libs/python/test/iterator.cpp
// Copyright David Abrahams 2002. // Distributed under the Boost Software License, Version 1.0. (See // accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) #include <boost/python/module.hpp> #include <boost/python/def.hpp> #include <boost/python/class.hpp> #include <boost/python/return_internal_reference.hpp> #include <boost/python/copy_non_const_reference.hpp> #include <boost/python/return_value_policy.hpp> #include <boost/python/iterator.hpp> #include <list> #include <utility> #include <iterator> #include <algorithm> using namespace boost::python; typedef std::list<int> list_int; typedef std::list<list_int> list_list; void push_back(list_int& x, int y) { x.push_back(y); } void push_list_back(list_list& x, list_int const& y) { x.push_back(y); } int back(list_int& x) { return x.back(); } typedef std::pair<list_int::iterator,list_int::iterator> list_range; struct list_range2 : list_range { list_int::iterator& begin() { return this->first; } list_int::iterator& end() { return this->second; } }; list_range range(list_int& x) { return list_range(x.begin(), x.end()); } struct two_lists { two_lists() { int primes[] = { 2, 3, 5, 7, 11, 13 }; std::copy(primes, primes + sizeof(primes)/sizeof(*primes), std::back_inserter(one)); int evens[] = { 2, 4, 6, 8, 10, 12 }; std::copy(evens, evens + sizeof(evens)/sizeof(*evens), std::back_inserter(two)); } struct two_start { typedef list_int::iterator result_type; result_type operator()(two_lists& ll) const { return ll.two.begin(); } }; friend struct two_start; list_int::iterator one_begin() { return one.begin(); } list_int::iterator two_begin() { return two.begin(); } list_int::iterator one_end() { return one.end(); } list_int::iterator two_end() { return two.end(); } private: list_int one; list_int two; }; BOOST_PYTHON_MODULE(iterator_ext) { using boost::python::iterator; // gcc 2.96 bug workaround def("range", &::range); class_<list_int>("list_int") .def("push_back", push_back) .def("back", back) .def("__iter__", iterator<list_int>()) ; class_<list_range>("list_range") // We can specify data members .def("__iter__" , range(&list_range::first, &list_range::second)) ; // No runtime tests for this one yet class_<list_range2>("list_range2") // We can specify member functions returning a non-const reference .def("__iter__", range(&list_range2::begin, &list_range2::end)) ; class_<two_lists>("two_lists") // We can spcify member functions .add_property( "primes" , range(&two_lists::one_begin, &two_lists::one_end)) // Prove that we can explicitly specify call policies .add_property( "evens" , range<return_value_policy<copy_non_const_reference> >( &two_lists::two_begin, &two_lists::two_end)) // Prove that we can specify call policies and target .add_property( "twosies" , range<return_value_policy<copy_non_const_reference>, two_lists>( // And we can use adaptable function objects when // partial specialization is available. # ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION two_lists::two_start() # else &two_lists::two_begin # endif , &two_lists::two_end)) ; class_<list_list>("list_list") .def("push_back", push_list_back) .def("__iter__", iterator<list_list,return_internal_reference<> >()) ; } #include "module_tail.cpp"