GEOS 3.14.0dev
Public Types | Public Member Functions | Protected Member Functions | Friends | List of all members
geos::geom::Point Class Reference

#include <Point.h>

Inheritance diagram for geos::geom::Point:
geos::geom::Geometry

Public Types

typedef std::vector< const Point * > ConstVect
 A vector of const Point pointers.
 
- Public Types inherited from geos::geom::Geometry
using ConstVect = std::vector< const Geometry * >
 A vector of const Geometry pointers.
 
using NonConstVect = std::vector< Geometry * >
 A vector of non-const Geometry pointers.
 
using Ptr = std::unique_ptr< Geometry >
 An unique_ptr of Geometry.
 

Public Member Functions

std::unique_ptr< Pointclone () const
 
std::unique_ptr< CoordinateSequencegetCoordinates (void) const override
 Returns this Geometry vertices. Caller takes ownership of the returned object.
 
const CoordinateSequencegetCoordinatesRO () const
 
std::size_t getNumPoints () const override
 Returns the count of this Geometrys vertices.
 
bool isEmpty () const override
 Returns whether or not the set of points in this Geometry is empty.
 
bool isSimple () const override
 Returns false if the Geometry not simple.
 
Dimension::DimensionType getDimension () const override
 Returns point dimension (0)
 
uint8_t getCoordinateDimension () const override
 Returns coordinate dimension.
 
bool hasM () const override
 
bool hasZ () const override
 
int getBoundaryDimension () const override
 Returns Dimension::False (Point has no boundary)
 
std::unique_ptr< GeometrygetBoundary () const override
 
void setXY (double x, double y)
 
const CoordinateXY * getCoordinate () const override
 Returns a vertex of this Geometry, or NULL if this is the empty geometry.
 
double getX () const
 
double getY () const
 
double getZ () const
 
double getM () const
 
std::string getGeometryType () const override
 Return a string representation of this Geometry type.
 
GeometryTypeId getGeometryTypeId () const override
 Return an integer representation of this Geometry type.
 
void apply_ro (CoordinateFilter *filter) const override
 
void apply_rw (const CoordinateFilter *filter) override
 
void apply_ro (GeometryFilter *filter) const override
 
void apply_rw (GeometryFilter *filter) override
 
void apply_rw (GeometryComponentFilter *filter) override
 
void apply_ro (GeometryComponentFilter *filter) const override
 
void apply_rw (CoordinateSequenceFilter &filter) override
 
void apply_ro (CoordinateSequenceFilter &filter) const override
 
bool equalsExact (const Geometry *other, double tolerance=0) const override
 Returns true iff the two Geometrys are of the same type and their vertices corresponding by index are equal up to a specified distance tolerance. Geometries are not required to have the same dimemsion; any Z/M values are ignored.
 
bool equalsIdentical (const Geometry *other) const override
 Returns true if the two geometries are of the same type and their vertices corresponding by index are equal in all dimensions.
 
void normalize (void) override
 
std::unique_ptr< Pointreverse () const
 
const EnvelopegetEnvelopeInternal () const override
 Returns the minimum and maximum x and y values in this Geometry, or a null Envelope if this Geometry is empty.
 
- Public Member Functions inherited from geos::geom::Geometry
std::unique_ptr< Geometryclone () const
 Make a deep-copy of this Geometry.
 
virtual ~Geometry ()
 Destroy Geometry and all components.
 
const GeometryFactorygetFactory () const
 Gets the factory which contains the context in which this geometry was created.
 
void setUserData (void *newUserData)
 A simple scheme for applications to add their own custom data to a Geometry. An example use might be to add an object representing a Coordinate Reference System.
 
void * getUserData () const
 Gets the user data object for this geometry, if any.
 
int getSRID () const
 Returns the ID of the Spatial Reference System used by the Geometry.
 
virtual void setSRID (int newSRID)
 Sets the ID of the Spatial Reference System used by the Geometry.
 
const PrecisionModelgetPrecisionModel () const
 Get the PrecisionModel used to create this Geometry.
 
virtual bool hasCurvedComponents () const
 Returns whether the Geometry contains curved components.
 
virtual std::size_t getNumGeometries () const
 Returns the number of geometries in this collection, or 1 if this is not a collection.
 
virtual const GeometrygetGeometryN (std::size_t) const
 Returns a pointer to the nth Geometry in this collection (or self if this is not a collection)
 
bool isValid () const
 Tests the validity of this Geometry.
 
virtual bool isRectangle () const
 Polygon overrides to check for actual rectangle.
 
virtual bool hasDimension (Dimension::DimensionType d) const
 Checks whether any component of this geometry has dimension d.
 
virtual bool isDimensionStrict (Dimension::DimensionType d) const
 Checks whether this Geometry consists only of components having dimension d.
 
