Here's some basic examples of binary operations. I've used mostly in-place operations here.

```
int bit = 0x02; // 0010
bit |= 1; // OR 0001 -> 0011
bit ^= 1; // XOR 0001 -> 0010
bit ^= 7; // XOR 0111 -> 0101
bit &= 14; // AND 1110 -> 0100
bit <<= 1; // LSHIFT 1 -> 1000
bit >>= 2; // RSHIFT 2 -> 0010
bit = ~bit; // COMPLEMENT -> 1101
```

If you want to print a binary number you need to do it yourself... Here's one slightly inefficient, but moderately readable, way to do it:

```
char bitstr[33] = {0};
for( int b = 0; b < 32; b++ ) {
if( bit & (1 << (31-b)) )
bitstr[b] = '1';
else
bitstr[b] = '0';
}
printf( "%s\n", bitstr );
```

**[edit]** If I wanted faster code, I might pre-generate (or hardcode) a lookup table with the 8-bit sequences for all numbers from 0-255.

```
// This turns a 32-bit integer into a binary string.
char lookup[256][9] = {
"00000000",
"00000001",
"00000010",
"00000011",
// ... etc (you don't want to do this by hand)
"11111111"
};
char * lolo = lookup[val & 0xff];
char * lohi = lookup[(val>>8) & 0xff];
char * hilo = lookup[(val>>16) & 0xff];
char * hihi = lookup[(val>>24) & 0xff];
// This part is maybe a bit lazy =)
char bitstr[33];
sprintf( "%s%s%s%s", hihi, hilo, lohi, lolo );
```

Instead, you could do this:

```
char *bits = bitstr;
while( *hihi ) *bits++ = *hihi++;
while( *hilo ) *bits++ = *hilo++;
while( *lohi ) *bits++ = *lohi++;
while( *lolo ) *bits++ = *lolo++;
*bits = 0;
```

Or just unroll the whole thing. ;-)

```
char bitstr[33] = {
hihi[0], hihi[1], hihi[2], hihi[3], hihi[4], hihi[5], hihi[6], hihi[7],
hilo[0], hilo[1], hilo[2], hilo[3], hilo[4], hilo[5], hilo[6], hilo[7],
lohi[0], lohi[1], lohi[2], lohi[3], lohi[4], lohi[5], lohi[6], lohi[7],
lolo[0], lolo[1], lolo[2], lolo[3], lolo[4], lolo[5], lolo[6], lolo[7],
0 };
```

Of course, those 8 bytes in the lookup are the same length as a 64-bit integer... So what about this? Much faster than all that pointless meandering through character arrays.

```
char bitstr[33];
__int64 * intbits = (__int64*)bitstr;
intbits[0] = *(__int64*)lookup[(val >> 24) & 0xff];
intbits[1] = *(__int64*)lookup[(val >> 16) & 0xff];
intbits[2] = *(__int64*)lookup[(val >> 8) & 0xff];
intbits[3] = *(__int64*)lookup[val & 0xff];
bitstr[32] = 0;
```

Naturally, in the above code you would represent your lookup values as int64 instead of strings.

Anyway, just pointing out that you can write it however is appropriate for your purposes. If you need to optimize, things get fun, but for most practical applications such optimizations are negligible or pointless.