te::gm::PointM Class Referenceabstract

A point with an associated measure. More...

#include <PointM.h>

Inheritance diagram for te::gm::PointM:
te::gm::Point te::gm::AbstractPoint te::gm::Geometry te::dt::AbstractData te::common::BaseVisitable< Visitor >

Public Types

typedef void ReturnType
 
typedef Visitor VisitorType
 

Public Member Functions

virtual ReturnType accept (VisitorType &guest) const =0
 It call the visit method from the guest object. More...
 
Initializer methods on geometric objects

Methods for initializing a geometric object.

 PointM (const double &x, const double &y, const double &m, int srid=0, Envelope *mbr=0)
 It initializes the point with the specified spatial reference system id and envelope. More...
 
 PointM (int srid=0, Envelope *mbr=0)
 It initializes the point with the specified spatial reference system id and envelope. More...
 
 PointM (const PointM &rhs)
 Copy constructor. More...
 
 ~PointM ()
 Destructor. More...
 
PointMoperator= (const PointM &rhs)
 Assignment operator. More...
 
Re-Implementation from AbstractData

Methods re-Implementated from AbstractData.

te::dt::AbstractDataclone () const
 It clones the point. More...
 
Re-Implementation from Geometry

Methods re-Implementated from Geometry.

GeometrylocateBetween (const double &mStart, const double &mEnd) const throw (Exception)
 It returns a derived geometry collection value according to the range of coordinate values inclusively. More...
 
Re-Implementation from AbstractPoint

Methods re-implemeneted from AbstractPoint.

const double & getM () const
 It returns the Point z-coordinate value. More...
 
void setM (const double &m)
 It sets the Point z-coordinate value. More...
 
Re-Implmentation from AbstractPoint

Methods re-implemented from AbstractPoint.

const double & getX () const
 It returns the Point x-coordinate value. More...
 
void setX (const double &x)
 It sets the Point x-coordinate value. More...
 
const double & getY () const
 It returns the Point y-coordinate value. More...
 
void setY (const double &y)
 It sets the Point y-coordinate value. More...
 
virtual const double & getZ () const
 It returns the Point z-coordinate value, if it has one or DoubleNotANumber otherwise. More...
 
virtual void setZ (const double &z)
 It sets the Point z-coordinate value. More...
 
bool operator< (const Point &rhs)
 Less then operator. More...
 
Re-Implmentation of methods from Geometry class

Re-Implmentation of basic methods from Geometry class.

Dimensionality getDimension () const throw ()
 Points are 0-dimensional objects. More...
 
const std::string & getGeometryType () const throw ()
 The name of instantiable subtype is: Point. More...
 
void setSRID (int srid) throw ()
 It sets the Spatial Reference System ID of the Point. More...
 
void transform (int srid) throw (te::common::Exception)
 It converts the coordinate values of the point to the new spatial reference system. More...
 
void computeMBR (bool cascade) const throw ()
 It computes the minimum bounding rectangle for the point. More...
 
std::size_t getNPoints () const throw ()
 it returns the number of points (vertexes) in the geometry. More...
 
Basic Geometry Methods

Basic methods on geometric objects.

int getCoordinateDimension () const throw ()
 It returns the number of measurements or axes needed to describe a position in a coordinate system. More...
 
GeomType getGeomTypeId () const throw ()
 It returns the geometry subclass type identifier. More...
 
int getSRID () const throw ()
 It returns the Spatial Reference System ID associated to this geometric object. More...
 
GeometrygetEnvelope () const throw ()
 It returns the minimum bounding rectangle (MBR) for the geometry. More...
 
const EnvelopegetMBR () const throw ()
 It returns the minimum bounding rectangle for the geometry in an internal representation. More...
 
std::string asText () const throw ()
 It returns an string with the Well-Known Text Representation for the geometry. More...
 
char * asBinary (std::size_t &size) const throw (Exception)
 It serializes the geometric object to a Well-known Binary Representation (WKB). More...
 
std::size_t getWkbSize () const throw ()
 It returns the size required by a WKB representation for this geometric object. More...
 
void getWkb (char *wkb, te::common::MachineByteOrder byteOrder) const throw (Exception)
 It serializes the geometry to a WKB representation into the specified buffer. More...
 
