CGAL 5.4.1 - Combinatorial Maps
GenericMap Concept Reference

Definition

The concept GenericMap defines a d-dimensional generic map. This concept is defined only to factorize the common notions between CombinatorialMap and GeneralizedMap concepts.

Refines:
DefaultConstructible

A generic map has a set of darts D, and functions \( f_0\), \( \ldots\), \( f_{d}\) that link these darts between them.

Has Models:

CGAL::Combinatorial_map<d,Items,Alloc>

CGAL::Generalized_map<d,Items,Alloc>

See also
CombinatorialMap
GeneralizedMap

Creation

template<typename Map >
 GenericMap (const Map &bmap)
 Construct a new generic map from another one. More...
 

Types

typedef unspecified_type Dart
 Dart type.
 
typedef unspecified_type Dart_handle
 Dart handle type. More...
 
typedef unspecified_type Dart_const_handle
 Dart const handle type. More...
 
typedef unspecified_type Dart_info
 Information associated to each dart.
 
typedef unspecified_type size_type
 Size type (an unsigned integral type).
 

Constants

static const unsigned int dimension
 The dimension d of the generic map.
 
static const size_type NB_MARKS
 The number of available Boolean marks of the generic map.
 

Types for Attributes

typedef unspecified_type Attributes
 The tuple of cell attributes. More...
 
template<unsigned int i>
using Attribute_type = unspecified_type
 Attribute_type<i>::type is the type of i-attributes, a model of CellAttribute concept. More...
 
template<unsigned int i>
using Attribute_handle = unspecified_type
 Attribute_handle<i>::type is a handle to i-attributes. More...
 
template<unsigned int i>
using Attribute_const_handle = unspecified_type
 Attribute_handle<i>::type is a const handle to i-attributes. More...
 

Range Types

typedef unspecified_type Dart_range
 Range of all the darts of the generic map. More...
 
typedef unspecified_type Dart_const_range
 Const range of all the darts of the generic map. More...
 
template<unsigned int i>
using Attribute_range = unspecified_type
 Attribute_range<i>::type is the range of all the i-attributes. More...
 
template<unsigned int i>
using Attribute_const_range = unspecified_type
 Attribute_const_range<i>::type is the const range of all the i-attributes. More...
 
template<unsigned int... I>
using Dart_of_orbit_range = unspecified_type
 Range of all the darts of the <I...> orbit. More...
 
template<unsigned int ... I>
using Dart_of_orbit_const_range = unspecified_type
 Const range of all the darts of the <I...> orbit. More...
 
template<unsigned int i, unsigned int dim = dimension>
using Dart_of_cell_range = unspecified_type
 Range of all the darts of an i-cell. More...
 
template<unsigned int i, unsigned int dim = dimension>
using Dart_of_cell_const_range = unspecified_type
 Const range of all the darts of the i-cell. More...
 
template<unsigned int i, unsigned int j, unsigned int dim = dimension>
using One_dart_per_incident_cell_range = unspecified_type
 Range of one dart of each i-cell incident to one j-cell. More...
 
template<unsigned int i, unsigned int j, unsigned int dim = dimension>
using One_dart_per_incident_cell_const_range = unspecified_type
 Const range of one dart of each i-cell incident to one j-cell. More...
 
template<unsigned int i, unsigned int dim = dimension>
using One_dart_per_cell_range = unspecified_type
 Range of one dart of each i-cell of the generic map. More...
 
template<unsigned int i, unsigned int dim = dimension>
using One_dart_per_cell_const_range = unspecified_type
 Const range of one dart of each i-cell of the generic map. More...
 

Access Member Functions

bool is_empty () const
 Returns true iff the generic map is empty, i.e. it contains no dart.
 
bool is_without_boundary (unsigned int i) const
 Returns true iff the generic map is without i-boundary. More...
 
bool is_without_boundary () const
 Returns true iff the generic map is without boundary in all dimensions.
 
size_type number_of_darts () const
 Returns the number of darts in the generic map.
 
template<unsigned int i>
size_type number_of_attributes () const
 Returns the number of i-attributes in the generic map. More...
 
bool is_dart_used (Dart_const_handle dh) const
 Returns true if dh points to a used dart (i.e. valid).
 
bool is_free (Dart_const_handle dh, unsigned int i) const
 Returns true iff dart *dh is i-free. More...
 
template<unsigned int i>
bool is_free (Dart_const_handle dh) const
 Returns true iff dart *dh is i-free. More...
 
int highest_nonfree_dimension (Dart_const_handle dh) const
 Returns the highest dimension i such that dart *dh is not i-free. More...
 
Dart_handle other_extremity (Dart_handle dh)
 Returns a handle to a dart belonging to the other vertex of the edge containing dart *dh (but not necessarily to the same edge). More...
 
Dart_const_handle other_extremity (Dart_const_handle dh) const
 Returns a const handle to a dart belonging to the other vertex of the edge containing dart *dh, when the dart is const (but not necessarily to the same edge). More...
 
Dart_handle next (Dart_handle dh)
 Returns a handle to a dart belonging to the next edge after *dh, that does not belong to the same 0-cell than *dh and that belongs to the same i-cell than *dhfor each i, 2 \( \leq \) i \( \leq \) dimension.
 
Dart_const_handle next (Dart_const_handle dh) const
 Returns a const handle to a dart belonging to the next edge after *dh, that does not belong to the same 0-cell than *dh and that belongs to the same i-cell than *dhfor each i, 2 \( \leq \) i \( \leq \) dimension.
 
Dart_handle previous (Dart_handle dh)
 Returns a handle to a dart belonging to the previous edge begore *dh, that does not belong to the same 0-cell than *dh and that belongs to the same i-cell than *dhfor each i, 2 \( \leq \) i \( \leq \) dimension.
 
Dart_const_handle previous (Dart_const_handle dh) const
 Returns a const handle to a dart belonging to the previous edge begore *dh, that does not belong to the same 0-cell than *dh and that belongs to the same i-cell than *dhfor each i, 2 \( \leq \) i \( \leq \) dimension.
 
template<unsigned int i>
Dart_handle opposite (Dart_handle dh)
 Returns a handle to a dart belonging to the opposite i-cell than *dh. More...
 
template<unsigned int i>
Dart_const_handle opposite (Dart_const_handle dh) const
 Returns a const handle to a dart belonging to the opposite i-cell than *dh. More...
 
std::ostream & display_characteristics (std::ostream &os) const
 Displays on os the number of elements of the generic map. More...
 

