### How to fix the bug in your database

To fix the bug in your database you can do the following addition to all the buggy data:

```
long new_result = old_buggy_result + 1309965025280L;
```

The constant number was found like this:

- Check the buggy
`result`

value
- Find what should the correct
`result`

value be?
- Do an addition to the buggy
`result`

value to find the correct `result.

**But this is only possible if you have saved **`sample`

and `offset`

in your database or somewhere else.

Otherwise, it depends on the number of wraps that occured during the original calculation:

```
long size_of_int = (long)Math.pow(2, 32);
int number_of_wraps = 305 // Only correct in your example!
// You can't deduct the number of wraps from
// the wrong value alone, because that information
// is lost in the modulo (the "wrap")
long correct_number = wrong_number + size_of_int * number_of_wraps;
```

If the numbers in your database are close enough to your sample value, this means, you can do the above, using 305 as the number of wraps.

### Explanation of the bug (for future readers)

The operation here:

```
(sample + offset) * 1000;
```

is computed using `int`

and not `long`

. But the result is "too big" to be saved on an `int`

variable. That's why you have an overflow.

Change it to:

```
((long) sample + offset) * 1000L;
```

So now the `+`

and `*`

operations will be done using `long`

values, and the result will be a `long`

value which won't overflow.

`long`

since that's the result type. – Hanno Fietz Jun 15 '11 at 11:18