260 lines
8.9 KiB
C++
260 lines
8.9 KiB
C++
// Copyright (c) 2001-2007 Max-Planck-Institute Saarbruecken (Germany).
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// All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org)
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//
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// $URL: https://github.com/CGAL/cgal/blob/v5.1/STL_Extension/include/CGAL/Flattening_iterator.h $
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// $Id: Flattening_iterator.h 52164b1 2019-10-19T15:34:59+02:00 Sébastien Loriot
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// SPDX-License-Identifier: LGPL-3.0-or-later OR LicenseRef-Commercial
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//
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// Author(s) : Arno Eigenwillig <arno@mpi-inf.mpg.de>
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#ifndef CGAL_FLATTENING_ITERATOR_H
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#define CGAL_FLATTENING_ITERATOR_H 1
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#include <CGAL/basic.h>
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#include <CGAL/Nested_iterator.h>
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#include <iterator>
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#include <functional>
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// LiS2CGAL check whether Nested_iterator in CGAL works in STL_extensions
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namespace CGAL {
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/*! Suppose you have an iterator range and suppose further that
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* the values in that iterator range are containers and thus
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* define iterator ranges themselves (accessible through
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* some \c begin and \c end functions).
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* \e Flattening the iterator range means to turn it into one
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* iterator range whose values are the values of the containers
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* in the original range.
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* For example, a range of lists (1,2),(3),(4,5,6) can be
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* flattened into a range 1,2,3,4,5,6
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*
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* The class templates \c Flattening_iterator and
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* \c Flattening_const_iterator implement this flattening.
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* So far, only the \c const version has been implemented,
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* i.e. the values in the flattened range are read-only.
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*
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* But what about an iterator range whose values are lists of
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* vectors of vectors of ... and so on?
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* Yes, it is possible to flatten such nested containers, too,
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* by recursive application of \c Flattening*_iterator.
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* The class templates \c Recursive_flattening and
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* \c Recursive_const_flattening offer the necessary
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* typedefs and conversions.
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* So far, only the \c const version has been implemented.
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*/
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template <int level_, class InputIterator>
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class Recursive_const_flattening;
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template <class InputIterator>
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class Recursive_const_flattening<0, InputIterator> {
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public:
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typedef Recursive_const_flattening Self;
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static const int level = 0;
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typedef InputIterator Input_iterator;
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typedef Input_iterator Recursive_flattening_iterator;
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struct Flatten {
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typedef Recursive_flattening_iterator result_type;
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typedef Input_iterator argument_type;
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Recursive_flattening_iterator
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operator () (Input_iterator /*end*/, Input_iterator it) {
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return it;
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}
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};
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};
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template <class InputIterator>
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class Recursive_const_flattening<1, InputIterator> {
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public:
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typedef Recursive_const_flattening Self;
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static const int level = 1;
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typedef InputIterator Input_iterator;
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private:
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struct Nested_iterator_traits
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{
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typedef Input_iterator Base_iterator;
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typedef typename std::iterator_traits<Input_iterator>::value_type::const_iterator
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Iterator;
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Iterator begin(Input_iterator it) const { return it->begin(); }
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Iterator end (Input_iterator it) const { return it->end(); }
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};
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public:
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typedef CGAL::Nested_iterator< Input_iterator, Nested_iterator_traits >
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Recursive_flattening_iterator;
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struct Flatten {
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typedef Recursive_flattening_iterator result_type;
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typedef Input_iterator argument_type;
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Recursive_flattening_iterator
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operator () (Input_iterator end, Input_iterator it) {
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return Recursive_flattening_iterator(end,it);
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}
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};
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};
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/*! \ingroup LiS_Flattening_iterator
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\brief Recursive application of \c Flattening_const_iterator
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An instance \c Recursive_const_flattening<level,InputIterator>
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of this class template contains a typedef \c Recursive_flattening_iterator.
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This is a \c level -fold nested instance of
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\c Flattening_const_iterator, where \c level can be any
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non-negative integer. At each nesting level, begin and end
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functors are supplied to \c Flattening_const_iterator
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which assume that their arguments have a
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\c const_iterator typedef and \c begin() and \c end()
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member functions in the style of the STL.
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The functor <tt>Flatten()(it)</tt> converts an \c InputIterator \c it
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to a \c Recursive_flattening_iterator. Converting each endpoint
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of an iterator range [first,beyond) yields an iterator range
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in which \c level levels of packing into containers have been
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unpacked. (In particular, the case \c level==0 is permissible
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and a no-op.)
