/usr/include/osgEarthSymbology/Geometry is in libosgearth-dev 2.5.0+dfsg-2+b2.
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/* osgEarth - Dynamic map generation toolkit for OpenSceneGraph
* Copyright 2008-2013 Pelican Mapping
* http://osgearth.org
*
* osgEarth is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>
*/
#ifndef OSGEARTHSYMBOLOGY_GEOMETRY_H
#define OSGEARTHSYMBOLOGY_GEOMETRY_H 1
#include <osgEarthSymbology/Common>
#include <osgEarth/GeoData>
#include <osgEarth/Containers>
#include <vector>
#include <stack>
namespace osgEarth { namespace Symbology
{
using namespace osgEarth;
/** Options for the Geometry::buffer() operation. */
class BufferParameters
{
public:
enum CapStyle { CAP_DEFAULT, CAP_SQUARE, CAP_ROUND, CAP_FLAT };
enum JoinStyle { JOIN_ROUND, JOIN_MITRE, JOIN_BEVEL};
BufferParameters( CapStyle capStyle =CAP_DEFAULT, JoinStyle joinStyle = JOIN_ROUND, int cornerSegs =0, bool singleSided=false, bool leftSide=false )
: _capStyle(capStyle), _joinStyle(joinStyle),_cornerSegs(cornerSegs), _singleSided(singleSided), _leftSide(leftSide) { }
CapStyle _capStyle;
JoinStyle _joinStyle;
int _cornerSegs; // # of line segment making up a rounded corner
bool _singleSided; //Whether or not to do a single sided buffer
bool _leftSide; //If doing a single sided buffer are we buffering to the left? If false, buffer to the right
};
typedef std::vector<osg::Vec3d> Vec3dVector;
/**
* Baseline geometry class. All Geometry objects derive from this
* class, even MultiGeometry.
*/
class OSGEARTHSYMBOLOGY_EXPORT Geometry : public osgEarth::MixinVector<osg::Vec3d,osg::Referenced>
{
public:
Geometry( int capacity =0 );
Geometry( const Geometry& rhs );
Geometry( const Vec3dVector* toCopy );
/** dtor - intentionally public */
virtual ~Geometry();
public:
enum Type {
TYPE_UNKNOWN,
TYPE_POINTSET,
TYPE_LINESTRING,
TYPE_RING,
TYPE_POLYGON,
TYPE_MULTI
};
enum Orientation {
ORIENTATION_CCW,
ORIENTATION_CW,
ORIENTATION_DEGENERATE
};
static std::string toString( Type t ) {
return
t == TYPE_POINTSET ? "pointset" :
t == TYPE_LINESTRING ? "linestring" :
t == TYPE_RING ? "ring" :
t == TYPE_POLYGON ? "polygon" :
t == TYPE_MULTI ? "multi" :
"unknown";
}
/** Creates a geometry from a vector array */
static Geometry* create( Type type, const Vec3dVector* toCopy );
// true if osgEarth is compiled for buffering
static bool hasBufferOperation();
public:
/**
* Gets the total number of points in this geometry.
*/
virtual int getTotalPointCount() const;
/**
* Gets the total number of geometry components
*/
virtual unsigned getNumComponents() const { return 1; }
/**
* Gets the total number of geometries; it is the total of all parts of all
* components. Also can be seen as the number of Geometry objects that would
* be returned by a full GeometryIterator.
*/
virtual unsigned getNumGeometries() const { return 1; }
/**
* Converts this geometry to another type. This function will return "this" if
* the type is the same, and will return NULL if the conversion is impossible.
*/
virtual Geometry* cloneAs( const Geometry::Type& newType ) const;
/**
* Creates a new Vec3Array (single-precision), copies the part into it, and
* returns the new object.
*/
osg::Vec3Array* toVec3Array() const;
/**
* Creates a new Vec3dArray (double-precision), copies the part into it, and
* returns the new object.
*/
osg::Vec3dArray* toVec3dArray() const;
/**
* Gets the bounds of this geometry
*/
virtual Bounds getBounds() const;
/**
* Whether the geometry is lines
*/
bool isLinear() const { return getComponentType() == TYPE_LINESTRING || getComponentType() == TYPE_RING; }
/**
* Runs a buffer (dialate/erode) operation on this geometry and returns the
* result in the output parameter. Returns true if the op succeeded.