Attributes Access Member Functions

Dart_infoinfo (Dart_handle dh)
 Returns the information associated to dart *dh. More...
 
const Dart_infoinfo (Dart_const_handle dh) const
 Returns the information associated to dart *dh, when the dart is const. More...
 
template<unsigned int i>
Attribute_handle< i >::type attribute (Dart_handle dh)
 Returns a handle to the i-attribute associated to dart *dh. More...
 
template<unsigned int i>
Attribute_const_handle< i >::type attribute (Dart_const_handle dh) const
 Returns a const handle to the i-attribute associated to dart *dh, when the dart is const. More...
 
template<unsigned int i>
Dart_handle dart_of_attribute (typename Attribute_handle< i >::type ah)
 Returns one dart of the cell associated to the i-attribute *ah. More...
 
template<unsigned int i>
Dart_const_handle dart_of_attribute (typename Attribute_const_handle< i >::type ah) const
 Returns one dart of the cell associated to the const i-attribute *ah. More...
 
template<unsigned int i>
Attribute_type< i >::type::Info & info_of_attribute (typename Attribute_handle< i >::type ah)
 Returns the information of the i-attribute *ah. More...
 
template<unsigned int i>
const Attribute_type< i >::type::Info & info_of_attribute (typename Attribute_const_handle< i >::type ah) const
 Returns the information of the const i-attribute *ah. More...
 
template<unsigned int i>
Attribute_type< i >::type::Info & info (Dart_handle adart)
 A shorcut for info_of_attribute<i>(attribute<i>(adart)). More...
 
template<unsigned int i>
const Attribute_type< i >::type::Info & info (Dart_const_handle adart) const
 A shorcut for info_of_attribute<i>(attribute<i>(adart)) for const handle. More...
 
template<unsigned int i>
Dart_handledart (Dart_handle adart)
 A shorcut for dart_of_attribute<i>(attribute<i>(adart)). More...
 
template<unsigned int i>
Dart_const_handle dart (Dart_const_handle adart) const
 A shorcut for dart_of_attribute<i>(attribute<i>(adart)) for const handle. More...
 
template<unsigned int i>
bool is_attribute_used (typename Attribute_const_handle< i >::type ah) const
 Returns true if ah points to a used i-attribute (i.e. valid). More...
 

Transformations Between Handles and Instances

Dart_handle dart_handle (Dart &d)
 Returns the dart handle of d. More...
 
Dart_const_handle dart_handle (const Dart &d) const
 Returns the dart const handle of d. More...
 

Range Access Member Functions

Dart_rangedarts ()
 Returns a range of all the darts in the generic map.
 
Dart_const_rangedarts () const
 Returns a const range of all the darts in the generic map.
 
template<unsigned int i>
Attribute_range< i >::type & attributes ()
 Returns a range of all the i-attributes in the generic map. More...
 
template<unsigned int i>
Attribute_const_range< i >::type & attributes () const
 Returns a const range of all the i-attributes in the generic map. More...
 
template<unsigned int ... I>
Dart_of_orbit_range darts_of_orbit (Dart_handle dh)
 Returns a range of all the darts of the orbit <I...>(*dh). More...
 
template<unsigned int ... I>
Dart_of_orbit_const_range darts_of_orbit (Dart_const_handle dh) const
 Returns a const range of all the darts of the orbit <I...>(*dh). More...
 
template<unsigned int i, unsigned int dim = dimension>
Dart_of_cell_range darts_of_cell (Dart_handle dh)
 Returns a range of all the darts of the i-cell containing *dh. More...
 
template<unsigned int i, unsigned int dim = dimension>
Dart_of_cell_const_range darts_of_cell (Dart_const_handle dh) const
 Returns a const range of all the darts of the i-cell containing *dh. More...
 
template<unsigned int i, unsigned int j, unsigned int dim = dimension>
One_dart_per_incident_cell_range one_dart_per_incident_cell (Dart_handle dh)
 Returns a range of one dart of each i-cell incident to the j-cell containing *dh. More...
 
template<unsigned int i, unsigned int j, unsigned int dim = dimension>
One_dart_per_incident_cell_const_range one_dart_per_incident_cell (Dart_const_handle dh) const
 Returns a const range of one dart of each i-cell incident to the j-cell containing *dh. More...
 
template<unsigned int i, unsigned int dim = dimension>
One_dart_per_cell_range one_dart_per_cell ()
 Returns a range of one dart of each i-cell in the generic map. More...
 
template<unsigned int i, unsigned int dim = dimension>
One_dart_per_cell_const_range one_dart_per_cell () const
 Returns a const range of one dart of each i-cell in the generic map. More...
 

Modifiers

template<typename T1 >
Dart_handle create_dart (T1 t1)
 Creates a new dart in the generic map, and returns the corresponding handle. More...
 
void erase_dart (Dart_handle dh)
 Removes *dh from the generic map. More...
 
template<unsigned int i, typename T1 >
Attribute_handle< i >::type create_attribute (T1 t1)
 Creates a new i-attribute in the generic map, and returns the corresponding handle. More...
 
template<unsigned int i>
void erase_attribute (Attribute_handle< i >::type ah)
 Removes the i-attribute *ah from the generic map. More...
 
template<unsigned int i>
void set_attribute (Dart_handle dh, Attribute_handle< i >::type ah)
 Associates the i-attribute of all the darts of the i-cell containing *dh to *ah. More...
 
void clear ()
 Deletes all the darts and all the attributes of the generic map.
 
GenericMapoperator= (const GenericMap &bmap)
 Assignment operator. More...
 
void swap (GenericMap &bmap)
 Swap the current generic map with bmap. More...
 

Attributes management

bool are_attributes_automatically_managed () const
 Returns the status of the management of the attributes of the generic map. More...
 
void set_automatic_attributes_management (bool update_attributes)
 Set the status of the managment of the attributes of the generic map. More...
 
void correct_invalid_attributes ()
 Correct the invalid attributes of the generic map. More...
 

Dynamic Onmerge/Onsplit functors

template<int i>
boost::function< void(typename Attribute_type< i >::type &, typename Attribute_type< i >::type &)> & onsplit_function ()
 Return the current dynamic onsplit function associated with i-attributes. More...
 
template<int i>
const boost::function< void(typename Attribute_type< i >::type &, typename Attribute_type< i >::type &)> & onsplit_function () const
 Return the current dynamic onsplit function associated with i-attributes, when *this is const. More...
 
template<int i>
boost::function< void(typename Attribute_type< i >::type &, typename Attribute_type< i >::type &)> & onmerge_function ()
 Return the current dynamic onmerge function associated with i-attributes. More...
 
template<int i>
const boost::function< void(typename Attribute_type< i >::type &, typename Attribute_type< i >::type &)> & onmerge_function () const
 Return the current dynamic onmerge function associated with i-attributes, when *this is const. More...
 

