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An object of type Circle_3<Kernel> is a circle in the
three-dimensional Euclidean space 
3. Note that the
circle can be degenerate, i.e. the squared radius may be zero.
| Circle_3<Kernel> c ( Point_3<Kernel> const& center, Kernel::FT const& sq_r, Plane_3<Kernel> const& plane); | |||
introduces a variable c of type Circle_3<Kernel>.
It is initialized to the circle of center center and
squared radius sq_r in plane plane.
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| Circle_3<Kernel> c ( Point_3<Kernel> const& center, Kernel::FT const& sq_r, Vector_3<Kernel> const& n); | |||
introduces a variable c of type Circle_3<Kernel>.
It is initialized to the circle of center center and
squared radius sq_r in a plane normal to
the vector n.
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| Circle_3<Kernel> c ( Point_3<Kernel> const& p, Point_3<Kernel> const& q, Point_3<Kernel> const& r); | |||
introduces a variable c of type Circle_3<Kernel>.
It is initialized to the circle passing through the three points.
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| Circle_3<Kernel> c ( Sphere_3<Kernel> const& sphere1, Sphere_3<Kernel> const& sphere2); | |||
introduces a variable c of type Circle_3<Kernel>.
It is initialized to the circle along which the two spheres intersect.
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| Circle_3<Kernel> c ( Sphere_3<Kernel> const& sphere, Plane_3<Kernel> const& plane); | |||
introduces a variable c of type Circle_3<Kernel>.
It is initialized to the circle along which the sphere and the
plane intersect.
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| Circle_3<Kernel> c ( Plane_3<Kernel> const& plane, Sphere_3<Kernel> const& sphere); | |||
introduces a variable c of type Circle_3<Kernel>.
It is initialized to the circle along which the sphere and the
plane intersect.
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| Point_3<Kernel> const& | c.center () const | returns the center of c. |
| Kernel::FT const& | c.squared_radius () const | returns the squared radius of c. |
| Plane_3<Kernel> const& | c.supporting_plane () const | returns the supporting plane of c. |
| Sphere_3<Kernel> const& | c.diametral_sphere () const | returns the diametral sphere of c. |
| Kernel::FT const& | c.area_divided_by_pi () const | returns the area of c, divided by π. |
| double const& | c.approximate_area () const | returns an approximation of the area of c. |
| Kernel::FT const& | c.squared_length_divided_by_pi_square () const | |
| returns the squared length of c, divided by π2. | ||
| double const& | c.approximate_squared_length () const | |
| returns an approximation of the squared length (i.e. perimeter) of c. | ||
| bool | c.has_on ( Point_3<Kernel> const& p) const | |
| bool | operator == ( const& c1, const& c2) | |
| returns true, iff c1 and c2 are equal, i.e. if they have the same center, the same squared radius and the same supporting plane. | ||
| bool | operator != ( const& c1, const& c2) | |
| Bbox_3 | c.bbox () const | returns a bounding box containing c. |