CGAL 5.6 - Halfedge Data Structures
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#include <CGAL/HalfedgeDS_decorator.h>
CGAL::HalfedgeDS_items_decorator< HDS >.
The class CGAL::HalfedgeDS_items_decorator<HDS>
provides additional functions for vertices, halfedges, and faces of a halfedge data structure without knowing the containing halfedge data structure.
The class CGAL::HalfedgeDS_decorator<HDS>
stores a reference to the halfedge data structure and provides functions that modify the halfedge data structure, for example Euler-operators. The class CGAL::HalfedgeDS_const_decorator<HDS>
stores a const reference to the halfedge data structure. It contains non-modifying functions, for example the test for validness of the data structure.
All these additional functions take care of the different capabilities a halfedge data structure may have or may not have. The functions evaluate the type tags of the halfedge data structure to decide on the actions. If a particular feature is not supported nothing is done. Note that for example the creation of new halfedges is mandatory for all halfedge data structures and will not appear here again.
CGAL::HalfedgeDS_items_decorator<HDS>
CGAL::HalfedgeDS_const_decorator<HDS>
Example
The following program fragment illustrates the implementation of the Euler operator split_vertex()
for a simplified polyhedron class.
Creation | |
HalfedgeDS_decorator (HDS &hds) | |
keeps internally a reference to hds . | |
Creation of New Items | |
Vertex_handle | vertices_push_back (const Vertex &v) |
appends a copy of v to hds if vertices are supported. More... | |
Face_handle | faces_push_back (const Face &f) |
appends a copy of f to hds if faces are supported. More... | |
Creation of New Composed Items | |
Halfedge_handle | create_loop () |
returns handle of a halfedge from a newly created loop in hds consisting of a single closed edge, one vertex and two faces (if supported respectively). | |
Halfedge_handle | create_segment () |
returns a halfedge from a newly created segment in hds consisting of a single open edge, two vertices and one face (if supported respectively). | |
Removal of Elements | |
The following member functions do not update affected incidence relations except if mentioned otherwise. | |
void | vertices_pop_front () |
removes the first vertex if vertices are supported. More... | |
void | vertices_pop_back () |
removes the last vertex if vertices are supported. | |
void | vertices_erase (Vertex_handle v) |
removes the vertex v if vertices are supported. More... | |
void | vertices_erase (Vertex_handle first, Vertex_handle last) |
removes the range [first,last) if vertices are supported. More... | |
void | faces_pop_front () |
removes the first face if faces are supported. More... | |
void | faces_pop_back () |
removes the last face if faces are supported. | |
void | faces_erase (Face_handle f) |
removes the face f if faces are supported. More... | |
void | faces_erase (Face_handle first, Face_handle last) |
removes the range [first,last) if faces are supported. More... | |
void | erase_face (Halfedge_handle h) |
removes the face incident to h from hds and changes all halfedges incident to the face into border edges or removes them from the halfedge data structure if they were already border edges. More... | |
void | erase_connected_component (Halfedge_handle h) |
removes the vertices, halfedges, and faces that belong to the connected component of h . More... | |
unsigned int | keep_largest_connected_components (unsigned int nb_components_to_keep) |
Erases the small connected components and the isolated vertices. More... | |
Modifying Functions (For Border Halfedges) | |
void | make_hole (Halfedge_handle h) |
removes the face incident to h from hds and creates a hole. More... | |
Halfedge_handle | fill_hole (Halfedge_handle h) |
fills the hole incident to h with a new face from hds . More... | |
Halfedge_handle | fill_hole (Halfedge_handle h, const Face &f) |
fills the hole incident to h with a copy of face f . More... | |
Halfedge_handle | add_face_to_border (Halfedge_handle h, Halfedge_handle g) |
extends the surface with a new face from hds into the hole incident to h and g . More... | |
Halfedge_handle | add_face_to_border (Halfedge_handle h, Halfedge_handle g, const Face &f) |
extends the surface with a copy of face f into the hole incident to h and g . More... | |
Modifying Functions (Euler Operators) | |
The following Euler operations modify consistently the combinatorial structure of the halfedge data structure. The geometry remains unchanged. Note that well known graph operations are also captured with these Euler operators, for example an edge contraction is equal to a Given a halfedge data structure | |
Halfedge_handle | split_face (Halfedge_handle h, Halfedge_handle g) |
splits the face incident to h and g into two faces with a new diagonal between the two vertices denoted by h and g respectively. More... | |
Halfedge_handle | join_face (Halfedge_handle h) |
joins the two faces incident to h . More... | |
Halfedge_handle | split_vertex (Halfedge_handle h, Halfedge_handle g) |
splits the vertex incident to h and g into two vertices and connects them with a new edge. More... | |
Halfedge_handle | join_vertex (Halfedge_handle h) |
joins the two vertices incident to h . More... | |
Halfedge_handle | create_center_vertex (Halfedge_handle h) |
barycentric triangulation of h->face() . More... | |
Halfedge_handle | erase_center_vertex (Halfedge_handle g) |
reverses create_center_vertex . More... | |
Halfedge_handle | split_loop (Halfedge_handle h, Halfedge_handle i, Halfedge_handle j) |
cuts the halfedge data structure into two parts along the cycle (h,i,j) . More... | |
Halfedge_handle | join_loop (Halfedge_handle h, Halfedge_handle g) |
glues the boundary of the two faces denoted by h and g together and returns h . More... | |
Validness Checks | |
These operations are the same as for | |
bool | is_valid (bool verbose=false, int level=0) const |
bool | normalized_border_is_valid (bool verbose=false) const |
Miscellaneous | |
void | inside_out () |
reverses face orientations. More... | |
Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::add_face_to_border | ( | Halfedge_handle | h, |
Halfedge_handle | g | ||
) |
extends the surface with a new face from hds
into the hole incident to h
and g
.
