/**********************************************************************
*
* GEOS - Geometry Engine Open Source
* http://geos.osgeo.org
*
* Copyright (C) 2011 Sandro Santilli <strk@kbt.io>
* Copyright (C) 2006 Refractions Research Inc.
*
* 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.
*
**********************************************************************
*
* Last port: geom/GeometryFactory.java r320 (JTS-1.12)
*
**********************************************************************/
#pragma once
#include <geos/geom/Geometry.h>
#include <geos/geom/GeometryCollection.h>
#include <geos/geom/GeometryFactory.h>
#include <geos/geom/MultiPoint.h>
#include <geos/geom/MultiLineString.h>
#include <geos/geom/MultiPolygon.h>
#include <geos/geom/PrecisionModel.h>
#include <geos/geom/Polygon.h>
#include <geos/util/IllegalArgumentException.h>
#include <geos/export.h>
#include <vector>
#include <memory>
#include <cassert>
namespace geos {
namespace geom {
class Coordinate;
class CircularString;
class CompoundCurve;
class CoordinateSequence;
class Envelope;
class Geometry;
class GeometryCollection;
class LineString;
class LinearRing;
class MultiLineString;
class MultiCurve;
class MultiPoint;
class MultiPolygon;
class MultiSurface;
class CurvePolygon;
}
}
namespace geos {
namespace geom { // geos::geom
/**
* \brief
* Supplies a set of utility methods for building Geometry objects
* from CoordinateSequence or other Geometry objects.
*
* Note that the factory constructor methods do <b>not</b> change the input
* coordinates in any way.
* In particular, they are not rounded to the supplied <tt>PrecisionModel</tt>.
* It is assumed that input Coordinates meet the given precision.
*/
class GEOS_DLL GeometryFactory {
private:
struct GeometryFactoryDeleter {
void
operator()(GeometryFactory* p) const
{
p->destroy();
}
};
public:
using Ptr = std::unique_ptr<GeometryFactory, GeometryFactoryDeleter>;
/**
* \brief
* Constructs a GeometryFactory that generates Geometries having a
* floating PrecisionModel and a spatial-reference ID of 0.
*/
static GeometryFactory::Ptr create();
/**
* \brief
* Constructs a GeometryFactory that generates Geometries having
* the given PrecisionModel and the default CoordinateSequence
* implementation.
*
* @param pm the PrecisionModel to use
*/
static GeometryFactory::Ptr create(const PrecisionModel* pm);
/**
* \brief
* Constructs a GeometryFactory that generates Geometries having
* the given {@link PrecisionModel} and spatial-reference ID,
* and the default CoordinateSequence implementation.
*
* @param pm the PrecisionModel to use, will be copied internally
* @param newSRID the SRID to use
*/
static GeometryFactory::Ptr create(const PrecisionModel* pm, int newSRID);
/**
* \brief Copy constructor
*
* @param gf the GeometryFactory to clone from
*/
static GeometryFactory::Ptr create(const GeometryFactory& gf);
/**
* \brief
* Return a pointer to the default GeometryFactory.
* This is a global shared object instantiated
* using default constructor.
*/
static const GeometryFactory*
getDefaultInstance();
//Skipped a lot of list to array converters
static std::unique_ptr<Point> createPointFromInternalCoord(const Coordinate* coord,
const Geometry* exemplar);
/// Converts an Envelope to a Geometry.
///
/// Returned Geometry can be a Point, a Polygon or an EMPTY geom.
///
std::unique_ptr<Geometry> toGeometry(const Envelope* envelope) const;
/// \brief
/// Returns the PrecisionModel that Geometries created by this
/// factory will be associated with.
const PrecisionModel* getPrecisionModel() const
{
return &precisionModel;
};
/// Creates an EMPTY Point
std::unique_ptr<Point> createPoint(std::size_t coordinateDimension = 2) const;
std::unique_ptr<Point> createPoint(bool hasZ, bool hasM) const;
/// Creates a Point using the given Coordinate
std::unique_ptr<Point> createPoint(const Coordinate& coordinate) const;
std::unique_ptr<Point> createPoint(const CoordinateXY& coordinate) const;
std::unique_ptr<Point> createPoint(const CoordinateXYM& coordinate) const;
std::unique_ptr<Point> createPoint(const CoordinateXYZM& coordinate) const;
/// Creates a Point taking ownership of the given CoordinateSequence
std::unique_ptr<Point> createPoint(std::unique_ptr<CoordinateSequence>&& coordinates) const;
/// Creates a Point with a deep-copy of the given CoordinateSequence.
