I'm messing around with bitwise operators, and I was trying to convert a negative byte to an unsigned 8 bit value, and this is what people suggested:

System.out.println(-20 & 0xFF); //bitwise AND on negative number and 255 

So, this works perfectly, and returns 236, but why? As far as I'm concerned:

00010100 //binary representation of -20
11111111 //binary representation of 0xFF or 255
00010100 //it returns the same exact thing, so it's either -20 or 20

Why does it work? I think I've missed something pretty simple, but I can't seem to grasp it.

Also, if I do it with a positive number below 256, it returns the same number. I can't seem to understand what Java does with these numbers.

  • 1
    -20 != 20 and so the representation is not the same either. – Peter Lawrey Apr 27 '13 at 13:07

The literals in Java are in the form of int. So when you say -20 & 0xFF, this is what happens:

  11111111 11111111 11111111 11101100 //-20 -ve nos are stored in 2's compliment form
& 00000000 00000000 00000000 11111111 // 0xFF 
  -------- -------- -------- --------
  00000000 00000000 00000000 11101100 // 236

Since the negetaive values are stored in 2's compliment form, you get the value 236.

When you perfrom 20 & 0xFF, this happens:

  00000000 00000000 00000000 00010100 // 20 -ve nos are stored in 2's compliment form
& 00000000 00000000 00000000 11111111 // 0xFF 
  -------- -------- -------- --------
  00000000 00000000 00000000 00010100 // 20
  • Ah, I get it now. It's probably the 2's compliment form that confused me. So let me get this straight: If I save a negative number between -128 and -1 (inclusive), it gets saved as a 7 bit representation of 256 minus that number, and the 8th bit is used solely to represent whether it's negative or positive, is that right? Now, the only thing that confused me a bit, is that in the first example, 24 1's are appended at the start of the -20. Why 1's, and why not 0's? That's the only thing that's bothering me right now. – ZimZim Apr 27 '13 at 13:30
  • @user1007059: If you have a byte variable, then the 8th bit is used for storing the sign. But when you have a literal, as in the above case, the literals are stored as int, no matter how small the size might be. So when you write -20 & 0xFF, two ints are created of 32 bit each, and the MSB, i.e. the 32nd bit is used for storing the sign. In the 1st example, the preceding 1's are present because of the number is in 2's compliment and in 2's compliment form, ALL the bits before the 1st 1 are flipped, i.e. 0s become 1s and 1s become 0. – Rahul Bobhate Apr 27 '13 at 13:36
  • Alright thanks, I now understand most of this. I can continue messing around with bits and bytes without feeling like an idiot :D – ZimZim Apr 27 '13 at 14:15

A byte is a signed value held in 8 bits and may be in the range -128 to 127.

The left most bit is used as the sign bit.

System.out.println(-20 & 0xFF); has nothing to do with bytes, this is an int operation.

The binary representation of -20, as a byte is: 1110_1100

1110_1100 & 1111_1111 = 1110_1100

If you want unsigned, there's char to play with, but you're not going to be happy. Realistically, Java doesn't have unsigned.

Negatives are stored in '2s Complement' form, eg:

1111_1111 == -1

But why?

Under 2s complement to make a negative number, all the bits are flipped (1s complement) and 1 is added (making 2s complement - two operations)


 0000_0000 - Zero
-0000_0001 - minus one
 1111_1110 - Ones complement - (this would be xor 1111_1111)
+0000_0001 - plus one - we're converting to 2s complement, not doing math
 1111_1111 - -1 in 2s complement
  • I said "byte" because I tried storing the -20 inside of a byte and then doing the & 0xFF thing, and it did work. Also, 11101100, wouldn't that be -108? The left most bit represents the minus, and the rest represents the actual number, which would be 108. What am I missing here? – ZimZim Apr 27 '13 at 13:13
  • It's called "2s complement", I'll edit my post – Ray Stojonic Apr 27 '13 at 13:15
  • There are only two places where the missing unsigned really demands your additional attention: relational operators and widending conversions. Switching to char is mostly stupid, since almost any operations on it will result in an int with all the gorry signed problems back (but now hidden in an intermediate result). Getting to know the details of twos-complement allows you to properly work with unsigned data even when the variables are treated as signed. There is no adequate replacement for knowledge, not in java nor any other language. – Durandal Apr 27 '13 at 13:19
  • I'm just starting with paying attention to the size of datatypes and whether they're signed/unsigned etc. I've always blindly used int or long for numbers, but right now I'm messing around with something that requires bit of a deeper understanding of datatypes, that's why I'm asking this question. – ZimZim Apr 27 '13 at 13:25
  • 1
    @Durandal He's experimenting with bits, not designing a nuclear power plant control system. There is no 'stupid', there is only learning. – Ray Stojonic Apr 27 '13 at 13:28

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