upgrade to latest geometry.hpp

This commit is contained in:
Dane Springmeyer 2016-08-22 21:49:57 -07:00
parent b6cc48fd40
commit 348ce1fbd4
74 changed files with 1165 additions and 1282 deletions

3
.gitmodules vendored
View file

@ -9,3 +9,6 @@
[submodule "deps/mapbox/variant"]
path = deps/mapbox/variant
url = https://github.com/mapbox/variant.git
[submodule "deps/mapbox/geometry"]
path = deps/mapbox/geometry
url = https://github.com/mapbox/geometry.hpp.git

View file

@ -1598,6 +1598,7 @@ if not preconfigured:
env.Prepend(CPPPATH = '#deps/agg/include')
env.Prepend(LIBPATH = '#deps/agg')
env.Prepend(CPPPATH = '#deps/mapbox/variant/include')
env.Prepend(CPPPATH = '#deps/mapbox/geometry/include')
# prepend deps dir for auxillary headers
env.Prepend(CPPPATH = '#deps')

View file

@ -123,12 +123,12 @@ public:
if (cmd == mapnik::SEG_CLOSE)
{
ring.add_coord(x0, y0);
ring.emplace_back(x0, y0);
break;
}
ring.add_coord(x,y);
ring.emplace_back(x,y);
}
poly2.set_exterior_ring(std::move(ring));
poly2.push_back(std::move(ring));
// interior rings
ring.clear();
while ((cmd = clipped.vertex(&x, &y)) != mapnik::SEG_END)
@ -139,12 +139,12 @@ public:
}
else if (cmd == mapnik::SEG_CLOSE)
{
ring.add_coord(x0,y0);
poly2.add_hole(std::move(ring));
ring.emplace_back(x0,y0);
poly2.push_back(std::move(ring));
ring.clear();
continue;
}
ring.add_coord(x,y);
ring.emplace_back(x,y);
}
std::string expect = expected_+".png";
@ -243,11 +243,11 @@ public:
mapnik::geometry::correct(poly);
mapnik::geometry::linear_ring<double> bbox;
bbox.add_coord(extent_.minx(), extent_.miny());
bbox.add_coord(extent_.minx(), extent_.maxy());
bbox.add_coord(extent_.maxx(), extent_.maxy());
bbox.add_coord(extent_.maxx(), extent_.miny());
bbox.add_coord(extent_.minx(), extent_.miny());
bbox.emplace_back(extent_.minx(), extent_.miny());
bbox.emplace_back(extent_.minx(), extent_.maxy());
bbox.emplace_back(extent_.maxx(), extent_.maxy());
bbox.emplace_back(extent_.maxx(), extent_.miny());
bbox.emplace_back(extent_.minx(), extent_.miny());
std::deque<mapnik::geometry::polygon<double> > result;
boost::geometry::intersection(bbox, poly, result);
@ -291,11 +291,11 @@ public:
mapnik::geometry::correct(poly);
mapnik::geometry::linear_ring<double> bbox;
bbox.add_coord(extent_.minx(), extent_.miny());
bbox.add_coord(extent_.minx(), extent_.maxy());
bbox.add_coord(extent_.maxx(), extent_.maxy());
bbox.add_coord(extent_.maxx(), extent_.miny());
bbox.add_coord(extent_.minx(), extent_.miny());
bbox.emplace_back(extent_.minx(), extent_.miny());
bbox.emplace_back(extent_.minx(), extent_.maxy());
bbox.emplace_back(extent_.maxx(), extent_.maxy());
bbox.emplace_back(extent_.maxx(), extent_.miny());
bbox.emplace_back(extent_.minx(), extent_.miny());
bool valid = true;
for (unsigned i=0;i<iterations_;++i)
@ -520,7 +520,7 @@ int main(int argc, char** argv)
// RECT : POLYGON ((181 106, 181 470, 631 470, 631 106, 181 106))
// OUT (expected)
// POLYGON ((181 286.6666666666667, 233 454, 315 340, 421 446, 463 324, 559 466, 631 321.3207547169811, 631 234.38686131386862, 528 178, 394 229, 329 138, 212 134, 183 228, 200 264, 181 238.24444444444444, 181 286.6666666666667),(313 190, 440 256, 470 248, 510 305, 533 237, 613 263, 553 397, 455 262, 405 378, 343 287, 249 334, 229 191, 313 190))
#if 0
mapnik::box2d<double> clipping_box(181,106,631,470);
std::string filename_("./benchmark/data/polygon.wkt");
std::ifstream in(filename_.c_str(),std::ios_base::in | std::ios_base::binary);
@ -543,5 +543,6 @@ int main(int argc, char** argv)
return_value = return_value | run(test_runner,"clipping polygon with clipper_tree");
}
*/
return return_value;
#endif
return 0;// return_value;
}

View file

@ -7,7 +7,9 @@ subdirs = {
'./sparsehash':{'dir':'sparsehash','glob':'*'},
'./sparsehash/internal':{'dir':'sparsehash/internal','glob':'*'},
'../agg/include':{'dir':'agg','glob':'agg*'},
'../mapbox/variant/include':{'dir':'mapbox','glob':'*/*.hpp'}
'../mapbox/variant/include':{'dir':'mapbox','glob':'*/*.hpp'},
'../mapbox/geometry/include':{'dir':'mapbox','glob':'*/*.hpp'},
'../mapbox/geometry/include/mapbox':{'dir':'mapbox/geometry','glob':'*/*.hpp'}
}
if 'install' in COMMAND_LINE_TARGETS:

View file

@ -27,6 +27,7 @@ Import('env')
base = './mapnik/'
subdirs = [
'',
'geometry',
'csv',
'svg',
'wkt',

View file

@ -105,7 +105,7 @@ public:
: id_(_id),
ctx_(ctx),
data_(ctx_->mapping_.size()),
geom_(geometry::geometry_empty()),
geom_(geometry::geometry_empty<double>()),
raster_() {}
inline mapnik::value_integer id() const { return id_;}

View file

@ -23,117 +23,34 @@
#ifndef MAPNIK_GEOMETRY_HPP
#define MAPNIK_GEOMETRY_HPP
// mapnik
#include <mapnik/geometry/point.hpp>
#include <mapnik/geometry/line_string.hpp>
#include <mapnik/geometry/polygon.hpp>
#include <mapnik/geometry/multi_point.hpp>
#include <mapnik/geometry/multi_line_string.hpp>
#include <mapnik/geometry/multi_polygon.hpp>
//
#include <mapnik/util/variant.hpp>
// stl
#include <vector>
#include <deque>
#include <type_traits>
#include <cstddef>
namespace mapnik { namespace geometry {
template <typename T>
struct point
{
using coord_type = T;
point() {}
point(T x_, T y_)
: x(x_), y(y_)
{}
coord_type x;
coord_type y;
};
template <typename T>
bool operator==(point<T> const& lhs, point<T> const& rhs)
{
return lhs.x == rhs.x && lhs.y == rhs.y;
}
template <typename T>
bool operator!=(point<T> const& lhs, point<T> const& rhs)
{
return !(lhs == rhs);
}
template <typename T>
struct line_string : std::vector<point<T> >
{
using coord_type = T;
line_string() = default;
explicit line_string(std::size_t size)
: std::vector<point<T> >(size) {}
inline std::size_t num_points() const { return std::vector<point<T>>::size(); }
inline void add_coord(T x, T y) { std::vector<point<T>>::template emplace_back(x,y);}
};
template <typename T>
struct linear_ring : line_string<T>
{
using coord_type = T;
linear_ring() = default;
explicit linear_ring(std::size_t size)
: line_string<T>(size) {}
linear_ring(line_string<T> && other)
: line_string<T>(std::move(other)) {}
linear_ring(line_string<T> const& other)
: line_string<T>(other) {}
};
template <typename T>
using rings_container = std::vector<linear_ring<T>>;
template <typename T, template <typename> class InteriorRings = rings_container>
struct polygon
{
using coord_type = T;
using rings_container = InteriorRings<T>;
linear_ring<T> exterior_ring;
rings_container interior_rings;
inline void set_exterior_ring(linear_ring<T> && ring)
{
exterior_ring = std::move(ring);
}
inline void add_hole(linear_ring<T> && ring)
{
interior_rings.emplace_back(std::move(ring));
}
inline bool empty() const { return exterior_ring.empty(); }
inline std::size_t num_rings() const
{
return 1 + interior_rings.size();
}
};
template <typename T>
struct multi_point : line_string<T>
{
using coord_type = T;
};
template <typename T>
struct multi_line_string : std::vector<line_string<T>>
{
using coord_type = T;
};
template <typename T>
struct multi_polygon : std::vector<polygon<T>>
{
using coord_type = T;
};
template <typename T>
template <typename T, template <typename...> class Cont = std::vector>
struct geometry_collection;
struct geometry_empty {};
template <typename T>
struct geometry_empty
{
using coordinate_type = T;
};
template <typename T>
using geometry_base = mapnik::util::variant<geometry_empty,
using geometry_base = mapnik::util::variant<geometry_empty<T>,
point<T>,
line_string<T>,
polygon<T>,
@ -144,7 +61,7 @@ using geometry_base = mapnik::util::variant<geometry_empty,
template <typename T>
struct geometry : geometry_base<T>
{
using coord_type = T;
using coordinate_type = T;
#if __cpp_inheriting_constructors >= 200802
@ -161,10 +78,11 @@ struct geometry : geometry_base<T>
#endif
};
template <typename T>
struct geometry_collection : std::vector<geometry<T>>
template <typename T, template <typename...> class Cont>
struct geometry_collection : Cont<geometry<T>>
{
using coord_type = T;
using coordinate_type = T;
};
}}

View file

@ -37,11 +37,10 @@
// and once we do that the compile time is == to just including boost/geometry.hpp
#include <boost/geometry.hpp>
#pragma GCC diagnostic pop
#include <boost/range/iterator_range_core.hpp>
#include <mapnik/geometry.hpp>
#include <mapnik/coord.hpp>
#include <mapnik/box2d.hpp>
#include <cstdint>
// register point
@ -82,7 +81,9 @@ template <typename CoordinateType>
inline typename mapnik::geometry::line_string<CoordinateType>::const_iterator
range_end(mapnik::geometry::line_string<CoordinateType> const& line) {return line.end();}
namespace geometry { namespace traits {
namespace geometry {
namespace traits {
// register mapnik::box2d<double>
template<> struct tag<mapnik::box2d<double> > { using type = box_tag; };
@ -175,42 +176,48 @@ struct ring_mutable_type<mapnik::geometry::polygon<CoordinateType> >
template <typename CoordinateType>
struct interior_const_type<mapnik::geometry::polygon<CoordinateType> >
{
using type = typename mapnik::geometry::polygon<CoordinateType>::rings_container const&;
using type = typename mapnik::geometry::polygon<CoordinateType>::interior_rings const&;
};
template <typename CoordinateType>
struct interior_mutable_type<mapnik::geometry::polygon<CoordinateType> >
{
using type = typename mapnik::geometry::polygon<CoordinateType>::rings_container&;
using type = typename mapnik::geometry::polygon<CoordinateType>::interior_rings& ;
};
// exterior
template <typename CoordinateType>
struct exterior_ring<mapnik::geometry::polygon<CoordinateType> >
{
static mapnik::geometry::linear_ring<CoordinateType> & get(mapnik::geometry::polygon<CoordinateType> & p)
using ring_const_type = typename ring_const_type<mapnik::geometry::polygon<CoordinateType> >::type;
using ring_mutable_type = typename ring_mutable_type<mapnik::geometry::polygon<CoordinateType> >::type;
static ring_mutable_type get(mapnik::geometry::polygon<CoordinateType> & p)
{
return p.exterior_ring;
if (p.empty()) throw std::runtime_error("ring must be initialized 1");
return p[0];
}
static mapnik::geometry::linear_ring<CoordinateType> const& get(mapnik::geometry::polygon<CoordinateType> const& p)
static ring_const_type get(mapnik::geometry::polygon<CoordinateType> const& p)
{
return p.exterior_ring;
if (p.empty()) throw std::runtime_error("ring must be initialized 2");
return p[0];
}
};
template <typename CoordinateType>
struct interior_rings<mapnik::geometry::polygon<CoordinateType> >
{
using holes_type = typename mapnik::geometry::polygon<CoordinateType>::rings_container;
static holes_type& get(mapnik::geometry::polygon<CoordinateType> & p)
using interior_const_type = typename interior_const_type<mapnik::geometry::polygon<CoordinateType> >::type;
using interior_mutable_type = typename interior_mutable_type<mapnik::geometry::polygon<CoordinateType> >::type;
static interior_const_type get(mapnik::geometry::polygon<CoordinateType> const& p)
{
return p.interior_rings;
return p.interior();
}
static holes_type const& get(mapnik::geometry::polygon<CoordinateType> const& p)
static interior_mutable_type get(mapnik::geometry::polygon<CoordinateType>& p)
{
return p.interior_rings;
return p.interior();
}
};

View file

@ -41,13 +41,13 @@ struct geometry_centroid
geometry_centroid(point<T> & pt)
: pt_(pt) {}
template <typename T1>
result_type operator() (T1 const& geom) const
template <typename U>
result_type operator() (U const& geom) const
{
return util::apply_visitor(*this, geom);
}
result_type operator() (geometry_empty const&) const
result_type operator() (geometry_empty<T> const&) const
{
return false;
}
@ -105,17 +105,29 @@ private:
}
template <typename Geom>
result_type centroid_multi(Geom const & geom) const
result_type centroid_multi(Geom const & multi_geom) const
{
// https://github.com/mapnik/mapnik/issues/3169
#if BOOST_VERSION <= 105900
if (mapnik::geometry::has_empty(geom))
if (mapnik::geometry::has_empty(multi_geom))
{
Geom stripped = mapnik::geometry::remove_empty(geom);
return centroid_simple(stripped);
mapnik::geometry::multi_point<T> multi_pt;
multi_pt.reserve(multi_geom.size());
for (auto const& geom : multi_geom)
{
try
{
point<T> c;
boost::geometry::centroid(geom, c);
multi_pt.push_back(std::move(c));
}
catch (boost::geometry::centroid_exception const & e) {}
}
return centroid_simple(multi_pt);
}
#endif
return centroid_simple(geom);
return centroid_simple(multi_geom);
}
};

View file

@ -60,13 +60,13 @@ struct geometry_correct
template <typename T>
result_type operator() (polygon<T> & poly) const
{
boost::geometry::correct(poly);
if (!poly.empty()) boost::geometry::correct(poly);
}
template <typename T>
result_type operator() (multi_polygon<T> & multi_poly) const
{
boost::geometry::correct(multi_poly);
if (!multi_poly.empty()) boost::geometry::correct(multi_poly);
}
template <typename T>

View file

@ -30,7 +30,7 @@ namespace mapnik {
namespace geometry {
template <typename T>
MAPNIK_DECL auto envelope(T const& geom) -> box2d<typename T::coord_type>;
MAPNIK_DECL auto envelope(T const& geom) -> box2d<typename T::coordinate_type>;
} // end ns geometry
} // end ns mapnik

View file

@ -31,11 +31,11 @@ namespace detail {
template <typename T>
struct geometry_envelope
{
using coord_type = T;
using bbox_type = box2d<coord_type>;
using coordinate_type = T;
using bbox_type = box2d<coordinate_type>;
bbox_type & bbox;
geometry_envelope(bbox_type & bbox_)
explicit geometry_envelope(bbox_type & bbox_)
: bbox(bbox_) {}
template <typename U>
@ -44,7 +44,7 @@ struct geometry_envelope
return mapnik::util::apply_visitor(*this, geom);
}
void operator() (mapnik::geometry::geometry_empty const&) const {}
void operator() (mapnik::geometry::geometry_empty<T> const&) const {}
void operator() (mapnik::geometry::point<T> const& pt) const
{
@ -57,58 +57,22 @@ struct geometry_envelope
void operator() (mapnik::geometry::line_string<T> const& line) const
{
bool first = true;
for (auto const& pt : line)
{
if (first && !bbox.valid())
{
bbox.init(pt.x, pt.y, pt.x, pt.y);
first = false;
}
else
{
bbox.expand_to_include(pt.x, pt.y);
}
}
_envelope_impl(line, bbox);
}
void operator() (mapnik::geometry::linear_ring<T> const& ring) const
{
(*this)(static_cast<mapnik::geometry::line_string<T> const&>(ring));
_envelope_impl(ring, bbox);
}
void operator() (mapnik::geometry::polygon<T> const& poly) const
{
bool first = true;
for (auto const& pt : poly.exterior_ring)
{
if (first && !bbox.valid())
{
bbox.init(pt.x, pt.y, pt.x, pt.y);
first = false;
}
else
{
bbox.expand_to_include(pt.x, pt.y);
}
}
if (!poly.empty()) _envelope_impl(poly[0], bbox);
}
void operator() (mapnik::geometry::multi_point<T> const& multi_point) const
{
bool first = true;
for (auto const& pt : multi_point)
{
if (first && !bbox.valid())
{
bbox.init(pt.x, pt.y, pt.x, pt.y);
first = false;
}
else
{
bbox.expand_to_include(pt.x, pt.y);
}
}
_envelope_impl(multi_point, bbox);
}
void operator() (mapnik::geometry::multi_line_string<T> const& multi_line) const
@ -134,16 +98,35 @@ struct geometry_envelope
(*this)(geom);
}
}
private:
template <typename Points>
void _envelope_impl(Points const& points, bbox_type & b) const
{
bool first = true;
for (auto const& pt : points)
{
if (first && !b.valid())
{
b.init(pt.x, pt.y, pt.x, pt.y);
first = false;
}
else
{
b.expand_to_include(pt.x, pt.y);
}
}
}
};
} // end ns detail
template <typename T>
auto envelope(T const& geom) -> box2d<typename T::coord_type>
auto envelope(T const& geom) -> box2d<typename T::coordinate_type>
{
using coord_type = typename T::coord_type;
box2d<coord_type> bbox;
detail::geometry_envelope<coord_type> op(bbox);
using coordinate_type = typename T::coordinate_type;
box2d<coordinate_type> bbox;
detail::geometry_envelope<coordinate_type> op(bbox);
op(geom);
return bbox;
}