virtual bool isEmpty () const throw (std::exception)
 It returns true if this geometric object is the empty Geometry. More...
 
virtual bool isSimple () const throw (std::exception)
 It returns true if this geometric object has no anomalous points, such as self intersection or self tangency. More...
 
virtual bool isValid () const throw (std::exception)
 It tells if the geometry is well formed. More...
 
bool is3D () const throw ()
 It returns true if this geometric object has z coordinate values. More...
 
bool isMeasured () const throw ()
 It returns true if this geometric object has m coordinate values. More...
 
virtual GeometrygetBoundary () const throw (std::exception)
 It returns the geometry boundary. More...
 
Spatial Relations

Methods for testing spatial relations between geometric objects.

Please, see OGC specification for a in depth definition of each spatial operation.

virtual bool equals (const Geometry *const rhs, const bool exact=false) const throw (std::exception)
 It returns true if the geometry object is spatially equal to rhs geometry. More...
 
virtual bool disjoint (const Geometry *const rhs) const throw (std::exception)
 It returns true if the geometry object is spatially disjoint from rhs geometry. More...
 
virtual bool intersects (const Geometry *const rhs) const throw (std::exception)
 It returns true if the geometry object spatially intersects rhs geometry. More...
 
virtual bool touches (const Geometry *const rhs) const throw (std::exception)
 It returns true if the geometry object spatially touches rhs geometry. More...
 
virtual bool crosses (const Geometry *const rhs) const throw (std::exception)
 It returns true if the geometry object spatially crosses rhs geometry. More...
 
virtual bool within (const Geometry *const rhs) const throw (std::exception)
 It returns true if the geometry object is spatially within rhs geometry. More...
 
virtual bool contains (const Geometry *const rhs) const throw (std::exception)
 It returns true if this geometry object spatially contains rhs geometry. More...
 
virtual bool overlaps (const Geometry *const rhs) const throw (std::exception)
 It returns true if this geometry object spatially overlaps rhs geometry. More...
 
virtual bool relate (const Geometry *const rhs, const std::string &matrix) const throw (std::exception)
 It returns true if this geometry object is spatially related to rhs geometry according to the pattern expressed by the intersection matrix. More...
 
virtual std::string relate (const Geometry *const rhs) const throw (std::exception)
 It returns the spatial relation between this geometry object and the rhs geometry. More...
 
virtual bool covers (const Geometry *const rhs) const throw (std::exception)
 It returns true if this geometry object spatially covers the rhs geometry. More...
 
virtual bool coveredBy (const Geometry *const rhs) const throw (std::exception)
 It returns true if this geometry object is spatially covered by rhs geometry. More...
 
virtual GeometrylocateAlong (const double &mValue) const throw (Exception)
 It returns a derived GeometryCollection value according to the specified coordinate value. More...
 
Spatial Analysis

Methods that support spatial analysis.

virtual double distance (const Geometry *const rhs) const throw (std::exception)
 It returns the shortest distance between any two points in the two geometry objects. More...
 
virtual Geometrybuffer (const double &distance) const throw (std::exception)
 This method calculates the buffer of a geometry. More...
 
virtual Geometrybuffer (const double &distance, int quadrantSegments) const throw (std::exception)
 This method calculates the buffer of a geometry. More...
 
virtual Geometrybuffer (const double &distance, int quadrantSegments, BufferCapStyle endCapStyle) const throw (std::exception)
 This method calculates the buffer of a geometry. More...
 
virtual GeometryconvexHull () const throw (std::exception)
 This method calculates the Convex Hull of a geometry. More...
 
virtual Geometryintersection (const Geometry *const rhs) const throw (std::exception)
 It returns a geometric object that represents the point set intersection with another geometry. More...
 
virtual GeometryUnion (const Geometry *const rhs) const throw (std::exception)
 It returns a geometric object that represents the point set union with another geometry. More...
 
virtual Geometrydifference (const Geometry *const rhs) const throw (std::exception)
 It returns a geometric object that represents the point set difference with another geometry. More...
 
virtual GeometrysymDifference (const Geometry *const rhs) const throw (std::exception)
 It returns a geometric object that represents the point set symetric difference with another geometry. More...
 
virtual bool dWithin (const Geometry *const rhs, const double &distance) const throw (std::exception)
 It returns true if the geometries are within the specified distance. More...
 
