api/3.4/qgsellipse_8cpp_source.html

 /***************************************************************************
                          qgsellipse.cpp
                          --------------
     begin                : March 2017
     copyright            : (C) 2017 by Loîc Bartoletti
     email                : lbartoletti at tuxfamily dot org
  ***************************************************************************/

 /***************************************************************************
  *                                                                         *
  *   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.                                   *
  *                                                                         *
  ***************************************************************************/

 #include "qgsunittypes.h"
 #include "qgslinestring.h"
 #include "qgsellipse.h"
 #include "qgsgeometryutils.h"

 #include <memory>
 #include <limits>

 void QgsEllipse::normalizeAxis()
 {
   mSemiMajorAxis = std::fabs( mSemiMajorAxis );
   mSemiMinorAxis = std::fabs( mSemiMinorAxis );
   if ( mSemiMajorAxis < mSemiMinorAxis )
   {
     std::swap( mSemiMajorAxis, mSemiMinorAxis );
     mAzimuth = 180.0 / M_PI *
                QgsGeometryUtils::normalizedAngle( M_PI / 180.0 * ( mAzimuth + 90 ) );
   }
 }

 QgsEllipse::QgsEllipse( const QgsPoint &center, const double axis_a, const double axis_b, const double azimuth )
   : mCenter( center )
   , mSemiMajorAxis( axis_a )
   , mSemiMinorAxis( axis_b )
   , mAzimuth( azimuth )
 {
   normalizeAxis();
 }

 QgsEllipse QgsEllipse::fromFoci( const QgsPoint &pt1, const QgsPoint &pt2, const QgsPoint &pt3 )
 {
   double dist_p1p2 = pt1.distance( pt2 );
   double dist_p1p3 = pt1.distance( pt3 );
   double dist_p2p3 = pt2.distance( pt3 );

   double dist = dist_p1p3 + dist_p2p3;
   double azimuth = 180.0 / M_PI * QgsGeometryUtils::lineAngle( pt1.x(), pt1.y(), pt2.x(), pt2.y() );
   QgsPoint center = QgsGeometryUtils::midpoint( pt1, pt2 );

   double axis_a = dist / 2.0;
   double axis_b = std::sqrt( std::pow( axis_a, 2.0 ) - std::pow( dist_p1p2 / 2.0, 2.0 ) );

   QgsGeometryUtils::setZValueFromPoints( QgsPointSequence() << pt1 << pt2 << pt3, center );

   return QgsEllipse( center, axis_a, axis_b, azimuth );
 }

 QgsEllipse QgsEllipse::fromExtent( const QgsPoint &pt1, const QgsPoint &pt2 )
 {
   QgsPoint center = QgsGeometryUtils::midpoint( pt1, pt2 );
   double axis_a = std::fabs( pt2.x() - pt1.x() ) / 2.0;
   double axis_b = std::fabs( pt2.y() - pt1.y() ) / 2.0;
   double azimuth = 90.0;

   QgsGeometryUtils::setZValueFromPoints( QgsPointSequence() << pt1 << pt2, center );

   return QgsEllipse( center, axis_a, axis_b, azimuth );
 }

 QgsEllipse QgsEllipse::fromCenterPoint( const QgsPoint &center, const QgsPoint &pt1 )
 {
   double axis_a = std::fabs( pt1.x() - center.x() );
   double axis_b = std::fabs( pt1.y() - center.y() );
   double azimuth = 90.0;

   QgsPoint centerPt( center );
   QgsGeometryUtils::setZValueFromPoints( QgsPointSequence() << center << pt1, centerPt );

   return QgsEllipse( centerPt, axis_a, axis_b, azimuth );
 }

 QgsEllipse QgsEllipse::fromCenter2Points( const QgsPoint &center, const QgsPoint &pt1, const QgsPoint &pt2 )
 {
   double azimuth = 180.0 / M_PI * QgsGeometryUtils::lineAngle( center.x(), center.y(), pt1.x(), pt1.y() );
   double axis_a = center.distance( pt1 );

   double length = pt2.distance( QgsGeometryUtils::projectPointOnSegment( pt2, center, pt1 ) );
   QgsPoint pp = center.project( length, 90 + azimuth );
   double axis_b = center.distance( pp );

