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681 lines
20 KiB
C++
681 lines
20 KiB
C++
// Boost.Geometry (aka GGL, Generic Geometry Library)
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// Copyright (c) 2007-2015 Barend Gehrels, Amsterdam, the Netherlands.
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// Copyright (c) 2008-2015 Bruno Lalande, Paris, France.
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// Copyright (c) 2009-2015 Mateusz Loskot, London, UK.
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// Copyright (c) 2014-2015 Adam Wulkiewicz, Lodz, Poland.
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// This file was modified by Oracle on 2014, 2015.
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// Modifications copyright (c) 2014-2015 Oracle and/or its affiliates.
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// Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle
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// Contributed and/or modified by Menelaos Karavelas, on behalf of Oracle
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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_CENTROID_HPP
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#define BOOST_GEOMETRY_ALGORITHMS_CENTROID_HPP
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#include <cstddef>
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#include <boost/core/ignore_unused.hpp>
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#include <boost/range.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/core/closure.hpp>
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#include <boost/geometry/core/cs.hpp>
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#include <boost/geometry/core/coordinate_dimension.hpp>
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#include <boost/geometry/core/exception.hpp>
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#include <boost/geometry/core/exterior_ring.hpp>
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#include <boost/geometry/core/interior_rings.hpp>
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#include <boost/geometry/core/tag_cast.hpp>
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#include <boost/geometry/core/tags.hpp>
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#include <boost/geometry/core/point_type.hpp>
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#include <boost/geometry/geometries/concepts/check.hpp>
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#include <boost/geometry/algorithms/assign.hpp>
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#include <boost/geometry/algorithms/convert.hpp>
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#include <boost/geometry/algorithms/detail/interior_iterator.hpp>
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#include <boost/geometry/algorithms/detail/point_on_border.hpp>
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#include <boost/geometry/algorithms/not_implemented.hpp>
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#include <boost/geometry/strategies/centroid.hpp>
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#include <boost/geometry/strategies/concepts/centroid_concept.hpp>
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#include <boost/geometry/strategies/default_strategy.hpp>
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#include <boost/geometry/views/closeable_view.hpp>
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#include <boost/geometry/util/for_each_coordinate.hpp>
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#include <boost/geometry/util/select_coordinate_type.hpp>
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#include <boost/geometry/algorithms/is_empty.hpp>
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#include <boost/geometry/algorithms/detail/centroid/translating_transformer.hpp>
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namespace boost { namespace geometry
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{
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#if ! defined(BOOST_GEOMETRY_CENTROID_NO_THROW)
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/*!
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\brief Centroid Exception
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\ingroup centroid
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\details The centroid_exception is thrown if the free centroid function is called with
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geometries for which the centroid cannot be calculated. For example: a linestring
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without points, a polygon without points, an empty multi-geometry.
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\qbk{
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[heading See also]
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\* [link geometry.reference.algorithms.centroid the centroid function]
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}
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*/
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class centroid_exception : public geometry::exception
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{
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public:
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/*!
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\brief The default constructor
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*/
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inline centroid_exception() {}
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/*!
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\brief Returns the explanatory string.
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\return Pointer to a null-terminated string with explanatory information.
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*/
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virtual char const* what() const throw()
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{
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return "Boost.Geometry Centroid calculation exception";
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}
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};
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#endif
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#ifndef DOXYGEN_NO_DETAIL
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namespace detail { namespace centroid
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{
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struct centroid_point
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{
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template<typename Point, typename PointCentroid, typename Strategy>
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static inline void apply(Point const& point, PointCentroid& centroid,
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Strategy const&)
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{
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geometry::convert(point, centroid);
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}
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};
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template
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<
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typename Indexed,
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typename Point,
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std::size_t Dimension = 0,
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std::size_t DimensionCount = dimension<Indexed>::type::value
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>
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struct centroid_indexed_calculator
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{
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typedef typename select_coordinate_type
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<
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Indexed, Point
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>::type coordinate_type;
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static inline void apply(Indexed const& indexed, Point& centroid)
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{
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coordinate_type const c1 = get<min_corner, Dimension>(indexed);
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coordinate_type const c2 = get<max_corner, Dimension>(indexed);
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coordinate_type m = c1 + c2;
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coordinate_type const two = 2;
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m /= two;
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set<Dimension>(centroid, m);
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centroid_indexed_calculator
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<
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Indexed, Point, Dimension + 1
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>::apply(indexed, centroid);
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}
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};
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template<typename Indexed, typename Point, std::size_t DimensionCount>
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struct centroid_indexed_calculator<Indexed, Point, DimensionCount, DimensionCount>
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{
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static inline void apply(Indexed const& , Point& )
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{
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}
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};
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struct centroid_indexed
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{
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template<typename Indexed, typename Point, typename Strategy>
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static inline void apply(Indexed const& indexed, Point& centroid,
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Strategy const&)
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{
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centroid_indexed_calculator
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<
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Indexed, Point
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>::apply(indexed, centroid);
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}
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};
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// There is one thing where centroid is different from e.g. within.
