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I Have a question regarding swig wrapped objects generated on the Python side and wrapped objects generated on the C++ side. Suppose I have the following simple C++ class definitions

#include <vector>

class Sphere
{
public:
    Sphere(){};
};

class Container
{
public:
    Container() : data_(0) {};

    void add() {
        data_.push_back(Sphere());
    }

    Sphere & get(int i) { return data_[i]; }

    std::vector<Sphere> data_;
};

and the following swig setup

%module engine
%{
#define SWIG_FILE_WITH_INIT
#include "sphere.h"
%}

// -------------------------------------------------------------------------
// Header files that should be parsed by SWIG
// -------------------------------------------------------------------------
%feature("pythonprepend") Sphere::Sphere() %{
    print 'Hello'
%}
%include "sphere.h"

If I then do the following in Python

import engine
sphere_0 = engine.Sphere()
container = engine.Container()
container.add()
sphere_1 = container.get(0)

Then the first instantiation of the wrapped Sphere class does call the init method of the Python wrapping interface ('Hello' is printed).

However, the second, where the instance is generated on the C++ side does not ('Hello' is not printed).

Since my goal is to be able to add additional Python functionality to the object upon its construction, I'd be pleased to hear if anybody has any pointers for a correct approach to achieve this - for both of the above instantiation scenarios.

Best regards,

Mads

share|improve this question
    
Does "hello" get printed when you obtain sphere_1 (the last line of your example)? –  Dave Mar 7 '13 at 15:47
    
No - it does not get printed. This is just a simple test to check if init gets called. –  repoman Mar 7 '13 at 16:33

1 Answer 1

up vote 1 down vote accepted

I usually do things like this with explicit pythoncode blocks in the interface file:

%pythoncode %{
def _special_python_member_function(self):
     print "hello"
     self.rotate() # some function of Sphere
Sphere.new_functionality=_special_python_member_function
%}

So you can add arbitrary python functionality to the class, on top of what the SWIG interface provides. You may want/need to rename some of the C functionality out the way but this can should get you all of the member functions you want.

I've never tried to remap __init__ in this way, so I don't know how that would behave. Assuming that it won't work, you won't be able to ensure that the python objects have a given internal state (member variables) at construction.

What you will be forced to do is do lazy evaluation:

def function_that_depends_on_python_specific_state(self, *args):
   if not hasatttr( self, 'python_data'):
        self.python_data = self.make_python_data() # construct the relevant data
   pass # do work that involves the python specific data

and check for the existence of the python specific data. If there is just a few cases of this, I'd just put it in the functions as above. However, if that ends up being messy, you could modify __getattr__ so that it constructs the python-specific data members as they are accessed.

def _sphere_getattr(self, name):
    if name=='python_data':
         self.__dict__[name]=self.make_python_data()
         return self.__dict__[name]
    else:
        raise AttributeError
Sphere.__getattr__ = _sphere_getattr

IMHO, in the limit where you have a large amount of new functionality, and data that are independent of the underlying C implementation, you are in effect asking "How can I make my python Sphere class be a sub-class ofthe C Sphere class but keep them as the same type?"

share|improve this answer
    
Dave: Thanks. Sub-classing is the way to go if the object is generated on the Python side. But if the object is constructed on the C++ side by calling get() on the Container object, it seems more difficult. Do you have any suggestions for dealing with this? –  repoman Mar 7 '13 at 6:35
    
Does the behaviour you want literally include: print something out at instance creation, for all instances? If so, I don't know how to do that without touching the c code. That is not part of what you want, you could specify in more detail exactly what you want to do. –  Dave Mar 7 '13 at 12:59
    
The print statement was merely added to test if init was called. In fact - what I'm working on is a collection of some relatively complex C++ objects for handling actors in an OpenGL scene. I want to be able to add additional pure Python based members to these objects. This is not a problem when these are instantiated on the Python side - since I can add these using pythonprepend. But if the object is generated by another C++ based object (by calling add() and get() on the Container class) , the pythonprepend has no effect, since its ignored, i.e. init is never called. –  repoman Mar 7 '13 at 16:39
    
I believe (I don't have time to test it) that sphere_1.new_functionality() will work correctly using this recipe. The main problem is that this does not allow you to add python specific member variables that get always get initialized by the __init__ function; so the added functions would need to check if the required state was present, and if not, generate it. –  Dave Mar 7 '13 at 17:37
    
Dave: Sorry for a late reply (weekend, kids, etc.). Thanks a lot for your assistance. I'll experiment with your suggestions. Much appreciated! –  repoman Mar 11 '13 at 20:53

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