&& is the *logical AND* whereas | is a bitwise operator.

`a && b`

evalutes to *true* when both operands are evaluted to *true*. Since flags are almost always numbers greater than 1, this expression always evalutes to *true*.

## How functions accepting bitmasks work

### They specify constants

Note that these constants have to have powers of 2:

```
FLAG_INT1 = 1
FLAG_INT2 = 2
FLAG_INT3 = 4
FLAG_INT4 = 8
```

### You call the function combining some flags

```
myFunction(FLAG_INT1 | FLAG_INT3)
```

This leads to a *bitwise OR operation*:

```
0001
OR 0100
=======
0101
```

A set bit (*1*) in one (or both) of the operands will lead to a set bit (*1*) in the result, too.

### The function checks internally for each flag

This requires a *bitwise AND operation*:

```
0101
AND 0001 // check for FLAG_INT1
========
0001 // true
0101
AND 0010 // check for FLAG_INT2
========
0000 // false
0101
AND 0100 // check for FLAG_INT3
========
0100 // true
```

The *bitwise AND* required both operands to have a set bit (*1*) at position X in order to result in a set bit (*1*) in the result at position X.

Wikipedia has also a nice article about the common bitwise operators: http://en.wikipedia.org/wiki/Bitwise_operation

`|`

and related operators are bitwise operators. Using bitfields you can pass an integer with certain bits turned on or off to enable or disable certain options. – datasage Jan 20 '13 at 20:11`1 && 2`

gives you true (`1`

). While`1 | 2`

is`3`

, as would be`1 + 2`

(which is equivalent to the bitwise OR if all operands have distinct bits set in binary notation). – mario Jan 20 '13 at 20:13means? – fschmengler Jan 20 '13 at 20:31