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# Iterate members of a bitfield

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 !

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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.

-
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;
``````
-

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

-

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.

-
performance with bitfield access will likely suck anyway. – Alexandre C. Nov 8 '10 at 20:34

``````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);
else
return (0b00000011 & startPos[i] << 4) | (0b11110000 & startPos[i+1] >> 4);
}
``````
-
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 6.2.6.1 of open-std.org/jtc1/sc22/WG14/www/docs/n1256.pdf . It's unclear whether or not it is allowed. 6.7.2.1 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