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_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
Note that this function only works if the function call
.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.
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.