Boolean Marks

size_type get_new_mark () const
 Reserves a new mark. More...
 
bool is_reserved (size_type m) const
 Returns true iff m is a reserved mark of the generic map. More...
 
bool is_marked (Dart_const_handle dh, size_type m) const
 Returns true iff *dh is marked for m. More...
 
void mark (Dart_const_handle dh, size_type m) const
 Marks *dh for m. More...
 
void unmark (Dart_const_handle dh, size_type m) const
 Unmarks *dh for the mark m. More...
 
void negate_mark (size_type m) const
 Inverse the mark m for all the darts of the generic map. More...
 
void unmark_all (size_type m) const
 Unmarks all the darts of the generic map for m. More...
 
size_type number_of_marked_darts (size_type m) const
 Returns the number of marked darts for m. More...
 
size_type number_of_unmarked_darts (size_type m) const
 Return the number of unmarked darts for m. More...
 
void free_mark (size_type m) const
 Frees mark m. More...
 

Constructions

Dart_handle make_combinatorial_hexahedron ()
 Creates a combinatorial hexahedron (six combinatorial quadrangles 2-sewn together), and adds it in the generic map. More...
 
Dart_handle make_combinatorial_polygon (unsigned int lg)
 Creates a combinatorial polygon of length lg (a cycle of lg darts 1-sewn together), and adds it in the generic map. More...
 
Dart_handle make_combinatorial_tetrahedron ()
 Creates a combinatorial tetrahedron (four combinatorial triangles 2-sewn together), and adds it in the generic map. More...
 
Dart_handle make_edge ()
 Creates an isolated edge (two darts sewn to represent one edge and two vertices) and adds it in the generic map. More...
 

Operations

Dart_handle insert_cell_0_in_cell_1 (Dart_handle dh)
 Inserts a 0-cell in the 1-cell containing dh. More...
 
Dart_handle insert_cell_0_in_cell_2 (Dart_handle dh)
 Inserts a 0-cell in the 2-cell containing dh. More...
 
Dart_handle insert_cell_1_in_cell_2 (Dart_handle dh1, Dart_handle dh2)
 Inserts a 1-cell in the 2-cell containing dh1 and dh2. More...
 
template<class InputIterator >
Dart_handle insert_cell_2_in_cell_3 (InputIterator afirst, InputIterator alast)
 Inserts a 2-cell along the path of 1-cells containing darts given by the range [afirst,alast). More...
 
Dart_handle insert_dangling_cell_1_in_cell_2 (Dart_handle dh)
 Inserts a 1-cell in a the 2-cell containing dh, the 1-cell being attached only by one of its extremity to the 0-cell containing dh. More...
 
bool is_insertable_cell_1_in_cell_2 (Dart_const_handle dh1, Dart_const_handle dh2)
 Returns true iff it is possible to insert a 1-cell in the generic map between dh1 and dh2. More...
 
template<class InputIterator >
bool is_insertable_cell_2_in_cell_3 (InputIterator afirst, InputIterator alast)
 Returns true iff it is possible to insert a 2-cell in the generic map along the path of darts given by the range [afirst,alast). More...
 
template<unsigned int i>
bool is_removable (Dart_const_handle dh)
 Returns true iff the i-cell containing dh can be removed. More...
 
template<unsigned int i>
size_type remove_cell (Dart_handle dh)
 Removes the i-cell containing dh. More...
 

Member Typedef Documentation

◆ Attribute_const_handle

template<unsigned int i>
using GenericMap::Attribute_const_handle = unspecified_type

Attribute_handle<i>::type is a const handle to i-attributes.

For each Attribute_const_handle<i>::type ah, the type of *ah must be const Attribute_type<i>::type.

Precondition
0 \( \leq \) i \( \leq \) dimension and i-attributes are non void.
Note
It can be implemented using a nested template class.

◆ Attribute_const_range

template<unsigned int i>
using GenericMap::Attribute_const_range = unspecified_type

Attribute_const_range<i>::type is the const range of all the i-attributes.

Attribute_const_range<i>::type is a model of ConstRange concept, its iterator type is bidirectional and its value type is Attribute_type<i>::type.

Precondition
0 \( \leq \) i \( \leq \) dimension and i-attributes are non void.
Note
It can be implemented using a nested template class.

◆ Attribute_handle

template<unsigned int i>
using GenericMap::Attribute_handle = unspecified_type

Attribute_handle<i>::type is a handle to i-attributes.

For each Attribute_handle<i>::type ah, the type of *ah must be Attribute_type<i>::type.

Precondition
0 \( \leq \) i \( \leq \) dimension and i-attributes are non void.
Note
It can be implemented using a nested template class.

◆ Attribute_range

template<unsigned int i>
using GenericMap::Attribute_range = unspecified_type

Attribute_range<i>::type is the range of all the i-attributes.

Attribute_range<i>::type is a model of Range concept, its iterator type is bidirectional and its value type is Attribute_type<i>::type .

Precondition
0 \( \leq \) i \( \leq \) dimension and i-attributes are non void.
Note
It can be implemented using a nested template class.

◆ Attribute_type

template<unsigned int i>
using GenericMap::Attribute_type = unspecified_type

Attribute_type<i>::type is the type of i-attributes, a model of CellAttribute concept.

Attribute_type<i>::type::Dart_handle is equal to Dart_handle, and Attribute_type<i>::type::Dart_const_handle is equal to Dart_const_handle.

Precondition
0 \( \leq \) i \( \leq \) dimension and i-attributes are non void.
Note
It can be implemented using a nested template class.

◆ Attributes

The tuple of cell attributes.

It contains at most dimension+1 types (one for each possible cell of the generic map). Each type of the tuple must be either a model of the CellAttribute concept or void. The first type corresponds to 0-attributes, the second to 1-attributes and so on. If the i th type in the tuple is void, (i-1)-attributes are disabled. Otherwise, (i-1)-attributes are enabled and have the given type. If the size of the tuple is k, with k \( < \) dimension+1, \( \forall \) i: k \( \leq \) i \( \leq \) dimension, i-attributes are disabled.

◆ Dart_const_handle

Dart const handle type.

For each Dart_const_handle dh, the type of *dh must be const Dart.

◆ Dart_const_range

Const range of all the darts of the generic map.

