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560 lines
17 KiB
C++
560 lines
17 KiB
C++
// Boost.Geometry (aka GGL, Generic Geometry Library)
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// Copyright (c) 2007-2012 Barend Gehrels, Amsterdam, the Netherlands.
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// Copyright (c) 2008-2012 Bruno Lalande, Paris, France.
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// Copyright (c) 2009-2012 Mateusz Loskot, London, UK.
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// Copyright (c) 2014 Adam Wulkiewicz, Lodz, Poland.
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// Parts of Boost.Geometry are redesigned from Geodan's Geographic Library
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// (geolib/GGL), copyright (c) 1995-2010 Geodan, Amsterdam, the Netherlands.
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// Use, modification and distribution is subject to the Boost Software License,
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// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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#ifndef BOOST_GEOMETRY_ALGORITHMS_CONVERT_HPP
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#define BOOST_GEOMETRY_ALGORITHMS_CONVERT_HPP
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#include <cstddef>
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#include <boost/numeric/conversion/cast.hpp>
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#include <boost/range.hpp>
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#include <boost/type_traits/is_array.hpp>
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#include <boost/type_traits/remove_reference.hpp>
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#include <boost/variant/apply_visitor.hpp>
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#include <boost/variant/static_visitor.hpp>
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#include <boost/variant/variant_fwd.hpp>
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#include <boost/geometry/arithmetic/arithmetic.hpp>
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#include <boost/geometry/algorithms/not_implemented.hpp>
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#include <boost/geometry/algorithms/append.hpp>
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#include <boost/geometry/algorithms/clear.hpp>
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#include <boost/geometry/algorithms/for_each.hpp>
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#include <boost/geometry/algorithms/detail/assign_values.hpp>
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#include <boost/geometry/algorithms/detail/assign_box_corners.hpp>
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#include <boost/geometry/algorithms/detail/assign_indexed_point.hpp>
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#include <boost/geometry/algorithms/detail/convert_point_to_point.hpp>
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#include <boost/geometry/algorithms/detail/convert_indexed_to_indexed.hpp>
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#include <boost/geometry/algorithms/detail/interior_iterator.hpp>
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#include <boost/geometry/views/closeable_view.hpp>
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#include <boost/geometry/views/reversible_view.hpp>
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#include <boost/geometry/util/range.hpp>
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#include <boost/geometry/core/cs.hpp>
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#include <boost/geometry/core/closure.hpp>
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#include <boost/geometry/core/point_order.hpp>
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#include <boost/geometry/core/tags.hpp>
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#include <boost/geometry/geometries/concepts/check.hpp>
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namespace boost { namespace geometry
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{
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// Silence warning C4127: conditional expression is constant
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// Silence warning C4512: assignment operator could not be generated
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#if defined(_MSC_VER)
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#pragma warning(push)
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#pragma warning(disable : 4127 4512)
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#endif
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#ifndef DOXYGEN_NO_DETAIL
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namespace detail { namespace conversion
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{
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template
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<
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typename Point,
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typename Box,
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std::size_t Index,
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std::size_t Dimension,
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std::size_t DimensionCount
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>
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struct point_to_box
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{
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static inline void apply(Point const& point, Box& box)
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{
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typedef typename coordinate_type<Box>::type coordinate_type;
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set<Index, Dimension>(box,
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boost::numeric_cast<coordinate_type>(get<Dimension>(point)));
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point_to_box
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<
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Point, Box,
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Index, Dimension + 1, DimensionCount
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>::apply(point, box);
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}
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};
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template
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<
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typename Point,
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typename Box,
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std::size_t Index,
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std::size_t DimensionCount
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>
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struct point_to_box<Point, Box, Index, DimensionCount, DimensionCount>
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{
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static inline void apply(Point const& , Box& )
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{}
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};
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template <typename Box, typename Range, bool Close, bool Reverse>
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struct box_to_range
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{
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static inline void apply(Box const& box, Range& range)
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{
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traits::resize<Range>::apply(range, Close ? 5 : 4);
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assign_box_corners_oriented<Reverse>(box, range);
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if (Close)
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{
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range::at(range, 4) = range::at(range, 0);
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}
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}
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};
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template <typename Segment, typename Range>
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struct segment_to_range
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{
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static inline void apply(Segment const& segment, Range& range)
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{
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traits::resize<Range>::apply(range, 2);
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typename boost::range_iterator<Range>::type it = boost::begin(range);
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assign_point_from_index<0>(segment, *it);
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++it;
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assign_point_from_index<1>(segment, *it);
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}
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};
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template
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<
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typename Range1,
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typename Range2,
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bool Reverse = false
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>
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struct range_to_range
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{
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typedef typename reversible_view
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<
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Range1 const,
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Reverse ? iterate_reverse : iterate_forward
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>::type rview_type;
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typedef typename closeable_view
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<
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rview_type const,
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geometry::closure<Range1>::value
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>::type view_type;
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static inline void apply(Range1 const& source, Range2& destination)
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{
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geometry::clear(destination);
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rview_type rview(source);
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// We consider input always as closed, and skip last
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// point for open output.
