Regina 7.3 Calculation Engine
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regina::SnapPeaCensusTri Class Reference

Represents a 3-manifold triangulation from the SnapPea cusped census. More...

#include <subcomplex/snappeacensustri.h>

Inheritance diagram for regina::SnapPeaCensusTri:
regina::StandardTriangulation regina::Output< StandardTriangulation >

Public Member Functions

 SnapPeaCensusTri (const SnapPeaCensusTri &)=default
 Creates a new copy of the given structure. More...
 
SnapPeaCensusTrioperator= (const SnapPeaCensusTri &)=default
 Sets this to be a copy of the given structure. More...
 
void swap (SnapPeaCensusTri &other) noexcept
 Swaps the contents of this and the given structure. More...
 
char section () const
 Returns the section of the SnapPea census to which this triangulation belongs. More...
 
unsigned long index () const
 Returns the index of this triangulation within its particular section of the SnapPea census. More...
 
bool operator== (const SnapPeaCensusTri &compare) const
 Determines whether this and the given structure represent the same triangulation from the SnapPea census. More...
 
bool operator!= (const SnapPeaCensusTri &compare) const
 Determines whether this and the given structure represent different triangulations from the SnapPea census. More...
 
std::unique_ptr< Manifoldmanifold () const override
 Returns the 3-manifold represented by this triangulation, if such a recognition routine has been implemented. More...
 
AbelianGroup homology () const override
 Returns the expected first homology group of this triangulation, if such a routine has been implemented. More...
 
std::ostream & writeName (std::ostream &out) const override
 Writes the name of this triangulation as a human-readable string to the given output stream. More...
 
std::ostream & writeTeXName (std::ostream &out) const override
 Writes the name of this triangulation in TeX format to the given output stream. More...
 
std::string name () const
 Returns the name of this specific triangulation as a human-readable string. More...
 
std::string texName () const
 Returns the name of this specific triangulation in TeX format. More...
 
virtual void writeTextShort (std::ostream &out) const
 Writes a short text representation of this object to the given output stream. More...
 
virtual void writeTextLong (std::ostream &out) const
 Writes a detailed text representation of this object to the given output stream. More...
 
std::string str () const
 Returns a short text representation of this object. More...
 
std::string utf8 () const
 Returns a short text representation of this object using unicode characters. More...
 
std::string detail () const
 Returns a detailed text representation of this object. More...
 

Static Public Member Functions

static std::unique_ptr< SnapPeaCensusTrirecognise (const Component< 3 > *comp)
 Determines if the given triangulation component is one of the smallest SnapPea census triangulations. More...
 
static std::unique_ptr< StandardTriangulationrecognise (Component< 3 > *component)
 Determines whether the given component represents one of the standard triangulations understood by Regina. More...
 
static std::unique_ptr< StandardTriangulationrecognise (const Triangulation< 3 > &tri)
 Determines whether the given triangulation represents one of the standard triangulations understood by Regina. More...
 

Static Public Attributes

static constexpr char SEC_5 = 'm'
 Represents the collection of triangulations formed from five or fewer tetrahedra (both orientable and non-orientable). More...
 
static constexpr char SEC_6_OR = 's'
 Represents the collection of orientable triangulations formed from six tetrahedra. More...
 
static constexpr char SEC_6_NOR = 'x'
 Represents the collection of non-orientable triangulations formed from six tetrahedra. More...
 
static constexpr char SEC_7_OR = 'v'
 Represents the collection of orientable triangulations formed from seven tetrahedra. More...
 
static constexpr char SEC_7_NOR = 'y'
 Represents the collection of non-orientable triangulations formed from seven tetrahedra. More...
 

Friends

class SnapPeaCensusManifold
 

Detailed Description

Represents a 3-manifold triangulation from the SnapPea cusped census.

The SnapPea cusped census is the census of cusped hyperbolic 3-manifolds formed from up to seven tetrahedra. This census was tabulated by Callahan, Hildebrand and Weeks, and is shipped with SnapPea 3.0d3 (and also with Regina).

Note
The modern cusped hyperbolic census now extends to nine tetrahedra, and indeed the 9-tetrahedron database is accessible through the Census lookup routines. However, for the time being, the scope of these SnapPeaCensusManifold and SnapPeaCensusTri classes is restricted to the original Callahan-Hildebrand-Weeks 7-tetrahedron census only.

The census is split into five different sections according to number of tetrahedra and orientability. Each of these sections corresponds to one of the section constants defined in this class.

