# What's wrong with my recursion code to calculate the digital root in Java? How can I fix it?

This is the first time I have tried recursion, so sorry for the stupidity. I am trying to calculate the digital root of a number by Java. I checked that we could calculate it by dividing by 9, but I still want to use recursion. Could you tell me what's wrong with my recursion code in Java? How can I fix it? Could you provide sample code for me?

``````public static void main(String[] args) {
Scanner console = new Scanner(System.in);
int inputnumber = inputnumber(console);
int sumofdigit = sumofdigit(inputnumber);
int digitalroot = digitalroot(inputnumber);
System.out.println("That number is :" + digitalroot);
}

//input console
public static int inputnumber(Scanner console){
int num = console.nextInt();
return num;}

public static int digitalroot(int inputnumber ) {
if(inputnumber<10){
return inputnumber;
} else {
return digitalroot(sumofdigit(inputnumber));
}
}

// calculate sum of digits
public static int sumofdigit(int inputnumber){
return sumofdigit(inputnumber/10) + inputnumber%10;
}
``````
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What kind of error are you getting? –  BlackVegetable Jul 2 '12 at 19:35
What's a "digital root"? –  duffymo Jul 2 '12 at 19:36
Your sumofdigit call will recurse infinitely. There's no end condition. –  sshannin Jul 2 '12 at 19:37
The number 1 thing you need to remember about recursion is you need to always provide an exit case. If you don't you will segmentation fault. If you look at your method sumofdigit you don't have an exit case so it is calling itself on loop. –  scrappedcola Jul 2 '12 at 19:38
@duffymo it's the sum of all the digits. digitalroot(132) is 6, (1234) is 10, etc. –  Charles Jul 2 '12 at 19:40

Your recursion never ends. Try this with the added `if` statement:

``````public static int sumofdigit(int inputnumber) {
if (inputnumber<10)
return inputnumber;
return sumofdigit(inputnumber/10) + inputnumber%10;
}
``````

You have a simlar snippet in `digitalroot`, but you primarily need it in `sumofdigit`.

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As noted above, adding a "base case" or a limit that your function will hit (eventually) is needed here.

A note I would add is that you probably don't want to name your variables the same names as the functions that return their values, that can get hairy.

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Your sumofdigit method should return a value to end recursion when your inputnumber is smaller that 10

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``````public static int sumofdigit(int inputnumber){
return sumofdigit(inputnumber/10) + inputnumber%10;
}
``````

To fix this you should do:

``````public static int sumofdigit(int inputnumber) {
if (inputnumber<10)
return inputnumber;
return sumofdigit(inputnumber/10) + inputnumber%10;
}
``````

Here is some explanation on the problem and the solution:

As you might know, any recursion can be turned into a while loop. Your problematic recursion can be turned into

``````public static int sumofdigit(int inputnumber) {
while(true){
inputNumber = (inputNumber / 10) + (inputnumber%10);
}
return inputNumber;
}
``````

As you can see, this method will never return and will loop undefinitively. A quick fix would be to return when `inputnumber<10`

``````public static int sumofdigit(int inputnumber) {
while(inputnumber>=10){
inputNumber = (inputNumber / 10) + (inputnumber%10);
}
return inputNumber;
}
``````

Which turned back into recursion gives:

``````public static int sumofdigit(int inputnumber) {
if (inputnumber<10)
return inputnumber;
return sumofdigit(inputnumber/10) + inputnumber%10;
}
``````
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I wouldn't do this recursively either:

``````public static int sumofdigit(int x) {
int sumofdigit = 0;
while(x != 0) {
sumofdigit += x % 10;
x /= 10;
}
return sumofdigit;
}

public static int digitalRoot(int x) {
while(x > 9) {
x = sumofdigit(x);
}
return x;
}
``````
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I'd say it is slightly easier to just stop recursion once you hit zero (one less magic number, and it's more often the case that you can stop recursion at zero).

``````public static int sumofdigit(int inputnumber) {
if (inputnumber == 0)
return 0;
return sumofdigit(inputnumber / 10) + inputnumber % 10;
}
``````

Not that it matters much, but it at least tries to handle summing negative numbers (albeit returning a negated sum).

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