This type is a model of ConstRange concept, its iterator type is bidirectional and its value type is Dart.

◆ Dart_handle

Dart handle type.

For each Dart_handle dh, the type of *dh must be Dart.

◆ Dart_of_cell_const_range

template<unsigned int i, unsigned int dim = dimension>
using GenericMap::Dart_of_cell_const_range = unspecified_type

Const range of all the darts of the i-cell.

Cells are considered in dim dimension, with 0 \( \leq \) i \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension. If i==dim+1, range of all the darts of a connected component. This type is a model of ConstRange concept, its iterator type is forward and its value type is Dart.

◆ Dart_of_cell_range

template<unsigned int i, unsigned int dim = dimension>
using GenericMap::Dart_of_cell_range = unspecified_type

Range of all the darts of an i-cell.

Cells are considered in dim dimension, with 0 \( \leq \) i \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension. If i==dim+1, range of all the darts of a connected component. This type is a model of Range concept, its iterator type is forward and its value type is Dart.

◆ Dart_of_orbit_const_range

template<unsigned int ... I>
using GenericMap::Dart_of_orbit_const_range = unspecified_type

Const range of all the darts of the <I...> orbit.

This type is a model of ConstRange concept, its iterator type is forward and its value type is Dart.

◆ Dart_of_orbit_range

template<unsigned int... I>
using GenericMap::Dart_of_orbit_range = unspecified_type

Range of all the darts of the <I...> orbit.

This type is a model of Range concept, its iterator type is forward and its value type is Dart.

◆ Dart_range

Range of all the darts of the generic map.

This type is a model of Range concept, its iterator type is bidirectional and its value type is Dart.

◆ One_dart_per_cell_const_range

template<unsigned int i, unsigned int dim = dimension>
using GenericMap::One_dart_per_cell_const_range = unspecified_type

Const range of one dart of each i-cell of the generic map.

Cells are considered in dim dimension, with 0 \( \leq \) i \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension. If i==dim+1, consider each connected component instead of each i-cell. This type is a model of ConstRange concept, its iterator type is forward and its value type is Dart.

◆ One_dart_per_cell_range

template<unsigned int i, unsigned int dim = dimension>
using GenericMap::One_dart_per_cell_range = unspecified_type

Range of one dart of each i-cell of the generic map.

Cells are considered in dim dimension, with 0 \( \leq \) i \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension. If i==dim+1, consider each connected component instead of each i-cell. This type is a model of Range concept, its iterator type is forward and its value type is Dart.

◆ One_dart_per_incident_cell_const_range

template<unsigned int i, unsigned int j, unsigned int dim = dimension>
using GenericMap::One_dart_per_incident_cell_const_range = unspecified_type

Const range of one dart of each i-cell incident to one j-cell.

Cells are considered in dim dimension, with 0 \( \leq \) i \( \leq \) dim+1, 0 \( \leq \) j \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension. If i==dim+1, consider each connected component instead of each i-cell. If j==dim+1, consider one connected component instead of one j-cell. This type is a model of ConstRange concept, its iterator type is forward and its value type is Dart.

◆ One_dart_per_incident_cell_range

template<unsigned int i, unsigned int j, unsigned int dim = dimension>
using GenericMap::One_dart_per_incident_cell_range = unspecified_type

Range of one dart of each i-cell incident to one j-cell.

Cells are considered in dim dimension, with 0 \( \leq \) i \( \leq \) dim+1, 0 \( \leq \) j \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension. If i==dim+1, consider each connected component instead of each i-cell. If j==dim+1, consider one connected component instead of one j-cell. This type is a model of Range concept, its iterator type is forward and its value type is Dart.

Constructor & Destructor Documentation

◆ GenericMap()

template<typename Map >
GenericMap::GenericMap ( const Map &  bmap)

Construct a new generic map from another one.

The new generic map is created by copying the darts and the non void attributes of bmap. Map must be a model of GenericMap concept, which can be defined with a different dimension and/or different attributes than *this. In this case, only dimensions that are common to bmap and *this, and only non void i-attributes of bmap whose info type is the same to the info of non void i-attributes of *this, are copied.

Member Function Documentation

◆ are_attributes_automatically_managed()

bool GenericMap::are_attributes_automatically_managed ( ) const

Returns the status of the management of the attributes of the generic map.

true if the high level operations update the non void attributes (default value); false otherwise.

◆ attribute() [1/2]

template<unsigned int i>
Attribute_handle<i>::type GenericMap::attribute ( Dart_handle  dh)

Returns a handle to the i-attribute associated to dart *dh.

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ attribute() [2/2]

template<unsigned int i>
Attribute_const_handle<i>::type GenericMap::attribute ( Dart_const_handle  dh) const

Returns a const handle to the i-attribute associated to dart *dh, when the dart is const.

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ attributes() [1/2]

template<unsigned int i>
Attribute_range<i>::type& GenericMap::attributes ( )

Returns a range of all the i-attributes in the generic map.

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ attributes() [2/2]

template<unsigned int i>
Attribute_const_range<i>::type& GenericMap::attributes ( ) const

Returns a const range of all the i-attributes in the generic map.

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ correct_invalid_attributes()

void GenericMap::correct_invalid_attributes ( )

Correct the invalid attributes of the generic map.

We can have invalid attribute either if we have called set_automatic_attributes_management(false) before to use some modification operations or if we have modified the generic map by using low level operations.

\( \forall i \), 0 \( \leq \) i \( \leq \) dimension such that the i-attributes are non void, \( \forall \) d \( \in \) darts():

  • if there exists a dart d2 in the same i-cell than d with a different i-attribute, then the i-attribute of d2 is set to the i-attribute of d;
  • if there exists a dart d2 in a different i-cell than d with the same i-attribute, then the i-attribute of all the darts in i-cell(d) is set to a new i-attribute (copy of the original attribute);
  • ensures that dart_of_attribute(d) \( \in \) i-cell(d).

◆ create_attribute()

template<unsigned int i, typename T1 >
Attribute_handle<i>::type GenericMap::create_attribute ( T1  t1)

Creates a new i-attribute in the generic map, and returns the corresponding handle.

Calls the constructor of i-attribute having T1 as parameter. Overloads of this member function are defined that take from zero to nine arguments. With zero argument, create_attribute<i>() creates a new i-attribute by using the default constructor.

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ create_dart()

template<typename T1 >
Dart_handle GenericMap::create_dart ( T1  t1)

Creates a new dart in the generic map, and returns the corresponding handle.