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To get a \c const_iterator out of a container \c c of type \c C
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which is not \c const itself, one can use syntax like
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<tt>const_cast<const C&>(c).begin())</tt>. This may sometimes
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be necessary in conjunction with \c Recursive_const_flattening.
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*/
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template< int level_, class InputIterator >
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class Recursive_const_flattening {
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public:
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//! this instance itself
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typedef Recursive_const_flattening Self;
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//! this instance's first template argument
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static const int level = level_;
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//! this instance's second template argument
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typedef InputIterator Input_iterator;
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typedef Recursive_const_flattening<
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level-1,
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typename std::iterator_traits<Input_iterator>::value_type::const_iterator
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> Nested_self;
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private:
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struct Nested_iterator_traits
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{
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typedef Input_iterator
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Base_iterator;
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typedef typename Nested_self::Recursive_flattening_iterator
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Iterator;
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Iterator begin(Input_iterator it) const { return typename Nested_self::Flatten()(it->end(),it->begin()); }
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Iterator end (Input_iterator it) const { return typename Nested_self::Flatten()(it->end(),it->end()); }
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};
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public:
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typedef CGAL::Nested_iterator< Input_iterator, Nested_iterator_traits >
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Recursive_flattening_iterator;
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//! conversion functor (model of STL concept \c AdaptableUnaryFunction )
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struct Flatten {
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//! result type
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typedef Recursive_flattening_iterator result_type;
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//! argument type
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typedef Input_iterator argument_type;
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//! conversion functor call
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Recursive_flattening_iterator
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operator () (Input_iterator end,Input_iterator it) {
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return Recursive_flattening_iterator(end,it);
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}
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};
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};
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#ifdef DOXYGEN_RUNNING
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/*! \ingroup LiS_Flattening_iterator
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\brief (unimplemented)
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This class template is unimplemented.
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Only \c Recursive_const_flattening is available at this point.
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*/
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template <int level_, class InputIterator>
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class Recursive_flattening { };
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#endif // DOXYGEN_RUNNING
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/*
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* Part 2: Helper functions
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*/
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/*! \relates Recursive_const_flattening
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* \brief map \c it to
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* <tt>Recursive_const_flattening<level, InputIterator>::Flatten()(it)</tt>
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*
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* See \c Recursive_const_flattening for explanations.
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* This function just exists to save typing via overloading resolution.
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* You have to specify \c level explicitly in any case.
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* For \c recursive_const_flattener<1,...>() , there is the
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* shorthand \c const_flattener<...>() .
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*/
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template <int level, class InputIterator> inline
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typename Recursive_const_flattening<level, InputIterator>
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::Recursive_flattening_iterator
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recursive_const_flattener(InputIterator end,InputIterator it) {
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return typename Recursive_const_flattening<level, InputIterator>::Flatten()(end,it);
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}
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/*! \relates Flattening_const_iterator
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* \brief map \c it to
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* <tt>Recursive_const_flattening<1, InputIterator>::Flatten()(it)</tt>
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*
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* A function call <tt>fi = const_flattener(it)</tt> converts the iterator
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* \c it to an instance of \c Flattening_const_iterator (see ibid.).
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* The template arguments are chosen as follows:
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* - \c InputIterator1 is \c InputIterator
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* - \c InputIterator2 is \c InputIterator::value_type::const_iterator
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* - \c UnaryFunction1/2 are set to functors that call \c begin()
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* and \c end() member functions.
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*
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* This function helps to save typing and to avoid manual specification
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* of \c UnaryFunction1/2.
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*/
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template <class InputIterator> inline
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typename Recursive_const_flattening<1, InputIterator>
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::Recursive_flattening_iterator
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const_flattener(InputIterator end,InputIterator it) {
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return typename Recursive_const_flattening<1, InputIterator>::Flatten()(end,it);
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}
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#ifdef DOXYGEN_RUNNING
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/*! \relates Recursive_flattener
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\brief (unimplemented)
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This function template is unimplemented.
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Only \c recursive_const_flattener is available at this point.
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*/
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template <int level, class InputIterator> inline
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typename Recursive_flattening<level, InputIterator>
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::Recursive_flattening_iterator
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recursive_flattener(InputIterator it);
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/*! \relates Flattening_iteratos
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\brief (unimplemented)
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This function template is unimplemented.
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Only \c const_flattener is available at this point.
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*/
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template <class InputIterator> inline
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typename Recursive_flattening<1, InputIterator>
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::Recursive_flattening_iterator
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flattener(InputIterator it);
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#endif // DOXYGEN_RUNNING
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} //namespace CGAL
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#endif // LiS_FLATTENING_ITERATOR_H
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