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I was wondering why the following code solutions based on the modulo operation do not work when moving from the int type to the long type.

For example given 111111111111L I would like to get returned 12L.

How can I achieve the same expected behaviour described at the following question (that is working only for int type values)? Sum of all digits for a given Positive Number

I am also focused on performance issues so I am looking for an efficient solution.

public static long sumTheDigitsVersion1(long inputValue){
    long sum = inputValue % 9L;
        if(sum == 0){
            if(inputValue > 0)
                return 9L;
    return sum;

public static long sumTheDigitsVersion2(long inputValue){
    return inputValue - 9L * ((inputValue - 1L) / 9L);


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Don't rely on off-site resources in your question. Link them if you like but always quote the relevant bits in your question. –  T.J. Crowder Aug 25 '13 at 13:58
Why would you expect 12 as output. That question you linked, finding the digital root, which reduces the number by summing digits, until you get a single digit. So, for 12 it will again be reduced to 1 + 2 = 3. –  Rohit Jain Aug 25 '13 at 14:00
@dasblinkenlight. 111111111111L can be considered decimal? –  Rohit Jain Aug 25 '13 at 14:02
I think it would be easiest to convert the number to a string. Numbers and especially primitives do not have a length, which is going to be very helpful in achieving the functionality your after. –  Kevin Bowersox Aug 25 '13 at 14:03
@RohitJain I am dealing with huge numbers that can not be contained in int types. So for example given a huge number like 111111111111 I would like to get the sum of its digits 12. I might be not 100% aware of the difference between int types and long types like ranges etc, however I was expecting a working solution similar to the function I wrote. –  TPPZ Aug 25 '13 at 14:05

5 Answers 5

The solution does not work because it's a solution to a different problem, namely:

repeatedly add up the number's digits until you achieve an single-digit result.

In other words, it computes 111111111111 -> 12 -> 3.

When you think about it, n % 9 cannot possibly return 12 (which is what you say you're expecting).

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Ok I was confusing 2 different problems, thanks for highlighting it. Now I am still trying to see which is the most efficient way to solve the problem, for example given this input 111111111111 I would like to get the sum of its digits i.e. 12. –  TPPZ Aug 25 '13 at 14:08

Recursive, efficient solution:

public static long digitSum(long n) {
    if (n == 0)
        return 0;
    return n%10 + digitSum(n/10);
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It's only efficient if the JVM can turn it into a loop, which it probably can't. –  Boann Aug 25 '13 at 15:19

This may not be the most efficient option buts its the only one I can think of on the top of my head:

public static long getDigitalSum(long n){
    n = Math.abs(n); //This is optional, remove if numbers are always positive. NOTE: Does not filter Long.MIN_VALUE

    char[] nums = String.valueOf(n).toCharArray();
    long sum = 0;

    for(char i:nums){
        sum = sum + Integer.parseInt(String.valueOf(i)); //Can use Long.parseLong() too

    return sum;
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Note that Math.abs(n) == n for n = Long.MIN_VALUE. It would be better to skip over the - character, or simply reject negative input with an IllegalArgumentException. –  Boann Aug 25 '13 at 15:15
@Boann Okay... I did not know that. I was thinking since he wanted efficient, running a if statement per character would probably be very bad. Thanks for the info! –  CPU Terminator Aug 25 '13 at 15:17
It's literally the least efficient possible solution anyway, so... –  Boann Aug 25 '13 at 15:20
It doesn't compile either. The return type is void and there is no Integer.parseInt(char) method. –  Boann Aug 25 '13 at 15:25
@Boann Yeah fixed... Its probably the least efficient yes... but its probably the most straightforward. I did not claim it would be the most efficient solution anyway. I merely posted it as a last resort in case nothing else shows up. –  CPU Terminator Aug 25 '13 at 15:28

About as efficient as you'll get it:

private static final int PART_SIZE = 1000;
private static final int[] digitSums = new int[PART_SIZE];
static {
    for (int i = 0; i < digitSums.length; i++) {
        for (int n = i; n != 0; n /= 10) digitSums[i] += n % 10;

public static long digitSum(long n) {
    int sum = 0;
    do {
        sum += digitSums[(int)(n % PART_SIZE)];
    } while ((n /= PART_SIZE) != 0);
    return sum;
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up vote 0 down vote accepted

I came out with the following solution after some tests with different numbers comparing 3 different functions involving 3 different approaches:

  • toCharArray() and loops,
  • basic mathematical computations and loops,
  • recursion.

I compared the 3 different approaches according to their time dimension using System.nanoTime().

public static long sumTheDigits(long currentIterationValue){

    long currentDigitValue;
    long sumOutputValue = 0;

    while(currentIterationValue != 0) {
        currentDigitValue = currentIterationValue % 10;
        currentIterationValue = currentIterationValue / 10;
        sumOutputValue = sumOutputValue + currentDigitValue;
    return sumOutputValue;
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