vamp-build-and-test: DEPENDENCIES/generic/include/boost/geometry/algorithms/simplify.hpp annotate

annotate DEPENDENCIES/generic/include/boost/geometry/algorithms/simplify.hpp @ 125:34e428693f5d vext

Vext -> Repoint

author	Chris Cannam
date	Thu, 14 Jun 2018 11:15:39 +0100
parents	c530137014c0
children

rev	line source
Chris@16	1 // Boost.Geometry (aka GGL, Generic Geometry Library)
Chris@16	2
Chris@101	3 // Copyright (c) 2007-2015 Barend Gehrels, Amsterdam, the Netherlands.
Chris@101	4 // Copyright (c) 2008-2015 Bruno Lalande, Paris, France.
Chris@101	5 // Copyright (c) 2009-2015 Mateusz Loskot, London, UK.
Chris@16	6
Chris@16	7 // Parts of Boost.Geometry are redesigned from Geodan's Geographic Library
Chris@16	8 // (geolib/GGL), copyright (c) 1995-2010 Geodan, Amsterdam, the Netherlands.
Chris@16	9
Chris@16	10 // Use, modification and distribution is subject to the Boost Software License,
Chris@16	11 // Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
Chris@16	12 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16	13
Chris@16	14 #ifndef BOOST_GEOMETRY_ALGORITHMS_SIMPLIFY_HPP
Chris@16	15 #define BOOST_GEOMETRY_ALGORITHMS_SIMPLIFY_HPP
Chris@16	16
Chris@16	17 #include <cstddef>
Chris@16	18
Chris@101	19 #include <boost/core/ignore_unused.hpp>
Chris@16	20 #include <boost/range.hpp>
Chris@101	21
Chris@101	22 #include <boost/variant/apply_visitor.hpp>
Chris@101	23 #include <boost/variant/static_visitor.hpp>
Chris@101	24 #include <boost/variant/variant_fwd.hpp>
Chris@16	25
Chris@16	26 #include <boost/geometry/core/cs.hpp>
Chris@16	27 #include <boost/geometry/core/closure.hpp>
Chris@16	28 #include <boost/geometry/core/exterior_ring.hpp>
Chris@16	29 #include <boost/geometry/core/interior_rings.hpp>
Chris@16	30 #include <boost/geometry/core/mutable_range.hpp>
Chris@101	31 #include <boost/geometry/core/tags.hpp>
Chris@16	32
Chris@16	33 #include <boost/geometry/geometries/concepts/check.hpp>
Chris@16	34 #include <boost/geometry/strategies/agnostic/simplify_douglas_peucker.hpp>
Chris@16	35 #include <boost/geometry/strategies/concepts/simplify_concept.hpp>
Chris@101	36 #include <boost/geometry/strategies/default_strategy.hpp>
Chris@101	37 #include <boost/geometry/strategies/distance.hpp>
Chris@16	38
Chris@16	39 #include <boost/geometry/algorithms/clear.hpp>
Chris@16	40 #include <boost/geometry/algorithms/convert.hpp>
Chris@16	41 #include <boost/geometry/algorithms/not_implemented.hpp>
Chris@16	42
Chris@101	43 #include <boost/geometry/algorithms/detail/distance/default_strategies.hpp>
Chris@16	44
Chris@16	45 namespace boost { namespace geometry
Chris@16	46 {
Chris@16	47
Chris@16	48 #ifndef DOXYGEN_NO_DETAIL
Chris@16	49 namespace detail { namespace simplify
Chris@16	50 {
Chris@16	51
Chris@16	52 struct simplify_range_insert
Chris@16	53 {
Chris@16	54 template<typename Range, typename Strategy, typename OutputIterator, typename Distance>
Chris@16	55 static inline void apply(Range const& range, OutputIterator out,
Chris@16	56 Distance const& max_distance, Strategy const& strategy)
Chris@16	57 {
Chris@101	58 boost::ignore_unused(strategy);
Chris@101	59
Chris@16	60 if (boost::size(range) <= 2 \|\| max_distance < 0)
Chris@16	61 {
Chris@16	62 std::copy(boost::begin(range), boost::end(range), out);
Chris@16	63 }
Chris@16	64 else
Chris@16	65 {
Chris@16	66 strategy.apply(range, out, max_distance);
Chris@16	67 }
Chris@16	68 }
Chris@16	69 };
Chris@16	70
Chris@16	71
Chris@16	72 struct simplify_copy
Chris@16	73 {
Chris@16	74 template <typename Range, typename Strategy, typename Distance>
Chris@16	75 static inline void apply(Range const& range, Range& out,
Chris@16	76 Distance const& , Strategy const& )
Chris@16	77 {
Chris@16	78 std::copy
Chris@16	79 (
Chris@16	80 boost::begin(range), boost::end(range), std::back_inserter(out)
Chris@16	81 );
Chris@16	82 }
Chris@16	83 };
Chris@16	84
Chris@16	85
Chris@16	86 template<std::size_t Minimum>
Chris@16	87 struct simplify_range
Chris@16	88 {
Chris@16	89 template <typename Range, typename Strategy, typename Distance>
Chris@16	90 static inline void apply(Range const& range, Range& out,
Chris@16	91 Distance const& max_distance, Strategy const& strategy)
Chris@16	92 {
Chris@16	93 // Call do_container for a linestring / ring
Chris@16	94
Chris@16	95 /* For a RING:
Chris@16	96 The first/last point (the closing point of the ring) should maybe
Chris@16	97 be excluded because it lies on a line with second/one but last.
