# Java float to double - upper and lower bounds?

As most here will know, double -> float incurs a loss in precision. This means, multiple double values may be mapped to the same float value. But how do I go the other way? Given a normal (I'm not caring about the extreme cases) float, how do I find the upper and lower value of double precision that are still mapped to the same float?

Or, to speak in code:

``````function boolean testInterval(float lowF, float highF, double queryD) {
float queryF = (float) queryD;
return (lowF <= queryF) && (queryF <= highF);
}
``````

and

``````function boolean testInterval(float lowF, float highF, double queryD) {
double lowD = (double) lowF;
double highD = (double) highF;
return (lowD <= queryD) && (queryD <= highD);
}
``````

do not always give the same result. I'm looking for two functions float-> double to make the second function return the same result at the first.

This could work, but it looks like a hack and not the proper solution to me.

``````function boolean testIntervalHack(float lowF, float highF, double queryD) {
double lowD = (double) lowF - Float.MIN_VALUE;
double highD = (double) highF + Float.MIN_VALUE;
return (lowD <= queryD) && (queryD <= highD);
}
``````
-

Your `testIntervalHack` doesn't work, the range of `double` values mapping to the same `float` varies. For example, with `x = 2^24-1`, every `double` between `x-0.5` and `x+0.5` will be mapped to the same value (the `float` value of `x`), but `x +/- Float.MIN_VALUE == x`.

I'm not aware of any convenient API methods, so the best I can offer is

1. convert to `double`
2. convert the `double` to the bit representation via `doubleTo(Raw)LongBits`
3. add or subtract one of 228 or 228-1, depending on whether you want the upper or lower bound and the 229-bit is 0 or 1 (because of round-to-even)
4. convert that long to double via `longBitsToDouble`

Well, that's for finite values in `float` range. For `NaN`s, you can stop after step 1., for infinities, it's a bit more delicate, since `double` values larger than or equal to 2128-2103 are converted to `(float)Infinity`, which is quite a bit away from the bit representation of `(double)Infinity`.

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Thanks. Infinites and NaN are outside of my scope. I feared that I need to work with the bit representation already. :-( –  Anony-Mousse Nov 25 '11 at 14:11
So I seem to have it working for NaN, Infinity, +-0 and normal values. I didn't pay attention to the 2^29 bit yet. Can you elaborate on that? And I'm still having trouble with subnormal values. –  Anony-Mousse Dec 7 '11 at 8:15