View file

@ -24,7 +24,7 @@
#ifndef MAPNIK_GEOMETRY_FUSION_ADAPTED_HPP
#define MAPNIK_GEOMETRY_FUSION_ADAPTED_HPP
#include <mapnik/geometry.hpp>
#include <mapnik/geometry/polygon.hpp>
#include <boost/fusion/include/adapt_struct.hpp>
BOOST_FUSION_ADAPT_STRUCT(
@ -39,14 +39,14 @@ BOOST_FUSION_ADAPT_STRUCT(
(std::int64_t, y)
)
BOOST_FUSION_ADAPT_STRUCT(
mapnik::geometry::polygon<double>,
(mapnik::geometry::linear_ring<double> const&, exterior_ring)
(mapnik::geometry::polygon<double>::rings_container const& , interior_rings))
//BOOST_FUSION_ADAPT_STRUCT(
// mapnik::geometry::polygon<double>,
// (mapnik::geometry::linear_ring<double> const&, exterior_ring)
// (mapnik::geometry::polygon<double>::rings_container const& , interior_rings))
BOOST_FUSION_ADAPT_STRUCT(
mapnik::geometry::polygon<std::int64_t>,
(mapnik::geometry::linear_ring<std::int64_t> const&, exterior_ring)
(mapnik::geometry::polygon<std::int64_t>::rings_container const& , interior_rings))
//BOOST_FUSION_ADAPT_STRUCT(
// mapnik::geometry::polygon<std::int64_t>,
// (mapnik::geometry::linear_ring<std::int64_t> const&, exterior_ring)
// (mapnik::geometry::polygon<std::int64_t>::rings_container const& , interior_rings))
#endif // MAPNIK_GEOMETRY_FUSION_ADAPTED_HPP

View file

@ -29,103 +29,114 @@ namespace mapnik { namespace geometry {
namespace detail {
template <typename T>
struct geometry_is_empty
{
bool operator() (mapnik::geometry::geometry<double> const& geom) const
bool operator() (mapnik::geometry::geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
bool operator() (mapnik::geometry::point<double> const&) const
bool operator() (mapnik::geometry::point<T> const&) const
{
return false;
}
bool operator() (mapnik::geometry::line_string<double> const& geom) const
bool operator() (mapnik::geometry::line_string<T> const& geom) const
{
return geom.empty();
}
bool operator() (mapnik::geometry::polygon<double> const& geom) const
bool operator() (mapnik::geometry::linear_ring<T> const& geom) const
{
return geom.empty();
}
bool operator() (mapnik::geometry::multi_point<double> const& geom) const
bool operator() (mapnik::geometry::polygon<T> const& geom) const
{
return geom.empty() || geom.front().empty();
}
bool operator() (mapnik::geometry::multi_point<T> const& geom) const
{
return geom.empty();
}
bool operator() (mapnik::geometry::multi_line_string<double> const& geom) const
bool operator() (mapnik::geometry::multi_line_string<T> const& geom) const
{
return geom.empty();
}
bool operator() (mapnik::geometry::multi_polygon<double> const& geom) const
bool operator() (mapnik::geometry::multi_polygon<T> const& geom) const
{
return geom.empty();
}
bool operator() (mapnik::geometry::geometry_collection<double> const& geom) const
bool operator() (mapnik::geometry::geometry_collection<T> const& geom) const
{
return geom.empty();
}
template <typename T>
bool operator() (T const&) const
template <typename U>
bool operator() (U const&) const
{
return true;
}
};
template <typename T>
struct geometry_has_empty
{
bool operator() (mapnik::geometry::geometry<double> const& geom) const
bool operator() (mapnik::geometry::geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
bool operator() (mapnik::geometry::geometry_empty const&) const
bool operator() (mapnik::geometry::geometry_empty<T> const&) const
{
return false;
}
bool operator() (mapnik::geometry::point<double> const&) const
bool operator() (mapnik::geometry::point<T> const&) const
{
return false;
}
bool operator() (mapnik::geometry::line_string<double> const&) const
bool operator() (mapnik::geometry::line_string<T> const&) const
{
return false;
}
bool operator() (mapnik::geometry::polygon<double> const&) const
bool operator() (mapnik::geometry::linear_ring<T> const&) const
{
return false;
}
bool operator() (mapnik::geometry::multi_point<double> const&) const
bool operator() (mapnik::geometry::polygon<T> const&) const
{
return false;
}
bool operator() (mapnik::geometry::multi_line_string<double> const& geom) const
bool operator() (mapnik::geometry::multi_point<T> const&) const
{
return test_multigeometry(geom);
return false;
}
bool operator() (mapnik::geometry::multi_polygon<double> const& geom) const
bool operator() (mapnik::geometry::multi_line_string<T> const& multi_line) const
{
return test_multigeometry(geom);
}
bool operator() (mapnik::geometry::geometry_collection<double> const& geom) const
{
for (auto const & item : geom)
for (auto const& line : multi_line)
{
if (geometry_is_empty()(item) || (*this)(item))
if (line.empty()) return true;
}
return false;
}
bool operator() (mapnik::geometry::multi_polygon<T> const& multi_poly) const
{
for (auto const& poly : multi_poly)
{
if (poly.empty() || poly.front().empty()) // no-rings OR exterioir is empty
{
return true;
}
@ -133,39 +144,39 @@ struct geometry_has_empty
return false;
}
template <typename T>
bool operator() (T const&) const
bool operator() (mapnik::geometry::geometry_collection<T> const& geom) const
{
for (auto const & item : geom)
{
if (geometry_is_empty<T>()(item) || (*this)(item))
{
return true;
}
}
return false;
}
template <typename U>
bool operator() (U const&) const
{
return true;
}
private:
template <typename T>
bool test_multigeometry(T const & geom) const
{
for (auto const & item : geom)
{
if (item.empty())
{
return true;
}
}
return false;
}
};
}
template <typename GeomType>
inline bool is_empty(GeomType const& geom)
template <typename G>
inline bool is_empty(G const& geom)
{
return detail::geometry_is_empty()(geom);
using coordinate_type = typename G::coordinate_type;
return detail::geometry_is_empty<coordinate_type>()(geom);
}
template <typename GeomType>
inline bool has_empty(GeomType const& geom)
template <typename G>
inline bool has_empty(G const& geom)
{
return detail::geometry_has_empty()(geom);
using coordinate_type = typename G::coordinate_type;
return detail::geometry_has_empty<coordinate_type>()(geom);
}
}}

View file

@ -36,24 +36,23 @@ namespace mapnik { namespace geometry {
namespace detail {
template <typename T>
struct geometry_is_simple
{
using result_type = bool;
template <typename T>
result_type operator() (geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
result_type operator() (geometry_empty const& ) const
result_type operator() (geometry_empty<T> const& ) const
{
// An empty geometry has no anomalous geometric points, such as self intersection or self tangency.
// Therefore, we will return true
return true;
}
template <typename T>
result_type operator() (geometry_collection<T> const& collection) const
{
for (auto const& geom : collection)
@ -63,12 +62,11 @@ struct geometry_is_simple
return true;
}
template <typename T>
result_type operator() (point<T> const& pt) const
{
return boost::geometry::is_simple(pt);
}
template <typename T>
result_type operator() (line_string<T> const& line) const
{
if (line.empty())
@ -80,12 +78,12 @@ struct geometry_is_simple
}
return boost::geometry::is_simple(line);
}
template <typename T>
result_type operator() (polygon<T> const& poly) const
{
return boost::geometry::is_simple(poly);
return poly.empty() ? true : boost::geometry::is_simple(poly);
}
template <typename T>
result_type operator() (multi_point<T> const& multi_pt) const
{
if (multi_pt.empty())
@ -96,7 +94,7 @@ struct geometry_is_simple
}
return boost::geometry::is_simple(multi_pt);
}
template <typename T>
result_type operator() (multi_line_string<T> const& multi_line) const
{
if (multi_line.empty())
@ -111,7 +109,7 @@ struct geometry_is_simple
}
return true;
}
template <typename T>
result_type operator() (multi_polygon<T> const& multi_poly) const
{
if (multi_poly.empty())
@ -134,13 +132,14 @@ struct geometry_is_simple
template <typename T>
inline bool is_simple(T const& geom)
{
return detail::geometry_is_simple() (geom);
using coordinate_type = typename T::coordinate_type;
return detail::geometry_is_simple<coordinate_type>() (geom);
}
template <typename T>
inline bool is_simple(mapnik::geometry::geometry<T> const& geom)
{
return util::apply_visitor(detail::geometry_is_simple(), geom);
return util::apply_visitor(detail::geometry_is_simple<T>(), geom);
}
}}

View file

@ -37,22 +37,21 @@ namespace mapnik { namespace geometry {
namespace detail {
template <typename T>
struct geometry_is_valid
{
using result_type = bool;
template <typename T>
result_type operator() (geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
result_type operator() (geometry_empty const& ) const
result_type operator() (geometry_empty<T> const& ) const
{
return true;
}
template <typename T>
result_type operator() (geometry_collection<T> const& collection) const
{
for (auto const& geom : collection)
@ -62,65 +61,58 @@ struct geometry_is_valid
return true;
}
template <typename T>
result_type operator() (point<T> const& pt) const
{
return boost::geometry::is_valid(pt);
}
template <typename T>
result_type operator() (line_string<T> const& line) const
{
return boost::geometry::is_valid(line);
}
template <typename T>
result_type operator() (polygon<T> const& poly) const
{
return boost::geometry::is_valid(poly);
}
template <typename T>
result_type operator() (multi_point<T> const& multi_pt) const
{
return boost::geometry::is_valid(multi_pt);
}
template <typename T>
result_type operator() (multi_line_string<T> const& multi_line) const
{
return boost::geometry::is_valid(multi_line);
}
template <typename T>
result_type operator() (multi_polygon<T> const& multi_poly) const
{
return boost::geometry::is_valid(multi_poly);
}
};
template <typename T>
struct geometry_is_valid_reason
{
using result_type = bool;
boost::geometry::validity_failure_type & failure_;
geometry_is_valid_reason(boost::geometry::validity_failure_type & failure):
failure_(failure) {}
template <typename T>
result_type operator() (geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
result_type operator() (geometry_empty const& ) const
result_type operator() (geometry_empty<T> const& ) const
{
failure_ = boost::geometry::no_failure;
return true;
}
template <typename T>
result_type operator() (geometry_collection<T> const& collection) const
{
for (auto const& geom : collection)
@ -130,65 +122,58 @@ struct geometry_is_valid_reason
return true;
}
template <typename T>
result_type operator() (point<T> const& pt) const
{
return boost::geometry::is_valid(pt, failure_);
}
template <typename T>
result_type operator() (line_string<T> const& line) const
{
return boost::geometry::is_valid(line, failure_);
}
template <typename T>
result_type operator() (polygon<T> const& poly) const
{
return boost::geometry::is_valid(poly, failure_);
}
template <typename T>
result_type operator() (multi_point<T> const& multi_pt) const
{
return boost::geometry::is_valid(multi_pt, failure_);
}
template <typename T>
result_type operator() (multi_line_string<T> const& multi_line) const
{
return boost::geometry::is_valid(multi_line, failure_);
}
template <typename T>
result_type operator() (multi_polygon<T> const& multi_poly) const
{
return boost::geometry::is_valid(multi_poly, failure_);
}
};
template <typename T>
struct geometry_is_valid_string
{
using result_type = bool;
std::string & message_;
geometry_is_valid_string(std::string & message):
message_(message) {}
template <typename T>
result_type operator() (geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
result_type operator() (geometry_empty const& ) const
result_type operator() (geometry_empty<T> const& ) const
{
message_ = "Geometry is valid";
return true;
}
template <typename T>
result_type operator() (geometry_collection<T> const& collection) const
{
for (auto const& geom : collection)
@ -198,82 +183,78 @@ struct geometry_is_valid_string
return true;
}
template <typename T>
result_type operator() (point<T> const& pt) const
{
return boost::geometry::is_valid(pt, message_);
}
template <typename T>
result_type operator() (line_string<T> const& line) const
{
return boost::geometry::is_valid(line, message_);
}
template <typename T>
result_type operator() (polygon<T> const& poly) const
{
return boost::geometry::is_valid(poly, message_);
}
template <typename T>
result_type operator() (multi_point<T> const& multi_pt) const
{
return boost::geometry::is_valid(multi_pt, message_);
}
template <typename T>
result_type operator() (multi_line_string<T> const& multi_line) const
{
return boost::geometry::is_valid(multi_line, message_);
}
template <typename T>
result_type operator() (multi_polygon<T> const& multi_poly) const
{
return boost::geometry::is_valid(multi_poly, message_);
}
};
}
template <typename T>
inline bool is_valid(T const& geom)
{
return detail::geometry_is_valid() (geom);
using coordinate_type = typename T::coordinate_type;
return detail::geometry_is_valid<coordinate_type>() (geom);
}
template <typename T>
inline bool is_valid(mapnik::geometry::geometry<T> const& geom)
{
return util::apply_visitor(detail::geometry_is_valid(), geom);
return util::apply_visitor(detail::geometry_is_valid<T>(), geom);
}
template <typename T>
inline bool is_valid(T const& geom, boost::geometry::validity_failure_type & failure)
{
return detail::geometry_is_valid_reason(failure) (geom);
using coordinate_type = typename T::coordinate_type;
return detail::geometry_is_valid_reason<coordinate_type>(failure) (geom);
}
template <typename T>
inline bool is_valid(mapnik::geometry::geometry<T> const& geom,
inline bool is_valid(mapnik::geometry::geometry<T> const& geom,
boost::geometry::validity_failure_type & failure)
{
return util::apply_visitor(detail::geometry_is_valid_reason(failure), geom);
return util::apply_visitor(detail::geometry_is_valid_reason<T>(failure), geom);
}
template <typename T>
inline bool is_valid(T const& geom, std::string & message)
{
return detail::geometry_is_valid_string(message) (geom);
using coordinate_type = typename T::coordinate_type;
return detail::geometry_is_valid_string<coordinate_type>(message) (geom);
}
template <typename T>
inline bool is_valid(mapnik::geometry::geometry<T> const& geom,
inline bool is_valid(mapnik::geometry::geometry<T> const& geom,
std::string & message)
{
return util::apply_visitor(detail::geometry_is_valid_string(message), geom);
return util::apply_visitor(detail::geometry_is_valid_string<T>(message), geom);
}
}}

View file

@ -32,25 +32,25 @@ namespace detail {
struct geometry_remove_empty
{
mapnik::geometry::multi_line_string<double> operator() (mapnik::geometry::multi_line_string<double> const & geom) const
mapnik::geometry::multi_line_string<double> operator() (mapnik::geometry::multi_line_string<double> const& geom) const
{
return remove_empty(geom);
}
mapnik::geometry::multi_polygon<double> operator() (mapnik::geometry::multi_polygon<double> const & geom) const
mapnik::geometry::multi_polygon<double> operator() (mapnik::geometry::multi_polygon<double> const& geom) const
{
return remove_empty(geom);
}
template <typename T>
T operator() (T const & geom) const
T operator() (T const& geom) const
{
return geom;
}
private:
template <typename T>
T remove_empty(T const & geom) const
T remove_empty(T const& geom) const
{
T new_geom;
for (auto const & g : geom)

View file

@ -20,8 +20,7 @@
*
*****************************************************************************/
// mapnik
#include <mapnik/geometry_reprojection.hpp>
// mapnik <mapnik/geometry_reprojection.hpp>
#include <mapnik/geometry.hpp>
namespace mapnik {
@ -30,9 +29,10 @@ namespace geometry {
namespace detail {
geometry_empty reproject_internal(geometry_empty const&, proj_transform const&, unsigned int &)
template <typename T>
geometry_empty<T> reproject_internal(geometry_empty<T> const&, proj_transform const&, unsigned int &)
{
return geometry_empty();
return geometry_empty<T>();
}
template <typename T>
@ -62,31 +62,22 @@ template <typename T>
polygon<T> reproject_internal(polygon<T> const& poly, proj_transform const& proj_trans, unsigned int & n_err)
{
polygon<T> new_poly;
linear_ring<T> new_ext(poly.exterior_ring);
unsigned int err = proj_trans.forward(new_ext);
// If the exterior ring doesn't transform don't bother with the holes.
if (err > 0 || new_ext.empty())
new_poly.reserve(poly.size());
bool exterior = true;
for (auto const& lr : poly)
{
n_err += err;
}
else
{
new_poly.set_exterior_ring(std::move(new_ext));
new_poly.interior_rings.reserve(poly.interior_rings.size());
for (auto const& lr : poly.interior_rings)
linear_ring<T> new_lr(lr);
unsigned int err = proj_trans.forward(new_lr);
if (err > 0 || new_lr.empty())
{
linear_ring<T> new_lr(lr);
err = proj_trans.forward(new_lr);
if (err > 0 || new_lr.empty())
{
n_err += err;
// If there is an error in interior ring drop
// it from polygon.
continue;
}
new_poly.add_hole(std::move(new_lr));
n_err += err;
// If there is an error in interior ring drop
// it from polygon.
if (!exterior) continue;
}
if (exterior) exterior = false;
new_poly.push_back(std::move(new_lr));
}
return new_poly;
}
@ -145,7 +136,7 @@ multi_polygon<T> reproject_internal(multi_polygon<T> const & mpoly, proj_transfo
for (auto const& poly : mpoly)
{
polygon<T> new_poly = reproject_internal(poly, proj_trans, n_err);
if (!new_poly.exterior_ring.empty())
if (new_poly.size() > 0 && !new_poly[0].empty())
{
new_mpoly.emplace_back(std::move(new_poly));
}
@ -162,7 +153,7 @@ geometry_collection<T> reproject_internal(geometry_collection<T> const & c, proj
{
geometry<T> new_g = reproject_copy(g, proj_trans, n_err);
if (!new_g.template is<geometry_empty>())
if (!new_g.template is<geometry_empty<T>>())
{
new_c.emplace_back(std::move(new_g));
}
@ -178,9 +169,9 @@ struct geom_reproj_copy_visitor
: proj_trans_(proj_trans),
n_err_(n_err) {}
geometry<T> operator() (geometry_empty const&) const
geometry<T> operator() (geometry_empty<T>) const
{
return geometry_empty();
return geometry_empty<T>();
}
geometry<T> operator() (point<T> const& p) const
@ -207,7 +198,7 @@ struct geom_reproj_copy_visitor
{
geometry<T> geom; // default empty
polygon<T> new_poly = reproject_internal(poly, proj_trans_, n_err_);
if (new_poly.exterior_ring.empty()) return geom;
if (new_poly.size() == 0 || new_poly[0].size() == 0) return geom;
geom = std::move(new_poly);
return geom;
}
@ -289,7 +280,8 @@ struct geom_reproj_visitor {
return mapnik::util::apply_visitor((*this), geom);
}
bool operator() (geometry_empty &) const { return true; }
template <typename T>
bool operator() (geometry_empty<T> &) const { return true; }
template <typename T>
bool operator() (point<T> & p) const
@ -314,12 +306,7 @@ struct geom_reproj_visitor {
template <typename T>
bool operator() (polygon<T> & poly) const
{
if (proj_trans_.forward(poly.exterior_ring) > 0)
{
return false;
}
for (auto & lr : poly.interior_rings)
for (auto & lr : poly)
{
if (proj_trans_.forward(lr) > 0)
{
@ -332,7 +319,11 @@ struct geom_reproj_visitor {
template <typename T>
bool operator() (multi_point<T> & mp) const
{
return (*this) (static_cast<line_string<T> &>(mp));
if (proj_trans_.forward(mp) > 0)
{
return false;
}
return true;
}
template <typename T>

