CGAL 4.10.1 - 3D Alpha Shapes
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#include <CGAL/Alpha_shape_3.h>
Dt.
The class Alpha_shape_3
represents the family of alpha shapes of points in the 3D space for all real \( \alpha\).
It maintains an underlying triangulation of the class Dt
. Each k-dimensional face of Dt is associated with an interval that specifies for which values of alpha the face belongs to the alpha shape. The second template parameter ExactAlphaComparisonTag
is a tag that, when set to CGAL::Tag_true
, triggers exact comparisons between alpha values. This is useful when the Delaunay triangulation is instantiated with an exact predicates inexact constructions kernel. By default the ExactAlphaComparisonTag
is set to CGAL::Tag_false
as it induces a small overhead. Note that since such a strategy does not make sense if used together with a traits class with exact constructions, the tag ExactAlphaComparisonTag
is not taken into account if Dt::Geom_traits::FT
is not a floating point number type.
Note that this class is at the same time used for basic and for weighted Alpha Shapes.
The modifying functions insert
and remove
will overwrite the one inherited from the underlying triangulation class Dt
. At the moment, only the static version is implemented.
I/O
The I/O operators are defined for iostream
, and for the window stream provided by CGAL. The format for the iostream is an internal format.
Implementation
In GENERAL
mode, the alpha intervals of each triangulation face is computed and stored at initialization time. In REGULARIZED
mode, the alpha shape intervals of edges are not stored nor computed at initialization. Edges are simply classified on the fly upon request. This allows to have much faster building of alpha shapes in REGULARIZED
mode.
Function Alpha_shape_3::alpha_find()
uses linear search, while Alpha_shape_3::alpha_lower_bound()
and Alpha_shape_3::alpha_upper_bound()
use binary search. Alpha_shape_3::number_of_solid_components()
performs a graph traversal and takes time linear in the number of cells of the underlying triangulation. Alpha_shape_3::find_optimal_alpha()
uses binary search and takes time \( O(n \log n)\), where \( n\) is the number of points.
Related Functions | |
(Note that these are not member functions.) | |
ostream & | operator<< (std::ostream &os, const Alpha_shape_3< Dt, ExactAlphaComparisonTag > &A) |
Inserts the alpha shape A for the current alpha value into the stream os . More... | |
Geomview_stream & | operator<< (Geomview_stream &W, const Alpha_shape_3< Dt, ExactAlphaComparisonTag > &A) |
Inserts the alpha shape A for the current alpha value into the Geomview stream W . More... | |
Types | |
enum | Mode { GENERAL, REGULARIZED } |
In GENERAL mode, In REGULARIZED mode,. More... | |
enum | Classification_type { EXTERIOR, SINGULAR, REGULAR, INTERIOR } |
Enum to classify the faces of the underlying triangulation with respect to the alpha shape. More... | |
typedef unspecified_type | Gt |
the alpha shape traits type. More... | |
typedef unspecified_type | FT |
the number type of alpha values. More... | |
typedef unspecified_type | size_type |
The size type. | |
typedef unspecified_type | Alpha_iterator |
A bidirectional and non-mutable iterator that allow to traverse the increasing sequence of different alpha values. More... | |
Creation | |
Alpha_shape_3 (FT alpha=0, Mode m=REGULARIZED) | |
Introduces an empty alpha shape, sets the current alpha value to alpha and the mode to m . | |
Alpha_shape_3 (Dt &dt, FT alpha=0, Mode m=REGULARIZED) | |
Builds an alpha shape of mode m from the triangulation dt . More... | |
template<class InputIterator > | |
Alpha_shape_3 (InputIterator first, InputIterator last, const FT &alpha=0, Mode m=REGULARIZED) | |
Builds an alpha shape of mode m for the points in the range [first,last) and set the current alpha value to alpha . More... | |
Modifiers | |
template<class InputIterator > | |
std::ptrdiff_t | make_alpha_shape (InputIterator first, InputIterator last) |
Initialize the alpha shape data structure for points in the range [first,last) . More... | |
void | clear () |
Clears the structure. | |
FT | set_alpha (const FT &alpha) |
Sets the \( \alpha\)-value to alpha . More... | |
Mode | set_mode (Mode m=REGULARIZED) |
Sets the mode of the alpha shape to GENERAL or REGULARIZED . More... | |
Query Functions | |
Mode | get_mode (void) const |
Returns whether the alpha shape is general or regularized. | |
const FT & | get_alpha (void) const |
Returns the current \( \alpha\)-value. | |
const FT & | get_nth_alpha (int n) const |
Returns the n -th alpha -value, sorted in an increasing order. More... | |
size_type | number_of_alphas () const |
Returns the number of different alpha-values. | |
Classification_type | classify (const Point &p, const FT &alpha=get_alpha()) const |
Locates a point p in the underlying triangulation and Classifies the associated k-face with respect to alpha . | |
Classification_type | classify (Cell_handle f, const FT &alpha=get_alpha()) const |
Classifies the cell f of the underlying triangulation with respect to alpha . | |
Classification_type | classify (Facet f, const FT &alpha=get_alpha()) const |
Classifies the facet f of the underlying triangulation with respect to alpha . | |
Classification_type | classify (Cell_handle f, int i, const FT &alpha=get_alpha()) const |
Classifies the facet of the cell f opposite to the vertex with index i of the underlying triangulation with respect to alpha . | |