*/
bool buffer(
double distance,
osg::ref_ptr<Geometry>& output,
const BufferParameters& bp =BufferParameters() ) const;
/**
* Crops this geometry to the region represented by the crop polygon, returning
* the result in the output parameter. Returns true if the op succeeded.
*/
bool crop(
const class Polygon* cropPolygon,
osg::ref_ptr<Geometry>& output ) const;
/**
* Boolean difference - subtracts diffPolygon from this geometry, and put the
* result in output.
*/
bool difference(
const class Polygon* diffPolygon,
osg::ref_ptr<Geometry>& output ) const;
/**
* Localizes this geometry relative to its centroid, and returns the localization
* offset.
*/
osg::Vec3d localize();
/**
* Reverses a call the localize(), given the same offset returned by that method.
*/
void delocalize( const osg::Vec3d& offset );
/**
* Reorders the points in the geometry so that, if the last point was connected
* to the first in a ring, they would be would in the specified direction.
*/
virtual void rewind( Orientation ori );
/**
* Get the winding orientation of the geometry (if you consider the last point
* to connect back to the first in a ring.)
*/
Orientation getOrientation() const;
public:
virtual Type getType() const { return TYPE_UNKNOWN; }
virtual Type getComponentType() const { return getType(); }
virtual bool isValid() const { return size() >= 1; }
virtual Geometry* clone() const { return cloneAs(getType()); }
void push_back(const osg::Vec3d& v ) {
osgEarth::MixinVector<osg::Vec3d,osg::Referenced>::push_back(v); }
void push_back(double x, double y) {
osgEarth::MixinVector<osg::Vec3d,osg::Referenced>::push_back(osg::Vec3d(x,y,0.)); }
void push_back(double x, double y, double z) {
osgEarth::MixinVector<osg::Vec3d,osg::Referenced>::push_back(osg::Vec3d(x,y,z)); }
protected:
};
typedef std::vector< osg::ref_ptr<Geometry> > GeometryCollection;
/**
* An unordered collections of points.
*/
class OSGEARTHSYMBOLOGY_EXPORT PointSet : public Geometry
{
public:
PointSet( int capacity =0 ) : Geometry( capacity ) { }
PointSet( const Vec3dVector* toCopy ) : Geometry( toCopy ) { }
PointSet( const PointSet& rhs );
/** dtor */
virtual ~PointSet();
public:
virtual Type getType() const { return Geometry::TYPE_POINTSET; }
};
/**
* An ordered set of points forming a single contiguous line string.
*/
class OSGEARTHSYMBOLOGY_EXPORT LineString : public Geometry
{
public:
LineString( int capacity =0 ) : Geometry( capacity ) { }
LineString( const LineString& rhs );
LineString( const Vec3dVector* toCopy );
/** dtor */
virtual ~LineString();
double getLength() const;
bool getSegment(double length, osg::Vec3d& start, osg::Vec3d& end);
public:
virtual Type getType() const { return Geometry::TYPE_LINESTRING; }
virtual bool isValid() const { return size() >= 2; }
};
/**
* A Ring is a closed region. It is open (the first and last
* points are not the same). It has an orientation, i.e. it is either
* wound clockwise or counter-clockwise.
*/
class OSGEARTHSYMBOLOGY_EXPORT Ring : public Geometry
{
public:
Ring( int capacity =0 ) : Geometry( capacity ) { }
Ring( const Ring& ring );
Ring( const Vec3dVector* toCopy );
/** dtor */
virtual ~Ring();
// override
virtual Geometry* cloneAs( const Geometry::Type& newType ) const;
// tests whether the point falls withing the ring
virtual bool contains2D( double x, double y ) const;
// gets the signed area of a part that is known to be open.
virtual double getSignedArea2D() const;
// ensures that the first and last points are not idential.
virtual void open();
// ensures that the first and last points are identical.
virtual void close();
// opens and winds the ring in the specified direction
virtual void rewind( Orientation ori );
public:
virtual Type getType() const { return Geometry::TYPE_RING; }
virtual bool isValid() const { return size() >= 3; }
};
typedef std::vector<osg::ref_ptr<Ring> > RingCollection;
/**
* A Polygon is a geometry that consists of one outer boundary Ring, and
* zero or more inner "hole" rings. The boundary ring is would CCW, and the
* inner "holes" are wound CW.
