api/3.28/qgsdualedgetriangulation_8h_source.html

/**************************************************************************

                          QgsDualEdgeTriangulation.h  -  description

                             -------------------

    copyright            : (C) 2004 by Marco Hugentobler

    email                : [email protected]

 ***************************************************************************/


/***************************************************************************

 *                                                                         *

 *   This program is free software; you can redistribute it and/or modify  *

 *   it under the terms of the GNU General Public License as published by  *

 *   the Free Software Foundation; either version 2 of the License, or     *

 *   (at your option) any later version.                                   *

 *                                                                         *

 ***************************************************************************/


#ifndef DUALEDGETRIANGULATION_H

#define DUALEDGETRIANGULATION_H


#include <QVector>

#include <QList>

#include <QSet>

#include <QColor>

#include <QFile>

#include <QTextStream>

#include <QMessageBox>

#include <QBuffer>

#include <QStringList>

#include <QCursor>


#include <cfloat>


#include "qgis_sip.h"

#include "qgis_analysis.h"

#include "qgspoint.h"


#include "qgstriangulation.h"

#include "HalfEdge.h"


#define SIP_NO_FILE


class ANALYSIS_EXPORT QgsDualEdgeTriangulation: public QgsTriangulation

{

  public:

    QgsDualEdgeTriangulation();

    QgsDualEdgeTriangulation( int nop );

    ~QgsDualEdgeTriangulation() override;

    void addLine( const QVector< QgsPoint > &points, QgsInterpolator::SourceType lineType ) override;

    int addPoint( const QgsPoint &p ) override;

    void performConsistencyTest() override;

    bool calcNormal( double x, double y, QgsPoint &result SIP_OUT ) override;

    bool calcPoint( double x, double y, QgsPoint &result SIP_OUT ) override;

    //virtual void draw(QPainter* p, double xlowleft, double ylowleft, double xupright, double yupright, double width, double height) const;

    QgsPoint *point( int i ) const override;

    int oppositePoint( int p1, int p2 ) override;

    bool triangleVertices( double x, double y, QgsPoint &p1 SIP_OUT, int &n1 SIP_OUT, QgsPoint &p2 SIP_OUT, int &n2 SIP_OUT, QgsPoint &p3 SIP_OUT, int &n3 SIP_OUT ) override;

    bool triangleVertices( double x, double y, QgsPoint &p1 SIP_OUT, QgsPoint &p2 SIP_OUT, QgsPoint &p3 SIP_OUT ) override;

    QList<int> surroundingTriangles( int pointno ) override;

    double xMax() const override { return mXMax; }

    double xMin() const override { return mXMin; }

    double yMax() const override { return mYMax; }

    double yMin() const override { return mYMin; }

    int pointsCount() const override;

    void setForcedCrossBehavior( QgsTriangulation::ForcedCrossBehavior b ) override;

    void setTriangleInterpolator( TriangleInterpolator *interpolator ) override;

    void eliminateHorizontalTriangles() override;

    void ruppertRefinement() override;

    bool pointInside( double x, double y ) override;

    bool swapEdge( double x, double y ) override;

    QList<int> pointsAroundEdge( double x, double y ) override;


    bool saveTriangulation( QgsFeatureSink *sink, QgsFeedback *feedback = nullptr ) const override;


    virtual QgsMesh triangulationToMesh( QgsFeedback *feedback = nullptr ) const override;


  private:

    double mXMax = 0;

    double mXMin = 0;

    double mYMax = 0;

    double mYMin = 0;

    static const unsigned int DEFAULT_STORAGE_FOR_POINTS = 100000;

    QVector<QgsPoint *> mPointVector;

    static const unsigned int DEFAULT_STORAGE_FOR_HALF_EDGES = 300006;

    QVector<HalfEdge *> mHalfEdge;

    TriangleInterpolator *mTriangleInterpolator = nullptr;