View file

@ -28,24 +28,22 @@
namespace mapnik { namespace geometry { namespace detail {
//template <typename Transformer>
template <typename T>
struct geometry_to_path
{
geometry_to_path(path_type & p)
: p_(p) {}
template <typename T>
void operator() (geometry<T> const& geom) const
{
mapnik::util::apply_visitor(*this, geom);
}
void operator() (geometry_empty const&) const
void operator() (geometry_empty<T> const&) const
{
// no-op
}
// point
template <typename T>
void operator() (point<T> const& pt) const
{
//point pt_new;
@ -54,7 +52,6 @@ struct geometry_to_path
}
// line_string
template <typename T>
void operator() (line_string<T> const& line) const
{
bool first = true;
@ -68,34 +65,16 @@ struct geometry_to_path
}
// polygon
template <typename T>
void operator() (polygon<T> const& poly) const
{
// exterior
bool first = true;
for (auto const& pt : poly.exterior_ring)
// rings: exterior *interior
for (auto const& ring : poly)
{
if (first)
{
p_.move_to(pt.x, pt.y);
first=false;
}
else
{
p_.line_to(pt.x, pt.y);
}
}
if (!first)
{
p_.close_path();
}
// interior
for (auto const& ring : poly.interior_rings)
{
first = true;
bool first = true;
for (auto const& pt : ring)
{
if (first) {
if (first)
{
p_.move_to(pt.x, pt.y);
first=false;
}
@ -112,7 +91,6 @@ struct geometry_to_path
}
// multi point
template <typename T>
void operator() (multi_point<T> const& multi_pt) const
{
for (auto const& pt : multi_pt)
@ -121,7 +99,6 @@ struct geometry_to_path
}
}
// multi_line_string
template <typename T>
void operator() (multi_line_string<T> const& multi_line) const
{
for (auto const& line : multi_line)
@ -131,7 +108,6 @@ struct geometry_to_path
}
// multi_polygon
template <typename T>
void operator() (multi_polygon<T> const& multi_poly) const
{
for (auto const& poly : multi_poly)
@ -139,8 +115,7 @@ struct geometry_to_path
(*this)(poly);
}
}
template <typename T>
// geometry_collection
void operator() (geometry_collection<T> const& collection) const
{
for (auto const& geom : collection)
@ -157,7 +132,8 @@ struct geometry_to_path
template <typename T>
void to_path(T const& geom, path_type & p)
{
detail::geometry_to_path func(p);
using coordinate_type = typename T::coordinate_type;
detail::geometry_to_path<coordinate_type> func(p);
func(geom);
}

View file

@ -103,9 +103,10 @@ struct geometry_transform
using result_type = geometry<V>;
geometry<V> operator() (geometry_empty const& empty) const
template <typename T>
geometry<V> operator() (geometry_empty<T> const& empty) const
{
return empty;
return geometry_empty<V>();
}
template <typename T>

View file

@ -29,56 +29,49 @@
namespace mapnik { namespace geometry { namespace detail {
template <typename T>
struct geometry_type
{
template <typename T>
mapnik::geometry::geometry_types operator () (T const& geom) const
mapnik::geometry::geometry_types operator () (mapnik::geometry::geometry<T> const& geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
mapnik::geometry::geometry_types operator() (geometry_empty const& ) const
mapnik::geometry::geometry_types operator() (geometry_empty<T> const& ) const
{
return mapnik::geometry::geometry_types::Unknown;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::point<T> const&) const
{
return mapnik::geometry::geometry_types::Point;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::line_string<T> const&) const
{
return mapnik::geometry::geometry_types::LineString;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::polygon<T> const&) const
{
return mapnik::geometry::geometry_types::Polygon;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::multi_point<T> const&) const
{
return mapnik::geometry::geometry_types::MultiPoint;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::multi_line_string<T> const&) const
{
return mapnik::geometry::geometry_types::MultiLineString;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::multi_polygon<T> const&) const
{
return mapnik::geometry::geometry_types::MultiPolygon;
}
template <typename T>
mapnik::geometry::geometry_types operator () (mapnik::geometry::geometry_collection<T> const&) const
{
return mapnik::geometry::geometry_types::GeometryCollection;
@ -89,7 +82,8 @@ struct geometry_type
template <typename T>
static inline mapnik::geometry::geometry_types geometry_type(T const& geom)
{
return detail::geometry_type()(geom);
using coordinate_type = typename T::coordinate_type;
return detail::geometry_type<coordinate_type>()(geom);
}
}}

View file

@ -49,7 +49,7 @@ struct hit_test_visitor
y_(y),
tol_(tol) {}
bool operator() (geometry::geometry_empty const& ) const
bool operator() (geometry::geometry_empty<double> const& ) const
{
return false;
}
@ -68,7 +68,7 @@ struct hit_test_visitor
}
bool operator() (geometry::line_string<double> const& geom) const
{
std::size_t num_points = geom.num_points();
std::size_t num_points = geom.size();
if (num_points > 1)
{
for (std::size_t i = 1; i < num_points; ++i)
@ -89,41 +89,48 @@ struct hit_test_visitor
}
return false;
}
bool operator() (geometry::polygon<double> const& geom) const
bool operator() (geometry::polygon<double> const& poly) const
{
auto const& exterior = geom.exterior_ring;
std::size_t num_points = exterior.num_points();
if (num_points < 4) return false;
bool inside = false;
for (std::size_t i = 1; i < num_points; ++i)
{
auto const& pt0 = exterior[i-1];
auto const& pt1 = exterior[i];
//auto const& exterior = geom.exterior_ring;
//std::size_t num_points = exterior.size();
//if (num_points < 4) return false;
//for (std::size_t i = 1; i < num_points; ++i)
//{
// auto const& pt0 = exterior[i-1];
// auto const& pt1 = exterior[i];
// todo - account for tolerance
if (pip(pt0.x,pt0.y,pt1.x,pt1.y,x_,y_))
{
inside = !inside;
}
}
if (!inside) return false;
for (auto const& ring : geom.interior_rings)
// if (pip(pt0.x,pt0.y,pt1.x,pt1.y,x_,y_))
// {
// inside = !inside;
// }
//}
//if (!inside) return false;
//// FIXME !!!
bool inside = false;
bool exterior = true;
for (auto const& ring : poly)
{
std::size_t num_interior_points = ring.size();
if (num_interior_points < 4)
std::size_t num_points = ring.size();
if (num_points < 4)
{
continue;
if (exterior) return false;
else continue;
}
for (std::size_t j = 1; j < num_interior_points; ++j)
for (std::size_t j = 1; j < num_points; ++j)
{
auto const& pt0 = ring[j-1];
auto const& pt0 = ring[j - 1];
auto const& pt1 = ring[j];
if (pip(pt0.x,pt0.y,pt1.x,pt1.y,x_,y_))
if (pip(pt0.x, pt0.y, pt1.x, pt1.y, x_, y_))
{
// TODO - account for tolerance
inside=!inside;
inside = !inside;
}
}
}
////////////////////////////
return inside;
}
bool operator() (geometry::multi_polygon<double> const& geom) const

View file

@ -99,8 +99,7 @@ struct geometry_generator_grammar :
karma::rule<OutputIterator, geometry::line_string<double> const&()> linestring_coord;
karma::rule<OutputIterator, geometry::geometry<double> const&()> polygon;
karma::rule<OutputIterator, geometry::polygon<double> const&()> polygon_coord;
karma::rule<OutputIterator, geometry::linear_ring<double> const&()> exterior_ring_coord;
karma::rule<OutputIterator, geometry::polygon<double>::rings_container const&()> interior_ring_coord;
karma::rule<OutputIterator, geometry::linear_ring<double> const&()> linearring_coord;
karma::rule<OutputIterator, geometry::geometry<double> const& ()> multi_point;
karma::rule<OutputIterator, geometry::multi_point<double> const& ()> multi_point_coord;
karma::rule<OutputIterator, geometry::geometry<double> const& ()> multi_linestring;

View file

@ -98,11 +98,9 @@ geometry_generator_grammar<OutputIterator, Geometry>::geometry_generator_grammar
;
linestring_coord = point_coord % lit(',')
;
polygon_coord = lit('[') << exterior_ring_coord << lit(']') << interior_ring_coord
linearring_coord = point_coord % lit(',')
;
exterior_ring_coord = linestring_coord.alias()
;
interior_ring_coord = *(lit(",[") << exterior_ring_coord << lit(']'))
polygon_coord = (lit('[') << linearring_coord << lit(']')) % lit(',')
;
multi_point_coord = linestring_coord.alias()
;
@ -110,7 +108,7 @@ geometry_generator_grammar<OutputIterator, Geometry>::geometry_generator_grammar
;
multi_polygon_coord = (lit('[') << polygon_coord << lit(']')) % lit(',')
;
geometries = geometry % lit(',')
geometries = geometry % lit(',')
;
}

View file

@ -84,10 +84,7 @@ struct create_polygon
{
mapnik::geometry::polygon<double> poly;
std::size_t num_rings = rings.size();
if (num_rings > 1)
{
poly.interior_rings.reserve(num_rings - 1);
}
poly.reserve(num_rings);
for ( std::size_t i = 0; i < num_rings; ++i)
{
@ -98,8 +95,7 @@ struct create_polygon
{
ring.emplace_back(std::move(pt));
}
if (i == 0) poly.set_exterior_ring(std::move(ring));
else poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
geom_ = std::move(poly);
mapnik::geometry::correct(geom_);
@ -179,9 +175,7 @@ struct create_multipolygon
{
mapnik::geometry::polygon<double> poly;
std::size_t num_rings = rings.size();
if ( num_rings > 1)
poly.interior_rings.reserve(num_rings - 1);
poly.reserve(num_rings);
for ( std::size_t i = 0; i < num_rings; ++i)
{
std::size_t size = rings[i].size();
@ -191,8 +185,8 @@ struct create_multipolygon
{
ring.emplace_back(std::move(pt));
}
if (i == 0) poly.set_exterior_ring(std::move(ring));
else poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
multi_poly.emplace_back(std::move(poly));
}

View file

@ -313,7 +313,7 @@ struct feature_generator
x = x * (*topo_.tr).scale_x + (*topo_.tr).translate_x;
y = y * (*topo_.tr).scale_y + (*topo_.tr).translate_y;
}
multi_point.add_coord(x, y);
multi_point.emplace_back(x, y);
}
feature->set_geometry(std::move(multi_point));
assign_properties(*feature, multi_pt, tr_);
@ -344,7 +344,7 @@ struct feature_generator
x = (px += x) * (*topo_.tr).scale_x + (*topo_.tr).translate_x;
y = (py += y) * (*topo_.tr).scale_y + (*topo_.tr).translate_y;
}
line_string.add_coord(x,y);
line_string.emplace_back(x,y);
}
}
}
@ -383,7 +383,7 @@ struct feature_generator
x = (px += x) * (*topo_.tr).scale_x + (*topo_.tr).translate_x;
y = (py += y) * (*topo_.tr).scale_y + (*topo_.tr).translate_y;
}
line_string.add_coord(x, y);
line_string.emplace_back(x, y);
}
}
@ -406,8 +406,7 @@ struct feature_generator
{
std::vector<mapnik::topojson::coordinate> processed_coords;
mapnik::geometry::polygon<double> polygon;
if (poly.rings.size() > 1) polygon.interior_rings.reserve(poly.rings.size() - 1);
bool first = true;
polygon.reserve(poly.rings.size());
bool hit = false;
for (auto const& ring : poly.rings)
{
@ -454,15 +453,7 @@ struct feature_generator
}
}
}
if (first)
{
first = false;
polygon.set_exterior_ring(std::move(linear_ring));
}
else
{
polygon.add_hole(std::move(linear_ring));
}
polygon.push_back(std::move(linear_ring));
}
if (hit)
{
@ -485,9 +476,8 @@ struct feature_generator
bool hit = false;
for (auto const& poly : multi_poly.polygons)
{
bool first = true;
mapnik::geometry::polygon<double> polygon;
if (poly.size() > 1) polygon.interior_rings.reserve(poly.size() - 1);
polygon.reserve(poly.size());
for (auto const& ring : poly)
{
@ -524,27 +514,19 @@ struct feature_generator
{
for (auto const& c : (processed_coords | reversed))
{
linear_ring.add_coord(c.x, c.y);
linear_ring.emplace_back(c.x, c.y);
}
}
else
{
for (auto const& c : processed_coords)
{
linear_ring.add_coord(c.x, c.y);
linear_ring.emplace_back(c.x, c.y);
}
}
}
}
if (first)
{
first = false;
polygon.set_exterior_ring(std::move(linear_ring));
}
else
{
polygon.add_hole(std::move(linear_ring));
}
polygon.push_back(std::move(linear_ring));
}
multi_polygon.push_back(std::move(polygon));
}

View file

@ -44,8 +44,8 @@ public:
PolygonExterior = Polygon,
PolygonInterior = Polygon | ( 1 << geometry_bits)
};
using coord_type = T;
using container_type = Container<coord_type>;
using coordinate_type = T;
using container_type = Container<coordinate_type>;
using value_type = typename container_type::value_type;
using size_type = typename container_type::size_type;
container_type cont_;
@ -84,17 +84,17 @@ public:
{
return cont_.size();
}
void push_vertex(coord_type x, coord_type y, CommandType c)
void push_vertex(coordinate_type x, coordinate_type y, CommandType c)
{
cont_.push_back(x,y,c);
}
void line_to(coord_type x,coord_type y)
void line_to(coordinate_type x,coordinate_type y)
{
push_vertex(x,y,SEG_LINETO);
}
void move_to(coord_type x,coord_type y)
void move_to(coordinate_type x,coordinate_type y)
{
push_vertex(x,y,SEG_MOVETO);
}

View file

@ -35,13 +35,8 @@
#include <boost/numeric/conversion/cast.hpp>
#pragma GCC diagnostic pop
namespace mapnik {
namespace geometry {
template <typename T> struct point;
template <typename T> struct line_string;
}
class projection;
template <typename T> class box2d;

View file

@ -26,13 +26,12 @@
// mapnik
#include <mapnik/config.hpp>
#include <mapnik/util/noncopyable.hpp>
#include <mapnik/geometry/point.hpp>
// stl
#include <vector>
namespace mapnik {
namespace geometry {
template <typename T> struct point;
template <typename T> struct line_string;
}
class projection;
template <typename T> class box2d;
@ -50,8 +49,8 @@ public:
bool backward (double *x, double *y , double *z, int point_count, int offset = 1) const;
bool forward (geometry::point<double> & p) const;
bool backward (geometry::point<double> & p) const;
unsigned int forward (geometry::line_string<double> & ls) const;
unsigned int backward (geometry::line_string<double> & ls) const;
unsigned int forward (std::vector<geometry::point<double>> & ls) const;
unsigned int backward (std::vector<geometry::point<double>> & ls) const;
bool forward (box2d<double> & box) const;
bool backward (box2d<double> & box) const;
bool forward (box2d<double> & box, int points) const;

View file

@ -145,7 +145,7 @@ struct svg_path_generator :
{
using path_type = Path;
using coord_type = typename boost::remove_pointer<typename path_type::value_type>::type;
using coordinate_type = typename boost::remove_pointer<typename path_type::value_type>::type;
svg_path_generator();
// rules
@ -153,7 +153,7 @@ struct svg_path_generator :
karma::rule<OutputIterator, path_type const& ()> point;
karma::rule<OutputIterator, path_type const& ()> linestring;
karma::rule<OutputIterator, path_type const& ()> polygon;
karma::rule<OutputIterator, coord_type ()> svg_point;
karma::rule<OutputIterator, coordinate_type ()> svg_point;
karma::rule<OutputIterator, path_type const& ()> svg_path;
// phoenix functions

View file

@ -117,8 +117,8 @@ private:
void increment()
{
// variables used to extract vertex components.
geometry_type::coord_type x;
geometry_type::coord_type y;
geometry_type::coordinate_type x;
geometry_type::coordinate_type y;
// extract next vertex components.
unsigned cmd = path_.vertex(&x, &y);
@ -170,7 +170,7 @@ private:
// Specialization of geometry_iterator, as needed by mapnik::svg::svg_path_data_grammar.
// The Value type is a std::tuple that holds 5 elements, the command and the x and y coordinate.
// Each coordinate is stored twice to match the needs of the grammar.
//using path_iterator_type = path_iterator<std::tuple<unsigned, geometry_type::coord_type, geometry_type::value_type>,
//using path_iterator_type = path_iterator<std::tuple<unsigned, geometry_type::coordinate_type, geometry_type::value_type>,
// transform_path_adapter<view_transform, geometry_type> >;
}}

View file

@ -69,6 +69,7 @@ public:
using line_string_cref = std::reference_wrapper<geometry::line_string<double> const>;
using polygon_cref = std::reference_wrapper<geometry::polygon<double> const>;
using geometry_cref = util::variant<point_cref, line_string_cref, polygon_cref>;
// Using list instead of vector, because we delete random elements and need iterators to stay valid.
using geometry_container_type = std::list<geometry_cref>;
base_symbolizer_helper(symbolizer_base const& sym,
@ -110,6 +111,10 @@ protected:
evaluated_text_properties_ptr text_props_;
};
namespace geometry {
MAPNIK_DECL mapnik::box2d<double> envelope(mapnik::base_symbolizer_helper::geometry_cref const& geom);
}
// Helper object that does all the TextSymbolizer placement finding
// work except actually rendering the object.