It creates a new edge connecting the vertex denoted by g
with the vertex denoted by h
and fills this separated part of the hole with a new face, such that the new face is incident to g
. Returns the new halfedge that is incident to the new face.
h != Halfedge_handle()
, g != Halfedge_handle()
, h->is_border()
, g->is_border()
and g
can be reached along the hole starting with h
. Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::add_face_to_border | ( | Halfedge_handle | h, |
Halfedge_handle | g, | ||
const Face & | f | ||
) |
extends the surface with a copy of face f
into the hole incident to h
and g
.
It creates a new edge connecting the tip of g
with the tip of h
and fills this separated part of the hole with a copy of face f
, such that the new face is incident to g
. Returns the new halfedge that is incident to the new face.
h != Halfedge_handle()
, g != Halfedge_handle()
, h->is_border()
, g->is_border()
and g
can be reached along the hole starting with h
. Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::create_center_vertex | ( | Halfedge_handle | h | ) |
barycentric triangulation of h->face()
.
Creates a new vertex, a copy of h->vertex()
, and connects it to each vertex incident to h->face()
splitting h->face()
into triangles. h
remains incident to the original face, all other triangles are copies of this face. Returns the halfedge h->next()
after the operation, i.e., a halfedge pointing to the new vertex. The time is proportional to the size of the face.
h
is not a border halfedge.Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::erase_center_vertex | ( | Halfedge_handle | g | ) |
reverses create_center_vertex
.
Erases the vertex pointed to by g
and all incident halfedges thereby merging all incident faces. Only g->face()
remains. The neighborhood of g->vertex()
may not be triangulated, it can have larger faces. Returns the halfedge g->prev()
. Thus, the invariant h == erase_center_vertex( create_center_vertex(h))
holds if h
is not a border halfedge. The time is proportional to the sum of the size of all incident faces.
g->vertex()
is a hole. There are at least two distinct faces incident to the faces that are incident to g->vertex()
. (This prevents the operation from collapsing a volume into two faces glued together with opposite orientations, such as would happen with any vertex of a tetrahedron.)Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::erase_connected_component | ( | Halfedge_handle | h | ) |
removes the vertices, halfedges, and faces that belong to the connected component of h
.
g
in the connected component g.next() != Halfedge_handle()
.Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::erase_face | ( | Halfedge_handle | h | ) |
removes the face incident to h
from hds
and changes all halfedges incident to the face into border edges or removes them from the halfedge data structure if they were already border edges.
If this creates isolated vertices they get removed as well. See make_hole()
for a more specialized variant.
h->is_border() == false
.If faces are supported, Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::faces_erase | ( | Face_handle | f | ) |
removes the face f
if faces are supported.
Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::faces_erase | ( | Face_handle | first, |
Face_handle | last | ||
) |
removes the range [first,last)
if faces are supported.
Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::faces_pop_front | ( | ) |
removes the first face if faces are supported.
Supports_removal
must be CGAL::Tag_true
.
Face_handle CGAL::HalfedgeDS_decorator< HDS >::faces_push_back | ( | const Face & | f | ) |
appends a copy of f
to hds
if faces are supported.
Returns a handle of the new face, or Face_handle()
otherwise.
Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::fill_hole | ( | Halfedge_handle | h | ) |
fills the hole incident to h
with a new face from hds
.
Returns h
.
h != Halfedge_handle()
and h->is_border()
. Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::fill_hole | ( | Halfedge_handle | h, |
const Face & | f | ||
) |
fills the hole incident to h
with a copy of face f
.
