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I'm using cython to wrap my C++ class:


class Foo
    std::map<int,int > myMap;
    std::vector<int> myVector;
    // An example of internal structures initialization
        for (int i=0; i<10; i++)
    std::map<int,int> getMyMap()
        return myMap;
    std::vector<int> getMyVector()
        return myVector;

I'm wondering if there is some way to get the std::map as python dict and the std::vector as python list without explicitly creating (and thus wasting memory) copies of such structures.

A temptative implementation for the std::vector is the following:

cdef extern from "Foo.h":
    cdef cppclass Foo:
    vector[int]  getMyVector()

cdef class pyFoo:
cdef Foo *thisptr      # hold a C++ instance which we're wrapping
def __cinit__(self):
    self.thisptr = new Foo()

def getMyVector(self):
    cdef vector[int] aa
    cdef int N
    b= []
    aa = self.thisptr.getMyVector()
    for i in range(N):
    return b;

But this clearly must store two structures containing the same data. I'm wondering if there is a way to map from c++ to list with cython or should I use boost::python?

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1 Answer 1

There's a very good reason to convert the vector to a python list, which is using it as a regular list in python code. However, you can wrap the vector and add a getter function. You will save some memory indeed, but I think that would be much less efficient, as you'll have to call the function each time to get a value and you won't be able to use it in any python expressions as you would a python list.

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Ok, the only problem I'm facing is dealing with custom-type for the vector. In this case we use vector<int> but the cython compiler isn't able to cope with, for example vector<Foo*> where Foo is one of my classes. –  linello Nov 5 '12 at 15:36
Indeed for what you are asking python list and dict should be best suited. As for Foo* - you can get around this by using uintptr_t type instead of Foo* and cast back to Foo* in cdef methods. –  Turnaev Evgeny Nov 6 '12 at 7:17

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