The answer depends on what the lower 31 bits of your input are meant to represent.

```
int input = 0x6FD40640 & 0x7FFFFFFF; //strip top bit; only here for clarity
```

Unsigned input: `0x6FD40640 == 1876166208`

## Two's complement (desired output: -271317440)

A **two's complement** integer is one where -1 has all bits set, and lower negatives number count down from there. The first bit still acts as a sign bit.

```
1000 -> -8
1001 -> -7
...
1110 -> -2
1111 -> -1
0000 -> 0
0001 -> 1
```

If the lower 31 bits represent a two's complement integer, then I think you should just be able to do this:

```
input = (input << 1) >> 1;
```

That's because Java stores integers in two's complement internally: all we do is shift left and then shift back right (signed) so that the sign bit is picked up and the integer goes from 31 bits to 32 bits.

## One's complement (desired output: -802424384)

A **one's complement** number representation is one where the first bit is a dedicated sign bit, and the remaining bits represent the magnitude. The lower bits of -100 will be the same as the lower bits of 100:

```
1111 -> -7
1110 -> -6
...
1001 -> -1
1000 -> -0 (anomoly)
0000 -> 0
0001 -> 1
```

If the lower 31 bits represent a **one's complement** integer (that is, a sign bit followed by 30 bits representing an unsigned magnitude), then you need to convert it into two's complement so that Java extracts the value properly. To do this you just need to extract the lower 30 bits and multiply by -1:

```
if ( input & 0x40000000 ) {
input = (input & 0x3FFFFFFF) * -1;
}
```

You said in the question's comments that after converting to degrees (dividing by 3600000) you get around -75.36. **When I divide -271317440 by 3600000 I get -75.36595555555556**, so I'm guessing your input format is two's complement, so my first and original answer was correct.

I'm trying to find a way to go from the hex bytes into a signed int using Java– Brad Hein Oct 15 '10 at 13:04