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

`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