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
Simply casting a
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
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
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