Calculate the unit in the last place (ULP) for doubles

Does .NET have a built-in method to calculate the ULP of a given double or float?

If not, what is the most efficient way to do so?

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happy reading: stackoverflow.com/questions/1668183/… –  vulkanino Feb 28 '12 at 16:45

It seems the function is pretty trivial; this is based on the pseudocode in the accepted answer to the question linked by vulkanino:

``````double value = whatever;
long bits = BitConverter.DoubleToInt64Bits(value);
double nextValue = BitConverter.Int64BitsToDouble(bits + 1);
double result = nextValue - value;
``````

For floats, you'd need to provide your own implementation of `SingleToInt32Bits` and `Int32BitsToSingle`, since BitConverter doesn't have those functions.

This page shows the special cases in the java implementation of the function; handling those should be fairly trivial, too.

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phoog answer is good but has weaknesses with negative numbers, max_double, infinity and NaN.

phoog_ULP(positive x) --> a positive number. Good.
phoog_ULP(negative x) --> a negative number. I would expect positive number.
To fix this I recommend instead:

``````long bits = BitConverter.DoubleToInt64Bits(value) & 0x7FFFFFFFFFFFFFFFL;
``````

Below are fringe cases that need resolution should you care...

phoog_ULP(x = +/- Max_double 1.797...e+308) returns an infinite result. (+1.996...e+292) expected.
phoog_ULP(x = +/- Infinity) results in a NaN. +Infinity expected.
phoog_ULP(x = +/- NaN) may unexpectedly change from a sNan to a qNaN. No change expected. One could argue either way on if the sign should become + in this case.

To solve these, I only see a short series of brutish if() tests to accommodate these, possible on the "bits" value for expediency. Example:

``````double ulpc(double value) {
long long bits = BitConverter::DoubleToInt64Bits(value);
if ((bits & 0x7FF0000000000000L) == 0x7FF0000000000000L) { // if x is not finite
if (bits & 0x000FFFFFFFFFFFFFL) { // if x is a NaN
return value;  // I did not force the sign bit here with NaNs.
}
return BitConverter.Int64BitsToDouble(0x7FF0000000000000L); // Positive Infinity;
}
bits &= 0x7FFFFFFFFFFFFFFFL; // make positive
if (bits == 0x7FEFFFFFFFFFFFFL) { // if x == max_double (notice the _E_)
return BitConverter.Int64BitsToDouble(bits) - BitConverter.Int64BitsToDouble(bits - 1);
}
double nextValue = BitConverter.Int64BitsToDouble(bits + 1);
double result = nextValue - value;
}
``````
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