Calls the constructor of dart having T1 as parameter. A new dart is initialized to be i-free, \( \forall \) i: 0 \( \leq \) i \( \leq \) dimension, and to have no associated attribute for each non void attribute. Overloads of this member function are defined that take from zero to nine arguments. With zero argument, create_dart() creates a new dart by using the default constructor.

◆ dart() [1/2]

template<unsigned int i>
Dart_handle& GenericMap::dart ( Dart_handle  adart)

A shorcut for dart_of_attribute<i>(attribute<i>(adart)).

Precondition
attribute<i>(adart)!=nullptr.

◆ dart() [2/2]

template<unsigned int i>
Dart_const_handle GenericMap::dart ( Dart_const_handle  adart) const

A shorcut for dart_of_attribute<i>(attribute<i>(adart)) for const handle.

Precondition
attribute<i>(adart)!=nullptr.

◆ dart_handle() [1/2]

Dart_handle GenericMap::dart_handle ( Dart d)

Returns the dart handle of d.

Precondition
d \( \in \) darts().

◆ dart_handle() [2/2]

Dart_const_handle GenericMap::dart_handle ( const Dart d) const

Returns the dart const handle of d.

Precondition
d \( \in \) darts().

◆ dart_of_attribute() [1/2]

template<unsigned int i>
Dart_handle GenericMap::dart_of_attribute ( typename Attribute_handle< i >::type  ah)

Returns one dart of the cell associated to the i-attribute *ah.

nullptr if Supports_cell_dart of i-attributes is equal to Tag_false.

Precondition
0 \( \leq \) i \( \leq \) dimension, i-attributes are non void and ah!=nullptr.

◆ dart_of_attribute() [2/2]

template<unsigned int i>
Dart_const_handle GenericMap::dart_of_attribute ( typename Attribute_const_handle< i >::type  ah) const

Returns one dart of the cell associated to the const i-attribute *ah.

nullptr if Supports_cell_dart of i-attributes is equal to Tag_false.

Precondition
0 \( \leq \) i \( \leq \) dimension, i-attributes are non void and ah!=nullptr.

◆ darts_of_cell() [1/2]

template<unsigned int i, unsigned int dim = dimension>
Dart_of_cell_range GenericMap::darts_of_cell ( Dart_handle  dh)

Returns a range of all the darts of the i-cell containing *dh.

The first element in the range points onto *dh. i-cells are considered in dim dimension. If i==dim+1, range of all the darts of the connected component containing dh.

Precondition
*dh \( \in \) darts(), 0 \( \leq \) i \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension.

◆ darts_of_cell() [2/2]

template<unsigned int i, unsigned int dim = dimension>
Dart_of_cell_const_range GenericMap::darts_of_cell ( Dart_const_handle  dh) const

Returns a const range of all the darts of the i-cell containing *dh.

The first element in the range points onto *dh. i-cells are considered in dim dimension. If i==dim+1, const range of all the darts of the connected component containing *dh.

Precondition
Same as for the non const version.

◆ darts_of_orbit() [1/2]

template<unsigned int ... I>
Dart_of_orbit_range GenericMap::darts_of_orbit ( Dart_handle  dh)

Returns a range of all the darts of the orbit <I...>(*dh).

The first element in the range points onto *dh.

Precondition
*dh \( \in \) darts() and I... is a sequence of integers \( i_1\), \( \ldots\), \( i_k\), such that 0 \( \leq \) \( i_1\) \( < \) \( i_2\) \( < \) \( \ldots\) \( < \) \( i_k\) \( \leq \) dimension.

◆ darts_of_orbit() [2/2]

template<unsigned int ... I>
Dart_of_orbit_const_range GenericMap::darts_of_orbit ( Dart_const_handle  dh) const

Returns a const range of all the darts of the orbit <I...>(*dh).

The first element in the range points onto *dh.

Precondition
Same as for the non const version.

◆ display_characteristics()

std::ostream& GenericMap::display_characteristics ( std::ostream &  os) const

Displays on os the number of elements of the generic map.

Its number of darts, its number of i-cells, for each i, 0 \( \leq \) i \( \leq \) dimension, and its number of connected components.

Example of output for a 3D combinatorial map containing two disjoint combinatorial tetrahedra:

#Darts=24, #0-cells=8, #1-cells=12, #2-cells=8, #3-cells=2, #ccs=2

◆ erase_attribute()

template<unsigned int i>
void GenericMap::erase_attribute ( Attribute_handle< i >::type  ah)

Removes the i-attribute *ah from the generic map.

Precondition
0 \( \leq \) i \( \leq \) dimension, i-attributes are non void, and *ah \( \in \) attributes<i>().

◆ erase_dart()

void GenericMap::erase_dart ( Dart_handle  dh)

Removes *dh from the generic map.

Precondition
*dh \( \in \) darts().

◆ free_mark()

void GenericMap::free_mark ( size_type  m) const

Frees mark m.

Precondition
is_reserved(m).

◆ get_new_mark()

size_type GenericMap::get_new_mark ( ) const

Reserves a new mark.

Returns its index. If there is no more available free mark, throw the exception Exception_no_more_available_mark.

◆ highest_nonfree_dimension()

int GenericMap::highest_nonfree_dimension ( Dart_const_handle  dh) const

Returns the highest dimension i such that dart *dh is not i-free.

-1 if dh is free for any dimension.

◆ info() [1/4]

Dart_info& GenericMap::info ( Dart_handle  dh)

Returns the information associated to dart *dh.

Precondition
Dart_info is not void.

◆ info() [2/4]

const Dart_info& GenericMap::info ( Dart_const_handle  dh) const

Returns the information associated to dart *dh, when the dart is const.

Precondition
Dart_info is not void.

◆ info() [3/4]

template<unsigned int i>
Attribute_type<i>::type::Info& GenericMap::info ( Dart_handle  adart)

A shorcut for info_of_attribute<i>(attribute<i>(adart)).

Precondition
attribute<i>(adart)!=nullptr.

◆ info() [4/4]

template<unsigned int i>
const Attribute_type<i>::type::Info& GenericMap::info ( Dart_const_handle  adart) const

A shorcut for info_of_attribute<i>(attribute<i>(adart)) for const handle.

Precondition
attribute<i>(adart)!=nullptr.

◆ info_of_attribute() [1/2]

template<unsigned int i>
Attribute_type<i>::type::Info& GenericMap::info_of_attribute ( typename Attribute_handle< i >::type  ah)

Returns the information of the i-attribute *ah.

Defined only if Info of i-attributes is not void.