Chris@16	98 Here it is never excluded.
Chris@16	99
Chris@16	100 Note also that, especially if max_distance is too large,
Chris@16	101 the output ring might be self intersecting while the input ring is
Chris@16	102 not, although chances are low in normal polygons
Chris@16	103
Chris@16	104 Finally the inputring might have 3 (open) or 4 (closed) points (=correct),
Chris@16	105 the output < 3 or 4(=wrong)
Chris@16	106 */
Chris@16	107
Chris@16	108 if (boost::size(range) <= int(Minimum) \|\| max_distance < 0.0)
Chris@16	109 {
Chris@16	110 simplify_copy::apply(range, out, max_distance, strategy);
Chris@16	111 }
Chris@16	112 else
Chris@16	113 {
Chris@16	114 simplify_range_insert::apply
Chris@16	115 (
Chris@16	116 range, std::back_inserter(out), max_distance, strategy
Chris@16	117 );
Chris@16	118 }
Chris@16	119 }
Chris@16	120 };
Chris@16	121
Chris@16	122 struct simplify_polygon
Chris@16	123 {
Chris@101	124 private:
Chris@101	125
Chris@101	126 template
Chris@101	127 <
Chris@101	128 std::size_t Minimum,
Chris@101	129 typename IteratorIn,
Chris@101	130 typename IteratorOut,
Chris@101	131 typename Distance,
Chris@101	132 typename Strategy
Chris@101	133 >
Chris@101	134 static inline void iterate(IteratorIn begin, IteratorIn end,
Chris@101	135 IteratorOut it_out,
Chris@101	136 Distance const& max_distance, Strategy const& strategy)
Chris@101	137 {
Chris@101	138 for (IteratorIn it_in = begin; it_in != end; ++it_in, ++it_out)
Chris@101	139 {
Chris@101	140 simplify_range<Minimum>::apply(it_in, it_out, max_distance, strategy);
Chris@101	141 }
Chris@101	142 }
Chris@101	143
Chris@101	144 template
Chris@101	145 <
Chris@101	146 std::size_t Minimum,
Chris@101	147 typename InteriorRingsIn,
Chris@101	148 typename InteriorRingsOut,
Chris@101	149 typename Distance,
Chris@101	150 typename Strategy
Chris@101	151 >
Chris@101	152 static inline void apply_interior_rings(
Chris@101	153 InteriorRingsIn const& interior_rings_in,
Chris@101	154 InteriorRingsOut& interior_rings_out,
Chris@101	155 Distance const& max_distance, Strategy const& strategy)
Chris@101	156 {
Chris@101	157 traits::resize<InteriorRingsOut>::apply(interior_rings_out,
Chris@101	158 boost::size(interior_rings_in));
Chris@101	159
Chris@101	160 iterate<Minimum>(
Chris@101	161 boost::begin(interior_rings_in), boost::end(interior_rings_in),
Chris@101	162 boost::begin(interior_rings_out),
Chris@101	163 max_distance, strategy);
Chris@101	164 }
Chris@101	165
Chris@101	166 public:
Chris@16	167 template <typename Polygon, typename Strategy, typename Distance>
Chris@16	168 static inline void apply(Polygon const& poly_in, Polygon& poly_out,
Chris@16	169 Distance const& max_distance, Strategy const& strategy)
Chris@16	170 {
Chris@101	171 std::size_t const minimum = core_detail::closure::minimum_ring_size
Chris@16	172 <
Chris@16	173 geometry::closure<Polygon>::value
Chris@16	174 >::value;
Chris@16	175
Chris@16	176 // Note that if there are inner rings, and distance is too large,
Chris@16	177 // they might intersect with the outer ring in the output,
Chris@16	178 // while it didn't in the input.
