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I am having difficulty using the vector_indexing_suite in Boost. In C++ I have defined:

  class_<std::vector<double> >("PyVecDouble")
                         .def(vector_indexing_suite<std::vector<double> >());

and

  class_<std::vector<long> >("PyVecLong")
                         .def(vector_indexing_suite<std::vector<long> >());

And in python, I have tried to use these in the following simple program:

def NumpyArrayToPyVecDouble(vec):
    n = len(vec)
    p_vec = jp.PyVecDouble()

    for i in xrange(0,n):
        p_vec.append(vec[i])

    return p_vec

def NumpyArrayToPyVecLong(vec):
    n = len(vec)
    p_vec = jp.PyVecLong()

    for i in xrange(0,n):
        p_vec.append(vec[i])

    return p_vec

example_array = np.array([1.1, 2.2, 3.3, 4.4])
example = NumpyArrayToPyVecDouble(double_array)

dates_array = np.array([01122011, 01062012, 01122012, 01062013])
dates = NumpyArrayToPyVecLong(dates_array)

As a result, the program computes the vector example, but returns the following error when it tries to compute the vector dates:

TypeError: Attempting to append an invalid type

And ideas why? Are Longs in C++ incompatible with Python? This also does not work when I replace long everywhere with int. Help much appreciated!

!UPDATE! NumpyArrayToPyVecLong works fine when given the input as a python list as opposed to a numpy array. I've tried making various types of numpy arrays (int16, int32, int64, uint16, etc) but none of them work. It only works when given a plain python list. Any ideas why these types are all incompatible with the C++ long?

!UPDATE! the second: A solution for this is just to use p_vec.append(vec[i]) but this doesn't actually answer the problem of how numpy arrays and C++ types are aligned. So the questions is still open in theory...

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1 Answer 1

up vote 1 down vote accepted

The relationships between Numpy and C types is listed here (check the "compatible: C ..." sections): http://docs.scipy.org/doc/numpy/reference/arrays.scalars.html#built-in-scalar-types

The size-specified types (int16 etc.) map to C int, long, long long etc. in a platform-specific way. numpy/ndarrayobject.h however defines typedefs npy_int8 and so on.

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