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I'm interested in calling fortran codes in a Mathematica session. I learn that Mathlink offers a way to do that. But I have little knowledge on C and nothing on C++. Is anybody willing to give me a detailed example?

I'm using with Mathematica 8, MS Visual Studio 2008 and Intel Fortran 11. The system is Windows 7 Home Premium.

Many thanks!

share|improve this question
4  
groups.google.com/group/comp.soft-sys.math.mathematica/… might be interesting for you. – celtschk Nov 18 '11 at 17:11
    
@celtschk, that's a very interesting link. Thanks. – rcollyer Nov 18 '11 at 17:22
4  
This can also be useful. For MathLink you only need C, no C++ at all, and C is quite easy to learn. But for integrating it with Fortran, you may need to learn a bit about calling conventions, which is a little more advanced (unless you have some familiarity with machine internals) – Szabolcs Nov 18 '11 at 18:04
3  
Searching for c and fortran questions reveals this interesting answer regarding calling conventions for using fortran with c under gcc. – rcollyer Nov 18 '11 at 19:21
3  
The answer linked to by @rcollyer is actually more general. The Fortran ISO C Binding provides a way of calling Fortran from C, or vice-a-versa, that is part of the Fortran 2003 language standard and is therefore compiler and platform dependent. It is supported by numerous compilers in addition to gfortran & gcc. It bypasses the old issues of having to know internal calling conventions and name mangling. So if there is way to call C from Mathematica, you can call Fortran by using the ISO C Binding to cause the Fortran compiler to have your Fortran procedures use the C calling conventions. – M. S. B. Nov 18 '11 at 22:28
up vote 5 down vote accepted

The following is an explicit example which I succeeded using gfortan and gcc with the Windows system:

I found this blog Adventures in Mathlink. It is helpful with a specific example. I installed MinGW in order to use gfortran and gcc. After installation, one must set PATH in order to use gfortran and gcc without typing the path each time. A tip for adding PATH without restarting the system: After adding the PATH, open cmd, and run set PATH=C: Then close cmd, whenyou open it again, with echo %PATH%, you will see the new path list. I followed the steps in the linked blog, adapted to Windows, with the tutorial example addtwo:

The Mathematica codes writing a .bat file and running it to generate the executable

(* Write a .bat file to compile the MathLink template *.tm, FORTRAN codes *.f and 
C codes *.c files, and run it to create an executable file. *)
CreateExeF[s_String] := 
Module[{dir, libdir, bindir, BatCode, bat}, dir = NotebookDirectory[];
{libdir, bindir} = StringJoin[
  "\"", $InstallationDirectory, 
 "\\SystemFiles\\Links\\MathLink\\DeveloperKit\\Windows\\CompilerAdditions\\mldev32\\",
  #] & /@ {"lib\\", "bin\\"};
BatCode = StringJoin[
 "gfortran -c ", #, ".f -o ", #, "f.o
 gcc -c ", #, ".c -o ", #, ".o
 ",
 bindir, "mprep.exe\" ", #, ".tm -o ", #, "tm.c
 gcc -c ", #, "tm.c -o ", #, "tm.o
 gcc ", #, "tm.o ", #, ".o ", #, "f.o ",
 libdir, "ml32i3m.lib\" ", 
 "-lm -lpthread -mwindows -lstdc++ -o ", #
 ] &;
 (* write the .bat file *)
 bat = Export[FileNameJoin[{dir, # <> ".bat"}], BatCode[dir <> #], 
  "string"] &[s];
 (* run the .bat file *)
 Run[bat]]

FORTRAN codes addtwo.f

   subroutine addtwof(i,j,k)
   integer i, j, k
   k = i + j
   end

C wrapper addtwo.c

#include "mathlink.h"

int addtwo(int i, int j) 
{
  int res;
  addtwof_(&i, &j, &res);
  return res;
}

#if WINDOWS_MATHLINK

#if __BORLANDC__
#pragma argsused
#endif

int PASCAL WinMain( HINSTANCE hinstCurrent, HINSTANCE hinstPrevious, LPSTR lpszCmdLine,     int nCmdShow)
{
char  buff[512];
char FAR * buff_start = buff;
char FAR * argv[32];
char FAR * FAR * argv_end = argv + 32;

hinstPrevious = hinstPrevious; /* suppress warning */

if( !MLInitializeIcon( hinstCurrent, nCmdShow)) return 1;
MLScanString( argv, &argv_end, &lpszCmdLine, &buff_start);
return MLMain( (int)(argv_end - argv), argv);
}

#else

int main(int argc, char* argv[])
{
return MLMain(argc, argv);
}

#endif

The template file addtwo.tm is the same as the one in Todd Gayley's tutorial. For completeness, it is also given here:

:Begin:
:Function:       addtwo
:Pattern:        AddTwo[i_Integer, j_Integer]
:Arguments:      { i, j }
:ArgumentTypes:  { Integer, Integer }
:ReturnType:     Integer
:End:

:Evaluate:       AddTwo::usage = "AddTwo[i, j] gives the sum of two integer numbers i and j."
share|improve this answer
    
what is your motivation to use Fortran from within Mathematica? – Rolf Mertig Nov 23 '11 at 13:13
    
@Mertig, first many many thanks to your marvelous efforts devoted to FeynCalc! To be specific, I need to calculate some decay amplitudes which contain quite a few four-point loop integrals. Then I need to plot some invariant mass distributions, and Dalitz plots. With only Mathematica, this would be extremely slow. But I want Mathematica in this case because it provides me with nice graphics. Do you have better suggestions? – unstable Nov 23 '11 at 15:48
    
@Mertig , it would be even better if the expressions can be sent to FORTRAN (through C), and then results are returned back to Mathematica... Is it feasible? – unstable Nov 23 '11 at 15:54
    
Yes. It is possible, but involved. I experimented a bit with that some time ago. This is too complicated to continue here at Stackoverflow. Send me Email directly. – Rolf Mertig Nov 23 '11 at 17:50

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