Chris@101	179 simplify_range<minimum>::apply(exterior_ring(poly_in),
Chris@16	180 exterior_ring(poly_out),
Chris@16	181 max_distance, strategy);
Chris@16	182
Chris@101	183 apply_interior_rings<minimum>(interior_rings(poly_in),
Chris@101	184 interior_rings(poly_out),
Chris@101	185 max_distance, strategy);
Chris@101	186 }
Chris@101	187 };
Chris@16	188
Chris@101	189
Chris@101	190 template<typename Policy>
Chris@101	191 struct simplify_multi
Chris@101	192 {
Chris@101	193 template <typename MultiGeometry, typename Strategy, typename Distance>
Chris@101	194 static inline void apply(MultiGeometry const& multi, MultiGeometry& out,
Chris@101	195 Distance const& max_distance, Strategy const& strategy)
Chris@101	196 {
Chris@101	197 traits::resize<MultiGeometry>::apply(out, boost::size(multi));
Chris@101	198
Chris@101	199 typename boost::range_iterator<MultiGeometry>::type it_out
Chris@101	200 = boost::begin(out);
Chris@101	201 for (typename boost::range_iterator<MultiGeometry const>::type
Chris@101	202 it_in = boost::begin(multi);
Chris@101	203 it_in != boost::end(multi);
Chris@101	204 ++it_in, ++it_out)
Chris@16	205 {
Chris@101	206 Policy::apply(it_in, it_out, max_distance, strategy);
Chris@16	207 }
Chris@16	208 }
Chris@16	209 };
Chris@16	210
Chris@16	211
Chris@16	212 }} // namespace detail::simplify
Chris@16	213 #endif // DOXYGEN_NO_DETAIL
Chris@16	214
Chris@16	215
Chris@16	216 #ifndef DOXYGEN_NO_DISPATCH
Chris@16	217 namespace dispatch
Chris@16	218 {
Chris@16	219
Chris@16	220 template
Chris@16	221 <
Chris@16	222 typename Geometry,
Chris@16	223 typename Tag = typename tag<Geometry>::type
Chris@16	224 >
Chris@16	225 struct simplify: not_implemented<Tag>
Chris@16	226 {};
Chris@16	227
Chris@16	228 template <typename Point>
Chris@16	229 struct simplify<Point, point_tag>
Chris@16	230 {
Chris@16	231 template <typename Distance, typename Strategy>
Chris@16	232 static inline void apply(Point const& point, Point& out,
Chris@16	233 Distance const& , Strategy const& )
Chris@16	234 {
Chris@16	235 geometry::convert(point, out);
Chris@16	236 }
Chris@16	237 };
Chris@16	238
Chris@16	239
Chris@16	240 template <typename Linestring>
Chris@16	241 struct simplify<Linestring, linestring_tag>
Chris@16	242 : detail::simplify::simplify_range<2>
Chris@16	243 {};
Chris@16	244
Chris@16	245 template <typename Ring>
Chris@16	246 struct simplify<Ring, ring_tag>
Chris@16	247 : detail::simplify::simplify_range
Chris@16	248 <
Chris@16	249 core_detail::closure::minimum_ring_size
Chris@16	250 <
Chris@16	251 geometry::closure<Ring>::value
Chris@16	252 >::value
Chris@16	253 >
Chris@16	254 {};
Chris@16	255
Chris@16	256 template <typename Polygon>
Chris@16	257 struct simplify<Polygon, polygon_tag>
Chris@16	258 : detail::simplify::simplify_polygon
Chris@16	259 {};
Chris@16	260
Chris@16	261
Chris@16	262 template
Chris@16	263 <
Chris@16	264 typename Geometry,
Chris@16	265 typename Tag = typename tag<Geometry>::type
Chris@16	266 >
Chris@16	267 struct simplify_insert: not_implemented<Tag>
Chris@16	268 {};
Chris@16	269
Chris@16	270
Chris@16	271 template <typename Linestring>
Chris@16	272 struct simplify_insert<Linestring, linestring_tag>
Chris@16	273 : detail::simplify::simplify_range_insert
Chris@16	274 {};
Chris@16	275
Chris@16	276 template <typename Ring>
Chris@16	277 struct simplify_insert<Ring, ring_tag>
Chris@16	278 : detail::simplify::simplify_range_insert
Chris@16	279 {};
Chris@16	280
Chris@101	281 template <typename MultiPoint>
Chris@101	282 struct simplify<MultiPoint, multi_point_tag>
Chris@101	283 : detail::simplify::simplify_copy
Chris@101	284 {};
Chris@101	285