For further details regarding the SnapPea census, see "A census of cusped hyperbolic 3-manifolds", Patrick J. Callahan, Martin V. Hildebrand and Jeffrey R. Weeks, Math. Comp. 68 (1999), no. 225, pp. 321–332.

Note that this class is closely tied to SnapPeaCensusManifold. In particular, the section constants defined in SnapPeaCensusManifold and SnapPeaCensusTri are identical, and so may be freely mixed. Furthermore, the section and index parameters of a SnapPeaCensusTri are identical to those of its corresponding SnapPeaCensusManifold.

All of the optional StandardTriangulation routines are implemented for this class.

This class supports copying but does not implement separate move operations, since its internal data is so small that copying is just as efficient. It implements the C++ Swappable requirement via its own member and global swap() functions, for consistency with the other StandardTriangulation subclasses. Note that the only way to create these objects (aside from copying or moving) is via the static member function recognise().

Constructor & Destructor Documentation

◆ SnapPeaCensusTri()

regina::SnapPeaCensusTri::SnapPeaCensusTri ( const SnapPeaCensusTri )
default

Creates a new copy of the given structure.

Member Function Documentation

◆ detail()

std::string regina::Output< StandardTriangulation , false >::detail ( ) const
inherited

Returns a detailed text representation of this object.

This text may span many lines, and should provide the user with all the information they could want. It should be human-readable, should not contain extremely long lines (which cause problems for users reading the output in a terminal), and should end with a final newline. There are no restrictions on the underlying character set.

Returns
a detailed text representation of this object.

◆ homology()

AbelianGroup regina::SnapPeaCensusTri::homology ( ) const
overridevirtual

Returns the expected first homology group of this triangulation, if such a routine has been implemented.

This routine does not work by calling Triangulation<3>::homology() on the associated real triangulation. Instead the homology is calculated directly from the known properties of this standard triangulation.

This means that homology() needs to be implemented separately for each class of standard triangulation. See the class notes for each subclass of StandardTriangulation for details on whether homology has been implemented for that particular subclass. The default implementation of this routine just throws a NotImplemented exception.

Most users will not need this routine, since presumably you already have an explicit Triangulation<3> available and so you can just call Triangulation<3>::homology() instead (which, unlike this routine, is always implemented). This StandardTriangulation::homology() routine should be seen as more of a verification/validation tool for the Regina developers.

If this StandardTriangulation describes an entire Triangulation<3> (and not just a part thereof) then the results of this routine should be identical to the homology group obtained by calling Triangulation<3>::homology() upon the associated real triangulation.

Exceptions
NotImplementedHomology calculation has not yet been implemented for this particular type of standard triangulation.
FileErrorThe homology needs to be read from file (as opposed to computed), but the file is inaccessible or its contents cannot be read and parsed correctly. Currently this can only happen for the subclass SnapPeaCensusTri, which reads its results from the SnapPea census databases that are installed with Regina.
Returns
the first homology group of this triangulation, if this functionality has been implemented.

Reimplemented from regina::StandardTriangulation.

◆ index()

unsigned long regina::SnapPeaCensusTri::index ( ) const
inline

Returns the index of this triangulation within its particular section of the SnapPea census.

Note that indices for each section begin counting at zero.

Returns
the index of this triangulation within its section.

◆ manifold()

std::unique_ptr< Manifold > regina::SnapPeaCensusTri::manifold ( ) const
overridevirtual

Returns the 3-manifold represented by this triangulation, if such a recognition routine has been implemented.

If the 3-manifold cannot be recognised then this routine will return null.

The details of which standard triangulations have 3-manifold recognition routines can be found in the notes for the corresponding subclasses of StandardTriangulation. The default implementation of this routine returns null.

It is expected that the number of triangulations whose underlying 3-manifolds can be recognised will grow between releases.

Returns
the underlying 3-manifold.

Reimplemented from regina::StandardTriangulation.

◆ name()

std::string regina::StandardTriangulation::name ( ) const
inherited

Returns the name of this specific triangulation as a human-readable string.

Returns
the name of this triangulation.

◆ operator!=()

bool regina::SnapPeaCensusTri::operator!= ( const SnapPeaCensusTri compare) const
inline

Determines whether this and the given structure represent different triangulations from the SnapPea census.

The SnapPea census manifolds x101 and x103 are homeomorphic; however, the corresponding triangulations represented by SnapPeaCensusTri will compare as different (since this class describes the specific triangulation, not the underlying manifold).