std::unique_ptr<Point> createPoint(const CoordinateSequence& coordinates) const;
/// Construct an EMPTY GeometryCollection
std::unique_ptr<GeometryCollection> createGeometryCollection() const;
/// Construct the EMPTY Geometry
std::unique_ptr<Geometry> createEmptyGeometry(GeometryTypeId type = GEOS_GEOMETRYCOLLECTION, bool hasZ=false, bool hasM=false) const;
/// Construct a GeometryCollection taking ownership of given arguments
template<typename T>
std::unique_ptr<GeometryCollection> createGeometryCollection(
std::vector<std::unique_ptr<T>> && newGeoms) const {
// Can't use make_unique because constructor is protected
return std::unique_ptr<GeometryCollection>(new GeometryCollection(Geometry::toGeometryArray(std::move(newGeoms)), *this));
}
/// Constructs a GeometryCollection with a deep-copy of args
std::unique_ptr<GeometryCollection> createGeometryCollection(
const std::vector<const Geometry*>& newGeoms) const;
/// Construct an EMPTY MultiLineString
std::unique_ptr<MultiLineString> createMultiLineString() const;
/// Construct a MultiLineString with a deep-copy of given arguments
std::unique_ptr<MultiLineString> createMultiLineString(
const std::vector<const Geometry*>& fromLines) const;
/// Construct a MultiLineString taking ownership of given arguments
std::unique_ptr<MultiLineString> createMultiLineString(
std::vector<std::unique_ptr<LineString>> && fromLines) const;
std::unique_ptr<MultiLineString> createMultiLineString(
std::vector<std::unique_ptr<Geometry>> && fromLines) const;
/// Construct an EMPTY MultiCurve
std::unique_ptr<MultiCurve> createMultiCurve() const;
/// Construct a MultiCurve taking ownership of given arguments
std::unique_ptr<MultiCurve> createMultiCurve(
std::vector<std::unique_ptr<Geometry>> && fromCurves) const;
std::unique_ptr<MultiCurve> createMultiCurve(
std::vector<std::unique_ptr<Curve>> && fromCurves) const;
/// Construct an EMPTY MultiPolygon
std::unique_ptr<MultiPolygon> createMultiPolygon() const;
/// Construct a MultiPolygon with a deep-copy of given arguments
std::unique_ptr<MultiPolygon> createMultiPolygon(
const std::vector<const Geometry*>& fromPolys) const;
/// Construct a MultiPolygon taking ownership of given arguments
std::unique_ptr<MultiPolygon> createMultiPolygon(
std::vector<std::unique_ptr<Polygon>> && fromPolys) const;
std::unique_ptr<MultiPolygon> createMultiPolygon(
std::vector<std::unique_ptr<Geometry>> && fromPolys) const;
/// Construct an EMPTY MultiSurface
std::unique_ptr<MultiSurface> createMultiSurface() const;
/// Construct a MultiSurface taking ownership of given arguments
std::unique_ptr<MultiSurface> createMultiSurface(
std::vector<std::unique_ptr<Geometry>> && from) const;
std::unique_ptr<MultiSurface> createMultiSurface(
std::vector<std::unique_ptr<Surface>> && from) const;
/// Construct an EMPTY LinearRing
std::unique_ptr<LinearRing> createLinearRing(std::size_t coordinateDimension = 2) const;
std::unique_ptr<LinearRing> createLinearRing(bool hasZ, bool hasM) const;
/// Construct a LinearRing taking ownership of given arguments
std::unique_ptr<LinearRing> createLinearRing(
std::unique_ptr<CoordinateSequence> && newCoords) const;
/// Construct a LinearRing with a deep-copy of given arguments
std::unique_ptr<LinearRing> createLinearRing(
const CoordinateSequence& coordinates) const;
/// Constructs an EMPTY <code>MultiPoint</code>.
std::unique_ptr<MultiPoint> createMultiPoint() const;
template<typename T>
std::unique_ptr<MultiPoint> createMultiPoint(const T& fromCoords) const
{
std::vector<std::unique_ptr<Geometry>> pts;
pts.reserve(fromCoords.size());
for (const auto& c : fromCoords) {
pts.emplace_back(createPoint(c));
}
return createMultiPoint(std::move(pts));
}
/// Construct a MultiPoint taking ownership of given arguments
std::unique_ptr<MultiPoint> createMultiPoint(std::vector<std::unique_ptr<Point>> && newPoints) const;
std::unique_ptr<MultiPoint> createMultiPoint(std::vector<std::unique_ptr<Geometry>> && newPoints) const;
/// Construct a MultiPoint with a deep-copy of given arguments
std::unique_ptr<MultiPoint> createMultiPoint(
const std::vector<const Geometry*>& fromPoints) const;
/// \brief
/// Construct a MultiPoint containing a Point geometry
/// for each Coordinate in the given list.
