I recently did a Java course (1 week crash course), and we covered some binary mathematics.
This unary ~ operator (tilde I think it's called?) was explained to us thus:
It inverts the bit pattern turning every "0" into a "1" and every "1" into a "0". e.g. There are 8 bits to a byte. If you have the following byte: 00000000 the inverted value would change to become 11111111.
The above explanation is clear and concise, and totally makes sense to me. Until, that is, I try to implement it.
byte x = 3; byte y = 5; System.out.println(~x); System.out.println(~y);
The output is:
I'm very confused about how this happens.
If +3 in binary is 11, then the inversion of this would be 00, which clearly isn't -3.
But as there are 8 bits in a byte, then shouldn't the binary representation of +3 be written as 00000011?
Which would invert to become 11111100. Converted back to decimal value this would be 252. If however you write the +3 as 011, then it does indeed convert to 100, which is +4, but then how do you know it's a negative number?
How about if you try 0011, which converts to 1100, which if you use the first bit as a sign, then it does indeed become -4.
Ah - so at this point I thought I was getting somewhere.
But then I got to the second value of y = 5.
How do we write this? Using the same logic, +5 converts to binary 0101, which inverts to 1010.
And it's around now that I'm horribly confused. This looks to represent either a signed value of -2, or an unsigned value of +10 decimal? Neither of which are the -6 I'm getting printed out.
Again, if I increase the length up to the 8 digits of a byte, +5 is 00000101, which inverted becomes 11111010. And I really can't find a way to turn this into -6.
Does anyone out there understand this, as I have no idea what is happening here and the more numbers I print out the more confused I become.
Google doesn't seem to come up with anything much on this - maybe it doesn't like looking at little operator signs.. :-(