`byte`

data type is based on Two's complement binary signed number representation with a value range from -128 to +127.

Positive values from 0 to 127 have it's most significant bit equal to 0 representing `+`

.
Here binary representation is the same as it's numeric value, for example `byte 00000100 = int 4`

Negative values from -128 to -1 have it's most significant bit equal to 1 representing `-`

However in negative range, Two's complement binary representation is **NOT** the same as it's numeric value, for example you would expect `byte 10000100`

to be equal to `int 132`

, but is actually `-124`

.
Simply casting a `byte`

to `int`

won't help.

Casting just widens 1 byte to 4 btytes, `10000100 ==> 11111111111111111111111110000100`

which is equal to -124, not 132, because `int`

data type is also based on Two's complement. Casting `byte`

into `int`

is a step in the right direction, however you also need to get rid of all these ones in front. `255&b[i]`

trick achieves that.

This is what happens in `255&b[i]`

:

According to conversion rules defined in the the JLS `&`

bitwise operator first converts it's operands to int, which means `255&b[i]`

is the same as `((int)255)&((int)b[i])`

. When byte is cast to int it just gets wider:

`10000100 = byte -124 ==> 11111111111111111111111110000100 = int -124`

Then bitwise AND is performed.

```
11111111111111111111111110000100 = int -124
&
00000000000000000000000011111111 = int 255
--------------------------------
00000000000000000000000010000100 = int 132
```

Final result is an `int 132`