bool isPuntal () const
 
bool isLineal () const
 
bool isPolygonal () const
 
bool isMixedDimension () const
 
bool isMixedDimension (Dimension::DimensionType *baseDim) const
 
bool isCollection () const
 
virtual std::unique_ptr< GeometrygetEnvelope () const
 Returns this Geometrys bounding box.
 
virtual bool disjoint (const Geometry *other) const
 
virtual bool touches (const Geometry *other) const
 Returns true if the DE-9IM intersection matrix for the two Geometrys is FT*******, F**T***** or F***T****.
 
virtual bool intersects (const Geometry *g) const
 Returns true if disjoint returns false.
 
virtual bool crosses (const Geometry *g) const
 
virtual bool within (const Geometry *g) const
 Returns true if the DE-9IM intersection matrix for the two Geometrys is T*F**F***.
 
virtual bool contains (const Geometry *g) const
 Returns true if other.within(this) returns true.
 
virtual bool overlaps (const Geometry *g) const
 Returns true if the DE-9IM intersection matrix for the two Geometrys is T*T***T** (for two points or two surfaces) 1*T***T** (for two curves).
 
bool relate (const Geometry *g, const std::string &intersectionPattern) const
 Returns true if the elements in the DE-9IM intersection matrix for the two Geometrys match the elements in intersectionPattern.
 
bool relate (const Geometry &g, const std::string &intersectionPattern) const
 
std::unique_ptr< IntersectionMatrixrelate (const Geometry *g) const
 Returns the DE-9IM intersection matrix for the two Geometrys.
 
std::unique_ptr< IntersectionMatrixrelate (const Geometry &g) const
 
bool equals (const Geometry *g) const
 Returns true if the DE-9IM intersection matrix for the two Geometrys is T*F**FFF*.
 
bool covers (const Geometry *g) const
 Returns true if this geometry covers the specified geometry.
 
bool coveredBy (const Geometry *g) const
 Tests whether this geometry is covered by the specified geometry.
 
virtual std::string toString () const
 Returns the Well-known Text representation of this Geometry.
 
virtual std::string toText () const
 
std::unique_ptr< Geometrybuffer (double distance) const
 
std::unique_ptr< Geometrybuffer (double distance, int quadrantSegments) const
 Returns a buffer region around this Geometry having the given width and with a specified number of segments used to approximate curves.
 
std::unique_ptr< Geometrybuffer (double distance, int quadrantSegments, int endCapStyle) const
 Computes a buffer area around this geometry having the given width and with a specified accuracy of approximation for circular arcs, and using a specified end cap style.
 
virtual std::unique_ptr< GeometryconvexHull () const
 Returns the smallest convex Polygon that contains all the points in the Geometry.
 
std::unique_ptr< Geometryreverse () const
 Computes a new geometry which has all component coordinate sequences in reverse order (opposite orientation) to this one.
 
std::unique_ptr< Geometryintersection (const Geometry *other) const
 Returns a Geometry representing the points shared by this Geometry and other.
 
std::unique_ptr< GeometryUnion (const Geometry *other) const
 Returns a Geometry representing all the points in this Geometry and other.
 
Ptr Union () const
 Computes the union of all the elements of this geometry. Heterogeneous GeometryCollections are fully supported.
 
std::unique_ptr< Geometrydifference (const Geometry *other) const
 Returns a Geometry representing the points making up this Geometry that do not make up other.
 
std::unique_ptr< GeometrysymDifference (const Geometry *other) const
 Returns a set combining the points in this Geometry not in other, and the points in other not in this Geometry.
 
template<class T >
void applyComponentFilter (T &f) const
 Apply a filter to each component of this geometry. The filter is expected to provide a .filter(const Geometry*) method.
 
int compareTo (const Geometry *geom) const
 Comparator for sorting geometry.
 
virtual double getArea () const
 Returns the area of this Geometry.
 
virtual double getLength () const
 Returns the length of this Geometry.
 
virtual double distance (const Geometry *g) const
 
virtual bool isWithinDistance (const Geometry *geom, double cDistance) const
 Tests whether the distance from this Geometry to another is less than or equal to a specified value.
 
virtual std::unique_ptr< PointgetCentroid () const
 Computes the centroid of this Geometry.
 
virtual bool getCentroid (CoordinateXY &ret) const
 Computes the centroid of this Geometry as a Coordinate.
 
std::unique_ptr< PointgetInteriorPoint () const
 Computes an interior point of this Geometry.
 
void geometryChanged ()
 Notifies this Geometry that its Coordinates have been changed by an external party (using a CoordinateFilter, for example).
 

