Thanks @Steve_Lionel that's very helpful. Here's what I have now with a simple example, which appears to work, I can see the names passed in now: 

C prototype:

int SetupComponents(char** compnames, int numnames);

Fortran example that calls the above:

type (c_ptr), dimension(:), allocatable :: comps
character(len=10,kind=c_char), allocatable, target :: c1, c2, c3, c4

c1 = "methane" ; c2 = "ethane"; c3 = "propane"; c4 = "i-butane"

allocate (comps(4))
comps = [c_loc(c1), c_loc(c2), c_loc(c3), c_loc(c4)]
ok = SetupComponents(comps, 4)
deallocate (comps)

And the interface is:

function SetupComponents(compnames, numnames) result(ok) bind(C, name="SetupComponents")
use, intrinsic :: ISO_C_BINDING
type (c_ptr), dimension(*) :: compnames
integer(c_int), value :: numnames
integer(c_int) :: ok
end function SetupComponents

This seems to work. Is there anything on the Fortran side I should tweak to get null terminations right or any memory running over the ends? 

You should terminate your Fortran strings with NULL when passing to C function.

c1 = "methane"C ; c2 = "ethane"C; c3 = "propane"C; c4 = "i-butane"C

c1 = "methane"//char(0) ; c2 = "ethane"//char(0); c3 = "propane"//char(0); c4 = "i-butane"//char(0)

Jim Dempsey

Thanks Jim

If you want to stick to the standard, concatenate with C_NULL_CHAR instead of the extension "xxx"C.

The next revision of the standard will (probably) have a F_C_STRING function that returns a NUL-terminated copy of its argument, making this a bit cleaner. (It also will probably have a C_F_STRPOINTER subroutine to convert a NUL-terminated string to a CHARACTER, POINTER of the proper length.)

I think this has been a neat thread for illustrating some usage of C interoperability. Just a small point in that the final code example set my OCD nerves on edge so I had to make a more compact version that was more parametric:

    subroutine OCD()
        use, intrinsic :: iso_c_binding
        implicit none (external)
        integer            :: howmany, J
        integer, parameter :: nmlen = 40
        integer(c_int)     :: OK
        character(len=nmlen,kind=c_char), allocatable, target :: names(:)
        type (c_ptr), allocatable                             :: comps(:)
        names = [character(nmlen) :: "methane"//C_NULL_CHAR, "ethane"//C_NULL_CHAR, &
                                     "propane"//C_NULL_CHAR, "i-butane"//C_NULL_CHAR   ]
        howmany = size( names )
        allocate (comps( howmany) )
        do J = 1 , howmany
            comps(J) = c_loc( names(J) ) 
        enddo
        ok = SetupComponents(comps, howmany)
    end subroutine OCD

How about, in addition, we leave out the "//C_NULL_CHAR"-s in the initializations, and append "// C_NULL_CHAR" to the argument of  C_LOC?

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@mecej4 wrote:

How about, in addition, we leave out the "//C_NULL_CHAR"-s in the initializations, and append "// C_NULL_CHAR" to the argument of  C_LOC?

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You (and the compiler...) are off TARGET with that suggestion.

Thanks, Ian. What about:

    subroutine OCD()
        use, intrinsic :: iso_c_binding
        implicit none! (external)
        integer            :: howmany, J
        integer, parameter :: nmlen = 40
        integer(c_int)     :: OK
        character(len=nmlen,kind=c_char), allocatable, target :: names(:)
        type (c_ptr), allocatable                             :: comps(:)
        names = [character(nmlen) :: "methane", "ethane", &
                                     "propane", "i-butane"   ]
        howmany = size( names )
        allocate (comps( howmany))
        do J = 1 , howmany
            names(J) = trim(names(J)) // C_NULL_CHAR
            comps(J) = c_loc( names(J)) 
        enddo
        ok = SetupComponents(comps, howmany)
    end subroutine OCD

P.S. Modfied code to correct errors pointed out by GVautier below.

I'd like to mention the un-obvious here...

It is not clear as to if the C function called (with the char** argument) requires the char** list, and more importantly those strings being pointed to, remain persistent following the call. That being the case, you would not want Fortran to auto-deallocate the arguments. In this situation, consider making the arguments either module variables or attribute them with SAVE.

Jim Dempsey

Jim, that's a good point and I didn't explain that aspect. In this particular case, names is a temporary list of components selected from somewhere else in the Fortran world (our client's software). That list is handed to us through the C interface, where we take those names, look those components up in our database and configure our C++ calculation engine based on those components. After that we have the configuration and names is discarded. Said client also has a C# .NET application that we had to develop an API for that's similar to the Fortran. API development takes just as long as the core engineering.

Thanks to everyone else for their additional feedback, I went all over Google, Stackoverflow, etc trying to find out how to do this and couldn't find anything useful, before coming here. Many of the examples I found showed that there wasn't a clear understanding of how the interop worked let alone what to do.

Instead of:

names(J) = names(J) // C_NULL_CHAR

you should use:

names(J) = TRIM(names(J)) // C_NULL_CHAR

otherwise you're including any trailing blanks.

        do J = 1 , howmany
            cname = names(J) // C_NULL_CHAR
            comps(J) = c_loc( cname) 
        enddo

For me that doesn't work. All comps(J) will have the same address.

You are correct; I have corrected the code taking your comments into account.

It is probably best to make such changes when working on the full problem rather than on an isolated subroutine.