I have a method in c++ that gets called from python and needs to return a python list object.

I have already created the method, and its attached to an exposed class and callable from python right now... (it returns void).

So the question is, how do I create a python list from this:

std::vector<std::string> results;

I am not really understanding how the constructor works from this documentation:


Also... I don't really want to return kind of wrapped vector... I just want to create a new python list with the string values from the vector.

My apologies if this is a duplicate... I found quite a few list to vector questions but I couldn't find any about creating a new python list.

I could expand this question to include some other questions like:

Creating a new python dictionary from a: std::map<std::string, std::string> and so on.


6 Answers 6


boost::python already includes functionality for wrapping vectors and maps. Here's sample code for vectors, as you can see both passing and returning lists is quite simple:

// C++ code
typedef std::vector<std::string> MyList;
class MyClass {
  MyList myFuncGet();
  void myFuncSet(const Mylist& list);
  //       stuff

// Wrapper code

#include <boost/python/suite/indexing/vector_indexing_suite.hpp>

using namespace boost::python;

        .def(vector_indexing_suite<MyList>() );

        .def("myFuncGet", &MyClass::myFuncGet)
        .def("myFuncSet", &MyClass::myFuncSet)

Maps are very similar to vectors and are described in this post: Boost::Python- possible to automatically convert from dict --> std::map?

Unfortunately boost::python does not currently include facilities for wrapping lists. You can create the wrapper manually, but I'm out of time for this answer. I can post it today or tomorrow. I'd appreciate a new question about this particular problem, because the answer will be quite extensive and is probably outside of the scope of this post. I'd just avoid lists and use vectors instead.

  • 1
    hello @Aleksey, I think I have a related question for you link Jul 21, 2011 at 13:34
  • Thank you, by the way, does this method has a large overhead? Sorry, I am a newbie in C++ and boost.python.
    – GoingMyWay
    Aug 19, 2018 at 2:08
  • And can you share the link of the corresponding docs of vector_indexing_suite.
    – GoingMyWay
    Aug 19, 2018 at 2:24
  • 2
    All vector_indexing_suite does is create a python wrapper for std::vector. This means that the std::vector is accessed directly. It's basically the lowest overhead you can hope for. Here's the link: boost.org/doc/libs/1_68_0/libs/python/doc/html/reference/topics/…. Sep 11, 2018 at 21:16

I have this function using iterators to convert std::vector to py::list:

namespace py = boost::python;

template<class T>
py::list std_vector_to_py_list(const std::vector<T>& v)
    py::object get_iter = py::iterator<std::vector<T> >();
    py::object iter = get_iter(v);
    py::list l(iter);
    return l;
  • doesn't have this a massive overhead? It is really a question
    – Dan Niero
    Jul 2, 2012 at 9:56
  • 3
    I tried this, I get an exception on py::object iter = get_iter(v) : No to_python (by-value) converter found for C++ type: class std::vector<int,class std::allocator<int> > as of Boost 1.51 Nov 11, 2012 at 23:28
  • 4
    likewise 'No to_python (by-value) converter found for C++ type: std::vector<std::string, std::allocator<std::string> >', boost 1.48
    – Rob Agar
    Sep 18, 2013 at 13:56
  • 4
    Same error as well, <type 'exceptions.TypeError'>: No to_python (by-value) converter found for C++ type: std::vector<double, std::allocator<double> >
    – SullX
    Jan 24, 2014 at 4:13
  • The same error here: No to_python (by-value) converter found for C++ type: std::vector<int, std::allocator<int> >
    – Marcin
    Nov 5, 2015 at 3:06

If you only want to create python list manually (and have the function return py::list rather than vector), do it like this:

/* using namespace std; namespace py=boost::python;
vector<string> ss;
py::list ret;
FOREACH(const string& s, ss) ret.append(s);
return s;

For automatic conversions, define the converter for vector from python list to c++ and from c++ to python list -- I just wrote about that at Instantiating shared_ptr's in boost::python (the second part of the reply); that way, you get realy python lists.

Another possibility for automatic conversion (which I have no experience with) is to use indexing_suite, which will wrap vector<string> as a special class in python, as a colleague mentioned here already.


From http://gist.github.com/octavifs/5362272:

// Converts a C++ vector to a python list
template <class T>
boost::python::list toPythonList(std::vector<T> vector) {
    typename std::vector<T>::iterator iter;
    boost::python::list list;
    for (iter = vector.begin(); iter != vector.end(); ++iter) {
    return list;
  • Yes, it works, but I'm not sure if there is too much overhead by having to iterate the vector and append each element. Maybe using a numpy array is more efficient?
    – user819893
    Feb 13, 2018 at 18:50

FWIW, here's a templated function in the same vein as eudoxos' solution:

namespace py = boost::python;

template<class T>
py::list std_vector_to_py_list(const std::vector<T>& v)
  py::list l;
  typename std::vector<T>::const_iterator it;
  for (it = v.begin(); it != v.end(); ++it)
  return l;  
  • 1
    This copies the values as it appends to the list, right? Is there any way to avoid that (assuming the values are of some class type), so in python get_list(0) == get_list(0) returns true? Something like bp::reference_existing_object but within the function?
    – GaryO
    Feb 6, 2014 at 18:35

I use following utility functions to convert from/to stl containers. The trivial sum function illustrates how they are used. Also I found following opensource package which has quite a few conversion utilities: https://github.com/cctbx/cctbx_project/tree/master/scitbx/boost_python

#include <vector>
#include <boost/python.hpp>
#include <boost/python/object.hpp>
#include <boost/python/stl_iterator.hpp>

namespace bpy = boost::python;

namespace fm {

template <typename Container>
bpy::list stl2py(const Container& vec) {
  typedef typename Container::value_type T;
  bpy::list lst;
  std::for_each(vec.begin(), vec.end(), [&](const T& t) { lst.append(t); });
  return lst;

template <typename Container>
void py2stl(const bpy::list& lst, Container& vec) {
  typedef typename Container::value_type T;
  bpy::stl_input_iterator<T> beg(lst), end;
  std::for_each(beg, end, [&](const T& t) { vec.push_back(t); });

bpy::list sum(const bpy::list& lhs, const bpy::list& rhs) {
  std::vector<double> lhsv;
  py2stl(lhs, lhsv);

  std::vector<double> rhsv;
  py2stl(rhs, rhsv);

  std::vector<double> result(lhsv.size(), 0.0);
  for (int i = 0; i < lhsv.size(); ++i) {
    result[i] = lhsv[i] + rhsv[i];
  return stl2py(result);

} // namespace fm

  bpy::def("sum", &fm::sum);

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