Using a map to find subarray with given sum (with negative numbers)

Consider the following problem statement:

Given an unsorted array of integers, find a subarray which adds to a given number. If there are more than one subarrays with sum as the given number, print any of them.

``````Examples:

Input: arr[] = {1, 4, 20, 3, 10, 5}, sum = 33
Ouptut: Sum found between indexes 2 and 4

Input: arr[] = {10, 2, -2, -20, 10}, sum = -10
Ouptut: Sum found between indexes 0 to 3

Input: arr[] = {-10, 0, 2, -2, -20, 10}, sum = 20
Ouptut: No subarray with given sum exists
``````

On this site, the following linear time solution was suggested involving the use of a map to store the sums of the current subsets as the algorithm iterates through the array:

``````// Function to print subarray with sum as given sum
void subArraySum(int arr[], int n, int sum)
{
// create an empty map
unordered_map<int, int> map;

// Maintains sum of elements so far
int curr_sum = 0;

for (int i = 0; i < n; i++)
{
// add current element to curr_sum
curr_sum = curr_sum + arr[i];

// if curr_sum is equal to target sum
// we found a subarray starting from index 0
// and ending at index i
if (curr_sum == sum)
{
cout << "Sum found between indexes "
<< 0 << " to " << i << endl;
return;
}

// If curr_sum - sum already exists in map
// we have found a subarray with target sum
if (map.find(curr_sum - sum) != map.end())
{
cout << "Sum found between indexes "
<< map[curr_sum - sum] + 1
<< " to " << i << endl;
return;
}

map[curr_sum] = i;
}

// If we reach here, then no subarray exists
cout << "No subarray with given sum exists";
}
// Driver program to test above function
int main()
{
int arr[] = {10, 2, -2, -20, 10};
int n = sizeof(arr)/sizeof(arr[0]);
int sum = -10;

subArraySum(arr, n, sum);

return 0;
}
``````

With the test case that is provided in the post, the second if statement checking whether current_sum - sum is never entered. Instead, the sum is found and is printed in the first if statement. So there a few points of confusion here:

1: What is the purpose of looking up `current_sum-sum` in the map?

2: In which cases would the second if statement even be entered to put the map to use in solving the problem?

``````    curr_sum = curr_sum + arr[i];
``````

Here:

curr_sum holds the sum of all the entries(up to arr[i]) starting from arr[0]

``````if (curr_sum == sum)
{
cout << "Sum found between indexes "
<< 0 << " to " << i << endl;
return;
}
``````

Here:

The if condition checks if the curr_sum is equal to the given sum. Remember, curr_sum holds the sum starting from arr[0].

So, if the indexes for your result subarray is 2 and 4, the above condition is not enough.

``````Input: arr[] = {1, 4, 20, 3, 10, 5}, sum = 33
Ouptut: Sum found between indexes 2 and 4
``````

In that example,

when i = 4, curr_sum would be 38. But if you take 1 and 4 out(arr[0] and arr[1] which is a subarray), you get 33.

``````    if (map.find(curr_sum - sum) != map.end())
{
cout << "Sum found between indexes "
<< map[curr_sum - sum] + 1
<< " to " << i << endl;
return;
}

map[curr_sum] = i;
``````

The above code does that.

`````` map[curr_sum] = i;
``````

map stores the index value (i) with the subarray sum ( sum of the arr between indexes 0 and i ) as key. So for the example, it would be:

• map[1]=0
• map[5]=1
• map[25]=2
• map[28]=3
• map[38]=4

This code:

``````    map.find(curr_sum - sum)
``````

searches the map is if it has an entry with key (curr_sum - sum).

In our example, when i = 4, curr_sum would be 38 and sum as given would be 33. If we eliminate the subarray arr[0,2], we get 33. So, map.find(curr_sum - sum) => map.find(38-33) is a hit since we have entry map[5] = 1.

Hope this clears you

• Nice explanation – Varun Jan 4 at 19:36

There are two cases:

1. The sum from indices 0 to `n` is the number we're looking for. `cur_sum` is the running sum of all the indices, so it's as easy as just checking that variable.
2. The sum from indices `m` to `n` is the number we're looking for. If that is the case, then there exists an `m` such that the (sum from 0 to `n`) minus (sum from 0 to `m`) is the sum we're looking for. All those intermediate sums are stored in the map, so that's why we're looking for `cur_sum - sum` - if that difference corresponds to some partial sum, then we're done.

An example of this second case would be the first test case in your question - looking for 33 in `{1, 4, 20, 3, 10, 5}`. At `n==4`, we have `cur_sum` of `38`. But `5` is in the map as being the sum of the first two indices.

You don't need a map if there are no negative integers in the array. You can just maintain a start variable in that case, subtracting arr[start] from currSum and incrementing start by 1 while currSum > sum.

In case there may be negative integers in the array, this method with a map can be used.

Try this example to understand the solution:

-5, 2, 10, 20, 3, 8

sum = 33

Answer: Sum found between indexes 2 to 4