Precondition
0 \( \leq \) i \( \leq \) dimension, i-attributes are non void and ah!=nullptr.

◆ info_of_attribute() [2/2]

template<unsigned int i>
const Attribute_type<i>::type::Info& GenericMap::info_of_attribute ( typename Attribute_const_handle< i >::type  ah) const

Returns the information of the const i-attribute *ah.

Defined only if Info of i-attributes is not void.

Precondition
0 \( \leq \) i \( \leq \) dimension, i-attributes are non void and ah!=nullptr.

◆ insert_cell_0_in_cell_1()

Dart_handle GenericMap::insert_cell_0_in_cell_1 ( Dart_handle  dh)

Inserts a 0-cell in the 1-cell containing dh.

Returns next(dh), a handle on one dart belonging to the new 0-cell.

Precondition
dimension \( \geq\) 1 and *dh \( \in \) darts().

See examples for combinatorial map in Figure 28.11 and for generalized map in Figure 29.13.

If are_attributes_automatically_managed()==true, if 1-attributes are non void, Attribute_type<1>::type::On_split(a,a') is called, with a the original 1-attribute associated with dh and a' the new 1-attribute created during the operation. If set, the dynamic onsplit function of 1-attributes is also called on a and a'.

Advanced

If are_attributes_automatically_managed()==false, non void attributes are not updated; thus the generic map can be no more valid after this operation.

See also
insert_cell_0_in_cell_2
insert_cell_1_in_cell_2
insert_dangling_cell_1_in_cell_2
insert_cell_2_in_cell_3<InputIterator>
remove_cell<i>

◆ insert_cell_0_in_cell_2()

Dart_handle GenericMap::insert_cell_0_in_cell_2 ( Dart_handle  dh)

Inserts a 0-cell in the 2-cell containing dh.

The 2-cell is split in triangles, one for each initial edge of the facet. Returns a handle on one dart belonging to the new 0-cell.

Precondition
dimension \( \geq\) 2 and *dh \( \in \) darts().

See examples for combinatorial map in Figure 28.12 and for generalized map in Figure 29.14.

If are_attributes_automatically_managed()==true, if 2-attributes are non void, Attribute_type<2>::type::On_split(a,a') is called, with a the original 2-attribute associated with dh and a' each new 2-attribute created during the operation. If set, the dynamic onsplit function of 2-attributes is also called on a and a'.

Advanced

If are_attributes_automatically_managed()==false, non void attributes are not updated; thus the generic map can be no more valid after this operation.

See also
insert_cell_0_in_cell_2
insert_cell_1_in_cell_2
insert_dangling_cell_1_in_cell_2
insert_cell_2_in_cell_3<InputIterator>
remove_cell<i>

◆ insert_cell_1_in_cell_2()

Dart_handle GenericMap::insert_cell_1_in_cell_2 ( Dart_handle  dh1,
Dart_handle  dh2 
)

Inserts a 1-cell in the 2-cell containing dh1 and dh2.

Returns previous(dh1), a handle on one dart belonging to the new 1-cell.

Precondition
is_insertable_cell_1_in_cell_2(dh1,dh2).

See examples for combinatorial map in Figure 28.13 and for generalized map in Figure 29.15.

If are_attributes_automatically_managed()==true, if 2-attributes are non void, Attribute_type<2>::type::On_split(a,a') is called, with a the original 2-attribute associated with dh and a' the new 2-attribute created during the operation. If set, the dynamic onsplit function of 2-attributes is also called on a and a'.

Advanced

If are_attributes_automatically_managed()==false, non void attributes are not updated; thus the generic map can be no more valid after this operation.

See also
is_insertable_cell_1_in_cell_2
insert_cell_0_in_cell_1
insert_cell_0_in_cell_2
insert_dangling_cell_1_in_cell_2
insert_cell_2_in_cell_3<InputIterator>
remove_cell<i>

◆ insert_cell_2_in_cell_3()

template<class InputIterator >
Dart_handle GenericMap::insert_cell_2_in_cell_3 ( InputIterator  afirst,
InputIterator  alast 
)

Inserts a 2-cell along the path of 1-cells containing darts given by the range [afirst,alast).

Returns opposite<2>(*afirst), a handle on one dart belonging to the new 2-cell.

Precondition
is_insertable_cell_2_in_cell_3(afirst,alast).

See examples for combinatorial map in Figure 28.14 and for generalized map in Figure 29.16.

If are_attributes_automatically_managed()==true, if 3-attributes are non void, Attribute_type<3>::type::On_split(a,a') is called, with a the original 3-attribute associated with dh and a' the new 3-attribute created during the operation. If set, the dynamic onsplit function of 3-attributes is also called on a and a'.

Advanced

If are_attributes_automatically_managed()==false, non void attributes are not updated; thus the generic map can be no more valid after this operation.

See also
is_insertable_cell_2_in_cell_3<InputIterator>
insert_cell_0_in_cell_1
insert_cell_0_in_cell_2
insert_cell_1_in_cell_2
insert_dangling_cell_1_in_cell_2
remove_cell<i>

◆ insert_dangling_cell_1_in_cell_2()

Dart_handle GenericMap::insert_dangling_cell_1_in_cell_2 ( Dart_handle  dh)

Inserts a 1-cell in a the 2-cell containing dh, the 1-cell being attached only by one of its extremity to the 0-cell containing dh.

Returns previous(dh), a handle on the dart belonging to the new 1-cell and to the new 0-cell.

Precondition
dimension \( \geq\) 2 and *dh \( \in \) darts().

See examples for combinatorial map in Figure 28.13 and for generalized map in Figure 29.15.

Advanced

If are_attributes_automatically_managed()==false, non void attributes are not updated; thus the generic map can be no more valid after this operation.

See also
insert_cell_0_in_cell_1
insert_cell_0_in_cell_2
insert_cell_1_in_cell_2
insert_cell_2_in_cell_3<InputIterator>
remove_cell<i>

◆ is_attribute_used()

template<unsigned int i>
bool GenericMap::is_attribute_used ( typename Attribute_const_handle< i >::type  ah) const

Returns true if ah points to a used i-attribute (i.e. valid).

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ is_free() [1/2]

bool GenericMap::is_free ( Dart_const_handle  dh,
unsigned int  i 
) const

Returns true iff dart *dh is i-free.

Precondition
0 \( \leq \) i \( \leq \) dimension.

◆ is_free() [2/2]

template<unsigned int i>
bool GenericMap::is_free ( Dart_const_handle  dh) const

Returns true iff dart *dh is i-free.

