# Determining number of set bits in a char

This program is supposed to determine how many units are stored in the value of the variable `c_val`, if each unit is stored as a set bit. My question is: why did the author write `if (c % 2 == 1) count++;` then shift `c` to the right with this statement `c = c >> 1;`?

``````#include <stdio.h>
#include <cstdlib>

int main(){
unsigned char c_val;
printf("char value = ");
scanf("%c", &c_val);
int count = 0;
unsigned char c = c_val;
while(c){
if (c % 2 == 1) count++;
c = c >> 1;
}
printf("%d bits are set", count);
system("pause");
}
``````
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If you should need to know the number of bits in a char, see CHAR_BIT from `<limits.h>`. – Jerry Coffin Mar 26 '12 at 5:56

The data size of type char is always one byte - no exceptions. This code, however, calculates the popcount - that is, the number of 1 bits - in `c_val`.

We can translate the relevant code from

``````while (c) {
if (c % 2 == 1) count++;
c = c >> 1;
}
``````

to

``````while (c != 0) {
if (c & 0x1 == 1) count++; /* if the rightmost bit of c is 1, then count++ */
c = c / 2;
}
``````

The last change I made works because right-shifting an unsigned integral data type (in this case, `unsigned char`) is equivalent to dividing by 2, with round-toward-zero semantics.

We can think of `c` as a conveyor belt of bits - zero bits come in from the left, and one bit falls off the right on each loop iteration. If the rightmost bit is a 1, we increase the count by 1, and otherwise the count remains unchanged. So, once `c` is filled with zero bits, we know that we have counted all the one bits, and exactly the one bits, so `count` contains the number of one bits in `c_val`.

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A small readability improvement, IMO, would be `if(c & 0x1) count++`. I feel it makes it more clear that you're explicitly testing the bit. – Kyle Mar 26 '12 at 6:23
@Kyle An excellent suggestion. Change made. – Adam Mihalcin Mar 26 '12 at 6:25
Plus, it could be faster to boot. :-) – Kyle Mar 26 '12 at 6:28

This isn't a function to determine the "size" of instances of the type `char` at all, but rather to determine the number of bits in a character that are set to 1.

The expression

``````c % 2 == 1
``````

determines whether or not the least significant bit is a 1.

The shifting brings the second to last bit into the last position so it can be tested.

The condition `while (c)` means to keep counting 1s and shifting until the whole byte is all zeros.

-

Your code is just coding how many 1 bits in char c. "c % 2 === 1" checks if the last bit in "c" is 1. So we must use "c = c >> 1" to shift the other bits in "c" to the last position.

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Other way to do the same:

``````#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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