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I have a C++ class that I'm building into a python module using boost::python. I have a few functions that I want to take keyword arguments. I've set up wrapper functions to pass to raw_arguments and that works fine, but I want to build in some error checking for the function arguments. Is there a standard way to do this?

My function prototype, in C++, looks a bit like this:

double MyClass::myFunction(int a, int b, int c);

The third argument is optional, with a default value of 0 (I've implemented this in boost::python using macros up till now). In python, I want to be able to achieve the following behaviour:

MyClass.my_function(1) # Raises exception
MyClass.my_function(2, 3) # So that a = 2, b = 3 and c defaults to 0
MyClass.my_function(2, 3, 1) # As above, but now c = 1
MyClass.my_function(2, 3, 1, 3) # Raises exception
MyClass.my_function(3, 1, c = 2) # So a = 3, b = 1 and c = 2
MyClass.my_function(a = 2, b = 2, c = 3) # Speaks for itself
MyClass.my_function(b = 2, c = 1) # Raises exception

Is there something in boost::python or the raw_function wrapper that can facilitate this, or do I need to write the code to check all this myself? If I do need to, how can I raise the exceptions? Is there a standard way of doing this?

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1 Answer 1

up vote 4 down vote accepted

The boost/python/args.hpp file provides a family of classes for specifying argument keywords. In particular, Boost.Python provides an arg type, that represents a potential keyword argument. It overloads the comma operator to allow for a more natural definition of an argument list.

Exposing myFunction on MyClass as my_function, where a, b, and c are keyword arguments, and c has a default value of 0 could be written as follows:

  namespace python = boost::python;
    .def("my_function", &MyClass::myFunction,
         (python::arg("a"), "b", python::arg("c")=0))

Here is a complete example:

#include <boost/python.hpp>

class MyClass
  double myFunction(int a, int b, int c)
    return a + b + c;

  namespace python = boost::python;
    .def("my_function", &MyClass::myFunction,
         (python::arg("a"), "b", python::arg("c")=0))

And the test case is as follows:

import unittest

from example import MyClass

class MyClassTest(unittest.TestCase):

    def setUp(self):
        # Boost.Python does not directly expose its
        # Boost.Python.ArgumentError (derives from TypeError).  Force
        # the exception and extract its type for future checks.
        except Exception as e:
            self.argument_error = e.__class__

    def test_args(self):
        my_class = MyClass()

        # Raises exception
                          my_class.my_function, (1,))

        # So that a = 2, b = 3 and c defaults to 0
        self.assertEqual(5, my_class.my_function(2, 3))

        # As above, but now c = 1
        self.assertEqual(6, my_class.my_function(2, 3, 1))

        # Raises exception
                          my_class.my_function, (2, 3, 1, 3))

        # So a = 3, b = 1 and c = 2
        self.assertEqual(6, my_class.my_function(3, 1, c = 2))

        # Speaks for itself
        self.assertEqual(7, my_class.my_function(a = 2, b = 2, c = 3))

        # Raises exception
                          my_class.my_function, {'b' : 2, 'c' : 1})

if '__main__' == __name__:

Which runs with the the expected results:

Ran 1 test in 0.000s

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That worked perfectly, and it's slightly embarrassing that I'd unwittingly used a similar setup on another function to overload that function's arguments. Does this work for constructors too? –  orentago May 21 '13 at 16:43
To answer my own question: yes it does. Do py::init<List your argument types>( (py::arg("a"), py::arg("b")...) ) in the wrapper code class declaration. –  orentago May 21 '13 at 17:43

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