this is my first question so be nice to me.

I'm using f2py from numpy 1.6.1. I have a fortran module containing several subroutines which compile (and work) just fine. However, one of them uses the erf(x) function which is a GNU extension. It is not accurate enough for my purposes, so I am trying to use an external erf implementation.

I am trying to use one from Numerical Recipes in fortran 77 - where I have copied all the relevant functions into one file called 'erf.f' in the same folder as my module. I use include 'erf.f' at the top of my module file. The actual name of the erf function I changed to 'derf', so it doesn't clash with the gfortran erf extension.

However, when I try to compile via f2py, every function foo in the 'erf.f' is given the error

error: redefinition of ‘foo’ error: previous definition of ‘foo’ was here

When I look at the c file which is mentioned to contain the redefinition and the previous definition, it does seem that the function is there twice. I just don't know why?

Does anybody know how to fix this? Cheers.

EDIT: I failed to mention (as I thought it unnecessary extra info) that f2py is being used by the numpy distutils to create the extension. The reason I mention it now is that I find that I can create the extension fine with f2py -c my_module.f90 -m mod, but when running python setup.py install I get the error I detailed above. So what does f2py do differently when run through distutils?

EDIT #2: If I put all the contents of the external erf function file into the same file as my module, then everything works. I don't really want to do this because looking into the future I'm going to have a monstrosity of a file, but it'll work for now until I get an answer to this question.

  • 1
    Is there any chance you can reproduce the problem with two or three small files of five lines each? (Give or take..) – sarnold Jun 22 '12 at 0:48
  • @sarnold I quickly gave it a try but what I wrote compiles fine. Now I'm trying to find the difference between my big program and small one. – StevenMurray Jun 22 '12 at 1:16
  • Can you start by deleting content from the large one? – sarnold Jun 22 '12 at 1:23
  • @sarnold I could do this sort of, but it is apparent that the error is coming in when using f2py through numpy.distutils. To recreate that on a small scale will be a little more difficult.. – StevenMurray Jun 22 '12 at 2:09
  • What happens if you try to just compile the file that contains derf and link it with the rest of the project instead of including the source? Could be a problem in f2py when processing includes. – Hristo Iliev Jun 22 '12 at 7:21

One solution would be to create a module erf.f90 and import it in your main code using use erf (or whatever it's name is).

I have had some strange problems with f2py importing modules named with a .f extension, you might be able to get it to work simply by renaming erf.f to erf.f90 and specifying -ffixed-form when you compile with gfortran.


If you import the module using use, you do not need to also use include. include is basically including the actual code of erf.f in the source of your main code (although as you noticed, it doesn't behave exactly the same as typing erf.f directly into the main file), while use tells the compiler to look for a pre-compiled module.

I have found that use works well for me when working with modules and f2py. (my code is basically fixed form Fortran 90). Assuming a main file main.f, and a module subs.f90 (make sure there is module...end module in subs.f90, I would use the following sequence for compilation:

gfortran -ffixed-form -c subs.f90
f2py.py -c -m main -I/path/to/subs /path/to/subs/subs.f90 main.f

Note that you might need to specify other options to f2py depending on your system. For me, with MinGW on Windows, I need --compiler=mingw32, since f2py doesn't seem to be able to locate the C compiler otherwise.

  • I have tried this, as it seems the best way to do this, however I get the same errors. It's almost as if it is creating a definition of each subroutine upon inclusion, and another upon the use statement. I don't know if that makes sense though. – StevenMurray Jul 25 '12 at 1:11
  • @StevenMurray, would you be able to post the commands you are using to compile the code in your question? See also the clarification on use and include above. – astay13 Jul 25 '12 at 13:47
  • I am using numpy.distutils which uses f2py. However, I have found a solution. If I have code main.f90, and another module subs.f90 which is referenced by main.f90 but never used directly in my python script, then I add main.f90 as an extension in setup.py, but put subs.f90 as a depends file. In main.f90 I use both include and use. – StevenMurray Aug 1 '12 at 1:21
  • @StevenMurray, sorry I missed your note in the original question regarding numpy.distutils. I'm glad you were able to find a working solution. I would comment thought, that you shouldn't need to use both include and use in main.f90, and I suspect at least some of your errors are coming from that. – astay13 Aug 1 '12 at 15:20
  • thanks very much for your replies, they have been very helpful thus far. I also don't think I should need to use include. My current method is to separately compile the subs.f90 module like you say. This works fine. Then I install with distutils, but I'm not sure where to put the information relating to finding subs module. It could go in the list of files in the shared module,the list of 'depends' items, or the include directories. But I've tried these and most of them seem to install without errors but when I import the module, it throws 'symbol not found __mod_MOD_subs' – StevenMurray Aug 8 '12 at 7:11

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