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// If the ring has only one point, it might make sense that
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// that point is the centroid.
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template<typename Point, typename Range>
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inline bool range_ok(Range const& range, Point& centroid)
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{
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std::size_t const n = boost::size(range);
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if (n > 1)
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{
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return true;
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}
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else if (n <= 0)
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{
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#if ! defined(BOOST_GEOMETRY_CENTROID_NO_THROW)
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throw centroid_exception();
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#else
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return false;
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#endif
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}
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else // if (n == 1)
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{
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// Take over the first point in a "coordinate neutral way"
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geometry::convert(*boost::begin(range), centroid);
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return false;
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}
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//return true; // unreachable
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}
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/*!
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\brief Calculate the centroid of a Ring or a Linestring.
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*/
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template <closure_selector Closure>
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struct centroid_range_state
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{
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template<typename Ring, typename PointTransformer, typename Strategy>
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static inline void apply(Ring const& ring,
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PointTransformer const& transformer,
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Strategy const& strategy,
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typename Strategy::state_type& state)
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{
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boost::ignore_unused(strategy);
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typedef typename geometry::point_type<Ring const>::type point_type;
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typedef typename closeable_view<Ring const, Closure>::type view_type;
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typedef typename boost::range_iterator<view_type const>::type iterator_type;
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view_type view(ring);
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iterator_type it = boost::begin(view);
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iterator_type end = boost::end(view);
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if (it != end)
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{
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typename PointTransformer::result_type
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previous_pt = transformer.apply(*it);
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for ( ++it ; it != end ; ++it)
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{
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typename PointTransformer::result_type
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pt = transformer.apply(*it);
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strategy.apply(static_cast<point_type const&>(previous_pt),
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static_cast<point_type const&>(pt),
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state);
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previous_pt = pt;
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}
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}
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}
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};
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template <closure_selector Closure>
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struct centroid_range
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{
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template<typename Range, typename Point, typename Strategy>
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static inline bool apply(Range const& range, Point& centroid,
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Strategy const& strategy)
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{
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if (range_ok(range, centroid))
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{
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// prepare translation transformer
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translating_transformer<Range> transformer(*boost::begin(range));
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typename Strategy::state_type state;
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centroid_range_state<Closure>::apply(range, transformer,
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strategy, state);
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if ( strategy.result(state, centroid) )
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{
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// translate the result back
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transformer.apply_reverse(centroid);
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return true;
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}
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}
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return false;
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}
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};
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/*!
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\brief Centroid of a polygon.
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\note Because outer ring is clockwise, inners are counter clockwise,
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triangle approach is OK and works for polygons with rings.
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*/
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struct centroid_polygon_state
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{
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template<typename Polygon, typename PointTransformer, typename Strategy>
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static inline void apply(Polygon const& poly,
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PointTransformer const& transformer,
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Strategy const& strategy,
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typename Strategy::state_type& state)
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{
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typedef typename ring_type<Polygon>::type ring_type;
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typedef centroid_range_state<geometry::closure<ring_type>::value> per_ring;
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per_ring::apply(exterior_ring(poly), transformer, strategy, state);
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typename interior_return_type<Polygon const>::type
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rings = interior_rings(poly);
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for (typename detail::interior_iterator<Polygon const>::type
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it = boost::begin(rings); it != boost::end(rings); ++it)
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{
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per_ring::apply(*it, transformer, strategy, state);
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}
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}
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};
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struct centroid_polygon
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{
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template<typename Polygon, typename Point, typename Strategy>
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static inline bool apply(Polygon const& poly, Point& centroid,
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Strategy const& strategy)
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{
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if (range_ok(exterior_ring(poly), centroid))
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{
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// prepare translation transformer
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translating_transformer<Polygon>
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transformer(*boost::begin(exterior_ring(poly)));
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typename Strategy::state_type state;
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centroid_polygon_state::apply(poly, transformer, strategy, state);
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if ( strategy.result(state, centroid) )
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{
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// translate the result back
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transformer.apply_reverse(centroid);
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return true;
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}
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}
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return false;
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}
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};
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/*!
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\brief Building block of a multi-point, to be used as Policy in the
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more generec centroid_multi
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*/
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struct centroid_multi_point_state
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{
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template <typename Point, typename PointTransformer, typename Strategy>
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static inline void apply(Point const& point,
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PointTransformer const& transformer,
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Strategy const& strategy,
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typename Strategy::state_type& state)
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{
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boost::ignore_unused(strategy);
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strategy.apply(static_cast<Point const&>(transformer.apply(point)),
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state);
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}
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};
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/*!
