# Maximum sum from two sorted arrays

You are given two sorted integer arrays, which have some common integers. Any common integer between the two sequences constitute an intersection point. You can start traversing from any of the array and switch to the other array or continue with the same array at an intersection point. The objective is to find a path that produces the maximum sum of the data. Take for example the following two sequences where intersection points are printed in bold: First = 3 5 7 9 20 25 30 40 55 56 57 60 62 Second = 1 4 7 11 14 25 44 47 55 57 100

In the above example, the largest possible sum is 450 which is the result of adding 3, 5, 7, 9, 20, 25, 44, 47, 55, 56, 57, 60, and 62

``````/* M: size of the array a
N: size of the array b
*/

int i,j,sum1,sum2,sum,m_i,n_j = 0;

void printIntersectionElements(int *a,int M, int *b, int N) {

if (M == 0)
return (b);
if (N ==0)
return(a);
while( i < M &&  j < N ){
sum1 = sum1 +a[i];
sum2 = sum2 + b[j];
if(a[i] == b[j]) { // found a common element.

if(sum1>= sum2){
for(;m_i<= i; m_i++)
cout<< a[m_i];
sum = sum +sum1;
m_i = i+1;
}
else {
for(;n_j<= j; n_j++)
cout<< b[n_j];
sum = sum+sum2;
n_j = j+1;
}
sum1 = sum2 = 0;
}
i++;
j++;
}

}
``````
-
It is not compiling? Have you read the compiler error? –  Andrew Shepherd Jan 7 '12 at 9:06

You are trying to return a result from a function that is declared with a `void` return type. That's not valid C++, which is why you are getting a compiler error.

There may be other errors, too. Read the error messages: they will tell you exactly what and where the problem is.

-
Either don't return anything, or declare the function to have a non-void return type, depending on what the function is actually supposed to do. –  Cameron Skinner Jan 7 '12 at 9:38
You have two return statements in the code. You should think about why you put them in, and if they are supposed to be there. –  Cameron Skinner Jan 7 '12 at 9:48
which statement please tell ? –  princess of persia Jan 7 '12 at 10:03

This question can be solved in O(m+n). You can maintain a cumulative sum array for both arrays. First find the intersection point in O(m+n). Then check which array has maximum sum between two intersection point. Add them in a variable. Here is the code.

``````#include <iostream>
#include <vector>
#include <cstdio>

using namespace std;

void print(int a[], int x, int y) {
for(int i = x; i <= y; i++) {
printf("%d ", a[i]);
}
}

int main ()
{
int i, j, x, y, n, m;
int a0[100], a1[100], sum1[100], sum0[100];
vector <int> v0, v1;
cout << "Enter the value of n and m:\n";
cin >> n >> m;
scanf("%d", &a0[0]);
sum0[0] = a0[0];
for(i = 1; i < n; i++) {
scanf("%d", &a0[i]);
sum0[i] = a0[i] + sum0[i-1];    //cumulative sum for first array
}
scanf("%d", &a1[0]);
sum1[0] = a1[0];
for(i = 1; i < m; i++) {
scanf("%d", &a1[i]);
sum1[i] += a1[i] + sum1[i-1];   //cumulative sum for second array
}
i = 0;
j = 0;
while(i < n && j < m) {    //loop breaks when either one of the array ends
if(a0[i] == a1[j]) {   //if there is a intersection
v0.push_back(i);   //store index of both the arrays
v1.push_back(j);
i++;
j++;
}
else if(a0[i] > a1[j]) {   //else increase the index of array
j++;                   //containing small number
}
else if(a0[i] < a1[j]) {
i++;
}
}
i = 0;
j = 0;
int sum = 0;
while(i < v0.size()) {
x = v0[i];
y = v1[i];
if(i == 0) {
if(sum0[x] > sum1[y]) { //check which array has greater sum
sum += sum0[x];     //first intersection
print(a0, 0, x);
}
else {
sum += sum1[y];
print(a1, 0, y);
}
i++;
}
else {
if(sum0[x]-sum0[v0[i-1]] > sum1[y]-sum1[v1[i-1]]) {
sum += sum0[x]-sum0[v0[i-1]]; //checks which array has greater sum
print(a0, v0[i-1]+1, x);      //between two intersectio
}
else {
sum += sum1[y]-sum1[v1[i-1]];
print(a1, v1[i-1]+1, y);
}
i++;
}
}
if(sum0[n-1]-sum0[x] > sum1[m-1]-sum1[y]) {
sum += sum0[n-1]-sum0[x];   //check which array has greater sum
print(a0, x+1, n-1);        //at last intersection
}
else {
sum += sum1[m-1]-sum1[y];
print(a1, y+1, m-1);
}
cout << endl << "sum = " << sum << endl;
return 0;
}
``````
-

First of it doesn't compile, since your function is declared to return `void`, but you try to return `int*`. Change your return statements to `return;`
• Furthermore you only detect intersection points when both arrays contain the same number at the same position, however from your text I would think that you should detect points as intersections, even if they are at different positions in the array (I might be wrong though, depending on the exact formulation of your exercise). To do that the easiest way would be to handle only the smaller value of `a[i]` and `b[j]` each iteration (and increase only either `i` or `j` (or both if its an intersection).