This test follows the general rule for most subclasses of StandardTriangulation (excluding fixed structures such as SnappedBall and TriSolidTorus): two objects compare as equal if and only if they have the same combinatorial parameters (which for this subclass means they describe isomorphic structures).

Parameters
comparethe structure with which this will be compared.
Returns
true if and only if this and the given structure represent different SnapPea census triangulations.

◆ operator=()

SnapPeaCensusTri & regina::SnapPeaCensusTri::operator= ( const SnapPeaCensusTri )
default

Sets this to be a copy of the given structure.

Returns
a reference to this structure.

◆ operator==()

bool regina::SnapPeaCensusTri::operator== ( const SnapPeaCensusTri compare) const
inline

Determines whether this and the given structure represent the same triangulation from the SnapPea census.

The SnapPea census manifolds x101 and x103 are homeomorphic; however, the corresponding triangulations represented by SnapPeaCensusTri will compare as different (since this class describes the specific triangulation, not the underlying manifold).

This test follows the general rule for most subclasses of StandardTriangulation (excluding fixed structures such as SnappedBall and TriSolidTorus): two objects compare as equal if and only if they have the same combinatorial parameters (which for this subclass means they describe isomorphic structures).

Parameters
comparethe structure with which this will be compared.
Returns
true if and only if this and the given structure represent the same SnapPea census triangulation.

◆ recognise() [1/3]

static std::unique_ptr< StandardTriangulation > regina::StandardTriangulation::recognise ( Component< 3 > *  component)
staticinherited

Determines whether the given component represents one of the standard triangulations understood by Regina.

The list of recognised triangulations is expected to grow between releases.

If the standard triangulation returned has boundary triangles then the given component must have the same corresponding boundary triangles, i.e., the component cannot have any further identifications of these boundary triangles with each other.

Note that the triangulation-based routine recognise(const Triangulation<3>&) may recognise more triangulations than this routine, since passing an entire triangulation allows access to more information.

Parameters
componentthe triangulation component under examination.
Returns
the details of the standard triangulation if the given component is recognised, or null otherwise.

◆ recognise() [2/3]

static std::unique_ptr< SnapPeaCensusTri > regina::SnapPeaCensusTri::recognise ( const Component< 3 > *  comp)
static

Determines if the given triangulation component is one of the smallest SnapPea census triangulations.

This routine is able to recognise a small selection of triangulations from the beginning of the SnapPea census, by way of hard-coding their structures and properties. Most triangulations from the census however will not be recognised by this routine.

This function returns by (smart) pointer for consistency with StandardTriangulation::recognise(), which makes use of the polymorphic nature of the StandardTriangulation class hierarchy.

Parameters
compthe triangulation component to examine.
Returns
a structure representing the small SnapPea census triangulation, or null if the given component is not one of the few SnapPea census triangulations recognised by this routine.

◆ recognise() [3/3]

static std::unique_ptr< StandardTriangulation > regina::StandardTriangulation::recognise ( const Triangulation< 3 > &  tri)
staticinherited

Determines whether the given triangulation represents one of the standard triangulations understood by Regina.

The list of recognised triangulations is expected to grow between releases.

If the standard triangulation returned has boundary triangles then the given triangulation must have the same corresponding boundary triangles, i.e., the triangulation cannot have any further identifications of these boundary triangles with each other.

This routine may recognise more triangulations than the component-based recognise(Component<3>*), since passing an entire triangulation allows access to more information.

Parameters
trithe triangulation under examination.
Returns
the details of the standard triangualation if the given triangulation is recognised, or null otherwise.

◆ section()

char regina::SnapPeaCensusTri::section ( ) const
inline

Returns the section of the SnapPea census to which this triangulation belongs.

This will be one of the section constants defined in this class.

Returns
the section of the SnapPea census.

◆ str()

std::string regina::Output< StandardTriangulation , false >::str ( ) const
inherited

Returns a short text representation of this object.

This text should be human-readable, should use plain ASCII characters where possible, and should not contain any newlines.

Within these limits, this short text ouptut should be as information-rich as possible, since in most cases this forms the basis for the Python __str__() and __repr__() functions.

Python
The Python "stringification" function __str__() will use precisely this function, and for most classes the Python __repr__() function will incorporate this into its output.
Returns
a short text representation of this object.

◆ swap()

void regina::SnapPeaCensusTri::swap ( SnapPeaCensusTri other)
inlinenoexcept

Swaps the contents of this and the given structure.

Parameters
otherthe structure whose contents should be swapped with this.

◆ texName()

std::string regina::StandardTriangulation::texName ( ) const
inherited

Returns the name of this specific triangulation in TeX format.