Protected Member Functions

 Point (CoordinateSequence &&newCoords, const GeometryFactory *newFactory)
 Creates a Point taking ownership of the given CoordinateSequence (must have 1 element)
 
 Point (const Coordinate &c, const GeometryFactory *newFactory)
 
 Point (const CoordinateXY &c, const GeometryFactory *newFactory)
 
 Point (const CoordinateXYM &c, const GeometryFactory *newFactory)
 
 Point (const CoordinateXYZM &c, const GeometryFactory *newFactory)
 
 Point (const Point &p)
 
PointcloneImpl () const override
 Make a deep-copy of this Geometry.
 
PointreverseImpl () const override
 Make a geometry with coordinates in reverse order.
 
Envelope computeEnvelopeInternal () const
 
int compareToSameClass (const Geometry *p) const override
 
int getSortIndex () const override
 
void geometryChangedAction () override
 Notifies this Geometry that its Coordinates have been changed by an external party.
 
- Protected Member Functions inherited from geos::geom::Geometry
virtual bool isEquivalentClass (const Geometry *other) const
 Returns whether the two Geometrys are equal, from the point of view of the equalsExact method.
 
bool equal (const CoordinateXY &a, const CoordinateXY &b, double tolerance) const
 
 Geometry (const Geometry &geom)
 
 Geometry (const GeometryFactory *factory)
 Construct a geometry with the given GeometryFactory.
 

Friends

class GeometryFactory
 

Additional Inherited Members

- Static Public Member Functions inherited from geos::geom::Geometry
static GeometryTypeId multiTypeId (GeometryTypeId typeId)
 
- Static Protected Member Functions inherited from geos::geom::Geometry
template<typename T >
static bool hasNonEmptyElements (const std::vector< T > *geometries)
 Returns true if the array contains any non-empty Geometrys.
 
static bool hasNullElements (const CoordinateSequence *list)
 Returns true if the CoordinateSequence contains any null elements.
 
template<typename T >
static bool hasNullElements (const std::vector< T > *geometries)
 Returns true if the vector contains any null elements.
 
static void checkNotGeometryCollection (const Geometry *g)
 
template<typename T >
static int compare (const T &a, const T &b)
 
template<typename T >
static std::vector< std::unique_ptr< Geometry > > toGeometryArray (std::vector< std::unique_ptr< T > > &&v)
 
static std::vector< std::unique_ptr< Geometry > > toGeometryArray (std::vector< std::unique_ptr< Geometry > > &&v)
 
- Protected Attributes inherited from geos::geom::Geometry
int SRID
 

Detailed Description

Implementation of Point.

A Point is valid iff:

Constructor & Destructor Documentation

◆ Point()

geos::geom::Point::Point ( CoordinateSequence &&  newCoords,
const GeometryFactory newFactory 
)
protected

Creates a Point taking ownership of the given CoordinateSequence (must have 1 element)

Parameters
newCoordscontains the single coordinate on which to base this Point or null to create the empty geometry.
newFactorythe GeometryFactory used to create this geometry

Member Function Documentation

◆ apply_ro() [1/4]

void geos::geom::Point::apply_ro ( CoordinateFilter filter) const
overridevirtual

Implements geos::geom::Geometry.

◆ apply_ro() [2/4]

void geos::geom::Point::apply_ro ( CoordinateSequenceFilter filter) const
overridevirtual

Performs a read-only operation on the coordinates in this Geometry's CoordinateSequences.

Parameters
filterthe filter to apply

Implements geos::geom::Geometry.

◆ apply_ro() [3/4]

void geos::geom::Point::apply_ro ( GeometryComponentFilter filter) const
overridevirtual

Reimplemented from geos::geom::Geometry.

◆ apply_ro() [4/4]

void geos::geom::Point::apply_ro ( GeometryFilter filter) const
overridevirtual

Reimplemented from geos::geom::Geometry.

◆ apply_rw() [1/4]

void geos::geom::Point::apply_rw ( const CoordinateFilter filter)
overridevirtual

Implements geos::geom::Geometry.

◆ apply_rw() [2/4]

void geos::geom::Point::apply_rw ( CoordinateSequenceFilter filter)
overridevirtual

Performs an operation on the coordinates in this Geometry's CoordinateSequences. If the filter reports that a coordinate value has been changed, geometryChanged will be called automatically.

Parameters
filterthe filter to apply

Implements geos::geom::Geometry.

◆ apply_rw() [3/4]

void geos::geom::Point::apply_rw ( GeometryComponentFilter filter)
overridevirtual

Reimplemented from geos::geom::Geometry.

◆ apply_rw() [4/4]

void geos::geom::Point::apply_rw ( GeometryFilter filter)
overridevirtual

Reimplemented from geos::geom::Geometry.

◆ clone()

std::unique_ptr< Point > geos::geom::Point::clone ( ) const
inline

Creates and returns a full copy of this Point object. (including all coordinates contained by it).