Returns h
.
h != Halfedge_handle()
and h->is_border()
. void CGAL::HalfedgeDS_decorator< HDS >::inside_out | ( | ) |
reverses face orientations.
is_valid()
of level three. Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::join_face | ( | Halfedge_handle | h | ) |
joins the two faces incident to h
.
The face incident to h->opposite()
gets removed from hds
. Both faces might be holes. Returns the predecessor of h
around the face. The invariant join_face( split_face( h, g))
returns h
and keeps the data structure unchanged. The time is proportional to the size of the face removed and the time to compute h->prev()
.
Supports_removal
must be CGAL::Tag_true
.
Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::join_loop | ( | Halfedge_handle | h, |
Halfedge_handle | g | ||
) |
glues the boundary of the two faces denoted by h
and g
together and returns h
.
Both faces and the vertices along the face denoted by g
gets removed. Both faces may be holes. The invariant join_loop( h, split_loop( h, i, j))
returns h
and keeps the data structure unchanged.
h
and g
are different and have equal degree (i.e., number of edges).Supports_removal
must be CGAL::Tag_true
.
Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::join_vertex | ( | Halfedge_handle | h | ) |
joins the two vertices incident to h
.
The vertex denoted by h->opposite()
gets removed by hds
. Returns the predecessor of h
around the vertex, i.e., h->opposite()->prev()
. The invariant join_vertex( split_vertex( h, g))
returns h
and keeps the polyhedron unchanged. The time is proportional to the degree of the vertex removed and the time to compute h->prev()
and h->opposite()->prev()
.
Supports_removal
must be CGAL::Tag_true
.
unsigned int CGAL::HalfedgeDS_decorator< HDS >::keep_largest_connected_components | ( | unsigned int | nb_components_to_keep | ) |
Erases the small connected components and the isolated vertices.
Keep nb_components_to_keep
largest connected components. Returns the number of connected components erased (ignoring isolated vertices).
Supports_removal
must be CGAL::Tag_true
, Supports_vertex_halfedge
must be CGAL::Tag_true
and Supports_halfedge_vertex
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::make_hole | ( | Halfedge_handle | h | ) |
removes the face incident to h
from hds
and creates a hole.
h != Halfedge_handle()
and !(h->is_border())
.If faces are supported, Supports_removal
must be CGAL::Tag_true
.
Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::split_face | ( | Halfedge_handle | h, |
Halfedge_handle | g | ||
) |
splits the face incident to h
and g
into two faces with a new diagonal between the two vertices denoted by h
and g
respectively.
The second (new) face obtained from hds
is a copy of the first face. Returns h->next()
after the operation, i.e., the new diagonal. The new face is to the right of the new diagonal, the old face is to the left. The time is proportional to the distance from h
to g
around the face.
Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::split_loop | ( | Halfedge_handle | h, |
Halfedge_handle | i, | ||
Halfedge_handle | j | ||
) |
cuts the halfedge data structure into two parts along the cycle (h,i,j)
.
Three new vertices (one copy for each vertex in the cycle) and three new halfedges (one copy for each halfedge in the cycle), and two new triangles are created. h,i,j
will be incident to the first new triangle. The return value will be the halfedge incident to the second new triangle which is the copy of h-opposite()
.
h,i,j
denote distinct, consecutive vertices of the halfedge data structure and form a cycle: i.e., h->vertex() == i->opposite()->vertex()
, \(\ldots\) , j->vertex() == h->opposite()->vertex()
.Halfedge_handle CGAL::HalfedgeDS_decorator< HDS >::split_vertex | ( | Halfedge_handle | h, |
Halfedge_handle | g | ||
) |
splits the vertex incident to h
and g
into two vertices and connects them with a new edge.
The second (new) vertex obtained from hds
is a copy of the first vertex. Returns h->next()->opposite()
after the operation, i.e., the new edge in the orientation towards the new vertex. The time is proportional to the distance from h
to g
around the vertex.
void CGAL::HalfedgeDS_decorator< HDS >::vertices_erase | ( | Vertex_handle | v | ) |
removes the vertex v
if vertices are supported.
Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::vertices_erase | ( | Vertex_handle | first, |
Vertex_handle | last | ||
) |
removes the range [first,last)
if vertices are supported.
Supports_removal
must be CGAL::Tag_true
.
void CGAL::HalfedgeDS_decorator< HDS >::vertices_pop_front | ( | ) |
removes the first vertex if vertices are supported.
Supports_removal
must be CGAL::Tag_true
.
Vertex_handle CGAL::HalfedgeDS_decorator< HDS >::vertices_push_back | ( | const Vertex & | v | ) |
appends a copy of v
to hds
if vertices are supported.
Returns a handle of the new vertex, or Vertex_handle()
otherwise.