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flet / flet-libgeos python
Repository URL to install this package:
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Version:
3.13.0 ▾
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/**********************************************************************
*
* GEOS - Geometry Engine Open Source
* http://geos.osgeo.org
*
* Copyright (c) 2024 Martin Davis
* Copyright (C) 2024 Paul Ramsey <pramsey@cleverelephant.ca>
*
* This is free software; you can redistribute and/or modify it under
* the terms of the GNU Lesser General Public Licence as published
* by the Free Software Foundation.
* See the COPYING file for more information.
*
**********************************************************************/
#pragma once
#include <geos/algorithm/BoundaryNodeRule.h>
#include <geos/algorithm/locate/PointOnGeometryLocator.h>
#include <geos/operation/relateng/AdjacentEdgeLocator.h>
#include <geos/operation/relateng/LinearBoundary.h>
#include <geos/geom/Coordinate.h>
#include <geos/geom/Location.h>
#include <geos/export.h>
#include <memory>
#include <vector>
// Forward declarations
namespace geos {
namespace algorithm {
namespace locate {
// class PointOnGeometryLocator;
}
}
namespace operation {
namespace relateng {
// class LinearBoundary;
// class AdjacentEdgeLocator;
}
}
namespace geom {
class CoordinateXY;
class Geometry;
class LineString;
class Point;
}
}
using geos::algorithm::BoundaryNodeRule;
using geos::algorithm::locate::PointOnGeometryLocator;
using geos::geom::Coordinate;
using geos::geom::CoordinateXY;
using geos::geom::Geometry;
using geos::geom::LineString;
using geos::geom::Point;
using geos::geom::Location;
namespace geos { // geos.
namespace operation { // geos.operation
namespace relateng { // geos.operation.relateng
/**
* Locates a point on a geometry, including mixed-type collections.
* The dimension of the containing geometry element is also determined.
* GeometryCollections are handled with union semantics;
* i.e. the location of a point is that location of that point
* on the union of the elements of the collection.
*
* Union semantics for GeometryCollections has the following behaviours:
*
* * For a mixed-dimension (heterogeneous) collection
* a point may lie on two geometry elements with different dimensions.
* In this case the location on the largest-dimension element is reported.
* * For a collection with overlapping or adjacent polygons,
* points on polygon element boundaries may lie in the effective interior
* of the collection geometry.
*
* Prepared mode is supported via cached spatial indexes.
*
* @author Martin Davis
*/
class GEOS_DLL RelatePointLocator {
private:
// Members
const Geometry* geom;
bool isPrepared = false;
const BoundaryNodeRule& boundaryRule;
std::unique_ptr<AdjacentEdgeLocator> adjEdgeLocator;
Coordinate::ConstXYSet points;
std::vector<const LineString *> lines;
std::vector<const Geometry *> polygons;
std::vector<std::unique_ptr<PointOnGeometryLocator>> polyLocator;
std::unique_ptr<LinearBoundary> lineBoundary;
bool isEmpty;
public:
// Constructors
RelatePointLocator(const Geometry* p_geom)
: RelatePointLocator(p_geom, false, BoundaryNodeRule::getBoundaryRuleMod2())
{};
RelatePointLocator(const Geometry* p_geom, bool p_isPrepared, const BoundaryNodeRule& p_bnRule)
: geom(p_geom)
, isPrepared(p_isPrepared)
, boundaryRule(p_bnRule)
{
init(geom);
};
void init(const Geometry* p_geom);
bool hasBoundary() const;
void extractElements(const Geometry* geom);
void addPoint(const Point* pt);
void addLine(const LineString* line);
void addPolygonal(const Geometry* polygonal);
Location locate(const CoordinateXY* p);
int locateLineEndWithDim(const CoordinateXY* p);
/*
* Locates a point which is known to be a node of the geometry
* (i.e. a vertex or on an edge).
*
* @param p the node point to locate
* @param parentPolygonal the polygon the point is a node of
* @return the location of the node point
*/
Location locateNode(const CoordinateXY* p, const Geometry* parentPolygonal);
/**
* Locates a point which is known to be a node of the geometry,
* as a DimensionLocation.
*
* @param p the point to locate
* @param parentPolygonal the polygon the point is a node of
* @return the dimension and location of the point
*/
int locateNodeWithDim(const CoordinateXY* p, const Geometry* parentPolygonal);
/**
* Computes the topological location ( Location) of a single point
* in a Geometry, as well as the dimension of the geometry element the point
* is located in (if not in the Exterior).
* It handles both single-element and multi-element Geometries.
* The algorithm for multi-part Geometries
* takes into account the SFS Boundary Determination Rule.
*
* @param p the point to locate
* @return the Location of the point relative to the input Geometry
*/
int locateWithDim(const CoordinateXY* p);
private:
// Methods
/**
* Computes the topological location (Location) of a single point
* in a Geometry, as well as the dimension of the geometry element the point
* is located in (if not in the Exterior).
* It handles both single-element and multi-element Geometries.
* The algorithm for multi-part Geometries
* takes into account the SFS Boundary Determination Rule.
*
* @param p the coordinate to locate
* @param isNode whether the coordinate is a node (on an edge) of the geometry
* @param polygon
* @return the Location of the point relative to the input Geometry
*/
int locateWithDim(const CoordinateXY* p, bool isNode, const Geometry* parentPolygonal);
int computeDimLocation(const CoordinateXY* p, bool isNode, const Geometry* parentPolygonal);
Location locateOnPoints(const CoordinateXY* p) const;
Location locateOnLines(const CoordinateXY* p, bool isNode);
Location locateOnLine(const CoordinateXY* p, /*bool isNode,*/ const LineString* l);
Location locateOnPolygons(const CoordinateXY* p, bool isNode, const Geometry* parentPolygonal);
Location locateOnPolygonal(const CoordinateXY* p,
bool isNode,
const Geometry* parentPolygonal,
std::size_t index);
PointOnGeometryLocator * getLocator(std::size_t index);
};
} // namespace geos.operation.relateng
} // namespace geos.operation
} // namespace geos