Returns
a clone of this instance

◆ cloneImpl()

Point * geos::geom::Point::cloneImpl ( ) const
inlineoverrideprotectedvirtual

Make a deep-copy of this Geometry.

Implements geos::geom::Geometry.

◆ compareToSameClass()

int geos::geom::Point::compareToSameClass ( const Geometry p) const
overrideprotectedvirtual

Implements geos::geom::Geometry.

◆ equalsExact()

bool geos::geom::Point::equalsExact ( const Geometry other,
double  tolerance = 0 
) const
overridevirtual

Returns true iff the two Geometrys are of the same type and their vertices corresponding by index are equal up to a specified distance tolerance. Geometries are not required to have the same dimemsion; any Z/M values are ignored.

Implements geos::geom::Geometry.

◆ equalsIdentical()

bool geos::geom::Point::equalsIdentical ( const Geometry other) const
overridevirtual

Returns true if the two geometries are of the same type and their vertices corresponding by index are equal in all dimensions.

Implements geos::geom::Geometry.

◆ geometryChangedAction()

void geos::geom::Point::geometryChangedAction ( )
inlineoverrideprotectedvirtual

Notifies this Geometry that its Coordinates have been changed by an external party.

Implements geos::geom::Geometry.

◆ getBoundary()

std::unique_ptr< Geometry > geos::geom::Point::getBoundary ( ) const
overridevirtual

Gets the boundary of this geometry. Zero-dimensional geometries have no boundary by definition, so an empty GeometryCollection is returned.

Returns
an empty GeometryCollection
See also
Geometry::getBoundary

Implements geos::geom::Geometry.

◆ getBoundaryDimension()

int geos::geom::Point::getBoundaryDimension ( ) const
overridevirtual

Returns Dimension::False (Point has no boundary)

Implements geos::geom::Geometry.

◆ getCoordinate()

const CoordinateXY * geos::geom::Point::getCoordinate ( ) const
inlineoverridevirtual

Returns a vertex of this Geometry, or NULL if this is the empty geometry.

Implements geos::geom::Geometry.

◆ getCoordinateDimension()

uint8_t geos::geom::Point::getCoordinateDimension ( ) const
overridevirtual

Returns coordinate dimension.

Implements geos::geom::Geometry.

◆ getCoordinates()

std::unique_ptr< CoordinateSequence > geos::geom::Point::getCoordinates ( void  ) const
overridevirtual

Returns this Geometry vertices. Caller takes ownership of the returned object.

Implements geos::geom::Geometry.

◆ getDimension()

Dimension::DimensionType geos::geom::Point::getDimension ( ) const
overridevirtual

Returns point dimension (0)

Implements geos::geom::Geometry.

◆ getEnvelopeInternal()

const Envelope * geos::geom::Point::getEnvelopeInternal ( ) const
inlineoverridevirtual

Returns the minimum and maximum x and y values in this Geometry, or a null Envelope if this Geometry is empty.

Implements geos::geom::Geometry.

◆ getGeometryType()

std::string geos::geom::Point::getGeometryType ( ) const
overridevirtual

Return a string representation of this Geometry type.

Implements geos::geom::Geometry.

◆ getGeometryTypeId()

GeometryTypeId geos::geom::Point::getGeometryTypeId ( ) const
overridevirtual

Return an integer representation of this Geometry type.

Implements geos::geom::Geometry.

◆ getNumPoints()

std::size_t geos::geom::Point::getNumPoints ( ) const
overridevirtual

Returns the count of this Geometrys vertices.

Implements geos::geom::Geometry.

◆ getSortIndex()

int geos::geom::Point::getSortIndex ( ) const
inlineoverrideprotectedvirtual

Implements geos::geom::Geometry.

◆ hasM()

bool geos::geom::Point::hasM ( ) const
overridevirtual

Implements geos::geom::Geometry.

◆ hasZ()

bool geos::geom::Point::hasZ ( ) const
overridevirtual

Implements geos::geom::Geometry.

◆ isEmpty()

bool geos::geom::Point::isEmpty ( ) const
overridevirtual

Returns whether or not the set of points in this Geometry is empty.

Implements geos::geom::Geometry.

◆ isSimple()

bool geos::geom::Point::isSimple ( ) const
overridevirtual

Returns false if the Geometry not simple.

Reimplemented from geos::geom::Geometry.

◆ normalize()

void geos::geom::Point::normalize ( void  )
inlineoverridevirtual

Reorganizes this Geometry into normal form (or canonical form). Starting point of rings is lower left, collections are ordered by geometry type, etc.

Implements geos::geom::Geometry.

◆ reverseImpl()

Point * geos::geom::Point::reverseImpl ( ) const
inlineoverrideprotectedvirtual

Make a geometry with coordinates in reverse order.

Implements geos::geom::Geometry.


The documentation for this class was generated from the following file: