I would like to store a reference to an object as a weak_ptr. In pure C++, the following works :
#include <iostream>
#include <boost/shared_ptr.hpp>
#include <boost/weak_ptr.hpp>
using namespace std;
using namespace boost;
struct Empty
{
Empty(){}
};
struct Store
{
weak_ptr<Empty> value;
Store(){};
void setValue(shared_ptr<Empty> v) {
cout << "storing " << v << endl;
this->value = weak_ptr<Empty>(v);
shared_ptr<Empty> v_ok = this->value.lock();
if (v_ok) {
cout << "ok, v has been stored" << endl;
}
}
shared_ptr<Empty> getValue() {
shared_ptr<Empty> p = this->value.lock();
if (p) {
cout << "stored value : " << p << endl;
} else {
cout << "there's nothing here !" << endl;
}
return p;
}
};
int main()
{
shared_ptr<Empty> e(new Empty);
shared_ptr<Store> st(new Store);
st->setValue(e);
st->getValue();
return 0;
}
compiling and running this will give you this :
%> ./a.out
storing 0x8c6c008
ok, v has been stored
stored value : 0x8c6c008
Now, if I encapsulate that with boost python :
#include <iostream>
#include <boost/shared_ptr.hpp>
#include <boost/python.hpp>
#include <boost/weak_ptr.hpp>
using namespace std;
using namespace boost;
using namespace boost::python;
struct Empty
{
Empty(){}
};
struct Store
{
weak_ptr<Empty> value;
Store(){};
void setValue(shared_ptr<Empty> v) {
cout << "storing " << v << endl;
this->value = weak_ptr<Empty>(v);
shared_ptr<Empty> v_ok = this->value.lock();
if (v_ok) {
cout << "ok, v has been stored" << endl;
}
}
shared_ptr<Empty> getValue() {
shared_ptr<Empty> p = this->value.lock();
if (p) {
cout << "stored value : " << p << endl;
} else {
cout << "there's nothing here !" << endl;
}
return p;
}
};
BOOST_PYTHON_MODULE (test)
{
class_< Empty, shared_ptr<Empty> >("Empty");
class_< Store, shared_ptr<Store> >("Store")
.def("get",&Store::getValue)
.def("set",&Store::setValue);
}
and now a small python script to try it out
from test import *
e = Empty()
st = Store()
st.set(e)
st.get()
... and the result is ...
storing 0x9eb2a18
ok, v has been stored
there's nothing here !
so apparently while I'm still in the same method (setValue), there is no problem retrieving a shared_ptr from Store::value. But as soon as I get out of this context, there's nothing left !
How can this be ? Is python passing a brand new (and useless) shared_ptr as an argument to setValue, which is then destroyed at the end of the call ? I'm lost here.
Empty
that prints a message and see if it gets destroyed. Also, what happens if you store ashared_ptr
?shared_ptr
refers to::boost::shared_ptr
and in another it refers to::std::shared_ptr
. I vastly prefer usingtypedef
to pull in names from disparate namespaces to having multipleusing namespace
declarations.