NaN signifies not a number, and since there are many, different, reasons a calculation could give that result, they generally do not compare as equal against themselves. If you want to do nan-testing, fortran compilers that support the f2003 standard (which is recent versions of most compilers) have `ieee_is_nan`

in the `ieee_arithmetic`

module:

```
program testnan
use ieee_arithmetic
real (kind=kind(0.d0)) :: x,y,z
x = sqrt(-1.d0)
y = sqrt(-1.d0)
z = 1.d0
if ( ieee_is_nan(x) ) then
write(*,*) 'X is NaN'
endif
if ( ieee_is_nan(y) ) then
write(*,*) 'Y is NaN'
endif
if ( ieee_is_nan(x) .and. ieee_is_nan(y) ) then
write(*,*) 'X and Y are NaN'
endif
if ( ieee_is_nan(z) ) then
write(*,*) 'Z is NaN, too'
else
write(*,*) 'Z is a number'
endif
end program testnan
```

Compiling and running this program gives

ifort -o nan nan.f90

```
X is NaN
Y is NaN
X and Y are NaN
Z is a number
```

Unfortunately, gfortran still doesn't implement `ieee_arithmetic`

as time of writing, so with gfortran you have to use the non-standard `isnan`

.

`if(outcome == sqrt(-1.d0) then etc.`

. Ok @Jonathan Dursi, I've read more or less the link you pass me (because is very long answer). The conclusion is to take care with those issues in Fortran. For Fortran 1.d0/0.d0 is equal to 2.d0/0.d0. I will test this in Matlab and see what it behaves. – JoeCoolman Jun 27 '13 at 22:49isequal to Inf, but NaNisn'tequal to NaN (there are exceptions for quiet NaNs) and there are very good reasons for why that is so. Those are all baked into IEE754, and just about any language or package will be the same. In Matlab you use isnan to check for NaNs (for exactly the reasons above). In modern fortran, you can`use ieee_arithmetic`

and use the intrinisic`IEEE_IS_NAN(X)`

to check for NaNs. – Jonathan Dursi Jun 28 '13 at 13:51