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annotate DEPENDENCIES/generic/include/boost/python/iterator.hpp @ 125:34e428693f5d vext

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Vext -> Repoint
author Chris Cannam
date Thu, 14 Jun 2018 11:15:39 +0100
parents 2665513ce2d3
children
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Chris@16 1 // Copyright David Abrahams 2002.
Chris@16 2 // Distributed under the Boost Software License, Version 1.0. (See
Chris@16 3 // accompanying file LICENSE_1_0.txt or copy at
Chris@16 4 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 5 #ifndef ITERATOR_DWA2002512_HPP
Chris@16 6 # define ITERATOR_DWA2002512_HPP
Chris@16 7
Chris@16 8 # include <boost/python/detail/prefix.hpp>
Chris@16 9
Chris@16 10 # include <boost/python/detail/target.hpp>
Chris@16 11 # include <boost/python/object/iterator.hpp>
Chris@16 12 # include <boost/python/object_core.hpp>
Chris@16 13
Chris@16 14 # include <boost/type_traits/cv_traits.hpp>
Chris@16 15 # include <boost/type_traits/transform_traits.hpp>
Chris@16 16
Chris@16 17 # if defined(BOOST_MSVC) && (BOOST_MSVC == 1400) /*
Chris@16 18 > warning C4180: qualifier applied to function type has no meaning; ignored
Chris@16 19 Peter Dimov wrote:
Chris@16 20 This warning is caused by an overload resolution bug in VC8 that cannot be
Chris@16 21 worked around and will probably not be fixed by MS in the VC8 line. The
Chris@16 22 problematic overload is only instantiated and never called, and the code
Chris@16 23 works correctly. */
Chris@16 24 # pragma warning(disable: 4180)
Chris@16 25 # endif
Chris@16 26
Chris@16 27 # include <boost/bind.hpp>
Chris@16 28 # include <boost/bind/protect.hpp>
Chris@16 29
Chris@16 30 namespace boost { namespace python {
Chris@16 31
Chris@16 32 namespace detail
Chris@16 33 {
Chris@16 34 // Adds an additional layer of binding to
Chris@16 35 // objects::make_iterator(...), which allows us to pass member
Chris@16 36 // function and member data pointers.
Chris@16 37 template <class Target, class Accessor1, class Accessor2, class NextPolicies>
Chris@16 38 inline object make_iterator(
Chris@16 39 Accessor1 get_start
Chris@16 40 , Accessor2 get_finish
Chris@16 41 , NextPolicies next_policies
Chris@16 42 , Target&(*)()
Chris@16 43 )
Chris@16 44 {
Chris@16 45 return objects::make_iterator_function<Target>(
Chris@16 46 boost::protect(boost::bind(get_start, _1))
Chris@16 47 , boost::protect(boost::bind(get_finish, _1))
Chris@16 48 , next_policies
Chris@16 49 );
Chris@16 50 }
Chris@16 51
Chris@16 52 // Guts of template class iterators<>, below.
Chris@16 53 template <bool const_ = false>
Chris@16 54 struct iterators_impl
Chris@16 55 {
Chris@16 56 template <class T>
Chris@16 57 struct apply
Chris@16 58 {
Chris@16 59 typedef typename T::iterator iterator;
Chris@16 60 static iterator begin(T& x) { return x.begin(); }
Chris@16 61 static iterator end(T& x) { return x.end(); }
Chris@16 62 };
Chris@16 63 };
Chris@16 64
Chris@16 65 template <>
Chris@16 66 struct iterators_impl<true>
Chris@16 67 {
Chris@16 68 template <class T>
Chris@16 69 struct apply
Chris@16 70 {
Chris@16 71 typedef typename T::const_iterator iterator;
Chris@16 72 static iterator begin(T& x) { return x.begin(); }
Chris@16 73 static iterator end(T& x) { return x.end(); }
Chris@16 74 };
Chris@16 75 };
Chris@16 76 }
Chris@16 77
Chris@16 78 // An "ordinary function generator" which contains static begin(x) and
Chris@16 79 // end(x) functions that invoke T::begin() and T::end(), respectively.
Chris@16 80 template <class T>
Chris@16 81 struct iterators
Chris@16 82 : detail::iterators_impl<
Chris@16 83 boost::is_const<T>::value
Chris@16 84 >::template apply<T>
Chris@16 85 {
Chris@16 86 };
Chris@16 87
Chris@16 88 // Create an iterator-building function which uses the given
Chris@16 89 // accessors. Deduce the Target type from the accessors. The iterator
Chris@16 90 // returns copies of the inderlying elements.
Chris@16 91 template <class Accessor1, class Accessor2>
Chris@16 92 object range(Accessor1 start, Accessor2 finish)
Chris@16 93 {
Chris@16 94 return detail::make_iterator(
Chris@16 95 start, finish
Chris@16 96 , objects::default_iterator_call_policies()
Chris@16 97 , detail::target(start)
Chris@16 98 );
Chris@16 99 }
Chris@16 100
Chris@16 101 // Create an iterator-building function which uses the given accessors
Chris@16 102 // and next() policies. Deduce the Target type.
Chris@16 103 template <class NextPolicies, class Accessor1, class Accessor2>
Chris@16 104 object range(Accessor1 start, Accessor2 finish, NextPolicies* = 0)
Chris@16 105 {
Chris@16 106 return detail::make_iterator(start, finish, NextPolicies(), detail::target(start));
Chris@16 107 }
Chris@16 108
Chris@16 109 // Create an iterator-building function which uses the given accessors
Chris@16 110 // and next() policies, operating on the given Target type
Chris@16 111 template <class NextPolicies, class Target, class Accessor1, class Accessor2>
Chris@16 112 object range(Accessor1 start, Accessor2 finish, NextPolicies* = 0, boost::type<Target>* = 0)
Chris@16 113 {
Chris@16 114 // typedef typename add_reference<Target>::type target;
Chris@16 115 return detail::make_iterator(start, finish, NextPolicies(), (Target&(*)())0);
Chris@16 116 }
Chris@16 117
Chris@16 118 // A Python callable object which produces an iterator traversing
Chris@16 119 // [x.begin(), x.end()), where x is an instance of the Container
Chris@16 120 // type. NextPolicies are used as the CallPolicies for the iterator's
Chris@16 121 // next() function.
Chris@16 122 template <class Container
Chris@16 123 , class NextPolicies = objects::default_iterator_call_policies>
Chris@16 124 struct iterator : object
Chris@16 125 {
Chris@16 126 iterator()
Chris@16 127 : object(
Chris@16 128 python::range<NextPolicies>(
Chris@16 129 &iterators<Container>::begin, &iterators<Container>::end
Chris@16 130 ))
Chris@16 131 {
Chris@16 132 }
Chris@16 133 };
Chris@16 134
Chris@16 135 }} // namespace boost::python
Chris@16 136
Chris@16 137 #endif // ITERATOR_DWA2002512_HPP