Using scientific notation for floating point literals is easy enough in Fortran:
1.5d-10
would mean a double precision (whatever that means under current Fortran compiler settings) floating point value that approximates 1.5*10^-15.
However, the fusion of the exponent notation and the floating point kind specifier is a bit of an issue. How would one declare this floating point literal when one wants it to have a type of C_DOUBLE?
I know that this is a bit of a nitpicking issue, but there can be circumstances when double precision will not be the same as C_DOUBLE.
A real literal may be specified by any of the following forms:
1.21.2e01.2d01.2_kind1.2e0_kind
This final one is an example of using a kind specifier and an exponent. So, specific to the question: 1.5e-15_C_DOUBLE.
There certainly can be cases where 1.5d-15 is not the same as 1.5e-15_C_DOUBLE. The kind of a double precision and real(C_DOUBLE) are choices by the Fortran and companion C compilers respectively.
Compilers which allow single and double precision literal constants to be promoted to higher kinds by a compiler flag won't touch real(C_DOUBLE).
来源:https://stackoverflow.com/questions/49956241/using-scientific-notation-and-underscore-kind-specifier-at-the-same-time-for-rea