View file

@ -42,7 +42,7 @@ namespace detail {
struct datasource_geometry_type
{
mapnik::datasource_geometry_t operator () (mapnik::geometry::geometry_empty const&) const
mapnik::datasource_geometry_t operator () (mapnik::geometry::geometry_empty<double> const&) const
{
return mapnik::datasource_geometry_t::Unknown;
}

View file

@ -133,7 +133,7 @@ using wkb_buffer_ptr = std::unique_ptr<wkb_buffer>;
wkb_buffer_ptr point_wkb( geometry::point<double> const& pt, wkbByteOrder byte_order)
{
std::size_t size = 1 + 4 + 8 * 2 ; // byteOrder + wkbType + Point
std::size_t const size = 1 + 4 + 8 * 2 ; // byteOrder + wkbType + Point
wkb_buffer_ptr wkb = std::make_unique<wkb_buffer>(size);
wkb_stream ss(wkb->buffer(), wkb->size());
ss.write(reinterpret_cast<char*>(&byte_order),1);
@ -148,7 +148,7 @@ wkb_buffer_ptr line_string_wkb(geometry::line_string<double> const& line, wkbByt
{
std::size_t num_points = line.size();
assert(num_points > 1);
std::size_t size = 1 + 4 + 4 + 8 * 2 * num_points ; // byteOrder + wkbType + numPoints + Point*numPoints
std::size_t const size = 1 + 4 + 4 + 8 * 2 * num_points ; // byteOrder + wkbType + numPoints + Point*numPoints
wkb_buffer_ptr wkb = std::make_unique<wkb_buffer>(size);
wkb_stream ss(wkb->buffer(), wkb->size());
ss.write(reinterpret_cast<char*>(&byte_order),1);
@ -167,10 +167,8 @@ wkb_buffer_ptr line_string_wkb(geometry::line_string<double> const& line, wkbByt
wkb_buffer_ptr polygon_wkb( geometry::polygon<double> const& poly, wkbByteOrder byte_order)
{
std::size_t size = 1 + 4 + 4 ; // byteOrder + wkbType + numRings
size += 4 + 2 * 8 * poly.exterior_ring.size();
for ( auto const& ring : poly.interior_rings)
for ( auto const& ring : poly)
{
size += 4 + 2 * 8 * ring.size();
}
@ -178,17 +176,10 @@ wkb_buffer_ptr polygon_wkb( geometry::polygon<double> const& poly, wkbByteOrder
wkb_stream ss(wkb->buffer(), wkb->size());
ss.write(reinterpret_cast<char*>(&byte_order),1);
write(ss, static_cast<int>(mapnik::geometry::geometry_types::Polygon), 4, byte_order);
write(ss, poly.num_rings(), 4, byte_order);
write(ss, poly.size(), 4, byte_order);
// exterior
write(ss, poly.exterior_ring.size(), 4, byte_order);
for (auto const& pt : poly.exterior_ring)
{
write(ss, pt.x, 8, byte_order);
write(ss, pt.y, 8, byte_order);
}
// interiors
for (auto const& ring : poly.interior_rings)
// exterior *interior
for (auto const& ring : poly)
{
write(ss, ring.size(), 4, byte_order);
for ( auto const& pt : ring)
@ -238,7 +229,7 @@ struct geometry_to_wkb
return util::apply_visitor(*this, geom);
}
result_type operator() (geometry::geometry_empty const&) const
result_type operator() (geometry::geometry_empty<double> const&) const
{
return result_type();
}
@ -288,7 +279,7 @@ wkb_buffer_ptr multi_geom_wkb(MultiGeometry const& multi_geom, wkbByteOrder byte
wkb_buffer_ptr multi_wkb = std::make_unique<wkb_buffer>(multi_size);
wkb_stream ss(multi_wkb->buffer(), multi_wkb->size());
ss.write(reinterpret_cast<char*>(&byte_order),1);
write(ss, static_cast<int>(geometry::detail::geometry_type()(multi_geom)) , 4, byte_order);
write(ss, static_cast<int>(geometry::detail::geometry_type<double>()(multi_geom)) , 4, byte_order);
write(ss, multi_geom.size(), 4 ,byte_order);
for ( wkb_buffer_ptr const& wkb : wkb_cont)

View file

@ -68,16 +68,16 @@ namespace boost { namespace spirit { namespace traits {
}
};
template <>
struct transform_attribute<mapnik::geometry::polygon<double> const,
mapnik::geometry::polygon<double>::rings_container const&, karma::domain>
{
using type = mapnik::geometry::polygon<double>::rings_container const&;
static type pre(mapnik::geometry::polygon<double> const& poly)
{
return poly.interior_rings;
}
};
//template <>
// struct transform_attribute<mapnik::geometry::polygon<double> const,
// mapnik::geometry::polygon<double>::rings_container const&, karma::domain>
// {
// using type = mapnik::geometry::polygon<double>::rings_container const&;
// static type pre(mapnik::geometry::polygon<double> const& poly)
// {
// return poly.interior_rings;
// }
// };
template <>
struct transform_attribute<mapnik::geometry::geometry<double> const,
@ -156,16 +156,16 @@ namespace boost { namespace spirit { namespace traits {
}
};
template <>
struct transform_attribute<mapnik::geometry::polygon<std::int64_t> const,
mapnik::geometry::polygon<std::int64_t>::rings_container const&, karma::domain>
{
using type = mapnik::geometry::polygon<std::int64_t>::rings_container const&;
static type pre(mapnik::geometry::polygon<std::int64_t> const& poly)
{
return poly.interior_rings;
}
};
//template <>
// struct transform_attribute<mapnik::geometry::polygon<std::int64_t> const,
// mapnik::geometry::polygon<std::int64_t>::rings_container const&, karma::domain>
// {
// using type = mapnik::geometry::polygon<std::int64_t>::rings_container const&;
// static type pre(mapnik::geometry::polygon<std::int64_t> const& poly)
// {
// return poly.interior_rings;
// }
// };
template <>
struct transform_attribute<mapnik::geometry::geometry<std::int64_t> const,

View file

@ -39,7 +39,7 @@ enum CommandType : std::uint8_t {
template <typename T,int dim>
struct vertex {
using coord_type = T;
using coordinate_type = T;
};
template <typename T>
@ -47,9 +47,9 @@ struct vertex<T,2>
{
enum no_init_t : std::uint8_t { no_init };
using coord_type = T;
coord_type x;
coord_type y;
using coordinate_type = T;
coordinate_type x;
coordinate_type y;
unsigned cmd;
vertex()
@ -58,13 +58,13 @@ struct vertex<T,2>
explicit vertex(no_init_t)
{}
vertex(coord_type x_,coord_type y_,unsigned cmd_)
vertex(coordinate_type x_,coordinate_type y_,unsigned cmd_)
: x(x_),y(y_),cmd(cmd_) {}
template <typename T2>
vertex(vertex<T2,2> const& rhs)
: x(coord_type(rhs.x)),
y(coord_type(rhs.y)),
: x(coordinate_type(rhs.x)),
y(coordinate_type(rhs.y)),
cmd(rhs.cmd) {}
template <typename T2>

View file

@ -32,10 +32,9 @@ namespace mapnik { namespace geometry {
template <typename T>
struct point_vertex_adapter
{
using coord_type = typename point<T>::coord_type;
using coordinate_type = T;
point_vertex_adapter(point<T> const& pt);
unsigned vertex(coord_type * x, coord_type * y) const;
unsigned vertex(coordinate_type * x, coordinate_type * y) const;
void rewind(unsigned) const;
geometry_types type () const;
point<T> const& pt_;
@ -45,23 +44,23 @@ struct point_vertex_adapter
template <typename T>
struct line_string_vertex_adapter
{
using coord_type = typename point<T>::coord_type;
using coordinate_type = T;
line_string_vertex_adapter(line_string<T> const& line);
unsigned vertex(coord_type * x, coord_type * y) const;
unsigned vertex(coordinate_type * x, coordinate_type * y) const;
void rewind(unsigned) const;
geometry_types type () const;
line_string<T> const& line_;
mutable std::size_t current_index_;
const std::size_t end_index_;
const std::size_t end_index_;
};
template <typename T>
struct polygon_vertex_adapter
{
using coord_type = typename point<T>::coord_type;
using coordinate_type = T;
polygon_vertex_adapter(polygon<T> const& poly);
void rewind(unsigned) const;
unsigned vertex(coord_type * x, coord_type * y) const;
unsigned vertex(coordinate_type * x, coordinate_type * y) const;
geometry_types type () const;
private:
polygon<T> const& poly_;
@ -75,10 +74,10 @@ private:
template <typename T>
struct ring_vertex_adapter
{
using coord_type = typename point<T>::coord_type;
using coordinate_type = T;
ring_vertex_adapter(linear_ring<T> const& ring);
void rewind(unsigned) const;
unsigned vertex(coord_type * x, coord_type * y) const;
unsigned vertex(coordinate_type * x, coordinate_type * y) const;
geometry_types type () const;
private:
linear_ring<T> const& ring_;

View file

@ -39,7 +39,8 @@ struct vertex_processor
{
util::apply_visitor(*this, geom);
}
void operator() (geometry_empty const&) const
template <typename T1>
void operator() (geometry_empty<T1> const&) const
{
// no-op
}

View file

@ -42,7 +42,7 @@ namespace mapnik
template <typename T>
class vertex_vector : private util::noncopyable
{
using coord_type = T;
using coordinate_type = T;
enum block_e {
block_shift = 8,
block_size = 1<<block_shift,
@ -51,13 +51,13 @@ class vertex_vector : private util::noncopyable
};
public:
// required for iterators support
using value_type = std::tuple<unsigned,coord_type,coord_type>;
using value_type = std::tuple<unsigned,coordinate_type,coordinate_type>;
using size_type = std::size_t;
using command_size = std::uint8_t;
private:
unsigned num_blocks_;
unsigned max_blocks_;
coord_type** vertices_;
coordinate_type** vertices_;
command_size** commands_;
size_type pos_;
@ -74,7 +74,7 @@ public:
{
if ( num_blocks_ )
{
coord_type** vertices=vertices_ + num_blocks_ - 1;
coordinate_type** vertices=vertices_ + num_blocks_ - 1;
while ( num_blocks_-- )
{
::operator delete(*vertices);
@ -88,14 +88,14 @@ public:
return pos_;
}
void push_back (coord_type x,coord_type y,command_size command)
void push_back (coordinate_type x,coordinate_type y,command_size command)
{
size_type block = pos_ >> block_shift;
if (block >= num_blocks_)
{
allocate_block(block);
}
coord_type* vertex = vertices_[block] + ((pos_ & block_mask) << 1);
coordinate_type* vertex = vertices_[block] + ((pos_ & block_mask) << 1);
command_size* cmd= commands_[block] + (pos_ & block_mask);
*cmd = static_cast<command_size>(command);
@ -103,11 +103,11 @@ public:
*vertex = y;
++pos_;
}
unsigned get_vertex(unsigned pos,coord_type* x,coord_type* y) const
unsigned get_vertex(unsigned pos,coordinate_type* x,coordinate_type* y) const
{
if (pos >= pos_) return SEG_END;
size_type block = pos >> block_shift;
const coord_type* vertex = vertices_[block] + (( pos & block_mask) << 1);
const coordinate_type* vertex = vertices_[block] + (( pos & block_mask) << 1);
*x = (*vertex++);
*y = (*vertex);
return commands_[block] [pos & block_mask];
@ -126,8 +126,8 @@ private:
{
if (block >= max_blocks_)
{
coord_type** new_vertices =
static_cast<coord_type**>(::operator new (sizeof(coord_type*)*((max_blocks_ + grow_by) * 2)));
coordinate_type** new_vertices =
static_cast<coordinate_type**>(::operator new (sizeof(coordinate_type*)*((max_blocks_ + grow_by) * 2)));
command_size** new_commands = (command_size**)(new_vertices + max_blocks_ + grow_by);
if (vertices_)
{
@ -139,8 +139,8 @@ private:
commands_ = new_commands;
max_blocks_ += grow_by;
}
vertices_[block] = static_cast<coord_type*>
(::operator new(sizeof(coord_type)*(block_size * 2 + block_size / (sizeof(coord_type)))));
vertices_[block] = static_cast<coordinate_type*>
(::operator new(sizeof(coordinate_type)*(block_size * 2 + block_size / (sizeof(coordinate_type)))));
commands_[block] = (command_size*)(vertices_[block] + block_size*2);
++num_blocks_;

View file

@ -26,7 +26,7 @@
// mapnik
#include <mapnik/global.hpp> // for M_PI on windows
#include <mapnik/enumeration.hpp>
#include <mapnik/geometry.hpp>
#include <mapnik/geometry/point.hpp>
#pragma GCC diagnostic push
#include <mapnik/warning_ignore.hpp>
@ -35,6 +35,7 @@
// stl
#include <cmath>
#include <vector>
namespace mapnik {
@ -93,9 +94,9 @@ static inline bool merc2lonlat(double * x, double * y , int point_count)
return true;
}
static inline bool lonlat2merc(geometry::line_string<double> & ls)
static inline bool lonlat2merc(std::vector<geometry::point<double>> & ls)
{
for(auto & p : ls)
for (auto& p : ls)
{
if (p.x > 180) p.x = 180;
else if (p.x < -180) p.x = -180;
@ -108,7 +109,7 @@ static inline bool lonlat2merc(geometry::line_string<double> & ls)
return true;
}
static inline bool merc2lonlat(geometry::line_string<double> & ls)
static inline bool merc2lonlat(std::vector<geometry::point<double>> & ls)
{
for (auto & p : ls)
{

View file

@ -104,31 +104,31 @@ template <typename OutputIterator, typename Geometry>
struct wkt_generator_grammar :
karma::grammar<OutputIterator, Geometry const& ()>
{
using coord_type = typename Geometry::coord_type;
using coordinate_type = typename Geometry::coordinate_type;
wkt_generator_grammar();
// rules
karma::rule<OutputIterator, Geometry const&()> geometry;
karma::rule<OutputIterator, karma::locals<mapnik::geometry::geometry_types>, Geometry const&() > geometry_dispatch;
karma::rule<OutputIterator, geometry::geometry<coord_type> const&()> point;
karma::rule<OutputIterator, geometry::point<coord_type> const&()> point_coord;
karma::rule<OutputIterator, geometry::geometry<coord_type> const&()> linestring;
karma::rule<OutputIterator, geometry::line_string<coord_type> const&()> linestring_coord;
karma::rule<OutputIterator, geometry::geometry<coord_type> const&()> polygon;
karma::rule<OutputIterator, geometry::polygon<coord_type> const&()> polygon_coord;
karma::rule<OutputIterator, geometry::linear_ring<coord_type> const&()> exterior_ring_coord;
karma::rule<OutputIterator, std::vector<geometry::linear_ring<coord_type> > const&()> interior_ring_coord;
karma::rule<OutputIterator, geometry::geometry<coord_type> const& ()> multi_point;
karma::rule<OutputIterator, geometry::multi_point<coord_type> const& ()> multi_point_coord;
karma::rule<OutputIterator, geometry::geometry<coord_type> const& ()> multi_linestring;
karma::rule<OutputIterator, geometry::multi_line_string<coord_type> const& ()> multi_linestring_coord;
karma::rule<OutputIterator, geometry::geometry<coord_type> const& ()> multi_polygon;
karma::rule<OutputIterator, geometry::multi_polygon<coord_type> const& ()> multi_polygon_coord;
karma::rule<OutputIterator, geometry::geometry<coord_type> const& ()> geometry_collection;
karma::rule<OutputIterator, geometry::geometry_collection<coord_type> const& ()> geometries;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const&()> point;
karma::rule<OutputIterator, geometry::point<coordinate_type> const&()> point_coord;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const&()> linestring;
karma::rule<OutputIterator, geometry::line_string<coordinate_type> const&()> linestring_coord;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const&()> polygon;
karma::rule<OutputIterator, geometry::polygon<coordinate_type> const&()> polygon_coord;
karma::rule<OutputIterator, geometry::linear_ring<coordinate_type> const&()> ring;
//karma::rule<OutputIterator, std::vector<geometry::linear_ring<coordinate_type> > const&()> interior_ring_coord;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const& ()> multi_point;
karma::rule<OutputIterator, geometry::multi_point<coordinate_type> const& ()> multi_point_coord;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const& ()> multi_linestring;
karma::rule<OutputIterator, geometry::multi_line_string<coordinate_type> const& ()> multi_linestring_coord;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const& ()> multi_polygon;
karma::rule<OutputIterator, geometry::multi_polygon<coordinate_type> const& ()> multi_polygon_coord;
karma::rule<OutputIterator, geometry::geometry<coordinate_type> const& ()> geometry_collection;
karma::rule<OutputIterator, geometry::geometry_collection<coordinate_type> const& ()> geometries;
boost::phoenix::function<detail::get_type<Geometry> > geometry_type;
karma::symbols<mapnik::geometry::geometry_types, char const*> empty;
//
typename detail::coordinate_generator<coord_type>::generator coordinate;
typename detail::coordinate_generator<coordinate_type>::generator coordinate;
};
}}

View file

@ -79,7 +79,7 @@ wkt_generator_grammar<OutputIterator, Geometry>::wkt_generator_grammar()
<< (geometry_collection | empty[_1 = _a]))
|
(&uint_(geometry::geometry_types::Unknown)[_1 = _a]
<< lit("POINT EMPTY")) // special case for geometry_empty as mapnik::geometry::point<double> can't be empty
<< lit("POINT EMPTY")) // special case for geometry_empty<double> as mapnik::geometry::point<double> can't be empty
;
point = lit("POINT(") << point_coord << lit(")")
@ -100,11 +100,9 @@ wkt_generator_grammar<OutputIterator, Geometry>::wkt_generator_grammar()
;
linestring_coord = point_coord % lit(',')
;
polygon_coord = lit('(') << exterior_ring_coord << lit(')') << interior_ring_coord
polygon_coord = ring % lit(',')//<< interior_ring_coord
;
exterior_ring_coord = linestring_coord.alias()
;
interior_ring_coord = *(lit(",(") << exterior_ring_coord << lit(')'))
ring = lit('(') << linestring_coord << lit(')')
;
multi_point_coord = linestring_coord.alias()
;

View file

@ -60,23 +60,14 @@ struct move_part
}
};
struct set_exterior
{
using result_type = void;
template <typename Polygon, typename Ring>
void operator() (Polygon & poly, Ring && ring) const
{
poly.set_exterior_ring(std::move(ring));
}
};
struct add_hole
struct set_ring
{
using result_type = void;
template <typename Polygon, typename Ring>
void operator() (Polygon & poly, Ring && ring) const
{
poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
};
@ -109,8 +100,7 @@ struct wkt_grammar : qi::grammar<Iterator, void(mapnik::geometry::geometry<doubl
qi::rule<Iterator,ascii::space_type> empty_set;
boost::phoenix::function<detail::assign> assign;
boost::phoenix::function<detail::move_part> move_part;
boost::phoenix::function<detail::set_exterior> set_exterior;
boost::phoenix::function<detail::add_hole> add_hole;
boost::phoenix::function<detail::set_ring> set_ring;
};
}}

