# Why is Java able to store 0xff000000 as an int?

An integer's max value in Java is 2147483647, since Java integers are signed, right?

0xff000000 has a numeric value of 4278190080.

Yet I see Java code like this:

``````int ALPHA_MASK = 0xff000000;
``````

-

The high bit is a sign bit. Setting it denotes a negative number: -16777216.

Java, like most languages, stores signed numbers in 2's complement form. In this case, subtracting 231, or 2147483648 from 0x7F000000, or 2130706432, yields -16777216.

-

As he said, signed integers are stored as two's complements to their respective positive value on most computer architectures.

That is, the whole 2^32 possible values are split up into two sets: one for positive values starting with a 0-bit and one for negative values starting with a 1.

Now, imagine that we're limited to 3-bit numbers:

``````     000
111   001
110       010
101   011
100
``````

001, 010 and 011 are the only possible positive numbers whereas 111, 110 and 101 are their respective negative counterparts. 000 is zero, obviously, and 100 is the lowest negative number of all which doesn't have a positive counterpart.

``````     000      (0)
111   001   (-1 / 1)
110       010 (-2 / 2)
101   011   (-3 / 3)
100      (-4)
``````

You also see that you can get the bit pattern of -1 (111) by negating 1 (001) and adding 1 (001) to it: 001 (= 1) -> 110 + 001 -> 111 (= -1)

0xff000000 = 1111 1111 0000 0000 0000 0000 0000 0000

We don't have to add further zeros in front of it as we already reached the maximum of 32 bits. Also, it's obviously a negative number (as it's starting with a 1-bit), so we're now going to calculate its absolute value / positive counterpart:

``````          1111 1111 0000 0000 0000 0000 0000 0000
``````

Calculating the two's complement:

``````          0000 0000 1111 1111 1111 1111 1111 1111
+ 0000 0000 0000 0000 0000 0000 0000 0001

= 0000 0001 0000 0000 0000 0000 0000 0000
= 16777216
``````

Therefore, 0xff000000 = -16777216

-
@Kitsune (and/or anyone who doesn't already know this): This is a good explanation. It might take a few times to read it but I recommend you read it through until it really makes sense. –  Bill K Nov 25 '08 at 23:47
thanks a lot! I grok it now –  kitsune Nov 26 '08 at 7:07
Excellent visual –  Chris Ballance Feb 1 '09 at 6:17

Something probably worth pointing out - this code is not meant to be used as an integer with a numerical value; The purpose is as a bitmask to filter the alpha channel out of a 32 bit color value. This variable really shouldn't even be thought of as a number, just as a binary mask with the high 8 bits turned on.

-

the extra bit is for the sign

Java ints are twos complement

-

ints are signed in Java.

-