Chris@101	286
Chris@101	287 template <typename MultiLinestring>
Chris@101	288 struct simplify<MultiLinestring, multi_linestring_tag>
Chris@101	289 : detail::simplify::simplify_multi<detail::simplify::simplify_range<2> >
Chris@101	290 {};
Chris@101	291
Chris@101	292
Chris@101	293 template <typename MultiPolygon>
Chris@101	294 struct simplify<MultiPolygon, multi_polygon_tag>
Chris@101	295 : detail::simplify::simplify_multi<detail::simplify::simplify_polygon>
Chris@101	296 {};
Chris@101	297
Chris@16	298
Chris@16	299 } // namespace dispatch
Chris@16	300 #endif // DOXYGEN_NO_DISPATCH
Chris@16	301
Chris@16	302
Chris@101	303 namespace resolve_strategy
Chris@101	304 {
Chris@101	305
Chris@101	306 struct simplify
Chris@101	307 {
Chris@101	308 template <typename Geometry, typename Distance, typename Strategy>
Chris@101	309 static inline void apply(Geometry const& geometry,
Chris@101	310 Geometry& out,
Chris@101	311 Distance const& max_distance,
Chris@101	312 Strategy const& strategy)
Chris@101	313 {
Chris@101	314 dispatch::simplify<Geometry>::apply(geometry, out, max_distance, strategy);
Chris@101	315 }
Chris@101	316
Chris@101	317 template <typename Geometry, typename Distance>
Chris@101	318 static inline void apply(Geometry const& geometry,
Chris@101	319 Geometry& out,
Chris@101	320 Distance const& max_distance,
Chris@101	321 default_strategy)
Chris@101	322 {
Chris@101	323 typedef typename point_type<Geometry>::type point_type;
Chris@101	324
Chris@101	325 typedef typename strategy::distance::services::default_strategy
Chris@101	326 <
Chris@101	327 point_tag, segment_tag, point_type
Chris@101	328 >::type ds_strategy_type;
Chris@101	329
Chris@101	330 typedef strategy::simplify::douglas_peucker
Chris@101	331 <
Chris@101	332 point_type, ds_strategy_type
Chris@101	333 > strategy_type;
Chris@101	334
Chris@101	335 BOOST_CONCEPT_ASSERT(
Chris@101	336 (concept::SimplifyStrategy<strategy_type, point_type>)
Chris@101	337 );
Chris@101	338
Chris@101	339 apply(geometry, out, max_distance, strategy_type());
Chris@101	340 }
Chris@101	341 };
Chris@101	342
Chris@101	343 struct simplify_insert
Chris@101	344 {
Chris@101	345 template
Chris@101	346 <
Chris@101	347 typename Geometry,
Chris@101	348 typename OutputIterator,
Chris@101	349 typename Distance,
Chris@101	350 typename Strategy
Chris@101	351 >
Chris@101	352 static inline void apply(Geometry const& geometry,
Chris@101	353 OutputIterator& out,
Chris@101	354 Distance const& max_distance,
Chris@101	355 Strategy const& strategy)
Chris@101	356 {
Chris@101	357 dispatch::simplify_insert<Geometry>::apply(geometry, out, max_distance, strategy);
Chris@101	358 }
Chris@101	359
Chris@101	360 template <typename Geometry, typename OutputIterator, typename Distance>
Chris@101	361 static inline void apply(Geometry const& geometry,
Chris@101	362 OutputIterator& out,
Chris@101	363 Distance const& max_distance,
Chris@101	364 default_strategy)
Chris@101	365 {
Chris@101	366 typedef typename point_type<Geometry>::type point_type;
Chris@101	367
Chris@101	368 typedef typename strategy::distance::services::default_strategy
Chris@101	369 <
Chris@101	370 point_tag, segment_tag, point_type
Chris@101	371 >::type ds_strategy_type;
Chris@101	372
Chris@101	373 typedef strategy::simplify::douglas_peucker
Chris@101	374 <
Chris@101	375 point_type, ds_strategy_type
Chris@101	376 > strategy_type;
Chris@101	377
Chris@101	378 BOOST_CONCEPT_ASSERT(
Chris@101	379 (concept::SimplifyStrategy<strategy_type, point_type>)
Chris@101	380 );
Chris@101	381
Chris@101	382 apply(geometry, out, max_distance, strategy_type());
Chris@101	383 }
Chris@101	384 };
