What's the fastest and easiest to read implementation of calculating the sum of digits?
I.e. Given the number: 17463 = 1 + 7 + 4 + 6 + 3 = 21
What's the fastest and easiest to read implementation of calculating the sum of digits? I.e. Given the number: 17463 = 1 + 7 + 4 + 6 + 3 = 21 


You could do it arithmetically, without using a string:



I use
It uses only 1 line of code. 


For integer numbers, Greg Hewgill has most of the answer, but forgets to account for the n < 0. The sum of the digits of 1234 should still be 10, not 10.
It the number is a floating point number, a different approach should be taken, and chaowman's solution will completely fail when it hits the decimal point. 








I like the chaowman's response, but would do one change
I'm not even sure the c  '0', syntax would work? (substracting two characters should give a character as a result I think?) I think it's the most readable version (using of the word sum in combination with the lambda expression showing that you'll do it for every char). But indeed, I don't think it will be the fastest. 


I thought I'd just post this for completion's sake: If you need a recursive sum of digits, e.g: 17463 > 1 + 7 + 4 + 6 + 3 = 21 > 2 + 1 = 3



I would suggest that the easiest to read implementation would be something like:
This works, and is quite easy to read. BTW: Convert.ToInt32('3') gives 51, not 3. Convert.ToInt32('3'  '0') gives 3. I would assume that the fastest implementation is Greg Hewgill's arithmetric solution. 


The simplest and easiest way would be using loops to find sum of digits.


