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So if I have an integer that is 32 bits. The first 28 bits (from left) are to store the size of a memory chunk, the next two are 0s and the last two are:

  • to store the if it is the last node and then
  • to store if it is used or not (respectively).

What I am trying to do is to know how to turn the flag on and off on the isLast operation and the isUsed operation.

(If we consider only the last two integers (again, we start left) then 01 would be not last and is used for example, one more example is 11 is last and is used, 00 is not last and not used.)

I want to be able to turn the flags on and off in an easy way. I know I will need to use bit operations including & and | but I am not sure how.

Please ask me questions if you need more description of the problem.

share|improve this question
is this homework? – catchmeifyoutry Dec 9 '09 at 12:14
no, i would've tagged it as homework :) – user220755 Dec 9 '09 at 12:36
Well duh. Everyone knows what an anonymous user would do. – spoulson Dec 9 '09 at 12:45
actually if u do look at my profile u would see that i do tag it as homework when it is :) thanks anyway :) – user220755 Dec 9 '09 at 14:04
up vote 6 down vote accepted
//turn on isUsed
data |= 1;
//turn off isUsed
data &= ~1;
//turn on notLast
data &= ~2;
//turn off notLast
data |= 2;
share|improve this answer
Maybe add a "int const USED_FLAG 1" / "int const LAST_FLAG 2"? – Sebastian Dec 9 '09 at 12:15
and I think "data |= 2" means it is the last node, not the opposite – Sebastian Dec 9 '09 at 12:16
Your last flag seems backwards in relation to the original question. In other words, data |= 2 turns the last flag on, and data &= ~2 turns it off. – LnxPrgr3 Dec 9 '09 at 12:16
Yeah he implemented notLast instead of isLast but that is ok :) – user220755 Dec 9 '09 at 12:28
-1: [ ] xor doe not turn off a bit – pmg Dec 9 '09 at 12:48

This is very simple:

/* Turn on bit 0 */
code = code | 1;

/* Turn off bit 0 */
code = code & ~1;

/* Turn on bit 1 */
code = code | 2;

/* Turn off bit 1 */
code = code & ~2;

See Bitwise operators in C, or Google for the appropriate terms. You can find this in any book or tutorial about C.

share|improve this answer

In general, counting the least significant bit as 0, to set bit N, you need to OR the original value with 1 << N.

Eg to set bit 1:

val |= (1 << 1);

To clear bit N, you need to AND the original value with the bit-wise inverse of 1 << N.

Eg to clear bit 1:

val &= ~(1 << 1);
share|improve this answer

Turn the flag on:

register |= (1<<LAST_BIT);

Turn the flag off:

register &= ~(1<<LAST_BIT);

Another way is to use union bit-fields:

  uint32_t value;
    unit32_t body:28;
    unit32_t reserved:2;
    unit32_t last_bit:1;
    unit32_t used_bit:1;
  } fields;
} MyResister;

MyResister.fields.last_bit = 1;
MyResister.fields.used_bit = 0;
share|improve this answer
I wouldn't recommend this, there's no guarantee that body, reserved etc will be packed in memory, in other words: sizeof(MyRegister) may or may not be sizeof(uint32_t). See standard 9.6.1. – Andreas Brinck Dec 9 '09 at 12:35
Bit fields are definitely non-portable and compiler specific. However many compilers (especially for embedded processors) behave as expected. In such cases they are very handy. – kgiannakakis Dec 9 '09 at 12:54

This is begging for an interface, either with functions or macros, something like:

// Use unsigned ints (assuming that's your 32-bit type).

#define setLast(x)   (x) |=  2
#define clrLast(x)   (x) &= ~2
#define isLast(x)    ((x) &  2)

#define setUsed(x)   (x) |=  1
#define clrused(x)   (x) &= ~1
#define isUsed(x)    ((x) &  1)

You can also provide macros to extract the size portion and create the whole integer:

#define getSize(x) ((x) >> 4)
#define create (sz,last,used) \
    (((sz) & 0x0fffffff) << 4) | \
    (((last) & 1) << 1) | \
    (((used) & 1))

You'll find your code becomes a lot more readable if you provide the "functions" to do the work and give them sensible names like the above. Otherwise your code is peppered with bit manipulation instructions that are harder to understand.