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view_type view(rview);
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typedef typename boost::range_size<Range1>::type size_type;
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size_type n = boost::size(view);
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if (geometry::closure<Range2>::value == geometry::open)
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{
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n--;
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}
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// If size == 0 && geometry::open <=> n = numeric_limits<size_type>::max()
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// but ok, sice below it == end()
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size_type i = 0;
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for (typename boost::range_iterator<view_type const>::type it
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= boost::begin(view);
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it != boost::end(view) && i < n;
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++it, ++i)
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{
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geometry::append(destination, *it);
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}
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}
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};
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template <typename Polygon1, typename Polygon2>
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struct polygon_to_polygon
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{
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typedef range_to_range
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<
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typename geometry::ring_type<Polygon1>::type,
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typename geometry::ring_type<Polygon2>::type,
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geometry::point_order<Polygon1>::value
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!= geometry::point_order<Polygon2>::value
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> per_ring;
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static inline void apply(Polygon1 const& source, Polygon2& destination)
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{
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// Clearing managed per ring, and in the resizing of interior rings
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per_ring::apply(geometry::exterior_ring(source),
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geometry::exterior_ring(destination));
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// Container should be resizeable
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traits::resize
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<
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typename boost::remove_reference
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<
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typename traits::interior_mutable_type<Polygon2>::type
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>::type
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>::apply(interior_rings(destination), num_interior_rings(source));
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typename interior_return_type<Polygon1 const>::type
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rings_source = interior_rings(source);
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typename interior_return_type<Polygon2>::type
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rings_dest = interior_rings(destination);
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typename detail::interior_iterator<Polygon1 const>::type
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it_source = boost::begin(rings_source);
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typename detail::interior_iterator<Polygon2>::type
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it_dest = boost::begin(rings_dest);
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for ( ; it_source != boost::end(rings_source); ++it_source, ++it_dest)
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{
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per_ring::apply(*it_source, *it_dest);
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}
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}
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};
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template <typename Single, typename Multi, typename Policy>
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struct single_to_multi: private Policy
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{
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static inline void apply(Single const& single, Multi& multi)
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{
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traits::resize<Multi>::apply(multi, 1);
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Policy::apply(single, *boost::begin(multi));
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}
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};
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template <typename Multi1, typename Multi2, typename Policy>
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struct multi_to_multi: private Policy
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{
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static inline void apply(Multi1 const& multi1, Multi2& multi2)
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{
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traits::resize<Multi2>::apply(multi2, boost::size(multi1));
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typename boost::range_iterator<Multi1 const>::type it1
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= boost::begin(multi1);
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typename boost::range_iterator<Multi2>::type it2
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= boost::begin(multi2);
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for (; it1 != boost::end(multi1); ++it1, ++it2)
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{
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Policy::apply(*it1, *it2);
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}
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}
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};
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}} // namespace detail::conversion
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#endif // DOXYGEN_NO_DETAIL
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#ifndef DOXYGEN_NO_DISPATCH
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namespace dispatch
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{
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template
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<
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typename Geometry1, typename Geometry2,
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typename Tag1 = typename tag_cast<typename tag<Geometry1>::type, multi_tag>::type,
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typename Tag2 = typename tag_cast<typename tag<Geometry2>::type, multi_tag>::type,
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std::size_t DimensionCount = dimension<Geometry1>::type::value,
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bool UseAssignment = boost::is_same<Geometry1, Geometry2>::value
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&& !boost::is_array<Geometry1>::value
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>
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struct convert: not_implemented<Tag1, Tag2, boost::mpl::int_<DimensionCount> >
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{};
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template
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<
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typename Geometry1, typename Geometry2,
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typename Tag,
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std::size_t DimensionCount
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>
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struct convert<Geometry1, Geometry2, Tag, Tag, DimensionCount, true>
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{
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// Same geometry type -> copy whole geometry
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static inline void apply(Geometry1 const& source, Geometry2& destination)
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{
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destination = source;
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}
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};
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template
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<
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typename Geometry1, typename Geometry2,
