# Using bit with int in structure

``````   #include<stdio.h>
struct a
{
int a:4;
};
main(){
struct a aa;
aa.a=9;
printf("a=%d\n",aa.a);
return 0;
}
``````

Here the output is -7. Why is it so? what does exactly int a:4 does ? please explain

-

Since it's two's complement, the highest order bit is used for the sign. By writing `a:4` you're saying to only allocate 4 bits of memory, which leaves 3 bits left over for the actual number. So our effective range is `[-8,7]`. Since all 1's is -1, there's an extra number on the negative side. For more of an explanation on this, see the above link.

9, in (unsigned) binary is: `1001`. When you put this into `a` (signed), you get that `a` is negative, due to the initial 1, and since the following numbers are `001`, we add 1 to the max negative number, thereby giving us -7.

If you want to store the number 9 in only 4 bits, you need to use an `unsigned int`, which would give you a range of `[0, 15]`.

EDIT:
In case anyone is struggling with figuring out how `1001` signed gives us -7, consider the following:

Since `1111` is -1, let some variable `value = -1`.

To figure out the values of a negative (signed) `int num`, let us denote xi in `num`:

xi : {0,1 at position i, where i=0 is the least significant bit)},

Then, for every xi = 0, subtract 2i from `value`.

Example:

`1001`:

`value` = -1 - 21 - 22 = -7

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The `int` in a bitfield might be `unsigned int` by default. It appears not to be in the OP's case, but it never hurts to read the documentation. –  Carl Norum Jul 13 at 18:08
Nice question and very nice answer! I verified that the unsigned type will give the expected answer. –  lsk Jul 17 at 16:24
@user1930928 Thanks. :) –  Steve P. Jul 17 at 16:25
I prefer to think of the MSB as having the value -2^3 + 2^0 -- that way all the non-MSBs have their usual value. –  Doug Currie Jul 17 at 16:47
Yeah, that's how I was thinking about it above the edit, but I wanted to show an alternative too. –  Steve P. Jul 17 at 17:00

Your field is a 4 bit signed integer. For signed integers the upper bit is a sign bit, which means that you only have 3 bits for the actual number. The range of numbers you can store in the field are -8 to 7 (assuming 2's compliment storage).

The bit pattern for 9 is 1001, which has the 4th bit set, meaning it is interpreted as a negative number, which is why it is printing out as a -7. If you would have expected a -1, you need to read up on 2's compliment.

If you want to be able to store 9 in the field, make `a` an `unsigned int`

-

You only reserved 4 bits for the field, one bit is used for the sign, so only 3 bits remain for positive values. Thus you can only store values up to 7.

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could u please explain using binary representation? –  Raja Narayan Jul 13 at 17:38
@RajaNarayan check my answer. –  Steve P. Jul 13 at 17:43
@SteveP. thanks for the explanation! –  Raja Narayan Jul 13 at 17:45
@RajaNarayan No problem. –  Steve P. Jul 13 at 17:47

you have to use unsigned indeed int :

``````#include<stdio.h>
struct a
{
unsigned a:4; //  <-- unsigned indeed int, then work good
};
main(){
struct a aa;
aa.a=9;
printf("a=%d\n",aa.a);
return 0;
}
``````

output :

``````   a=9
``````
-