AbstractData Re-implementation

Methods re-implemneted from AbstractData.

int getTypeCode () const
 It returns the data type code associated to the data value. More...
 
std::string toString () const
 It returns the data value in a WKT representation. More...
 

Static Public Member Functions

Auxiliary Methods

Auxiliary Methods.

static GeomType getGeomTypeId (const std::string &gtype)
 It returns the TerraLib geometry type id given a type string (the type string must be in capital letters). More...
 
static bool isGeomType (const std::string &stype)
 It tells if the given string is a geometry data type. More...
 
static void loadGeomTypeId ()
 It loads the internal MAP of geometry type names to geometry type ids. More...
 

Protected Attributes

GeomType m_gType
 Internal geometry type. More...
 
Envelopem_mbr
 The geometry minimum bounding rectangle. More...
 
int m_srid
 The Spatial Reference System code associated to the Geometry. More...
 
double m_x
 The Point x-coordinate value. More...
 
double m_y
 The Point y-coordinate value. More...
 

Static Protected Attributes

static std::map< std::string, GeomTypesm_geomTypeMap
 A set of geometry type names (in UPPER CASE). More...
 
static const double sm_notNumber
 Just a special value to return in the case of a invalid Geometry. More...
 
static const std::string sm_typeName
 Geometry type name for Point. More...
 

Private Attributes

double m_m
 The Point m-coordinate value. More...
 

Detailed Description

Member Typedef Documentation

typedef void te::common::BaseVisitable< Visitor , void >::ReturnType
inherited

Definition at line 58 of file BaseVisitable.h.

typedef Visitor te::common::BaseVisitable< Visitor , void >::VisitorType
inherited

Definition at line 57 of file BaseVisitable.h.

Constructor & Destructor Documentation

te::gm::PointM::PointM ( const double &  x,
const double &  y,
const double &  m,
int  srid = 0,
Envelope mbr = 0 
)

It initializes the point with the specified spatial reference system id and envelope.

Parameters
xThe Point x-coordinate value.
yThe Point y-coordinate value.
mThe Point m-coordinate value.
sridThe Spatial Reference System ID associated to the Geometry.
mbrThe minimum bounding rectangle of this geometry (i.e., its envelope). It may be a NULL value.
Note
The point will take the ownership of the given mbr.
te::gm::PointM::PointM ( int  srid = 0,
Envelope mbr = 0 
)

It initializes the point with the specified spatial reference system id and envelope.

Parameters
sridThe Spatial Reference System ID associated to the Geometry.
mbrThe minimum bounding rectangle of this geometry (i.e., its envelope).
Note
The point will take the ownership of the given mbr.
te::gm::PointM::PointM ( const PointM rhs)

Copy constructor.

Parameters
rhsThe other geometry.
te::gm::PointM::~PointM ( )
inline

Destructor.

Definition at line 93 of file PointM.h.

Member Function Documentation

virtual ReturnType te::common::BaseVisitable< Visitor , void >::accept ( VisitorType guest) const
pure virtualinherited

It call the visit method from the guest object.

Parameters
guestThe guest or visitor.
Returns
Any valid value define by the template type R.
char* te::gm::Geometry::asBinary ( std::size_t &  size) const
throw (Exception
)
inherited

It serializes the geometric object to a Well-known Binary Representation (WKB).

Parameters
sizeThe size in bytes of the returned WKB.
Returns
The WKB representation for this object.
Exceptions
ExceptionIt will throw an exception if the operation could not be performed.
Note
The WKB will be on machine byte order.
The caller of this method will take the ownership of the returned wkb. You must use "delete [] pointer" in order to free the memory pointed by returned pointer.
std::string te::gm::Geometry::asText ( ) const
throw (
)
inherited

It returns an string with the Well-Known Text Representation for the geometry.

Returns
The WKT for the Geometry.
virtual Geometry* te::gm::Geometry::buffer ( const double &  distance) const
throw (std::exception
)
virtualinherited

This method calculates the buffer of a geometry.

