# Java recursion how to calculate sum of each digit

I can't seem to solve this one. Recursion is not my strongest point.

If asked to write a console application where the program calculates the product of each digit of an entered number.

for example:

``````input = 1234 -> output = 24
input = 1230 -> output = 0
``````

this needs to be in recursion.

• Please post what you have tried, and what is not working like you'd expect. You will not receive a good response here if you do not have any code to show. – Nexevis Jan 14 at 15:41
• You first of all need a way to extract a digit and then to remove a digit. So for example getting the `1` from `1230` and then modifying it to `230`. Then `2` and `30`, then `3` and `0`. You can do so by using `/ 10` and `% 10`. – Zabuza Jan 14 at 22:36

For recursive solutions, you need to define two things 1. Base case 2. Recursive case

For your example, 1. Base case - For a String with single number input, method should return itself. 2. Recursive case - If the input is a String with many numbers, you need to get the multiplication.

``````void test() {
String x = "1234";
System.out.println(recurs(x));
}

int recurs(String x) {
if (x.length() == 1) {
return Integer.parseInt(x);
} else {
return recurs(x.substring(0,1)) * recurs(x.substring(1));
}
}
``````
• Multiplication? OP is trying to sum up the digits, not to multiplicate them. Other than that, good answer. – Zabuza Jan 14 at 22:45
• Yeah, his title and example code are two different things. That is why the confusion. My example tally with his code not the title – Klaus Jan 15 at 3:27

Here is one way to do it:

``````public static int prod (int v) {
return v == 0 ? 1 : v%10 * prod(v/10);
}

``````

If you want to define an `instance` or `static` `lambda` you can do it as follows:

``````IntFunction<Integer> prod1 = n->n == 0 ? 1 : n%10 * this.prod1.apply(n/10);

static IntFunction<Integer> prod2 n->n == 0 ? 1 n%10 * ClassName.prod2.apply(n/10);

System.out.println(prod.apply(1234)); // prints 24.

``````

In each of these cases it recursively calls the method resulting in the following being placed on the call stack:

``````1234
123
12
1
``````

Then it uses the remainder operator (`%`) on each of those as it returns to get the product of the last digits resulting in 1 * 2 * 3 * 4.

And finally, since the products can get large, you may want to use a `BigInteger` version.

``````public static BigInteger bigProd(BigInteger b) {
return b.equals(BigInteger.ZERO) ?
BigInteger.ONE :
b.mod(BigInteger.TEN).multiply(bigProd(b.divide(BigInteger.TEN)));
}

System.out.println(bigProd(new
BigInteger("9282223929192298837394749389484938494")));
``````

which prints

5706072528759010784968704

``````public static void main(String[] args) {
Scanner in = new Scanner(System.in);

int number = in. nextInt();
int recursion =1;
while (number%10 >= 0 && number >0){

recursion = recursion* (number%10); // get the last number and multiple
number = number/10;
}
System.out.println("Recursion"+recursion);
}
``````
``````int product(int number) {
if (number / 10 > 0) {
return product(number / 10) * (number % 10);
} else {
return number % 10;
}
}
``````
• It's best to include some commentary on why the code in your answer is the correct solution. – Matt Watson Jan 14 at 18:36

It is not clear whether you want a recursive function to find the sum of digits of an integer or the product of digits of an integer. I have provided both the functions with some tests as follows:

``````public class Main {
public static void main(String[] args) {
// Tests for productOfDigits
System.out.println("Tests for recursive function, productOfDigits: ");
System.out.println(productOfDigits(4321));
System.out.println(productOfDigits(1234));
System.out.println(productOfDigits(1230));

// Tests for sumOfDigits
System.out.println("\nTests for recursive function, sumOfDigits: ");
System.out.println(sumOfDigits(4321));
System.out.println(sumOfDigits(1234));
System.out.println(sumOfDigits(1230));
}

static int productOfDigits(int num) {
if (num == 0) {
return 1;
}
return (num % 10) * productOfDigits(num / 10);
}

static int sumOfDigits(int num) {
if (num == 0) {
return 0;
}
return (num % 10) + sumOfDigits(num / 10);
}
}
``````

Output:

``````Tests for recursive function, productOfDigits:
24
24
0

Tests for recursive function, sumOfDigits:
10
10
6
``````