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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 0s in its fields, while three will contain 1s. 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 :)

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1 Answer 1

up vote 3 down vote accepted

The rules in this case are no different than in case of full-width arithmetic. Bit-fields behave the same way as the corresponding full-size types, except that their width is limited by the value you specified in the bit-field declaration ( in C99).

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.

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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
@Eric Postpischil: There are different flavors of overflow. Your quote applies to overflow that occurs during evaluation of arithmetic operators. Overflow that occurs during signed arithmetic conversions is described by as "either the result is implementation-defined or an implementation-defined signal is raised". –  AnT Oct 4 '12 at 14:52
@AndreyT: Not just arithmetic operators; all expressions. But, I agree overrides that for conversions. –  Eric Postpischil Oct 4 '12 at 15:30

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