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I am trying represent a bunch of values in a single char: 6 on/off flags in the first 6 bits, and using the last 2 bits to hold 4 different values. This seems so basic that macros like this must exist somewhere, but I can't find them.

 #define HOT 0x00
 #define BIG 0x01
 #define FAT 0x02
 #define HIT 0x03
 #define BAT 0x04
 #define ZAX 0x05    
 #define HOW 0x06

 #define TWO_BITS     nnn    // ???
 #define CONDITION_0  nnn   // bit combo: 00
 #define CONDITION_1  nnn   // bit combo: 01
 #define CONDITION_2  nnn   // bit combo: 10
 #define CONDITION_3  nnn   // bit combo: 11

void bitter(void)
    unsigned char myBits = 0;
    bool nonsense;

    if (myBits & BIG)  nonsense = true;    // BIG flag on   
    if (!(myBits & BAT)) nonsense = false; // BAT flag off

    myBits = myBits | BIG;     // turn on BIG bit
    myBits = myBits & ~BIG;    // turn off BIG bit

    if (TWO_BITS == CONDITION_0)
    else if (TWO_BITS == CONDITION_1_)
    // ... etc


So what is the best way to code what I want to do with those last 2 bits? I haven't been able to do any performance testing because I haven't figured out how to write the code, but I'm assuming this is the fastest way to do these sort of ops.

[btw, this may smell like homework, but I'm just a 54 year old dog trying to learn some new tricks.]

share|improve this question
i would like to give a comment, one fifty year old to another :) i think nowadays the compiler would be so capable of optimizing that what you are trying to do may not be worth the effort and instead it is better to code to make things readable. i.e. if you are not working directly with some hardware. so instead, just do an enum with your values. – CyberSpock May 11 '12 at 19:42
Your series of #defines are sequential, so I assume those are the bit numbers. There's nothing wrong with this but it's a bit more typical to define in terms of bit masks: #define BIG 0x02 #define FAT 0x04 #define HIT 0x08 #define BAT 0x10 and so on. This is the way you use them in the bitter function, too. – torek May 11 '12 at 19:48
@AndersK, More readable sounds good. But not sure what you mean by making an enum with the values? – user994179 May 11 '12 at 20:16

3 Answers 3

up vote 1 down vote accepted

It sort of depends on whether you need to deal with those 2 bits on its own, as a (decimal) value between 0 and 3, or if you always treat them as the upper 2 bits of a byte.

Here's one way, we just mask out all the other bits, and define the conditions as the value those 2 bits will make as the upper 2 bits in a byte.

 #define TWO_BITS(x) ((x) & 0xC0)

 #define CONDITION_0  0
 #define CONDITION_1  0x40   // bit combo: 01
 #define CONDITION_2  0x80   // bit combo: 10
 #define CONDITION_3  0xC0   // bit combo: 11

That is, the upper 2 bits of a byte is the binary 1 1 0 0 0 0 0 0 , which is 0xC0 in hex. And the upper 2 bits being 0 1 , i.e. with all the bits in a byte it would be 0 1 0 0 0 0 0 0 , which is 0x40 in hex.

And your test would have to be

if (TWO_BITS(myBits) == CONDITION_0)

The other approach is to extract those upper 2 bits as a 2 bit integer (that is, a value between 0 and 3). That's easy, just shift the bits 6 places to the right.

 #define TWO_BITS(x) ((x) >> 6)

 #define CONDITION_0  0x0
 #define CONDITION_1  0x01   // bit combo: 01
 #define CONDITION_2  0x02   // bit combo: 10
 #define CONDITION_3  0x03   // bit combo: 11

The usage would be the same when testing one of the conditions.

 if (TWO_BITS(myBits) == CONDITION_0)

A last note, it seems your lower 6 bit flags is a bit wrong, consider e.g.

#define HOW 0x06

0x06 is the binary value 0 0 0 0 0 1 1 0 , so that's actually turning on or testing for 2 bits. You likely want to associate 1 bit with 1 flag, which would be this sequence

 #define BIG 0x01
 #define FAT 0x02
 #define HIT 0x04
 #define BAT 0x08
 #define ZAX 0x10
 #define HOW 0x20

This is often written as a bit shift so it's easy to read which bit it is:

 #define BIG (1 << 0)  //bit zero
 #define FAT (1 << 1)  //bit 1
 #define HIT (1 << 2)  //bit 2
 #define BAT (1 << 3)  //bit 3 , etc.
 #define ZAX (1 << 4)
 #define HOW (1 << 5)
share|improve this answer
Thanks, very clear and concise. I assume that in both the approaches all of the other bits are left untouched, no? – user994179 May 11 '12 at 20:13
Yes they do, none of the operations here change the original bits (e.g. the shift operators "returns" a new value, it leaves the original value alone) – nos May 11 '12 at 20:26

You just need to apply a bitmask to the last 2 bits (0x03) and switch on the result:

switch (myBits & 0x03) {
    case 0: // CONDITION_0
    case 1: // CONDITION_1
    case 2: // CONDITION_2
    case 3: // CONDITION_3

Also, in case you want them as macros for reusing them:

#define CONDITION_0(X) (((X) & 0x03) == 0)
#define CONDITION_1(X) (((X) & 0x03) == 1)
#define CONDITION_2(X) (((X) & 0x03) == 2)
#define CONDITION_3(X) (((X) & 0x03) == 3)

Then you just need to write something like:

if (CONDITION_0(myBits)) {
} else if (CONDITION_1(myBits)) {
share|improve this answer
My guess (it's just a guess) is that the two "interesting" bits are under the mask 0xc0 (0x80 and 0x40). The nice thing about using those macros is that you can switch out the mask-and-match values and the rest of the code stays the same. – torek May 11 '12 at 19:50
That's the good thing about macros ;) – Win32 May 11 '12 at 19:52

I'm not sure I understand what you want, but it sounds like you want to check if two bits are set. In that case, for example, if you want to check if the last two bits are both set, you'd do:

((myBits & 3) == 3)
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