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We have this example:

struct X {
  int e0 : 6;
  int e1 : 6;
  int e2 : 6;
  int e10 : 6;

struct X c;

How can I access the members "automatically", something like that:
c.e{0-10} ?
Say if I want to read c.e0, then c.e1 ...
If my struct would have 1000 elements, I do not think that I should write so much code, right ?

Can you help me with a workaround, an idea ?
I mention that I already read other posts related somehow to this problem, but I did not find a solution.

Thank you very much !

share|improve this question
What's the business case for using a struct here? Would any other data elements work as well? – jcolebrand Nov 8 '10 at 19:48
Do you really need 6-bit int members? This will affect the answers to the question. – Steve M Nov 8 '10 at 19:49
I'm sorry to inform you but if your struct would have 1000 elements than your design would be horribly broken... – Eugen Constantin Dinca Nov 8 '10 at 19:58
The struct only has to be three values long, any more than four can use an array of these structs. – Gaz Davidson Nov 8 '10 at 20:11
Thank you everybody for the answers ! It's a problem that should simulate SET Union and Intersection. The ideea is that I should use a struct like that. The biggest numbers that I should have in let's say e0 is 32. That's why I have bit fields of 6. What was not specified in the problem is how many elements a SET would have. Even if we have a SET A and another one, B with A having 5 elements and B having 3, it is still inconvenient(because I had to write some lines of code). – bsd Nov 8 '10 at 20:43

As others have said, you cannot do exactly what you want with bit fields. It looks like you want to store a large number of 6 bit integers with maximum space efficiency. I will not argue whether this is a good idea or not. Instead I will present an old-school C like way of doing exactly that, using C++ features for encapsulation (untested). The idea is that 4 6 bit integers require 24 bits, or 3 characters.

// In each group of 3 chars store 4 6 bit ints
const int nbr_elements = 1000;
struct X
    // 1,2,3 or 4 elements require 3 chars, 5,6,7,8 require 6 chars etc.
    char[ 3*((nbr_elements-1)/4) + 3 ] storage;
    int get( int idx );

int X::get( int idx )
    int dat;
    int offset = 3*(idx/4);      // eg idx=0,1,2,3 -> 0 idx=4,5,6,7 -> 3 etc.
    char a = storage[offset++];
    char b = storage[offset++];
    char c = storage[offset];
    switch( idx%4)  // bits lie like this; 00000011:11112222:22333333
        case 0: dat = (a>>2)&0x3f;                    break;
        case 1: dat = ((a<<4)&0x30) + ((b>>4)&0x0f);  break;
        case 2: dat = ((b<<2)&0x3c) + ((c>>6)&0x03);  break;
        case 3: dat = c&0x3f;                         break;
    return dat;

I will leave the companion put() function as an exercise.

share|improve this answer
Thank you very much ! – bsd Nov 8 '10 at 22:08
I would make it template<std::size_t N> struct X { char[3*((N - 1) / 4) + 3] storage; }; to make the number of elements adjustable, but that may or may not be necessary. Also, I'd add a check to make sure the index is in range. – Chris Lutz Nov 8 '10 at 22:08
@bsabin You're welcome. If you would like me to write put() as well just ask in comments. I only just noticed that there is a similar answer to mine already and someone commented that the write (put) would be "hellish". I am sure it would not be too bad actually. – Bill Forster Nov 8 '10 at 22:27
@Chris. Thanks for your suggestions, I am more of a C programmer as you might be able to tell, but I am trying to use more of C++ and I can learn from comments like yours. – Bill Forster Nov 8 '10 at 22:29
@Bill - I generally prefer C over C++, but the more I get used to the (sometimes horrendous) syntax, the more I'm learning to appreciate (some) features of C++. I'm finding that the fusion of old-school C hacks and macros with C++ operator overloading is quite interesting, and can make for some nice new (and remarkably clear) syntax: phimuemue.com/blog.php?article=172 (not mine, but still awesome) – Chris Lutz Nov 8 '10 at 22:37

It sounds like a struct isn't the right tool for what you're trying to do. You need either an array or a vector. Arrays are used for storing a number of the same type of data. Vectors are array wrappers that manage the addition and removal of items automatically.

If you need a list of the same data, and some other data (say a string) you can make an array or a vector part of your struct.

struct X {
   int[10] numbs;
   string name;

X c;
share|improve this answer

You can't. To do this would require some form of reflection, which is not supported in either C or C++.

share|improve this answer

Since your bitfields are of the same size, you could encapsulate std::bitset (or vector<bool>, gulp...) and provide your own iterators (each increment moving the bookmark six bits) and operator[] (etc) to allow your code to be more simple to write.

I am sure performance would suck compared to the bitfields though.

share|improve this answer
performance with bitfield access will likely suck anyway. – Alexandre C. Nov 8 '10 at 20:34

How about something like this:

char getByte(char *startPos, int index) {

    int i = (index*6) / 8;

    if (index % 4 == 0)
        return 0b11111100 & startPos[i] >> 2;
    else if (index % 4 == 3)
        return 0b00111111 & startPos[i];
    else if (index % 4 == 2)
        return (0b00001111 & startPos[i] << 2) | (0b11000000 & startPos[i+1] >> 6);
        return (0b00000011 & startPos[i] << 4) | (0b11110000 & startPos[i+1] >> 4);
share|improve this answer
Just curious - have you tested this? Read access seems doable this way, but write access would be hellish. – Chris Lutz Nov 8 '10 at 20:13
Pretty sure that should be index % 4 == 3 and not index % 3 – Ben Voigt Nov 8 '10 at 20:37
@Billy, @Chris, @Gaz: I'm pretty sure the underlying type of the bitfield plays a role in where packing is allowed or not. e.g. if that's a 16-bit int in the question, the compiler is permitted to put 2 6-bit fields and 4 bits of padding in an int, but that wouldn't be permitted with a 32-bit int, the compiler would be obliged to put 5 6-bit fields together plus 2 bits of padding to make an int. – Ben Voigt Nov 8 '10 at 20:40
@Ben @Chris @Gaz: See of open-std.org/jtc1/sc22/WG14/www/docs/n1256.pdf . It's unclear whether or not it is allowed. Clause 10 indicates that if the bit field can fit into a single addressable unit (usually char) that the compiler must fit it into that single addressable unit, but that it may insert space between addressable units if the bit field is too wide to fit into a single unit. – Billy ONeal Nov 8 '10 at 20:48
@Gaz: I think some bitshifts might also be in order. – Ben Voigt Nov 8 '10 at 21:04

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