CGAL 5.2.4 - 3D Spherical Geometry Kernel
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#include <CGAL/Circular_arc_3.h>
I/O
The input/output format of a circular arc consists of the supporting circle represented as a Circle_3
object followed by the source and target points of the arc represented as two Circular_arc_point_3
objects. The defined arc is the unique arc constructed from such three objects.
Related Functions | |
(Note that these are not member functions.) | |
istream & | operator>> (std::istream &is, Circular_arc_3 &ca) |
ostream & | operator<< (std::ostream &os, const Circular_arc_3 &ca) |
Creation | |
Circular_arc_3 (const Circle_3< SphericalKernel > &c) | |
Constructs an arc from a full circle. | |
Circular_arc_3 (const Circle_3< SphericalKernel > &c, const Circular_arc_point_3 &pt) | |
Constructs an arc from a full circle, using pt as source and target. | |
Circular_arc_3 (const Circle_3< SphericalKernel > &c, const Circular_arc_point_3< SphericalKernel > &p, const Circular_arc_point_3< SphericalKernel > &q) | |
The circular arc constructed from a circle, a source, and a target, is defined as the set of points of the circle that lie between the source p1 and the target p2 , when traversing the circle counterclockwise seen from the side of the plane of the circle pointed by its positive normal vectors. More... | |
Circular_arc_3 (const Point_3< SphericalKernel > &p, const Point_3< SphericalKernel > &q, const Point_3< SphericalKernel > &r) | |
Constructs an arc that is supported by the circle of type Circle_3<SphericalKernel> passing through the points p , q and r . More... | |
Access Functions | |
Circle_3< SphericalKernel > | supporting_circle () |
Point_3< SphericalKernel > const & | center () const |
returns the center of the supporting circle. | |
SphericalKernel::FT const & | squared_radius () const |
returns the squared radius of the supporting circle. | |
Plane_3< SphericalKernel > | supporting_plane () |
Sphere_3< SphericalKernel > | diametral_sphere () |
When the methods When the arc was constructed from its (full) underlying circle, then source and target both return the smallest \( x\)-extremal point of the circle if the circle is not contained in a plane \( x=A\), and the smallest \( y\)-extremal point otherwise. | |
Circular_arc_point_3< SphericalKernel > | source () |
Circular_arc_point_3< SphericalKernel > | target () |
bool | operator== (const Circular_arc_3< SphericalKernel > &a1, const Circular_arc_3< SphericalKernel > &a2) |
Test for equality. More... | |
bool | operator!= (const Circular_arc_3< SphericalKernel > &a1, const Circular_arc_3< SphericalKernel > &a2) |
Test for nonequality. | |
CGAL::Circular_arc_3< SphericalKernel >::Circular_arc_3 | ( | const Circle_3< SphericalKernel > & | c, |
const Circular_arc_point_3< SphericalKernel > & | p, | ||
const Circular_arc_point_3< SphericalKernel > & | q | ||
) |
The circular arc constructed from a circle, a source, and a target, is defined as the set of points of the circle that lie between the source p1
and the target p2
, when traversing the circle counterclockwise seen from the side of the plane of the circle pointed by its positive normal vectors.
In this definition, we say that a normal vector \( (a,b,c)\) is positive if \( (a,b,c)>(0,0,0)\) (i.e. \( (a>0) || (a==0) \&\& (b>0) || (a==0)\&\&(b==0)\&\&(c>0)\)).
Constructs the circular arc supported by c
, whose source and target are p
and q
, respectively.
p
and q
lie on c
and are different. CGAL::Circular_arc_3< SphericalKernel >::Circular_arc_3 | ( | const Point_3< SphericalKernel > & | p, |
const Point_3< SphericalKernel > & | q, | ||
const Point_3< SphericalKernel > & | r | ||
) |
Constructs an arc that is supported by the circle of type Circle_3<SphericalKernel>
passing through the points p
, q
and r
.
The source and target are respectively p
and r
, when traversing the supporting circle in the counterclockwise direction seen from the side of the plane containing the circle pointed by its positive normal vectors. Note that, depending on the orientation of the point triple (p,q,r)
, q
may not lie on the arc.
p
, q
, and r
are not collinear. bool CGAL::Circular_arc_3< SphericalKernel >::operator== | ( | const Circular_arc_3< SphericalKernel > & | a1, |
const Circular_arc_3< SphericalKernel > & | a2 | ||
) |
Test for equality.
Two arcs are equal, iff their non-oriented supporting planes are equal, and the centers and squared radii of their respective supporting circles are equal, and their sources and targets are equal.