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I have C++ code in file test-Q.cpp that calls a Fortran subroutine in file getqpf.F. In file test-Q.cpp, I've declared the Fortran code as external, and I am calling the function using the getqpf_() name-mangling convention. The gcc and gfortran compilers are being used on GNU/Linux.

Here is a snippet from the top of the C++ file:

extern "C" {
            void  getqpf_  (double *tri, 
                    int nsamp, 
                    int lwin,
                    int nfreqfit, 
                    double dt, 
                    float null, 
                    int L2,
                    double df,
                    double *qq, 
                    double *pf, 
                    double *ampls, 
                    double *work1, 
                    double *work2, 
                    double *work3, 
                    double *work4,
                    int mem, 
                    int morder, 
                    int nfs, 
                    double *xReal, 
                    double *xImag, 
                    double *xAbs,
                    double *x1,
                    int cen,
                    int top,
                    int bot, 
                    float cut,
                    int nfst,
                    int raw);  

        } // end

Here is a corresponding snippet from the Fortran file:

   subroutine getqpf (tri, nsamp, lwin, nfreqfit, dt, null, L2, df,
     1                   qq, pf, ampls, work1, work2, work3, work4,
     2                   mem, morder, nfs, xReal, xImag, xAbs, x1,
     3                   cen,top,bot, cut,nfst,raw)



      integer  morder, lwin, nsamp, nfreqfit, delay, nfs

      real     tri(*)
      real     qq(*), pf(*), ampls(*)

      real * 8 work1(*), work2(*), work3(*), work4(*)
      real * 8 xReal(*), xImag(*), xabs(*), x1(*)

      real * 8 dt8, cut8, df8
      real     null, cut
      integer  nfst
      logical  mem, L2, cen, top, bot, raw


      integer nf

C program logic code starts here
          nf = nfreqfit
          delay = 0
          dt8  = dt
          cut8 = cut

The Fortran code calls other C-code functions. On GNU/Linux using the gfortran and gcc compilers I've compiled and linked all of the files in the following manner:

 g++ -c test-Q.cpp -I./boost/boost_1_52_0/ -g
 gcc -c paul2.c -g
 gcc -c paul2_L1.c -g
 gcc -c paul6.c -g
 gcc -c paul6_L1.c -g 
 gcc -c fit_slope.c -g
 gfortran -c getqpf.F -g
 g++ -o test-Q test-Q.o paul2.o paul2_L1.o paul6.o paul6_L1.o fit_slope.o getqpf.o -g

Although I am able to build the binary successfully, there is a segfault that occurs at the line nf = nfreqfit. This is situated at the very top of the Fortran file. Running gdb on the binary produces the following output:

Program received signal SIGSEGV, Segmentation fault.
0x0000000000406fd3 in getqpf (tri=..., nsamp=Cannot access memory at address 0x3e9
) at getqpf.F:44
44        nf = nfreqfit

What is happening here, and why is there a segfault? It appears that memory is not being properly passed between the C++ code and the Fortran code.

UPDATE

As IanH mentions in the answer below, the problem is due to not passing arguments by reference. Using C++, the function must be declared as:

 extern"C" {
            void  getqpf_  (float *tri, 
                    int &nsamp, 
                    int &lwin,
                    int &nfreqfit, 
                    float &dt, 
                    float &null, 
                    int &L2,
                    float &df,
                    float *qq, 
                    float *pf, 
                    float *ampls, 
                    double *work1, 
                    double *work2, 
                    double *work3, 
                    double *work4,
                    int &mem, 
                    int &morder, 
                    int &nfs, 
                    double *xReal, 
                    double *xImag, 
                    double *xAbs,
                    double *x1,
                    int &cen,
                    int &top,
                    int &bot, 
                    float &cut,
                    int &nfst,
                    int &raw);  

        } // end 

Note the presence of the ampersands. Then, the function can be called in the code as:

getqpf_ (tri,       
    nsamp, 
    lwin,
    nfreqfit, 
    dt, 
    null, 
    L2,
    df,
    qq, 
    pf, 
    ampls, 
    work1, 
    work2, 
    work3, 
    work4,
    mem, 
    morder, 
    nfs, 
    xReal, 
    xImag, 
    xAbs,
    x1,
    cen,
    top,
    bot, 
    cut,
    nfst,
    raw); 

Note that variables such as nsamp are declared as int nsamp = 1001.

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2 Answers

up vote 2 down vote accepted

While seconding M.S.B.'s recommendation about using F2003's C interoperability, note that your specific issue is a pass by reference/pass by value mismatch (which is still something that you have to consider even when using C interoperability). Typical Fortran implementations pass all arguments by reference, while in C(++) the default is by value. On the C++ side, note that all of the int and float arguments and some of the double arguments lack the pointer specifier (*). These arguments are passed by value - but there is nothing on the Fortran side to indicate that. Before F2003 this was usually done using compiler specific directives in the Fortran code.

Using F2003's C interop, the default passing convention for arguments to procedures with the BIND(C) attribute is by reference. Arguments that are passed by value need to have the VALUE attribute in their declaration.

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Thanks, IanH! I think this is probably where things are going wrong. What do I need to change in my code to ensure that the crash does not occur? When I declare the function in my extern "C" braces, do all of the arguments have to be a pointer? So how do I call the function? –  Nicholas Kinar Nov 16 '12 at 21:30
    
Thanks, Ian; passing by reference worked well here. –  Nicholas Kinar Nov 17 '12 at 1:46
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I recommend using the Fortran ISO C Binding. There are examples here on Stackoverflow and in the gfortran manual. It is part of the Fortran 2003 language standard and before that a Technical Report for Fortran 95. That makes it compiler and platform portable. You don't have to worry about compiler specific calling conventions or name mangling.

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Thanks, M.S.B. Does the binding take care of memory-passing issues as well, or is this simply a way to ensure that the subroutine is being called in the proper fashion? –  Nicholas Kinar Nov 16 '12 at 17:53
    
I'm also looking for a rather cleancut and to the point example of how to use the Fortran ISO binding. How might I modify the code above? I don't know if I've managed to find a code snippet example similar to the one that I've posted above. –  Nicholas Kinar Nov 16 '12 at 18:54
    
If you use the right description of the C routine in Fortran with the ISO C Binding, it causes the Fortran compiler to use calling conventions compatible with the C compiler. The two work together. See the Chapters "Mixed Language Programming" and "Intrinsic Modules", section ISO C Binding of the gfortran manual. –  M. S. B. Nov 16 '12 at 19:20
    
Thanks, M. S. B. –  Nicholas Kinar Nov 16 '12 at 19:36
    
Here is a stackoverflow example: stackoverflow.com/questions/8207997/… –  M. S. B. Nov 16 '12 at 21:53
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