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\brief Generic implementation which calls a policy to calculate the
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centroid of the total of its single-geometries
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\details The Policy is, in general, the single-version, with state. So
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detail::centroid::centroid_polygon_state is used as a policy for this
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detail::centroid::centroid_multi
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*/
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template <typename Policy>
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struct centroid_multi
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{
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template <typename Multi, typename Point, typename Strategy>
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static inline bool apply(Multi const& multi,
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Point& centroid,
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Strategy const& strategy)
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{
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#if ! defined(BOOST_GEOMETRY_CENTROID_NO_THROW)
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// If there is nothing in any of the ranges, it is not possible
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// to calculate the centroid
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if (geometry::is_empty(multi))
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{
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throw centroid_exception();
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}
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#endif
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// prepare translation transformer
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translating_transformer<Multi> transformer(multi);
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typename Strategy::state_type state;
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for (typename boost::range_iterator<Multi const>::type
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it = boost::begin(multi);
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it != boost::end(multi);
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++it)
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{
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Policy::apply(*it, transformer, strategy, state);
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}
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if ( strategy.result(state, centroid) )
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{
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// translate the result back
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transformer.apply_reverse(centroid);
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return true;
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}
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return false;
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}
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};
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template <typename Algorithm>
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struct centroid_linear_areal
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{
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template <typename Geometry, typename Point, typename Strategy>
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static inline void apply(Geometry const& geom,
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Point& centroid,
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Strategy const& strategy)
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{
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if ( ! Algorithm::apply(geom, centroid, strategy) )
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{
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geometry::point_on_border(centroid, geom);
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}
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}
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};
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}} // namespace detail::centroid
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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 Geometry,
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typename Tag = typename tag<Geometry>::type
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>
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struct centroid: not_implemented<Tag>
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{};
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template <typename Geometry>
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struct centroid<Geometry, point_tag>
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: detail::centroid::centroid_point
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{};
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template <typename Box>
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struct centroid<Box, box_tag>
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: detail::centroid::centroid_indexed
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{};
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template <typename Segment>
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struct centroid<Segment, segment_tag>
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: detail::centroid::centroid_indexed
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{};
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template <typename Ring>
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struct centroid<Ring, ring_tag>
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: detail::centroid::centroid_linear_areal
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<
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detail::centroid::centroid_range<geometry::closure<Ring>::value>
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>
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{};
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template <typename Linestring>
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struct centroid<Linestring, linestring_tag>
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: detail::centroid::centroid_linear_areal
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<
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detail::centroid::centroid_range<closed>
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>
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{};
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template <typename Polygon>
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struct centroid<Polygon, polygon_tag>
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: detail::centroid::centroid_linear_areal
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<
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detail::centroid::centroid_polygon
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>
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{};
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template <typename MultiLinestring>
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struct centroid<MultiLinestring, multi_linestring_tag>
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: detail::centroid::centroid_linear_areal
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<
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detail::centroid::centroid_multi
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<
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detail::centroid::centroid_range_state<closed>
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>
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>
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{};
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template <typename MultiPolygon>
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struct centroid<MultiPolygon, multi_polygon_tag>
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: detail::centroid::centroid_linear_areal
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<
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detail::centroid::centroid_multi
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<
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detail::centroid::centroid_polygon_state
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>
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>
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{};
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template <typename MultiPoint>
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struct centroid<MultiPoint, multi_point_tag>
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: detail::centroid::centroid_multi
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<
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detail::centroid::centroid_multi_point_state
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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_strategy {
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template <typename Geometry>
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struct centroid
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{
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template <typename Point, typename Strategy>
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static inline void apply(Geometry const& geometry, Point& out, Strategy const& strategy)
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{
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dispatch::centroid<Geometry>::apply(geometry, out, strategy);
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}
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template <typename Point>
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static inline void apply(Geometry const& geometry, Point& out, default_strategy)
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{
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typedef typename strategy::centroid::services::default_strategy
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<
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typename cs_tag<Geometry>::type,
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typename tag_cast
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<
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typename tag<Geometry>::type,
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pointlike_tag,
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linear_tag,
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areal_tag
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>::type,
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dimension<Geometry>::type::value,
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Point,
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Geometry
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>::type strategy_type;
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dispatch::centroid<Geometry>::apply(geometry, out, strategy_type());
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}
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};
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} // namespace resolve_strategy
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namespace resolve_variant {
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template <typename Geometry>
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struct centroid
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{
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template <typename Point, typename Strategy>
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static inline void apply(Geometry const& geometry, Point& out, Strategy const& strategy)
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{
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concepts::check_concepts_and_equal_dimensions<Point, Geometry const>();
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resolve_strategy::centroid<Geometry>::apply(geometry, out, strategy);
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}
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};
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template <BOOST_VARIANT_ENUM_PARAMS(typename T)>
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struct centroid<boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> >
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{
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template <typename Point, typename Strategy>
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struct visitor: boost::static_visitor<void>
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{
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Point& m_out;
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Strategy const& m_strategy;
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visitor(Point& out, Strategy const& strategy)
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: m_out(out), m_strategy(strategy)
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{}
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template <typename Geometry>
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void operator()(Geometry const& geometry) const
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{
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centroid<Geometry>::apply(geometry, m_out, m_strategy);
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}
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};
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template <typename Point, typename Strategy>
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static inline void
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apply(boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> const& geometry,
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Point& out,
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Strategy const& strategy)
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{
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boost::apply_visitor(visitor<Point, Strategy>(out, strategy), geometry);
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}
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};
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} // namespace resolve_variant
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/*!
