# Sum two arrays element-by-element in Java

What is the easiest way to sum two arrays element-by-element?

I know that you can use a `for` loop such as the following:

``````int[] a = {0, 1, 2};
int[] b = {3, 4, 5};
int[] c = new int[a.length];
for (int i = 0; i < a.length; ++i) {
c[i] = a[i] + b[i];
}
``````

But in languages such as MATLAB, you can do the element-by-element array sum by just writing `c = a + b`. Is there an easy way to do this in Java?

The method that comes to mind is using the RealVector class from Apache Commons Math, but that method is rather verbose.

• Can't get any simpler than what you have. – rocketboy Sep 4 '13 at 15:55
• You cant do it with standard arrays in Java, but look up some matricies classes. Im sure they have summation methodes you are looking for that are also highly optimized. – David Grinberg Sep 4 '13 at 15:55
• @Dgrin91 More optimized than what he wrote above? – crush Sep 4 '13 at 15:56
• @Dgrin91 Why in the world would you multi-thread this...I guess if it was a huge array, you could split it into chunks... – crush Sep 4 '13 at 15:57
• @crush Yes... the threading assumes it is not a trivial example. Always assume a massive input. If it is a trivial example though the threading would likely slow it down a tiny bit, but not by a noticeable amount. – David Grinberg Sep 4 '13 at 15:58

There's certainly nothing to enable this in the language. I don't know of anything in the standard libraries either, but it's trivial to put the code you've written into a utility method which you can call from anywhere you need it.

• It is just me who thinks it's crazy that the standard libraries don't have things like elementwise addition? It seems like a pretty basic missing feature for a language with as many bells and whistles as Java. – Peter Dec 4 '15 at 21:23
• @Peter google for operator overloading. Whole lot of people don't want it... So its not in Java while c++ has it. – kai Feb 19 at 6:19

`c = a + b` Is there an easy way to do this in Java?

No. not this easy, because you can not override operators in java.

You could use javax.vecmath.Vector3d (as @crush said it in another comment [credits to him]) which supports add but this does nothing more than adding the values:

``````/**
* Sets the value of this tuple to the vector sum of itself and tuple t1.
* @param t1  the other tuple
*/
public final void add(Tuple3d t1) {
x += t1.x;
y += t1.y;
z += t1.z;
}
``````

you use it like this:

``````vectorC = vectorA.copy().add(vectorB);
//you need to copy the vectorA because add manipulates the object your calling it on
``````

or Use library such as JScience which has a mathematical-Vektor

But if you want a performant way: your solution is the best you can get in my opinion!

One more answer, using streams and providing a more generic solution:

``````import org.junit.Assert;
import org.junit.Test;

import java.util.function.IntBinaryOperator;
import java.util.stream.IntStream;

public class SOTest {

@Test
public void test() {
int[] a = {0, 1, 2};
int[] b = {3, 4, 5};

int[] sum = applyOn2Arrays((x, y) -> x + y, a, b);
int[] diff = applyOn2Arrays((x, y) -> x - y, a, b);
int[] mult = applyOn2Arrays((x, y) -> x * y, a, b);

Assert.assertArrayEquals(new int [] {3,5,7}, sum);
Assert.assertArrayEquals(new int [] {-3,-3,-3}, diff);
Assert.assertArrayEquals(new int [] {0,4,10}, mult);
}

private int[] applyOn2Arrays(IntBinaryOperator operator, int[] a, int b[]) {
return IntStream.range(0, a.length)
.map(index -> operator.applyAsInt(a[index], b[index]))
.toArray();
}
}
``````

With Java 8 Streams it's very easy to do this. And this method is very efficient when adding a large array size.

``````class TestClass {
public static void main(String args[] ) throws Exception {
Scanner scan = new Scanner(System.in);
Integer arrSize = scan.nextInt();
Integer firstArr[] = new Integer[arrSize];
Integer secArr[] = new Integer[arrSize];
Integer sumArr[] = new Integer[arrSize];
for(int i = 0; i < arrSize; i++) firstArr[i] = scan.nextInt();
for(int i = 0; i < arrSize; i++) secArr[i] = scan.nextInt();
IntStream.range(0, arrSize).forEach(i -> sumArr[i] = firstArr[i] + secArr[i]);
System.out.println(Arrays.asList(sumArr).stream().map(n->n.toString()).collect(Collectors.joining(" ")));
}
}
``````

check this one: used sum and carry

``````public class SumOfTwoArrays{

public static int[] sumOfTwoArrays(int[] arr1, int[] arr2){

int na = arr1.length;
int nb = arr2.length;
int nc;
int min;

if(na > nb){
nc = na + 1;
min = nb;
}else{
nc = nb + 1;
min = na;
}

int[] c = new int[nc];
int sum = 0;
int carry = 0;
int i = na - 1;
int j = nb - 1;
int k = nc - 1;

while(i >= 0 && j>=0){
sum  = arr1[i] + arr2[j] + carry;
i--;
j--;
c[k] = sum % 10;
sum = sum / 10;
carry = sum % 10;
k--;
}//end of while loop

while(i >= 0){          //n2 has exhausted
sum  = arr1[i] + carry;
c[k] = sum % 10;
sum = sum / 10;
carry = sum % 10;
i--;
k--;
}

while(j >= 0){        //n1 has exhausted
sum  = arr2[j] + carry;
c[k] = sum % 10;
sum = sum / 10;
carry = sum % 10;
k--;
j--;
}

c[k] = carry;

return c;
}
}
``````

Input: arr1 = {2, 1, 3}; arr2 = {3, 2};

Output: c: {0, 2, 4 ,5}