Merge pull request #4468 from mapnik/bounding-box-split
Split bounding box along (0, 0) before reprojecting [WIP] [skip ci]
This commit is contained in:
commit
3348f97c76
4 changed files with 139 additions and 41 deletions
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@ -26,7 +26,7 @@
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// mapnik
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#include <mapnik/config.hpp>
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#include <mapnik/well_known_srs.hpp>
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#include <mapnik/geometry/box2d.hpp>
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#include <mapnik/warning.hpp>
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MAPNIK_DISABLE_WARNING_PUSH
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#include <mapnik/warning_ignore.hpp>
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@ -79,7 +79,8 @@ class MAPNIK_DECL projection
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void inverse(double& x, double& y) const;
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std::string definition() const;
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std::string description() const;
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void init_proj() const;
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void init_proj();
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std::optional<box2d<double>> area_of_use() const;
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private:
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void swap(projection& rhs);
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@ -87,7 +88,8 @@ class MAPNIK_DECL projection
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private:
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std::string params_;
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bool defer_proj_init_;
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mutable bool is_geographic_;
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bool is_geographic_;
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std::optional<box2d<double>> area_of_use_;
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mutable PJ* proj_;
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mutable PJ_CONTEXT* proj_ctx_;
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};
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@ -42,7 +42,6 @@
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#include <stdexcept>
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namespace mapnik {
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namespace { // (local)
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// Returns points in clockwise order. This allows us to do anti-meridian checks.
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@ -90,6 +89,36 @@ auto envelope_points(box2d<T> const& env, std::size_t num_points) -> geometry::m
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return coords;
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}
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std::vector<box2d<double>> split_bounding_box(box2d<double> const& bbox)
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{
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std::vector<box2d<double>> output;
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if (bbox.minx() < 0 && bbox.maxx() > 0)
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{
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if (bbox.miny() < 0 && bbox.maxy() > 0)
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{
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output.emplace_back(bbox.minx(), bbox.miny(), 0, 0);
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output.emplace_back(0, bbox.miny(), bbox.maxx(), 0);
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output.emplace_back(0, 0, bbox.maxx(), bbox.maxy());
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output.emplace_back(bbox.minx(), 0, 0, bbox.maxy());
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}
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else
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{
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output.emplace_back(bbox.minx(), bbox.miny(), 0, bbox.maxy());
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output.emplace_back(0, bbox.miny(), bbox.maxx(), bbox.maxy());
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}
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}
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else if (bbox.miny() < 0 && bbox.maxy() > 0)
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{
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output.emplace_back(bbox.minx(), bbox.miny(), bbox.maxx(), 0);
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output.emplace_back(bbox.minx(), 0, bbox.maxx(), bbox.maxy());
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}
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else
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{
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output.push_back(bbox);
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}
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return output;
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}
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} // namespace
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proj_transform::proj_transform(projection const& source, projection const& dest)
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@ -398,7 +427,7 @@ bool proj_transform::backward(box2d<double>& box) const
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}
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// More robust, but expensive, bbox transform
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// in the face of proj4 out of bounds conditions.
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// in the face of libproj out of bounds conditions.
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// Can result in 20 -> 10 r/s performance hit.
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// Alternative is to provide proper clipping box
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// in the target srs by setting map 'maximum-extent'
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@ -413,18 +442,24 @@ bool proj_transform::backward(box2d<double>& env, std::size_t points) const
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return backward(env);
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}
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auto coords = envelope_points(env, points); // this is always clockwise
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box2d<double> result;
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for (auto b : split_bounding_box(env))
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{
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auto coords = envelope_points(b, points); // this is always clockwise
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for (auto& p : coords)
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{
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double z = 0;
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if (!backward(p.x, p.y, z))
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return false;
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}
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box2d<double> result;
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if (!result.valid())
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boost::geometry::envelope(coords, result);
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else
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{
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box2d<double> bb;
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boost::geometry::envelope(coords, bb);
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result.expand_to_include(bb);
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}
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if (is_source_longlat_ && !util::is_clockwise(coords))
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{
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// we've gone to a geographic CS, and our clockwise envelope has
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@ -435,6 +470,7 @@ bool proj_transform::backward(box2d<double>& env, std::size_t points) const
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result.expand_to_include(-180.0, miny);
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result.expand_to_include(180.0, miny);
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}
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}
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env.re_center(result.center().x, result.center().y);
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env.height(result.height());
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@ -453,17 +489,31 @@ bool proj_transform::forward(box2d<double>& env, std::size_t points) const
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}
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auto coords = envelope_points(env, points); // this is always clockwise
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double z = 0;
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for (auto& p : coords)
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{
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if (!forward(p.x, p.y, z))
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return false;
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}
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box2d<double> result;
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for (auto b : split_bounding_box(env))
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{
