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-How to find x mod 3 when x is binary number? Not allowed to use conversion to decimal and then using % operator.

-eg- if x is 1101 then output should be 1 but do not convert 1101 to 13 and then find by % 3

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2  
What about the other way round? Convert 3 to binary and perform a binary division. –  Nico Schertler Nov 14 '13 at 13:16
    
Check this link math.stackexchange.com/questions/141797/… –  user1990169 Nov 14 '13 at 13:20

5 Answers 5

up vote 0 down vote accepted

Since you said "string", I'll add the following technique:

Note that if you append 0 at the end of a binary number, you double it's value. If you append 1 at the end, you double it and add 1.

That is, if you have processed all digits up to a certain digit (call this number up to that digit a), and you know that a % 3 = x for some x=1, 2 or 0, then you can tell the following:

a0 % 3 = (2 * a) % 3 = (2 % 3) * (a % 3) % a = (2 * (a % 3)) % 3
a1 % 3 = (2 * a + 1) % 3 = (2 % 3) * (a % 3) + (1 % a) % a = (2 * (a % 3) + 1) % 3

This way, you can easily make the following distinction:

Current mod | Next digit | New mod
------------+------------+---------
   0            0            0
   0            1            1
   1            0            2
   1            1            0
   2            0            1
   2            1            2

That is, you can traverse your string from left to right (assuming msbf notation) and update the new mod according to the table. You start with current mod = 0.

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A % B is equivalent to A - (floor(A/B) * B). If you can perform subtraction, multiplication, and integer division with your binary numbers, than you can simulate the % operator without actually using it.

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it's very fast and innovative.

3 in binary is 11 i.e. 11 in base 10. So we know a number is divisible by 11, if the difference of the sum of digits at odd places and the sum of its digits at even places, is either 0 or divisible by 11.

So add the even placed 1s and add the odd placed 1. Take difference. Please check the below program, we are doing exactly same thing. If you have string same also applies.

public static boolean isDivisible(int n){
    if(n<0){
        n=-n;
    }
    if(n==0)return true;
    if(n==1)return false;
    int even=0, odd=0;
    while(n!=0){
        if((n&1)==1){
            odd++;
        }
        n=n>>1;
        if(n==0)break;
        if((n&1)==1){
            even++;
        }
    }
    return isDivisible(even-odd);
}

For more you can follow this and this.

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Could you shortly explain why it is possible to use the 11-divisibility-rule (in base 10) to determine 3-divisibility in binary? –  phimuemue Nov 14 '13 at 13:31
    
because 3 is nothing but 11 in binary. And the stream that you calculation on treat it as a number in base 10. You clear? –  Trying Nov 14 '13 at 13:32

To tell if a decimal number is divisible by 9 in base 10, just add its digits together and repeat until you have just one digit. If that digit is 0, 3, 6, or 9, then it's divisible by 9.

This works based on the same principle, but for numbers divisible by 3 in base 4:

int mod3 (int x) {
  if (x<0) x = -x;
  while (x & 0x7fff0000) x = ((x & 0x7fff0000)>>16) + (x & 0x0000ffff);
  while (x & 0xff00) x = ((x & 0xff00)>>8) + (x & 0x00ff);
  while (x & 0xf0) x = ((x & 0xf0)>>4) + (x & 0x0f);
  while (x & 0x0c) x = ((x & 0x0c)>>2) + (x & 0x03);
  while (x>=3) x -= 3;
  return x;
}
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If You notice 2^N mod 3 = 2 if N is odd & 2^N mod 3 = 1 if N is even (it can be proved by induction) moreover binary no is sum of powers of 2 so just check if 1 appear in string at odd or even power and do a running sum of the values. There is theorem in modular arithmatic as

(a+b+c)%m = ((a)%m + (b)%m + (c)%m )%m

eg.

x = 1101 there are 2 even powers of 2 (2^0,2^2) and 1 odd power of 2 (2^3)

hence res = (2*1 + 2 )mod 3 = 4 mod 3 = 1

Java implementation: -

public class Modulus {

    public static int modulo3(String s) {

        int end = s.length()-1;
        int sum = 0;
        for(int i =0;i<s.length();i++) {

           if(s.charAt(end)=='1') {
               if(i%2==0)
                   sum = sum + 1;
               else sum = sum + 2;
           } 

           end--; 
        }
       return(sum%3); 
    }


    public static void main(String[] args) {

        System.out.println(modulo3("1110"));
    }

}
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