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I am using SWIG to generate Python bindings for a library (lets call it Spam) that is written in C++. The library internally defines its own Vector datatype, defined in the Spam::Vector class.

Consider the following functions to be wrapped:

void ham(Spam::Vector &vec_in, Spam::Vector &vec_out);
void eggs(Spam::Vector &vec_in, double arg2, double result);

I would like to be able to call these functions using Python lists AND NumPy arrays as inputs (instead of having to create a Spam::Vector object in Python and then populate it using the associated C++ methods - it is very unpythonic).

How would I go about writing the SWIG typemap to achieve this? Also, is there a way to incorporate/leverage numpy.i for this purpose?

  • are your vec_in arguments meant to be const? Also what does Spam::Vector look like internally? That will influence how best to wrap it. – Flexo Jun 27 '15 at 12:10
  • Yes, vec_in is constant. There is no information about what Spam::Vector looks like internally as the library is proprietary. I only have access to DLLs. – prussian_metal Jun 27 '15 at 16:15
  • OK, but does it have a constructor that takes a pointed and an array size for example? Without that it's impossible to know how to interface it with numpy. – Flexo Jun 28 '15 at 14:34
  • Yes it has a constructor which takes size as input. But I think you are missing the point of my question. I can figure out the wrapping details, however I need to know how to ensure that the function is able to take an argument that is a Python List OR Numpy Array (or any other 2 types really). I want to write wrappers that can detect the 'type' of the argument on the fly and do the appropriate conversions as necessary. – prussian_metal Jun 28 '15 at 16:54
  • I understand that but I was hoping to write an answer that really worked for both cases. I'll just write a short answer that outlines the principles and skips the specifics then. – Flexo Jun 28 '15 at 18:32
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The right way to do this is with a custom typemap. Precisely what this will look like depends a lot on the type Spam::Vector itself. In general though you can do this with something like:

%typemap(in) {
  // Maybe you'd rather check for iterable here, with this check after numpy?
  if (PyList_Check($input)) {
    $1 = ... // Code to iterate over a list and prepare a Spam::Vector
  }
  else if (PyType_IsSubtype($input->ob_type, NumpyType)) {
    $1 = ... // Code to convert from numpy input
  }
  else {
    // code to raise an error
  }
}

There are various hacks that might be possible in other more specific circumstances, but this is the general solution.

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