如何使用PyObjects声明Boost.Python C ++类

时间:2014-05-21 13:17:51

标签: python c++ boost boost-python python-extensions

我想用PyObjects编写一个c ++类来从Python访问它们,以便用现有的Python对象实例引用它们。简而言之,我想在C ++类中存储/管理Python对象实例。

例如:

struct Var
{
    PyObject *Test_1;
    PyObject *Test_2;

};

#include <boost/python.hpp>
using namespace boost::python;

BOOST_PYTHON_MODULE(Var)
{
    class_<Var>("Var", init<std::string>())
        .def_readwrite("Test_1", &Var::value)
        .def_readwrite("Test_2", &Var::value)
    ;
}

在python中,如果可以使用Boost.Python:

,我想这样做 
class Test:
    def __init__(self, a = 0, b = 2):
        self.a = 0
        self.b = 0


test = Test(2,2)

import Var
newStore = Var
newStore.Test_1 = test

提前多多谢谢你!

招呼

弗洛

1 个答案:

答案 0 :(得分:2)

使用Boost.Python在C ++中管理Python对象时,应考虑使用boost::python::object类而不是PyObjectobject非常类似于Python变量,允许在C ++中使用Python-ish代码。此外,它们的行为类似于智能指针,提供引用计数和生命周期管理,因为需要使用PyObject显式管理引用计数。

以下是基于使用boost::python::objectPyObject演示的原始代码的完整示例:

#include <boost/python.hpp>

/// @brief Mockup type that can manage two Python objects.
struct var
{
  boost::python::object test_1; // managed
  PyObject* test_2;             // must explicitly manage

  var()
    : test_2(Py_None)
  {
    Py_INCREF(test_2);
  }

  ~var()
  {
    Py_DECREF(test_2);
  }
};

/// @brief Auxiliary function used to return a non-borrowed reference to
//         self.test_2.  This is necessary because Boost.Python assumes
//         that PyObject* passed from C++ to Python are not borrowed.
PyObject* var_test_2_getter(const var& self)
{
  PyObject* object = self.test_2;
  Py_INCREF(object);
  return object;
}

/// @brief Auxiliary function used to manage the reference count of
///        objects assigned to var.test_2.
void var_test_2_setter(var& self, PyObject* object)
{
  Py_DECREF(self.test_2);
  self.test_2 = object;
  Py_INCREF(self.test_2);
}

BOOST_PYTHON_MODULE(example)
{
  namespace python = boost::python;
  python::class_<var>("Var", python::init<>())
    .def_readwrite("Test_1", &var::test_1)
    .add_property("Test_2", &var_test_2_getter, &var_test_2_setter)
    ;
}

交互式使用:

>>> class Test:
...     def __init__(self, a=0, b=2):
...         self.a = a
...         self.b = b
... 
>>> test = Test(2, 2)
>>> from sys import getrefcount
>>> count = getrefcount(test)
>>> import example
>>> store = example.Var()
>>> store.Test_1 = test
>>> assert(store.Test_1 is test)
>>> assert(count + 1 == getrefcount(test))
>>> assert(store.Test_1.a == 2)
>>> store.Test_1.a = 42
>>> assert(test.a == 42)
>>> store.Test_2 = test
>>> assert(store.Test_2 is test)
>>> assert(count + 2 == getrefcount(test))
>>> assert(count + 2 == getrefcount(store.Test_2))
>>> store.Test_2 = None
>>> assert(count + 1 == getrefcount(test))
>>> store = None
>>> assert(count == getrefcount(test))
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