Been playing with cython. Normally program in Python, but used C in a previous life. I can't figure out how to make a free-standing executable.

I've downloaded cython, and I can make a .pyx file (that's just a normal Python file with a .pyx extension), that executes in the Python shell, using: import pyximport; pyximport.install()

I can generate a .c file at the command line with: cython file.pyx I can generate a .so file by building a standard setup.py and executing:

setup.py build_ext --inplace

I've tried making an executable out of the .so file using gcc with various options, but always have tons of missing files, headers, etc. Have tried pointing to headers from virtually everywhere, but with no success, and am not really familiar with what all the gcc options do, or even if I should be using gcc.

I've having a disconnect here with the fact that I can run my program in the Python shell, but not at the command line, (I don't want users to have to get into the shell, import modules, etc).

What am I missing here?

  • cython myfile.pyx (without options) generates a .c file. When I use the --embed option it generates a .c file that's a couple 100 lines larger. Diff'ing them shows that a bunch of ifdef's were added. I'm still left with the problem: How do I use this .so? I can't seem to get the right combination of compiler options. Reading through the cython documentation for numpy, one way is to make a wrapper python program that imports the .so. I'm surprised that when I hide the .c and .pyx file and then say: import NameOfMyFile with no extensions, it seems to select the .so file. – Paul Nelson Mar 19 '14 at 18:35
  • Possible duplicate of Compile main Python program using Cython – ostrokach Dec 2 '16 at 19:09

What you want is the --embed flag for the Cython compiler. There isn't a ton of documentation on it, but this is what I was able to find. It does link to a simple working example.

To compile the Cython source code to a C file that can then be compiled to an executable you use a command like cython myfile.pyx --embed and then compile with whichever C compiler you are using.

When you compile the C source code, you will still need to include the directory with the Python headers and link to the corresponding Python shared library on your system (a file named something like libpython27.so or libpython27.a if you are using Python 2.7).

Edit: Here are some more instructions on how to get the commands for including the proper headers and linking against the proper libraries.

As I said earlier, you need to run the Cython compiler like this:

cython <cython_file> --embed

To compile using gcc, you will need to find where the python headers are on your system (you can get this location by running distutils.sysconfig.get_python_inc() (you'll have to import it first). It is probably just the /include subdirectory in your Python installation directory.

You will also have to find the python shared library. For Python 2.7 it would be libpython27.a on Windows or libpython2.7.so on Linux.

Your gcc command will then be

gcc <C_file_from_cython> -I<include_directory> -L<directory_containing_libpython> -l<name_of_libpython_without_lib_on_the_front> -o <output_file_name>

It may be wise to include the -fPIC flag. On Windows 64 bit machines you will also have to include the flags -D MS_WIN64 that tells mingw to compile for 64 bit windows.

If you are compiling something that depends on NumPy, you will also need to include the directory containing the NumPy headers. You can find this folder by running numpy.get_include() (again, after importing numpy). Your gcc command then becomes

gcc <C_file_from_cython> -I<include_directory> -I<numpy_include_directory> -L<directory_containing_libpython> -l<name_of_libpython_without_lib_on_the_front> -o <output_file_name>

This gcc command option guide may be helpful.

Also, I would recommend you use Cython memory views if possible. That will make it so that you won't have to include the NumPy headers and include the NumPy pxd file in your Cython file. It also makes slicing operations easier for the C compiler to optimize.

  • 2
    Unfortunately this does not work for windows – Tetora Oct 30 '17 at 7:13
  • 1
    @HaydenDarcy I originally tested this with MinGW, though MinGW isn't compatible with recent Python releases and even for older versions libpython.a may need separate installation. A similar approach ought to work fine for MSVC. You'll have to change to MSVC style flags and link to libpython.dll instead of libpython.a or libpython.so. The main idea is that Cython can generate code for a standalone executable, but when you compile the generated file you have to include the Python headers and link against the Python runtime (and make sure both can be found in the paths searched by the compiler). – IanH Oct 30 '17 at 20:37
  • 1
    Don't forget to add Chrome driver changes as it won't work on another pc as well as other issues (as I found out). It can work though it's not as simple as I imagined. Alternatively, distribute Winpython barebones + python jobs. Add cython if you want security. As people will find out, trying to get python to run without python is understandably complex and bug prone – Tetora Oct 31 '17 at 1:06
  • 1
    Pyinstaller works quite well so long as you provide correct pathing for chrome driver. However the issues arise when combining pyinstaller + Cython. See: stackoverflow.com/questions/47026649/… . The file is unbelievably massive. Winpython + standard python files could also work. I am yet to see a working standalone cython or nuitka solution, though both appear to be buggy to get working by there selves – Tetora Oct 31 '17 at 1:35
  • 1
    Right, one way or another you end up having to rely on the interpreter and corresponding runtime. Redistributing those makes files large. Even static compilation approaches rely on the interpreter and focus on compiling extensions rather than doing some sort of source-to-source transformation. That kind of thing isn't possible for arbitrary user code because of all the dynamic features in Python. If a given executable can have arbitrary Python semantics embedded in it, it's already implementing some kind of interpreter. There's no way around that for arbitrary user code. – IanH Oct 31 '17 at 14:57

Tested this on Ubuntu:

Install Cython using the following (Python 2):

sudo apt-get install cython

For Python 3:

sudo apt-get install cython3

To compile the Python code into a C code run (change cython to cython3 for Python 3):

cython --embed -o example.c example.py

This will generate the example.c file.

Now compile the example.c file:

gcc -Os -I /usr/include/python2.7 example.c -lpython2.7 -o example

Run the file:


Now for Python 3, something like this will work (not tested):

gcc -Os -I /usr/include/python3.6 example.c -lpython3.6 -o example

where python3.x is the version of Python installed on your machine.

  • And this load all the imports and modules that where made with cython right? – btc4cash Sep 7 '18 at 17:55
  • 1
    If you mean the Python imports and modules, yes. – Rafael Sep 8 '18 at 11:31
  • How can I generate standalone file from multiple .py files? I have multiple python files and I want to compile them all into single package using cython. – Noman Dilawar Apr 12 at 6:15
  • Did you tried compiling the main file that imports all the others? – Rafael Apr 12 at 9:34

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