Parameters
distanceDistance value.
Returns
A geometry representing all points less than or equal to the specified distance.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
The caller of this method will take the ownership of the returned geometry.
Performed by GEOS.
virtual Geometry* te::gm::Geometry::buffer ( const double &  distance,
int  quadrantSegments 
) const
throw (std::exception
)
virtualinherited

This method calculates the buffer of a geometry.

Parameters
distanceDistance value.
quadrantSegmentsA specified number of segments used to approximate the curves.
Returns
A geometry representing all points less than or equal to the specified distance.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
The caller of this method will take the ownership of the returned geometry.
TerraLib extended method.
Performed by GEOS.
virtual Geometry* te::gm::Geometry::buffer ( const double &  distance,
int  quadrantSegments,
BufferCapStyle  endCapStyle 
) const
throw (std::exception
)
virtualinherited

This method calculates the buffer of a geometry.

As in GEOS, the quadrantSegments argument allows controlling the accuracy of the approximation by specifying the number of line segments used to represent a quadrant of a circle.

Parameters
distanceDistance value.
quadrantSegmentsA specified number of segments used to approximate the curves.
endCapStyleIt specifies the shape used at the ends of linestrings.
Returns
A geometry representing all points less than or equal to the specified distance.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
The caller of this method will take the ownership of the returned Geometry.
TerraLib extended method.
Performed by GEOS.
te::dt::AbstractData* te::gm::PointM::clone ( ) const
virtual

It clones the point.

Returns
A copy of the given point.
Note
The caller of this method will take the ownership of the returned point.
The cloned point will not have the MBR computed. This will save time when you are just cloning a geometry and don't intend to waste time computing the bounding box. If you have another suggestion, please, let me know.

Reimplemented from te::gm::Point.

void te::gm::AbstractPoint::computeMBR ( bool  cascade) const
throw (
)
virtualinherited

It computes the minimum bounding rectangle for the point.

Parameters
cascadeFor points this flag doesn't have effect.
Note
You can use this method in order to update the MBR of the point.
TerraLib extended method.

Implements te::gm::Geometry.

virtual bool te::gm::Geometry::contains ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if this geometry object spatially contains rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry spatially contains the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
virtual Geometry* te::gm::Geometry::convexHull ( ) const
throw (std::exception
)
virtualinherited

This method calculates the Convex Hull of a geometry.

Returns
A geometry representing the convex hull.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
The caller of this method will take the ownership of the returned geometry.
Performed by GEOS.

Referenced by te::rp::GetTPConvexHullArea().

virtual bool te::gm::Geometry::coveredBy ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if this geometry object is spatially covered by rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry is spatially covered by the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
TerraLib extended method.
This is not the same as within. See Max Egenhofer paper on 9-intersection matrix.
Performed by GEOS.
virtual bool te::gm::Geometry::covers ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if this geometry object spatially covers the rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry spatially covers the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
TerraLib extended method.
This is not the same as contains. See Max Egenhofer paper on 9-intersection matrix.
Performed by GEOS.
virtual bool te::gm::Geometry::crosses ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if the geometry object spatially crosses rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry spatially crosses the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
virtual Geometry* te::gm::Geometry::difference ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns a geometric object that represents the point set difference with another geometry.

Parameters
rhsAnother geometry whose difference with this geometry will be calculated.
Returns
A geometry representing the difference between the geometries.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
The caller of this method will take the ownership of the returned Geometry.
Performed by GEOS.
virtual bool te::gm::Geometry::disjoint ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if the geometry object is spatially disjoint from rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry is spatially disjoint from the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
virtual double te::gm::Geometry::distance ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns the shortest distance between any two points in the two geometry objects.

Parameters
rhsThe other geometry.
Returns
The shortest distance between any two points in the two geometries.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
Performed by GEOS.
virtual bool te::gm::Geometry::dWithin ( const Geometry *const  rhs,
const double &  distance 
) const
throw (std::exception
)
virtualinherited

It returns true if the geometries are within the specified distance.

Parameters
rhsThe other geometry whose symetric difference with this geometry will be calculated.
distanceThe distance.
Returns
True if the geometries are within the specified distance.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
TerraLib extended method.
Performed by GEOS.
virtual bool te::gm::Geometry::equals ( const Geometry *const  rhs,
const bool  exact = false 
) const
throw (std::exception
)
virtualinherited

It returns true if the geometry object is spatially equal to rhs geometry.

