%PDF-
%PDF-
Mini Shell
Mini Shell
// Boost.Geometry (aka GGL, Generic Geometry Library)
// Copyright (c) 2014, 2019, Oracle and/or its affiliates.
// Contributed and/or modified by Menelaos Karavelas, on behalf of Oracle
// Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle
// Licensed under the Boost Software License version 1.0.
// http://www.boost.org/users/license.html
#ifndef BOOST_GEOMETRY_ALGORITHMS_DETAIL_DISTANCE_GEOMETRY_TO_SEGMENT_OR_BOX_HPP
#define BOOST_GEOMETRY_ALGORITHMS_DETAIL_DISTANCE_GEOMETRY_TO_SEGMENT_OR_BOX_HPP
#include <iterator>
#include <boost/range.hpp>
#include <boost/geometry/core/point_type.hpp>
#include <boost/geometry/core/tag.hpp>
#include <boost/geometry/core/tags.hpp>
#include <boost/geometry/strategies/distance.hpp>
#include <boost/geometry/strategies/tags.hpp>
#include <boost/geometry/algorithms/assign.hpp>
#include <boost/geometry/algorithms/intersects.hpp>
#include <boost/geometry/algorithms/num_points.hpp>
#include <boost/geometry/iterators/point_iterator.hpp>
#include <boost/geometry/iterators/segment_iterator.hpp>
#include <boost/geometry/algorithms/dispatch/distance.hpp>
#include <boost/geometry/algorithms/detail/closest_feature/geometry_to_range.hpp>
#include <boost/geometry/algorithms/detail/closest_feature/point_to_range.hpp>
#include <boost/geometry/algorithms/detail/distance/is_comparable.hpp>
#include <boost/geometry/util/condition.hpp>
namespace boost { namespace geometry
{
#ifndef DOXYGEN_NO_DETAIL
namespace detail { namespace distance
{
// closure of segment or box point range
template
<
typename SegmentOrBox,
typename Tag = typename tag<SegmentOrBox>::type
>
struct segment_or_box_point_range_closure
: not_implemented<SegmentOrBox>
{};
template <typename Segment>
struct segment_or_box_point_range_closure<Segment, segment_tag>
{
static const closure_selector value = closed;
};
template <typename Box>
struct segment_or_box_point_range_closure<Box, box_tag>
{
static const closure_selector value = open;
};
template
<
typename Geometry,
typename SegmentOrBox,
typename Strategy,
typename Tag = typename tag<Geometry>::type
>
class geometry_to_segment_or_box
{
private:
typedef typename point_type<SegmentOrBox>::type segment_or_box_point;
typedef typename strategy::distance::services::comparable_type
<
Strategy
>::type comparable_strategy;
typedef detail::closest_feature::point_to_point_range
<
typename point_type<Geometry>::type,
std::vector<segment_or_box_point>,
segment_or_box_point_range_closure<SegmentOrBox>::value,
comparable_strategy
> point_to_point_range;
typedef detail::closest_feature::geometry_to_range geometry_to_range;
typedef typename strategy::distance::services::return_type
<
comparable_strategy,
typename point_type<Geometry>::type,
segment_or_box_point
>::type comparable_return_type;
// assign the new minimum value for an iterator of the point range
// of a segment or a box
template
<
typename SegOrBox,
typename SegOrBoxTag = typename tag<SegOrBox>::type
>
struct assign_new_min_iterator
: not_implemented<SegOrBox>
{};
template <typename Segment>
struct assign_new_min_iterator<Segment, segment_tag>
{
template <typename Iterator>
static inline void apply(Iterator&, Iterator)
{
}
};
template <typename Box>
struct assign_new_min_iterator<Box, box_tag>
{
template <typename Iterator>
static inline void apply(Iterator& it_min, Iterator it)
{
it_min = it;
}
};
// assign the points of a segment or a box to a range
template
<
typename SegOrBox,
typename PointRange,
typename SegOrBoxTag = typename tag<SegOrBox>::type
>
struct assign_segment_or_box_points
{};
template <typename Segment, typename PointRange>
struct assign_segment_or_box_points<Segment, PointRange, segment_tag>
