CGAL 4.11.3 - Intersecting Sequences of dD Iso-oriented Boxes
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#include <CGAL/Box_intersection_d/Box_with_handle_d.h>
Box_with_handle_d
is a generic iso-oriented bounding box in dimension \( D\) that stores additionally a handle to some underlying geometric object.
It provides in each dimension an interval with lower and upper endpoints represented with the number type NT
. This class is designed to work smoothly with the algorithms for intersecting sequences of iso-oriented boxes. For degeneracy handling, the boxes need to provide a unique id
-number. The policy parameter IdPolicy
offers several choices.
NT | number type for the box boundaries, needs to be a model of the Assignable and the LessThanComparable concept. |
D | the dimension of the box. |
Handle | Handle concept, e.g., a pointer, an iterator, or a circulator. |
IdPolicy | specifies how the id -number will be provided and can be one of the following types, where ID_FROM_HANDLE is the default for this parameter:
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Types | |
typedef unspecified_type | NT |
number type to represent the box boundaries. More... | |
typedef std::size_t | ID |
type for the box id -number. | |
Creation | |
Box_with_handle_d () | |
Default constructor. More... | |
Box_with_handle_d (bool complete, Handle h) | |
initializes to the complete or the empty space. More... | |
Box_with_handle_d (NT lo[D], NT hi[D], Handle h) | |
initializes the box intervals to [lo[i] ,hi[i] ], \( 0 \leq i < D\) and sets the handle to \( h\). More... | |
Box_with_handle_d (const Bbox_2 &bbox, Handle h) | |
constructs from bbox and sets the handle to \( h\), exists iff \( D=2\) and NT \( \equiv\)double . | |
Box_with_handle_d (const Bbox_3 &bbox, Handle h) | |
constructs from bbox and sets the handle to \( h\), exists iff \( D=3\) and NT \( \equiv\)double . | |
Modifiers | |
void | init (bool complete=false) |
initializes to the complete or the empty space. More... | |
void | extend (NT point[D]) |
extend box to contain the old box and point . | |
Access Functions | |
Handle | handle () const |
returns the handle stored in box . | |
std::size_t | id () |
returns a unique box id, see the IdPolicy template parameter above for the different choices. More... | |
NT | min_coord (int d) const |
returns the lower boundary in dimension d , \( 0 \leq\)d \( < D\). | |
NT | max_coord (int d) const |
returns the upper boundary in dimension d , \( 0 \leq\)d \( < D\). | |
const Bbox_2 & | bbox () const |
returns the bounding box iff \( D=2\) and NT \( \equiv\)double . | |
const Bbox_3 & | bbox () const |
returns the bounding box iff \( D=3\) and NT \( \equiv\)double . | |
static int | dimension () |
returns \( D\), the dimension of the box. | |
typedef unspecified_type CGAL::Box_intersection_d::Box_with_handle_d< NT, D, Handle, IdPolicy >::NT |
number type to represent the box boundaries.
Allowed are the built-in types int
, unsigned int
, float
, and double
.
CGAL::Box_intersection_d::Box_with_handle_d< NT, D, Handle, IdPolicy >::Box_with_handle_d | ( | ) |
Default constructor.
No particular initialization.
CGAL::Box_intersection_d::Box_with_handle_d< NT, D, Handle, IdPolicy >::Box_with_handle_d | ( | bool | complete, |
Handle | h | ||
) |
initializes to the complete or the empty space.
If empty, all interval starting (end) points will be set to positive (negative) infinity, sets handle to \( h\).
CGAL::Box_intersection_d::Box_with_handle_d< NT, D, Handle, IdPolicy >::Box_with_handle_d | ( | NT | lo[D], |
NT | hi[D], | ||
Handle | h | ||
) |
initializes the box intervals to [lo[i]
,hi[i]
], \( 0 \leq i < D\) and sets the handle to \( h\).
lo[i]
\( <\) hi[i]
for \( 0 \leq i < D\). std::size_t CGAL::Box_intersection_d::Box_with_handle_d< NT, D, Handle, IdPolicy >::id | ( | ) |
returns a unique box id, see the IdPolicy
template parameter above for the different choices.
Does not exist if ID_NONE
has been chosen for the IdPolicy
.
void CGAL::Box_intersection_d::Box_with_handle_d< NT, D, Handle, IdPolicy >::init | ( | bool | complete = false ) |
initializes to the complete or the empty space.
If empty, all interval starting(end) points will be set to positive(negative) infinity.