   QgsPoint centerPt( center );
   QgsGeometryUtils::setZValueFromPoints( QgsPointSequence() << center << pt1 << pt2, centerPt );

   return QgsEllipse( centerPt, axis_a, axis_b, azimuth );
 }

 bool QgsEllipse::operator ==( const QgsEllipse &elp ) const
 {
   return ( ( mCenter == elp.mCenter ) &&
            qgsDoubleNear( mSemiMajorAxis, elp.mSemiMajorAxis, 1E-8 ) &&
            qgsDoubleNear( mSemiMinorAxis, elp.mSemiMinorAxis, 1E-8 ) &&
            qgsDoubleNear( mAzimuth, elp.mAzimuth, 1E-8 )
          );
 }

 bool QgsEllipse::operator !=( const QgsEllipse &elp ) const
 {
   return !operator==( elp );
 }

 bool QgsEllipse::isEmpty() const
 {
   return ( qgsDoubleNear( mSemiMajorAxis, 0.0, 1E-8 ) ||
            qgsDoubleNear( mSemiMinorAxis, 0.0, 1E-8 ) );
 }

 void QgsEllipse::setSemiMajorAxis( const double axis_a )
 {
   mSemiMajorAxis = axis_a;
   normalizeAxis();
 }
 void QgsEllipse::setSemiMinorAxis( const double axis_b )
 {
   mSemiMinorAxis = axis_b;
   normalizeAxis();
 }

 void QgsEllipse::setAzimuth( const double azimuth )
 {
   mAzimuth = 180.0 / M_PI *
              QgsGeometryUtils::normalizedAngle( M_PI / 180.0 * azimuth );
 }

 double QgsEllipse::focusDistance() const
 {
   return std::sqrt( mSemiMajorAxis * mSemiMajorAxis - mSemiMinorAxis * mSemiMinorAxis );
 }

 QVector<QgsPoint> QgsEllipse::foci() const
 {
   QVector<QgsPoint> f;
   double dist_focus = focusDistance();
   f.append( mCenter.project( dist_focus, mAzimuth ) );
   f.append( mCenter.project( -dist_focus, mAzimuth ) );

   return f;
 }

 double QgsEllipse::eccentricity() const
 {
   if ( isEmpty() )
   {
     return std::numeric_limits<double>::quiet_NaN();
   }
   return focusDistance() / mSemiMajorAxis;
 }

 double QgsEllipse::area() const
 {
   return M_PI * mSemiMajorAxis * mSemiMinorAxis;
 }

 double QgsEllipse::perimeter() const
 {
   double a = mSemiMajorAxis;
   double b = mSemiMinorAxis;
   return M_PI * ( 3 * ( a + b ) - std::sqrt( 10 * a * b + 3 * ( a * a + b * b ) ) );
 }

 QVector<QgsPoint> QgsEllipse::quadrant() const
 {
   QVector<QgsPoint> quad;
   quad.append( mCenter.project( mSemiMajorAxis, mAzimuth ) );
   quad.append( mCenter.project( mSemiMinorAxis, mAzimuth + 90 ) );
   quad.append( mCenter.project( -mSemiMajorAxis, mAzimuth ) );
   quad.append( mCenter.project( -mSemiMinorAxis, mAzimuth + 90 ) );

   return quad;
 }

 QgsPointSequence QgsEllipse::points( unsigned int segments ) const
 {
   QgsPointSequence pts;

   if ( segments < 3 )
   {
     return pts;
   }


   QgsWkbTypes::Type pType( mCenter.wkbType() );
   double z = mCenter.z();
   double m = mCenter.m();

