Helper class that manages all data storage for a boundary component of a dim-dimensional triangulation.
More...
#include <triangulation/detail/boundarycomponent.h>
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| ~BoundaryComponentStorage () |
| Destroys this object. More...
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const Triangulation< dim-1 > * | build () const |
| Returns the full (dim-1)-dimensional triangulation of this boundary component. More...
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bool | isReal () const |
| Determines if this boundary component is real. More...
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bool | isIdeal () const |
| Determines if this boundary component is ideal. More...
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bool | isInvalidVertex () const |
| Determines if this boundary component consists of a single invalid vertex and nothing else. More...
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void | writeTextShort (std::ostream &out) const |
| Writes a short text representation of this object to the given output stream. More...
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void | writeTextLong (std::ostream &out) const |
| Writes a detailed text representation of this object to the given output stream. More...
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size_t | size () const |
| Returns the number of (dim-1)-faces in this boundary component. More...
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size_t | countRidges () const |
| Returns the number of (dim-2)-faces in this boundary component. More...
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size_t | countFaces () const |
| Returns the number of subdim-faces in this boundary component. More...
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const std::vector< Face< dim, dim-1 > * > & | facets () const |
| Returns all (dim-1)-faces in this boundary component. More...
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const std::vector< Face< dim, subdim > * > & | faces () const |
| Returns all subdim-faces in this boundary component. More...
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Face< dim, dim-1 > * | facet (size_t index) const |
| Returns the requested (dim-1)-face in this boundary component. More...
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Face< dim, subdim > * | face (size_t index) const |
| Returns the requested subdim-face in this boundary component. More...
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Triangulation< dim > * | triangulation () const |
| Returns the triangulation to which this boundary component belongs. More...
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Component< dim > * | component () const |
| Returns the connected component of the triangulation to which this boundary component belongs. More...
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static constexpr bool | canBuild = true |
| A compile-time constant indicating whether this boundary component class supports triangulating boundary components. More...
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static constexpr bool | allowVertex |
| A compile-time constant indicating whether ideal and/or invalid vertex boundary components are both possible and recognised by this boundary component class. More...
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static constexpr bool | allFaces |
| A compile-time constant indicating whether this boundary component class stores all lower-dimensional faces (true ), or only faces of dimension dim-1 (false ). More...
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| BoundaryComponentStorage () |
| Initialises the cached boundary triangulation to null . More...
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const Triangulation< dim-1 > * | buildVertexLink () const |
| Triangulates the vertex link for an ideal or invalid vertex boundary component. More...
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void | push_back (Face< dim, subdim > *face) |
| Pushes the given face onto the end of the list of subdim-faces of this boundary component. More...
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void | reorderAndRelabelFaces (Triangulation< dim-1 > *tri) const |
| Reorders all lower-dimensional faces of the given triangulation so that they appear in the same order as the corresponding faces of this boundary component, and relabels these faces so that their vertices are numbered in a corresponding way. More...
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void | reorderAndRelabelFaces (Triangulation< tridim > *tri, const std::vector< Face< dim, tridim > * > &tridimFaces) const |
| Reorders and relabels all faces of all dimensions 0,...,subdim of the given triangulation, so that for each k, the k-faces of the given triangulation appear in the same order as the corresponding k-faces in this suite, and have their vertices numbered in a corresponding way. More...
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template<int dim, bool allFaces, bool allowVertex, bool canBuild_>
class regina::detail::BoundaryComponentStorage< dim, allFaces, allowVertex, canBuild_ >
Helper class that manages all data storage for a boundary component of a dim-dimensional triangulation.
Every class BoundaryComponent<dim> inherits from this template.
- Python:\n This base class is not present, but the "end user" class
- BoundaryComponent<dim> is.
- Template Parameters
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dim | the dimension of the underlying triangulation. This must be between 2 and 15 inclusive. |
allFaces | true if this class should store all faces of all dimensions 0,1,...,dim-1, or false if this class should only store faces of dimension dim-1. |
allowVertex | true if ideal and/or invalid vertex boundary components are both possible and recognised in dimension dim, or false if only real boundary components are supported. |
canBuild_ | true if we support triangulating boundary components, or false if this is not possible (i.e., the dimension is 2). |
◆ buildVertexLink()
Triangulates the vertex link for an ideal or invalid vertex boundary component.
