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For instance n = 8135267 => 16 Here is a solution but I don't understand it.

int sumOddDigits(int n) {

if(n == 0)
   return 0;

if(n%2 == 1) //if n is odd
   //returns last digit of n + sumOddDigits(n/10) => n/10 removes the last digit of n
   return n % 10 + sumOddDigits(n/10) 

   return sumOddDigits(n/10); 

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The code is clear and simple. So what's your question? – TonyK Dec 13 '10 at 18:37
Pick a smaller number and walk through this on paper. Really, that will be just as clear as any explanation you can get here. – Steve Townsend Dec 13 '10 at 18:37
Have you tried running it step-wise in a debugger and looking at what happens? – Georg Fritzsche Dec 13 '10 at 18:37
@Georg Fritzsche: Recursive algorithms are notoriously difficult to step through. I wouldn't recommend it to a beginner. – TonyK Dec 13 '10 at 18:39
This code breaks for negative inputs. – R.. Dec 13 '10 at 18:40
up vote 2 down vote accepted

Integer divison by ten "cuts off" the last digit: I.e. 1234/10 results in 123.

Modulo 10 returns the last digit: i.e. 1234%10 results in 4.

Thus, the above code considers always the last digit. If the last digit is odd (hence the %2==1 stuff) it will be counted, otherwise not. So, if it should count the digit, it takes the last digit (the % 10-stuff) and continues computing with the remaining digits (the recursion with the /10-stuff) and adding them to the digit. If the current digit shall not be counted, it continues just with the remaining digits (thus the recursion and the /10-stuff) without adding it to the current digit.

If the argument is 0, this means that the whole number is traversed, thus the function terminates with returning 0.

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% is the modulo operator. It basically finds the remainder of dividing by a number.

n %2 n is only 1 if it's odd. % 10 gets the remainder of the dividing the number by 10, this gets you the currently last digit. Integer division by 10 gets you the next digit as the current last digit (1567/10 = 156)

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Think about it this way: Starting with your known answer of 8135267 => 16, if I asked you for the sum of the odd digits in *3*8135267, what would you do? What if I asked for *4*8135267? How do your manual steps related to that function?

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Are you working with credit card numbers? Here's some similar code that may or may not be helpful:

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Think of it this way. If you get an even digit your function returns it + function value of the number without that digit. Otherwise it returns the function value of the number without the last digit. On your example:

813526(7) -> 0 + sumEvenDigits(813526)
                       6 + sumEvenDigits(81352)
                                 2 + sumEvenDigits(8135)
                                            8 + sumEvenDigits(0)
                                                      0 = 16

Hope this helps.

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You've shown it adding the even digits rather than the odd digits (which just happens to have the same sum in this case). – caf Dec 13 '10 at 22:03
Thank you, I will edit that, however the point still stands. – Chris Dec 15 '10 at 21:01

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