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I am no stranger to the python ctypes module, but this is my first attempt at combining C++, C and Python all in one code. My problem seems to be very similar to Seg fault when using ctypes with Python and C++, however I could not seem to solve the problem in the same way.

I have a simple C++ file called Header.cpp:

#include <iostream>

class Foo{
      int nbits;
      Foo(int nb){nbits = nb;}
      void bar(){ std::cout << nbits << std::endl; }

extern "C" {
   Foo *Foo_new(int nbits){ return new Foo(nbits); }
   void Foo_bar(Foo *foo){ foo->bar(); }

which I compile to a shared library using:

g++ -c Header.cpp -fPIC -o Header.o
g++ -shared -fPIC -o  Header.o

and a simple Python wrapper called

import ctypes as C
lib = C.CDLL('./')

class Foo(object):
    def __init__(self,nbits):
        self.nbits = C.c_int(nbits)
        self.obj = lib.Foo_new(self.nbits)

    def bar(self):

def main():
    f = Foo(32)

if __name__ == "__main__":

I would expect that when I call, I should get the number 32 printed to screen. However, all I get is a segmentation fault. If I change the constructor to return the class instance on the stack (i.e. without the new call) and then pass around the object, the program performs as expected. Also, if I change the bar method in the Foo class such that it does not use the nbits member, the program does not seg fault.

I have an limited understanding of C++, but the fact that I can make this function as expected in C and in C++ but not in Python is a little confusing. Any help would be greatly appreciated.

Update: Thanks to one of the comments below, the problem has been solved. In this case, an explicit declaration of both restype and argtypes for the C functions was required. i.e the following was added to the code:

lib.Foo_new.restype  = C.c_void_p;
lib.Foo_new.argtypes = [C.c_int32];
lib.Foo_bar.restype  = None;
lib.Foo_bar.argtypes = [C.c_void_p]; 
share|improve this question
Works for me. Also possible Erratum: I assume that you compiled Header.cpp with the -fPIC switch? –  udoprog Dec 6 '12 at 23:14
Works here, too. Please provide a gdb backtrace of the segfault. –  Bas Wijnen Dec 6 '12 at 23:17
Works for me too. You are passing around the pointer to Foo as C int, which might fail. Try to specify the function argtypes and restype, e.g. lib.Foo_new.restype = C.c_void_p;lib.Foo_new.argtypes = [C.c_int32];lib.Foo_bar.restype = None;lib.Foo_bar.argtypes = [C.c_void_p] –  cgohlke Dec 7 '12 at 1:02
@cgohlke: Hit the nail on the head there, problem solved. Thanks. –  ebarr Dec 7 '12 at 10:16
Normally passing ints and pointers doesn't need the types declared, but it may be related to passing a c_int(32) to Foo_new instead of just a Python integer. –  Mark Tolonen Dec 7 '12 at 17:33

1 Answer 1

I would try the following:

extern "C"
    Foo *Foo_new(int nbits)
        Foo *foo = new Foo(nbits);
        printf("Foo_new(%d) => foo=%p\n", nbits, foo);
        return foo;
    void Foo_bar(Foo *foo)
        printf("Foo_bar => foo=%p\n", foo);

to see if the values of foo match.

Also, you might want to look at Boost.Python to simplify creating Python bindings of C++ objects.

share|improve this answer
In this case the amount of code to be wrapped is very small, therefore I think using Boost.Python would be overkill and add unnecessary dependencies. –  ebarr Dec 7 '12 at 10:21

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