Precondition
0 \( \leq \) i \( \leq \) dimension.

◆ is_insertable_cell_1_in_cell_2()

bool GenericMap::is_insertable_cell_1_in_cell_2 ( Dart_const_handle  dh1,
Dart_const_handle  dh2 
)

Returns true iff it is possible to insert a 1-cell in the generic map between dh1 and dh2.

This is possible if dh1 \( \neq \) dh2 and dh1 can be reached from dh2 by using some previous and next calls.

Precondition
dimension \( \geq\) 2, *dh1 \( \in \) darts(), and *dh2 \( \in \) darts().
See also
insert_cell_1_in_cell_2
is_insertable_cell_2_in_cell_3<InputIterator>

◆ is_insertable_cell_2_in_cell_3()

template<class InputIterator >
bool GenericMap::is_insertable_cell_2_in_cell_3 ( InputIterator  afirst,
InputIterator  alast 
)

Returns true iff it is possible to insert a 2-cell in the generic map along the path of darts given by the range [afirst,alast).

The 2-cell can be inserted iff the ordered list of darts form a closed path of edges inside a same volume.

Precondition
dimension \( \geq\) 3.
See also
insert_cell_2_in_cell_3<InputIterator>
is_insertable_cell_1_in_cell_2

◆ is_marked()

bool GenericMap::is_marked ( Dart_const_handle  dh,
size_type  m 
) const

Returns true iff *dh is marked for m.

Precondition
is_reserved(m) and *dh \( \in \) darts().

◆ is_removable()

template<unsigned int i>
bool GenericMap::is_removable ( Dart_const_handle  dh)

Returns true iff the i-cell containing dh can be removed.

An i-cell can be removed if i==dimension or if i==dimension-1 or if i \( < \) dimension-1 and the i-cell containing dh is incident to at most two (i+1)-cells.

Precondition
0 \( \leq \) i \( \leq \) dimension and *dh \( \in \) darts().
See also
remove_cell<i>

◆ is_reserved()

bool GenericMap::is_reserved ( size_type  m) const

Returns true iff m is a reserved mark of the generic map.

Precondition
0 \( \leq \) m \( < \) NB_MARKS.

◆ is_without_boundary()

bool GenericMap::is_without_boundary ( unsigned int  i) const

Returns true iff the generic map is without i-boundary.

The map is without i-boundary if there is no i-free dart.

Precondition
1 \( \leq \) i \( \leq \) dimension.

◆ make_combinatorial_hexahedron()

Dart_handle GenericMap::make_combinatorial_hexahedron ( )

Creates a combinatorial hexahedron (six combinatorial quadrangles 2-sewn together), and adds it in the generic map.

Returns a handle on one dart of this combinatorial hexahedron.

Precondition
dimension \(\geq\) 2.
See also
make_edge
make_combinatorial_polygon
make_combinatorial_tetrahedron

◆ make_combinatorial_polygon()

Dart_handle GenericMap::make_combinatorial_polygon ( unsigned int  lg)

Creates a combinatorial polygon of length lg (a cycle of lg darts 1-sewn together), and adds it in the generic map.

Returns a handle on one dart of this combinatorial polygon.

Precondition
dimension \( \geq\) 1 and lg \( >\) 0.
See also
make_edge
make_combinatorial_tetrahedron
make_combinatorial_hexahedron

◆ make_combinatorial_tetrahedron()

Dart_handle GenericMap::make_combinatorial_tetrahedron ( )

Creates a combinatorial tetrahedron (four combinatorial triangles 2-sewn together), and adds it in the generic map.

Returns a handle on one dart of this combinatorial tetrahedron.

Precondition
dimension \( \geq\) 2.
See also
make_edge
make_combinatorial_polygon
make_combinatorial_hexahedron

◆ make_edge()

Dart_handle GenericMap::make_edge ( )

Creates an isolated edge (two darts sewn to represent one edge and two vertices) and adds it in the generic map.

Returns a handle on one dart of this edge.

Precondition
dimension \( \geq\) 2.
See also
make_combinatorial_polygon
make_combinatorial_tetrahedron
make_combinatorial_hexahedron

◆ mark()

void GenericMap::mark ( Dart_const_handle  dh,
size_type  m 
) const

Marks *dh for m.

Precondition
is_reserved(m) and *dh \( \in \) darts().

◆ negate_mark()

void GenericMap::negate_mark ( size_type  m) const

Inverse the mark m for all the darts of the generic map.

All the marked darts become unmarked and all the unmarked darts become marked.

Precondition
is_reserved(m).

◆ number_of_attributes()

template<unsigned int i>
size_type GenericMap::number_of_attributes ( ) const

Returns the number of i-attributes in the generic map.

Precondition
0 \( \leq \) i \( \leq \) dimension, and i-attributes are non void.

◆ number_of_marked_darts()

size_type GenericMap::number_of_marked_darts ( size_type  m) const

Returns the number of marked darts for m.

Precondition
is_reserved(m).

◆ number_of_unmarked_darts()

size_type GenericMap::number_of_unmarked_darts ( size_type  m) const

Return the number of unmarked darts for m.

Precondition
is_reserved(m).

◆ one_dart_per_cell() [1/2]

template<unsigned int i, unsigned int dim = dimension>
One_dart_per_cell_range GenericMap::one_dart_per_cell ( )

Returns a range of one dart of each i-cell in the generic map.

Cells are considered in dim dimension. If i==dim+1, range of one dart of each connected component in the generic map.

Precondition
0 \( \leq \) i \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension.

◆ one_dart_per_cell() [2/2]

template<unsigned int i, unsigned int dim = dimension>
One_dart_per_cell_const_range GenericMap::one_dart_per_cell ( ) const

Returns a const range of one dart of each i-cell in the generic map.

Cells are considered in dim dimension. If i==dim+1, const range of one dart of each connected component in the generic map.

Precondition
Same as for the non const version.

◆ one_dart_per_incident_cell() [1/2]

template<unsigned int i, unsigned int j, unsigned int dim = dimension>
One_dart_per_incident_cell_range GenericMap::one_dart_per_incident_cell ( Dart_handle  dh)

Returns a range of one dart of each i-cell incident to the j-cell containing *dh.

The first element in the range points onto *dh. Cells are considered in dim dimension. If i==dim+1, consider each connected component instead of each i-cell. If j==dim+1, consider the connected component containing *dh instead of the j-cell.

Precondition
*dh \( \in \) darts(), 0 \( \leq \) i \( \leq \) dim+1, 0 \( \leq \) j \( \leq \) dim+1 and 0 \( \leq \) dim \( \leq \) dimension.

