# Assigning a value to bitfield with length 1

Suppose I have

``````struct A
{
signed char a:1;
unsigned char b:1;
};
``````

If I have

``````A two, three;
two.a = 2; two.b = 2;
three.a = 3; three.b = 3;
``````

`two` will contain `0`s in its fields, while `three` will contain `1`s. So, this makes me think, that assigning a number to a single-bit-field gets the least significant bit (`2` is `10` in binary and `3` is `11`).

So, my question is - is this correct and cross-platform? Or it depends on the machine, on the compiler, etc. Does the standard says anything about this, or it's completely implementation defined?

Note: The same result may be achieved by assigning `0` and `1`, instead of `2` and `3` respectively. I used `2` and `3` just for illustrating my question, I wouldn't use it in a real-world situation

P.S. And, yes, I'm interesting in both - `C` and `C++`, please don't tell me they are different languages, because I know this :)

-

Assigning an overflowing value to a signed bit-field leads to implementation-defined behavior, which means that behavior you observe with bit-field `a` is generally not portable.
Assigning an overflowing value to an unsigned bit-field uses the rules of modulo arithmetic, meaning that the value is taken modulo `2^N`, where `N` is the width of the bit-field. This means, for example, that assigning even numbers to your bit-field `b` will always produce value `0`, while assigning odd numbers to such bit-field will always produce `1`.
So, you mean that if I set `A::b` with `2`, it will always be `0` and this does not depend on the platform, on the binary representation (one/two complement), on the compiler at all and it's cross-platform? The same for `3` and value of the bit `1`. –  Kiril Kirov Oct 4 '12 at 14:15
@Kiril Kirov: Yes, that is correct for field `b`. –  AnT Oct 4 '12 at 14:18