{
static inline void apply(Segment const& segment, PointRange& range)
{
detail::assign_point_from_index<0>(segment, range[0]);
detail::assign_point_from_index<1>(segment, range[1]);
}
};
template <typename Box, typename PointRange>
struct assign_segment_or_box_points<Box, PointRange, box_tag>
{
static inline void apply(Box const& box, PointRange& range)
{
detail::assign_box_corners_oriented<true>(box, range);
}
};
template
<
typename SegOrBox,
typename SegOrBoxTag = typename tag<SegOrBox>::type
>
struct intersects
{
static inline bool apply(Geometry const& g1, SegOrBox const& g2, Strategy const&)
{
return geometry::intersects(g1, g2);
}
};
template <typename SegOrBox>
struct intersects<SegOrBox, segment_tag>
{
static inline bool apply(Geometry const& g1, SegOrBox const& g2, Strategy const& s)
{
return geometry::intersects(g1, g2, s.get_relate_segment_segment_strategy());
}
};
public:
typedef typename strategy::distance::services::return_type
<
Strategy,
typename point_type<Geometry>::type,
segment_or_box_point
>::type return_type;
static inline return_type apply(Geometry const& geometry,
SegmentOrBox const& segment_or_box,
Strategy const& strategy,
bool check_intersection = true)
{
typedef geometry::point_iterator<Geometry const> point_iterator_type;
typedef geometry::segment_iterator
<
Geometry const
> segment_iterator_type;
typedef typename boost::range_const_iterator
<
std::vector<segment_or_box_point>
>::type seg_or_box_const_iterator;
typedef assign_new_min_iterator<SegmentOrBox> assign_new_value;
if (check_intersection
&& intersects<SegmentOrBox>::apply(geometry, segment_or_box, strategy))
{
return 0;
}
comparable_strategy cstrategy =
strategy::distance::services::get_comparable
<
Strategy
>::apply(strategy);
// get all points of the segment or the box
std::vector<segment_or_box_point>
seg_or_box_points(geometry::num_points(segment_or_box));
assign_segment_or_box_points
<
SegmentOrBox,
std::vector<segment_or_box_point>
>::apply(segment_or_box, seg_or_box_points);
// consider all distances of the points in the geometry to the
// segment or box
comparable_return_type cd_min1(0);
point_iterator_type pit_min;
seg_or_box_const_iterator it_min1 = boost::const_begin(seg_or_box_points);
seg_or_box_const_iterator it_min2 = it_min1;
++it_min2;
bool first = true;
for (point_iterator_type pit = points_begin(geometry);
pit != points_end(geometry); ++pit, first = false)
{
comparable_return_type cd;
std::pair
<
seg_or_box_const_iterator, seg_or_box_const_iterator
> it_pair
= point_to_point_range::apply(*pit,
boost::const_begin(seg_or_box_points),
boost::const_end(seg_or_box_points),
cstrategy,
cd);
if (first || cd < cd_min1)
{
cd_min1 = cd;
pit_min = pit;
assign_new_value::apply(it_min1, it_pair.first);
assign_new_value::apply(it_min2, it_pair.second);
}
}
// consider all distances of the points in the segment or box to the
// segments of the geometry
comparable_return_type cd_min2(0);
segment_iterator_type sit_min;
seg_or_box_const_iterator it_min;
first = true;
for (seg_or_box_const_iterator it = boost::const_begin(seg_or_box_points);
it != boost::const_end(seg_or_box_points); ++it, first = false)
{
comparable_return_type cd;
segment_iterator_type sit
= geometry_to_range::apply(*it,
segments_begin(geometry),
segments_end(geometry),
cstrategy,
cd);
if (first || cd < cd_min2)
{
cd_min2 = cd;
it_min = it;
sit_min = sit;
}
}
if (BOOST_GEOMETRY_CONDITION(is_comparable<Strategy>::value))
{
return (std::min)(cd_min1, cd_min2);
}
if (cd_min1 < cd_min2)
{
return strategy.apply(*pit_min, *it_min1, *it_min2);
}
else
{
return dispatch::distance
<
segment_or_box_point,
typename std::iterator_traits