Classification_type | classify (const Edge &e, const FT &alpha=get_alpha()) const |
Classifies the edge e with respect to alpha . | |
Classification_type | classify (Vertex_handle v, const FT &alpha=get_alpha()) const |
Classifies the vertex v of the underlying triangulation with respect to alpha . | |
Alpha_status< FT > | get_alpha_status (const Edge &e) const |
Returns the alpha-status of the edge e . | |
Alpha_status< FT > | get_alpha_status (const Facet &f) const |
Returns the alpha-status of the facet f . | |
template<class OutputIterator > | |
OutputIterator | get_alpha_shape_cells (OutputIterator it, Classification_type type, const FT &alpha=get_alpha()) |
Write the cells which are of type type for the alpha value alpha to the sequence pointed to by the output iterator it . More... | |
template<class OutputIterator > | |
OutputIterator | get_alpha_shape_facets (OutputIterator it, Classification_type type, const FT &alpha=get_alpha()) |
Write the facets which are of type type for the alpha value alpha to the sequence pointed to by the output iterator it . More... | |
template<class OutputIterator > | |
OutputIterator | get_alpha_shape_edges (OutputIterator it, Classification_type type, const FT &alpha=get_alpha()) |
Write the edges which are of type type for the alpha value alpha to the sequence pointed to by the output iterator it . More... | |
template<class OutputIterator > | |
OutputIterator | get_alpha_shape_vertices (OutputIterator it, Classification_type type, const FT &alpha) |
Write the vertices which are of type type for the alpha value alpha to the sequence pointed to by the output iterator it . More... | |
template<class OutputIterator > | |
OutputIterator | filtration (OutputIterator it) const |
Output all the faces of the triangulation in increasing order of the alpha value for which they appear in the alpha complex. More... | |
template<class OutputIterator > | |
OutputIterator | filtration_with_alpha_values (OutputIterator it) const |
Output all the faces of the triangulation in increasing order of the alpha value for which they appear in the alpha complex. More... | |
Traversal of the alpha-Values | |
Alpha_iterator | alpha_begin () const |
Returns an iterator that allows to traverse the sorted sequence of \( \alpha\)-values of the family of alpha shapes. | |
Alpha_iterator | alpha_end () const |
Returns the corresponding past-the-end iterator. | |
Alpha_iterator | alpha_find (const FT &alpha) const |
Returns an iterator pointing to an element with \( \alpha\)-value alpha , or the corresponding past-the-end iterator if such an element is not found. | |
Alpha_iterator | alpha_lower_bound (const FT &alpha) const |
Returns an iterator pointing to the first element with \( \alpha\)-value not less than alpha . | |
Alpha_iterator | alpha_upper_bound (const FT &alpha) const |
Returns an iterator pointing to the first element with \( \alpha\)-value greater than alpha . | |
Operations | |
size_type | number_of_solid_components (const FT &alpha=get_alpha()) const |
Returns the number of solid components of the alpha shape, that is, the number of components of its regularized version. | |
Alpha_iterator | find_optimal_alpha (size_type nb_components) const |
Returns an iterator pointing to smallest \( \alpha\) value such that the alpha shape satisfies the following two properties: More... | |
typedef unspecified_type CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::Alpha_iterator |
A bidirectional and non-mutable iterator that allow to traverse the increasing sequence of different alpha values.
value_type
is FT
. typedef unspecified_type CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::FT |
the number type of alpha values.
In case ExactAlphaComparisonTag
is CGAL::Tag_false
, it is Gt::FT.
In case ExactAlphaComparisonTag
is CGAL::Tag_true
, it is a number type allowing filtered exact comparisons (that is, interval arithmetic is first used before resorting to exact arithmetic). Access to the interval containing the exact value is provided through the function FT::Approximate_nt approx() const
where FT::Approximate_nt
is Interval_nt<Protected>
with Protected=true
. Access to the exact value is provided through the function FT::Exact_nt exact() const
where FT::Exact_nt
depends on the configuration of CGAL (it is Gmpq
if gmp
is available and Quotient<CGAL::MP_Float>
otherwise). An overload for the function double to_double(FT)
is also available. It must be noted that an object of type FT
is valid as long as the alpha shapes class that creates it is valid and has not been modified. For convenience, classical comparison operators are provided for the type FT
.
typedef unspecified_type CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::Gt |
the alpha shape traits type.
It has to derive from a triangulation traits class. For example Dt::Point
is a point class.
enum CGAL::Alpha_shape_3::Classification_type |
Enum to classify the faces of the underlying triangulation with respect to the alpha shape.
In GENERAL
mode, for \( k=(0,1,2)\), each k-dimensional simplex of the triangulation can be classified as EXTERIOR
, SINGULAR
, REGULAR
or INTERIOR
. In GENERAL
mode a \( k\) simplex is REGULAR
if it is on the boundary f the alpha complex and belongs to a \( k+1\) simplex in this complex and it is SINGULAR
if it is a boundary simplex that is not included in a \( k+1\) simplex of the complex.