   QVector<double> t;
   t.reserve( segments );
   double azimuth = std::atan2( quadrant().at( 0 ).y() - mCenter.y(), quadrant().at( 0 ).x() - mCenter.x() );
   for ( unsigned int i = 0; i < segments; ++i )
   {
     t.append( 2 * M_PI - ( ( 2 * M_PI ) / segments * i ) ); // Since the algorithm used rotates in the trigonometric direction (counterclockwise)
   }

   for ( QVector<double>::const_iterator it = t.constBegin(); it != t.constEnd(); ++it )
   {
     double x = mCenter.x() +
                mSemiMajorAxis * std::cos( *it ) * std::cos( azimuth ) -
                mSemiMinorAxis * std::sin( *it ) * std::sin( azimuth );
     double y = mCenter.y() +
                mSemiMajorAxis * std::cos( *it ) * std::sin( azimuth ) +
                mSemiMinorAxis * std::sin( *it ) * std::cos( azimuth );
     pts.push_back( QgsPoint( pType, x, y, z, m ) );
   }

   return pts;
 }

 QgsPolygon *QgsEllipse::toPolygon( unsigned int segments ) const
 {
   std::unique_ptr<QgsPolygon> polygon( new QgsPolygon() );
   if ( segments < 3 )
   {
     return polygon.release();
   }

   polygon->setExteriorRing( toLineString( segments ) );

   return polygon.release();
 }

 QgsLineString *QgsEllipse::toLineString( unsigned int segments ) const
 {
   std::unique_ptr<QgsLineString> ext( new QgsLineString() );
   if ( segments < 3 )
   {
     return ext.release();
   }

   QgsPointSequence pts;
   pts = points( segments );
   pts.append( pts.at( 0 ) ); // close linestring

   ext->setPoints( pts );

   return ext.release();
 }

 QgsRectangle QgsEllipse::boundingBox() const
 {
   if ( isEmpty() )
   {
     return QgsRectangle();
   }

   double angle = mAzimuth * M_PI / 180.0;

   double ux = mSemiMajorAxis * std::cos( angle );
   double uy = mSemiMinorAxis * std::sin( angle );
   double vx = mSemiMajorAxis * std::sin( angle );
   double vy = mSemiMinorAxis * std::cos( angle );

   double halfHeight = std::sqrt( ux * ux + uy * uy );
   double halfWidth = std::sqrt( vx * vx + vy * vy );

   QgsPointXY p1( mCenter.x() - halfWidth, mCenter.y() - halfHeight );
   QgsPointXY p2( mCenter.x() + halfWidth, mCenter.y() + halfHeight );

   return QgsRectangle( p1, p2 );
 }

 QString QgsEllipse::toString( int pointPrecision, int axisPrecision, int azimuthPrecision ) const
 {
   QString rep;
   if ( isEmpty() )
     rep = QStringLiteral( "Empty" );
   else
     rep = QStringLiteral( "Ellipse (Center: %1, Semi-Major Axis: %2, Semi-Minor Axis: %3, Azimuth: %4)" )
           .arg( mCenter.asWkt( pointPrecision ), 0, 's' )
           .arg( qgsDoubleToString( mSemiMajorAxis, axisPrecision ), 0, 'f' )
           .arg( qgsDoubleToString( mSemiMinorAxis, axisPrecision ), 0, 'f' )
           .arg( qgsDoubleToString( mAzimuth, azimuthPrecision ), 0, 'f' );

   return rep;
 }

 QgsPolygon *QgsEllipse::orientedBoundingBox() const
 {
   std::unique_ptr<QgsPolygon> ombb( new QgsPolygon() );
   if ( isEmpty() )
   {
     return ombb.release();
   }

   QVector<QgsPoint> q = quadrant();

   QgsPoint p1 = q.at( 0 ).project( mSemiMinorAxis, mAzimuth - 90 );
   QgsPoint p2 = q.at( 0 ).project( mSemiMinorAxis, mAzimuth + 90 );
   QgsPoint p3 = q.at( 2 ).project( mSemiMinorAxis, mAzimuth + 90 );
   QgsPoint p4 = q.at( 2 ).project( mSemiMinorAxis, mAzimuth - 90 );

   QgsLineString *ext = new QgsLineString();
   ext->setPoints( QgsPointSequence() << p1 << p2 << p3 << p4 );

   ombb->setExteriorRing( ext );

   return ombb.release();
 }
QgsEllipse::points
virtual QgsPointSequence points(unsigned int segments=36) const
Returns a list of points with segmentation from segments.
Definition: qgsellipse.cpp:188