No leading or trailing dollar signs will be included.

Warning
The behaviour of this routine has changed as of Regina 4.3; in earlier versions, leading and trailing dollar signs were provided.
Returns
the name of this triangulation in TeX format.

◆ utf8()

std::string regina::Output< StandardTriangulation , false >::utf8 ( ) const
inherited

Returns a short text representation of this object using unicode characters.

Like str(), this text should be human-readable, should not contain any newlines, and (within these constraints) should be as information-rich as is reasonable.

Unlike str(), this function may use unicode characters to make the output more pleasant to read. The string that is returned will be encoded in UTF-8.

Returns
a short text representation of this object.

◆ writeName()

std::ostream & regina::SnapPeaCensusTri::writeName ( std::ostream &  out) const
overridevirtual

Writes the name of this triangulation as a human-readable string to the given output stream.

Python
Not present. Instead use the variant name() that takes no arguments and returns a string.
Parameters
outthe output stream to which to write.
Returns
a reference to the given output stream.

Implements regina::StandardTriangulation.

◆ writeTeXName()

std::ostream & regina::SnapPeaCensusTri::writeTeXName ( std::ostream &  out) const
overridevirtual

Writes the name of this triangulation in TeX format to the given output stream.

No leading or trailing dollar signs will be included.

Warning
The behaviour of this routine has changed as of Regina 4.3; in earlier versions, leading and trailing dollar signs were provided.
Python
Not present. Instead use the variant texName() that takes no arguments and returns a string.
Parameters
outthe output stream to which to write.
Returns
a reference to the given output stream.

Implements regina::StandardTriangulation.

◆ writeTextLong()

void regina::StandardTriangulation::writeTextLong ( std::ostream &  out) const
inlinevirtualinherited

Writes a detailed text representation of this object to the given output stream.

This may be reimplemented by subclasses, but the parent StandardTriangulation class offers a reasonable default implementation based on writeTextShort().

Python
Not present. Use detail() instead.
Parameters
outthe output stream to which to write.

Reimplemented in regina::AugTriSolidTorus, regina::BlockedSFS, regina::BlockedSFSLoop, regina::BlockedSFSPair, regina::BlockedSFSTriple, regina::LayeredChainPair, regina::LayeredLensSpace, regina::LayeredLoop, regina::LayeredTorusBundle, regina::PluggedTorusBundle, regina::PlugTriSolidTorus, and regina::TrivialTri.

◆ writeTextShort()

void regina::StandardTriangulation::writeTextShort ( std::ostream &  out) const
inlinevirtualinherited

Writes a short text representation of this object to the given output stream.

This may be reimplemented by subclasses, but the parent StandardTriangulation class offers a reasonable default implementation based on writeName().

Python
Not present. Use str() instead.
Parameters
outthe output stream to which to write.

Reimplemented in regina::LayeredChain, regina::LayeredSolidTorus, regina::SnappedBall, regina::SpiralSolidTorus, and regina::TriSolidTorus.

Member Data Documentation

◆ SEC_5

constexpr char regina::SnapPeaCensusTri::SEC_5 = 'm'
staticconstexpr

Represents the collection of triangulations formed from five or fewer tetrahedra (both orientable and non-orientable).

There are 415 triangulations in this section.

◆ SEC_6_NOR

constexpr char regina::SnapPeaCensusTri::SEC_6_NOR = 'x'
staticconstexpr

Represents the collection of non-orientable triangulations formed from six tetrahedra.

There are 259 triangulations in this section.

◆ SEC_6_OR

constexpr char regina::SnapPeaCensusTri::SEC_6_OR = 's'
staticconstexpr

Represents the collection of orientable triangulations formed from six tetrahedra.

There are 962 triangulations in this section.

◆ SEC_7_NOR

constexpr char regina::SnapPeaCensusTri::SEC_7_NOR = 'y'
staticconstexpr

Represents the collection of non-orientable triangulations formed from seven tetrahedra.

There are 887 triangulations in this section.

◆ SEC_7_OR

constexpr char regina::SnapPeaCensusTri::SEC_7_OR = 'v'
staticconstexpr

Represents the collection of orientable triangulations formed from seven tetrahedra.

There are 3552 triangulations in this section.


The documentation for this class was generated from the following file:

Copyright © 1999-2023, The Regina development team
This software is released under the GNU General Public License, with some additional permissions; see the source code for details.
For further information, or to submit a bug or other problem, please contact Ben Burton (bab@maths.uq.edu.au).