    QgsTriangulation::ForcedCrossBehavior mForcedCrossBehavior = QgsTriangulation::DeleteFirst;

    unsigned int insertEdge( int dual, int next, int point, bool mbreak, bool forced );

    int insertForcedSegment( int p1, int p2, QgsInterpolator::SourceType segmentType );

    static const int MAX_BASE_ITERATIONS = 300000;

    int baseEdgeOfPoint( int point );


    int baseEdgeOfTriangle( const QgsPoint &point );

    bool checkSwapRecursively( unsigned int edge, unsigned int recursiveDeep );

    bool isEdgeNeedSwap( unsigned int edge ) const;

    void doSwapRecursively( unsigned int edge, unsigned int recursiveDeep );

    void doOnlySwap( unsigned int edge );

    unsigned int mEdgeInside = 0;

    int mEdgeOutside = -1;

    unsigned int mEdgeWithPoint = 0;

    unsigned int mUnstableEdge = 0;

    int mTwiceInsPoint = 0;

    bool swapPossible( unsigned int edge ) const;

    void triangulatePolygon( QList<int> *poly, QList<int> *free, int mainedge );

    bool halfEdgeBBoxTest( int edge, double xlowleft, double ylowleft, double xupright, double yupright ) const;

    double swapMinAngle( int edge ) const;

    int splitHalfEdge( int edge, float position );

    bool edgeOnConvexHull( int edge );

    void evaluateInfluenceRegion( QgsPoint *point, int edge, QSet<int> &set );

    int mDimension = -1;


    int firstEdgeOutSide();


    void removeLastPoint();


    friend class TestQgsInterpolator;

};


#ifndef SIP_RUN


inline QgsDualEdgeTriangulation::QgsDualEdgeTriangulation()

{

  mPointVector.reserve( DEFAULT_STORAGE_FOR_POINTS );

  mHalfEdge.reserve( DEFAULT_STORAGE_FOR_HALF_EDGES );

}


inline QgsDualEdgeTriangulation::QgsDualEdgeTriangulation( int nop )

{

  mPointVector.reserve( nop );

  mHalfEdge.reserve( nop );

}


inline int QgsDualEdgeTriangulation::pointsCount() const

{

  return mPointVector.count();

}


inline QgsPoint *QgsDualEdgeTriangulation::point( int i ) const

{

  if ( i < 0 || i >= mPointVector.count() )

    return nullptr;


  return mPointVector.at( i );

}


inline bool QgsDualEdgeTriangulation::halfEdgeBBoxTest( int edge, double xlowleft, double ylowleft, double xupright, double yupright ) const

{

  return (

           ( point( mHalfEdge[edge]->getPoint() )->x() >= xlowleft &&

             point( mHalfEdge[edge]->getPoint() )->x() <= xupright &&

             point( mHalfEdge[edge]->getPoint() )->y() >= ylowleft &&

             point( mHalfEdge[edge]->getPoint() )->y() <= yupright ) ||

           ( point( mHalfEdge[mHalfEdge[edge]->getDual()]->getPoint() )->x() >= xlowleft &&

             point( mHalfEdge[mHalfEdge[edge]->getDual()]->getPoint() )->x() <= xupright &&

             point( mHalfEdge[mHalfEdge[edge]->getDual()]->getPoint() )->y() >= ylowleft &&

             point( mHalfEdge[mHalfEdge[edge]->getDual()]->getPoint() )->y() <= yupright )

         );

}


#endif

#endif


HalfEdge.h

QgsDualEdgeTriangulation
DualEdgeTriangulation is an implementation of a triangulation class based on the dual edge data struc...
Definition: qgsdualedgetriangulation.h:50

QgsDualEdgeTriangulation::point
QgsPoint * point(int i) const override
Draws the points, edges and the forced lines.
Definition: qgsdualedgetriangulation.h:200

QgsDualEdgeTriangulation::yMax
double yMax() const override
Returns the largest y-coordinate value of the bounding box.
Definition: qgsdualedgetriangulation.h:76

QgsDualEdgeTriangulation::pointsCount
int pointsCount() const override
Returns the number of points.
Definition: qgsdualedgetriangulation.h:195

QgsDualEdgeTriangulation::xMax
double xMax() const override
Returns the largest x-coordinate value of the bounding box.
Definition: qgsdualedgetriangulation.h:72

QgsDualEdgeTriangulation::xMin
double xMin() const override
Returns the smallest x-coordinate value of the bounding box.
Definition: qgsdualedgetriangulation.h:74

QgsDualEdgeTriangulation::yMin
double yMin() const override
Returns the smallest x-coordinate value of the bounding box.
Definition: qgsdualedgetriangulation.h:78

QgsDualEdgeTriangulation::QgsDualEdgeTriangulation
QgsDualEdgeTriangulation()
Definition: qgsdualedgetriangulation.h:183

QgsFeatureSink
An interface for objects which accept features via addFeature(s) methods.
Definition: qgsfeaturesink.h:34

QgsFeedback
Base class for feedback objects to be used for cancellation of something running in a worker thread.
Definition: qgsfeedback.h:45

QgsInterpolator::SourceType
SourceType
Describes the type of input data.
Definition: qgsinterpolator.h:80

QgsPoint
Point geometry type, with support for z-dimension and m-values.
Definition: qgspoint.h:49

QgsTriangulation
Interface for Triangulation classes.
Definition: qgstriangulation.h:42

QgsTriangulation::calcNormal
virtual bool calcNormal(double x, double y, QgsPoint &result)=0
Calculates the normal at a point on the surface and assigns it to 'result'.

