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I need to define a struct which has data members of size 2 bits and 6 bits. Should I use char type for each member?Or ,in order not to waste a memory,can I use something like :2\ :6 notation? how can I do that? Can I define a typedef for 2 or 6 bits type?

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What about using std::bitset<char> ?? – Tony The Lion Jan 30 '13 at 9:06
up vote 5 down vote accepted

You can use something like:

typedef struct {
    unsigned char SixBits:6;
    unsigned char TwoBits:2;
} tEightBits;

and then use:

tEightBits eight;
eight.SixBits = 31;
eight.TwoBits = 3;

But, to be honest, unless you're having to comply with packed data external to your application, or you're in a very memory constrained situation, this sort of memory saving is not usually worth it. You'll find your code is a lot faster if it's not having to pack and unpack data all the time with bitwise and bitshift operations.

Also keep in mind that use of any type other than _Bool, signed int or unsigned int is an issue for the implementation. Specifically, unsigned char may not work everywhere.

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Can I define a typedef for 2 or 6 bits type? – Yakov Jan 30 '13 at 9:14
No, you can only do this inside structs. – paxdiablo Jan 30 '13 at 9:19

It's probably best to use uint8_t for something like this. And yes, use bit fields:

struct tiny_fields
  uint8_t twobits : 2;
  uint8_t sixbits : 6;

I don't think you can be sure that the compiler will pack this into a single byte, though. Also, you can't know how the bits are ordered, within the byte(s) that values of the the struct type occupies. It's often better to use explicit masks, if you want more control.

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+1, but I think it's better to use unsigned char than uint8_t. The latter can never be smaller than unsigned char, so it doesn't save any space. And it's permitted not to exist at all. Using uint8_t is just a way of statically asserting CHAR_BIT == 8. – Steve Jessop Jan 30 '13 at 9:07
Why did you use uint8_t? – Ghasan Jan 30 '13 at 9:09
@Noor, probably because it's guaranteed to be 8 bits (in systems that support 8 bits), something you can't say for a char. – paxdiablo Jan 30 '13 at 9:11
In fairness, you're almost certainly still doing &0x3f all over the place, it just doesn't appear in your source code :-) That still might be reason enough to use it of course, since readability is a big thing for me. – paxdiablo Jan 30 '13 at 9:12
@paxdiablo: sure, the compiler is masking like crazy. I think computer scientists call the technique "abstraction" ;-) – Steve Jessop Jan 30 '13 at 9:13

Personally I prefer shift operators and some macros over bit fields, so there's no "magic" left for the compiler. It is usual practice in embedded world.

#define SET_VAL2BIT(_var, _val) ( (_var) | ((_val) & 3) )
#define SET_VAL6BIT(_var, _val) ( (_var) | (((_val) & 63)  << 2) )

#define GET_VAL2BIT(_var) ( (_val) & 3)
#define GET_VAL6BIT(_var) ( ((_var) >> 2) & 63 )

static uint8_t my_var;

SET_VAL2BIT(my_var, 1);
SET_VAL6BIT(my_var, 5);
int a = GET_VAL2BIT(my_var); /* a == 1 */
int b = GET_VAL6BIT(my_var); /* b == 5 */
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