View file

@ -62,7 +62,7 @@ wkt_grammar<Iterator>::wkt_grammar()
// <point tagged text> ::= point <point text>
point_tagged_text = no_case[lit("POINT")]
>> (point_text[assign(_r1,_1)] | empty_set[assign(_r1,construct<geometry::geometry_empty>())])
>> (point_text[assign(_r1,_1)] | empty_set[assign(_r1,construct<geometry::geometry_empty<double>>())])
;
// <point text> ::= <empty set> | <left paren> <point> <right paren>
point_text = (lit("(") >> point >> lit(')'))
@ -86,12 +86,14 @@ wkt_grammar<Iterator>::wkt_grammar()
// <polygon text> ::= <empty set> | <left paren> <linestring text> {<comma> <linestring text>}* <right paren>
polygon_text =
(lit('(') >> linearring_text[set_exterior(_val,_1)] >> *(lit(',') >> linearring_text[add_hole(_val,_1)]) >> lit(')'))
lit('(') >> linearring_text[set_ring(_val,_1)] % lit(',') >> lit(')')
|
empty_set
;
linearring_text = ring_points | empty_set
linearring_text = ring_points
|
empty_set
;
//<multipoint tagged text> ::= multipoint <multipoint text>
multipoint_tagged_text = no_case[lit("MULTIPOINT")]

View file

@ -73,7 +73,7 @@ mapnik::feature_ptr csv_featureset::parse_feature(char const* beg, char const* e
{
auto values = csv_utils::parse_line(beg, end, separator_, quote_, headers_.size());
auto geom = csv_utils::extract_geometry(values, locator_);
if (!geom.is<mapnik::geometry::geometry_empty>())
if (!geom.is<mapnik::geometry::geometry_empty<double>>())
{
mapnik::feature_ptr feature(mapnik::feature_factory::create(ctx_, ++feature_id_));
feature->set_geometry(std::move(geom));

View file

@ -90,7 +90,7 @@ mapnik::feature_ptr csv_index_featureset::parse_feature(char const* beg, char co
{
auto values = csv_utils::parse_line(beg, end, separator_, quote_, headers_.size());
auto geom = csv_utils::extract_geometry(values, locator_);
if (!geom.is<mapnik::geometry::geometry_empty>())
if (!geom.is<mapnik::geometry::geometry_empty<double>>())
{
mapnik::feature_ptr feature(mapnik::feature_factory::create(ctx_, ++feature_id_));
feature->set_geometry(std::move(geom));

View file

@ -58,7 +58,7 @@ mapnik::feature_ptr csv_inline_featureset::parse_feature(std::string const& str)
auto const* end = start + str.size();
auto values = csv_utils::parse_line(start, end, separator_, quote_, headers_.size());
auto geom = csv_utils::extract_geometry(values, locator_);
if (!geom.is<mapnik::geometry::geometry_empty>())
if (!geom.is<mapnik::geometry::geometry_empty<double>>())
{
mapnik::feature_ptr feature(mapnik::feature_factory::create(ctx_, ++feature_id_));
feature->set_geometry(std::move(geom));

View file

@ -406,7 +406,7 @@ void csv_file_parser::parse_csv_and_boxes(std::istream & csv_file, T & boxes)
}
auto geom = extract_geometry(values, locator_);
if (!geom.is<mapnik::geometry::geometry_empty>())
if (!geom.is<mapnik::geometry::geometry_empty<double>>())
{
auto box = mapnik::geometry::envelope(geom);
if (!extent_initialized_)

View file

@ -98,7 +98,7 @@ mapnik::geometry::line_string<double> ogr_converter::convert_linestring(OGRLineS
geom.reserve(num_points);
for (int i = 0; i < num_points; ++i)
{
geom.add_coord(ogr_geom->getX(i), ogr_geom->getY(i));
geom.emplace_back(ogr_geom->getX(i), ogr_geom->getY(i));
}
return geom;
}
@ -127,7 +127,7 @@ mapnik::geometry::polygon<double> ogr_converter::convert_polygon(OGRPolygon* ogr
{
exterior.emplace_back(ogr_exterior->getX(i), ogr_exterior->getY(i));
}
geom.set_exterior_ring(std::move(exterior));
geom.push_back(std::move(exterior));
int num_interior = ogr_geom->getNumInteriorRings();
for (int r = 0; r < num_interior; ++r)
@ -140,7 +140,7 @@ mapnik::geometry::polygon<double> ogr_converter::convert_polygon(OGRPolygon* ogr
{
interior.emplace_back(ogr_interior->getX(i), ogr_interior->getY(i));
}
geom.add_hole(std::move(interior));
geom.push_back(std::move(interior));
}
return geom;
}

View file

@ -114,7 +114,7 @@ mapnik::geometry::geometry<double> shape_io::read_polyline(shape_file::record_ty
{
double x = record.read_double();
double y = record.read_double();
line.add_coord(x, y);
line.emplace_back(x, y);
}
geom = std::move(line);
}
@ -144,7 +144,7 @@ mapnik::geometry::geometry<double> shape_io::read_polyline(shape_file::record_ty
{
double x = record.read_double();
double y = record.read_double();
line.add_coord(x, y);
line.emplace_back(x, y);
}
multi_line.push_back(std::move(line));
}
@ -210,17 +210,17 @@ mapnik::geometry::geometry<double> shape_io::read_polygon(shape_file::record_typ
}
if (k == 0)
{
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
}
else if (mapnik::util::is_clockwise(ring))
{
multi_poly.emplace_back(std::move(poly));
poly.interior_rings.clear();
poly.set_exterior_ring(std::move(ring));
poly.clear();
poly.push_back(std::move(ring));
}
else
{
poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
}
@ -260,17 +260,17 @@ mapnik::geometry::geometry<double> shape_io::read_polygon_parts(shape_file::reco
}
if (k == 0)
{
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
}
else if (mapnik::util::is_clockwise(ring))
{
multi_poly.emplace_back(std::move(poly));
poly.interior_rings.clear();
poly.set_exterior_ring(std::move(ring));
poly.clear();
poly.push_back(std::move(ring));
}
else
{
poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
}

View file

@ -180,22 +180,30 @@ struct render_ring_visitor
}
}
void operator()(mapnik::geometry::polygon<double> const& geom) const
void operator()(mapnik::geometry::polygon<double> const& poly) const
{
agg::rgba8 red(255,0,0,255);
agg::rgba8 green(0,255,255,255);
agg::rgba8 black(0,0,0,255);
renderer_.draw_ring(geom.exterior_ring,red);
if (mapnik::util::is_clockwise(geom.exterior_ring))
bool exterior = true;
for (auto const& ring : poly)
{
renderer_.draw_outline(geom.exterior_ring,black);
}
for (auto const& ring : geom.interior_rings)
{
renderer_.draw_ring(ring,green);
if (!mapnik::util::is_clockwise(ring))
if (exterior)
{
renderer_.draw_outline(ring,black);
exterior = false;
renderer_.draw_ring(ring, red);
if (mapnik::util::is_clockwise(ring))
{
renderer_.draw_outline(ring,black);
}
}
else
{
renderer_.draw_ring(ring,green);
if (!mapnik::util::is_clockwise(ring))
{
renderer_.draw_outline(ring,black);
}
}
}
}

View file

@ -26,6 +26,7 @@
namespace mapnik {
template class box2d<int>;
template class box2d<std::int64_t>;
template class box2d<float>;
template class box2d<double>;

View file

@ -29,7 +29,7 @@ namespace mapnik {
namespace geometry {
template MAPNIK_DECL geometry<double> reproject_copy(geometry<double> const& geom, proj_transform const& proj_trans, unsigned int & n_err);
template MAPNIK_DECL geometry_empty reproject_copy(geometry_empty const& geom, proj_transform const& proj_trans, unsigned int & n_err);
template MAPNIK_DECL geometry_empty<double> reproject_copy(geometry_empty<double> const& geom, proj_transform const& proj_trans, unsigned int & n_err);
template MAPNIK_DECL point<double> reproject_copy(point<double> const& geom, proj_transform const& proj_trans, unsigned int & n_err);
template MAPNIK_DECL line_string<double> reproject_copy(line_string<double> const& geom, proj_transform const& proj_trans, unsigned int & n_err);
template MAPNIK_DECL polygon<double> reproject_copy(polygon<double> const& geom, proj_transform const& proj_trans, unsigned int & n_err);
@ -39,7 +39,7 @@ template MAPNIK_DECL multi_polygon<double> reproject_copy(multi_polygon<double>
template MAPNIK_DECL geometry_collection<double> reproject_copy(geometry_collection<double> const& geom, proj_transform const& proj_trans, unsigned int & n_err);
template MAPNIK_DECL geometry<double> reproject_copy(geometry<double> const& geom, projection const& source, projection const& dest, unsigned int & n_err);
template MAPNIK_DECL geometry_empty reproject_copy(geometry_empty const& geom, projection const& source, projection const& dest, unsigned int & n_err);
template MAPNIK_DECL geometry_empty<double> reproject_copy(geometry_empty<double> const& geom, projection const& source, projection const& dest, unsigned int & n_err);
template MAPNIK_DECL point<double> reproject_copy(point<double> const& geom, projection const& source, projection const& dest, unsigned int & n_err);
template MAPNIK_DECL line_string<double> reproject_copy(line_string<double> const& geom, projection const& source, projection const& dest, unsigned int & n_err);
template MAPNIK_DECL polygon<double> reproject_copy(polygon<double> const& geom, projection const& source, projection const& dest, unsigned int & n_err);
@ -49,7 +49,7 @@ template MAPNIK_DECL multi_polygon<double> reproject_copy(multi_polygon<double>
template MAPNIK_DECL geometry_collection<double> reproject_copy(geometry_collection<double> const& geom, projection const& source, projection const& dest, unsigned int & n_err);
template MAPNIK_DECL bool reproject(geometry<double> & geom, proj_transform const& proj_trans);
template MAPNIK_DECL bool reproject(geometry_empty & geom, proj_transform const& proj_trans);
template MAPNIK_DECL bool reproject(geometry_empty<double> & geom, proj_transform const& proj_trans);
template MAPNIK_DECL bool reproject(point<double> & geom, proj_transform const& proj_trans);
template MAPNIK_DECL bool reproject(line_string<double> & geom, proj_transform const& proj_trans);
template MAPNIK_DECL bool reproject(polygon<double> & geom, proj_transform const& proj_trans);
@ -59,7 +59,7 @@ template MAPNIK_DECL bool reproject(multi_polygon<double> & geom, proj_transform
template MAPNIK_DECL bool reproject(geometry_collection<double> & geom, proj_transform const& proj_trans);
template MAPNIK_DECL bool reproject(geometry<double> & geom, projection const& source, projection const& dest);
template MAPNIK_DECL bool reproject(geometry_empty & geom, projection const& source, projection const& dest);
template MAPNIK_DECL bool reproject(geometry_empty<double> & geom, projection const& source, projection const& dest);
template MAPNIK_DECL bool reproject(point<double> & geom, projection const& source, projection const& dest);
template MAPNIK_DECL bool reproject(line_string<double> & geom, projection const& source, projection const& dest);
template MAPNIK_DECL bool reproject(polygon<double> & geom, projection const& source, projection const& dest);

View file

@ -103,7 +103,7 @@ bool proj_transform::forward (geometry::point<double> & p) const
return forward(&(p.x), &(p.y), &z, 1);
}
unsigned int proj_transform::forward (geometry::line_string<double> & ls) const
unsigned int proj_transform::forward (std::vector<geometry::point<double>> & ls) const
{
std::size_t size = ls.size();
if (size == 0) return 0;
@ -244,7 +244,7 @@ bool proj_transform::backward (geometry::point<double> & p) const
return backward(&(p.x), &(p.y), &z, 1);
}
unsigned int proj_transform::backward (geometry::line_string<double> & ls) const
unsigned int proj_transform::backward (std::vector<geometry::point<double>> & ls) const
{
std::size_t size = ls.size();
if (size == 0) return 0;

View file

@ -110,7 +110,7 @@ struct split_multi_geometries
split_multi_geometries(container_type & cont)
: cont_(cont) { }
void operator() (geometry::geometry_empty const&) const {}
void operator() (geometry::geometry_empty<double> const&) const {}
void operator() (geometry::multi_point<double> const& multi_pt) const
{
for ( auto const& pt : multi_pt )

View file

@ -82,7 +82,7 @@ public:
mapnik::geometry::geometry<double> read()
{
mapnik::geometry::geometry<double> geom = mapnik::geometry::geometry_empty();
mapnik::geometry::geometry<double> geom = mapnik::geometry::geometry_empty<double>();
// Read the metadata bytes, populating all the
// information about optional fields, extended (z/m) dimensions
// expansion factors and so on
@ -328,11 +328,7 @@ private:
{
unsigned int num_rings = read_unsigned_integer();
mapnik::geometry::polygon<double> poly;
if (num_rings > 1)
{
poly.interior_rings.reserve(num_rings - 1);
}
poly.reserve(num_rings);
for (unsigned int i = 0; i < num_rings; ++i)
{
mapnik::geometry::linear_ring<double> ring;
@ -342,8 +338,7 @@ private:
ring.reserve(num_points);
read_coords<mapnik::geometry::linear_ring<double>>(ring, num_points);
}
if ( i == 0) poly.set_exterior_ring(std::move(ring));
else poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
return poly;
}

View file

@ -34,7 +34,7 @@ point_vertex_adapter<T>::point_vertex_adapter(point<T> const& pt)
first_(true) {}
template <typename T>
unsigned point_vertex_adapter<T>::vertex(coord_type * x, coord_type * y) const
unsigned point_vertex_adapter<T>::vertex(coordinate_type * x, coordinate_type * y) const
{
if (first_)
{
@ -67,7 +67,7 @@ line_string_vertex_adapter<T>::line_string_vertex_adapter(line_string<T> const&
{}
template <typename T>
unsigned line_string_vertex_adapter<T>::vertex(coord_type * x, coord_type * y) const
unsigned line_string_vertex_adapter<T>::vertex(coordinate_type * x, coordinate_type * y) const
{
if (current_index_ != end_index_)
{
@ -102,22 +102,22 @@ template <typename T>
polygon_vertex_adapter<T>::polygon_vertex_adapter(polygon<T> const& poly)
: poly_(poly),
rings_itr_(0),
rings_end_(poly_.interior_rings.size() + 1),
rings_end_(poly_.size()),
current_index_(0),
end_index_((rings_itr_ < rings_end_) ? poly_.exterior_ring.size() : 0),
end_index_(poly_.empty() ? 0 : poly_[0].size()),
start_loop_(true) {}
template <typename T>
void polygon_vertex_adapter<T>::rewind(unsigned) const
{
rings_itr_ = 0;
rings_end_ = poly_.interior_rings.size() + 1;
rings_end_ = poly_.size();
current_index_ = 0;
end_index_ = (rings_itr_ < rings_end_) ? poly_.exterior_ring.size() : 0;
end_index_ = poly_.empty() ? 0 : poly_[0].size();
start_loop_ = true;
}
template <typename T>
unsigned polygon_vertex_adapter<T>::vertex(coord_type * x, coord_type * y) const
unsigned polygon_vertex_adapter<T>::vertex(coordinate_type * x, coordinate_type * y) const
{
if (rings_itr_ == rings_end_)
{
@ -125,8 +125,7 @@ unsigned polygon_vertex_adapter<T>::vertex(coord_type * x, coord_type * y) const
}
if (current_index_ < end_index_)
{
point<T> const& coord = (rings_itr_ == 0) ?
poly_.exterior_ring[current_index_++] : poly_.interior_rings[rings_itr_- 1][current_index_++];
point<T> const& coord = poly_[rings_itr_][current_index_++];
*x = coord.x;
*y = coord.y;
if (start_loop_)
@ -145,8 +144,8 @@ unsigned polygon_vertex_adapter<T>::vertex(coord_type * x, coord_type * y) const
else if (++rings_itr_ != rings_end_)
{
current_index_ = 0;
end_index_ = poly_.interior_rings[rings_itr_ - 1].size();
point<T> const& coord = poly_.interior_rings[rings_itr_ - 1][current_index_++];
end_index_ = poly_[rings_itr_].size();
point<T> const& coord = poly_[rings_itr_][current_index_++];
*x = coord.x;
*y = coord.y;
return mapnik::SEG_MOVETO;
@ -177,7 +176,7 @@ void ring_vertex_adapter<T>::rewind(unsigned) const
}
template <typename T>
unsigned ring_vertex_adapter<T>::vertex(coord_type * x, coord_type * y) const
unsigned ring_vertex_adapter<T>::vertex(coordinate_type * x, coordinate_type * y) const
{
if (current_index_ < end_index_)
{

View file

@ -119,7 +119,7 @@ public:
mapnik::geometry::geometry<double> read()
{
mapnik::geometry::geometry<double> geom = mapnik::geometry::geometry_empty();
mapnik::geometry::geometry<double> geom = mapnik::geometry::geometry_empty<double>();
int type = read_integer();
switch (type)
{
@ -329,11 +329,7 @@ private:
{
int num_rings = read_integer();
mapnik::geometry::polygon<double> poly;
if (num_rings > 1)
{
poly.interior_rings.reserve(num_rings - 1);
}
poly.reserve(num_rings);
for (int i = 0; i < num_rings; ++i)
{
mapnik::geometry::linear_ring<double> ring;
@ -343,8 +339,7 @@ private:
ring.reserve(num_points);
read_coords<mapnik::geometry::linear_ring<double>, M, Z>(ring, num_points);
}
if ( i == 0) poly.set_exterior_ring(std::move(ring));
else poly.add_hole(std::move(ring));
poly.push_back(std::move(ring));
}
return poly;
}

View file

@ -121,48 +121,53 @@ inline void require_attributes(mapnik::feature_ptr feature,
}
namespace detail {
struct feature_count {
template <typename T>
std::size_t operator()(T const &geom) const {
template <typename T>
struct feature_count
{
template <typename U>
std::size_t operator()(U const &geom) const
{
return mapnik::util::apply_visitor(*this, geom);
}
std::size_t operator()(mapnik::geometry::geometry_empty const &) const {
std::size_t operator()(mapnik::geometry::geometry_empty<T> const &) const
{
return 0;
}
template <typename T>
std::size_t operator()(mapnik::geometry::point<T> const &) const {
std::size_t operator()(mapnik::geometry::point<T> const &) const
{
return 1;
}
template <typename T>
std::size_t operator()(mapnik::geometry::line_string<T> const &) const {
std::size_t operator()(mapnik::geometry::line_string<T> const &) const
{
return 1;
}
template <typename T>
std::size_t operator()(mapnik::geometry::polygon<T> const &) const {
std::size_t operator()(mapnik::geometry::polygon<T> const &) const
{
return 1;
}
template <typename T>
std::size_t operator()(mapnik::geometry::multi_point<T> const &mp) const {
std::size_t operator()(mapnik::geometry::multi_point<T> const &mp) const
{
return mp.size();
}
template <typename T>
std::size_t operator()(mapnik::geometry::multi_line_string<T> const &mls) const {
std::size_t operator()(mapnik::geometry::multi_line_string<T> const &mls) const
{
return mls.size();
}
template <typename T>
std::size_t operator()(mapnik::geometry::multi_polygon<T> const &mp) const {
std::size_t operator()(mapnik::geometry::multi_polygon<T> const &mp) const
{
return mp.size();
}
template <typename T>
std::size_t operator()(mapnik::geometry::geometry_collection<T> const &col) const {
std::size_t operator()(mapnik::geometry::geometry_collection<T> const &col) const
{
std::size_t sum = 0;
for (auto const &geom : col) {
sum += operator()(geom);
@ -174,7 +179,7 @@ struct feature_count {
template <typename T>
inline std::size_t feature_count(mapnik::geometry::geometry<T> const &g) {
return detail::feature_count()(g);
return detail::feature_count<T>()(g);
}
inline void require_geometry(mapnik::feature_ptr feature,

