53 const double yDelta_a = pt2.
y() - pt1.
y();
54 const double xDelta_a = pt2.
x() - pt1.
x();
55 const double yDelta_b = pt3.
y() - pt2.
y();
56 const double xDelta_b = pt3.
x() - pt2.
x();
58 if ( ( std::fabs( xDelta_a ) <= epsilon ) && ( std::fabs( yDelta_b ) <= epsilon ) )
63 if ( std::fabs( yDelta_a ) <= epsilon )
67 else if ( std::fabs( yDelta_b ) <= epsilon )
71 else if ( std::fabs( xDelta_a ) <= epsilon )
75 else if ( std::fabs( xDelta_b ) <= epsilon )
88 if ( !isPerpendicular( pt1, pt2, pt3, epsilon ) )
94 else if ( !isPerpendicular( pt1, pt3, pt2, epsilon ) )
100 else if ( !isPerpendicular( pt2, pt1, pt3, epsilon ) )
106 else if ( !isPerpendicular( pt2, pt3, pt1, epsilon ) )
112 else if ( !isPerpendicular( pt3, pt2, pt1, epsilon ) )
118 else if ( !isPerpendicular( pt3, pt1, pt2, epsilon ) )
131 const double yDelta_a = p2.
y() - p1.
y();
132 const double xDelta_a = p2.
x() - p1.
x();
133 const double yDelta_b = p3.
y() - p2.
y();
134 const double xDelta_b = p3.
x() - p2.
x();
141 const double aSlope = yDelta_a / xDelta_a;
142 const double bSlope = yDelta_b / xDelta_b;
147 if ( ( std::fabs( xDelta_a ) <= epsilon ) && ( std::fabs( yDelta_b ) <= epsilon ) )
156 if ( std::fabs( aSlope - bSlope ) <= epsilon )
162 ( aSlope * bSlope * ( p1.
y() - p3.
y() ) +
163 bSlope * ( p1.
x() + p2.
x() ) -
164 aSlope * ( p2.
x() + p3.
x() ) ) /
165 ( 2.0 * ( bSlope - aSlope ) )
168 -1.0 * (
center.
x() - ( p1.
x() + p2.
x() ) / 2.0 ) /
169 aSlope + ( p1.
y() + p2.
y() ) / 2.0
198 QVector<QgsCircle> circles;
200 QgsPoint ptInter_par1line1, ptInter_par2line1;
201 double angle1, angle2;
203 QgsGeometryUtils::angleBisector( pt1_par1.
x(), pt1_par1.
y(), pt2_par1.
x(), pt2_par1.
y(), pt1_line1.
x(), pt1_line1.
y(), pt2_line1.
x(), pt2_line1.
y(), x, y, angle1 );
204 ptInter_par1line1.
setX( x );
205 ptInter_par1line1.
setY( y );
207 QgsGeometryUtils::angleBisector( pt1_par2.
x(), pt1_par2.
y(), pt2_par2.
x(), pt2_par2.
y(), pt1_line1.
x(), pt1_line1.
y(), pt2_line1.
x(), pt2_line1.
y(), x, y, angle2 );
208 ptInter_par2line1.
setX( x );
209 ptInter_par2line1.