<
segment_iterator_type
>::value_type,
Strategy
>::apply(*it_min, *sit_min, strategy);
}
}
static inline return_type
apply(SegmentOrBox const& segment_or_box, Geometry const& geometry,
Strategy const& strategy, bool check_intersection = true)
{
return apply(geometry, segment_or_box, strategy, check_intersection);
}
};
template <typename MultiPoint, typename SegmentOrBox, typename Strategy>
class geometry_to_segment_or_box
<
MultiPoint, SegmentOrBox, Strategy, multi_point_tag
>
{
private:
typedef detail::closest_feature::geometry_to_range base_type;
typedef typename boost::range_iterator
<
MultiPoint const
>::type iterator_type;
typedef detail::closest_feature::geometry_to_range geometry_to_range;
public:
typedef typename strategy::distance::services::return_type
<
Strategy,
typename point_type<SegmentOrBox>::type,
typename point_type<MultiPoint>::type
>::type return_type;
static inline return_type apply(MultiPoint const& multipoint,
SegmentOrBox const& segment_or_box,
Strategy const& strategy)
{
namespace sds = strategy::distance::services;
typename sds::return_type
<
typename sds::comparable_type<Strategy>::type,
typename point_type<SegmentOrBox>::type,
typename point_type<MultiPoint>::type
>::type cd_min;
iterator_type it_min
= geometry_to_range::apply(segment_or_box,
boost::begin(multipoint),
boost::end(multipoint),
sds::get_comparable
<
Strategy
>::apply(strategy),
cd_min);
return
is_comparable<Strategy>::value
?
cd_min
:
dispatch::distance
<
typename point_type<MultiPoint>::type,
SegmentOrBox,
Strategy
>::apply(*it_min, segment_or_box, strategy);
}
};
}} // namespace detail::distance
#endif // DOXYGEN_NO_DETAIL
#ifndef DOXYGEN_NO_DISPATCH
namespace dispatch
{
template <typename Linear, typename Segment, typename Strategy>
struct distance
<
Linear, Segment, Strategy, linear_tag, segment_tag,
strategy_tag_distance_point_segment, false
> : detail::distance::geometry_to_segment_or_box<Linear, Segment, Strategy>
{};
template <typename Areal, typename Segment, typename Strategy>
struct distance
<
Areal, Segment, Strategy, areal_tag, segment_tag,
strategy_tag_distance_point_segment, false
> : detail::distance::geometry_to_segment_or_box<Areal, Segment, Strategy>
{};
template <typename Segment, typename Areal, typename Strategy>
struct distance
<
Segment, Areal, Strategy, segment_tag, areal_tag,
strategy_tag_distance_point_segment, false
> : detail::distance::geometry_to_segment_or_box<Areal, Segment, Strategy>
{};
template <typename Linear, typename Box, typename Strategy>
struct distance
<
Linear, Box, Strategy, linear_tag, box_tag,
strategy_tag_distance_point_segment, false
> : detail::distance::geometry_to_segment_or_box
<
Linear, Box, Strategy
>
{};
template <typename Areal, typename Box, typename Strategy>
struct distance
<
Areal, Box, Strategy, areal_tag, box_tag,
strategy_tag_distance_point_segment, false
> : detail::distance::geometry_to_segment_or_box<Areal, Box, Strategy>
{};
template <typename MultiPoint, typename Segment, typename Strategy>
struct distance
<
MultiPoint, Segment, Strategy,
multi_point_tag, segment_tag,
strategy_tag_distance_point_segment, false
> : detail::distance::geometry_to_segment_or_box
<
MultiPoint, Segment, Strategy
>
{};
template <typename MultiPoint, typename Box, typename Strategy>
struct distance
<
MultiPoint, Box, Strategy,
multi_point_tag, box_tag,
strategy_tag_distance_point_box, false
> : detail::distance::geometry_to_segment_or_box
<
MultiPoint, Box, Strategy
>
{};
} // namespace dispatch
#endif // DOXYGEN_NO_DISPATCH
}} // namespace boost::geometry
#endif // BOOST_GEOMETRY_ALGORITHMS_DETAIL_DISTANCE_GEOMETRY_TO_SEGMENT_OR_BOX_HPP
Zerion Mini Shell 1.0