QgsTriangulation::triangulationToMesh
virtual QgsMesh triangulationToMesh(QgsFeedback *feedback=nullptr) const =0
Returns a QgsMesh corresponding to the triangulation.

QgsTriangulation::eliminateHorizontalTriangles
virtual void eliminateHorizontalTriangles()=0
Eliminates the horizontal triangles by swapping.

QgsTriangulation::performConsistencyTest
virtual void performConsistencyTest()=0
Performs a consistency check, remove this later.

QgsTriangulation::ruppertRefinement
virtual void ruppertRefinement()=0
Adds points to make the triangles better shaped (algorithm of ruppert)

QgsTriangulation::pointsCount
virtual int pointsCount() const =0
Returns the number of points.

QgsTriangulation::ForcedCrossBehavior
ForcedCrossBehavior
Enumeration describing the behavior, if two forced lines cross.
Definition: qgstriangulation.h:46

QgsTriangulation::DeleteFirst
@ DeleteFirst
The status of the first inserted forced line is reset to that of a normal edge (so that the second in...
Definition: qgstriangulation.h:48

QgsTriangulation::saveTriangulation
virtual bool saveTriangulation(QgsFeatureSink *sink, QgsFeedback *feedback=nullptr) const =0
Saves the triangulation features to a feature sink.

QgsTriangulation::point
virtual QgsPoint * point(int i) const =0
Returns a pointer to the point with number i.

QgsTriangulation::addLine
virtual void addLine(const QgsPointSequence &points, QgsInterpolator::SourceType lineType)=0
Adds a line (e.g.

QgsTriangulation::pointsAroundEdge
virtual QList< int > pointsAroundEdge(double x, double y)=0
Returns a value list with the numbers of the four points, which would be affected by an edge swap.

QgsTriangulation::calcPoint
virtual bool calcPoint(double x, double y, QgsPoint &result)=0
Calculates x-, y and z-value of the point on the surface and assigns it to 'result'.

QgsTriangulation::oppositePoint
virtual int oppositePoint(int p1, int p2)=0
Returns the number of the point opposite to the triangle points p1, p2 (which have to be on a halfedg...

QgsTriangulation::addPoint
virtual int addPoint(const QgsPoint &point)=0
Adds a point to the triangulation.

QgsTriangulation::swapEdge
virtual bool swapEdge(double x, double y)=0
Reads the content of a taff-file.

QgsTriangulation::setTriangleInterpolator
virtual void setTriangleInterpolator(TriangleInterpolator *interpolator)=0
Sets an interpolator object.

QgsTriangulation::triangleVertices
virtual bool triangleVertices(double x, double y, QgsPoint &p1, int &n1, QgsPoint &p2, int &n2, QgsPoint &p3, int &n3)=0
Finds out in which triangle the point with coordinates x and y is and assigns the numbers of the vert...

QgsTriangulation::surroundingTriangles
virtual QList< int > surroundingTriangles(int pointno)=0
Returns a value list with the information of the triangles surrounding (counterclockwise) a point.

QgsTriangulation::setForcedCrossBehavior
virtual void setForcedCrossBehavior(QgsTriangulation::ForcedCrossBehavior b)=0
Draws the points, edges and the forced lines.

QgsTriangulation::pointInside
virtual bool pointInside(double x, double y)=0
Returns true, if the point with coordinates x and y is inside the convex hull and false otherwise.

TriangleInterpolator
This is an interface for interpolator classes for triangulations.
Definition: TriangleInterpolator.h:35

qgis_sip.h

SIP_OUT
#define SIP_OUT
Definition: qgis_sip.h:58

qgspoint.h

qgstriangulation.h

QgsMesh
Mesh - vertices, edges and faces.
Definition: qgsmeshdataprovider.h:59