QgsRectangle
A rectangle specified with double values.
Definition: qgsrectangle.h:40

QgsPoint::y
double y
Definition: qgspoint.h:42

QgsEllipse::fromCenterPoint
static QgsEllipse fromCenterPoint(const QgsPoint &ptc, const QgsPoint &pt1)
Constructs an ellipse by a center point and a another point.
Definition: qgsellipse.cpp:77

QgsLineString::setPoints
void setPoints(const QgsPointSequence &points)
Resets the line string to match the specified list of points.
Definition: qgslinestring.cpp:577

QgsEllipse::focusDistance
virtual double focusDistance() const
The distance between the center and each foci.
Definition: qgsellipse.cpp:141

QgsEllipse::QgsEllipse
QgsEllipse()=default
Constructor for QgsEllipse.

QgsEllipse::operator!=
virtual bool operator!=(const QgsEllipse &elp) const
Definition: qgsellipse.cpp:113

qgsellipse.h

QgsGeometryUtils::lineAngle
static double lineAngle(double x1, double y1, double x2, double y2)
Calculates the direction of line joining two points in radians, clockwise from the north direction...
Definition: qgsgeometryutils.cpp:1337

QgsEllipse::toLineString
virtual QgsLineString * toLineString(unsigned int segments=36) const
Returns a segmented linestring.
Definition: qgsellipse.cpp:237

QgsPointXY
A class to represent a 2D point.
Definition: qgspointxy.h:43

qgsDoubleNear
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
Definition: qgis.h:278

QgsAbstractGeometry::wkbType
QgsWkbTypes::Type wkbType() const
Returns the WKB type of the geometry.
Definition: qgsabstractgeometry.h:175

QgsEllipse::foci
virtual QVector< QgsPoint > foci() const
Two foci of the ellipse.
Definition: qgsellipse.cpp:146

qgsunittypes.h

MathUtils::angle
double ANALYSIS_EXPORT angle(QgsPoint *p1, QgsPoint *p2, QgsPoint *p3, QgsPoint *p4)
Calculates the angle between two segments (in 2 dimension, z-values are ignored)
Definition: MathUtils.cpp:786

QgsEllipse::area
virtual double area() const
The area of the ellipse.
Definition: qgsellipse.cpp:165

QgsWkbTypes::Type
Type
The WKB type describes the number of dimensions a geometry has.
Definition: qgswkbtypes.h:68

QgsEllipse::mCenter
QgsPoint mCenter
Definition: qgsellipse.h:252

QgsEllipse::mSemiMajorAxis
double mSemiMajorAxis
Definition: qgsellipse.h:253

QgsGeometryUtils::setZValueFromPoints
static bool setZValueFromPoints(const QgsPointSequence &points, QgsPoint &point)
A Z dimension is added to point if one of the point in the list points is in 3D.
Definition: qgsgeometryutils.cpp:1516

QgsEllipse::fromExtent
static QgsEllipse fromExtent(const QgsPoint &pt1, const QgsPoint &pt2)
Constructs an ellipse by an extent (aka bounding box / QgsRectangle).
Definition: qgsellipse.cpp:65

QgsEllipse::mAzimuth
double mAzimuth
Definition: qgsellipse.h:255

QgsEllipse::boundingBox
virtual QgsRectangle boundingBox() const
Returns the minimal bounding box for the ellipse.
Definition: qgsellipse.cpp:254

QgsEllipse::setSemiMinorAxis
virtual void setSemiMinorAxis(double semiMinorAxis)
Sets the semi-minor axis.
Definition: qgsellipse.cpp:129

QgsEllipse::isEmpty
virtual bool isEmpty() const
An ellipse is empty if axes are equal to 0.
Definition: qgsellipse.cpp:118

QgsEllipse::fromFoci
static QgsEllipse fromFoci(const QgsPoint &pt1, const QgsPoint &pt2, const QgsPoint &pt3)
Constructs an ellipse by foci (pt1 and pt2) and a point pt3.
Definition: qgsellipse.cpp:47

