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I have a C++ class, one of whose methods returns a double * array-like that is one of its member variables. I'm trying to make this accessible as a list in Python. I wrap it in a doubleArray_frompointer, and then try using deepcopy to get it out of there safely, but I still have problems when the doubleArray goes out of scope, its memory is cleaned up, and then the C++ class tries to clean up the same memory (although that's not shown in the gist I created).

I suspect I should be doing this with typemaps.

What I'm trying to wrap is:

double *foo() {
  double *toReturn = new double[2];
  toReturn[0] = 2;
  toReturn[1] = 4;
  return toReturn;
}

and the interface is:

%module returnList
%include "returnList.h"

%include "cpointer.i"
%pointer_functions(double, doubleP)

%include "carrays.i"
%array_class(double, doubleArray);

%{
#include "returnList.h"
%}
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"Typemaps are generally not a required part of using SWIG." Maybe I'm missing something obvious here? –  tsbertalan Dec 26 '12 at 0:28
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2 Answers

up vote 1 down vote accepted

You're correct in saying that a typemap can be used to avoid writing a loop on the Python side. I put together an example - it's pretty similar to this other answer.

%module test

%typemap(out) double *foo %{
  $result = PyList_New(2); // use however you know the size here
  for (int i = 0; i < 2; ++i) {
    PyList_SetItem($result, i, PyFloat_FromDouble($1[i]));
  }
  delete $1; // Important to avoid a leak since you called new
%}

%inline %{
double *foo() {
  double *toReturn = new double[2];
  toReturn[0] = 2;
  toReturn[1] = 4;
  return toReturn;
}
%}

The typemap here matches a function called foo returning double * - you could match more widely but then there would be a risk of doing the wrong thing for functions where returning double * doesn't mean you're returning an array of size 2.

With this typemap I can then run:

Python 2.6.6 (r266:84292, Dec 27 2010, 00:02:40)
[GCC 4.4.5] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> import test
>>> test.foo()
[2.0, 4.0]
>>>

The reason you need to write it manually like this is because there is no way for SWIG to infer the length of the array that you are returning from foo. It could even vary between calls.

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It will vary between calls, but that length numRounds is one of the program parameters. That is, it is a variable we have accessible in Python (on the order of ~200). Does this mean I should use a loop in Python? But, somehow, I still have to write new in the swig interface file, or in my C++ code, so that Python and the C++ class both don't try to clean up the same memory. –  tsbertalan Dec 30 '12 at 20:46
    
The gist was an oversimplification. I'm returning a class member, not just from a function. Fixed now, but it doesn't give the errors I was hoping it would. –  tsbertalan Dec 30 '12 at 21:10
    
I think this is the correct answer for the question as asked. However, I really should have been using a std::vector<double> instead of a double * array instead, since SWIG automatically wraps these as tuples if you include std_vector, so it's iterable and the length is known. I've changed the gist to reflect this. –  tsbertalan Jan 11 '13 at 17:18
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This isn't a very good answer, so I'm not going to accept it. However, for my own case, I 'solved' the problem not by returning any sort of vector- or array-like object, but instead by recreating in Python the (simple) loop that generated the array in the first place. That is, my C++ code only has to return individual doubles, and my Python code will assemble the list.

To be slighly more explicit, I have the C++ method double *simulation.run(), that was causing trouble. I created a new C++ method double simulation.doRound(), and then called this via SWIG in a Python loop of numRounds iterations, doing outputs.append(simulation.doRound()) each iteration.

However, I would still like to know how to copy a C/C++ double * array to a Python list via SWIG, since this seems like such a basic operation. If someone could answer that, I'd mark such as the accepted answer.

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