From http://www.coderanch.com/t/236675/java-programmer-SCJP/certification/xff

The hex literal 0xFF is an equal int(255). Java represents int as 32 bits. It look like this in binary:

```
00000000 00000000 00000000 11111111
```

When you do a bit wise AND with this value(255) on any number, it is going to mask(make ZEROs) all but the lowest 8 bits of the number (will be as-is).

```
... 01100100 00000101 & ...00000000 11111111 = 00000000 00000101
```

& is something like % but not really.

**And why 0xff?** this in ((power of 2) - 1).
All ((power of 2) - 1) (e.g 7, 255...) will behave something like % operator.

Then

In binary, 0 is, all zeros, and 255 looks like this:

```
00000000 00000000 00000000 11111111
```

And -1 looks like this

```
11111111 11111111 11111111 11111111
```

When you do a bitwise AND of 0xFF and any value from 0 to 255, the result is the exact same as the value. And if any value higher than 255 still the result will be within 0-255.

However, if you do:

```
-1 & 0xFF
```

you get

`00000000 00000000 00000000 11111111`

, which does NOT equal the original value of -1 (`11111111`

is 255 in decimal).

Few more bit manipulation: (Not related to the question)

```
X >> 1 = X/2
X << 1 = 2X
```

**Check any particular bit is set(1) or not (0) then**

```
int thirdBitTobeChecked = 1 << 2 (...0000100)
int onWhichThisHasTobeTested = 5 (.......101)
int isBitSet = onWhichThisHasTobeTested & thirdBitTobeChecked;
if(isBitSet > 0) {
//Third Bit is set to 1
}
```

**Set(1) a particular bit**

```
int thirdBitTobeSet = 1 << 2 (...0000100)
int onWhichThisHasTobeSet = 2 (.......010)
onWhichThisHasTobeSet |= thirdBitTobeSet;
```

**ReSet(0) a particular bit**

```
int thirdBitTobeReSet = ~(1 << 2) ; //(...1111011)
int onWhichThisHasTobeReSet = 6 ;//(.....000110)
onWhichThisHasTobeReSet &= thirdBitTobeReSet;
```

**XOR**

Just note that if you perform XOR operation twice, will results the same value.

```
byte toBeEncrypted = 0010 0110
byte salt = 0100 1011
byte encryptedVal = toBeEncrypted ^ salt == 0110 1101
byte decryptedVal = encryptedVal ^ salt == 0010 0110 == toBeEncrypted :)
```

One more logic with XOR is

```
if A (XOR) B == C (salt)
then C (XOR) B == A
C (XOR) A == B
```

The above is useful to swap two variables without temp like below

```
a = a ^ b; b = a ^ b; a = a ^ b;
```

OR

```
a ^= b ^= a ^= b;
```

`byte value = (byte) 0xfe;`