Chris@101	385
Chris@101	386 } // namespace resolve_strategy
Chris@101	387
Chris@101	388
Chris@101	389 namespace resolve_variant {
Chris@101	390
Chris@101	391 template <typename Geometry>
Chris@101	392 struct simplify
Chris@101	393 {
Chris@101	394 template <typename Distance, typename Strategy>
Chris@101	395 static inline void apply(Geometry const& geometry,
Chris@101	396 Geometry& out,
Chris@101	397 Distance const& max_distance,
Chris@101	398 Strategy const& strategy)
Chris@101	399 {
Chris@101	400 resolve_strategy::simplify::apply(geometry, out, max_distance, strategy);
Chris@101	401 }
Chris@101	402 };
Chris@101	403
Chris@101	404 template <BOOST_VARIANT_ENUM_PARAMS(typename T)>
Chris@101	405 struct simplify<boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> >
Chris@101	406 {
Chris@101	407 template <typename Distance, typename Strategy>
Chris@101	408 struct visitor: boost::static_visitor<void>
Chris@101	409 {
Chris@101	410 Distance const& m_max_distance;
Chris@101	411 Strategy const& m_strategy;
Chris@101	412
Chris@101	413 visitor(Distance const& max_distance, Strategy const& strategy)
Chris@101	414 : m_max_distance(max_distance)
Chris@101	415 , m_strategy(strategy)
Chris@101	416 {}
Chris@101	417
Chris@101	418 template <typename Geometry>
Chris@101	419 void operator()(Geometry const& geometry, Geometry& out) const
Chris@101	420 {
Chris@101	421 simplify<Geometry>::apply(geometry, out, m_max_distance, m_strategy);
Chris@101	422 }
Chris@101	423 };
Chris@101	424
Chris@101	425 template <typename Distance, typename Strategy>
Chris@101	426 static inline void
Chris@101	427 apply(boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)> const& geometry,
Chris@101	428 boost::variant<BOOST_VARIANT_ENUM_PARAMS(T)>& out,
Chris@101	429 Distance const& max_distance,
Chris@101	430 Strategy const& strategy)
Chris@101	431 {
Chris@101	432 boost::apply_visitor(
Chris@101	433 visitor<Distance, Strategy>(max_distance, strategy),
Chris@101	434 geometry,
Chris@101	435 out
Chris@101	436 );
Chris@101	437 }
Chris@101	438 };
Chris@101	439
Chris@101	440 } // namespace resolve_variant
Chris@101	441
Chris@101	442
Chris@16	443 /*!
Chris@16	444 \brief Simplify a geometry using a specified strategy
Chris@16	445 \ingroup simplify
Chris@16	446 \tparam Geometry \tparam_geometry
Chris@16	447 \tparam Distance A numerical distance measure
Chris@16	448 \tparam Strategy A type fulfilling a SimplifyStrategy concept
Chris@16	449 \param strategy A strategy to calculate simplification
Chris@16	450 \param geometry input geometry, to be simplified
Chris@16	451 \param out output geometry, simplified version of the input geometry
Chris@16	452 \param max_distance distance (in units of input coordinates) of a vertex
Chris@16	453 to other segments to be removed
Chris@16	454 \param strategy simplify strategy to be used for simplification, might
Chris@16	455 include point-distance strategy
Chris@16	456
Chris@16	457 \image html svg_simplify_country.png "The image below presents the simplified country"
Chris@16	458 \qbk{distinguish,with strategy}
Chris@16	459 */
Chris@16	460 template<typename Geometry, typename Distance, typename Strategy>
Chris@16	461 inline void simplify(Geometry const& geometry, Geometry& out,
Chris@16	462 Distance const& max_distance, Strategy const& strategy)
Chris@16	463 {
Chris@16	464 concept::check<Geometry>();
Chris@16	465
Chris@16	466 geometry::clear(out);
Chris@16	467
Chris@101	468 resolve_variant::simplify<Geometry>::apply(geometry, out, max_distance, strategy);
Chris@16	469 }
Chris@16	470
Chris@16	471
Chris@16	472
Chris@16	473
Chris@16	474 /*!