View file

@ -191,10 +191,9 @@ TEST_CASE("geojson") {
auto const& geometry = feature->get_geometry();
REQUIRE(mapnik::geometry::geometry_type(geometry) == mapnik::geometry::Polygon);
auto const& poly = mapnik::util::get<mapnik::geometry::polygon<double> >(geometry);
REQUIRE(poly.num_rings() == 2);
REQUIRE(poly.exterior_ring.size() == 5);
REQUIRE(poly.interior_rings.size() == 1);
REQUIRE(poly.interior_rings[0].size() == 5);
REQUIRE(poly.size() == 2);
REQUIRE(poly[0].size() == 5);
REQUIRE(poly[1].size() == 5);
REQUIRE(mapnik::geometry::envelope(poly) == mapnik::box2d<double>(100,0,101,1));
}
@ -248,8 +247,8 @@ TEST_CASE("geojson") {
REQUIRE(mapnik::geometry::geometry_type(geometry) == mapnik::geometry::MultiPolygon);
auto const& multi_poly = mapnik::util::get<mapnik::geometry::multi_polygon<double> >(geometry);
REQUIRE(multi_poly.size() == 2);
REQUIRE(multi_poly[0].num_rings() == 1);
REQUIRE(multi_poly[1].num_rings() == 2);
REQUIRE(multi_poly[0].size() == 1);
REQUIRE(multi_poly[1].size() == 2);
REQUIRE(mapnik::geometry::envelope(multi_poly) == mapnik::box2d<double>(100,0,103,3));
}

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/geometry_centroid.hpp>
@ -7,7 +6,7 @@ TEST_CASE("geometry centroid") {
SECTION("empty geometry") {
mapnik::geometry::geometry_empty geom;
mapnik::geometry::geometry_empty<double> geom;
mapnik::geometry::point<double> centroid;
REQUIRE(!mapnik::geometry::centroid(geom, centroid));
}
@ -31,9 +30,9 @@ SECTION("point") {
SECTION("linestring") {
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(25, 25);
line.add_coord(50, 50);
line.emplace_back(0, 0);
line.emplace_back(25, 25);
line.emplace_back(50, 50);
mapnik::geometry::point<double> centroid;
REQUIRE(mapnik::geometry::centroid(line, centroid));
REQUIRE(centroid.x == 25);
@ -51,12 +50,12 @@ SECTION("polygon") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
ring.add_coord(1, 0);
ring.add_coord(1, 1);
ring.add_coord(0, 1);
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0, 0);
ring.emplace_back(1, 0);
ring.emplace_back(1, 1);
ring.emplace_back(0, 1);
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
mapnik::geometry::point<double> centroid;
REQUIRE(mapnik::geometry::centroid(poly, centroid));
@ -68,7 +67,7 @@ SECTION("polygon with empty exterior ring") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
mapnik::geometry::point<double> centroid;
REQUIRE(!mapnik::geometry::centroid(poly, centroid));
@ -77,6 +76,7 @@ SECTION("polygon with empty exterior ring") {
SECTION("empty polygon") {
mapnik::geometry::polygon<double> poly;
poly.emplace_back();
mapnik::geometry::point<double> centroid;
REQUIRE(!mapnik::geometry::centroid(poly, centroid));
}
@ -84,9 +84,9 @@ SECTION("empty polygon") {
SECTION("multi-point") {
mapnik::geometry::multi_point<double> geom;
geom.add_coord(0, 0);
geom.add_coord(25, 25);
geom.add_coord(50, 50);
geom.emplace_back(0, 0);
geom.emplace_back(25, 25);
geom.emplace_back(50, 50);
mapnik::geometry::point<double> centroid;
REQUIRE(mapnik::geometry::centroid(geom, centroid));
REQUIRE(centroid.x == 25);
@ -105,16 +105,16 @@ SECTION("multi-linestring") {
mapnik::geometry::multi_line_string<double> geom;
{
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(0, 25);
line.add_coord(0, 50);
line.emplace_back(0, 0);
line.emplace_back(0, 25);
line.emplace_back(0, 50);
geom.emplace_back(std::move(line));
}
{
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(25, 0);
line.add_coord(50, 0);
line.emplace_back(0, 0);
line.emplace_back(25, 0);
line.emplace_back(50, 0);
geom.emplace_back(std::move(line));
}
mapnik::geometry::point<double> centroid;
@ -127,9 +127,9 @@ SECTION("multi-linestring: one component empty") {
mapnik::geometry::multi_line_string<double> geom;
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(0, 25);
line.add_coord(0, 50);
line.emplace_back(0, 0);
line.emplace_back(0, 25);
line.emplace_back(0, 50);
geom.emplace_back(std::move(line));
geom.emplace_back();
mapnik::geometry::point<double> centroid;
@ -151,23 +151,23 @@ SECTION("multi-polygon") {
{
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
ring.add_coord(1, 0);
ring.add_coord(1, 1);
ring.add_coord(0, 1);
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0, 0);
ring.emplace_back(1, 0);
ring.emplace_back(1, 1);
ring.emplace_back(0, 1);
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
}
{
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(1, 1);
ring.add_coord(2, 1);
ring.add_coord(2, 2);
ring.add_coord(1, 2);
ring.add_coord(1, 1);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(1, 1);
ring.emplace_back(2, 1);
ring.emplace_back(2, 2);
ring.emplace_back(1, 2);
ring.emplace_back(1, 1);
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
}
@ -179,22 +179,22 @@ SECTION("multi-polygon") {
SECTION("multi-polygon: one component empty") {
mapnik::geometry::multi_polygon<double> geom;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
ring.add_coord(1, 0);
ring.add_coord(1, 1);
ring.add_coord(0, 1);
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
geom.emplace_back(std::move(poly));
geom.emplace_back();
mapnik::geometry::point<double> centroid;
REQUIRE(mapnik::geometry::centroid(geom, centroid));
REQUIRE(centroid.x == 0.5);
REQUIRE(centroid.y == 0.5);
mapnik::geometry::multi_polygon<double> geom;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.emplace_back(0, 0);
ring.emplace_back(1, 0);
ring.emplace_back(1, 1);
ring.emplace_back(0, 1);
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
geom.emplace_back();
geom.back().emplace_back();
mapnik::geometry::point<double> centroid;
REQUIRE(mapnik::geometry::centroid(geom, centroid));
REQUIRE(centroid.x == 0.5);
REQUIRE(centroid.y == 0.5);
}
SECTION("empty multi-polygon") {

View file

@ -21,15 +21,15 @@ void envelope_test()
}
{
// Test empty geom
geometry<coord_type> geom = mapnik::geometry::geometry_empty();
geometry<coord_type> geom = mapnik::geometry::geometry_empty<coord_type>();
mapnik::box2d<coord_type> bbox = mapnik::geometry::envelope(geom);
REQUIRE_FALSE( bbox.valid() );
}
{
line_string<coord_type> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.add_coord(2,2);
line.emplace_back(0,0);
line.emplace_back(1,1);
line.emplace_back(2,2);
geometry<coord_type> geom(line);
mapnik::box2d<coord_type> bbox = mapnik::geometry::envelope(geom);
REQUIRE( bbox.minx() == 0 );
@ -39,13 +39,13 @@ void envelope_test()
}
{
line_string<coord_type> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.add_coord(2,2);
line.emplace_back(0,0);
line.emplace_back(1,1);
line.emplace_back(2,2);
line_string<coord_type> line2;
line2.add_coord(0,0);
line2.add_coord(-1,-1);
line2.add_coord(-2,-2);
line2.emplace_back(0,0);
line2.emplace_back(-1,-1);
line2.emplace_back(-2,-2);
multi_line_string<coord_type> multi_line;
multi_line.emplace_back(std::move(line));
multi_line.emplace_back(std::move(line2));
@ -59,12 +59,12 @@ void envelope_test()
{
polygon<coord_type> poly;
linear_ring<coord_type> ring;
ring.add_coord(0,0);
ring.add_coord(-10,0);
ring.add_coord(-10,10);
ring.add_coord(0,10);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(-10,0);
ring.emplace_back(-10,10);
ring.emplace_back(0,10);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
geometry<coord_type> geom(poly);
mapnik::box2d<coord_type> bbox = mapnik::geometry::envelope(geom);
REQUIRE( bbox.minx() == -10 );
@ -102,19 +102,19 @@ void envelope_test()
// polygon with hole
polygon<coord_type> poly;
linear_ring<coord_type> ring;
ring.add_coord(0,0);
ring.add_coord(-10,0);
ring.add_coord(-10,10);
ring.add_coord(0,10);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(-10,0);
ring.emplace_back(-10,10);
ring.emplace_back(0,10);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
linear_ring<coord_type> hole;
hole.add_coord(-7,7);
hole.add_coord(-7,3);
hole.add_coord(-3,3);
hole.add_coord(-3,7);
hole.add_coord(-7,7);
poly.add_hole(std::move(hole));
hole.emplace_back(-7,7);
hole.emplace_back(-7,3);
hole.emplace_back(-3,3);
hole.emplace_back(-3,7);
hole.emplace_back(-7,7);
poly.push_back(std::move(hole));
geometry<coord_type> geom(poly);
mapnik::box2d<coord_type> bbox = mapnik::geometry::envelope(poly);
REQUIRE( bbox.minx() == -10 );
@ -124,12 +124,12 @@ void envelope_test()
// add another hole inside the first hole
// which should be considered a hit
linear_ring<coord_type> fill;
fill.add_coord(-6,4);
fill.add_coord(-6,6);
fill.add_coord(-4,6);
fill.add_coord(-4,4);
fill.add_coord(-6,4);
poly.add_hole(std::move(fill));
fill.emplace_back(-6,4);
fill.emplace_back(-6,6);
fill.emplace_back(-4,6);
fill.emplace_back(-4,4);
fill.emplace_back(-6,4);
poly.push_back(std::move(fill));
bbox = mapnik::geometry::envelope(poly);
REQUIRE( bbox.minx() == -10 );
REQUIRE( bbox.miny() == 0 );

View file

@ -106,7 +106,8 @@ struct geometry_equal_visitor
REQUIRE(false);
}
void operator() (geometry_empty const&, geometry_empty const&) const
template <typename T>
void operator() (geometry_empty<T> const&, geometry_empty<T> const&) const
{
REQUIRE(true);
}
@ -119,7 +120,7 @@ struct geometry_equal_visitor
}
template <typename T>
void operator() (line_string<T> const& ls1, line_string<T> const& ls2) const
void operator() (std::vector<point<T>> const& ls1, std::vector<point<T>> const& ls2) const
{
if (ls1.size() != ls2.size())
{
@ -136,25 +137,33 @@ struct geometry_equal_visitor
template <typename T>
void operator() (polygon<T> const& p1, polygon<T> const& p2) const
{
(*this)(static_cast<line_string<T> const&>(p1.exterior_ring), static_cast<line_string<T> const&>(p2.exterior_ring));
if (p1.interior_rings.size() != p2.interior_rings.size())
if (p1.size() != p2.size())
{
REQUIRE(false);
}
for (auto const& p : zip_crange(p1.interior_rings, p2.interior_rings))
for (auto const& p : zip_crange(p1, p2))
{
(*this)(static_cast<line_string<T> const&>(p.template get<0>()),static_cast<line_string<T> const&>(p.template get<1>()));
(*this)(static_cast<std::vector<point<T>> const&>(p.template get<0>()),
static_cast<std::vector<point<T>> const&>(p.template get<1>()));
}
}
template <typename T>
void operator() (line_string<T> const& ls1, line_string<T> const& ls2) const
{
(*this)(static_cast<std::vector<point<T>> const&>(ls1),
static_cast<std::vector<point<T>> const&>(ls2));
}
template <typename T>
void operator() (multi_point<T> const& mp1, multi_point<T> const& mp2) const
{
(*this)(static_cast<line_string<T> const&>(mp1), static_cast<line_string<T> const&>(mp2));
(*this)(static_cast<std::vector<point<T>> const&>(mp1),
static_cast<std::vector<point<T>> const&>(mp2));
}
template <typename T>
void operator() (multi_line_string<T> const& mls1, multi_line_string<T> const& mls2) const
{

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/geometry.hpp>
@ -27,17 +26,17 @@ SECTION("hit_test_filter - double") {
}
{
line_string<double> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.add_coord(2,2);
line.emplace_back(0,0);
line.emplace_back(1,1);
line.emplace_back(2,2);
geometry<double> geom(line);
REQUIRE( mapnik::hit_test(geom,0,0,1.5) );
}
{
line_string<double> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.add_coord(2,2);
line.emplace_back(0,0);
line.emplace_back(1,1);
line.emplace_back(2,2);
multi_line_string<double> multi_line;
multi_line.emplace_back(std::move(line));
geometry<double> geom(multi_line);
@ -46,12 +45,12 @@ SECTION("hit_test_filter - double") {
{
polygon<double> poly;
linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(-10,0);
ring.add_coord(-10,10);
ring.add_coord(0,10);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(-10,0);
ring.emplace_back(-10,10);
ring.emplace_back(0,10);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
geometry<double> geom(poly);
REQUIRE( mapnik::hit_test(geom,-5,5,0) );
@ -78,30 +77,30 @@ SECTION("hit_test_filter - double") {
// polygon with hole
polygon<double> poly;
linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(-10,0);
ring.add_coord(-10,10);
ring.add_coord(0,10);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(-10,0);
ring.emplace_back(-10,10);
ring.emplace_back(0,10);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
linear_ring<double> hole;
hole.add_coord(-7,7);
hole.add_coord(-7,3);
hole.add_coord(-3,3);
hole.add_coord(-3,7);
hole.add_coord(-7,7);
poly.add_hole(std::move(hole));
hole.emplace_back(-7,7);
hole.emplace_back(-7,3);
hole.emplace_back(-3,3);
hole.emplace_back(-3,7);
hole.emplace_back(-7,7);
poly.push_back(std::move(hole));
geometry<double> geom(poly);
REQUIRE( !mapnik::hit_test(geom,-5,5,0) );
// add another hole inside the first hole
// which should be considered a hit
linear_ring<double> fill;
fill.add_coord(-6,4);
fill.add_coord(-6,6);
fill.add_coord(-4,6);
fill.add_coord(-4,4);
fill.add_coord(-6,4);
poly.add_hole(std::move(fill));
fill.emplace_back(-6,4);
fill.emplace_back(-6,6);
fill.emplace_back(-4,6);
fill.emplace_back(-4,4);
fill.emplace_back(-6,4);
poly.push_back(std::move(fill));
REQUIRE( mapnik::hit_test(geometry<double>(poly),-5,5,0) );
}
}

