So I have a few Python C extensions I have previously built for and used in 32 bit Python running in Win7. I have now however switched to 64 bit Python, and I am having issues building the C extension with MinGW-w64.

I made the changes to distutils as per this post, but I am getting some weird errors suggesting something is wrong:

$ python setup.py build
running build
running build_ext
building 'MyLib' extension
c:\MinGW64\bin\x86_64-w64-mingw32-gcc.exe -mdll -O -Wall -Ic:\Python27\lib\site-packages\numpy\core\include -Ic:\Python27\include -Ic:\Python27\PC -c MyLib.c -o build\temp.win-amd64-2.7\Release\mylib.o
MyLib.c: In function 'initMyLib':
MyLib.c:631:5: warning: implicit declaration of function 'Py_InitModule4_64' [-Wimplicit-function-declaration]
writing build\temp.win-amd64-2.7\Release\MyLib.def
c:\MinGW64\bin\x86_64-w64-mingw32-gcc.exe -shared -s build\temp.win-amd64-2.7\Release\mylib.o build\temp.win-amd64-2.7\Release\MyLib.def -Lc:\Python27\libs -Lc:\Python27\PCbuild\amd64 -lpython27 -o build\lib.win-amd64-2.7\MyLib.pyd
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x13d): undefined reference to `__imp_PyExc_ValueError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1275): undefined reference to `__imp_PyExc_ValueError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1eef): undefined reference to `__imp_PyExc_ImportError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1f38): undefined reference to `__imp_PyExc_AttributeError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1f4d): undefined reference to `__imp_PyCObject_Type'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1f61): undefined reference to `__imp_PyExc_RuntimeError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1fc7): undefined reference to `__imp_PyExc_RuntimeError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x1ffe): undefined reference to `__imp_PyExc_RuntimeError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x2042): undefined reference to `__imp_PyExc_RuntimeError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x206c): undefined reference to `__imp_PyExc_RuntimeError'
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x208a): more undefined references to `__imp_PyExc_RuntimeError' follow
build\temp.win-amd64-2.7\Release\mylib.o:MyLib.c:(.text+0x20a7): undefined reference to `__imp_PyExc_ImportError'
collect2.exe: error: ld returned 1 exit status
error: command 'x86_64-w64-mingw32-gcc' failed with exit status 1

I have googled around quite a bit to find information, but it's not easy to find a definite answer. Could someone shed some light on this? What further changes should I do to be able to successfully build C extensions for 64 bit Python in Win7?


After some helpful pointers in cgohlke's comments below I managed to generate libpython27.a. However after following the advice on this post (2nd to last) I still had a the __imp_Py_InitModule4_64 error. After some serious Google-fu I managed to trip over this post telling me to rename the Py_InitModule4 line to Py_InitModule4_64. After that everything worked swimmingly.

  • 13
    You need to create libpython27.a with gendef.exe python27.dll and dlltool.exe --dllname python27.dll --def python27.def --output-lib libpython27.a and place it in C:\Python27\libs
    – cgohlke
    Commented Jun 25, 2012 at 4:41
  • I saw some posts mentioning gendef. But it's not easy finding information on how to go about generation the libpython27.a file. Would you happen to know of any? Commented Jun 25, 2012 at 5:04
  • Oh ok, gendef and dlltool are two different commands. Will try. Thanks. Commented Jun 25, 2012 at 5:10
  • Ok it compiled all right, but when I try to import the module i get Traceback (most recent call last): File "<stdin>", line 1, in <module> ImportError: DLL load failed: The specified procedure could not be found. I think somewhere I must be missing a file. The only thing I did with the gendef stuff was to put libpython27.a in C:\Python27\libs. Did I miss something? Commented Jun 25, 2012 at 5:50
  • So i went through all the steps as per this post (2nd from bottom). But now it won't compile, and i get this build\temp.win-amd64-2.7\Release\cquant.o:cQuant.c:(.text+0x1f09): undefined reference to __imp_Py_InitModule4_64' collect2.exe: error: ld returned 1 exit status` Commented Jun 25, 2012 at 6:47

5 Answers 5


This worked for me with Python 3.3 :

  1. create static python lib from dll

    python dll is usually in C:/Windows/System32; in msys shell:

    gendef.exe python33.dll
    dlltool.exe --dllname python33.dll --def python33.def --output-lib libpython33.a
    mv libpython33.a C:/Python33/libs
  2. use swig to generate wrappers

    e.g., swig -c++ -python myExtension.i

  3. wrapper MUST be compiled with MS_WIN64, or your computer will crash when you import the class in Python

    g++ -c myExtension.cpp -I/other/includes
    g++ -DMS_WIN64 -c myExtension_wrap.cxx -IC:/Python33/include
  4. shared library

    g++ -shared -o _myExtension.pyd myExtension.o myExtension_wrap.o -lPython33 -lOtherSharedLibs -LC:/Python33/libs -LC:/path/to/other/shared/libs
  5. make sure all shared libs (gdal, OtherSharedLibs) are in your PATH (windows does not use LD_LIBRARY_PATH or PYTHONPATH)

  6. in Python, just: import myExtension



I realize this is an old question, but it is still the top search result. Today, in 2019, I was able to do this:


In short:

  1. Make sure a 64-bit version of mingw-w64 is in the PATH.
  2. Monkey-patch distutils:
    import distutils.cygwinccompiler
    distutils.cygwinccompiler.get_msvcr = lambda: []
  3. Some differences in the shell w.r.t. escaping.