QgsGeometryUtils::midpoint
static QgsPoint midpoint(const QgsPoint &pt1, const QgsPoint &pt2)
Returns a middle point between points pt1 and pt2.
Definition: qgsgeometryutils.cpp:1213

qgsDoubleToString
QString qgsDoubleToString(double a, int precision=17)
Returns a string representation of a double.
Definition: qgis.h:238

QgsPoint::asWkt
QString asWkt(int precision=17) const override
Returns a WKT representation of the geometry.
Definition: qgspoint.cpp:223

QgsEllipse::azimuth
double azimuth() const
Returns the azimuth.
Definition: qgsellipse.h:139

QgsGeometryUtils::normalizedAngle
static double normalizedAngle(double angle)
Ensures that an angle is in the range 0 <= angle < 2 pi.
Definition: qgsgeometryutils.cpp:1152

QgsPoint
Point geometry type, with support for z-dimension and m-values.
Definition: qgspoint.h:37

QgsEllipse::quadrant
virtual QVector< QgsPoint > quadrant() const
The four quadrants of the ellipse.
Definition: qgsellipse.cpp:177

QgsEllipse::fromCenter2Points
static QgsEllipse fromCenter2Points(const QgsPoint &ptc, const QgsPoint &pt1, const QgsPoint &pt2)
Constructs an ellipse by a central point and two other points.
Definition: qgsellipse.cpp:89

qgsgeometryutils.h

QgsEllipse::mSemiMinorAxis
double mSemiMinorAxis
Definition: qgsellipse.h:254

QgsEllipse::eccentricity
virtual double eccentricity() const
The eccentricity of the ellipse.
Definition: qgsellipse.cpp:156

QgsPoint::distance
double distance(double x, double y) const
Returns the distance between this point and a specified x, y coordinate.
Definition: qgspoint.h:276

QgsEllipse::setSemiMajorAxis
virtual void setSemiMajorAxis(double semiMajorAxis)
Sets the semi-major axis.
Definition: qgsellipse.cpp:124

QgsPointSequence
QVector< QgsPoint > QgsPointSequence
Definition: qgsabstractgeometry.h:40

QgsEllipse::toString
virtual QString toString(int pointPrecision=17, int axisPrecision=17, int azimuthPrecision=2) const
returns a string representation of the ellipse.
Definition: qgsellipse.cpp:277

QgsEllipse::toPolygon
virtual QgsPolygon * toPolygon(unsigned int segments=36) const
Returns a segmented polygon.
Definition: qgsellipse.cpp:224

QgsLineString
Line string geometry type, with support for z-dimension and m-values.
Definition: qgslinestring.h:43

QgsEllipse::orientedBoundingBox
virtual QgsPolygon * orientedBoundingBox() const
Returns the oriented minimal bounding box for the ellipse.
Definition: qgsellipse.cpp:292

QgsGeometryUtils::projectPointOnSegment
static QgsPoint projectPointOnSegment(const QgsPoint &p, const QgsPoint &s1, const QgsPoint &s2)
Project the point on a segment.
Definition: qgsgeometryutils.h:212

QgsEllipse::setAzimuth
void setAzimuth(double azimuth)
Sets the azimuth (orientation).
Definition: qgsellipse.cpp:135

QgsPoint::z
double z
Definition: qgspoint.h:43

QgsEllipse
Ellipse geometry type.
Definition: qgsellipse.h:39

QgsPolygon
Polygon geometry type.
Definition: qgspolygon.h:31

qgslinestring.h

QgsEllipse::center
QgsPoint center() const
Returns the center point.
Definition: qgsellipse.h:121

QgsEllipse::perimeter
virtual double perimeter() const
The circumference of the ellipse using first approximation of Ramanujan.
Definition: qgsellipse.cpp:170

QgsEllipse::operator==
virtual bool operator==(const QgsEllipse &elp) const
Definition: qgsellipse.cpp:104

QgsPoint::project
QgsPoint project(double distance, double azimuth, double inclination=90.0) const
Returns a new point which correspond to this point projected by a specified distance with specified a...
Definition: qgspoint.cpp:643

QgsPoint::m
double m
Definition: qgspoint.h:44

QgsPoint::x
double x
Definition: qgspoint.h:41