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <boost/version.hpp>
@ -11,7 +10,7 @@ TEST_CASE("geometry is_simple") {
#if BOOST_VERSION >= 105800
SECTION("point") {
mapnik::geometry::geometry_empty empty;
mapnik::geometry::geometry_empty<double> empty;
CHECK( mapnik::geometry::is_simple(empty) );
}
@ -53,8 +52,8 @@ SECTION("point Infinity") {
SECTION("multi point") {
mapnik::geometry::multi_point<double> mpt;
mpt.add_coord(0,0);
mpt.add_coord(1,1);
mpt.emplace_back(0,0);
mpt.emplace_back(1,1);
CHECK( mapnik::geometry::is_simple(mpt) );
}
@ -65,18 +64,18 @@ SECTION("multi point empty") {
SECTION("line_string") {
mapnik::geometry::line_string<double> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.emplace_back(0,0);
line.emplace_back(1,1);
CHECK( mapnik::geometry::is_simple(line) );
}
// This fails while is_valid will not fail!
SECTION("line_string repeated points") {
mapnik::geometry::line_string<double> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.add_coord(1,1);
line.add_coord(2,2);
line.emplace_back(0,0);
line.emplace_back(1,1);
line.emplace_back(1,1);
line.emplace_back(2,2);
CHECK( !mapnik::geometry::is_simple(line) );
}
@ -87,11 +86,11 @@ SECTION("line_string empty") {
SECTION("multi_line_string") {
mapnik::geometry::line_string<double> line1;
line1.add_coord(0,0);
line1.add_coord(1,1);
line1.emplace_back(0,0);
line1.emplace_back(1,1);
mapnik::geometry::line_string<double> line2;
line2.add_coord(0,1);
line2.add_coord(1,2);
line2.emplace_back(0,1);
line2.emplace_back(1,2);
mapnik::geometry::multi_line_string<double> lines;
lines.emplace_back(line1);
lines.emplace_back(line2);
@ -113,24 +112,24 @@ SECTION("multi_line_string empty") {
SECTION("polygon") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_simple(poly) );
}
SECTION("polygon invalid winding order") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(0,1);
ring.add_coord(1,1);
ring.add_coord(1,0);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(0,1);
ring.emplace_back(1,1);
ring.emplace_back(1,0);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_simple(poly) );
}
@ -139,13 +138,13 @@ SECTION("polygon invalid winding order") {
SECTION("polygon 2 repeated points") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( !mapnik::geometry::is_simple(poly) );
}
// repeated points are not considered invalid in a polygon
@ -153,14 +152,14 @@ SECTION("polygon 2 repeated points") {
SECTION("polygon 3 repeated points") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(1,1);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(1,1);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( !mapnik::geometry::is_simple(poly) );
}
@ -168,27 +167,28 @@ SECTION("polygon 3 repeated points") {
SECTION("polygon that is empty") {
mapnik::geometry::polygon<double> poly;
poly.emplace_back();
CHECK( !mapnik::geometry::is_simple(poly) );
}
SECTION("polygon that has empty exterior ring") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
CHECK( !mapnik::geometry::is_simple(poly) );
}
SECTION("polygon that has empty interior ring") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> ring2;
poly.add_hole(std::move(ring2));
poly.push_back(std::move(ring2));
CHECK( !mapnik::geometry::is_simple(poly) );
}
@ -202,21 +202,21 @@ SECTION("polygon that is empty") {
SECTION("polygon that has empty exterior ring") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_simple(poly) );
}
SECTION("polygon that has empty interior ring") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> ring2;
poly.add_hole(std::move(ring2));
poly.push_back(std::move(ring2));
CHECK( mapnik::geometry::is_simple(poly) );
}
@ -226,33 +226,33 @@ SECTION("polygon that has empty interior ring") {
SECTION("polygon with spike") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(2,2);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(2,2);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_simple(poly) );
}
SECTION("polygon with hole") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(1,1);
hole.add_coord(1,2);
hole.add_coord(2,2);
hole.add_coord(2,1);
hole.add_coord(1,1);
poly.add_hole(std::move(hole));
hole.emplace_back(1,1);
hole.emplace_back(1,2);
hole.emplace_back(2,2);
hole.emplace_back(2,1);
hole.emplace_back(1,1);
poly.push_back(std::move(hole));
CHECK( mapnik::geometry::is_simple(poly) );
}
@ -260,19 +260,19 @@ SECTION("polygon with hole") {
SECTION("polygon with hole with invalid winding order") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(1,1);
hole.add_coord(2,1);
hole.add_coord(2,2);
hole.add_coord(1,2);
hole.add_coord(1,1);
poly.add_hole(std::move(hole));
hole.emplace_back(1,1);
hole.emplace_back(2,1);
hole.emplace_back(2,2);
hole.emplace_back(1,2);
hole.emplace_back(1,1);
poly.push_back(std::move(hole));
CHECK( mapnik::geometry::is_simple(poly) );
}
@ -280,20 +280,20 @@ SECTION("multi polygon") {
mapnik::geometry::multi_polygon<double> mp;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::polygon<double> poly2;
mapnik::geometry::linear_ring<double> ring2;
ring2.add_coord(0,0);
ring2.add_coord(-1,0);
ring2.add_coord(-1,-1);
ring2.add_coord(0,-1);
ring2.add_coord(0,0);
poly2.set_exterior_ring(std::move(ring2));
ring2.emplace_back(0,0);
ring2.emplace_back(-1,0);
ring2.emplace_back(-1,-1);
ring2.emplace_back(0,-1);
ring2.emplace_back(0,0);
poly2.push_back(std::move(ring2));
mp.emplace_back(poly);
mp.emplace_back(poly2);
CHECK( mapnik::geometry::is_simple(mp) );
@ -303,34 +303,34 @@ SECTION("multi polygon with hole") {
mapnik::geometry::multi_polygon<double> mp;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(1,1);
hole.add_coord(1,2);
hole.add_coord(2,2);
hole.add_coord(2,1);
hole.add_coord(1,1);
poly.add_hole(std::move(hole));
hole.emplace_back(1,1);
hole.emplace_back(1,2);
hole.emplace_back(2,2);
hole.emplace_back(2,1);
hole.emplace_back(1,1);
poly.push_back(std::move(hole));
mapnik::geometry::polygon<double> poly2;
mapnik::geometry::linear_ring<double> ring2;
ring2.add_coord(0,0);
ring2.add_coord(-3,0);
ring2.add_coord(-3,-3);
ring2.add_coord(0,-3);
ring2.add_coord(0,0);
poly2.set_exterior_ring(std::move(ring2));
ring2.emplace_back(0,0);
ring2.emplace_back(-3,0);
ring2.emplace_back(-3,-3);
ring2.emplace_back(0,-3);
ring2.emplace_back(0,0);
poly2.push_back(std::move(ring2));
mapnik::geometry::linear_ring<double> hole2;
hole2.add_coord(-1,-1);
hole2.add_coord(-1,-2);
hole2.add_coord(-2,-2);
hole2.add_coord(-2,-1);
hole2.add_coord(-1,-1);
poly2.add_hole(std::move(hole2));
hole2.emplace_back(-1,-1);
hole2.emplace_back(-1,-2);
hole2.emplace_back(-2,-2);
hole2.emplace_back(-2,-1);
hole2.emplace_back(-1,-1);
poly2.push_back(std::move(hole2));
mp.emplace_back(poly);
mp.emplace_back(poly2);
CHECK( mapnik::geometry::is_simple(mp) );

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/geometry.hpp>
@ -11,7 +10,7 @@ TEST_CASE("geometry is_valid") {
SECTION("empty geometry") {
mapnik::geometry::geometry_empty empty;
mapnik::geometry::geometry_empty<double> empty;
CHECK( mapnik::geometry::is_valid(empty) );
std::string message;
CHECK( mapnik::geometry::is_valid(empty, message) );
@ -124,8 +123,8 @@ SECTION("point Infinity") {
SECTION("multi point") {
mapnik::geometry::multi_point<double> mpt;
mpt.add_coord(0,0);
mpt.add_coord(1,1);
mpt.emplace_back(0,0);
mpt.emplace_back(1,1);
CHECK( mapnik::geometry::is_valid(mpt) );
std::string message;
CHECK( mapnik::geometry::is_valid(mpt, message) );
@ -149,8 +148,8 @@ SECTION("multi point empty") {
SECTION("line_string") {
mapnik::geometry::line_string<double> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.emplace_back(0,0);
line.emplace_back(1,1);
CHECK( mapnik::geometry::is_valid(line) );
std::string message;
CHECK( mapnik::geometry::is_valid(line, message) );
@ -163,10 +162,10 @@ SECTION("line_string") {
// This shouldn't fail -- test added in case logic ever changes
SECTION("line_string repeated points") {
mapnik::geometry::line_string<double> line;
line.add_coord(0,0);
line.add_coord(1,1);
line.add_coord(1,1);
line.add_coord(2,2);
line.emplace_back(0,0);
line.emplace_back(1,1);
line.emplace_back(1,1);
line.emplace_back(2,2);
CHECK( mapnik::geometry::is_valid(line) );
std::string message;
CHECK( mapnik::geometry::is_valid(line, message) );
@ -189,11 +188,11 @@ SECTION("line_string empty") {
SECTION("multi_line_string") {
mapnik::geometry::line_string<double> line1;
line1.add_coord(0,0);
line1.add_coord(1,1);
line1.emplace_back(0,0);
line1.emplace_back(1,1);
mapnik::geometry::line_string<double> line2;
line2.add_coord(0,1);
line2.add_coord(1,2);
line2.emplace_back(0,1);
line2.emplace_back(1,2);
mapnik::geometry::multi_line_string<double> lines;
lines.emplace_back(line1);
lines.emplace_back(line2);
@ -220,12 +219,12 @@ SECTION("multi_line_string empty") {
SECTION("polygon") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( mapnik::geometry::is_valid(poly, message) );
@ -238,12 +237,12 @@ SECTION("polygon") {
SECTION("polygon invalid winding order") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(0,1);
ring.add_coord(1,1);
ring.add_coord(1,0);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(0,1);
ring.emplace_back(1,1);
ring.emplace_back(1,0);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( !mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( !mapnik::geometry::is_valid(poly, message) );
@ -257,13 +256,13 @@ SECTION("polygon invalid winding order") {
SECTION("polygon 2 repeated points") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( mapnik::geometry::is_valid(poly, message) );
@ -276,14 +275,14 @@ SECTION("polygon 2 repeated points") {
SECTION("polygon 3 repeated points") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(1,1);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(1,1);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( mapnik::geometry::is_valid(poly, message) );
@ -295,6 +294,7 @@ SECTION("polygon 3 repeated points") {
SECTION("polygon that is empty") {
mapnik::geometry::polygon<double> poly;
poly.emplace_back();
CHECK( !mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( !mapnik::geometry::is_valid(poly, message) );
@ -307,14 +307,14 @@ SECTION("polygon that is empty") {
SECTION("polygon with spike") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(2,2);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(2,2);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
CHECK( !mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( !mapnik::geometry::is_valid(poly, message) );
@ -327,19 +327,19 @@ SECTION("polygon with spike") {
SECTION("polygon with hole") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(1,1);
hole.add_coord(1,2);
hole.add_coord(2,2);
hole.add_coord(2,1);
hole.add_coord(1,1);
poly.add_hole(std::move(hole));
hole.emplace_back(1,1);
hole.emplace_back(1,2);
hole.emplace_back(2,2);
hole.emplace_back(2,1);
hole.emplace_back(1,1);
poly.push_back(std::move(hole));
CHECK( mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( mapnik::geometry::is_valid(poly, message) );
@ -352,14 +352,14 @@ SECTION("polygon with hole") {
SECTION("polygon with empty hole") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
poly.add_hole(std::move(hole));
poly.push_back(std::move(hole));
CHECK( !mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( !mapnik::geometry::is_valid(poly, message) );
@ -373,19 +373,19 @@ SECTION("polygon with empty hole") {
SECTION("polygon with hole with invalid winding order") {
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(1,1);
hole.add_coord(2,1);
hole.add_coord(2,2);
hole.add_coord(1,2);
hole.add_coord(1,1);
poly.add_hole(std::move(hole));
hole.emplace_back(1,1);
hole.emplace_back(2,1);
hole.emplace_back(2,2);
hole.emplace_back(1,2);
hole.emplace_back(1,1);
poly.push_back(std::move(hole));
CHECK( !mapnik::geometry::is_valid(poly) );
std::string message;
CHECK( !mapnik::geometry::is_valid(poly, message) );
@ -399,20 +399,20 @@ SECTION("multi polygon") {
mapnik::geometry::multi_polygon<double> mp;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(1,0);
ring.add_coord(1,1);
ring.add_coord(0,1);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(1,0);
ring.emplace_back(1,1);
ring.emplace_back(0,1);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::polygon<double> poly2;
mapnik::geometry::linear_ring<double> ring2;
ring2.add_coord(0,0);
ring2.add_coord(-1,0);
ring2.add_coord(-1,-1);
ring2.add_coord(0,-1);
ring2.add_coord(0,0);
poly2.set_exterior_ring(std::move(ring2));
ring2.emplace_back(0,0);
ring2.emplace_back(-1,0);
ring2.emplace_back(-1,-1);
ring2.emplace_back(0,-1);
ring2.emplace_back(0,0);
poly2.push_back(std::move(ring2));
mp.emplace_back(poly);
mp.emplace_back(poly2);
CHECK( mapnik::geometry::is_valid(mp) );
@ -428,34 +428,34 @@ SECTION("multi polygon with hole") {
mapnik::geometry::multi_polygon<double> mp;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0,0);
ring.add_coord(3,0);
ring.add_coord(3,3);
ring.add_coord(0,3);
ring.add_coord(0,0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0,0);
ring.emplace_back(3,0);
ring.emplace_back(3,3);
ring.emplace_back(0,3);
ring.emplace_back(0,0);
poly.push_back(std::move(ring));
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(1,1);
hole.add_coord(1,2);
hole.add_coord(2,2);
hole.add_coord(2,1);
hole.add_coord(1,1);
poly.add_hole(std::move(hole));
hole.emplace_back(1,1);
hole.emplace_back(1,2);
hole.emplace_back(2,2);
hole.emplace_back(2,1);
hole.emplace_back(1,1);
poly.push_back(std::move(hole));
mapnik::geometry::polygon<double> poly2;
mapnik::geometry::linear_ring<double> ring2;
ring2.add_coord(0,0);
ring2.add_coord(-3,0);
ring2.add_coord(-3,-3);
ring2.add_coord(0,-3);
ring2.add_coord(0,0);
poly2.set_exterior_ring(std::move(ring2));
ring2.emplace_back(0,0);
ring2.emplace_back(-3,0);
ring2.emplace_back(-3,-3);
ring2.emplace_back(0,-3);
ring2.emplace_back(0,0);
poly2.push_back(std::move(ring2));
mapnik::geometry::linear_ring<double> hole2;
hole2.add_coord(-1,-1);
hole2.add_coord(-1,-2);
hole2.add_coord(-2,-2);
hole2.add_coord(-2,-1);
hole2.add_coord(-1,-1);
poly2.add_hole(std::move(hole2));
hole2.emplace_back(-1,-1);
hole2.emplace_back(-1,-2);
hole2.emplace_back(-2,-2);
hole2.emplace_back(-2,-1);
hole2.emplace_back(-1,-1);
poly2.push_back(std::move(hole2));
mp.emplace_back(poly);
mp.emplace_back(poly2);
CHECK( mapnik::geometry::is_valid(mp) );

