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I'm trying to write a wrapper to use the gsl library with Fortran. I have managed to get a simple wrapper to work - the example from http://www.helsinki.fi/~fyl_tlpk/luento/ohj-13-GSL-e.html

Fortran code

program gsltest
    implicit none

    real(kind=selected_real_kind(12)) :: a = 0.11, res
    external :: glsgateway

    call gslgateway(a,res)
    write(*,*) 'x', a, 'atanh(x)', res

end program gsltest

c function

#include <gsl/gsl_math.h>

void gslgateway_(double *x, double *res){
   *res = gsl_atanh(*x);

That's all well and good. However, I'm having problems with a more complicated wrapper. I have the following code modified from an example at http://apwillis.staff.shef.ac.uk/aco/freesoftware.html

c wrapper (rng_initialise.c)

#include <gsl/gsl_rng.h>
#include <gsl/gsl_randist.h>

static gsl_rng* r;

void rng_initialise__(int* s) {
   r = gsl_rng_alloc(gsl_rng_taus); 
   gsl_rng_set(r, (unsigned long int)(*s)); 

Fortran main (main.f90)

    integer seed

    call system_clock(seed)
    WRITE (*,*) 'calling rng_initialise'
    call rng_initialise(seed)


which I then compile and link by

gcc -c rng_initialise.c
g95 -c main.f90
g95 -o main main.o rng_initialise.o -L/usr/libs -lgsl

When I run this program, I get no output. However, if I comment out the lines inside rng_initialise

void rng_initialise__(int* s) {
   // r = gsl_rng_alloc(gsl_rng_taus);  
   // gsl_rng_set(r, (unsigned long int)(*s)); 

then I get output from the Fortran code (it writes 'calling_rng_initialise' to STDOUT).

So, the problem seems to be the calls to gsl_rng_alloc and gsl_rng_set. But I don't get any error messages, and I don't know why they would prevent the Fortran code from doing anything. Any ideas?

share|improve this question
Have you tried lrz.de/services/software/mathematik/gsl/fortran ? –  janneb Sep 8 '11 at 13:06
Thanks for the suggestion. I've downloaded this interface but haven't tried using it yet. I'm hoping there's a more straightforward way to call the c function. If I can't fix my code, I'll try the interface. –  Ben L Sep 8 '11 at 14:23

2 Answers 2

up vote 1 down vote accepted

Most likely you have the linkage between the two routines wrong in some way. If the stack isn't dealt with correctly when you hop through that interface, dang near anything can happen.

I'm not noticing any code on either the Fortran side or the C side specifying the other's calling convention. I'm not an expert with Gnu Fortran, but I know most compilers will require some kind of note that they should be using another compiler's calling convention, or Bad Things may happen.

With just a little web searching, I see that the G95 Fortran manual (PDF) has a nice long section titled "Interfacing with G95 Programs", that appears to go into this in detail. Just from skimming, it looks like you should be using the BIND(C) attribute on your Fortran function declaration for that C routine.

share|improve this answer
Thanks, but from what I can tell, the BIND(C) attribute helps in referencing Fortran from c, whereas I want to call c from Fortran. –  Ben L Sep 8 '11 at 14:38
@Ben: No, the ISO_C_BINDING feature goes both ways, both for calling Fortran from C, and for calling C from Fortran. –  janneb Sep 8 '11 at 14:48
@Ben - To elaborate on what @janneb just said, an attribute on an actual subroutine (that has the Fortran code provided) would say "if someone (like perhaps an external C routine) calls this routine, assume it used the C parameter passing mechanisim". An attribute on an external subroutine declaration could only mean "when my Fortran code calls this routine, it needs to use the C calling convention". –  T.E.D. Sep 8 '11 at 22:23

As already suggested, the best way to do this is to use the Fortran ISO C Binding because it will instruct Fortran to use the C calling conventions to match the C routines of the GSL library. The ISO C Binding is part of the Fortran 2003 standard and has been available in many Fortran 95 compilers for several years. As part of the standard it makes interfacing Fortran and C, in both directions, portable and much easier than the OS and compiler dependent hacks that used to be necessary. I recommend ignoring instructions that pre-date the ISO C Binding as obsolete.

Generally you won't need to write any C wrapper code to call the GSL library, only Fortran specifications statements to describe the C routine interfaces to Fortran in Fortran syntax. Here is a simple example that calls the GSL routine gsl_cdf_chisq_Q

program cum_chisq_prob

   use iso_c_binding

   interface GSL_CummulativeChiSq_Prob_Upper   

      function gsl_cdf_chisq_Q  ( x, nu )  bind ( C, name="gsl_cdf_chisq_Q" )


         real (kind=c_double) :: gsl_cdf_chisq_Q

         real (kind=c_double), VALUE, intent (in) :: x
         real (kind=c_double), VALUE, intent (in) :: nu

      end function gsl_cdf_chisq_Q

   end interface GSL_CummulativeChiSq_Prob_Upper

   real (kind=c_double) :: chisq_value
   real (kind=c_double) :: DoF
   real (kind=c_double) :: Upper_Tail_Prob    

   write ( *, '( / "Calculates cumulative upper-tail probability for Chi-Square distribution." )' )
   write ( *, '( "Input Chisq Value, Degrees of Freedom: " )', advance='no' )
   read ( *, * ) chisq_value, DoF

   Upper_Tail_Prob = gsl_cdf_chisq_Q  ( chisq_value, DoF )

   write ( *, '( "Probability is:", 1PG17.10 )' )  Upper_Tail_Prob


end program cum_chisq_prob

Even easier: you can find a pre-written library to allow you to call GSL from Fortran at http://www.lrz.de/services/software/mathematik/gsl/fortran/

share|improve this answer
@ M.S.B.: Is it really necessary to define Upper_Tail_Prob as kind=c_double? The program executes fine with kind=8, but I'm not sure if I might run into problems under certain conditions. I'm asking since I read in that dummy variables have to be "interoperable". But I guess other variables don't have to have a c-type. –  PeMa Nov 1 '14 at 20:04
For many compilers, the kind values 8 and 'c_double` are the same. 8 is used for eight bytes. But you can't rely on the compiler programmers making this choice in assigning kind values; there are compilers that use different values, e.g., consecutive numbering of kinds. It is more portable to use the named value c_double. –  M. S. B. Nov 4 '14 at 0:19

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