std::unique_ptr<MultiPoint> createMultiPoint(
const CoordinateSequence& fromCoords) const;
/// Construct an EMPTY Polygon
std::unique_ptr<Polygon> createPolygon(std::size_t coordinateDimension = 2) const;
std::unique_ptr<Polygon> createPolygon(bool hasZ, bool hasM) const;
/// Construct a Polygon taking ownership of given arguments
std::unique_ptr<Polygon> createPolygon(std::unique_ptr<LinearRing> && shell) const;
std::unique_ptr<Polygon> createPolygon(std::unique_ptr<LinearRing> && shell,
std::vector<std::unique_ptr<LinearRing>> && holes) const;
/// Construct a Polygon from a Coordinate vector, taking ownership of the vector
std::unique_ptr<Polygon> createPolygon(CoordinateSequence && coords) const;
/// Construct a Polygon with a deep-copy of given arguments
Polygon* createPolygon(const LinearRing& shell,
const std::vector<LinearRing*>& holes) const;
/// Construct an EMPTY CurvePolygon
std::unique_ptr<CurvePolygon> createCurvePolygon(bool hasZ, bool hasM) const;
/// Construct a CurvePolygon taking ownership of given arguments
std::unique_ptr<CurvePolygon> createCurvePolygon(std::unique_ptr<Curve>&& shell) const;
std::unique_ptr<CurvePolygon> createCurvePolygon(std::unique_ptr<Curve>&& shell,
std::vector<std::unique_ptr<Curve>> && holes) const;
/// Construct an EMPTY LineString
std::unique_ptr<LineString> createLineString(std::size_t coordinateDimension = 2) const;
std::unique_ptr<LineString> createLineString(bool hasZ, bool hasM) const;
/// Copy a LineString
std::unique_ptr<LineString> createLineString(const LineString& ls) const;
/// Construct a LineString taking ownership of given argument
std::unique_ptr<LineString> createLineString(
std::unique_ptr<CoordinateSequence> && coordinates) const;
/// Construct a LineString with a deep-copy of given argument
std::unique_ptr<LineString> createLineString(
const CoordinateSequence& coordinates) const;
/// Construct an EMPTY CircularString
std::unique_ptr<CircularString> createCircularString(bool hasZ, bool hasM) const;
/// Copy a CircularString
std::unique_ptr<CircularString> createCircularString(const CircularString& ls) const;
/// Construct a CircularString taking ownership of given argument
std::unique_ptr<CircularString> createCircularString(
std::unique_ptr<CoordinateSequence> && coordinates) const;
/// Construct a CircularString with a deep-copy of given argument
std::unique_ptr<CircularString> createCircularString(
const CoordinateSequence& coordinates) const;
/// Construct an EMPTY CompoundCurve
std::unique_ptr<CompoundCurve> createCompoundCurve() const;
/// Construct a CompoundCurve taking ownership of given argument
std::unique_ptr<CompoundCurve> createCompoundCurve(std::vector<std::unique_ptr<SimpleCurve>>&&) const;
/**
* Creates an empty atomic geometry of the given dimension.
* If passed a dimension of -1 will create an empty {@link GeometryCollection}.
*
* @param dimension the required dimension (-1, 0, 1 or 2)
* @return an empty atomic geometry of given dimension
*/
std::unique_ptr<Geometry> createEmpty(int dimension) const;
/**
* Creates an empty atomic geometry of the given type.
* @param typeId the desired GeometryTypeId
* @return an empty atomic geometry of given dimension
*/
std::unique_ptr<Geometry> createEmpty(GeometryTypeId typeId) const;
std::unique_ptr<Geometry> createMulti(std::unique_ptr<Geometry> && geom) const;
/**
* Build an appropriate <code>Geometry</code>, <code>MultiGeometry</code>, or
* <code>GeometryCollection</code> to contain the <code>Geometry</code>s in
* it.
*
* For example:
*
* - If <code>geomList</code> contains a single <code>Polygon</code>,
* the <code>Polygon</code> is returned.
* - If <code>geomList</code> contains several <code>Polygon</code>s, a
* <code>MultiPolygon</code> is returned.
* - If <code>geomList</code> contains some <code>Polygon</code>s and
* some <code>LineString</code>s, a <code>GeometryCollection</code> is
* returned.
* - If <code>geomList</code> is empty, an empty
* <code>GeometryCollection</code> is returned
* .
