The Fortran 2003 standard defines an intrinsic module `ieee_arithmetic`

which contains, *inter alia*, the definitions of a derived type called `ieee_class_type`

. The same module also defines a bunch of named constants of that type, the name of one of those named constants is `ieee_quiet_nan`

.

`ieee_arithmetic`

also defines a function `ieee_value`

which takes 2 arguments; the first of these (call it `x`

) is a real, and the second (called `class`

) takes a value of type `ieee_class_type`

such as `ieee_quiet_nan`

so the function call `ieee_value(x,ieee_quiet_nan)`

will return an IEEE quiet NaN of the same type and kind as `x`

.

Note that this function only works if the function call `ieee_support_nan(x)`

returns `.true.`

. Fortran processors are not required to support all features of IEEE arithmetic and for portability it's always best to check first for the feature(s) you want to use.

I guess, therefore, that if your Fortran and C++ programs are sharing memory, a Fortran statement such as

`y = ieee_value(x,ieee_quiet_nan)`

will put bits into the location specified by the name `y`

which your C++ program will understand to be a quiet NaN.

**EDIT**

If, as Vladimir F tells us, Salford's Fortran lacks `ieee_arithmetic`

I suppose you'll have to fall back on Fortran's bit-twiddling facilities. Declare an integer variable with the number of bits you want in C++, find out what the valid bit patterns are for a quiet NaN, then it should be plane sailing.