#include <geos.h>
Public Types | |
typedef std::vector< const Polygon * > | ConstVect |
A vector of const Polygon pointers. | |
Public Member Functions | |
virtual Geometry * | clone () const |
Make a deep-copy of this Geometry. | |
CoordinateSequence * | getCoordinates () const |
Returns this Geometry vertices. Caller takes ownership of the returned object. | |
size_t | getNumPoints () const |
Returns the count of this Geometrys vertices. | |
Dimension::DimensionType | getDimension () const |
Returns surface dimension (2). | |
int | getBoundaryDimension () const |
Returns 1 (Polygon boundary is a MultiLineString). | |
Geometry * | getBoundary () const |
Returns a MultiLineString. One LineString for the shell and one for each hole. Empty for an empty Polygon. | |
bool | isEmpty () const |
Returns whether or not the set of points in this Geometry is empty. | |
bool | isSimple () const |
Tests if a valid polygon is simple. This method always returns true, since a valid polygon is always simple. | |
const LineString * | getExteriorRing () const |
Returns the exterior ring (shell). | |
size_t | getNumInteriorRing () const |
Returns number of interior rings (hole). | |
const LineString * | getInteriorRingN (size_t n) const |
Get nth interior ring (hole). | |
std::string | getGeometryType () const |
Return a string representation of this Geometry type. | |
virtual GeometryTypeId | getGeometryTypeId () const |
Return an integer representation of this Geometry type. | |
bool | equalsExact (const Geometry *other, double tolerance=0) const |
Returns true if the two Geometrys are exactly equal, up to a specified tolerance. | |
void | apply_rw (const CoordinateFilter *filter) |
void | apply_ro (CoordinateFilter *filter) const |
void | apply_rw (GeometryFilter *filter) |
void | apply_ro (GeometryFilter *filter) const |
Geometry * | convexHull () const |
Returns the smallest convex Polygon that contains all the points in the Geometry. | |
void | normalize () |
Converts this Geometry to normal form (or canonical form). | |
int | compareToSameClass (const Geometry *p) const |
const Coordinate * | getCoordinate () const |
Returns a vertex of this Geometry, or NULL if this is the empty geometry. | |
double | getArea () const |
Returns the area of this Geometry. | |
double | getLength () const |
Returns the perimeter of this Polygon . | |
void | apply_rw (GeometryComponentFilter *filter) |
void | apply_ro (GeometryComponentFilter *filter) const |
bool | isRectangle () const |
Protected Member Functions | |
Polygon (const Polygon &p) | |
Polygon (LinearRing *newShell, std::vector< Geometry * > *newHoles, const GeometryFactory *newFactory) | |
Envelope::AutoPtr | computeEnvelopeInternal () const |
Protected Attributes | |
LinearRing * | shell |
std::vector< Geometry * > * | holes |
Friends | |
class | GeometryFactory |
The shell and holes of the polygon are represented by LinearRings. In a valid polygon, holes may touch the shell or other holes at a single point. However, no sequence of touching holes may split the polygon into two pieces. The orientation of the rings in the polygon does not matter.
The shell and holes must conform to the assertions specified in the OpenGIS Simple Features Specification for SQL .
geos::geom::Polygon::Polygon | ( | LinearRing * | newShell, | |
std::vector< Geometry * > * | newHoles, | |||
const GeometryFactory * | newFactory | |||
) | [protected] |
Constructs a Polygon
with the given exterior and interior boundaries.
newShell | the outer boundary of the new Polygon, or null or an empty LinearRing if the empty geometry is to be created. | |
newHoles | the LinearRings defining the inner boundaries of the new Polygon, or null or empty LinearRing if the empty geometry is to be created. | |
newFactory | the GeometryFactory used to create this geometry |
bool geos::geom::Polygon::isSimple | ( | ) | const [virtual] |
Tests if a valid polygon is simple. This method always returns true, since a valid polygon is always simple.
true
Implements geos::geom::Geometry.
bool geos::geom::Polygon::isRectangle | ( | ) | const [virtual] |