Parameters
rhsThe another geometry to be compared.
exactIf true checks if this geometric object has the same vertexes in the same order of rhs geometry.
Returns
True if the geometry is spatially equal to the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise an exception will be thrown.
Note
Performed by GEOS.
virtual Geometry* te::gm::Geometry::getBoundary ( ) const
throw (std::exception
)
virtualinherited

It returns the geometry boundary.

Returns
The geometry that makes the boundary of this geometry. The caller of this method will take the ownership of the returned geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
The caller of this method will take the ownership of the returned Geometry.
Performed by GEOS.
int te::gm::Geometry::getCoordinateDimension ( ) const
throw (
)
inherited

It returns the number of measurements or axes needed to describe a position in a coordinate system.

It returns:

  • 2 for a coordinate with x, y;
  • 3 for a coordinate with x, y and z or x, y and m;
  • 4 for a coordinate with x, y, z and m.
Returns
The number of measurements or axes needed to describe a position in a coordinate system.
Note
This is NOT the same as getDimension() method!
Dimensionality te::gm::AbstractPoint::getDimension ( ) const
throw (
)
virtualinherited

Points are 0-dimensional objects.

Returns
te::gm::P (0-dimensional)

Implements te::gm::Geometry.

Geometry* te::gm::Geometry::getEnvelope ( ) const
throw (
)
inherited

It returns the minimum bounding rectangle (MBR) for the geometry.

As one can notice, the mbr is returned as a geometry, actually a polygon defined by the corner points of the bounding box [(MINX, MINY), (MAXX, MINY), (MAXX, MAXY), (MINX, MAXY), (MINX, MINY)].

Returns
The geometry envelope (or mbr).
Note
The caller of this method will take the ownership of the returned geometry.
If the MBR was not computed previously, it will compute it. Successive calls to this method will not compute the mbr anymore.
const std::string& te::gm::AbstractPoint::getGeometryType ( ) const
throw (
)
virtualinherited

The name of instantiable subtype is: Point.

Returns
The name of instantiable subtype is: Point.

Implements te::gm::Geometry.

GeomType te::gm::Geometry::getGeomTypeId ( ) const
throw (
)
inlineinherited

It returns the geometry subclass type identifier.

Returns
The geometry subclass type identifier
Note
Please, see GeomType enumeration for possible return values.
TerraLib extended method.

Definition at line 178 of file Geometry.h.

Referenced by te::rst::PolygonIterator< T >::decompose(), and te::rst::PolygonIterator< T >::setNextLine().

static GeomType te::gm::Geometry::getGeomTypeId ( const std::string &  gtype)
staticinherited

It returns the TerraLib geometry type id given a type string (the type string must be in capital letters).

Parameters
stypeThe geometry type name.
Returns
The geometry type id equivalent to the string name.
Note
If the type is unknow it returns UnknownGeometryType.
const double& te::gm::PointM::getM ( ) const
inlinevirtual

It returns the Point z-coordinate value.

Returns
The z-coordinate value for this Point.

Reimplemented from te::gm::Point.

Definition at line 160 of file PointM.h.

const Envelope* te::gm::Geometry::getMBR ( ) const
throw (
)
inherited

It returns the minimum bounding rectangle for the geometry in an internal representation.

The mbr can be constructed when reading a geometry from a database or it can be computed internally. So, if the mbr is not already set it will compute it just when this method is called. Successive calls to this method will not compute the mbr anymore.

Returns
The envelope of this geometry (i.e., the minimum bounding rectangle).
Note
It is supposed to be faster and more useful than getting the box as a polygon geometry.
TerraLib extended method.

Referenced by te::rst::PolygonIterator< T >::PolygonIterator().

std::size_t te::gm::AbstractPoint::getNPoints ( ) const
throw (
)
inlinevirtualinherited

it returns the number of points (vertexes) in the geometry.

Returns
The number of points (vertexes) in the geometry.
Note
TerraLib extended method.

Implements te::gm::Geometry.

Definition at line 212 of file AbstractPoint.h.

int te::gm::Geometry::getSRID ( ) const
throw (
)
inlineinherited

It returns the Spatial Reference System ID associated to this geometric object.

