ecency-mobile/ios/Pods/boost-for-react-native/boost/geometry/util/range.hpp

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// Boost.Geometry (aka GGL, Generic Geometry Library)
// Copyright (c) 2007-2012 Barend Gehrels, Amsterdam, the Netherlands.
// This file was modified by Oracle on 2013, 2014, 2015, 2016.
// Modifications copyright (c) 2013-2016 Oracle and/or its affiliates.
// Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle
// Use, modification and distribution is subject to 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)
#ifndef BOOST_GEOMETRY_UTIL_RANGE_HPP
#define BOOST_GEOMETRY_UTIL_RANGE_HPP
#include <algorithm>
#include <iterator>
#include <boost/concept_check.hpp>
#include <boost/config.hpp>
#include <boost/core/addressof.hpp>
#include <boost/range/concepts.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/empty.hpp>
#include <boost/range/difference_type.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/rbegin.hpp>
#include <boost/range/reference.hpp>
#include <boost/range/size.hpp>
#include <boost/range/value_type.hpp>
#include <boost/type_traits/is_convertible.hpp>
#include <boost/geometry/core/assert.hpp>
#include <boost/geometry/core/mutable_range.hpp>
namespace boost { namespace geometry { namespace range {
namespace detail {
// NOTE: For SinglePassRanges pos could iterate over all elements until the i-th element was met.
template <typename RandomAccessRange>
struct pos
{
typedef typename boost::range_iterator<RandomAccessRange>::type iterator;
typedef typename boost::range_size<RandomAccessRange>::type size_type;
typedef typename boost::range_difference<RandomAccessRange>::type difference_type;
static inline iterator apply(RandomAccessRange & rng, size_type i)
{
BOOST_RANGE_CONCEPT_ASSERT(( boost::RandomAccessRangeConcept<RandomAccessRange> ));
return boost::begin(rng) + static_cast<difference_type>(i);
}
};
} // namespace detail
/*!
\brief Short utility to conveniently return an iterator of a RandomAccessRange.
\ingroup utility
*/
template <typename RandomAccessRange>
inline typename boost::range_iterator<RandomAccessRange const>::type
pos(RandomAccessRange const& rng,
typename boost::range_size<RandomAccessRange const>::type i)
{
BOOST_GEOMETRY_ASSERT(i <= boost::size(rng));
return detail::pos<RandomAccessRange const>::apply(rng, i);
}
/*!
\brief Short utility to conveniently return an iterator of a RandomAccessRange.
\ingroup utility
*/
template <typename RandomAccessRange>
inline typename boost::range_iterator<RandomAccessRange>::type
pos(RandomAccessRange & rng,
typename boost::range_size<RandomAccessRange>::type i)
{
BOOST_GEOMETRY_ASSERT(i <= boost::size(rng));
return detail::pos<RandomAccessRange>::apply(rng, i);
}
/*!
\brief Short utility to conveniently return an element of a RandomAccessRange.
\ingroup utility
*/
template <typename RandomAccessRange>
inline typename boost::range_reference<RandomAccessRange const>::type
at(RandomAccessRange const& rng,
typename boost::range_size<RandomAccessRange const>::type i)
{
BOOST_GEOMETRY_ASSERT(i < boost::size(rng));
return * detail::pos<RandomAccessRange const>::apply(rng, i);
}
/*!
\brief Short utility to conveniently return an element of a RandomAccessRange.
\ingroup utility
*/
template <typename RandomAccessRange>
inline typename boost::range_reference<RandomAccessRange>::type
at(RandomAccessRange & rng,
typename boost::range_size<RandomAccessRange>::type i)
{
BOOST_GEOMETRY_ASSERT(i < boost::size(rng));
return * detail::pos<RandomAccessRange>::apply(rng, i);
}
/*!
\brief Short utility to conveniently return the front element of a Range.
\ingroup utility
*/
template <typename Range>
inline typename boost::range_reference<Range const>::type
front(Range const& rng)
{
BOOST_GEOMETRY_ASSERT(!boost::empty(rng));
return *boost::begin(rng);
}
/*!
