As *Marius* has already pointed out, the `isfinite`

from `amp_math.h`

is to be used in C++ AMP, which is an *MS* extension for parallel computing on many-core architectures similar to CUDA or OpenCL. And since this function can only be used in actual AMP restricted functions (usually GPU kernels) it won't be of much general use for you.

Unfortunately *VS 2012* doesn't support the C++11 math and floating point control functions. But once you recognize that you are on *VC* and implement special code for it, you can just use `_finite`

(or rather `!_finite`

) from `<float.h>`

, which is an *MS*-secific function supported since at least *VS 2003*. But keep in mind that `_finite`

only takes `double`

s and thus converts any non-`double`

arguments (though *VC* doesn't seem to have a proper `long double`

anyway), with all its implications (while `INF`

s and quiet `NaN`

s should be converted without problem, I'm not sure if the trapping on a signalling `NaN`

in the conversion would also have resulted from a direct call to `std::finite`

).

*VC*'s standard library has other such functions to accomodate for their lack of C++11/C99 support (like `_isnan`

and the like). (Why they refuse to just remove that underscore in front of those functions and put a simple `<cfenv>`

wrapper around `_controlfp`

and thus get a bit nearer to complete C++11 support is a totally different question though.)

**EDIT:** Other than that, the straight-forward approach for checking `INF`

s and `NaN`

s might also work:

```
template<typename T> bool isfinite(T arg)
{
return arg == arg &&
arg != std::numeric_limits<T>::infinity() &&
arg != -std::numeric_limits<T>::infinity();
}
```

But of course with the same implications of probably trapping for signalling `NaN`

s (though I have to admit I'm not that well-versed in the intricacies of signalling `NaN`

s and floating point exceptions in general).