You say in a comment that you only use
[Edit: you've since said that you also use
pow and division, which introduce some extra ways to get NaN. For example if the parameter
x is a large negative value then
pow(e,-x) is infinity, so you can easily end up computing infinity/infinity, which is another NaN]
So, if you have IEEE floating-point then assuming this summary is correct, the only ways you can generate NaN are:
- Generate a positive or negative infinity by going out of range,
- Multiply it by zero.
- Generate a positive and a negative infinity,
- Add them (or equivalently, subtract two infinities of the same sign).
So if you check for and catch infinities, you don't have to worry about NaNs as well. That said, the usual way is to let such values propagate as quiet NaNs, and check at the end.
For C++ implementations using non-IEEE arithmetic, I'm not sure what the rules are when a NaN is permitted. I could look them up in the standard, but then again so could you ;-)