*
* Note that this method does not "flatten" Geometries in the input,
* and hence if any MultiGeometries are contained in the input a
* GeometryCollection containing them will be returned.
*
* @param geoms the <code>Geometry</code>s to combine
*
* @return A <code>Geometry</code> of the "smallest", "most type-specific"
* class that can contain the elements of <code>geomList</code>.
*
* NOTE: the returned Geometry will take ownership of the
* given vector AND its elements
*/
std::unique_ptr<Geometry> buildGeometry(std::vector<std::unique_ptr<Geometry>> && geoms) const;
std::unique_ptr<Geometry> buildGeometry(std::vector<std::unique_ptr<Point>> && geoms) const;
std::unique_ptr<Geometry> buildGeometry(std::vector<std::unique_ptr<LineString>> && geoms) const;
std::unique_ptr<Geometry> buildGeometry(std::vector<std::unique_ptr<Polygon>> && geoms) const;
/// See buildGeometry(std::vector<Geometry *>&) for semantics
//
/// Will clone the geometries accessible through the iterator.
///
/// @tparam T an iterator yielding something which casts to const Geometry*
/// @param from start iterator
/// @param toofar end iterator
///
template <class T>
std::unique_ptr<Geometry>
buildGeometry(T from, T toofar) const
{
bool isHeterogeneous = false;
std::size_t count = 0;
int geomClass = -1;
for(T i = from; i != toofar; ++i) {
++count;
const Geometry* g = *i;
if(geomClass < 0) {
geomClass = g->getSortIndex();
}
else if(geomClass != g->getSortIndex()) {
isHeterogeneous = true;
}
}
// for the empty geometry, return an empty GeometryCollection
if(count == 0) {
return std::unique_ptr<Geometry>(createGeometryCollection());
}
// for the single geometry, return a clone
if(count == 1) {
return (*from)->clone();
}
// Now we know it is a collection
// FIXME:
// Until we tweak all the createMulti* interfaces
// to support taking iterators we'll have to build
// a custom vector here.
std::vector<std::unique_ptr<Geometry>> fromGeoms;
for(T i = from; i != toofar; ++i) {
fromGeoms.push_back((*i)->clone());
}
// for an heterogeneous ...
if(isHeterogeneous) {
return createGeometryCollection(std::move(fromGeoms));
}
// At this point we know the collection is not hetereogenous.
switch((*from)->getDimension()) {
case Dimension::A: return createMultiPolygon(std::move(fromGeoms));
case Dimension::L: return createMultiLineString(std::move(fromGeoms));
case Dimension::P: return createMultiPoint(std::move(fromGeoms));
default:
throw geos::util::IllegalArgumentException(std::string("Invalid geometry type."));
}
}
/** \brief
* This function does the same thing of the omonimouse function
* taking vector pointer instead of reference.
*
* The difference is that this version will copy needed data
* leaving ownership to the caller.
*/
std::unique_ptr<Geometry> buildGeometry(const std::vector<const Geometry*>& geoms) const;
int getSRID() const
{
return SRID;
};
/// Returns a clone of given Geometry.
std::unique_ptr<Geometry> createGeometry(const Geometry* g) const;
/// Destroy a Geometry, or release it
void destroyGeometry(Geometry* g) const;
/// Request that the instance is deleted.
///
/// It will really be deleted only after last child Geometry is
/// deleted. Do not use the instance anymore after calling this function
/// (unless you're a live child!).
///
void destroy();
protected:
/**
* \brief
* Constructs a GeometryFactory that generates Geometries having a
* floating PrecisionModel and a spatial-reference ID of 0.
*/
GeometryFactory();
/**
* \brief
* Constructs a GeometryFactory that generates Geometries having
* the given PrecisionModel and the default CoordinateSequence
* implementation.
*
* @param pm the PrecisionModel to use
*/
GeometryFactory(const PrecisionModel* pm);
/**
* \brief
* Constructs a GeometryFactory that generates Geometries having
* the given {@link PrecisionModel} and spatial-reference ID,
* and the default CoordinateSequence implementation.
*
* @param pm the PrecisionModel to use, will be copied internally
* @param newSRID the SRID to use
*/
GeometryFactory(const PrecisionModel* pm, int newSRID);
/**
* \brief Copy constructor
*
* @param gf the GeometryFactory to clone from
*/
GeometryFactory(const GeometryFactory& gf);
/// Destructor
virtual ~GeometryFactory();
private:
PrecisionModel precisionModel;
int SRID;
mutable int _refCount;
bool _autoDestroy;
friend class Geometry;
void addRef() const;
void dropRef() const;
};
} // namespace geos::geom
} // namespace geos