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std::size_t DimensionCount
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>
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struct convert<Geometry1, Geometry2, point_tag, point_tag, DimensionCount, false>
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: detail::conversion::point_to_point<Geometry1, Geometry2, 0, DimensionCount>
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{};
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template
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<
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typename Box1, typename Box2,
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std::size_t DimensionCount
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>
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struct convert<Box1, Box2, box_tag, box_tag, DimensionCount, false>
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: detail::conversion::indexed_to_indexed<Box1, Box2, 0, DimensionCount>
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{};
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template
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<
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typename Segment1, typename Segment2,
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std::size_t DimensionCount
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>
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struct convert<Segment1, Segment2, segment_tag, segment_tag, DimensionCount, false>
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: detail::conversion::indexed_to_indexed<Segment1, Segment2, 0, DimensionCount>
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{};
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template <typename Segment, typename LineString, std::size_t DimensionCount>
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struct convert<Segment, LineString, segment_tag, linestring_tag, DimensionCount, false>
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: detail::conversion::segment_to_range<Segment, LineString>
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{};
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template <typename Ring1, typename Ring2, std::size_t DimensionCount>
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struct convert<Ring1, Ring2, ring_tag, ring_tag, DimensionCount, false>
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: detail::conversion::range_to_range
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<
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Ring1,
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Ring2,
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geometry::point_order<Ring1>::value
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!= geometry::point_order<Ring2>::value
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>
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{};
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template <typename LineString1, typename LineString2, std::size_t DimensionCount>
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struct convert<LineString1, LineString2, linestring_tag, linestring_tag, DimensionCount, false>
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: detail::conversion::range_to_range<LineString1, LineString2>
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{};
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template <typename Polygon1, typename Polygon2, std::size_t DimensionCount>
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struct convert<Polygon1, Polygon2, polygon_tag, polygon_tag, DimensionCount, false>
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: detail::conversion::polygon_to_polygon<Polygon1, Polygon2>
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{};
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template <typename Box, typename Ring>
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struct convert<Box, Ring, box_tag, ring_tag, 2, false>
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: detail::conversion::box_to_range
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<
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Box,
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Ring,
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geometry::closure<Ring>::value == closed,
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geometry::point_order<Ring>::value == counterclockwise
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>
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{};
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template <typename Box, typename Polygon>
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struct convert<Box, Polygon, box_tag, polygon_tag, 2, false>
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{
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static inline void apply(Box const& box, Polygon& polygon)
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{
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typedef typename ring_type<Polygon>::type ring_type;
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convert
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<
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Box, ring_type,
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box_tag, ring_tag,
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2, false
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>::apply(box, exterior_ring(polygon));
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}
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};
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template <typename Point, typename Box, std::size_t DimensionCount>
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struct convert<Point, Box, point_tag, box_tag, DimensionCount, false>
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{
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static inline void apply(Point const& point, Box& box)
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{
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detail::conversion::point_to_box
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<
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Point, Box, min_corner, 0, DimensionCount
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>::apply(point, box);
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detail::conversion::point_to_box
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<
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Point, Box, max_corner, 0, DimensionCount
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>::apply(point, box);
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}
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};
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template <typename Ring, typename Polygon, std::size_t DimensionCount>
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struct convert<Ring, Polygon, ring_tag, polygon_tag, DimensionCount, false>
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{
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static inline void apply(Ring const& ring, Polygon& polygon)
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{
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typedef typename ring_type<Polygon>::type ring_type;
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convert
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<
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Ring, ring_type,
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ring_tag, ring_tag,
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DimensionCount, false
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>::apply(ring, exterior_ring(polygon));
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}
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};
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template <typename Polygon, typename Ring, std::size_t DimensionCount>
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struct convert<Polygon, Ring, polygon_tag, ring_tag, DimensionCount, false>
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{
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static inline void apply(Polygon const& polygon, Ring& ring)
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{
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typedef typename ring_type<Polygon>::type ring_type;
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convert
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<
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ring_type, Ring,
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ring_tag, ring_tag,
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DimensionCount, false
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>::apply(exterior_ring(polygon), ring);
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}
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};
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// Dispatch for multi <-> multi, specifying their single-version as policy.
