Understanding Hex number to Decimal in two compliment - Java

I am trying to understand this answer here.

How do both these `0xf2` and `0xfffffff2` values represent `-14`? Can you elaborate with the conversion process?

I know what is Two's complement, though.

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two's complement, not Tow's complement... –  hyde Nov 13 '12 at 21:28
Thanks. Corrected –  Kevin Rave Nov 13 '12 at 21:30
Note that `0xf2 == -14` only if your word size is 8 bits, and similarly, `0xfffffff2 == -14` only for a 32 bit word size; in addition to the requirement for using twos-complement representation. –  twalberg Nov 13 '12 at 21:32
In Java, 0xf2 does not represent -14. 0xf2 is not a `byte` constant; an `int` constant, which will have the value 242. Try compiling `byte b = 0xf2;` and you'll get an error. –  Ted Hopp Nov 13 '12 at 21:34
Perfectly explained here Two's complement, i remember it this way: Read a two's complement like a regular binary number, but instead of adding subtract the value of the highest bit. –  jlordo Nov 13 '12 at 21:35

``````0xf2 = 11110010
``````

The first bit is sign-bit. So sign is minus. To get actual value, take 2's compliment.

``````11110010 -> 1's complement -> 00001101 -> Add 1 -> 00001110 = -14
``````

Similarly, take `0xfffff...f2`. Sign bit at the beginning. Take 2's complement.

``````1111-1111-1111.....0010 -> 1's complement -> 00000000000...1101 -> Add 1 -> 0000...1110 -> -14
``````

Any number of preceding `1111...` wouldn't make a difference to the value of a negative signed number, just as `0000..` wouldn't for positive values.

The above calculation is for `8-bit signed 0xf2` against `32-bit signed 0xfffffff2` which are both mathematically equal.

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Perfect. Thanks much! –  Kevin Rave Nov 13 '12 at 21:33
In Java 0xf2 is a (32-bit) `int` value, not an 8-bit byte. If you try `byte b = 0xf2;`, you'll get a compilation error. –  Ted Hopp Nov 13 '12 at 21:36
@TedHopp This isn't in the Java perspective, but in general. I understand, there is 32-bit granularity with most programming languages, so it wouldn't be a -ve number at all. –  Anirudh Ramanathan Nov 13 '12 at 21:37
@TedHopp Cam you explain? –  Kevin Rave Nov 13 '12 at 21:37
@KevinRave - According to the Java Language Specification: "An integer literal is of type long if it is suffixed with an ASCII letter L or l (ell); otherwise it is of type int (§4.2.1)." When you initialize a `byte` variable with an `int` literal, the compiler will try to down-cast the value automatically. However, it will complain if the value doesn't fit. Since 0xf2 (an `int` value of 242 base 10) doesn't fit in a `byte`, you get an error. You need to explicitly cast it: `byte b = (byte) 0xf2;`. –  Ted Hopp Nov 13 '12 at 21:47

In binary numbers, when using two's complement, negative values have the most significant bit set to 1. Which bit it is, that depends on how many bit number it is.

`0xf2` interpreted as 8-bit signed value is -14, while `0xfffffff2` interpreted as 32-bit signed value is same -14.

32-bit `0x000000f2` would be 242, same as unsigned 8-bit `0xf2` (note: Java does not have any unsigned integer types).

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@KevinRave - Well, "granularity" is not my terminology. In my previous comment to @Cthulhu's answer I linked to the Java Language Specification section that specifies that in Java, integer literals that don't have an "L" (in upper or lower case) at the end are `int` values. That section then links to section 4.2.1, which descibes `int` as ranging from -2147483648 to 2147483647, inclusive. That's the range of a 32-bit representation. The Java Virtual Machine Specification also says that `int` values are 32-bit, signed, two's-complement values. –  Ted Hopp Nov 13 '12 at 22:14
@KevinRave - In the post you referenced in your question, it described "the byte 0xf2". This indicates a `byte` (8-bit) primitive that happens to have the hex value 0xf2. My only point is that `0xf2` as a Java literal is not a `byte` value but an `int` value. It's basically a cautionary warning that you can't use 0xf2 (or anything above 0x7f) to initialize a `byte` variable without explicitly casting it to a `byte`. –  Ted Hopp Nov 13 '12 at 22:18
@KevinRave it's two's complement... `0xF2` = `11110010` bin. Negating that, ie. taking two's complement of that is `00001101` bin + 1 = `00001110` bin = 14. –  hyde Nov 13 '12 at 22:36
@KevinRave - As an `int` literal, 0xf2 is short for 0x000000f2 (a 32-bit value). The sign bit is not set. As an 8-bit value, hyde covered this in his last comment. –  Ted Hopp Nov 13 '12 at 22:39
@KevinRave There are two different things here. One being the width of the field (8 v/s 32 bits) and other being whether it is signed or unsigned. 0xF2 in an 8-bit field is -14 when signed, and 242 when unsigned. 32-bit 0xF2 (equivalent to 0x000000F2) is 242 always(signed/unsigned). 0xFFFFFFF2 in a 32-bit field is -14 when signed and +4294967282 when unsigned. –  Anirudh Ramanathan Nov 14 '12 at 9:41

How do both these 0xf2 and 0xfffffff2 values represent -14?

They don't.

``````int a = 0xf2;
int b = 0xfffffff2;
``````

are different values. The only case where they represent the same number is:

``````byte a = (byte)0xf2;
byte b = 0xfffffff2;
``````

and that's because of sign extension when the byte is used in an integer context. Note that

``````byte a = 0xf2;
``````

doesn't even compile, so it's hard to see what your question is really about.

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