This value can be used to identify the associated Spatial Reference System.

Returns
The Spatial Reference System ID associated to this geometric object.
Note
When not set this value will be -1.

Definition at line 189 of file Geometry.h.

Referenced by te::rst::PolygonIterator< T >::decompose(), te::rst::LineIterator< T >::LineIterator(), te::rst::PolygonIterator< T >::PolygonIterator(), and te::rst::PolygonIterator< T >::setNextLine().

int te::gm::Geometry::getTypeCode ( ) const
virtualinherited

It returns the data type code associated to the data value.

Returns
The data type code associated to the data value.

Implements te::dt::AbstractData.

void te::gm::Geometry::getWkb ( char *  wkb,
te::common::MachineByteOrder  byteOrder 
) const
throw (Exception
)
inherited

It serializes the geometry to a WKB representation into the specified buffer.

The wkb parameter must have at least getWkbSize() in order to be used. Don't pass a NULL pointer or a buffer smaller than the size needed. Note that the WKB will be on the specified byte order.

Parameters
wkbThe buffer where the Geometry will be serialized.
byteOrderThe byte order used to store/serialize the geometry.
Exceptions
ExceptionIt will throw an exception if the operation could not be performed.
Note
TerraLib extended method.
std::size_t te::gm::Geometry::getWkbSize ( ) const
throw (
)
inherited

It returns the size required by a WKB representation for this geometric object.

This is the preferred method for creating a WKB. First of all, it gives you the possibility to use a pre-allocated buffer. So, this method can be used in conjunction with the getWkb method.

Returns
The size required by a WKB representation for the geometry object.
Note
TerraLib extended method.
const double& te::gm::Point::getX ( ) const
inlinevirtualinherited

It returns the Point x-coordinate value.

Returns
The x-coordinate value for this Point.

Implements te::gm::AbstractPoint.

Definition at line 136 of file Point.h.

Referenced by te::rst::PolygonIterator< T >::decompose(), te::mnt::TinNode::getX(), te::rst::LineIterator< T >::LineIterator(), and te::rst::PolygonIterator< T >::setNextLine().

const double& te::gm::Point::getY ( ) const
inlinevirtualinherited

It returns the Point y-coordinate value.

Returns
The y-coordinate value for this Point.

Implements te::gm::AbstractPoint.

Definition at line 150 of file Point.h.

Referenced by te::rst::PolygonIterator< T >::decompose(), te::mnt::TinNode::getY(), te::rst::LineIterator< T >::LineIterator(), and te::rst::PolygonIterator< T >::setNextLine().

virtual const double& te::gm::Point::getZ ( ) const
inlinevirtualinherited

It returns the Point z-coordinate value, if it has one or DoubleNotANumber otherwise.

Returns
The z-coordinate value for this Point.

Implements te::gm::AbstractPoint.

Reimplemented in te::gm::PointZM, and te::gm::PointZ.

Definition at line 164 of file Point.h.

virtual Geometry* te::gm::Geometry::intersection ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns a geometric object that represents the point set intersection with another geometry.

Parameters
rhsThe other Geometry whose intersection with this Geometry will be calculated.
Returns
A Geometry representing the intersection with this Geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
The caller of this method will take the ownership of the returned Geometry.
Performed by GEOS.

Referenced by te::rst::LineIterator< T >::LineIterator(), and te::rst::PolygonIterator< T >::setNextLine().

virtual bool te::gm::Geometry::intersects ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if the geometry object spatially intersects rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry intersects the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
bool te::gm::Geometry::is3D ( ) const
throw (
)
inherited

It returns true if this geometric object has z coordinate values.

Returns
True if this geometric object has z coordinate values.
virtual bool te::gm::Geometry::isEmpty ( ) const
throw (std::exception
)
virtualinherited

It returns true if this geometric object is the empty Geometry.

If true, then this geometric object represents the empty point set for the coordinate space.

Returns
True if this geometric object is the empty Geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
Performed by GEOS.

Referenced by te::rst::PolygonIterator< T >::setNextLine().

static bool te::gm::Geometry::isGeomType ( const std::string &  stype)
staticinherited

It tells if the given string is a geometry data type.

