion of a couple of solutions to this problem, as does this one.

Unfortunately I'm too lazy to code these up. They're pretty intense solutions.

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Thanks Queequeg, for finding the problem behind the problem. :) – Ajeet Sep 7 '11 at 20:34