I need to find whether a number is divisible by 3 without using %
, /
or *
. The hint given was to use atoi()
function. Any idea how to do it?



Subtract 3 until you either a) hit 0  number was divisible by 3 b) get a number less than 0  number wasn't divisible  edited version to fix noted problems



The current answers all focus on decimal digits, when applying the "add all digits and see if that divides by 3". That trick actually works in hex as well; e.g. 0x12 can be divided by 3 because 0x1 + 0x2 = 0x3. And "converting" to hex is a lot easier than converting to decimal. Pseudocode:
[edit] Inspired by R, a faster version (O log log N):



Split the number into digits. Add the digits together. Repeat until you have only one digit left. If that digit is 3, 6, or 9, the number is divisible by 3. (And don't forget to handle 0 as a special case). 


While the technique of converting to a string and then adding the decimal digits together is elegant, it either requires division or is inefficient in the conversiontoastring step. Is there a way to apply the idea directly to a binary number, without first converting to a string of decimal digits? It turns out, there is: Given a binary number, the sum of its odd bits minus the sum of its even bits is divisible by 3 iff the original number was divisible by 3. As an example: take the number 3726, which is divisible by 3. In binary, this is 


The interview question essentially asks you to come up with (or have already known) the divisibility rule shorthand with 3 as the divisor. One of the divisibility rule for 3 is as follows:
Example:
See also



Given a number x. Convert x to a string. Parse the string character by character. Convert each parsed character to a number (using atoi()) and add up all these numbers into a new number y. Repeat the process until your final resultant number is one digit long. If that one digit is either 3,6 or 9, the origional number x is divisible by 3. 


A number divisible by 3, iirc has a characteristic that the sum of its digit is divisible by 3. For example,



You didn't tag this C, but since you mentioned



My solution in Java only works for 32bit unsigned
It first reduces the number down to a number less than 32. The last step checks for divisibility by shifting the mask the appropriate number of times to the right. 


A number is divisible by 3 if all the digits in the number when added gives a result 3, 6 or 9. For example 3693 is divisible by 3 as 3+6+9+3 = 21 and 2+1=3 and 3 is divisible by 3. 


Following the same rule, to obtain the result of divisibility test by 'n', we can : multiply the number by 0x1 0000 0000  (1/n)*0xFFFFFFFF compare to (1/n) * 0xFFFFFFFF The counterpart is that for some values, the test won't be able to return a correct result for all the 32bit numbers you want to test, for example, with divisibility by 7 : we got 0x100000000 (1/n)*0xFFFFFFFF = 0xDB6DB6DC and 7 * 0xDB6DB6DC = 0x6 0000 0004, We will only test one quarter of the values, but we can certainly avoid that with substractions. Other examples : 11 * 0xE8BA2E8C = A0000 0004, one quarter of the values 17 * 0xF0F0F0F1 = 10 0000 0000 1 comparing to 0xF0F0F0F Every values ! Etc., we can even test every numbers by combining natural numbers between them. 


well a number is divisible by 3 if all the sum of digits of the number are divisible by 3. so you could get each digit as a substring of the input number and then add them up. you then would repeat this process until there is only a single digit result. if this is 3, 6 or 9 the number is divisable by 3. 





Here is your optimized solution that every one sould know................. Source: http://www.geeksforgeeks.org/archives/511 Program:



divisible(93,3) 


On some compilers this is even faster then regular way: 


A number is divisible by 3 iff the sum of its digits is divisible by 3. You can use this definition recursively until you are left with a single digit. If the result is 3, 6 or 9, the original number is divisible by 3 otherwise it's not. Exaple: 33333 => 15 (3+3+3+3+3) => 6 (1+5) so 33333 is divisible by 3. 

