Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

the following code:

void f3()
    enum AeF3
        f3E1 = 1,
    struct AsF3
        AeF3 e1:2, e2:2, e3:2;
    AsF3 inst;
    inst.e1 = f3E1;
    inst.e2 = f3E2;
    inst.e3 = f3E3;
    cout << "inst.e1 is " << ((inst.e1 == f3E1) ? "" : "not ") << "equal to f3E1" << endl;
    cout << "inst.e2 is " << ((inst.e2 == f3E2) ? "" : "not ") << "equal to f3E2" << endl;
    cout << "inst.e3 is " << ((inst.e3 == f3E3) ? "" : "not ") << "equal to f3E3" << endl;

generates the following output:

inst.e1 is equal to f3E1
inst.e2 is not equal to f3E2
inst.e3 is not equal to f3E3

how can i fix this error with no cast?

more description

e2 & e3 can't hold values larger than 1, because they have to save one bit for their sign. i need a way to tell compiler not to use this bit for sign and use it still for the value instead. i tried:

enum AeF3 : byte

but it doesn't help. instead of -2, 254 is compared, while 2 is not equal to -2 nor 254.

share|improve this question
why do you have these numeric prefixes in many of your questions? are these Stardates for your Programmer's Log? –  TemplateRex Aug 9 '12 at 13:52
@rhalbersma Looks like a telephone number. BTW where is the cast? –  BЈовић Aug 9 '12 at 13:54
@BЈовић They are different for different questions. –  TemplateRex Aug 9 '12 at 13:56
Are you really that tight on memory that you need such convolutions? If not, forget the bit designations. –  Steve Wellens Aug 9 '12 at 14:09
possible duplicate of Type of unsigned bit-fields: int or unsigned int –  Bo Persson Aug 9 '12 at 14:24

1 Answer 1

The whole approach is wrong. The type of the enumeration in C++03 (and with that syntax in C++11) is unspecified, and creating a bitfield with an underlying enumeration type (or a signed type in general) is not the correct approach. You should probably do:

struct AsF3 {
   unsigned int e1 : 2;
   unsigned int e2 : 2;
   unsigned int e3 : 2;

Note that the type on the bitfield is the underlying storage type, not the type of each one of the stored elements, whether you use AeF3 or unsigned int, all of the members e1, e2, e3 will be of integral type (and not enumerations)

share|improve this answer
i used type AeF3 instead of byte or unsigned int for e1, e2 and e3 because i wanted compiler to check assignments. i wanted to avoid assigning simple values to them and i wanted all assignments be made only when right-hand of the assignment be a member of the enumeration. –  hamidi Aug 9 '12 at 15:40
i think compiler had not made the .exe file. when i use ": byte" for the enum the output changed all to "equal"! why?! 254 is not equal to 2! –  hamidi Aug 9 '12 at 15:42
@hamidi: Uhm... I did not know that the compiler would check the type to be an enum. You learn something new every day! byte is not a standard type, so you would have to provide the actual type. I have tried the above code with unsigned char as underlying type in g++ 4.5 and works as expected. The value stored and the value retrieved are exactly the same. What compiler/version are you using? (BTW, the 254 looks like the 2bit bitset is considered as signed 2 bit integer promoted to 8bit --sign extended-- and then converted to an unsigned type; 254 is (unsigned char)-2) –  David Rodríguez - dribeas Aug 9 '12 at 16:10
i'm using VS 2010. when i debug the code, i get value f3E1 for inst.e1 and value 254 for inst.e2, while f3E1 is equal to 1 and f3E2 is equal to 2, not 254. as u said, the sign for inst.e2 is extended with 1 (negative) and is extended for f3E2 f3E2 with 0 (positive). so it seems that e2 is still treated as NEGATIVE. this is my question: why? and how can i tell compiler to treat e2 as positive. it seems that the MSB for a bitfield is always treated as SIGN, even if it's defined as an unsigned value. –  hamidi Aug 11 '12 at 10:48
i added the following code: cout << "inst.e1: " << (int) inst.e1 << "\tf3E1: " << (int) f3E1 << endl; cout << "inst.e2: " << (int) inst.e2 << "\tf3E2: " << (int) f3E2 << endl; cout << "inst.e3: " << (int) inst.e3 << "\tf3E3: " << (int) f3E3 << endl; and got the following output: inst.e1: 1 f3E1: 1 inst.e2: 2 f3E2: 2 inst.e3: 3 f3E3: 3 it seems that everything is ok and it's the debugger fault that can't evaluate e2 and e3 correctly. –  hamidi Aug 11 '12 at 12:27

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.