setY( y );
219 circles.append(
QgsCircle( center, radius ) );
224 circles.append(
QgsCircle( center, radius ) );
235 circles.append(
QgsCircle( center, radius ) );
240 circles.append(
QgsCircle( center, radius ) );
245 if ( isInter && !circles.contains(
QgsCircle( center, radius ) ) )
251 circles.append(
QgsCircle( center, radius ) );
256 circles.append(
QgsCircle( center, radius ) );
260 if ( isInter && !circles.contains(
QgsCircle( center, radius ) ) )
266 circles.append(
QgsCircle( center, radius ) );
271 circles.append(
QgsCircle( center, radius ) );
281 bool isIntersect_tg1tg2 =
false;
282 bool isIntersect_tg1tg3 =
false;
283 bool isIntersect_tg2tg3 =
false;
288 QVector<QgsCircle> circles;
289 if ( !isIntersect_tg1tg2 && !isIntersect_tg2tg3 )
292 if ( !isIntersect_tg1tg2 )
293 return from2ParallelsLine( pt1_tg1, pt2_tg1, pt1_tg2, pt2_tg2, pt1_tg3, pt2_tg3, pos, epsilon );
294 else if ( !isIntersect_tg1tg3 )
295 return from2ParallelsLine( pt1_tg1, pt2_tg1, pt1_tg3, pt2_tg3, pt1_tg2, pt2_tg2, pos, epsilon );
296 else if ( !isIntersect_tg2tg3 )
297 return from2ParallelsLine( pt1_tg2, pt2_tg2, pt1_tg3, pt2_tg3, pt1_tg1, pt1_tg1, pos, epsilon );
314 circles.append(
QgsTriangle( p1, p2, p3 ).inscribedCircle() );
320 const QVector<QgsCircle> circles =
from3TangentsMulti( pt1_tg1, pt2_tg1, pt1_tg2, pt2_tg2, pt1_tg3, pt2_tg3, epsilon, pos );
321 if ( circles.length() != 1 )
323 return circles.at( 0 );
328 const double l1 = pt2.
distance( pt3 );
329 const double l2 = pt3.
distance( pt1 );
330 const double l3 = pt1.
distance( pt2 );
332 if ( ( l1 * l1 ) - ( l2 * l2 + l3 * l3 ) >= epsilon )
333 return QgsCircle().from2Points( pt2, pt3 );
334 else if ( ( l2 * l2 ) - ( l1 * l1 + l3 * l3 ) >= epsilon )
335 return QgsCircle().from2Points( pt3, pt1 );
336 else if ( ( l3 * l3 ) - ( l1 * l1 + l2 * l2 ) >= epsilon )
337 return QgsCircle().from2Points( pt1, pt2 );
339 return QgsCircle().from3Points( pt1, pt2, pt3, epsilon );
384 const double delta_x = std::fabs( pt1.
x() - pt2.
x() );
385 const double delta_y = std::fabs( pt1.
x() - pt2.
y() );
421 QVector<QgsPoint> quad;
434 QVector<QgsPoint> quad;
443 quad.append( quad.at( 0 ) );
444 for ( QVector<QgsPoint>::const_iterator it = quad.constBegin(); it != quad.constEnd(); ++it )
448 circString->setPoints(
points );
450 return circString.release();
467 rep = QStringLiteral(
"Empty" );
469 rep = QStringLiteral(
"Circle (Center: %1, Radius: %2, Azimuth: %3)" )
482 const QDomElement gml = circularString->asGml2( doc,
precision, ns, axisOrder );
491 QDomElement elemCircle = doc.createElementNS( ns, QStringLiteral(
"Circle" ) );
bool is3D() const
Returns true if the geometry is 3D and contains a z-value.
AxisOrder
Axis order for GML generation.
Qgis::WkbType wkbType() const
Returns the WKB type of the geometry.
static QgsCircle from2Points(const QgsPoint &pt1, const QgsPoint &pt2)
Constructs a circle by 2 points on the circle.
int intersections(const QgsCircle &other, QgsPoint &intersection1, QgsPoint &intersection2, bool useZ=false) const
Calculates the intersections points between this circle and an other circle.
double radius() const
Returns the radius of the circle.
