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I'm just getting started with ctypes and would like to use a C++ class that I have exported in a dll file from within python using ctypes. So lets say my C++ code looks something like this:

class MyClass {
    int test();

I would know create a .dll file that contains this class and then load the .dll file in python using ctypes. Now how would I create an Object of type MyClass and call its test function? Is that even possible with ctypes? Alternatively I would consider using SWIG or Boost.Python but ctypes seems like the easiest option for small projects.

Any help is appreciated,


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4 Answers 4

up vote 20 down vote accepted

The short story is that there is no standard binary interface for C++ in the way that there is for C. Different compilers output different binaries for the same C++ dynamic libraries, due to name mangling and different ways to handle the stack between library function calls.

So, unfortunately, there really isn't a portable way to access C++ libraries in general. But, for one compiler at a time, it's no problem.

This blog post also has a short overview of why this currently won't work. Maybe after C++0x comes out, we'll have a standard ABI for C++? Until then, you're probably not going to have any way to access C++ classes through Python's ctypes.

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Besides Boost.Python(which is probably a more friendly solution for larger projects that require one-to-one mapping of C++ classes to python classes), you could provide on the C++ side a C interface. It's one solution of many so it has its own trade offs, but I will present it for the benefit of those who aren't familiar with the technique. For full disclosure, with this approach one wouldn't be interfacing C++ to python, but C++ to C to Python. Below I included an example that meets your requirements to show you the general idea of the extern "c" facility of C++ compilers.

//YourFile.cpp (compiled into a .dll or .so file)
#include <new> //For std::nothrow
//Either include a header defining your class, or define it here. 

extern "C"  //Tells the compile to use C-linkage for the next scope.
    //Note: The interface this linkage region needs to use C only.  
    void * CreateInstanceOfClass( void )
        // Note: Inside the function body, I can use C++. 
        return new(std::nothrow) MyClass;

    //Thanks Chris. 
    void DeleteInstanceOfClass (void *ptr)
         delete(std::nothrow) ptr; 

    int CallMemberTest(void *ptr)

        // Note: A downside here is the lack of type safety. 
        // You could always internally(in the C++ library) save a reference to all 
        // pointers created of type MyClass and verify it is an element in that
        // Per comments with Andre, we should avoid throwing exceptions.  
            MyClass * ref = reinterpret_cast<MyClass *>(ptr);
            return ref->Test();
           return -1; //assuming -1 is an error condition. 

} //End C linkage scope.

You can compile this code with

gcc -shared -o test.so test.cpp
#creates test.so in your current working directory.

In your python code you could do something like this (interactive prompt from 2.7 shown):

>>> from ctypes import cdll
>>> stdc=cdll.LoadLibrary("libc.so.6") # or similar to load c library
>>> stdcpp=cdll.LoadLibrary("libstdc++.so.6") # or similar to load c++ library
>>> myLib=cdll.LoadLibrary("/path/to/test.so")
>>> spam = myLib.CreateInstanceOfClass()
>>> spam
[outputs the pointer address of the element]
>>> value=CallMemberTest(spam)
[does whatever Test does to the spam reference of the object] 

I'm sure Boost.Python does something similar under the hood, but perhaps understanding the lower levels concepts is helpful. I would be more excited about this method if you were attempting to access functionality of a C++ library and a one-to-one mapping was not required.

For more information on C/C++ interaction check out this page from Sun: http://dsc.sun.com/solaris/articles/mixing.html#cpp_from_c

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Indeed, this is a little tedious, but it works. You'll specifically want to watch out for exceptions though. I don't think it's safe to assume the ctypes module handles C functions that throw exceptions very well. In particular, the return new MyClass; statement is very dangerous since it can raise std::bad_alloc. –  André Caron Aug 15 '11 at 2:09
Please do add a DestroyInstanceOfClass() function as well. –  Chris Lutz Aug 15 '11 at 2:13
That's a very good point. I will edit the example to use no throw variant. One other trick would be to catch all exceptions in a try block in the C++ body of the function. –  AudaAero Aug 15 '11 at 2:13
Here is, I guess, simpler example of the same thing, extern wrapping C++ class into C functions. (which also makes reference to this stackoverflow question on the matter) –  xealits Apr 8 at 18:32
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I found this very interesting: Calling C++ from Haskell - "The Hard Way"

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This is a short explanation on how to use c and c++ with C_types in python. How to write a DLL/SO in C++ for Python

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-1. The question is about C++ classes but that link only gives an example of a free function. Also, answers which don't contain any actual information other than a URL should be posted as comments. –  JBentley Apr 12 at 13:48
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