In REGULARIZED
mode, for \( k=(0,1,2)\) each k-dimensional simplex of the triangulation can be classified as EXTERIOR
, REGULAR
or INTERIOR
, i.e. there is no singular faces. A \( k\) simplex is REGULAR
if it is on the boundary of alpha complex and belongs to a tetrahedral cell of the complex.
Enumerator | |
---|---|
EXTERIOR | |
SINGULAR | |
REGULAR | |
INTERIOR |
enum CGAL::Alpha_shape_3::Mode |
In GENERAL mode, In REGULARIZED mode,.
CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::Alpha_shape_3 | ( | Dt & | dt, |
FT | alpha = 0 , |
||
Mode | m = REGULARIZED |
||
) |
Builds an alpha shape of mode m
from the triangulation dt
.
dt
. CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::Alpha_shape_3 | ( | InputIterator | first, |
InputIterator | last, | ||
const FT & | alpha = 0 , |
||
Mode | m = REGULARIZED |
||
) |
Builds an alpha shape of mode m
for the points in the range [first,last)
and set the current alpha value to alpha
.
InputIterator | must be an input iterator with value type Point (the point type of the underlying triangulation.) |
OutputIterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::filtration | ( | OutputIterator | it) | const |
Output all the faces of the triangulation in increasing order of the alpha value for which they appear in the alpha complex.
In case of equal alpha value lower dimensional faces are output first.
OutputIterator | must be an output iterator accepting variables of type Object . |
Alpha_shape_3::GENERAL
is the most interesting one. OutputIterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::filtration_with_alpha_values | ( | OutputIterator | it) | const |
Output all the faces of the triangulation in increasing order of the alpha value for which they appear in the alpha complex.
In case of equal alpha value lower dimensional faces are output first. In addition the value of alpha at which each face appears are also reported. Each face and its alpha value are reported successively.
OutputIterator | must be an output iterator accepting variables of type Object and FT . The class Dispatch_output_iterator can be used for this purpose. |
Alpha_shape_3::GENERAL
is the most interesting one. Alpha_iterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::find_optimal_alpha | ( | size_type | nb_components) | const |
Returns an iterator pointing to smallest \( \alpha\) value such that the alpha shape satisfies the following two properties:
all data points are either on the boundary or in the interior of the regularized version of the alpha shape.
The number of solid component of the alpha shape is equal to or smaller than nb_components
.
OutputIterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::get_alpha_shape_cells | ( | OutputIterator | it, |
Classification_type | type, | ||
const FT & | alpha = get_alpha() |
||
) |
Write the cells which are of type type
for the alpha value alpha
to the sequence pointed to by the output iterator it
.
Returns past the end of the output sequence.
OutputIterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::get_alpha_shape_edges | ( | OutputIterator | it, |
Classification_type | type, | ||
const FT & | alpha = get_alpha() |
||
) |
Write the edges which are of type type
for the alpha value alpha
to the sequence pointed to by the output iterator it
.
Returns past the end of the output sequence.
OutputIterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::get_alpha_shape_facets | ( | OutputIterator | it, |
Classification_type | type, | ||
const FT & | alpha = get_alpha() |
||
) |
Write the facets which are of type type
for the alpha value alpha
to the sequence pointed to by the output iterator it
.
Returns past the end of the output sequence.
OutputIterator CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::get_alpha_shape_vertices | ( | OutputIterator | it, |
Classification_type | type, | ||
const FT & | alpha | ||
) |
Write the vertices which are of type type
for the alpha value alpha
to the sequence pointed to by the output iterator it
.
Returns past the end of the output sequence.
const FT& CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::get_nth_alpha | ( | int | n) | const |
Returns the n
-th alpha
-value, sorted in an increasing order.
n
< number of alphas. std::ptrdiff_t CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::make_alpha_shape | ( | InputIterator | first, |
InputIterator | last | ||
) |
Initialize the alpha shape data structure for points in the range [first,last)
.
Returns the number of data points inserted in the underlying triangulation.
If the function is applied to an non-empty alpha shape data structure, it is cleared before initialization.
InputIterator | must be an input iterator with value type Point . |
FT CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::set_alpha | ( | const FT & | alpha) |
Sets the \( \alpha\)-value to alpha
.
Returns the previous \( \alpha\)-value.
alpha
\( \geq0\). Mode CGAL::Alpha_shape_3< Dt, ExactAlphaComparisonTag >::set_mode | ( | Mode | m = REGULARIZED ) |
Sets the mode of the alpha shape to GENERAL
or REGULARIZED
.
Returns the previous mode. Changing the mode of an alpha shape entails a partial re-computation of the data structure.
|
related |
Inserts the alpha shape A
for the current alpha value into the stream os
.
Defined in CGAL/IO/io.h
Point
.
|
related |
Inserts the alpha shape A
for the current alpha value into the Geomview stream W
.
GT::Point
and GT::Triangle
.Defined in CGAL/IO/Geomview_stream.h
and CGAL/IO/alpha_shape_geomview_ostream_3.h