QDomElement asGml3(QDomDocument &doc, int precision=17, const QString &ns="gml", QgsAbstractGeometry::AxisOrder axisOrder=QgsAbstractGeometry::AxisOrder::XY) const
Returns a GML3 representation of the geometry.
int innerTangents(const QgsCircle &other, QgsPointXY &line1P1, QgsPointXY &line1P2, QgsPointXY &line2P1, QgsPointXY &line2P2) const
Calculates the inner tangent points between this circle and an other circle.
void setSemiMinorAxis(double semiMinorAxis) override
Inherited method.
int outerTangents(const QgsCircle &other, QgsPointXY &line1P1, QgsPointXY &line1P2, QgsPointXY &line2P1, QgsPointXY &line2P2) const
Calculates the outer tangent points between this circle and an other circle.
void setSemiMajorAxis(double semiMajorAxis) override
Inherited method.
QString toString(int pointPrecision=17, int radiusPrecision=17, int azimuthPrecision=2) const override
returns a string representation of the ellipse.
static QgsCircle from3Tangents(const QgsPoint &pt1_tg1, const QgsPoint &pt2_tg1, const QgsPoint &pt1_tg2, const QgsPoint &pt2_tg2, const QgsPoint &pt1_tg3, const QgsPoint &pt2_tg3, double epsilon=1E-8, const QgsPoint &pos=QgsPoint())
Constructs a circle by 3 tangents on the circle (aka inscribed circle of a triangle).
QgsRectangle boundingBox() const override
Returns the minimal bounding box for the ellipse.
bool contains(const QgsPoint &point, double epsilon=1E-8) const
Returns true if the circle contains the point.
static QVector< QgsCircle > from3TangentsMulti(const QgsPoint &pt1_tg1, const QgsPoint &pt2_tg1, const QgsPoint &pt1_tg2, const QgsPoint &pt2_tg2, const QgsPoint &pt1_tg3, const QgsPoint &pt2_tg3, double epsilon=1E-8, const QgsPoint &pos=QgsPoint())
Returns an array of circle constructed by 3 tangents on the circle (aka inscribed circle of a triangl...
static QgsCircle fromExtent(const QgsPoint &pt1, const QgsPoint &pt2)
Constructs a circle by an extent (aka bounding box / QgsRectangle).
double area() const override
The area of the ellipse.
static QgsCircle fromCenterDiameter(const QgsPoint ¢er, double diameter, double azimuth=0)
Constructs a circle by a center point and a diameter.
static QgsCircle fromCenterPoint(const QgsPoint ¢er, const QgsPoint &pt1)
Constructs a circle by a center point and another point.
QDomElement asGml2(QDomDocument &doc, int precision=17, const QString &ns="gml", QgsAbstractGeometry::AxisOrder axisOrder=QgsAbstractGeometry::AxisOrder::XY) const
Returns a GML2 representation of the geometry.
QgsCircularString * toCircularString(bool oriented=false) const
Returns a circular string from the circle.
double perimeter() const override
The circumference of the ellipse using first approximation of Ramanujan.
bool tangentToPoint(const QgsPointXY &p, QgsPointXY &pt1, QgsPointXY &pt2) const
Calculates the tangent points between this circle and the point p.
static QgsCircle from3Points(const QgsPoint &pt1, const QgsPoint &pt2, const QgsPoint &pt3, double epsilon=1E-8)
Constructs a circle by 3 points on the circle.
QVector< QgsPoint > northQuadrant() const
The four quadrants of the ellipse.
static QgsCircle minimalCircleFrom3Points(const QgsPoint &pt1, const QgsPoint &pt2, const QgsPoint &pt3, double epsilon=1E-8)
Constructs the smallest circle from 3 points.
Circular string geometry type.