Parameters
stypeThe geometry type to be checked.
Returns
True if the given string corresponds to a geometry type.
bool te::gm::Geometry::isMeasured ( ) const
throw (
)
inherited

It returns true if this geometric object has m coordinate values.

Returns
True if this geometric object has m coordinate values.
virtual bool te::gm::Geometry::isSimple ( ) const
throw (std::exception
)
virtualinherited

It returns true if this geometric object has no anomalous points, such as self intersection or self tangency.

See the ISO and OGC documentation for an explanation about specific conditions of each type of geometry to be considered not simple.

Returns
True if this geometric object has no anomalous geometric points.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
Performed by GEOS.
virtual bool te::gm::Geometry::isValid ( ) const
throw (std::exception
)
virtualinherited

It tells if the geometry is well formed.

Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Note
TerraLib extended method.
Performed by GEOS.
static void te::gm::Geometry::loadGeomTypeId ( )
staticinherited

It loads the internal MAP of geometry type names to geometry type ids.

Warning
Ths method will be automatically called when geometry module is initialized!
virtual Geometry* te::gm::Geometry::locateAlong ( const double &  mValue) const
throw (Exception
)
inlinevirtualinherited

It returns a derived GeometryCollection value according to the specified coordinate value.

Parameters
mValueThe coordinate value.
Returns
A GeometryCollection value.
Exceptions
ExceptionIt will throw an exception if the operation could not be performed.
Note
The caller of this method will take the ownership of the returned geometry.
This method only applies to Point and Line geometries, including homogeneu collections of points or lines. For polygons this will return a NULL value.

Definition at line 611 of file Geometry.h.

Geometry* te::gm::PointM::locateBetween ( const double &  mStart,
const double &  mEnd 
) const
throw (Exception
)
virtual

It returns a derived geometry collection value according to the range of coordinate values inclusively.

Parameters
mStartThe initial coordinate value.
mEndThe final coordinate value.
Returns
A GeometryCollection value.
Note
The caller of this method will take the ownership of geometry.
This method only applies to Point and Line geometries, including homogeneu collections of points or lines. For polygons this will return a NULL value.

Reimplemented from te::gm::Geometry.

bool te::gm::Point::operator< ( const Point rhs)
inherited

Less then operator.

Parameters
rhsThe source object to be compared.
Returns
True if the point have the coordinates values is less.
PointM& te::gm::PointM::operator= ( const PointM rhs)

Assignment operator.

Parameters
rhsThe other geometry.
Returns
A reference for this.
virtual bool te::gm::Geometry::overlaps ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if this geometry object spatially overlaps rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry spatially overlaps the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
virtual bool te::gm::Geometry::relate ( const Geometry *const  rhs,
const std::string &  matrix 
) const
throw (std::exception
)
virtualinherited

It returns true if this geometry object is spatially related to rhs geometry according to the pattern expressed by the intersection matrix.

It does this by testing for intersections between the interior, boundary and exterior of the two geometric objects as specified by the values in the matrix.

Parameters
rhsThe other geometry to be compared.
matrixThe intersection matrix.
Returns
True if the geometry is spatially related to the other geometry according to the pattern expressed by the intersection matrix.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
virtual std::string te::gm::Geometry::relate ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns the spatial relation between this geometry object and the rhs geometry.

Parameters
rhsThe another geometry to be compared.
Returns
A string where each byte is a intersection in the pattern intersection matrix of the relationship of the two objects.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
TerraLib extended method.
This method will be handy when you don't know the spatial relation in advance.
Performed by GEOS.
void te::gm::PointM::setM ( const double &  m)
inlinevirtual

It sets the Point z-coordinate value.

Parameters
zThe z-coordinate value for this Point.

Reimplemented from te::gm::Point.

Definition at line 167 of file PointM.h.

void te::gm::AbstractPoint::setSRID ( int  srid)
throw (
)
virtualinherited

It sets the Spatial Reference System ID of the Point.

Parameters
sridThe Spatial Reference System ID to be associated to the geometric object.
Note
TerraLib extended method.

Implements te::gm::Geometry.

void te::gm::Point::setX ( const double &  x)
inlinevirtualinherited

It sets the Point x-coordinate value.

Parameters
xThe x-coordinate value for this Point.

Implements te::gm::AbstractPoint.