Chris@16	475 \brief Simplify a geometry
Chris@16	476 \ingroup simplify
Chris@16	477 \tparam Geometry \tparam_geometry
Chris@16	478 \tparam Distance \tparam_numeric
Chris@16	479 \note This version of simplify simplifies a geometry using the default
Chris@16	480 strategy (Douglas Peucker),
Chris@16	481 \param geometry input geometry, to be simplified
Chris@16	482 \param out output geometry, simplified version of the input geometry
Chris@16	483 \param max_distance distance (in units of input coordinates) of a vertex
Chris@16	484 to other segments to be removed
Chris@16	485
Chris@16	486 \qbk{[include reference/algorithms/simplify.qbk]}
Chris@16	487 */
Chris@16	488 template<typename Geometry, typename Distance>
Chris@16	489 inline void simplify(Geometry const& geometry, Geometry& out,
Chris@16	490 Distance const& max_distance)
Chris@16	491 {
Chris@16	492 concept::check<Geometry>();
Chris@16	493
Chris@101	494 simplify(geometry, out, max_distance, default_strategy());
Chris@16	495 }
Chris@16	496
Chris@16	497
Chris@16	498 #ifndef DOXYGEN_NO_DETAIL
Chris@16	499 namespace detail { namespace simplify
Chris@16	500 {
Chris@16	501
Chris@16	502
Chris@16	503 /*!
Chris@16	504 \brief Simplify a geometry, using an output iterator
Chris@16	505 and a specified strategy
Chris@16	506 \ingroup simplify
Chris@16	507 \tparam Geometry \tparam_geometry
Chris@16	508 \param geometry input geometry, to be simplified
Chris@16	509 \param out output iterator, outputs all simplified points
Chris@16	510 \param max_distance distance (in units of input coordinates) of a vertex
Chris@16	511 to other segments to be removed
Chris@16	512 \param strategy simplify strategy to be used for simplification,
Chris@16	513 might include point-distance strategy
Chris@16	514
Chris@16	515 \qbk{distinguish,with strategy}
Chris@16	516 \qbk{[include reference/algorithms/simplify.qbk]}
Chris@16	517 */
Chris@16	518 template<typename Geometry, typename OutputIterator, typename Distance, typename Strategy>
Chris@16	519 inline void simplify_insert(Geometry const& geometry, OutputIterator out,
Chris@101	520 Distance const& max_distance, Strategy const& strategy)
Chris@16	521 {
Chris@16	522 concept::check<Geometry const>();
Chris@16	523
Chris@101	524 resolve_strategy::simplify_insert::apply(geometry, out, max_distance, strategy);
Chris@16	525 }
Chris@16	526
Chris@16	527 /*!
Chris@16	528 \brief Simplify a geometry, using an output iterator
Chris@16	529 \ingroup simplify
Chris@16	530 \tparam Geometry \tparam_geometry
Chris@16	531 \param geometry input geometry, to be simplified
Chris@16	532 \param out output iterator, outputs all simplified points
Chris@16	533 \param max_distance distance (in units of input coordinates) of a vertex
Chris@16	534 to other segments to be removed
Chris@16	535
Chris@16	536 \qbk{[include reference/algorithms/simplify_insert.qbk]}
Chris@16	537 */
Chris@16	538 template<typename Geometry, typename OutputIterator, typename Distance>
Chris@16	539 inline void simplify_insert(Geometry const& geometry, OutputIterator out,
Chris@101	540 Distance const& max_distance)
Chris@16	541 {
Chris@16	542 // Concept: output point type = point type of input geometry
Chris@16	543 concept::check<Geometry const>();
Chris@101	544 concept::check<typename point_type<Geometry>::type>();
Chris@16	545
Chris@101	546 simplify_insert(geometry, out, max_distance, default_strategy());
Chris@16	547 }
Chris@16	548
Chris@16	549 }} // namespace detail::simplify
Chris@16	550 #endif // DOXYGEN_NO_DETAIL
Chris@16	551
Chris@16	552
Chris@16	553
Chris@16	554 }} // namespace boost::geometry
Chris@16	555
Chris@16	556 #endif // BOOST_GEOMETRY_ALGORITHMS_SIMPLIFY_HPP

Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/geometry/algorithms/simplify.hpp @ 125:34e428693f5d vext