\brief Short utility to conveniently return the front element of a Range.
\ingroup utility
*/
template <typename Range>
inline typename boost::range_reference<Range>::type
front(Range & rng)
{
BOOST_GEOMETRY_ASSERT(!boost::empty(rng));
return *boost::begin(rng);
}
// NOTE: For SinglePassRanges back() could iterate over all elements until the last element is met.
/*!
\brief Short utility to conveniently return the back element of a BidirectionalRange.
\ingroup utility
*/
template <typename BidirectionalRange>
inline typename boost::range_reference<BidirectionalRange const>::type
back(BidirectionalRange const& rng)
{
BOOST_RANGE_CONCEPT_ASSERT(( boost::BidirectionalRangeConcept<BidirectionalRange const> ));
BOOST_GEOMETRY_ASSERT(!boost::empty(rng));
return *(boost::rbegin(rng));
}
/*!
\brief Short utility to conveniently return the back element of a BidirectionalRange.
\ingroup utility
*/
template <typename BidirectionalRange>
inline typename boost::range_reference<BidirectionalRange>::type
back(BidirectionalRange & rng)
{
BOOST_RANGE_CONCEPT_ASSERT((boost::BidirectionalRangeConcept<BidirectionalRange>));
BOOST_GEOMETRY_ASSERT(!boost::empty(rng));
return *(boost::rbegin(rng));
}
/*!
\brief Short utility to conveniently clear a mutable range.
It uses traits::clear<>.
\ingroup utility
*/
template <typename Range>
inline void clear(Range & rng)
{
// NOTE: this trait is probably not needed since it could be implemented using resize()
geometry::traits::clear<Range>::apply(rng);
}
/*!
\brief Short utility to conveniently insert a new element at the end of a mutable range.
It uses boost::geometry::traits::push_back<>.
\ingroup utility
*/
template <typename Range>
inline void push_back(Range & rng,
typename boost::range_value<Range>::type const& value)
{
geometry::traits::push_back<Range>::apply(rng, value);
}
/*!
\brief Short utility to conveniently resize a mutable range.
It uses boost::geometry::traits::resize<>.
\ingroup utility
*/
template <typename Range>
inline void resize(Range & rng,
typename boost::range_size<Range>::type new_size)
{
geometry::traits::resize<Range>::apply(rng, new_size);
}
/*!
\brief Short utility to conveniently remove an element from the back of a mutable range.
It uses resize().
\ingroup utility
*/
template <typename Range>
inline void pop_back(Range & rng)
{
BOOST_GEOMETRY_ASSERT(!boost::empty(rng));
range::resize(rng, boost::size(rng) - 1);
}
namespace detail {
#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
template <typename It,
typename OutIt,
bool UseMove = boost::is_convertible
<
typename std::iterator_traits<It>::value_type &&,
typename std::iterator_traits<OutIt>::value_type
>::value>
struct copy_or_move_impl
{
static inline OutIt apply(It first, It last, OutIt out)
{
return std::move(first, last, out);
}
};
template <typename It, typename OutIt>
struct copy_or_move_impl<It, OutIt, false>
{
static inline OutIt apply(It first, It last, OutIt out)
{
return std::copy(first, last, out);
}
};
template <typename It, typename OutIt>
inline OutIt copy_or_move(It first, It last, OutIt out)
{
return copy_or_move_impl<It, OutIt>::apply(first, last, out);
}
#else
template <typename It, typename OutIt>
inline OutIt copy_or_move(It first, It last, OutIt out)
{
return std::copy(first, last, out);
}
#endif
} // namespace detail
/*!
\brief Short utility to conveniently remove an element from a mutable range.
It uses std::copy() and resize(). Version taking mutable iterators.
