Given an input array we can find a single sub-array which sums to K (given) in linear time, by keeping track of sum found so far and the start position. If the current sum becomes greater than the K we keep removing elements from start position until we get current sum <= K.

I found sample code from geeksforgeeks and updated it to return all such possible sets. But the assumption is that the input array consists of only +ve numbers.

```
bool subArraySum(int arr[], int n, int sum)
{
int curr_sum = 0, start = 0, i;
bool found = false;
for (i = 0; i <= n; i++)
{
while (curr_sum > sum && start < i)
{
curr_sum = curr_sum - arr[start];
start++;
}
if (curr_sum == sum)
{
cout<<"Sum found in b/w indices: "<<start<<" & "<<(i-1)<<"\n";
curr_sum -= arr[start];
start++;
found = true;
}
// Add this element to curr_sum
if (i < n) {
curr_sum = curr_sum + arr[i];
}
}
return found;
}
```

My question is do we have such a solution for mixed set of numbers too (both positive and negative numbers)?