# count number of set bits in integer

i am studing different methods about bit counting ,or population count methods fopr given integer, during this days,i was trying to figure out how following algorithms works

pop(x)=-sum(x<<i)   where i=0:31


i think that after calculate each value of x,we will get

x+2*x+4*x+8*x+16*x+..............+2^31*x  =4294967294*x


if we multiply it by -1,we get -4294967294*x,but how it counts number of bits?please help me to understand this method well.thanks

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This method doesn't work. If you think it does work, write it in code and test it. –  interjay Mar 22 '12 at 13:45
Visit this site: graphics.stanford.edu/~seander/bithacks.html It explains every bit operation you need. –  linello Mar 22 '12 at 13:47
Are you sure you have that right? If I understand your notation, then putting x=8 (for instance) gives a sum of binary 11111111 11111111 11111111 11111000, so -sum is binary 00...001000 = decimal 8. But when I counted the bits by hand, I got the answer 1. –  TonyK Mar 22 '12 at 13:48
It doesn't work. –  n.m. Mar 22 '12 at 13:50
It means that you should have tried out a couple of values of x before you posted (just like everybody here did). –  TonyK Mar 22 '12 at 14:04

I believe you mean

as seen in the cover of the book Hacker's Delight, where the symbol means left-rotation not left-shift which will produce the wrong results and downvotes.

This method works because the rotation will cause all binary digits of x to appear in every possible bits in all terms, and because of 2's complement.

Take a simpler example. Consider numbers with only 4 binary digits, where the digits can be represented as ABCD, then the summation means:

  ABCD  // x <<rot 0
+ BCDA  // x <<rot 1
+ CDAB  // x <<rot 2
+ DABC  // x <<rot 3


We note that every column has all of A, B, C, D. Now, ABCD actually means "2³ A + 2² B + 2¹ C + 2⁰ D", so the summation is just:

  2³ A        + 2² B        + 2¹ C        + 2⁰ D
+ 2³ B        + 2² C        + 2¹ D        + 2⁰ A
+ 2³ C        + 2² D        + 2¹ A        + 2⁰ B
+ 2³ D        + 2² A        + 2¹ B        + 2⁰ C
——————————————————————————————————————————————————————
= 2³(A+B+C+D) + 2²(B+C+D+A) + 2¹(C+D+A+B) + 2⁰(D+A+B+C)
= (2³ + 2² + 2¹ + 2⁰) × (A + B + C + D)


The (A + B + C + D) is the population count of x and (2³ + 2² + 2¹ + 2⁰) = 0b1111 is -1 in 2's complement, so the summation is the negative of the population count.

The argument can be easily extended to 32-bit numbers.

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#include <stdio.h>
#include <conio.h>

unsigned int f (unsigned int a , unsigned int b);

unsigned int f (unsigned int a , unsigned int b)
{
return a ?   f ( (a&b) << 1, a ^b) : b;
}

int bitcount(int n) {
int tot = 0;

int i;
for (i = 1; i <= n; i = i<<1)
if (n & i)
++tot;

}

int bitcount_sparse_ones(int n) {
int tot = 0;

while (n) {
++tot;
n &= n - 1;
}

}

int main()
{

int a = 12;
int b = 18;

int c = f(a,b);
printf("Sum = %d\n", c);

int  CountA = bitcount(a);
int  CountB = bitcount(b);

int CntA = bitcount_sparse_ones(a);
int CntB = bitcount_sparse_ones(b);

printf("CountA = %d and CountB = %d\n", CountA, CountB);
printf("CntA = %d and CntB = %d\n", CntA, CntB);
getch();

return 0;

}

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