- Returns
- the triangulated vertex link.
◆ component()
Returns the connected component of the triangulation to which this boundary component belongs.
- Returns
- the component containing this boundary component.
◆ countFaces()
Returns the number of subdim-faces in this boundary component.
This routine is only available where dim is one of Regina's standard dimensions.
- Python:\n Python does not support templates. Instead,
- Python users should call this function in the form
countFaces(subdim)
; that is, the template parameter subdim becomes the first argument of the function.
- Template Parameters
-
subdim | the dimension of the faces to query. This must be between 0 and dim-1 inclusive. |
- Returns
- the number of subdim-faces.
◆ countRidges()
Returns the number of (dim-2)-faces in this boundary component.
If this is an ideal or invalid vertex boundary component, then this routine will return 0.
- Returns
- the number of (dim-2)-faces in this boundary component.
◆ face()
Returns the requested subdim-face in this boundary component.
Note that the index of a face in the boundary component need not be the index of the same face in the overall triangulation. However, if this is a real boundary component (i.e., it is built from one or more (dim-1)-faces), then the index of each subdim-face in this boundary component will match the index of the corresponding subdim-face in the (dim-1)-manifold triangulation returned by build().
This routine is only available where dim is one of Regina's standard dimensions.
- Python:\n Python does not support templates. Instead,
- Python users should call this function in the form
face(subdim, index)
; that is, the template parameter subdim becomes the first argument of the function.
- Template Parameters
-
subdim | the dimension of the face to query. This must be between 0 and dim-1 inclusive. |
- Parameters
-
- Returns
- the requested face.
◆ faces()
Returns all subdim-faces in this boundary component.
The reference that is returned will remain valid only for as long as this boundary component object exists. In particular, the reference will become invalid any time that the triangulation changes (since all boundary component objects will be destroyed and others rebuilt in their place).
- Python:\n Python users should call this function in the
- form
faces(subdim)
. It will then return a Python list containing all the subdim-faces of the boundary component. Be warned that, unlike in C++, this Python list will be a snapshot of the faces when this function is called, and will not be kept up-to-date as the triangulation changes.
- Template Parameters
-
subdim | the dimension of the faces to query. This must be between 0 and dim-1 inclusive. |
- Returns
- access to the list of all subdim-faces.
◆ facet()
Returns the requested (dim-1)-face in this boundary component.
These are the top-dimensional faces for a real boundary component.
Note that the index of a face in the boundary component need not be the index of the same face in the overall triangulation. However, if this is a real boundary component (i.e., it is built from one or more (dim-1)-faces), then the index of each (dim-1)-face in this boundary component will match the index of the corresponding top-dimensional simplex in the (dim-1)-manifold triangulation returned by build().
- Parameters
-
index | the index of the desired face, ranging from 0 to size()-1 inclusive. |
- Returns
- the requested face.
◆ facets()
Returns all (dim-1)-faces in this boundary component.
The reference that is returned will remain valid only for as long as this boundary component object exists. In particular, the reference will become invalid any time that the triangulation changes (since all boundary component objects will be destroyed and others rebuilt in their place).
- Python:\n This routine returns a python list.
- Returns
- the list of all (dim-1)-faces.
◆ isIdeal()
Determines if this boundary component is ideal.
This is the case if and only if it consists of a single ideal vertex and no faces of any other dimensions.
See the BoundaryComponent class notes for an overview of ideal boundary components, which can only occur in dimensions ≥ 3, and which are only recognised where dim is one of Regina's standard dimensions.
Note that a boundary component formed from a single invalid vertex is not considered to be ideal. This means that, if a boundary component contains no faces of positive dimension, then one and only one of isIdeal() and isInvalidVertex() will return true
.
This routine is only available where dim is at least 3 and is one of Regina's standard dimensions.
- Returns
true
if and only if this boundary component is ideal.
◆ isInvalidVertex()
Determines if this boundary component consists of a single invalid vertex and nothing else.
In particular, such a boundary component must contain no faces of any positive dimension.
See the BoundaryComponent class notes for an overview of invalid vertex boundary components, which can only occur in dimensions ≥ 4, and which are only recognised where dim is one of Regina's standard dimensions.
