I am looking for a library of C mathematical functions (trigonometric functions, exponential, logarithm, ...) that would take and return single-precision floats. The library would have to be available in source form, and it would be a plus if it was already known/believed optimal considering the IEEE 754 single-precision constraint.
Something like fdlibm, but less precise/expensive, would be perfect. There are other implementations all over the place, but most of them are double-precision, since that is what is standardized. While searching, I also found these integer trigonometric functions, that do not quite fit my purpose either.
I tinker with a static analyzer for C that I recently started applying to numerical functions (low-precision polynomial or interpolation implementations). One thing that I am interested in is taking into account the floating-point aspects of the computations (and the errors these can introduce), which are usually left out of the analyses of these implementations.
I know little about this kind of program. The two naive examples I linked use
double in order to be compatible with older versions of the analyzer, and in retrospect, the Taylor development should probably be a Remez approximation instead. It would all look more serious (and useful) if I verified available, established implementations; and I would have more interesting things to say if these implementations were single-precision, considering the brute-force approach that I want to try. On the other hand of the complexity spectrum, the 16-bit integer library has so few possible inputs that it does not need static analysis at all: it can be exhaustively tested. Something in the middle would be ideal.