- Member CGAL::Approximate_min_ellipsoid_d< Traits >::Approximate_min_ellipsoid_d (double eps, Iterator first, Iterator last, const Traits &traits=Traits())
Iterator
must be a model for concept InputIterator
with value type Point
.
- Member CGAL::Min_annulus_d< Traits >::center () const
- An implicit conversion from
ET
to RT
is available. - Precondition
min_annulus
is not empty.
- Member CGAL::Min_annulus_d< Traits >::insert (InputIterator first, InputIterator last)
- The value type of
InputIterator
is Point
. - Precondition
- All points have the same dimension. If
min_annulus
is not empty, this dimension must be equal to min_annulus.ambient_dimension()
.
- Member CGAL::Min_annulus_d< Traits >::Min_annulus_d (InputIterator first, InputIterator last, const Traits &traits=Traits(), int verbose=0, std::ostream &stream=std::cout)
- The value type of
InputIterator
is Point
. - Precondition
- All points have the same dimension.
- Member CGAL::Min_annulus_d< Traits >::set (InputIterator first, InputIterator last)
- The value type of
InputIterator
is Point
. - Precondition
- All points have the same dimension.
- Member CGAL::Min_annulus_d< Traits >::squared_inner_radius () const
- An implicit conversion from
ET
to RT
is available. - Precondition
min_annulus
is not empty.
- Member CGAL::Min_annulus_d< Traits >::squared_outer_radius () const
- An implicit conversion from
ET
to RT
is available. - Precondition
min_annulus
is not empty.
- Member CGAL::Min_circle_2< Traits >::insert (InputIterator first, InputIterator last)
- The value type of
first
and last
is Point
.
- Member CGAL::Min_circle_2< Traits >::Min_circle_2 (InputIterator first, InputIterator last, bool randomize, Random &random=CGAL::default_random, const Traits &traits=Traits())
- The value type of
first
and last
is Point
.
- Member CGAL::Min_ellipse_2< Traits >::insert (InputIterator first, InputIterator last)
- The value type of
first
and last
is Point
.
- Member CGAL::Min_ellipse_2< Traits >::Min_Ellipse_2 (InputIterator first, InputIterator last, bool randomize, Random &random=default_random, const Traits &traits=Traits())
- The value type of
first
and last
is Point
.
- Member CGAL::min_parallelogram_2 (ForwardIterator points_begin, ForwardIterator points_end, OutputIterator o, Traits &t=Default_traits)
- Member CGAL::min_rectangle_2 (ForwardIterator points_begin, ForwardIterator points_end, OutputIterator o, Traits &t=Default_traits)
- Member CGAL::Min_sphere_d< Traits >::insert (InputIterator first, InputIterator last)
- The value type of
first
and last
is Point
. - Precondition
- All points have the same dimension. If
min_sphere
is not empty, this dimension must be equal to ambient_dimension()
.
- Member CGAL::Min_sphere_d< Traits >::Min_sphere_d (InputIterator first, InputIterator last, const Traits &traits=Traits())
- The value type of
first
and last
is Point
. If the traits parameter is not supplied, the class Traits
must provide a default constructor. - Precondition
- All points have the same dimension.
- Member CGAL::Min_sphere_d< Traits >::set (InputIterator first, InputIterator last)
- The value type of
first
and last
is Point
. - Precondition
- All points have the same dimension.
- Member CGAL::Min_sphere_of_spheres_d< Traits >::insert (InputIterator first, InputIterator last)
- The value type of
first
and last
is Sphere
.
- Member CGAL::Min_sphere_of_spheres_d< Traits >::Min_sphere_of_spheres_d (InputIterator first, InputIterator last, const Traits &traits=Traits())
- The value type of
first
and last
is Sphere
. If the traits parameter is not supplied, the class Traits
must provide a default constructor.
- Member CGAL::Min_sphere_of_spheres_d< Traits >::set (InputIterator first, InputIterator last)
- The value type of
first
and last
is Sphere
.
- Member CGAL::min_strip_2 (ForwardIterator points_begin, ForwardIterator points_end, OutputIterator o, Traits &t=Default_traits)
- Member CGAL::rectangular_p_center_2 (ForwardIterator f, ForwardIterator l, OutputIterator o, FT &r, int p, const Traits &t=Default_traits)
- Member MinSphereOfSpheresTraits::FT
- Currently,
FT
must either be double
or float
, or an exact field number type. (An exact number type is one which evaluates arithmetic expressions involving the four basic operations and comparisions with infinite precision, that is, like in \( \mathbb{R}\).)
- Member operator<<
The output operator is defined for Point
.
- Member operator<<
The output operator is defined for Point
(and for Ellipse
, if pretty printing is used).
- Member operator<<
The output operator is defined for Point
(and for Circle
, if pretty printing is used).
- Member operator<<
The output operator is defined for Point
.
- Member operator>>
The input operator is defined for Point
.
- Member operator>>
The input operator is defined for Point
.
- Member operator>>
The input operator is defined for Point
.
- Member operator>>
The input operator is defined for Point
.