I am using Boost Python, I generate a large vector of integers in C++, and I would like to access this vector in Python without copying it.
In C++ I have:
BOOST_PYTHON_MODULE(myModule)
{
class_<vector<int>>("vectorInt").def(vector_indexing_suite<vector<int>>());
def("ReturnVectorPtr", ReturnVectorPtr, return_value_policy<manage_new_object>());
}
vector<int>* ReturnVectorPtr()
{
return new vector<int>();
}
Then in python I have:
import myModule
myModule.ReturnVectorPtr()
This causes Python to crash, although I'm not even storing the return value. Any ideas on what my mistake is?
Edit:
The following code works for getting the data in the vector from C++ to python, but leaks memory. Are the vectors being copied and then not disposed?
In C++:
BOOST_PYTHON_MODULE(myModule)
{
class_<vector<int>>("vectorInt").def(vector_indexing_suite<vector<int>>());
def("ModifyVectorInPlace", ModifyVectorInPlace);
}
void ModifyVectorInPlace(vector<int>& data)
{
// Modify data...
return;
}
Then in python I have:
import myModule
vectorInt = myModule.vectorInt()
myModule.ModifyVectorInPlace(vectorInt)
What is going on?
Edit 2:
I tried the "Raw C++ Pointers" example from here, exactly as written: https://wiki.python.org/moin/boost.python/PointersAndSmartPointers
It crashes too. It seems that I can't get a pointer to anything passed into Python for some reason...
Edit 3:
The crash appears to be a segfault from invoke.hpp, in this function:
template <class RC, class F BOOST_PP_ENUM_TRAILING_PARAMS_Z(1, N, class AC)>
inline PyObject* invoke(invoke_tag_<false,false>, RC const& rc, F& f BOOST_PP_ENUM_TRAILING_BINARY_PARAMS_Z(1, N, AC, & ac) )
{
return rc(f( BOOST_PP_ENUM_BINARY_PARAMS_Z(1, N, ac, () BOOST_PP_INTERCEPT) ));
}
myModuleare being built against the same version of Python, and using the same Boost.Python build configuration. Additionally, verify thatmyModulelinks against the Boost.Python version from which it was built against.