QgsPoint center() const
Returns the center point.
double semiMajorAxis() const
Returns the semi-major axis.
virtual QgsPointSequence points(unsigned int segments=36) const
Returns a list of points with segmentation from segments.
double azimuth() const
Returns the azimuth.
virtual QVector< QgsPoint > quadrant() const
The four quadrants of the ellipse.
virtual bool isEmpty() const
An ellipse is empty if axes are equal to 0.
double semiMinorAxis() const
Returns the semi-minor axis.
static int circleCircleIntersections(const QgsPointXY ¢er1, double radius1, const QgsPointXY ¢er2, double radius2, QgsPointXY &intersection1, QgsPointXY &intersection2)
Calculates the intersections points between the circle with center center1 and radius radius1 and the...
static bool segmentIntersection(const QgsPoint &p1, const QgsPoint &p2, const QgsPoint &q1, const QgsPoint &q2, QgsPoint &intersectionPoint, bool &isIntersection, double tolerance=1e-8, bool acceptImproperIntersection=false)
Compute the intersection between two segments.
static QgsLineString perpendicularSegment(const QgsPoint &p, const QgsPoint &s1, const QgsPoint &s2)
Create a perpendicular line segment from p to segment [s1, s2].
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.
static QgsPoint midpoint(const QgsPoint &pt1, const QgsPoint &pt2)
Returns a middle point between points pt1 and pt2.
static bool tangentPointAndCircle(const QgsPointXY ¢er, double radius, const QgsPointXY &p, QgsPointXY &pt1, QgsPointXY &pt2)
Calculates the tangent points between the circle with the specified center and radius and the point p...
static int circleCircleOuterTangents(const QgsPointXY ¢er1, double radius1, const QgsPointXY ¢er2, double radius2, QgsPointXY &line1P1, QgsPointXY &line1P2, QgsPointXY &line2P1, QgsPointXY &line2P2)
Calculates the outer tangent points for two circles, centered at center1 and center2 and with radii o...
static bool transferFirstZOrMValueToPoint(Iterator verticesBegin, Iterator verticesEnd, QgsPoint &point)
A Z or M dimension is added to point if one of the points in the list points contains Z or M value.
static QDomElement pointsToGML3(const QgsPointSequence &points, QDomDocument &doc, int precision, const QString &ns, bool is3D, QgsAbstractGeometry::AxisOrder axisOrder=QgsAbstractGeometry::AxisOrder::XY)
Returns a gml::posList DOM element.
static int circleCircleInnerTangents(const QgsPointXY ¢er1, double radius1, const QgsPointXY ¢er2, double radius2, QgsPointXY &line1P1, QgsPointXY &line1P2, QgsPointXY &line2P1, QgsPointXY &line2P2)
Calculates the inner tangent points for two circles, centered at center1 and center2 and with radii o...
static bool angleBisector(double aX, double aY, double bX, double bY, double cX, double cY, double dX, double dY, double &pointX, double &pointY, double &angle)
Returns the point (pointX, pointY) forming the bisector from segment (aX aY) (bX bY) and segment (bX,...
static int leftOfLine(const double x, const double y, const double x1, const double y1, const double x2, const double y2)
Returns a value < 0 if the point (x, y) is left of the line from (x1, y1) -> (x2, y2).
double length() const override
Returns the planar, 2-dimensional length of the geometry.
A class to represent a 2D point.
Point geometry type, with support for z-dimension and m-values.
void setY(double y)
Sets the point's y-coordinate.
bool addZValue(double zValue=0) override
Adds a z-dimension to the geometry, initialized to a preset value.
QString asWkt(int precision=17) const override
Returns a WKT representation of the geometry.
void setX(double x)
Sets the point's x-coordinate.
bool convertTo(Qgis::WkbType type) override
Converts the geometry to a specified type.
bool isEmpty() const override
Returns true if the geometry is empty.
double distance(double x, double y) const
Returns the Cartesian 2D distance between this point and a specified x, y coordinate.
QgsPoint project(double distance, double azimuth, double inclination=90.0) const
Returns a new point which corresponds to this point projected by a specified distance with specified ...
A rectangle specified with double values.
static Qgis::WkbType dropZ(Qgis::WkbType type)
Drops the z dimension (if present) for a WKB type and returns the new type.
QString qgsDoubleToString(double a, int precision=17)
Returns a string representation of a double.
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
QVector< QgsPoint > QgsPointSequence