◆ one_dart_per_incident_cell() [2/2]

template<unsigned int i, unsigned int j, unsigned int dim = dimension>
One_dart_per_incident_cell_const_range GenericMap::one_dart_per_incident_cell ( Dart_const_handle  dh) const

Returns a const range of one dart of each i-cell incident to the j-cell containing *dh.

The first element in the range points onto *dh. Cells are considered in dim dimension. If i==dim+1, consider each connected component instead of each i-cell. If j==dim+1, consider the connected component containing *dh instead of the j-cell.

Precondition
Same as for the non const version.

◆ onmerge_function() [1/2]

template<int i>
boost::function<void(typename Attribute_type< i >::type&, typename Attribute_type< i >::type&)>& GenericMap::onmerge_function ( )

Return the current dynamic onmerge function associated with i-attributes.

This is a boost::function returning void and having two references to Attribute_type<i>::type as parameters. The onmerge function is returned by reference so that we can modify it.

◆ onmerge_function() [2/2]

template<int i>
const boost::function<void(typename Attribute_type< i >::type&, typename Attribute_type< i >::type&)>& GenericMap::onmerge_function ( ) const

Return the current dynamic onmerge function associated with i-attributes, when *this is const.

This is a boost::function returning void and having two references to Attribute_type<i>::type as parameters.

◆ onsplit_function() [1/2]

template<int i>
boost::function<void(typename Attribute_type< i >::type&, typename Attribute_type< i >::type&)>& GenericMap::onsplit_function ( )

Return the current dynamic onsplit function associated with i-attributes.

This is a boost::function returning void and having two references to Attribute_type<i>::type as parameters. The onsplit function is returned by reference so that we can modify it.

◆ onsplit_function() [2/2]

template<int i>
const boost::function<void(typename Attribute_type< i >::type&, typename Attribute_type< i >::type&)>& GenericMap::onsplit_function ( ) const

Return the current dynamic onsplit function associated with i-attributes, when *this is const.

This is a boost::function returning void and having two references to Attribute_type<i>::type as parameters.

◆ operator=()

GenericMap& GenericMap::operator= ( const GenericMap bmap)

Assignment operator.

All darts and attributes are duplicated, and the former generic map is deleted.

◆ opposite() [1/2]

template<unsigned int i>
Dart_handle GenericMap::opposite ( Dart_handle  dh)

Returns a handle to a dart belonging to the opposite i-cell than *dh.

This dart does not belong to the same 0-cell than *dh, nor to the same i-cell, but belongs to the same i-cell than *dhfor each j, 2 \( \leq \) j \( \leq \) dimension, j \( \neq \) i.

Precondition
2 \( \leq \) i \( \leq \) dimension.

◆ opposite() [2/2]

template<unsigned int i>
Dart_const_handle GenericMap::opposite ( Dart_const_handle  dh) const

Returns a const handle to a dart belonging to the opposite i-cell than *dh.

This dart does not belong to the same 0-cell than *dh, nor to the same i-cell, but belongs to the same i-cell than *dhfor each j, 2 \( \leq \) j \( \leq \) dimension, j \( \neq \) i.

Precondition
2 \( \leq \) i \( \leq \) dimension.

◆ other_extremity() [1/2]

Dart_handle GenericMap::other_extremity ( Dart_handle  dh)

Returns a handle to a dart belonging to the other vertex of the edge containing dart *dh (but not necessarily to the same edge).

nullptr if such a dart does not exist.

◆ other_extremity() [2/2]

Dart_const_handle GenericMap::other_extremity ( Dart_const_handle  dh) const

Returns a const handle to a dart belonging to the other vertex of the edge containing dart *dh, when the dart is const (but not necessarily to the same edge).

nullptr if such a dart does not exist.

◆ remove_cell()

template<unsigned int i>
size_type GenericMap::remove_cell ( Dart_handle  dh)

Removes the i-cell containing dh.

Returns the number of darts removed from the generic map.

Precondition
is_removable<i>(dh).

See examples in Figure 28.11, Figure 28.13 and Figure 28.14.

If are_attributes_automatically_managed()==true, if i \( < \) dimension, and i+1-attributes are non void, and if there are two distinct (i+1)-cells around dart dh, Attribute_type<i+1>::type::On_merge(a1,a2) is called, with a1 the (i+1)-attribute associated to dh, and a2 the (i+1)-attribute associated to \( \beta_{i+1}\)(dh). If set, the dynamic onmerge function of i+1-attributes is also called on a1 and a2.

If are_attributes_automatically_managed()==true, if a j-cell is disconnected in two j-cells during the operation, and if j-attributes are non void, Attribute_type<j>::type::On_split(a,a') is called with a the original j-attribute and a' the new j-attribute created due to the disconnection. If set, the dynamic onsplit function of j-attributes is also called on a and a'.

Advanced

If are_attributes_automatically_managed()==false, non void attributes are not updated; thus the generic map can be no more valid after this operation.

See also
is_removable<i>
insert_cell_0_in_cell_1
insert_cell_0_in_cell_2
insert_cell_1_in_cell_2
insert_dangling_cell_1_in_cell_2
insert_cell_2_in_cell_3<InputIterator>

◆ set_attribute()

template<unsigned int i>
void GenericMap::set_attribute ( Dart_handle  dh,
Attribute_handle< i >::type  ah 
)

Associates the i-attribute of all the darts of the i-cell containing *dh to *ah.

Precondition
*dh \( \in \) darts(), 0 \( \leq \) i \( \leq \) dimension, i-attributes are non void, and *ah \( \in \) attributes<i>().

◆ set_automatic_attributes_management()

void GenericMap::set_automatic_attributes_management ( bool  update_attributes)

Set the status of the managment of the attributes of the generic map.

Advanced

After calling set_automatic_attributes_management(false), all high level operations will not update non void attributes, until the call of set_automatic_attributes_management(true). The call of set_automatic_attributes_management(true) call the correct_invalid_attributes() function.

◆ swap()

void GenericMap::swap ( GenericMap bmap)

Swap the current generic map with bmap.

There is no copy of darts and attributes thus this method runs in constant time.

◆ unmark()

void GenericMap::unmark ( Dart_const_handle  dh,
size_type  m 
) const

Unmarks *dh for the mark m.

Precondition
is_reserved(m) and *dh \( \in \) darts().

◆ unmark_all()

void GenericMap::unmark_all ( size_type  m) const

Unmarks all the darts of the generic map for m.

Precondition
is_reserved(m).