  4. extra_link_args = ["-Wl,-Bstatic", "-lpthread"] in order to link statically and not have extra runtime deps.

  5. pipenv run python setup.py build -c mingw32 now works.

  • Thanks, yes it has been working nicely for me for a while now. We should probably try to get something more permanent checked into distutils....
    – Petter
    Commented Sep 24, 2019 at 10:11

Here is a example code for VC++ Build Tools https://github.com/starnight/python-c-extension/tree/master/00-HelloWorld

You could try:

python setup.py -c mingw32

However this is not work for me.

My Solution is:

  1. install Anaconda 64bit python 3.6

  2. install mingw64

  3. add mingw64/bin to PATH
  4. compile dll from c file by

    gcc -c libmypy.c -IC:\Users\{user_name}\Anaconda3\pkgs\python-3.6.4-h6538335_1\include  
    gcc -shared -o libmypy.dll libmypy.o  -LC:\Users\{user_name}\Anaconda3\pkgs\python-3.6.4-h6538335_1\libs -lPython36
  5. load dll file in .py script

    from ctypes import *  
    m = cdll.LoadLibrary(r"C:\{path_to_dll}\libmypy.dll")  

I created a monkey-patch for setuptools to let you to build_ext with mingw64 on Windows easily. See https://github.com/imba-tjd/mingw64ccompiler


I used this thread to wade through learning how to make a C extension, and since most of what I learned is in it, I thought I'd put the final discovery here too, so that someone else can find it if they are looking.

I wasn't trying to compile something big, just the example in Hetland's Beginning Python. Here is what I did (the example C pgm is called palindrome.c). I'm using Anaconda with python 3.7 in it, and the TDM-GCC version of MinGW64. I put all of the tools used into my Path, and all of the paths needed in PYTHONPATH, and the ..\Anaconda3 directory into PYTHON_HOME. I still ended up using explicit paths on some things.

I created the libpython37.a library with gendef.exe and dlltool.exe as Mark said above, and put it in ..\Anaconda3\libs.

I followed the prescription in Hetland:

gcc -c palindrome.c

gcc -I$PYTHON_HOME -I$PYTHON_HOME/Include -c palindrome_wrap.c

The second failed, the compiler couldn't find Python.h, the following worked:

gcc -I[somedirectories]\Anaconda3\Include -c palindrome_wrap.c

I then did, as many have said, including Hetland 3rd ed.,

gcc -shared palindrome.o palindrome_wrap.o [somedirectories]/Anaconda3/libs/libpython37.a -o _palindrome.dll

This did not work. Even with the Load Library cswu used (which I found elsewhere, too).

So I gendef'd _palindrome.dll and couldn't find the function in it, "is_palindrome" in the exports. I went through some of the SWIG documentation, and declared the function both in the %{ %} section and below it, both extern, that finally got the function extern'd in palindrome_wrap.c as it should have been. But no export, so I went back into palindrome.c and redeclared the function as:

declspec(dllexport) extern int __stdcall is_palindrome(char* text)

and redeclared it in palindrome.i in both places as above with this signature.

Partial success! It got listed in the Export section when I gendef'd _palindrome.dll and I could do cswu's call using Load Library. But still not do what Hetland says and do

import _palindrome

in Python.

Going back to all the sources again, I could not figure this out. I finally started reading the SWIG documentation from the beginning leaving no stone unturned -- Searching through the manual doesn't produce the place found.

At the end of Introduction Sec. 2.7 Incorporating Into a Build System, under the sample Make process, it says:

"The above example will generate native build files such as makefiles, nmake files and Visual Studio projects which will invoke SWIG and compile the generated C++ files into _example.so (UNIX) or _example.pyd (Windows). For other target languages on Windows a dll, instead of a .pyd file, is usually generated."

And that's the answer to the last problem:

The compile step for the dll should read:

gcc -shared palindrome.o palindrome_wrap.o [somedirectories]/Anaconda3/libs/libpython37.a -o _palindrome.pyd

(I didn't go back and change out my declspec declarations so I don't know whether they were necessary, so they were still there too).

I got a file, _palindrome.pyd

Which if in the PYTHONPATH (mine was local) works, and one can then do

import _palindrome

from _palindrome import is_palindrome

and use the exported, properly wrapped and packaged C function, compiled with TDM-GCC, in python as promised. gcc, which is MinGW64 in a different installation, knows how to do the .pyd file. I diffed the dll and pyd since they were the same byte length. They are not the same at hundreds of points.

Hope this helps someone else.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.