My goal:

Create 3 numpy arrays in python (2 of them will be initialized with specific values), then send all three of them through swig into a c++ function as vector references (this is in order to avoid copying over the data and loosing efficiency). Once in the c++ function, add 2 of the arrays and put their sum in the 3rd array.


#include <vector>
#include <iostream>

void add_vec_ref(std::vector<int>& dst, std::vector<int>& src1, std::vector<int>& src2);


#include "vec_ref.h"
#include <cstring> // need for size_t
#include <cassert>

void add_vec_ref(std::vector<int>& dst, std::vector<int>& src1, std::vector<int>& src2) {
    std::cout << "inside add_vec_ref" << std::endl;
    assert(src1.size() == src2.size());

    for (size_t i = 0; i < src1.size(); i++) {
        dst[i] = src1[i] + src2[i];


%module vec_ref
    #include "vec_ref.h"

%include "numpy.i"
%init %{

%include "std_vector.i"
%template(vecInt) std::vector<int>;
// %template(vecIntRef) std::vector<int> &; 

// %apply (std::vector<int> * INPLACE_ARRAY1, int DIM1) {(std::vector<int> * dst, int a),(std::vector<int> * src1, int b),(std::vector<int> * src2, int c)};
// %apply (std::vector<int> * INPLACE_ARRAY1) {(std::vector<int> * dst),(std::vector<int> * src1),(std::vector<int> * src2)};
// %apply (std::vector<int> & INPLACE_ARRAY1) {(std::vector<int> & dst),(std::vector<int> & src1),(std::vector<int> & src2)};
// %apply (std::vector<int> & INPLACE_ARRAY1, int DIM1) {(std::vector<int> & dst, int a),(std::vector<int> & src1, int b),(std::vector<int> & src2, int c)};

%include "vec_ref.h"


    rm -f *.so *.o *_wrap.* *.pyc *.gch vec_ref.py
    swig -c++ -python vec_ref.i
    g++ -O0 -g3 -fpic -c vec_ref_wrap.cxx vec_ref.h vec_ref.cpp -I/home/lmckeereid/tools/anaconda3/pkgs/python-3.7.3-h0371630_0/include/python3.7m/
    g++ -O0 -g3 -shared vec_ref_wrap.o vec_ref.o -o _vec_ref.so


import vec_ref as vec
import numpy as np

a = np.array([1,2,3], dtype=np.intc)
b = np.array([4,5,6], dtype=np.intc)
c = np.zeros(len(a), dtype=np.intc)

print('---Before---\na:', a)
print('b:', b)
print('c:', c)


print('---After---\na:', a)
print('b:', b)
print('c:', c)


a: [1 2 3]
b: [4 5 6]
c: [0 0 0]
Traceback (most recent call last):
  File "tester.py", line 12, in <module>
TypeError: in method 'add_vec_ref', argument 1 of type 'std::vector< int,std::allocator< int > > &'

I've tried all the commented out %apply and %template directives found in vec_ref.i, but they didn't work.

Are there some typemaps that I should be including that I'm not?


2 Answers 2


I agree with @pschill: it’s not possible to get an std::vector without copying data.

One alternative is to use the std::span class template (introduced in C++20), or a similar span class template defined in a library.

Creating a std::span<int> would provide a view of existing data in a numpy array, and provide many convenient member functions (such as operator[], iterators, front(), back(), etc.) in C++.

Creating a span would never copy data from the numpy array.

  • Thanks for providing what I see to be the best alternative (aside from building my own class).
    – Otherness
    Nov 18, 2019 at 19:41
  • If I really wanted to use (and modify) a std::vector in my C++ function without copying, what alternatives would I have ? Raw pointer to std::vector ? shared_ptr to std::vector ? Apr 21, 2020 at 16:27
  • @GabrielDevillers, if I understand your question, if a vector exists and you want to modify it in your function, I would recommend using a reference to the vector: std::vector<T>& v
    – NicholasM
    Apr 21, 2020 at 17:40
  • @NicholasM I meant in an API that I want to wrap using SWIG. I'm asking because I understand that SWIG cannot wrap non-const reference to vectors. Apr 22, 2020 at 7:17
  • Oh, sorry. I’d suggest you create a new question that focuses on your specific case.
    – NicholasM
    Apr 22, 2020 at 14:04

You can refer to the Facebook faiss library, which achieves what you want to achieve, in a more elegant way By:

Python-specific: numpy array <-> C++ pointer interface (vector)

You can see the code on its Github page.

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