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// Note that, even if the multi-types are mutually different, their single
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// version types might be the same and therefore we call boost::is_same again
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template <typename Multi1, typename Multi2, std::size_t DimensionCount>
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struct convert<Multi1, Multi2, multi_tag, multi_tag, DimensionCount, false>
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: detail::conversion::multi_to_multi
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<
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Multi1,
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Multi2,
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convert
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<
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typename boost::range_value<Multi1>::type,
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typename boost::range_value<Multi2>::type,
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typename single_tag_of
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<
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typename tag<Multi1>::type
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>::type,
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typename single_tag_of
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<
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typename tag<Multi2>::type
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>::type,
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DimensionCount
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>
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>
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{};
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template <typename Single, typename Multi, typename SingleTag, std::size_t DimensionCount>
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struct convert<Single, Multi, SingleTag, multi_tag, DimensionCount, false>
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: detail::conversion::single_to_multi
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<
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Single,
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Multi,
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convert
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<
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Single,
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typename boost::range_value<Multi>::type,
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typename tag<Single>::type,
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typename single_tag_of
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<
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typename tag<Multi>::type
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>::type,
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DimensionCount,
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false
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>
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>
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{};
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} // namespace dispatch
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#endif // DOXYGEN_NO_DISPATCH
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namespace resolve_variant {
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template <typename Geometry1, typename Geometry2>
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struct convert
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{
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static inline void apply(Geometry1 const& geometry1, Geometry2& geometry2)
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{
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concepts::check_concepts_and_equal_dimensions<Geometry1 const, Geometry2>();
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dispatch::convert<Geometry1, Geometry2>::apply(geometry1, geometry2);
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}
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};
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template <BOOST_VARIANT_ENUM_PARAMS(typename T), typename Geometry2>
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struct convert<boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)>, Geometry2>
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{
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struct visitor: static_visitor<void>
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{
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Geometry2& m_geometry2;
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visitor(Geometry2& geometry2)
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: m_geometry2(geometry2)
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{}
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template <typename Geometry1>
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inline void operator()(Geometry1 const& geometry1) const
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{
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convert<Geometry1, Geometry2>::apply(geometry1, m_geometry2);
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}
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};
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static inline void apply(
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boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> const& geometry1,
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Geometry2& geometry2
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)
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{
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boost::apply_visitor(visitor(geometry2), geometry1);
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}
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};
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}
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/*!
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\brief Converts one geometry to another geometry
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\details The convert algorithm converts one geometry, e.g. a BOX, to another
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geometry, e.g. a RING. This only works if it is possible and applicable.
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If the point-order is different, or the closure is different between two
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geometry types, it will be converted correctly by explicitly reversing the
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points or closing or opening the polygon rings.
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\ingroup convert
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\tparam Geometry1 \tparam_geometry
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\tparam Geometry2 \tparam_geometry
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\param geometry1 \param_geometry (source)
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\param geometry2 \param_geometry (target)
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\qbk{[include reference/algorithms/convert.qbk]}
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*/
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template <typename Geometry1, typename Geometry2>
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inline void convert(Geometry1 const& geometry1, Geometry2& geometry2)
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{
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resolve_variant::convert<Geometry1, Geometry2>::apply(geometry1, geometry2);
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}
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#if defined(_MSC_VER)
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#pragma warning(pop)
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#endif
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}} // namespace boost::geometry
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#endif // BOOST_GEOMETRY_ALGORITHMS_CONVERT_HPP
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