You can test if your implementation has it:

```
#include <math.h>
#ifdef NAN
/* NAN is supported */
#endif
#ifdef INFINITY
/* INFINITY is supported */
#endif
```

The existence of `INFINITY`

is guaranteed by C99 (or the latest draft at least), and "expands to a constant expression of type float representing positive or unsigned
infinity, if available; else to a positive constant of type float that overflows at translation time."

`NAN`

may or may not be defined, and "is defined if and only if the implementation supports quiet NaNs for the float type. It expands to a constant expression of type float representing a quiet NaN."

Note that if you're comparing floating point values, and do:

```
a = NAN;
```

even then,

```
a == NAN;
```

is false. One way to check for NaN would be:

```
#include <math.h>
if (isnan(a)) { ... }
```

You can also do: `a != a`

to test if `a`

is NaN.

There is also `isfinite()`

, `isinf()`

, `isnormal()`

, and `signbit()`

macros in `math.h`

in C99.

C99 also has `nan`

functions:

```
#include <math.h>
double nan(const char *tagp);
float nanf(const char *tagp);
long double nanl(ocnst char *tagp);
```

(Reference: n1256).