*/
class OSGEARTHSYMBOLOGY_EXPORT Polygon : public Ring
{
public:
Polygon( int capacity =0 ) : Ring( capacity ) { }
Polygon( const Polygon& rhs );
Polygon( const Vec3dVector* toCopy );
/** dtor */
virtual ~Polygon();
public:
virtual Type getType() const { return Geometry::TYPE_POLYGON; }
virtual int getTotalPointCount() const;
virtual unsigned getNumGeometries() const { return 1 + _holes.size(); }
// tests whether the point falls withing the polygon (but not its holes)
virtual bool contains2D( double x, double y ) const;
virtual void open();
virtual void close();
public:
RingCollection& getHoles() { return _holes; }
const RingCollection& getHoles() const { return _holes; }
protected:
RingCollection _holes;
};
/**
* A collection of multiple geometries (aka, a "multi-part" geometry).
*/
class OSGEARTHSYMBOLOGY_EXPORT MultiGeometry : public Geometry
{
public:
MultiGeometry() { }
MultiGeometry( const GeometryCollection& parts );
MultiGeometry( const MultiGeometry& rhs );
/** dtor */
virtual ~MultiGeometry();
public:
virtual Type getType() const { return Geometry::TYPE_MULTI; }
virtual Type getComponentType() const;
virtual int getTotalPointCount() const;
virtual unsigned getNumComponents() const { return _parts.size(); }
virtual unsigned getNumGeometries() const;
// override
virtual Geometry* cloneAs( const Geometry::Type& newType ) const;
virtual bool isValid() const;
virtual Bounds getBounds() const;
virtual void rewind( Orientation ori );
public:
GeometryCollection& getComponents() { return _parts; }
const GeometryCollection& getComponents() const { return _parts; }
Geometry* add( Geometry* geom ) { _parts.push_back(geom); return geom; }
protected:
GeometryCollection _parts;
};
/**
* Iterates over a Geometry object, returning each component Geometry
* in turn. The iterator automatically traverses MultiGeometry objects,
* returning their components. The interator NEVER returns an actual
* MultiGeometry object.
*/
class OSGEARTHSYMBOLOGY_EXPORT GeometryIterator
{
public:
/**
* New iterator.
*
* traversePolyHoles: set to TRUE to return Polygons AND Polygon hole geometries;
* set to FALSE to only return Polygon (outer ring).
*
* traverseMultiGeometry: set to TRUE to return MG children, but never an MG itself;
* set to FALSE to return MGs and NOT their children.
*/
GeometryIterator(
Geometry* geom,
bool traversePolygonHoles =true );
bool hasMore() const;
Geometry* next();
private:
Geometry* _next;
std::stack<Geometry*> _stack;
bool _traverseMulti;
bool _traversePolyHoles;
void fetchNext();
};
class OSGEARTHSYMBOLOGY_EXPORT ConstGeometryIterator
{
public:
/**
* New iterator.
*
* traversePolyHoles: set to TRUE to return Polygons AND Polygon hole geometries;
* set to FALSE to only return Polygon (outer ring).
*
* traverseMultiGeometry: set to TRUE to return MG children, but never an MG itself;
* set to FALSE to return MGs and NOT their children.
*/
ConstGeometryIterator(
const Geometry* geom,
bool traversePolygonHoles =true );
bool hasMore() const;
const Geometry* next();
private:
const Geometry* _next;
std::stack<const Geometry*> _stack;
bool _traverseMulti;
bool _traversePolyHoles;
void fetchNext();
};
typedef std::pair<osg::Vec3d, osg::Vec3d> Segment;
class OSGEARTHSYMBOLOGY_EXPORT ConstSegmentIterator
{
public:
ConstSegmentIterator( const Geometry* verts, bool forceClosedLoop =false );
bool hasMore() const { return !_done; }
Segment next();
private:
const Vec3dVector* _verts;
Vec3dVector::const_iterator _iter;
bool _done;
bool _closeLoop;
};
typedef std::vector<osg::ref_ptr<Geometry> > GeometryList;
} } // namespace osgEarth::Symbology
#endif // OSGEARTHSYMBOLOGY_GEOMETRY_H
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