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include "geometry_equal.hpp"
@ -16,10 +15,10 @@ SECTION("test_projection_4326_3857 - Empty Geometry Object") {
mapnik::projection dest("+init=epsg:3857");
mapnik::proj_transform proj_trans(source, dest);
{
geometry_empty geom;
geometry_empty<double> geom;
unsigned int err = 0;
// Test Standard Transform
geometry_empty new_geom = reproject_copy(geom, proj_trans, err);
geometry_empty<double> new_geom = reproject_copy(geom, proj_trans, err);
REQUIRE(err == 0);
// Transform providing projections not transfrom
new_geom = reproject_copy(geom, source, dest, err);
@ -42,20 +41,20 @@ SECTION("test_projection_4326_3857 - Empty Geometry in Geometry Variant") {
mapnik::projection dest("+init=epsg:3857");
mapnik::proj_transform proj_trans(source, dest);
{
geometry<double> geom = geometry_empty();
geometry<double> geom = geometry_empty<double>();
unsigned int err = 0;
// Test Standard Transform
geometry<double> new_geom = reproject_copy(geom, proj_trans, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
// Transform providing projections not transfrom
new_geom = reproject_copy(geom, source, dest, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
// Transform providing projections in reverse
new_geom = reproject_copy(geom, dest, source, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
// Transform in place
REQUIRE(reproject(new_geom, proj_trans));
// Transform in place providing projections
@ -269,7 +268,7 @@ SECTION("test_projection_4326_3857 - Line_String Geometry Variant Object") {
// Reprojecting empty line string will return a geometry_empty
geometry<double> new_geom = reproject_copy(geom0, proj_trans1, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
}
{
// Test Standard Transform
@ -322,43 +321,49 @@ SECTION("test_projection_4326_3857 - Polygon Geometry Object") {
mapnik::proj_transform proj_trans1(source, dest);
mapnik::proj_transform proj_trans2(dest, source);
polygon<double> geom1;
geom1.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1.exterior_ring.emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1.exterior_ring.emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1.exterior_ring.emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1.interior_rings.emplace_back();
geom1.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1.interior_rings.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1.interior_rings.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1.interior_rings.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
// exterior
geom1.emplace_back();
geom1.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1.back().emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1.back().emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1.back().emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
// interior
geom1.emplace_back();
geom1.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
polygon<double> geom2;
geom2.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2.exterior_ring.emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2.exterior_ring.emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2.exterior_ring.emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2.interior_rings.emplace_back();
geom2.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2.interior_rings.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2.interior_rings.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2.interior_rings.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
// interior
geom2.emplace_back();
geom2.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2.back().emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2.back().emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2.back().emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
// exterior
geom2.emplace_back();
geom2.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
unsigned int err = 0;
{
// Test Standard Transform
// Add extra vector to outer ring.
geom1.interior_rings.emplace_back();
REQUIRE(geom1.interior_rings.size() == 2);
geom1.emplace_back();
REQUIRE(geom1.size() == 3);
polygon<double> new_geom = reproject_copy(geom1, proj_trans1, err);
REQUIRE(err == 0);
// Should remove the empty ring added to back of geom1
REQUIRE(new_geom.interior_rings.size() == 1);
REQUIRE(new_geom.size() == 2);
assert_g_equal(new_geom, geom2);
// Remove extra ring for future validity tests.
geom1.interior_rings.pop_back();
REQUIRE(geom1.interior_rings.size() == 1);
geom1.pop_back();
REQUIRE(geom1.size() == 2);
}
{
// Transform in reverse
@ -381,13 +386,13 @@ SECTION("test_projection_4326_3857 - Polygon Geometry Object") {
{
// Transform in place
polygon<double> geom3(geom1);
geom3.interior_rings.emplace_back();
geom3.emplace_back();
REQUIRE(reproject(geom3, proj_trans1));
// Should NOT remove the empty ring added to back of geom1
REQUIRE(geom3.interior_rings.size() == 2);
REQUIRE(geom3.size() == 3);
// Remove so asserts that geometries are the same
geom3.interior_rings.pop_back();
REQUIRE(geom3.interior_rings.size() == 1);
geom3.pop_back();
REQUIRE(geom3.size() == 2);
assert_g_equal(geom3, geom2);
// Transform in place reverse
REQUIRE(reproject(geom3, proj_trans2));
@ -411,29 +416,36 @@ SECTION("test_projection_4326_3857 - Polygon Geometry Variant Object") {
mapnik::proj_transform proj_trans1(source, dest);
mapnik::proj_transform proj_trans2(dest, source);
polygon<double> geom1_;
geom1_.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1_.exterior_ring.emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1_.exterior_ring.emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1_.exterior_ring.emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1_.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1_.interior_rings.emplace_back();
geom1_.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1_.interior_rings.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1_.interior_rings.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1_.interior_rings.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1_.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
// exterior
geom1_.emplace_back();
geom1_.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1_.back().emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1_.back().emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1_.back().emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1_.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
// interior
geom1_.emplace_back();
geom1_.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1_.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1_.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1_.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1_.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
polygon<double> geom2_;
geom2_.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2_.exterior_ring.emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2_.exterior_ring.emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2_.exterior_ring.emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2_.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2_.interior_rings.emplace_back();
geom2_.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2_.interior_rings.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2_.interior_rings.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2_.interior_rings.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2_.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
// exterior
geom2_.emplace_back();
geom2_.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2_.back().emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2_.back().emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2_.back().emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2_.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
// interior
geom2_.emplace_back();
geom2_.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2_.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2_.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2_.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2_.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
polygon<double> geom0_;
geometry<double> geom0(geom0_);
geometry<double> geom1(geom1_);
@ -443,7 +455,7 @@ SECTION("test_projection_4326_3857 - Polygon Geometry Variant Object") {
// Reprojecting empty poly will return a geometry_empty
geometry<double> new_geom = reproject_copy(geom0, proj_trans1, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
}
{
// Test Standard Transform
@ -583,7 +595,7 @@ SECTION("test_projection_4326_3857 - Multi_Point Geometry Variant Object") {
// Reprojecting empty multi point will return a geometry_empty
geometry<double> new_geom = reproject_copy(geom0, proj_trans1, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
}
{
// Test Standard Transform
@ -739,7 +751,7 @@ SECTION("test_projection_4326_3857 - Multi_Line_String Geometry Variant Object")
// Reprojecting empty line string will return a geometry_empty
geometry<double> new_geom = reproject_copy(geom0, proj_trans1, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
}
{
// Test Standard Transform
@ -792,31 +804,37 @@ SECTION("test_projection_4326_3857 - Multi_Polygon Geometry Object") {
mapnik::proj_transform proj_trans1(source, dest);
mapnik::proj_transform proj_trans2(dest, source);
polygon<double> geom1a;
geom1a.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a.exterior_ring.emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a.exterior_ring.emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a.exterior_ring.emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a.interior_rings.emplace_back();
geom1a.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a.interior_rings.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a.interior_rings.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a.interior_rings.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
// exterior
geom1a.emplace_back();
geom1a.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a.back().emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a.back().emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a.back().emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
// interior
geom1a.emplace_back();
geom1a.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
multi_polygon<double> geom1;
geom1.emplace_back(geom1a);
polygon<double> geom2a;
geom2a.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a.exterior_ring.emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a.exterior_ring.emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a.exterior_ring.emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a.interior_rings.emplace_back();
geom2a.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a.interior_rings.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a.interior_rings.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a.interior_rings.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
// exterior
geom2a.emplace_back();
geom2a.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a.back().emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a.back().emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a.back().emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
// interior
geom2a.emplace_back();
geom2a.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
multi_polygon<double> geom2;
geom2.emplace_back(geom2a);
unsigned int err = 0;
@ -885,31 +903,37 @@ SECTION("test_projection_4326_3857 - Multi_Polygon Geometry Variant Object") {
mapnik::proj_transform proj_trans1(source, dest);
mapnik::proj_transform proj_trans2(dest, source);
polygon<double> geom1a_;
geom1a_.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a_.exterior_ring.emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a_.exterior_ring.emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a_.exterior_ring.emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a_.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a_.interior_rings.emplace_back();
geom1a_.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
// exterior
geom1a_.emplace_back();
geom1a_.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a_.back().emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a_.back().emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a_.back().emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a_.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
// interior
geom1a_.emplace_back();
geom1a_.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a_.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a_.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a_.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a_.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
multi_polygon<double> geom1_;
geom1_.emplace_back(geom1a_);
polygon<double> geom2a_;
geom2a_.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a_.exterior_ring.emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a_.exterior_ring.emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a_.exterior_ring.emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a_.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a_.interior_rings.emplace_back();
geom2a_.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a_.interior_rings.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a_.interior_rings.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a_.interior_rings.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a_.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
// exterior
geom2a_.emplace_back();
geom2a_.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a_.back().emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a_.back().emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a_.back().emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a_.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
// interior
geom2a_.emplace_back();
geom2a_.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a_.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a_.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a_.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a_.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
multi_polygon<double> geom2_;
geom2_.emplace_back(geom2a_);
multi_polygon<double> geom0_;
@ -921,7 +945,7 @@ SECTION("test_projection_4326_3857 - Multi_Polygon Geometry Variant Object") {
// Reprojecting empty poly will return a geometry_empty
geometry<double> new_geom = reproject_copy(geom0, proj_trans1, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
}
{
// Test Standard Transform
@ -974,31 +998,37 @@ SECTION("test_projection_4326_3857 - Geometry Collection Object") {
mapnik::proj_transform proj_trans1(source, dest);
mapnik::proj_transform proj_trans2(dest, source);
polygon<double> geom1a;
geom1a.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a.exterior_ring.emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a.exterior_ring.emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a.exterior_ring.emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a.interior_rings.emplace_back();
geom1a.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a.interior_rings.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a.interior_rings.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a.interior_rings.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
// exterior
geom1a.emplace_back();
geom1a.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a.back().emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a.back().emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a.back().emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
// interior
geom1a.emplace_back();
geom1a.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geometry_collection<double> geom1;
geom1.emplace_back(geometry<double>(geom1a));
polygon<double> geom2a;
geom2a.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a.exterior_ring.emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a.exterior_ring.emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a.exterior_ring.emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a.interior_rings.emplace_back();
geom2a.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a.interior_rings.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a.interior_rings.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a.interior_rings.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
// exerior
geom2a.emplace_back();
geom2a.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a.back().emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a.back().emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a.back().emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
// interior
geom2a.emplace_back();
geom2a.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geometry_collection<double> geom2;
geom2.emplace_back(geometry<double>(geom2a));
unsigned int err = 0;
@ -1067,31 +1097,37 @@ SECTION("test_projection_4326_3857 - Geometry Collection Variant Object") {
mapnik::proj_transform proj_trans1(source, dest);
mapnik::proj_transform proj_trans2(dest, source);
polygon<double> geom1a_;
geom1a_.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a_.exterior_ring.emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a_.exterior_ring.emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a_.exterior_ring.emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a_.exterior_ring.emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a_.interior_rings.emplace_back();
geom1a_.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a_.interior_rings.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
// exterior
geom1a_.emplace_back();
geom1a_.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
geom1a_.back().emplace_back(point<double>(-97.79067993164062, 35.43941441533686));
geom1a_.back().emplace_back(point<double>(-97.60391235351562, 35.34425514918409));
geom1a_.back().emplace_back(point<double>(-97.42813110351562, 35.48191987272801));
geom1a_.back().emplace_back(point<double>(-97.62588500976562, 35.62939577711732));
// interior
geom1a_.emplace_back();
geom1a_.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geom1a_.back().emplace_back(point<double>(-97.61489868164062, 35.54116627999813));
geom1a_.back().emplace_back(point<double>(-97.53799438476562, 35.459551379037606));
geom1a_.back().emplace_back(point<double>(-97.62451171875, 35.42598697382711));
geom1a_.back().emplace_back(point<double>(-97.66571044921875, 35.46849952318069));
geometry_collection<double> geom1_;
geom1_.emplace_back(geometry<double>(geom1a_));
polygon<double> geom2a_;
geom2a_.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a_.exterior_ring.emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a_.exterior_ring.emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a_.exterior_ring.emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a_.exterior_ring.emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a_.interior_rings.emplace_back();
geom2a_.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a_.interior_rings.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a_.interior_rings.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a_.interior_rings.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a_.interior_rings.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
// exterior
geom2a_.emplace_back();
geom2a_.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
geom2a_.back().emplace_back(point<double>(-10886008.694318, 4223757.308982));
geom2a_.back().emplace_back(point<double>(-10865217.822625, 4210763.014174));
geom2a_.back().emplace_back(point<double>(-10845649.943384, 4229566.523132));
geom2a_.back().emplace_back(point<double>(-10867663.807530, 4249745.898599));
// interior
geom2a_.emplace_back();
geom2a_.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geom2a_.back().emplace_back(point<double>(-10866440.815077, 4237668.848130));
geom2a_.back().emplace_back(point<double>(-10857879.867909, 4226509.042001));
geom2a_.back().emplace_back(point<double>(-10867510.933473, 4221922.820303));
geom2a_.back().emplace_back(point<double>(-10872097.155170, 4227732.034453));
geometry_collection<double> geom2_;
geom2_.emplace_back(geometry<double>(geom2a_));
multi_polygon<double> geom0_;
@ -1103,7 +1139,7 @@ SECTION("test_projection_4326_3857 - Geometry Collection Variant Object") {
// Reprojecting empty poly will return a geometry_empty
geometry<double> new_geom = reproject_copy(geom0, proj_trans1, err);
REQUIRE(err == 0);
REQUIRE(new_geom.is<geometry_empty>());
REQUIRE(new_geom.is<geometry_empty<double>>());
}
{
// Test Standard Transform

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include "geometry_equal.hpp"
@ -12,7 +11,6 @@
#include <mapnik/view_strategy.hpp>
TEST_CASE("geometry strategy tests") {
SECTION("proj and view strategy") {
using namespace mapnik::geometry;
mapnik::box2d<double> e(-20037508.342789,-20037508.342789,20037508.342789,20037508.342789);
@ -184,5 +182,4 @@ SECTION("scaling strategies - double to int64") {
assert_g_equal(r, o);
}
} // END SECTION
} // END TEST CASE

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/geometry_is_empty.hpp>
@ -7,7 +6,7 @@ TEST_CASE("geometry has_empty") {
SECTION("empty geometry") {
mapnik::geometry::geometry_empty geom;
mapnik::geometry::geometry_empty<double> geom;
REQUIRE(!mapnik::geometry::has_empty(geom));
}
@ -19,7 +18,7 @@ SECTION("geometry collection") {
}
{
mapnik::geometry::geometry_collection<double> geom;
mapnik::geometry::geometry_empty geom1;
mapnik::geometry::geometry_empty<double> geom1;
geom.emplace_back(std::move(geom1));
REQUIRE(mapnik::geometry::has_empty(geom));
}
@ -35,7 +34,7 @@ SECTION("geometry collection") {
mapnik::geometry::geometry_collection<double> geom;
mapnik::geometry::multi_line_string<double> mls;
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.emplace_back(0, 0);
mls.emplace_back(std::move(line));
geom.emplace_back(std::move(mls));
REQUIRE(!mapnik::geometry::has_empty(geom));
@ -56,9 +55,9 @@ SECTION("linestring") {
}
{
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(25, 25);
line.add_coord(50, 50);
line.emplace_back(0, 0);
line.emplace_back(25, 25);
line.emplace_back(50, 50);
REQUIRE(!mapnik::geometry::has_empty(line));
}
}
@ -72,18 +71,18 @@ SECTION("polygon") {
{
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
REQUIRE(!mapnik::geometry::has_empty(poly));
}
{
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
ring.add_coord(1, 0);
ring.add_coord(1, 1);
ring.add_coord(0, 1);
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0, 0);
ring.emplace_back(1, 0);
ring.emplace_back(1, 1);
ring.emplace_back(0, 1);
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
REQUIRE(!mapnik::geometry::has_empty(poly));
}
}
@ -96,9 +95,9 @@ SECTION("multi-point") {
}
{
mapnik::geometry::multi_point<double> geom;
geom.add_coord(0, 0);
geom.add_coord(25, 25);
geom.add_coord(50, 50);
geom.emplace_back(0, 0);
geom.emplace_back(25, 25);
geom.emplace_back(50, 50);
REQUIRE(!mapnik::geometry::has_empty(geom));
}
}
@ -118,7 +117,7 @@ SECTION("multi-linestring") {
{
mapnik::geometry::multi_line_string<double> geom;
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.emplace_back(0, 0);
geom.emplace_back(std::move(line));
REQUIRE(!mapnik::geometry::has_empty(geom));
}
@ -134,7 +133,7 @@ SECTION("multi-polygon") {
mapnik::geometry::multi_polygon<double> geom;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
REQUIRE(mapnik::geometry::has_empty(geom));
}
@ -142,8 +141,8 @@ SECTION("multi-polygon") {
mapnik::geometry::multi_polygon<double> geom;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
REQUIRE(!mapnik::geometry::has_empty(geom));
}

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/geometry_is_empty.hpp>
@ -7,7 +6,7 @@ TEST_CASE("geometry is_empty") {
SECTION("empty geometry") {
mapnik::geometry::geometry_empty geom;
mapnik::geometry::geometry_empty<double> geom;
REQUIRE(mapnik::geometry::is_empty(geom));
}
@ -19,7 +18,7 @@ SECTION("geometry collection") {
}
{
mapnik::geometry::geometry_collection<double> geom;
mapnik::geometry::geometry_empty geom1;
mapnik::geometry::geometry_empty<double> geom1;
geom.emplace_back(std::move(geom1));
REQUIRE(!mapnik::geometry::is_empty(geom));
}
@ -39,9 +38,9 @@ SECTION("linestring") {
}
{
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(25, 25);
line.add_coord(50, 50);
line.emplace_back(0, 0);
line.emplace_back(25, 25);
line.emplace_back(50, 50);
REQUIRE(!mapnik::geometry::is_empty(line));
}
}
@ -55,18 +54,18 @@ SECTION("polygon") {
{
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
REQUIRE(mapnik::geometry::is_empty(poly));
}
{
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
ring.add_coord(1, 0);
ring.add_coord(1, 1);
ring.add_coord(0, 1);
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0, 0);
ring.emplace_back(1, 0);
ring.emplace_back(1, 1);
ring.emplace_back(0, 1);
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
REQUIRE(!mapnik::geometry::is_empty(poly));
}
}
@ -79,9 +78,9 @@ SECTION("multi-point") {
}
{
mapnik::geometry::multi_point<double> geom;
geom.add_coord(0, 0);
geom.add_coord(25, 25);
geom.add_coord(50, 50);
geom.emplace_back(0, 0);
geom.emplace_back(25, 25);
geom.emplace_back(50, 50);
REQUIRE(!mapnik::geometry::is_empty(geom));
}
}
@ -110,7 +109,7 @@ SECTION("multi-polygon") {
mapnik::geometry::multi_polygon<double> geom;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
poly.set_exterior_ring(std::move(ring));
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
REQUIRE(!mapnik::geometry::is_empty(geom));
}

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/geometry_remove_empty.hpp>
@ -19,9 +18,9 @@ SECTION("multi-linestring") {
using geom_type = mapnik::geometry::multi_line_string<double>;
geom_type geom;
mapnik::geometry::line_string<double> line;
line.add_coord(0, 0);
line.add_coord(0, 25);
line.add_coord(0, 50);
line.emplace_back(0, 0);
line.emplace_back(0, 25);
line.emplace_back(0, 50);
geom.emplace_back(std::move(line));
geom.emplace_back();
@ -37,18 +36,18 @@ SECTION("multi-polygon") {
geom_type geom;
mapnik::geometry::polygon<double> poly;
mapnik::geometry::linear_ring<double> ring;
ring.add_coord(0, 0);
ring.add_coord(1, 0);
ring.add_coord(1, 1);
ring.add_coord(0, 1);
ring.add_coord(0, 0);
poly.set_exterior_ring(std::move(ring));
ring.emplace_back(0, 0);
ring.emplace_back(1, 0);
ring.emplace_back(1, 1);
ring.emplace_back(0, 1);
ring.emplace_back(0, 0);
poly.push_back(std::move(ring));
geom.emplace_back(std::move(poly));
geom.emplace_back();
//geom.back().emplace_back(); //add an empty exterior ring
REQUIRE(geom.size() == 2);
geom_type geom2 = mapnik::geometry::remove_empty(geom);
REQUIRE(geom2.size() == 1);
REQUIRE(geom2[0].exterior_ring.size() == 5);
REQUIRE(geom2.front().front().size() == 5);
}
}

View file

@ -79,7 +79,7 @@ SECTION("wkb") {
geom = mapnik::geometry_utils::from_wkb((const char*)sp_invalid_blob,
sizeof(sp_invalid_blob) / sizeof(sp_invalid_blob[0]),
mapnik::wkbAuto);
REQUIRE(geom.is<mapnik::geometry::geometry_empty>()); // returns geometry_empty
REQUIRE(geom.is<mapnik::geometry::geometry_empty<double>>()); // returns geometry_empty
// sqlite generic wkb blob
@ -103,7 +103,7 @@ SECTION("wkb") {
geom = mapnik::geometry_utils::from_wkb((const char*)sq_invalid_blob,
sizeof(sq_invalid_blob) / sizeof(sq_invalid_blob[0]),
mapnik::wkbGeneric);
REQUIRE(geom.is<mapnik::geometry::geometry_empty>()); // returns geometry_empty
REQUIRE(geom.is<mapnik::geometry::geometry_empty<double>>()); // returns geometry_empty
}
catch (std::exception const& ex)

View file

@ -23,7 +23,7 @@ struct spatially_equal_visitor
{
using result_type = bool;
result_type operator() (mapnik::geometry::geometry_empty, mapnik::geometry::geometry_empty) const
result_type operator() (mapnik::geometry::geometry_empty<double>, mapnik::geometry::geometry_empty<double>) const
{
return true;
}

View file

@ -1,4 +1,3 @@
#include "catch.hpp"
#include <mapnik/vertex_adapters.hpp>
@ -8,10 +7,11 @@ TEST_CASE("vertex_adapters") {
SECTION("polygon") {
mapnik::geometry::polygon<double> g;
g.exterior_ring.add_coord(1,1);
g.exterior_ring.add_coord(2,2);
g.exterior_ring.add_coord(100,100);
g.exterior_ring.add_coord(1,1);
g.emplace_back();
g.back().emplace_back(1,1);
g.back().emplace_back(2,2);
g.back().emplace_back(100,100);
g.back().emplace_back(1,1);
mapnik::geometry::polygon_vertex_adapter<double> va(g);
double x,y;
@ -47,27 +47,28 @@ SECTION("polygon") {
SECTION("polygon with hole") {
mapnik::geometry::polygon<double> g;
g.exterior_ring.add_coord(0,0);
g.exterior_ring.add_coord(-10,0);
g.exterior_ring.add_coord(-10,10);
g.exterior_ring.add_coord(0,10);
g.exterior_ring.add_coord(0,0);
g.emplace_back();
g.back().emplace_back(0,0);
g.back().emplace_back(-10,0);
g.back().emplace_back(-10,10);
g.back().emplace_back(0,10);
g.back().emplace_back(0,0);
std::vector<mapnik::geometry::linear_ring<double> > interior_rings;
mapnik::geometry::linear_ring<double> hole;
hole.add_coord(-7,7);
hole.add_coord(-7,3);
hole.add_coord(-3,3);
hole.add_coord(-3,7);
hole.add_coord(-7,7);
g.add_hole(std::move(hole));
hole.emplace_back(-7,7);
hole.emplace_back(-7,3);
hole.emplace_back(-3,3);
hole.emplace_back(-3,7);
hole.emplace_back(-7,7);
g.push_back(std::move(hole));
mapnik::geometry::linear_ring<double> hole_in_hole;
hole_in_hole.add_coord(-6,4);
hole_in_hole.add_coord(-6,6);
hole_in_hole.add_coord(-4,6);
hole_in_hole.add_coord(-4,4);
hole_in_hole.add_coord(-6,4);
g.add_hole(std::move(hole_in_hole));
hole_in_hole.emplace_back(-6,4);
hole_in_hole.emplace_back(-6,6);
hole_in_hole.emplace_back(-4,6);
hole_in_hole.emplace_back(-4,4);
hole_in_hole.emplace_back(-6,4);
g.push_back(std::move(hole_in_hole));
mapnik::geometry::polygon_vertex_adapter<double> va(g);
double x,y;
@ -100,7 +101,7 @@ SECTION("polygon with hole") {
REQUIRE( y == 0 );
// exterior ring via ring_vertex_adapter
mapnik::geometry::ring_vertex_adapter<double> va2(g.exterior_ring);
mapnik::geometry::ring_vertex_adapter<double> va2(g.front());
cmd = va2.vertex(&x,&y);
REQUIRE( cmd == mapnik::SEG_MOVETO );
REQUIRE( x == 0 );