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\brief \brief_calc{centroid} \brief_strategy
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\ingroup centroid
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\details \details_calc{centroid,geometric center (or: center of mass)}. \details_strategy_reasons
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\tparam Geometry \tparam_geometry
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\tparam Point \tparam_point
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\tparam Strategy \tparam_strategy{Centroid}
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\param geometry \param_geometry
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\param c \param_point \param_set{centroid}
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\param strategy \param_strategy{centroid}
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\qbk{distinguish,with strategy}
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\qbk{[include reference/algorithms/centroid.qbk]}
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\qbk{[include reference/algorithms/centroid_strategies.qbk]}
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}
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*/
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template<typename Geometry, typename Point, typename Strategy>
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inline void centroid(Geometry const& geometry, Point& c,
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Strategy const& strategy)
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{
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resolve_variant::centroid<Geometry>::apply(geometry, c, strategy);
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}
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|
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/*!
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\brief \brief_calc{centroid}
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\ingroup centroid
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|
\details \details_calc{centroid,geometric center (or: center of mass)}. \details_default_strategy
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\tparam Geometry \tparam_geometry
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\tparam Point \tparam_point
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\param geometry \param_geometry
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\param c The calculated centroid will be assigned to this point reference
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\qbk{[include reference/algorithms/centroid.qbk]}
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\qbk{
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[heading Example]
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[centroid]
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[centroid_output]
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}
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*/
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template<typename Geometry, typename Point>
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inline void centroid(Geometry const& geometry, Point& c)
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{
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geometry::centroid(geometry, c, default_strategy());
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}
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|
|
|
|
|
/*!
|
|
\brief \brief_calc{centroid}
|
|
\ingroup centroid
|
|
\details \details_calc{centroid,geometric center (or: center of mass)}. \details_return{centroid}.
|
|
\tparam Point \tparam_point
|
|
\tparam Geometry \tparam_geometry
|
|
\param geometry \param_geometry
|
|
\return \return_calc{centroid}
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|
|
|
\qbk{[include reference/algorithms/centroid.qbk]}
|
|
*/
|
|
template<typename Point, typename Geometry>
|
|
inline Point return_centroid(Geometry const& geometry)
|
|
{
|
|
Point c;
|
|
geometry::centroid(geometry, c);
|
|
return c;
|
|
}
|
|
|
|
/*!
|
|
\brief \brief_calc{centroid} \brief_strategy
|
|
\ingroup centroid
|
|
\details \details_calc{centroid,geometric center (or: center of mass)}. \details_return{centroid}. \details_strategy_reasons
|
|
\tparam Point \tparam_point
|
|
\tparam Geometry \tparam_geometry
|
|
\tparam Strategy \tparam_strategy{centroid}
|
|
\param geometry \param_geometry
|
|
\param strategy \param_strategy{centroid}
|
|
\return \return_calc{centroid}
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|
|
|
\qbk{distinguish,with strategy}
|
|
\qbk{[include reference/algorithms/centroid.qbk]}
|
|
\qbk{[include reference/algorithms/centroid_strategies.qbk]}
|
|
*/
|
|
template<typename Point, typename Geometry, typename Strategy>
|
|
inline Point return_centroid(Geometry const& geometry, Strategy const& strategy)
|
|
{
|
|
Point c;
|
|
geometry::centroid(geometry, c, strategy);
|
|
return c;
|
|
}
|
|
|
|
|
|
}} // namespace boost::geometry
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|
|
|
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|
#endif // BOOST_GEOMETRY_ALGORITHMS_CENTROID_HPP
|