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auto coords = envelope_points(b, points); // this is always clockwise
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for (auto& p : coords)
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{
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double z = 0;
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if (!forward(p.x, p.y, z))
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return false;
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}
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box2d<double> result;
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if (!result.valid())
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boost::geometry::envelope(coords, result);
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else
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{
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box2d<double> bb;
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boost::geometry::envelope(coords, bb);
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result.expand_to_include(bb);
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}
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if (is_dest_longlat_ && !util::is_clockwise(coords))
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{
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// we've gone to a geographic CS, and our clockwise envelope has
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@ -474,11 +524,10 @@ bool proj_transform::forward(box2d<double>& env, std::size_t points) const
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result.expand_to_include(-180.0, miny);
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result.expand_to_include(180.0, miny);
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}
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}
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env.re_center(result.center().x, result.center().y);
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env.height(result.height());
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env.width(result.width());
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return true;
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}
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@ -94,7 +94,7 @@ bool projection::operator!=(const projection& other) const
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return !(*this == other);
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}
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void projection::init_proj() const
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void projection::init_proj()
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{
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#ifdef MAPNIK_USE_PROJ
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if (!proj_)
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@ -117,6 +117,11 @@ void projection::init_proj() const
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}
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PJ_TYPE type = proj_get_type(proj_);
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is_geographic_ = (type == PJ_TYPE_GEOGRAPHIC_2D_CRS || type == PJ_TYPE_GEOGRAPHIC_3D_CRS) ? true : false;
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double west_lon, south_lat, east_lon, north_lat;
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if (proj_get_area_of_use(proj_ctx_, proj_, &west_lon, &south_lat, &east_lon, &north_lat, nullptr))
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{
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area_of_use_ = box2d<double>{west_lon, south_lat, east_lon, north_lat};
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}
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}
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#endif
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}
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@ -131,6 +136,11 @@ bool projection::is_geographic() const
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return is_geographic_;
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}
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std::optional<box2d<double>> projection::area_of_use() const
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{
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return area_of_use_;
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}
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std::optional<well_known_srs_e> projection::well_known() const
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{
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return is_well_known_srs(params_);
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@ -16,6 +16,8 @@ TEST_CASE("projection transform")
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CHECK(proj_4326.is_geographic());
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CHECK(!proj_3857.is_geographic());
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CHECK(*proj_4326.area_of_use() == mapnik::box2d<double>(-180, -90, 180, 90));
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CHECK(*proj_3857.area_of_use() == mapnik::box2d<double>(-180, -85.06, 180, 85.06));
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mapnik::proj_transform prj_trans(proj_4326, proj_3857);
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double minx = -45.0;
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@ -48,6 +50,7 @@ TEST_CASE("projection transform")
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{
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mapnik::projection proj_4269("epsg:4269");
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mapnik::projection proj_3857("epsg:3857");
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mapnik::proj_transform prj_trans(proj_4269, proj_3857);
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mapnik::proj_transform prj_trans2(proj_3857, proj_4269);
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@ -200,7 +203,42 @@ TEST_CASE("projection transform")
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}
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}
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}
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#endif
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SECTION("Test proj north/south poles bbox")
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{
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// WGS 84 / Arctic Polar Stereographic
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mapnik::projection prj_geog("epsg:4326");
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mapnik::projection prj_proj("epsg:3995");
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mapnik::proj_transform prj_trans_fwd(prj_proj, prj_geog);
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mapnik::proj_transform prj_trans_rev(prj_geog, prj_proj);
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// bounds
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const mapnik::box2d<double> bounds{-180.0, 60.0, 180.0, 90.0};
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{
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// projected bounds
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mapnik::box2d<double> projected_bounds{-3299207.53, -3333134.03, 3299207.53, 3333134.03};
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CHECKED_IF(prj_trans_fwd.forward(projected_bounds, PROJ_ENVELOPE_POINTS))
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{
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CHECK(projected_bounds.minx() == Approx(bounds.minx()));
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CHECK(projected_bounds.miny() == Approx(48.65640)); // this is expected
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CHECK(projected_bounds.maxx() == Approx(bounds.maxx()));
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CHECK(projected_bounds.maxy() == Approx(bounds.maxy()));
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}
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}
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{
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// check the same logic works for .backward()
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mapnik::box2d<double> projected_bounds{-3299207.53, -3333134.03, 3299207.53, 3333134.03};
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CHECKED_IF(prj_trans_rev.backward(projected_bounds, PROJ_ENVELOPE_POINTS))
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{
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CHECK(projected_bounds.minx() == Approx(bounds.minx()));
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CHECK(projected_bounds.miny() == Approx(48.65640)); // this is expected
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CHECK(projected_bounds.maxx() == Approx(bounds.maxx()));
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CHECK(projected_bounds.maxy() == Approx(bounds.maxy()));
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}
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}
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}
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SECTION("proj_transform of coordinate arrays with stride > 1")
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{
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@ -237,7 +275,6 @@ TEST_CASE("projection transform")
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}
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}
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#ifdef MAPNIK_USE_PROJ
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SECTION("lonlat <-> New Zealand Transverse Mercator 2000")
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{
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mapnik::projection const proj_2193("epsg:2193");
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