Just keep in mind the normal rules for macros, things like not passing in things like x++ if your macros use it more than once (which isn't actually the case here). If you want to be ultra-safe, you can do them as functions.

Equivalent functions would be:

unsigned int setLast (unsigned int *x) { *x |=  2; return *x; }
unsigned int clrLast (unsigned int *x) { *x &= ~2; return *x; }
unsigned int isLast  (unsigned int  x) { return x & 2; }

unsigned int setUsed (unsigned int *x) { *x |=  1; return *x; }
unsigned int clrUsed (unsigned int *x) { *x &= ~1; return *x; }
unsigned int isUsed  (unsigned int  x) { return x & 1; }

unsigned int getSize (insigned int  x) { return x >> 4; }
unsigned int create  (unsigned int sz, unsigned int last, unsigned int used) {
    unsigned int ret =
        ((sz & 0x0fffffff) << 4) |
        ((last & 1) << 1) |
        ((used & 1));
    return ret;
share|improve this answer
Even more readable if you actually make them functions. Also, in each of your macros, x should be (x), to avoid unexpected precedence issues. – anon Dec 9 '09 at 12:40

I would throw in a BIT(x) macro just to make the source code more clear:

#define BIT(n) (0x1U << (n))

Which would result in:

#define LAST_SET(x) ((x) |= BIT(1))
#define LAST_CLR(x)  ((x) &= ~BIT(1))

Also, as previously noted, always put the parameter in parenthesis.

(OT) Edit: Changed name of macro as I do not like having the verb first. First of all a function like getWhatever is for code where you can group the function in a class. In C, IMHO, you should put the "component" name first such as, timeGet() et c

(OT2) Also if it's a register macrofication like this is nice which would result in better portability:

#define MY_REG_RD() (MY_REG)
#define MY_REG_WR(x) (MY_REG = (x))
#define MY_REG_SET(x) (MY_REG |= (x))
#define MY_REG_CLR(x) (MY_REG &= ~(x))
#define MY_REG_DIS BIT(10)
#define MY_REG_EN BIT(4)

Then you could do:

share|improve this answer
(OT) I mostly agree with you. What I say is to name variables in big endian format: the most important word first. Compare timeGet(), timeSet(), timeAdvance(), ... where time is the most important word ... with fixTime(), fixLength(), fixWeight(), ... where "fixing" is more important :) – pmg Dec 9 '09 at 13:20
@Henrik, I think your LAST_CLR should use ~BIT(1), yes? – paxdiablo Dec 9 '09 at 13:21
You're absolutely right, fixed! – Henrik Dec 9 '09 at 13:24
mostly good, except for the fact that the int variable is now hardcoded as MY_REG, or do you expect to def/undef it everytime? It is now actually more obscure what memory these macros affect. – catchmeifyoutry Dec 9 '09 at 20:19
catchmeifyoutry,I do not mean that this should be used for common memory variables. This is for registers in an ASIC. I should have made that more clear, sorry. – Henrik Dec 10 '09 at 7:36
bool isBitOn( int mask , int i ){ // returns True if i-Th bit is On
    return mask & ( 1 << i ) ;

int BitOn( int mask , int i ){ // Turn On the i-Th bit of the value and then returns it
    return mask | ( 1 << i ) ;

int BitOff( int mask , int i ){ // Turn Off the i-Th bit of the value and then returns it
    return mask - ( 1 << i ) ;

int BitToggle( int mask , int i ){ // Toggle the i-Th bit of the value and then returns it
    return mask ^ ( 1 << i ) ;

void printbit(int n) { // print the Binary representation of a Integer Number
    for(int i = 31 ; i >=0 ; i-- )
        printf("%d", isBitOn(n,i) );
share|improve this answer

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