## To set bit N of variable `x`

to `0`

```
x &= ~(1 << N);
```

**How it works:** The expression 1 << N is one bit shifted N times to the left. For N = 7, this would be

```
1000 0000
```

The bitwise NOT operator `~`

inverts this to

```
0111 1111
```

Then the result is bitwise ANDed with `x`

, giving:

```
xxxx xxxx
0111 1111
--------- [AND]
0xxx xxxx
```

Result: bit 7 (zero-based count starting from the LSB) is turned off, all others retain their previous values.

## To set bit N of variable `x`

to `1`

```
x |= 1 << N;
```

How it works: this time we take the shifted bit and bitwise OR it with `x`

, giving:

```
xxxx xxxx
1000 0000
--------- [OR]
1xxx xxxx
```

Result: Bit 7 is turned on, all others retain their previous values.

## Finding highest order bit set to `1`

:

If you don't know which is the highest bit set to 1 you can find out on the fly. There are many ways of doing this; a reasonable approach is

```
int x = 0xbf;
int highestSetBit = -1; // assume that to begin with, x is all zeroes
while (x != 0) {
++highestSetBit;
x >>= 1;
}
```

At the end of the loop, `highestSetBit`

will be 7 as expected.

**See it in action**.