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I have some boost python classes, which I instantiate in python. I want to copy them. So, if I have

p = Bernoulli(0.5)

I want to do

q = Bernoulli(p)

But what if I don't know p's type? I tried to do this:

q = copy.deepcopy(p)

but python said it couldn't pickle p.

Is my only solution to add a clone() function to the interface of Bernoulli? Or can I have that method automatically generated somehow? Can copy.deepcopy be made to work with Boost.python objects?

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3 Answers 3

For copying, you can either implement the __copy__ and __deepcopy__ special methods (one of them could just wrap the copy constructor, depending on the C++ copy semantics of the class), or add pickling support. The copy module will use the special copying methods if they are available and the pickling methods otherwise.

Here is an example for using the copy constructor to implement __copy__:

template<typename T> const T copyObject(const T& v) { return v; }
boost::python::class_<C>("C").def("__copy__", copyObject<C>);
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how do I implement __copy__ in terms of the copy constructor using boost.python? –  Neil G Jan 15 '11 at 1:47
    
@Neil: I'v edited my answer. –  Philipp Jan 15 '11 at 9:33
    
Thanks a lot, but I am getting the error: Boost.Python.ArgumentError: Python argument types in Dirichlet.__deepcopy__(Dirichlet, dict) did not match C++ signature: __deepcopy__(Dirichlet) –  Neil G Jan 15 '11 at 23:25
    
@Neil: The __deepcopy__ method has a different signature: it is passed a dictionary for memoization. –  Philipp Jan 16 '11 at 8:29
up vote 2 down vote accepted

From http://mail.python.org/pipermail/cplusplus-sig/2009-May/014505.html

#define PYTHON_ERROR(TYPE, REASON) \
{ \
    PyErr_SetString(TYPE, REASON); \
    throw bp::error_already_set(); \
}

template<class T>
inline PyObject * managingPyObject(T *p)
{
    return typename bp::manage_new_object::apply<T *>::type()(p);
}

template<class Copyable>
bp::object
generic__copy__(bp::object copyable)
{
    Copyable *newCopyable(new Copyable(bp::extract<const Copyable
&>(copyable)));
    bp::object
result(bp::detail::new_reference(managingPyObject(newCopyable)));

    bp::extract<bp::dict>(result.attr("__dict__"))().update(
        copyable.attr("__dict__"));

    return result;
}

template<class Copyable>
bp::object
generic__deepcopy__(bp::object copyable, bp::dict memo)
{
    bp::object copyMod = bp::import("copy");
    bp::object deepcopy = copyMod.attr("deepcopy");

    Copyable *newCopyable(new Copyable(bp::extract<const Copyable
&>(copyable)));
    bp::object
result(bp::detail::new_reference(managingPyObject(newCopyable)));

    // HACK: copyableId shall be the same as the result of id(copyable)
in Python -
    // please tell me that there is a better way! (and which ;-p)
    int copyableId = (int)(copyable.ptr());
    memo[copyableId] = result;

    bp::extract<bp::dict>(result.attr("__dict__"))().update(
        deepcopy(bp::extract<bp::dict>(copyable.attr("__dict__"))(),
memo));

    return result;
}

To use it:

class_<foo>(foo)
   .def("__copy__", &generic__copy__< foo >)
   .def("__deepcopy__", &generic__deepcopy__< foo >)
   .def(init< const foo & >())
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I would have posted that myself you know. Now I can only up vote yours. GRRRRR! –  Matthew Scouten Jan 17 '11 at 14:54
    
@Matthew, Ha ha ha. Perhaps you would be so kind as to explain to me what I should do on a 64-bit compiler since the pointer is not castable to int? –  Neil G Jan 17 '11 at 16:19
    
@Matthew, also, I'm not sure exactly why this generic__copy__ is better than Philipp's? Is it because it copies anything that you might have added to the object's dict? –  Neil G Jan 17 '11 at 16:21
    
(I ended up casting to int via long long, since I noticed that the python ids seem to be 32-bit ints.) –  Neil G Jan 17 '11 at 16:26
    
@Neil G, I am not sure what you ought to do with a 64-bit situation. Right now, our wrapped library only exists in 32-bit, so we don't have that problem. the real solution is for the C/Python API or BP to expose a portable way to get id(copyable) as an int. –  Matthew Scouten Jan 24 '11 at 16:16

Yes, you can make boost::python objects deep-copyable (and also pickable) by implementing the __setstate__ and __getstate__ methods on your object.

Basically, __getstate__ should return an (python) object that represents the internal state of your object, while __setstate__ obviously accepts said object and updates the state of your object.

If your object takes arguments for __init__, you should also look at implementing __getinitargs__.

See the Python docs for more information.

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Making a BP object picklable is by far the WORST way to make it copyable. C++ has nice efficient copy ctors. Pickling involves a round trip through a string, and is hideously over-expensive in comparison. And this is not even the best way to make a BP object picklable. See: boost::python::pickle_suite –  Matthew Scouten Jan 24 '11 at 16:31

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