Definition at line 143 of file Point.h.

Referenced by te::mnt::TinNode::Init(), and te::mnt::TinNode::setX().

void te::gm::Point::setY ( const double &  y)
inlinevirtualinherited

It sets the Point y-coordinate value.

Parameters
yThe y-coordinate value for this Point.

Implements te::gm::AbstractPoint.

Definition at line 157 of file Point.h.

Referenced by te::mnt::TinNode::Init(), and te::mnt::TinNode::setY().

virtual void te::gm::Point::setZ ( const double &  z)
virtualinherited

It sets the Point z-coordinate value.

Parameters
zThe z-coordinate value for this Point.

Implements te::gm::AbstractPoint.

Reimplemented in te::gm::PointZM, and te::gm::PointZ.

virtual Geometry* te::gm::Geometry::symDifference ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns a geometric object that represents the point set symetric difference with another geometry.

Parameters
rhsThe other geometry whose symetric difference with this geometry will be calculated.
Returns
A geometry representing the symetric difference with this geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
The caller of this method will take the ownership of the returned Geometry.
Performed by GEOS.
std::string te::gm::Geometry::toString ( void  ) const
inlinevirtualinherited

It returns the data value in a WKT representation.

Returns
The data value in a WKT representation.

Implements te::dt::AbstractData.

Definition at line 858 of file Geometry.h.

Referenced by te::rst::PolygonIterator< T >::decompose().

virtual bool te::gm::Geometry::touches ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if the geometry object spatially touches rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry spatially touches the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.
void te::gm::AbstractPoint::transform ( int  srid)
throw (te::common::Exception
)
virtualinherited

It converts the coordinate values of the point to the new spatial reference system.

After calling this method the point will be associated to the new SRID.

Parameters
sridThe new Spatial Reference System ID used to transform the coordinates of the point.
Exceptions
ExceptionIt will throw an exception if it can not do the transformation.
Note
The point must be associated to a valid SRID before calling this method.
If the point already has an associated MBR, this method will automatically update it (i. e. automatically recompute it).

Implements te::gm::Geometry.

virtual Geometry* te::gm::Geometry::Union ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns a geometric object that represents the point set union with another geometry.

Parameters
rhsAnother geometry whose union with this geometry will be calculated.
Returns
A geometry representing the union with this geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
The caller of this method will take the ownership of the returned Geometry.
Performed by GEOS.
virtual bool te::gm::Geometry::within ( const Geometry *const  rhs) const
throw (std::exception
)
virtualinherited

It returns true if the geometry object is spatially within rhs geometry.

Parameters
rhsThe other geometry to be compared.
Returns
True if the geometry is spatially within the other geometry.
Exceptions
std::exceptionIt will throw an exception if the operation could not be performed.
Warning
Don't call this method for a Heterogeneous GeometryCollection, otherwise, an exception will be thrown.
Note
Performed by GEOS.

Member Data Documentation

GeomType te::gm::Geometry::m_gType
protectedinherited

Internal geometry type.

Definition at line 864 of file Geometry.h.

double te::gm::PointM::m_m
private

The Point m-coordinate value.

Definition at line 173 of file PointM.h.

Envelope* te::gm::Geometry::m_mbr
mutableprotectedinherited

The geometry minimum bounding rectangle.

Definition at line 866 of file Geometry.h.

int te::gm::Geometry::m_srid
protectedinherited

The Spatial Reference System code associated to the Geometry.

Definition at line 865 of file Geometry.h.

double te::gm::Point::m_x
protectedinherited

The Point x-coordinate value.

Definition at line 229 of file Point.h.

double te::gm::Point::m_y
protectedinherited

The Point y-coordinate value.

Definition at line 230 of file Point.h.

std::map<std::string, GeomType> te::gm::Geometry::sm_geomTypeMap
staticprotectedinherited

A set of geometry type names (in UPPER CASE).

Definition at line 868 of file Geometry.h.

const double te::gm::Point::sm_notNumber
staticprotectedinherited

Just a special value to return in the case of a invalid Geometry.

Definition at line 233 of file Point.h.

const std::string te::gm::Point::sm_typeName
staticprotectedinherited

Geometry type name for Point.

Definition at line 232 of file Point.h.


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