# Divide and conquer algorithm for sum of integer array

I'm having a bit of trouble with divide and conquer algorithms and was looking for some help. I am attempting to write a function called sumArray that computes the sum of an array of integers.

This function must be done by dividing the array in half and performing recursive calls on each half. I have tried to use similar concepts to those I employed when writing recursive sum algorithms and a divide and conquer algorithm for identifying the maximum element in an array, but I am struggling to combine the two ideas.

Below is the code I have written for sumArray, which compiles, but does not return the correct result.

``````int sumArray(int anArray[], int size)
{
int total = 0;
//base case
if (size == 0)
{
return 0;
}
else if (size == 1)
{
return anArray[0];
}

//divide and conquer
int mid = size / 2;
int lsum = anArray [mid] + sumArray(anArray, --mid);
int rsize = size - mid;
int rsum = anArray[size - mid] + sumArray(anArray + mid, --rsize);
return lsum + rsum;
}
``````

I have identified the problem as being that the function includes the value of lsum in its calculation of rsum. I know the issue lies within my recursive call to sumArray using rsize ( a variable that is equal to the size of the original array, minus the midpoint). For some reason, however, I cannot seem to identify a fix.

I feel silly asking, as I know the answer is staring me right in the face, but how do I repair my function so that it returns an accurate result?

UPDATE: Thanks to all the helpful responses, I have fixed my code and so that it compiles and runs nicely. I will leave my original code here in case others are struggling with divide and conquer and might be making similar mistakes. For a function that correctly solves the problem, see @Laura M's answer. The response by @haris also gives a good explanation of where my code was incurring errors.

• Did you try your program with a small sample size of say, 4 items? That is how you should eventually figure this out (also use your debugger to step through your code). Oct 13, 2014 at 16:09
• `int lsum = anArray [mid] + sumArray(anArray, --mid);` This has the smell of undefined behavior. You're changing `mid` and using it as an array subscript, all in the same sequence. Oct 13, 2014 at 16:23
• @ldgorman thank you for reminding me! I was so caught up working on the rest of the problem that I had forgotten to come back and accept an answer
– Nea
Oct 15, 2014 at 14:47

``````int sumArray(int anArray[], int size)
{
//base case
if (size == 0)
{
return 0;
}
else if (size == 1)
{
return anArray[0];
}

//divide and conquer
int mid = size / 2;
int rsize = size - mid;
int lsum = sumArray(anArray, mid);
int rsum = sumArray(anArray + mid, rsize);
return lsum + rsum;
}
``````
• yes, `int anArray[] = { 0, 1, 2, 3, 4, 5}; //15 int size = 6;` gives 19 Oct 13, 2014 at 16:49
• i just edit it to give the same output in all compilers. i only tested it with VS2012 in the beginning Oct 13, 2014 at 17:33
• This was a really simple and clear solution to the problem I was having. Thanks for your answer!
– Nea
Oct 15, 2014 at 14:45
• You're welcome, i'm glad it's the solution you needed Oct 15, 2014 at 17:38
• @LauraMaftei Is is possible to create this a recursive function like this but only have the array as a parameter and not the size of the array? It's really similar to an assignment I'm working on Apr 7, 2020 at 7:05

``````int mid = size / 2;
int lsum = anArray [mid] + sumArray(anArray, --mid);
int rsize = size - mid;
int rsum = anArray[size - mid] + sumArray(anArray + mid, --rsize);
``````

we can illustrate the error with an example where the array is `{ 2, 3, 4, 5, 6, 9}` and `size = 6`.

now when you do `mid = size / 2`, followed by:

``````int lsum = anArray [mid] + sumArray(anArray, --mid);
int rsize = size - mid;
int rsum = anArray[size - mid] + sumArray(anArray + mid, --rsize);
``````

the number `5` gets added twice (once in `lsum` and then in `rsum`) because `mid == (size - mid)`.

Furthermore, the call for `sumArray()` in `rsum` should have parameters `sumArray(anArray + (mid + 1), --rsize)` as element `mid` has already been added in `lsum`

On a different note, you can go for a much simpler code for recursion, something like..

``````int add(int low,int high,int *a)
{
int mid;
if(high==low)
return a[low];
mid=(low+high)/2;
}
``````
• Thanks for your answer, the explanation was very helpful in figuring out where I went wrong.
– Nea
Oct 15, 2014 at 14:43
``````int sumArray(int anArray[],int start,int end){
if(start==end)
return anArray[start];
if(start<end){
int mid=(start+end)/2;
int lsum=sumArray(anArray,start,mid-1);
int rsum=sumArray(anArray,mid+1,end);
return lsum+rsum+anArray[mid];

}
return 0;

}
``````
• each answer should stand alone unless specifically linked to another. thats why you have been voted down, even though you provided a solution before anyone else. note i didnt vote you down Oct 13, 2014 at 16:46
• Thanks for your answer. I did previously discover this way to solve the problem, but, unfortunately, I have since been instructed that I may only use int anArray[] and int size as parameters
– Nea
Oct 13, 2014 at 17:07

As haris has said, in your code you add the same number to both the right sum and the left sum; however, there is a much greater problem with your code.

You always pass the same array to your recursive calls for lsum and rsum. At first I thought that was just part of your implementation and that it would be taken care of by the size parameter. However, the size parameter appears to not work as you might have intended it to work. All your algorithm does is reduce the size parameter until it reaches a 1. Then, the base case is triggered, and as a result the first item in the original array always is returned. Why? You never break up the array in your code and so the same array persists throughout each recursive call (even at the base case).

To fix this problem, all sumarray() should do is split the array into a left half and a right half based on the mid calculation and recursively pass this new array until the size of the array is 1 (the base case) and you return the item in the array. This effectively breaks the array into its individual elements, and all the function has to do at this point is add up lsum and rsum.

Pseudocode:

``````sumArray(array[]){
if size(array) is 1
return array[0]

mid = size(array) / 2
leftArray = splitArrayUpto(mid, array)
rightArray = splitArrayAfter(mid+1, array)

leftArraySum = sumArray(leftArray)
rightArraySum = sumArray(rightArray)

return leftArraySum + rightArraySum
}
``````
• it does split the array through this operation: anArray + mid Oct 13, 2014 at 17:55
• Isn't mid an integer? How does adding an integer to an array of integers split the array of integers? Oct 13, 2014 at 18:07
• The variable anArray points to the first element of the array, anArray + mid will point to mid element Oct 13, 2014 at 18:12
``````#include<iostream>
using namespace std;
int sum(int a[], int l, int r)
{
if(l==r) return a[l];
int mid = (l+r)/2;
int lsum = sum(a,l,mid);
int rsum = sum(a,mid+1,r);
return lsum+rsum;
}

int main() {
int b[] = {9,7,2,6,5,3};
int fsum = sum(b,0,5);
cout<<fsum;
return 0;
}
``````
``````int a[mx], tree[mx*3];

void sum(int node, int s, int e){
if(s == e)
{
tree[node] = a[s];
return;
}

int left = node*2;
int right = node*2 + 1;
int mid = (s+e)/2;

sum(left, s, mid);
sum(right, mid+1, e);

tree[node] = tree[left] + tree[right];
}

cin >> n;
for(int i=1;i<=n;i++)
cin >> a[i];

sum(1, 1, n);
``````

Full Code Here