\ingroup utility
*/
template <typename Range>
inline typename boost::range_iterator<Range>::type
erase(Range & rng,
typename boost::range_iterator<Range>::type it)
{
BOOST_GEOMETRY_ASSERT(!boost::empty(rng));
BOOST_GEOMETRY_ASSERT(it != boost::end(rng));
typename boost::range_difference<Range>::type const
d = std::distance(boost::begin(rng), it);
typename boost::range_iterator<Range>::type
next = it;
++next;
detail::copy_or_move(next, boost::end(rng), it);
range::resize(rng, boost::size(rng) - 1);
// NOTE: In general this should be sufficient:
// return it;
// But in MSVC using the returned iterator causes
// assertion failures when iterator debugging is enabled
// Furthermore the code below should work in the case if resize()
// invalidates iterators when the container is resized down.
return boost::begin(rng) + d;
}
/*!
\brief Short utility to conveniently remove an element from a mutable range.
It uses std::copy() and resize(). Version taking non-mutable iterators.
\ingroup utility
*/
template <typename Range>
inline typename boost::range_iterator<Range>::type
erase(Range & rng,
typename boost::range_iterator<Range const>::type cit)
{
BOOST_RANGE_CONCEPT_ASSERT(( boost::RandomAccessRangeConcept<Range> ));
typename boost::range_iterator<Range>::type
it = boost::begin(rng)
+ std::distance(boost::const_begin(rng), cit);
return erase(rng, it);
}
/*!
\brief Short utility to conveniently remove a range of elements from a mutable range.
It uses std::copy() and resize(). Version taking mutable iterators.
\ingroup utility
*/
template <typename Range>
inline typename boost::range_iterator<Range>::type
erase(Range & rng,
typename boost::range_iterator<Range>::type first,
typename boost::range_iterator<Range>::type last)
{
typename boost::range_difference<Range>::type const
diff = std::distance(first, last);
BOOST_GEOMETRY_ASSERT(diff >= 0);
std::size_t const count = static_cast<std::size_t>(diff);
BOOST_GEOMETRY_ASSERT(count <= boost::size(rng));
if ( count > 0 )
{
typename boost::range_difference<Range>::type const
d = std::distance(boost::begin(rng), first);
detail::copy_or_move(last, boost::end(rng), first);
range::resize(rng, boost::size(rng) - count);
// NOTE: In general this should be sufficient:
// return first;
// But in MSVC using the returned iterator causes
// assertion failures when iterator debugging is enabled
// Furthermore the code below should work in the case if resize()
// invalidates iterators when the container is resized down.
return boost::begin(rng) + d;
}
return first;
}
/*!
\brief Short utility to conveniently remove a range of elements from a mutable range.
It uses std::copy() and resize(). Version taking non-mutable iterators.
\ingroup utility
*/
template <typename Range>
inline typename boost::range_iterator<Range>::type
erase(Range & rng,
typename boost::range_iterator<Range const>::type cfirst,
typename boost::range_iterator<Range const>::type clast)
{
BOOST_RANGE_CONCEPT_ASSERT(( boost::RandomAccessRangeConcept<Range> ));
typename boost::range_iterator<Range>::type
first = boost::begin(rng)
+ std::distance(boost::const_begin(rng), cfirst);
typename boost::range_iterator<Range>::type
last = boost::begin(rng)
+ std::distance(boost::const_begin(rng), clast);
return erase(rng, first, last);
}
// back_inserter
template <class Container>
class back_insert_iterator
: public std::iterator<std::output_iterator_tag, void, void, void, void>
{
public:
typedef Container container_type;
explicit back_insert_iterator(Container & c)
: container(boost::addressof(c))
{}
back_insert_iterator & operator=(typename Container::value_type const& value)
{
range::push_back(*container, value);
return *this;
}
back_insert_iterator & operator* ()
{
return *this;
}
back_insert_iterator & operator++ ()
{
return *this;
}
back_insert_iterator operator++(int)
{
return *this;
}
private:
Container * container;
};
template <typename Range>
inline back_insert_iterator<Range> back_inserter(Range & rng)
{
return back_insert_iterator<Range>(rng);
}
}}} // namespace boost::geometry::range
#endif // BOOST_GEOMETRY_UTIL_RANGE_HPP