An invalid vertex is only placed in its own boundary component if it does not already belong to some larger boundary component (for instance, if its link is an ideal (dim-1)-manifold triangulation). This means that, for a boundary component consisting of one or more (dim-1)-faces, this routine will return false
even if the boundary component also includes one or more invalid vertices.
Note that, if a boundary component contains no faces of positive dimension, then one and only one of isIdeal() and isInvalidVertex() will return true
.
This routine is only available where dim is at least 3 and is one of Regina's standard dimensions.
- Returns
true
if and only if this boundary component consists of a single invalid vertex and nothing else.
◆ isReal()
Determines if this boundary component is real.
This is the case if and only if it is formed from one or more (dim-1)-faces.
See the BoundaryComponent class notes for an overview of real, ideal, and invalid vertex boundary components.
This routine is only available where dim is at least 3 and is one of Regina's standard dimensions. (In other dimensions, real boundary components are the only types of boundary component that Regina will recognise.)
- Returns
true
if and only if this boundary component is real.
◆ push_back()
Pushes the given face onto the end of the list of subdim-faces of this boundary component.
This class does not take ownership of the given face.
- Template Parameters
-
subdim | the dimension of the face to append. This must be between 0 and dim-1 inclusive. |
- Parameters
-
face | the face to append to the list. |
◆ reorderAndRelabelFaces() [1/2]
Reorders all lower-dimensional faces of the given triangulation so that they appear in the same order as the corresponding faces of this boundary component, and relabels these faces so that their vertices are numbered in a corresponding way.
This affects all faces of dimensions 0,...,(dim-2).
- Precondition
- This is a real boundary component.
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tri is a triangulation of this boundary component.
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For each i, the ith top-dimensional simplex of tri corresponds to the ith (dim-1)-face of this boundary component, and has its vertices 0,...,(dim-1) labelled in the same way.
- Parameters
-
tri | a triangulation of this boundary component, as described above. |
◆ reorderAndRelabelFaces() [2/2]
Reorders and relabels all faces of all dimensions 0,...,subdim of the given triangulation, so that for each k, the k-faces of the given triangulation appear in the same order as the corresponding k-faces in this suite, and have their vertices numbered in a corresponding way.
- Precondition
- For each dimension k = 0,...,subdim, the k-faces of the given triangulation tri are in one-to-one correspondence with the k-faces in this suite, though not necessarily in the same order. Moreover, for each i and j, this correspondence maps the ith k-face of
tri->simplex(j)
to the ith k-face of tridimFaces[j]
.
- Template Parameters
-
tridim | the dimension of the given triangulation. This must be strictly larger than subdim, but it need not be equal to dim. |
- Parameters
-
tri | a tridim-dimensional triangulation, as described above. |
tridimFaces | a list of tridim-faces that together contain all of the faces in this suite, and that are in an ordered one-to-one correspondence with the top-dimensional simplices of tri as described in the precondition above. |
◆ size()
Returns the number of (dim-1)-faces in this boundary component.
These are the top-dimensional faces for a real boundary component.
If this is an ideal or invalid vertex boundary component, then this routine will return 0.
- Returns
- the number of (dim-1)-faces in this boundary component.
◆ triangulation()
Returns the triangulation to which this boundary component belongs.
- Returns
- the triangulation containing this boundary component.
◆ writeTextLong()
Writes a detailed text representation of this object to the given output stream.
- Python:\n Not present.
- Parameters
-
out | the output stream to which to write. |
◆ writeTextShort()
Writes a short text representation of this object to the given output stream.
- Python:\n Not present.
- Parameters
-
out | the output stream to which to write. |
◆ allFaces
A compile-time constant indicating whether this boundary component class stores all lower-dimensional faces (true
), or only faces of dimension dim-1 (false
).
This is a compile-time constant only, with no linkage - any attempt to create a reference or pointer to it will give a linker error.
- Python:\n Not present.
◆ allowVertex
A compile-time constant indicating whether ideal and/or invalid vertex boundary components are both possible and recognised by this boundary component class.
This is a compile-time constant only, with no linkage - any attempt to create a reference or pointer to it will give a linker error.
- Python:\n Not present.
The documentation for this class was generated from the following file: